Product Description
NEMA G-11 G11
Epoxy Glass Cloth Laminate Sheet
REF: IEC6089-3-2 EPGC203 / NEMA G-11 certs to MIL-24768/3 GEB / Hgw-2372.4. DIN-7735
1.FEATURES
- Very low hygrometric susceptibility
- Good dielectric properties
- High resistance to friction
- Small losses at high frequency
- High resistance to flame ( V-0 )
2.APPLICATIONS
Very convenient for equipment on high frequencies and generally for all elements having to bear strong
dynamic stresses with good resistance to fatigue. It can be used at fairly high temperatures ( more than 155 OC ).
3.TECHNICAL PARAMETER
| Item | Unit | Standard Value | Test Value |
| Flexural strength perpendicular to laminations A: Under normal conditions E-1/150: Under 150±5ºC |
MPa |
≥ 340 ≥ 170 |
402 195 |
| Notch Impact strength parallel to lamination (charpy) |
kJ/m2 |
≥ 37 |
49 |
| Dielectric strength perpendicular to lamination (in oil 90±2ºC) 2.0mm in thickness |
kV/mm |
≥ 11.8 |
15.8 |
| Breakdown voltage parallel to lamination (in oil 90±2ºC) |
kV |
≥ 45 |
>60 |
| 50 Hz dielectric coefficient | – | ≤ 5.5 |
4.20 |
| 50 Hz loss factor /50 Hz | – | ≤ 0.04 | 0.571 |
| Water absorption rate D-24/23, 1.6mm in thickness | % |
≤0.25 |
0.18 |
| Insulation resistance impregnated in water, D-24/23 |
Ω | ≥ 5.0×1010 | 3.2×1011 |
| Bonding strength | N | ≥6500 | 7880 |
| Tg (TMA ) | ºC | — | 150 |
| Density | g/cm3 | 1.70-1.95 | 1.90 |
FAQ
Q: Are you trading company or manufacturer ?
A: Both
Q: How long is your delivery time?
A: Generally it is 3-5 days if the goods are in stock. or it is 5–15days if the goods are not in stock, it is according to quantity.
Q: Do you provide samples ?is it free or extra ?
A: Yes, we could offer the sample for free charge but do not pay the cost of freight.
Q: What is your terms of payment ?
A: Payment=2000USD, 30% T/T in advance ,the balance before shipment.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Insulators, Electrical Base, Shell, Motor, Switch Baseplate |
|---|---|
| Type: | Insulation Sheet |
| Chemistry: | Inorganic Insulation |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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|---|---|
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How can users troubleshoot common issues related to motor base plate misalignment?
Troubleshooting common issues related to motor base plate misalignment is essential to ensure the proper functioning and longevity of the motor system. Here are some steps users can take to troubleshoot and address these issues:
1. Visual Inspection:
Perform a visual inspection of the motor base plate and its alignment with respect to the driven equipment. Look for any obvious signs of misalignment, such as gaps, uneven contact, or visible deviations from the expected alignment. Examine the mounting bolts, shims, and other components for looseness, damage, or improper installation.
2. Measurement and Alignment Tools:
Utilize measurement and alignment tools to assess the alignment of the motor base plate. These tools may include precision levels, laser alignment systems, or dial indicators. Measure the alignment in both horizontal and vertical planes to identify any discrepancies or misalignments. This will help determine the extent and direction of the misalignment.
3. Check Mounting Bolts and Shims:
Inspect the mounting bolts and shims that secure the motor base plate to its foundation or frame. Ensure that the bolts are tightened to the recommended torque and that the shims are correctly positioned. Loose bolts or improperly placed shims can contribute to base plate misalignment. Tighten the bolts as necessary and adjust the shims to achieve proper alignment.
4. Adjusting Shims:
If the misalignment is detected, shims can be added or removed strategically to align the base plate correctly. Shims are thin, flat pieces that are placed between the base plate and the mounting surface to adjust the height and tilt. Adding or removing shims in specific areas can help correct misalignment. Follow the manufacturer’s instructions or consult alignment guidelines to ensure proper shim adjustment.
5. Recheck Alignment:
After making adjustments to the shims or mounting bolts, recheck the alignment using the measurement and alignment tools. Ensure that the alignment is within the acceptable tolerances specified by the motor manufacturer or industry standards. Repeat the adjustment process if necessary until the desired alignment is achieved.
6. Verify Coupling Alignment:
In cases where the motor is coupled to driven equipment (e.g., pumps, fans, or compressors), ensure that the coupling alignment is also checked and adjusted if needed. Misalignment between the motor and the driven equipment can contribute to base plate misalignment. Use appropriate coupling alignment tools and techniques to ensure proper alignment between the motor shaft and the driven equipment shaft.
7. Consider Professional Assistance:
If troubleshooting and adjustments performed by the user do not resolve the base plate misalignment or if the misalignment appears severe or complex, it may be necessary to seek professional assistance. Alignment experts or motor service technicians can provide specialized knowledge and equipment to accurately diagnose and correct misalignment issues.
By following these troubleshooting steps, users can identify and address common issues related to motor base plate misalignment. Proper alignment contributes to optimal motor performance, reduced wear and tear, improved energy efficiency, and decreased risk of premature failures or downtime.
How do motor base plates contribute to ease of maintenance for electric motors?
Motor base plates play a significant role in facilitating ease of maintenance for electric motors. They provide several features and benefits that simplify maintenance tasks and enhance accessibility to the motor components. Here are some ways in which motor base plates contribute to the ease of maintenance:
1. Accessibility: Motor base plates are designed to allow easy access to the motor and its components. They provide a stable and secure platform for the motor, making it easier for maintenance personnel to reach and work on various parts of the motor, such as the bearings, shaft, or wiring connections. The base plate’s design often incorporates strategic openings or cutouts that provide convenient access points for maintenance tasks.
2. Quick Removal and Installation: Motor base plates are typically designed for easy removal and installation of the motor. They often feature mounting arrangements that allow for swift disconnection and reconnection of the motor from the base plate. This simplifies maintenance activities such as motor replacement, inspection, or repair, reducing downtime and enhancing efficiency during maintenance operations.
3. Alignment Assistance: Motor base plates often include alignment features that aid in aligning the motor during installation or maintenance. These features can include reference marks, guides, or built-in leveling mechanisms that help ensure proper alignment between the motor and driven equipment. Proper alignment is critical for optimal motor performance and longevity, and the base plate’s alignment assistance simplifies this aspect of maintenance.
4. Integrated Wiring Channels: Some motor base plates are designed with integrated wiring channels or conduits that enable organized routing and protection of motor wiring. These channels help keep the wiring neatly organized and shielded from potential damage, making it easier to inspect and maintain the wiring connections. They also contribute to a cleaner and safer work environment during maintenance activities.
5. Vibration and Noise Control: Motor base plates may incorporate vibration isolation features or materials to dampen vibrations and reduce noise levels. This not only enhances the motor’s performance but also contributes to a more comfortable and safer maintenance environment. Reduced vibrations and noise make it easier for maintenance personnel to detect and diagnose any abnormal motor behavior or issues during routine inspections.
6. Mounting Provisions for Accessories: Motor base plates often include mounting provisions or brackets for attaching additional accessories or components, such as sensors, controls, or monitoring devices. These provisions simplify the integration of such accessories into the motor system, facilitating maintenance tasks such as sensor replacement or system upgrades.
