Product Description
European Hot Sale Electric Height Adjustable Single Motor Sit Standing Desk Base
Product information:
| Materials: | SPCC, SGCC, SECC, SPHC, Stainless steel, carbon steel,copper,aluminium, brass, iron, and bronze etc. |
| Processing Craft: | Laser Cutting, CNC Punching, CNC Bending, Riveting, Grinding, Stamping, threading,welding, polishing, tapping,riveting,assembly. |
| Surface Finished: | Galvanized(zinc-plated, nickel-plated,chrome-plated,silver-plated), powder coating, polishing(mirror polishing, electrolytic polishing), brushing,sand blasting,chemical etching,passivation treatment, etc. Hot Galvanized, Painting,Cataphoresis, Chrome/Zinc/Nickel Plating/Anodize/ Silk-screen etc; |
| Tolerance | +/-0.01mm |
| Major Equipment: | Laser cutting machine |
| CNC shearing machines | |
| CNC punching machines | |
| CNC bending machines | |
| TIG welding machines | |
| MIG welding machines | |
| SPOT welding machines | |
| STAMPING MACHINE; | |
| Stamping machines | |
| Pipe bender | |
| U-shape extrusion press | |
| Cold press | |
| Turning machine | |
| Milling machine | |
| Grinding machine | |
| Oil hydrulic press | |
| Serve Type: | OEM,ODM; |
| Files Formats: | Pro/Engineer, Solidworks, Auto CAD,PDF |
| Certification: | ISO9001:2008,TUV,SGS |
| Package | Plastic film+harden carton box+plywood case or plastic film+band+tray |
| Application | Auto parts,Food Machinery,medical testing and equipment, electronic products, electric appliance,power switches, miniature switches,A/V equipment. |
| Features | 1.Customized Design 2.Small Order Allowed 3.Sample Product Available 4.Competitive Price due to factory direct supply |
1. Tooling (Mold) design and Manufacture.
2. Manufacture the parts according to the Stamping Machine.
3. Riveting, Welding or Screw tap according to Customer’s require.
4. After finish manufacture process we will test the parts by the Image measurement instrument, Caliper, Angel Gage etc.
5. After make sure all the dimension can reach customer’s require, we will make the surface treatment process.
6. After finish surface treatment we will testing all the parts by worker so that we can make sure the parts which we sell is 100% qualified.
7. After finish testing we will pack the parts by Vacuum Package Machine.
Our advantages:
1)Quick response within 24 hours.
2)Manufacturer with 6 years experiences.
3) High quality and competitive price.
4)OEM/ODM:custom fabrication according to your drawings or samples.
5)Small order is acceptable.
6)Certification:ISO9001:2008,TUV,SGS.
Step
Step1: provide your drawing and requirements to us.
Step2: we make quotation.
Step3: negotiation and confirm product details.
Step4: confirm sample cost, freight and delivery.
Note:
Sample unit cost will be 3 times based on the final quotation.
Because samples are customized, it takes us more labor costs than mass production.
Usually sample delivery time is around 10 to 20days.(up to the products)
Step5: provide PI to you, you make payment accordingly.
Step6: we start production, and keep you informed updated news.
Step7: send you details and photos when qualified sample is finished.
Step8: make shipment after above information is confirmed.
FAQ
1, Are you a trading company or a manufacturer?
Answer: We are a professional manufacturer with 18+ years experiences
2, Do you sell ready-made products?
Answer: No. We only customize NON-Standard parts as per requesting
3, How to get a quick quote?
Answer: For a quick quote, please kindly provide detailed spec. as possible, like drawings, pictures, physcal samples, quantity needed … etc.
4, Can I get a sample?
Answer: Yes, the samples can be prototyped shortly as per your spec.
5, What’s your payment Terms?
Answer: 30% T/T in advance, balance paid before delivery
6, What’s your lead time?
Answer: 7 days
Major Products:
Stamping parts for circuit breaker,
Stamping parts for funiture,
Stamping parts for garage door,
Stamping parts For Auto/Truck Doors,
Stamping parts For Doors And Windows,
Stamping parts for treadmill,
Stamping parts for switch part,
Stamping parts for computer PCI bracket,
Stamping parts For Heavy Caster,
Stamping parts for motorcycle,
Stamping parts for switch,
Stamping parts For Cellphone Component,
Stamping parts for dental instrument tray,
Stamping parts for Swimming Pool,
Stamping parts For Machinery,
Stamping parts for metal clip,
Stamping parts for Shock Absorber,
Stamping parts for medical,
Stamping parts for electric system,
Stamping parts for hard disk,
Stamping parts for folding tables and chairs,
Stamping parts for computer accessories,
Stamping parts For Connector,
Stamping parts for Electrical Industry,
Stamping parts for the car,
Stamping parts for furniture,
Stamping parts for Car Body,
Stamping parts for tractor,
Stamping parts For Sanitary,
Quality First,Price Best,Service Foremost!
We assure you of our best services at all times!
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| Standard: | GB, EN, API650, China GB Code, JIS Code, TEMA, ASME |
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| Tolerance: | +/-0.10mm |
| Surface Treatment: | Electroplating |
| Samples: |
US$ 30/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
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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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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 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.
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.
How does a motor base contribute to the stability and alignment of electric motors?
A motor base plays a crucial role in contributing to the stability and alignment of electric motors in industrial applications. Here’s a detailed explanation:
A motor base, also known as a motor mounting base or motor support base, provides essential support and alignment features that help ensure the stable and properly aligned positioning of electric motors. Here’s how a motor base contributes to stability and alignment:
1. Support and Weight Distribution: A motor base serves as a robust platform to support the weight of the electric motor. It helps distribute the motor’s weight evenly across the base, preventing excessive stress or strain on the motor and its mounting points. By providing adequate support, the motor base helps maintain the motor’s structural integrity and prevents any sagging or tilting that could lead to misalignment.
2. Adjustable Mounting Features: Motor bases often include adjustable features such as slotted holes or bolt patterns that allow for precise alignment of the motor. These adjustment options enable technicians to align the motor with connected equipment, such as pumps, fans, conveyors, or gearboxes. Proper alignment is crucial for efficient power transmission, minimizing wear and tear on the motor and connected components, and reducing the risk of mechanical failures.
3. Rigid Construction: Motor bases are typically constructed from sturdy materials like steel or cast iron, which provide rigidity and stability. The robust construction of the motor base helps absorb and dampen vibrations generated during motor operation, minimizing the transmission of vibrations to the surrounding equipment or structure. This vibration control contributes to the overall stability of the motor and its surrounding components.
4. Alignment Verification: Motor bases often include alignment verification features such as laser alignment systems or