7. Durability and Corrosion Resistance: Motor base plates are typically constructed from durable materials, such as steel or aluminum, that offer resistance to corrosion and environmental factors. This ensures that the base plate remains robust and reliable over time, reducing the need for frequent maintenance or replacement. The use of corrosion-resistant materials also simplifies cleaning and maintenance of the base plate itself.
By incorporating these features and benefits, motor base plates contribute to the ease of maintenance for electric motors. They enable easier access, quick removal and installation, alignment assistance, organized wiring routing, vibration control, mounting provisions, and durable construction. These aspects collectively streamline maintenance tasks, improve efficiency, and contribute to the overall reliability and longevity of the electric motor system.
Are there different types of motor base plates available for various motor sizes?
Yes, there are different types of motor base plates available to accommodate various motor sizes. Here’s a detailed explanation:
Motor base plates are designed to provide a secure and stable mounting platform for electric motors, regardless of their size. Manufacturers offer a range of base plate options to ensure compatibility with different motor sizes and configurations. The specific types of motor base plates available may vary depending on the manufacturer and the intended application.
Here are some common types of motor base plates:
1. Fixed Base Plates: Fixed motor base plates are a standard option for smaller motors. They have a fixed design and do not offer adjustable mounting slots or bolt-hole patterns. These base plates are typically used for motors with a consistent frame size and mounting configuration.
2. Slotted Base Plates: Slotted motor base plates feature adjustable slots or elongated holes to accommodate a range of motor sizes and mounting configurations. The slots allow for fine-tuning the motor’s position and alignment. Slotted base plates provide more flexibility compared to fixed base plates and are commonly used for motors with varying frame sizes and mounting requirements.
3. Adjustable Base Plates: Adjustable motor base plates offer a high degree of flexibility in terms of motor size and mounting options. These base plates typically feature multiple sets of mounting holes or slots that can be adjusted to accommodate different motor sizes, frame styles, and mounting orientations. Adjustable base plates provide versatility for motor installations in diverse industrial applications.
4. Custom Base Plates: In some cases, especially for unique motor sizes or specialized applications, custom motor base plates may be required. Custom base plates are designed and fabricated to meet specific motor requirements, taking into account factors such as motor dimensions, weight, mounting configuration, and alignment needs. These base plates are tailored to ensure a precise fit and optimal performance for the specific motor.
It’s important to consult motor manufacturers, suppliers, or industry experts to determine the appropriate motor base plate for a specific motor size and application. They can provide guidance on selecting the right base plate type and ensure compatibility with the motor’s dimensions, mounting requirements, and alignment specifications.
By offering different types of motor base plates, manufacturers cater to the diverse needs of various motor sizes and configurations, enabling reliable and efficient motor installations in industrial applications.
editor by CX 2024-05-17
China Good quality AC0971 Alumina Plate, Aluminum Oxide Plate, Al2O3 vacuum pump electric
Product Description
Ceramic Alumina Parts
Features of the ceramics parts:
1) A variety of specifications available.
2) Satisfy various technical request
3) Lower medium spoilage
4) Good insulation performance and high temperature resistance
5) High strength
6) Used in all electric products, electric heating products and wear resistant machinery parts.
7) OEM, ODM and OBM are welcomed
Alumina ceramic is kind of structural ceramics, with insulation resistance, voltage resistance, high strength, good thermal conductivity, dielectric loss, stable electrical performance characteristics. Used in electronic ceramic substrates, ceramic electrical insulation, vacuum devices, devices porcelain, spark plugs and other products. We can make the part by hot injection pressing, dry pressing, 200T isostatic pressing and extrusion productive technology etc.
Alumina Ceramic Part Application:
- Furnace process tubes
- Steel tube liners
- Coal handling wear resistance pads
- Thermocouple protection tubes
- Sandblasting nozzles
- Wire drawing dies
- Bushings and caps
- Crucibles
- Tool bits
- Saggers
- Kiln furniture
- Mechanical seals
- Fuel cell parts
- Rollers for hearth furnaces
- Welding nozzles
- Laser parts
- Gas igniters
- Electric insulator
- Ceramic guiders
- Ceramic screwdrivers
- Zirconia oxygen Sensors
- Medical and surgical components
Main performance index about alumina ceramic parts :
| Project | Test the condition | Unit | 99 porcelain | 95 porcelain | Talc porcelain | |
| Backbone | 99%AL2O3 | 95%AL2O3 | MgO.SiO2 | |||
| Physical property | Density of volume | Normal atmospheric temperature | g/cm3 | 3.8 | 3.6 | 2.8 |
| Airtight | Normal atmospheric temperature | . | .Pass | Pass | – | |
| Absorbing water rate | Normal atmospheric temperature | % | 0 | 0 | 0 | |
| Temperature that frit | °C | 1800 | 1650 | 1350 | ||
| Mechanical performance | Rockwell hardness | Normal atmospheric temperature | HRA | 88 | 86 | 76 |
| Resist the intensity of turning back | Normal atmospheric temperature | Mpa | 350 | 320 | 150 | |
| Compression strength | Normal atmospheric temperature | Mpa | 1300 | 1200 | 900 | |
| Hot performance | Use temperature at most | °C | 1700 | 1600 | 1200 | |
| Heat resistant shaking | 20O°C-1100O°C | 10Num | Pass | Pass | Pass | |
| Hot coefficient of expansion | 20O°C-80O°C | ×10-6mm/°C | 6.5-8.5 | 6.5-8.0 | 5.0-6.2 | |
| Heat-conduction rate | 25°C | W/m.k | 29 | 25 | 2.9 | |
| 300°C | W/m.k | 18 | 13 | 2 | ||
| Dielectric constant | The medium lossing | 1MHz2O°C | ×10-4 | ≤2.5 | ≤4 | ≤8.0 |
| The angle tangent is worth | 1MHz8O°C | ×10-4 | ≤3.5 | ≤4.2 | – | |
| Dielectric strength | Normal atmospheric temperature | KV/mm | 15 | 16 | 20 | |
| Dielectric constant | 1MHz2O°C | 9-10.5 | 9-10 | ≤7.5 | ||
| Resistivity of volume | 2O°C | Ω.cm | >1012 | >1012 | >1013 | |
| 10O°C | Ω.cm | 1012-1013 | 1012-1013 | 1010-1011 | ||
| 30O°C | Ω.cm | >1012 | 3.1×109 | 5×108 | ||
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Insulators, Electrical Winding Insulation, Winding Wire Coating Insulation, Electrical Base, Shell, Motor, Insulating Varnish, Switch Baseplate |
|---|---|
| Chemistry: | Organic Insulation |
| Material: | Ceramic |
| Thermal Rating: | 250 250 |
| Maximum Voltage: | <10KV |
| Classification: | Organic Insulating Material |
| Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
Where can individuals find reliable information about choosing and installing motor base plates?
When it comes to choosing and installing motor base plates, individuals can find reliable information from various sources. Here are some places where individuals can gather information to make informed decisions:
1. Manufacturer’s Documentation:
One of the primary sources of reliable information is the documentation provided by motor and motor base plate manufacturers. Manufacturers typically provide detailed product specifications, installation guidelines, and technical datasheets that contain valuable information about the selection, installation, and operation of motor base plates. These documents offer insights into the specific requirements, recommended practices, and considerations for choosing and installing motor base plates from the manufacturer’s perspective.
2. Industry Standards and Guidelines:
Industry standards and guidelines established by organizations such as the International Electrotechnical Commission (IEC) and the National Electrical Manufacturers Association (NEMA) can serve as reliable resources. These standards outline best practices, safety requirements, and performance criteria for motor and motor base plate selection and installation. Consulting relevant industry standards can provide individuals with comprehensive information and ensure compliance with industry norms.
3. Technical Publications and Journals:
Technical publications and journals focused on motor systems, electrical engineering, and industrial automation often include articles, case studies, and research papers that discuss motor base plate selection and installation. These publications are valuable resources for individuals seeking in-depth knowledge and insights from experts in the field. Examples of such publications include the IEEE Transactions on Industry Applications, the Journal of Electrical Engineering, and the Industrial Electronics Society’s Conference Publications.
4. Online Resources and Forums:
The internet offers a wealth of information through websites, forums, and online communities dedicated to motors, motor systems, and related topics. Websites of motor manufacturers, industry associations, and engineering organizations often provide resources, FAQs, and technical articles on motor base plate selection and installation. Online forums and communities allow individuals to seek advice, share experiences, and learn from the collective knowledge of professionals and enthusiasts in the field.
5. Consultation with Experts:
For complex or specialized applications, consulting with experts in the field, such as electrical engineers, motor system integrators, or consultants, can provide personalized guidance and recommendations. These experts can assess specific requirements, offer insights into motor base plate selection, and provide guidance on proper installation techniques based on their experience and expertise.
It’s important to cross-reference information from multiple sources to ensure accuracy and reliability. Motor base plate selection and installation can vary depending on factors such as motor type, application requirements, environmental conditions, and specific system constraints. Considering a range of reliable information sources can help individuals make well-informed decisions and ensure proper installation of motor base plates.
In summary, individuals can find reliable information about choosing and installing motor base plates from manufacturer documentation, industry standards and guidelines, technical publications and journals, online resources and forums, and through consultation with experts. By leveraging these resources, individuals can gather the necessary knowledge and guidance to make informed decisions and ensure successful motor base plate selection and installation for their specific applications.
Are there standard dimensions for motor base plates, or are they customizable?
Motor base plates can have both standard dimensions and customizable options, depending on the specific requirements of the motor and its intended application.
Many motor manufacturers provide standard base plates that are designed to accommodate their specific motor models. These standard base plates typically have predetermined dimensions and hole patterns that align with the motor’s mounting configuration. The dimensions of these base plates are often based on industry standards and guidelines, such as those provided by organizations like the National Electrical Manufacturers Association (NEMA).
Standard base plates are convenient and readily available, making motor installation easier and more efficient. They ensure compatibility between the motor and the base plate, which is important for proper alignment and support.
However, there are also instances where custom motor base plates are required. Customization may be necessary when dealing with unique motor designs, non-standard mounting arrangements, or specific installation constraints. In such cases, motor base plates can be fabricated or modified to meet the specific dimensional and mounting requirements of the motor.
Customizable base plates offer flexibility in adapting to different motor sizes, configurations, and installation conditions. They can be tailored to accommodate variations in motor footprints, shaft heights, and bolt hole patterns. This allows for precise alignment and secure mounting of the motor.
It’s important to note that even when using standard base plates, there may still be some degree of customization required, such as drilling additional holes or making minor modifications to fit the specific installation. This ensures proper alignment and secure attachment of the motor to the base plate.
In summary, motor base plates can have both standard dimensions and customizable options. Standard base plates are widely available and designed to fit specific motor models, while custom base plates offer flexibility to accommodate unique motor requirements or installation constraints.
Are there different types of motor base plates available for various motor sizes?
Yes, there are different types of motor base plates available to accommodate various motor sizes. Here’s a detailed explanation:
Motor base plates are designed to provide a secure and stable mounting platform for electric motors, regardless of their size. Manufacturers offer a range of base plate options to ensure compatibility with different motor sizes and configurations. The specific types of motor base plates available may vary depending on the manufacturer and the intended application.
Here are some common types of motor base plates:
1. Fixed Base Plates: Fixed motor base plates are a standard option for smaller motors. They have a fixed design and do not offer adjustable mounting slots or bolt-hole patterns. These base plates are typically used for motors with a consistent frame size and mounting configuration.
2. Slotted Base Plates: Slotted motor base plates feature adjustable slots or elongated holes to accommodate a range of motor sizes and mounting configurations. The slots allow for fine-tuning the motor’s position and alignment. Slotted base plates provide more flexibility compared to fixed base plates and are commonly used for motors with varying frame sizes and mounting requirements.
3. Adjustable Base Plates: Adjustable motor base plates offer a high degree of flexibility in terms of motor size and mounting options. These base plates typically feature multiple sets of mounting holes or slots that can be adjusted to accommodate different motor sizes, frame styles, and mounting orientations. Adjustable base plates provide versatility for motor installations in diverse industrial applications.
4. Custom Base Plates: In some cases, especially for unique motor sizes or specialized applications, custom motor base plates may be required. Custom base plates are designed and fabricated to meet specific motor requirements, taking into account factors such as motor dimensions, weight, mounting configuration, and alignment needs. These base plates are tailored to ensure a precise fit and optimal performance for the specific motor.
It’s important to consult motor manufacturers, suppliers, or industry experts to determine the appropriate motor base plate for a specific motor size and application. They can provide guidance on selecting the right base plate type and ensure compatibility with the motor’s dimensions, mounting requirements, and alignment specifications.
By offering different types of motor base plates, manufacturers cater to the diverse needs of various motor sizes and configurations, enabling reliable and efficient motor installations in industrial applications.
editor by CX 2024-05-08
China best Electric Adjustable Bed Base with Gray Fabric (Comfort200AF) vacuum pump diy
Product Description
HangZhou Comfort adjustable beds can rise and recline automatically by wireless or wire remote control, it has 4 zones adjustable; Massage options;
New model
Product features:
* Luxurious bed appearance, beautifully tailored with enhanced edge support;
*Whisper-quilted low voltage, full DC operating system;
* Luxurious chromed legs with 4 or 6PCS;
* Low profile mattress retainer;
* Gray color knitted fabric covered the bed frame;
* UL, CSA, RoHS…Listed
* MDF board, Polyfoam base with HR foam;
* 4 zones adjustable
* Any sizes are available;
| MOQ | 20 feet container |
| Estimated time of Delivery | Within 30 days based on order quantity |
| Warranty | Two Years Quality Guarantee |
Certificates
Company Profile
COMPANY PROFILE
HangZhou Comfort Industry Co.,Itd was founded in 2006, We are a factory specializing in research, design, manufacturing healthcare products, include adjustable beds, memory foam mattress, pillow, chairs, massage gun and cushion. We are dedicated to being the most reliable supplier in China market. We would like to share KONFURT quality and service with the whole world. We can design different products for different clients’ requirement. A number of innovations win the national patents every year.
|
Year Company Established: |
2006-02-16 |
|
Annual Sales Amount: |
US$10Million |
|
Total No. of Staff: |
11 – 50 People |
|
No. of R&D Staff: |
Fewer than 30 People |
|
No. of Engineers: |
Fewer than 5 People |
|
Export Ratio: |
91% – 100% |
|
OEM Services Provided: |
YES |
|
Business Type: |
Manufacturer |
|
Quality Certificate: |
Rohs, UL,CE |
|
Main Export Markets: |
North America, Western Europe, Eastern Europe, South America, Southeast Asia, Eastern Asia, Mid East, Oceania, Africa |
|
Competitive Advantage: |
1.Competitive price with good quality |
FAQ
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Suitable for: | Adult |
|---|---|
| Style: | Modern |
| Material: | Wood |
| Folded: | Unfolded |
| Height Adjustable: | Adjustable |
| Color: | White |
| Samples: |
US$ 340/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
Are there standard dimensions for motor bases, or are they customizable?
Motor bases can have both standard dimensions and customizable options, depending on the specific requirements of the motor and the application. Here’s a detailed explanation:
1. Standard Dimensions: Motor bases often follow industry standards for certain motor sizes. These standardized bases have predefined dimensions that correspond to specific motor frame sizes. For example, the National Electrical Manufacturers Association (NEMA) provides guidelines and standards that define the dimensions and mounting configurations for various motor frame sizes. These standards ensure compatibility and ease of interchangeability between motors and motor bases within the same frame size category.
Standard motor bases typically have specific hole patterns, bolt sizes, and mounting dimensions that align with the corresponding motor frame size. This allows for straightforward and consistent installation of motors using standard bases. Standardization provides convenience, simplifies sourcing and replacement of motor bases, and ensures compatibility with a wide range of motor manufacturers.
2. Customizable Options: In addition to standard dimensions, motor bases can also be customized to suit specific requirements. Customization allows for flexibility in adapting the base to unique motor sizes, mounting configurations, or application constraints. Manufacturers may offer customization options that include variations in dimensions, hole patterns, mounting features, and material choices.
Customizable motor bases are particularly useful when dealing with non-standard motor sizes, specialized mounting requirements, or unique application environments. By tailoring the motor base to specific needs, it’s possible to optimize the installation, ensure proper alignment, and accommodate space limitations.
When choosing between standard or customizable motor bases, it’s important to consider factors such as motor frame size, load capacity, mounting options, environmental conditions, and any specific installation constraints. Standard bases are readily available, cost-effective, and suitable for most applications that adhere to standard motor sizes. On the other hand, customizable bases offer flexibility and fine-tuning options for non-standard or specialized installations.
In summary, motor bases can have standard dimensions based on industry guidelines and standards, such as those provided by NEMA. These standardized bases ensure compatibility between motors and motor bases within the same frame size category. However, motor bases can also be customized to accommodate non-standard motor sizes, unique mounting requirements, or specific application constraints. Customization options allow for flexibility and optimization of the motor base to meet specific needs.
Where can individuals find reliable information about choosing and installing motor bases?
Individuals looking for reliable information about choosing and installing motor bases can explore the following sources:
1. Manufacturer’s Documentation: Motor manufacturers often provide detailed documentation, including product catalogs, datasheets, and installation guides. These resources offer valuable information about their motor bases, including specifications, compatibility, installation requirements, and maintenance guidelines. Manufacturers’ websites are a good starting point to access this documentation.
2. Industry Associations and Standards Organizations: Industry associations and standards organizations such as the National Electrical Manufacturers Association (NEMA) and the International Electrotechnical Commission (IEC) publish guidelines, standards, and best practices related to motors and motor bases. Their websites and publications can provide valuable insights into motor base selection, installation, and compliance with industry standards.
3. Technical Literature and Journals: Technical literature and journals focusing on electrical engineering, mechanical engineering, or industrial automation often cover topics related to motors and motor bases. These publications feature articles, research papers, and case studies that can provide in-depth knowledge about motor base technology, advancements, and installation techniques.
4. Online Resources and Forums: Online resources such as websites, forums, and discussion boards dedicated to motors and motor-related topics can be valuable sources of information. Websites of motor manufacturers, industry blogs, and engineering forums often have sections or threads discussing motor base selection, installation tips, and best practices. Participating in these online communities can also allow individuals to ask specific questions and seek advice from industry professionals.
5. Consulting with Experts: Consulting with experts in the field, such as motor manufacturers, suppliers, or experienced engineers, can provide personalized guidance and recommendations. These experts can offer insights based on their industry knowledge, experience, and familiarity with specific motor applications. They can help individuals navigate the selection process, address installation challenges, and ensure proper motor base integration.
It’s important to cross-reference information from multiple sources to ensure accuracy and reliability. Motor bases play a critical role in motor performance and efficiency, and selecting the right base requires careful consideration of factors such as motor type, size, load requirements, environmental conditions, and alignment needs.
By leveraging the information from reliable sources and seeking expert advice when needed, individuals can make informed decisions when choosing and installing motor bases, resulting in optimal motor performance and longevity.
What role does a motor base play in reducing vibration and noise from motors?
A motor base plays a crucial role in reducing vibration and noise generated by motors. Here’s a detailed explanation:
Electric motors can produce significant vibrations and noise during operation, which can have negative effects on equipment, structures, and human comfort. Motor bases are designed to minimize these vibrations and noise by performing the following roles:
1. Vibration Dampening: Motor bases are constructed using materials and designs that help dampen the vibrations produced by motors. Materials with good vibration-dampening properties, such as steel or cast iron, are commonly used in motor bases. These materials absorb and dissipate vibrations, preventing them from propagating to the supporting structure. By reducing vibrations, motor bases help minimize the transmission of vibrations to surrounding equipment, which can prevent damage, improve performance, and extend the lifespan of connected machinery.
2. Isolation: Some motor bases incorporate isolation features to further reduce vibration transmission. These bases may include elastomeric mounts, springs, or other damping elements that isolate the motor from the mounting surface. These isolating elements absorb and dissipate vibrations, providing an additional layer of protection against vibration transmission. Isolation helps prevent vibrations from being transferred to the supporting structure, reducing the potential for structural damage and minimizing noise generation.
3. Stability and Alignment: Proper alignment and stability of the motor are essential for reducing vibrations. Motor bases provide a secure and stable mounting platform that ensures the motor remains properly aligned during operation. Proper alignment helps reduce vibrations caused by misalignment, unbalanced loads, or belt tension issues. By maintaining stability and alignment, motor bases contribute to smoother motor operation, minimizing vibrations and associated noise.
4. Noise Absorption: In addition to reducing vibrations, motor bases can also help absorb and dampen noise generated by motors. The materials and construction of the base can contribute to noise reduction. For example, motor bases made of sound-absorbing materials or incorporating noise-reducing designs can help mitigate the noise generated by the motor, creating a quieter working environment.
By addressing vibration and noise issues, motor bases contribute to improved equipment performance, reduced maintenance needs, enhanced operator comfort, and increased workplace safety. However, it’s important to note that the effectiveness of a motor base in reducing vibration and noise depends on factors such as the motor size, operating conditions, mounting configuration, and the specific design features of the base.
In summary, motor bases play a vital role in reducing vibration and noise from motors. They dampen vibrations, isolate the motor, provide stability and alignment, and can contribute to noise absorption. By minimizing vibrations and noise, motor bases help protect equipment, structures, and human well-being, ensuring smoother and quieter motor operation.
editor by CX 2024-04-04
China Hot selling Electric Insulation Mica Sheet Muscovite or Phlogopite Mica Plate vacuum pump ac
Product Description
| Electric Insulation Mica Sheet Muscovite Or Phlogopite Mica Plate | |||
| Model | YMP-008 | Size | 1000*600mm |
| Dielectric strength | 20Kv/mm | Temperature | 500ºC |
| Material | mica | Color | Silver |
| MOQ | 50 kg | FOB price | USD2.5/pcs |
| Our products | Mica heating band, Electric dryer heating element, etc; >>HOME | ||
| Packing | 50 kg/ctn | ||
| Delivery time | Shipped in 20-25 days after payment; | ||
| Supply ability | 1000kg/day | ||
| Payment terms | TT bank transfer, LC, etc | ||
| Shipping way | Shipping by sea; FOB HangZhou or HangZhou | ||
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Insulators, Electrical Winding Insulation, Winding Wire Coating Insulation, Electrical Base, Shell, Motor, Insulating Varnish, Switch Baseplate |
|---|---|
| Type: | Insulation Sheet |
| Chemistry: | Inorganic Insulation |
| Samples: |
US$ 5/kg
1 kg(Min.Order) | Order Sample |
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| Customization: |
Available
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about shipping cost and estimated delivery time. |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How can users troubleshoot common issues related to motor base plate misalignment?
Troubleshooting common issues related to motor base plate misalignment is essential to ensure the proper functioning and longevity of the motor system. Here are some steps users can take to troubleshoot and address these issues:
1. Visual Inspection:
Perform a visual inspection of the motor base plate and its alignment with respect to the driven equipment. Look for any obvious signs of misalignment, such as gaps, uneven contact, or visible deviations from the expected alignment. Examine the mounting bolts, shims, and other components for looseness, damage, or improper installation.
2. Measurement and Alignment Tools:
Utilize measurement and alignment tools to assess the alignment of the motor base plate. These tools may include precision levels, laser alignment systems, or dial indicators. Measure the alignment in both horizontal and vertical planes to identify any discrepancies or misalignments. This will help determine the extent and direction of the misalignment.
3. Check Mounting Bolts and Shims:
Inspect the mounting bolts and shims that secure the motor base plate to its foundation or frame. Ensure that the bolts are tightened to the recommended torque and that the shims are correctly positioned. Loose bolts or improperly placed shims can contribute to base plate misalignment. Tighten the bolts as necessary and adjust the shims to achieve proper alignment.
4. Adjusting Shims:
If the misalignment is detected, shims can be added or removed strategically to align the base plate correctly. Shims are thin, flat pieces that are placed between the base plate and the mounting surface to adjust the height and tilt. Adding or removing shims in specific areas can help correct misalignment. Follow the manufacturer’s instructions or consult alignment guidelines to ensure proper shim adjustment.
5. Recheck Alignment:
After making adjustments to the shims or mounting bolts, recheck the alignment using the measurement and alignment tools. Ensure that the alignment is within the acceptable tolerances specified by the motor manufacturer or industry standards. Repeat the adjustment process if necessary until the desired alignment is achieved.
6. Verify Coupling Alignment:
In cases where the motor is coupled to driven equipment (e.g., pumps, fans, or compressors), ensure that the coupling alignment is also checked and adjusted if needed. Misalignment between the motor and the driven equipment can contribute to base plate misalignment. Use appropriate coupling alignment tools and techniques to ensure proper alignment between the motor shaft and the driven equipment shaft.
7. Consider Professional Assistance:
If troubleshooting and adjustments performed by the user do not resolve the base plate misalignment or if the misalignment appears severe or complex, it may be necessary to seek professional assistance. Alignment experts or motor service technicians can provide specialized knowledge and equipment to accurately diagnose and correct misalignment issues.
By following these troubleshooting steps, users can identify and address common issues related to motor base plate misalignment. Proper alignment contributes to optimal motor performance, reduced wear and tear, improved energy efficiency, and decreased risk of premature failures or downtime.
Are motor base plates compatible with different types of motor mounts and couplings?
Motor base plates are typically designed to be compatible with various types of motor mounts and couplings, allowing for flexibility in motor installation and integration with other components.
Motor mounts are used to secure the motor to the base plate and provide a means of attaching the motor to the driven equipment or system. Different types of motor mounts include foot mounts, flange mounts, and face mounts, among others. Motor base plates are designed to accommodate these various mount types by incorporating specific hole patterns, slots, or mounting provisions that align with the motor’s mounting configuration. This allows for easy and secure attachment of the motor to the base plate, regardless of the mount type used.
Couplings, on the other hand, are used to connect the motor shaft to the driven equipment’s shaft, enabling power transmission. There are different types of couplings, such as flexible couplings, rigid couplings, and gear couplings, each with its own design and installation requirements. Motor base plates are typically designed to provide adequate clearance and space for the installation of different types of couplings. This ensures that the motor and the coupling can be properly aligned and connected without interference from the base plate.
In some cases, motor base plates may have additional features or provisions specifically designed to facilitate the installation and compatibility with certain types of motor mounts and couplings. For example, they may include adjustable slots or mounting brackets that allow for fine-tuning the alignment or positioning of the motor mount or coupling.
It’s important to note that while motor base plates are generally compatible with different types of motor mounts and couplings, it is still essential to carefully consider the specific requirements and recommendations provided by the motor and coupling manufacturers. This ensures proper alignment, secure attachment, and reliable performance of the motor and its associated components.
In summary, motor base plates are designed to be compatible with various types of motor mounts and couplings. They incorporate specific hole patterns, slots, or mounting provisions to accommodate different mount types and provide sufficient clearance for the installation of various coupling designs. However, it is crucial to follow the manufacturer’s guidelines and recommendations to ensure proper compatibility and performance when integrating motor mounts and couplings with the motor base plate.
What materials are commonly used in the construction of durable motor base plates?
Motor base plates are constructed using various materials known for their durability and strength. Here’s a detailed explanation:
1. Steel: Steel is one of the most commonly used materials for motor base plates. It offers excellent strength, rigidity, and resistance to deformation. Steel base plates are typically made from mild steel or stainless steel, depending on the specific application requirements. Mild steel base plates are cost-effective and suitable for general industrial applications, while stainless steel base plates provide enhanced corrosion resistance and are often used in corrosive or hygienic environments.
2. Cast Iron: Cast iron is another popular material for motor base plates, particularly for larger motors. Cast iron base plates offer exceptional stability and rigidity, making them suitable for heavy-duty applications. Cast iron provides excellent vibration damping properties, which helps reduce the transmission of motor vibrations to the surrounding equipment.
3. Aluminum: Aluminum base plates are favored for their lightweight nature, making them suitable for applications where weight reduction is critical. Aluminum offers good strength-to-weight ratio and corrosion resistance. It is commonly used in smaller motors or applications where mobility or ease of handling is important.
4. Composite Materials: In some cases, composite materials may be used to construct motor base plates. Composite base plates are made by combining materials such as fiberglass, carbon fiber, or reinforced plastics with resins. These materials offer high strength, low weight, and resistance to corrosion. Composite base plates are often used in specialized applications where specific properties like electrical insulation or chemical resistance are required.
It’s important to note that the choice of material for a motor base plate depends on factors such as motor size, application requirements, environmental conditions, and budget constraints. Manufacturers and industry standards may provide guidelines for selecting the appropriate material based on these factors.
By using durable materials such as steel, cast iron, aluminum, or composites, motor base plates ensure the long-term stability, strength, and reliability of the motor installation in various industrial applications.
editor by CX 2024-04-03
China manufacturer Split King Electric Adjustable Base with German Okin Motors vacuum pump electric
Product Description
Split King Electric Adjustable Base with German Okin Motors
PRODUCT DESCRIPTION
| Item no.: | KFT-100F |
| Desc: | Electric adjustable bed frame |
| Option size: | Twin XL:80×38″(203x96cm) QUEEN:80×60″(203x152cm) KING Split:76×80:(203x91cm) |
| Out cover: | Linen fabric+black non-slip or white |
| Accessory options: | Adjustable legs/USB/Massage/Led Light |
| Available color: | Grey/Brown/Black/Customized |
| Weight limited: | 650lbs |
| Mattress stopper: | 1 pc |
| Foldable: | No |
| Service provided: | 1.OEM & ODM service 2.Customer size available 3.Sample provided |
Certificates
Company Profile
FAQ
Q:Are you factory or trading company?
A:We are a manufacturer factory,professional in research,design,manufacturing comfort healthcare products.
Q:Can we get your furniture made to a special size or our design?
A:Yes, we offer custom-made service to our clients. You need to provide us some technical data such as dimension and mark.
Q:Can you give me a discount?
A:Because we are factory, our policy is that the bigger quantity, the lower price .So our quotation is based on your order quantity.
Q:Can you print our own logo on the products ?
A:Yes, but it will have extra cost (The bigger your order is, the lower the price will be). You just need to send us the source file of logo.
Q:Can I order a sample or trial order to test the quality and market?
A:Yes, of course. You are welcome to get sample at any time.
Q: What is your delivery time?
A:The time of delivery is 30 days after we received the deposit and confirm the order.
Q:What is the shipping port?
A:We ship the goods via HangZhou, ZheJiang port.
Q:What are your payment terms?
A:We accept 30% T/T in advance, 70% in the period of shipment. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Suitable for: | All |
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| Size: | Single |
| Style: | Modern |
| Samples: |
US$ 367.5/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Are motor bases compatible with different types of motor mounts and couplings?
Motor bases are designed to be compatible with different types of motor mounts and couplings. Here’s a detailed explanation:
1. Motor Mounts: Motor bases typically provide standard mounting options that are compatible with various motor mount configurations. Common motor mount types include:
- Foot Mounts: Motor bases with foot mounts have slots or holes that align with the mounting feet on the motor. These bases allow for secure attachment and proper alignment of the motor.
- Flange Mounts: Some motors have flanges instead of feet for mounting. Motor bases designed for flange-mounted motors have matching flange patterns that ensure proper alignment and secure attachment.
- Face Mounts: In certain applications, motors are mounted directly to a surface using a face mount configuration. Motor bases compatible with face mounts provide the necessary mounting features, such as bolt patterns or mounting brackets, to facilitate this type of installation.
Motor bases are typically available in different configurations to accommodate these various motor mount types. This compatibility ensures that the motor base can securely and correctly mount different motor types, allowing for flexibility and ease of installation.
2. Motor Couplings: Motor bases are not directly involved in the coupling between the motor and driven equipment. The coupling is a separate component that connects the motor shaft to the driven shaft, such as a pump or gearbox. Motor bases do not have specific compatibility requirements with motor couplings.
However, it’s important to consider the space and clearance requirements for the coupling when selecting a motor base. Motor bases should provide adequate space for the coupling and allow for proper alignment between the motor and driven equipment.
Motor bases play a vital role in supporting and aligning the motor, irrespective of the type of motor mount or coupling used. They provide a secure and stable platform for mounting the motor, ensuring proper alignment, minimizing vibrations, and supporting the overall performance of the motor.
When selecting a motor base, it’s essential to consider the motor mount type specified by the motor manufacturer and ensure compatibility with the chosen base. Additionally, considering the space requirements for the motor coupling and its alignment with the driven equipment can help determine the appropriate motor base configuration.
In summary, motor bases are designed to be compatible with different types of motor mounts, including foot mounts, flange mounts, and face mounts. They provide the necessary features and configurations to securely and properly mount the motor. Motor bases are not directly involved in motor coupling, but they should accommodate the space and alignment requirements of the coupling. Considering motor mount compatibility and coupling clearance when selecting a motor base ensures a well-integrated and efficient motor installation.
What role does corrosion resistance play in the selection of motor bases?
Corrosion resistance plays a crucial role in the selection of motor bases. Here’s a detailed explanation:
1. Protection of Motor Base: Motor bases are often exposed to various corrosive agents such as moisture, chemicals, saltwater, or industrial gases. Corrosion-resistant motor bases are designed to withstand these corrosive environments and prevent the deterioration of the base material. By selecting a corrosion-resistant motor base, you can ensure its durability and longevity, reducing the risk of premature failure or structural damage.
2. Preservation of Aesthetic and Functional Appearance: Corrosion can impact the aesthetic appearance of the motor base, causing discoloration, rust, or pitting. However, corrosion resistance helps maintain the visual appeal of the motor base over time. Additionally, corrosion can compromise the functionality of the motor base by weakening its structural integrity or hindering its adjustability features. By choosing a corrosion-resistant motor base, you can preserve both the aesthetic and functional aspects of the base.
3. Protection of Surrounding Equipment: Corrosion can extend beyond the motor base itself and affect other components or equipment in the vicinity. For example, if a corroded motor base transfers rust or contaminants to connected equipment, it can lead to operational issues or premature failure of those components. Opting for a corrosion-resistant motor base helps protect the surrounding equipment and ensures the smooth operation and reliability of the entire system.
4. Improved Maintenance Efficiency: Corrosion-resistant motor bases require less frequent maintenance and repair. They are less prone to degradation, which reduces the need for regular inspections, cleaning, and surface treatments. This not only saves time and effort but also minimizes maintenance costs associated with corrosion-related issues.
5. Environmental Compatibility: Industries or applications that involve exposure to corrosive environments, such as coastal areas, chemical plants, or wastewater treatment facilities, require motor bases that can withstand these conditions. Corrosion-resistant motor bases are designed to meet the specific environmental challenges and provide reliable performance in such demanding settings.
6. Long-Term Cost Savings: Although corrosion-resistant motor bases may have a higher initial cost compared to standard bases, they offer long-term cost savings. By investing in a high-quality corrosion-resistant motor base, you can mitigate the expenses associated with premature replacement, repairs, and downtime caused by corrosion-related issues.
When selecting a motor base, consider the environmental conditions, exposure to corrosive agents, and the expected service life of the motor base. Consult with manufacturers or suppliers to identify corrosion-resistant options that are compatible with the specific application requirements. They can provide guidance on suitable materials, coatings, or finishes that offer optimal corrosion resistance for your motor base.
What materials are commonly used in the construction of durable motor bases?
Durable motor bases are constructed using various materials that provide strength, stability, and longevity. Here’s a detailed explanation:
Motor bases are designed to withstand the weight and operational forces of electric motors while maintaining stability and alignment. The choice of materials for motor base construction depends on factors such as the motor size, application requirements, and environmental conditions. Here are some commonly used materials:
1. Steel: Steel is one of the most commonly used materials for motor bases due to its exceptional strength and durability. Motor bases made of steel can withstand heavy loads and resist deformation. Steel motor bases are known for their rigidity, stability, and ability to dampen vibrations. They are suitable for a wide range of motor sizes and industrial applications.
2. Cast Iron: Cast iron is another popular material for motor bases, especially for larger motor sizes. Cast iron offers excellent stability and resistance to deformation under heavy loads. It has high compressive strength and can effectively absorb and dampen vibrations generated during motor operation. Cast iron motor bases are known for their long-lasting performance and suitability for demanding industrial environments.
3. Aluminum: Aluminum motor bases are commonly used for smaller or lighter motor applications. Aluminum is lightweight, corrosion-resistant, and offers good thermal conductivity. Motor bases made of aluminum are easy to handle and install. They are often preferred in applications where weight reduction is desired, such as in portable or mobile equipment.
4. Composite Materials: In some cases, motor bases may be constructed using composite materials such as fiberglass-reinforced plastic (FRP). Composite motor bases offer a combination of strength, lightweight construction, and corrosion resistance. They are particularly suitable for applications where weight reduction, electrical insulation, or resistance to chemicals and corrosive environments are important considerations.
5. Other Materials: Depending on specific requirements, motor bases can also be constructed using other materials such as stainless steel, galvanized steel, or specialized alloys. These materials may be chosen for their specific properties, such as resistance to corrosion, high-temperature applications, or compatibility with certain environmental conditions.
When selecting a motor base material, it’s essential to consider factors such as load capacity, environmental conditions (such as exposure to moisture, chemicals, or extreme temperatures), and the specific needs of the application.
In summary, durable motor bases are commonly constructed using materials such as steel, cast iron, aluminum, composite materials, and other specialized alloys. Each material offers specific advantages in terms of strength, stability, weight, corrosion resistance, and other properties, allowing motor bases to withstand the demands of industrial applications.
editor by CX 2024-03-26
China Professional Textile Machinery Accessories Spare Parts Cast Iron Electric Motor Base Mount vacuum pump booster
Product Description
1
Name: Textile Machinery Accessories Spare Parts Cast Iron Electric Motor Base Mount
Material: Ductile Iron
Size: Customized
Packing: Non-solid wood standard export plywood case
Min order: 1000pcs.
Standard: ASTM, GB
| Process | Sand Casting | ||||||
| Material | Grey Iron , Ductile Iron, Carbon Steel | ||||||
| Weight | 0.1Kg~20Kg | ||||||
| Testing instrument | composition testing | Spectrometer, Metallographic microscope | |||||
| Performance testing | Hardness tester, Tensile testing machine | ||||||
| Size Measuring | Vernier Caliper, Depth Caliper, feeler gauge,Thread Gauge , Height Gauge | ||||||
| Roughness | Ra1.6~Ra6.3 | ||||||
| Machining Equipment | CNC Center , CNC Machines, Turning, Drilling, Milling, Boring machine,Grinding Machines, | ||||||
| Wire EDM,Laser Cutting&Welding, Plasma Cutting &Welding, EDM etc. | |||||||
| Quality control | Sampling inspection of raw materials and semi-finished products, 100% Inspection of finished products | ||||||
| Surface Treatment | Sand Blast , Painting, Powder Coating, Galvanized , Hot Galvanized | ||||||
| Production Capacity | 60000T / Years | ||||||
| Lead Time | Normally 30 – 45 Days. | ||||||
| Payment Terms | T/T , L/C | ||||||
| Material Standard | ASTM , AISI , DIN , BS, JIS, GB, | ||||||
| Certification | ISO9001:2008, IATF16949:2016 | ||||||
2
Quality Control
We insist that the survival of the company should depend on the products quality continuous improvement, without which we cannot survive for long.
Our product quality control system
Quality control involves the inspection and control of incoming materials, production process and finished products.
1 Firstly, metallurgical microscope analysis is performed on randomly sampled incoming materials to ensure that the chemical composition meets the production requirements.
2 Then, during the production process, there are QC personnel to conduct timely spot checks to ensure that the product is free of defects during the manufacturing process and to coordinate and handling of any abnormal quality issues that may arise.
3 The final step in the production process is a magnetic particle detector for metal parts to detect hidden cracks or other defects.
4 All the finished metal parts is sampled in proportion and sent to the laboratory for various mechanical property tests and dimensional measurements, and the surface quality is manually 100% inspected.
5 About the quality management system, we strictly carry out system management in accordance with ISO9001 and TS16949 quality standards and 5S lean production management is implemented on the production site.
3
Company profile
Establis5hed in 2018, HiHangZhou Precision Forging Technology Co., Ltd. is 1 of the subsidiaries of HiHangZhou Group, a globally recognized enterprise Involved in multiple fields of high-end machine and equipment manufacturing. Our company is the expert in forging ,casting and machining metal application solutions for manufacturing industries.
We provide top-level competitive ferrous metals products and services which are used in the fields of vehicle, rail, power generation, mining and excavation, forestry and agriculture machinery etc. We have passed ISO/TS16949 quality management system certification in 2571 .
HiHangZhou Precision Forging Technology Co., Ltd. pursue the principle of ” try our best to build the company into an ideal platform for all of employees to achieve our value and to contribute to society”, Through the efficient, positive, responsible, open and innovative team, focusing on our customers’ needs, quick response, continuous improvement,meeting the customers’ requirement for quality, cost, delivery and service and striving to exceed our customers’ expectations. We are striving to be a leading forged metal products provider in the industry.
4
Our Advantages:
Brand
Our parent company, HiHangZhou Group, is a world-renowned high-end machinery manufacturing enterprise with 40 domestic subsidiaries and branches and 8 foreign manufacturing plants. Has long-term experience and good reputation in cooperation with world-renowned enterprises.
Technology
We have a complete production process and equipment research and development capabilities for ferrous metals forming. More than 25 years of production experience in forging equipment and casting equipment manufacturers, make us more thoroughly get all the performance of each equipment. One-third of our company’s employees are technician and R&D personnel, ensuring that high-quality products are produced with high efficiency.
Service
We can provide custom and standard manufacturing services with multiple manufacturing process integrations. The quality and delivery of products can be fully guaranteed, and the ability to communicate quickly and effectively.
Culture
The unique corporate culture can give full play to the potential of individuals and provide a strong vitality for the sustainable development of the company.
Social responsibility
Our company strictly implements low-carbon environmental protection, energy-saving and emission-reduction production, and is a benchmark enterprise in local region.
5
FAQ
1.
Q: Are you a trading company or a manufacturer?
A: Obviously we are a manufacturer of forging products, casting products and also have a high level of machining capabilities.
2.
Q: What series products do your have?
A: We are mainly engaged in forming processing of ferrous metals, including processing by casting , forging and machining. As you know, such machinery parts can be observed in various industries of equipment manufacturing.
3
Q: Do you provide samples? is it free?
A: Yes, we commonly provide samples according to the traditional practice, but we also need customers to provide a freight pay-by-account number to show mutual CHINAMFG of cooperation.
4
Q: What is your minimum order quantity?
A: Yes, we require all international orders to have an minimum order quantity. The quantity is up to the exact products feature or property such as the material, weight, construction etc.
5
Q: What is the lead time?
A: Generally our forging products and casting products need to make new dies or molds, the time of making new dies or molds and samples within 30-45 days, and the large batch production time within 30-45 days. it’s also according to the parts structural complexity and quantity.
6
Q: What kinds of payment methods do you accept?
A: You can make the payment by T/T or L/C. 30% deposit in advance, 70% balance against the copy of B/L.
Certification
| Warranty: | 1 Years |
|---|---|
| Certification: | ISO9001: 2000 |
| Customized: | Customized |
| After-sales Service: | 2 Years |
| MOQ: | 1000 |
| Weight: | 1-200 Kgs |
| Samples: |
US$ 20/Piece
1 Piece(Min.Order) | |
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| Customization: |
Available
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How does the selection of a motor base impact the overall performance of the motor?
The selection of a motor base can have a significant impact on the overall performance of the motor. Here’s a detailed explanation:
1. Vibration and Noise Reduction: The motor base plays a crucial role in reducing vibration and noise generated by the motor. A properly selected motor base with vibration-dampening properties, isolation features, and noise-reducing designs can effectively minimize vibrations and noise. By reducing these unwanted effects, the motor base helps improve the overall performance of the motor by enhancing equipment reliability, reducing maintenance needs, and creating a quieter working environment.
2. Stability and Alignment: A motor base provides a stable mounting platform that ensures proper alignment of the motor. Proper alignment is essential for optimal motor performance. Misalignment can lead to increased friction, wear and tear, reduced efficiency, and premature failure of motor components. By maintaining stability and alignment, the motor base helps the motor operate smoothly and efficiently, maximizing its performance and lifespan.
3. Structural Integrity: The motor base supports the weight and dynamic forces of the motor. It must be robust and structurally sound to withstand the mechanical stresses imposed during motor operation. A well-selected motor base with adequate load-bearing capacity and structural strength ensures the motor remains securely mounted, preventing excessive vibration, movement, or structural damage. This contributes to the overall performance and reliability of the motor and the connected equipment.
4. Heat Dissipation: Motors generate heat during operation, and efficient heat dissipation is crucial for maintaining optimal motor performance and preventing overheating. The motor base can impact heat dissipation by providing proper airflow and ventilation around the motor. Well-designed motor bases often incorporate features such as cooling fins, ventilation channels, or heat sinks to facilitate heat dissipation. Effective heat dissipation helps prevent motor overheating, improves efficiency, and prolongs the motor’s operational life.
5. Installation Flexibility: The motor base’s design and features can impact the ease and flexibility of motor installation. Features such as adjustable mounting slots, rotatable base plates, or customization options allow for easier installation in various orientations, adaptability to different mounting configurations, and accommodation of specific application requirements. A well-selected motor base that offers installation flexibility simplifies the installation process, saves time, and ensures proper motor positioning, contributing to overall motor performance.
When selecting a motor base, it’s important to consider factors such as motor size, load requirements, environmental conditions, vibration and noise considerations, and any specific installation constraints. Choosing the right motor base that aligns with these factors can optimize motor performance, improve reliability, reduce maintenance needs, and enhance overall operational efficiency.
In summary, the selection of a motor base has a direct impact on the overall performance of the motor. A well-chosen motor base reduces vibration and noise, ensures stability and alignment, supports structural integrity, facilitates heat dissipation, and provides installation flexibility. By considering the specific requirements of the motor and the application, the right motor base can enhance motor performance, reliability, and efficiency.
How can users troubleshoot common issues related to motor base misalignment?
Troubleshooting common issues related to motor base misalignment can help ensure optimal performance and prevent potential problems. Here’s a detailed explanation:
1. Visual Inspection: Start by visually inspecting the motor base and its alignment with the driven equipment. Look for any obvious signs of misalignment, such as gaps, uneven contact, or skewed positioning. Pay attention to the alignment of coupling or drive belts, as they can indicate misalignment issues as well.
2. Measurements and Alignment Tools: Use precision measurement tools such as dial indicators, laser alignment devices, or straightedges to assess the alignment of the motor base. These tools can provide accurate measurements and help identify misalignment issues. Measure the alignment at multiple points along the motor base and compare the readings to the manufacturer’s recommended tolerances.
3. Check Mounting Bolts and Fasteners: Loose or improperly tightened mounting bolts and fasteners can contribute to motor base misalignment. Ensure that all bolts and fasteners are securely tightened according to the manufacturer’s specifications. If any bolts are found to be loose, tighten them appropriately. However, be cautious not to overtighten, as it can lead to deformation or misalignment of the motor base.
4. Assess Foundation or Mounting Surface: Examine the foundation or mounting surface on which the motor base is installed. Uneven or unstable surfaces can cause misalignment. Check for any irregularities, such as cracks, gaps, or soft spots, that may affect the alignment of the motor base. If necessary, repair or reinforce the foundation to ensure a stable and level mounting surface.
5. Alignment Adjustment: If misalignment is detected, make the necessary adjustments to bring the motor base into proper alignment. This may involve loosening the mounting bolts, adjusting shims or wedges, and repositioning the motor base. Follow the manufacturer’s guidelines or consult alignment experts for specific adjustment procedures based on the type of motor base and alignment method used.
6. Consider Thermal Growth: Account for thermal growth when aligning the motor base. Motors can experience thermal expansion or contraction during operation, which can affect alignment. Consult the manufacturer’s recommendations for thermal growth allowances and adjust the alignment accordingly.
7. Regular Maintenance: Implement a regular maintenance program that includes periodic inspections and realignment of the motor base. Over time, environmental factors, operational stresses, or equipment vibrations can cause misalignment. Regular maintenance helps identify and address misalignment issues before they escalate and lead to more severe problems.
8. Professional Assistance: If troubleshooting and adjustments do not resolve the misalignment issues, or if the alignment task requires specialized knowledge and equipment, seek assistance from alignment professionals or qualified technicians. They have the expertise and tools to accurately diagnose and correct complex misalignment problems.
It’s important to note that proper alignment of the motor base is essential for the smooth and efficient operation of the entire system. Misalignment can result in increased wear and tear, reduced energy efficiency, excessive vibration, premature component failure, and decreased overall performance. By promptly addressing misalignment issues, users can optimize the performance and lifespan of their motor base and associated equipment.
What is the purpose of a motor base in industrial applications?
A motor base serves an important purpose in industrial applications. Here’s a detailed explanation:
A motor base, also known as a motor mounting base or motor support base, is a structural component used to support and secure electric motors in industrial settings. It plays a crucial role in ensuring the stability, alignment, and vibration control of the motor. Here are some key purposes of a motor base:
1. Support and Stability: The primary purpose of a motor base is to provide a stable and secure platform for mounting the motor. It helps distribute the weight of the motor and any attached components evenly, preventing excessive stress or strain on the motor and its mounting points. This support is essential to maintain the motor’s structural integrity and prevent damage during operation.
2. Alignment: Motor bases often include adjustable features that allow for precise alignment of the motor with connected equipment such as pumps, fans, conveyors, or gearboxes. Proper alignment is critical for efficient power transmission, minimizing wear and tear on the motor and the connected equipment, and reducing the risk of mechanical failures.
3. Vibration Control: Vibrations can adversely affect the performance and lifespan of an electric motor. A motor base helps dampen and control vibrations generated during motor operation, reducing the transmission of vibrations to the surrounding equipment or structure. This helps minimize noise, prevents damage to nearby components, and enhances overall system reliability.
4. Maintenance and Serviceability: Motor bases are designed to facilitate maintenance and service tasks. They often feature accessibility features such as removable panels or brackets that allow technicians to easily access the motor for inspections, repairs, or replacements. Motor bases also simplify the process of disconnecting and reconnecting motors during maintenance activities.
5. Adaptability: Motor bases are available in various sizes, configurations, and materials to accommodate different motor types and installation requirements. They can be customized or equipped with modular components to adapt to specific applications or environmental conditions. This flexibility allows for easier installation and integration of motors into industrial systems.
Motor bases are typically made of sturdy materials like steel or cast iron to provide strength and durability. They are designed to withstand the dynamic forces, vibrations, and environmental conditions encountered in industrial environments.
When installing a motor base, it’s important to follow manufacturer guidelines and ensure proper anchoring to the foundation or supporting structure. This helps maintain the integrity of the motor base and ensures the reliable operation of the motor.
In summary, the purpose of a motor base in industrial applications is to provide support, stability, alignment, vibration control, and facilitate maintenance for electric motors, contributing to the overall performance, longevity, and reliability of the motor and the systems it powers.
editor by CX 2023-10-23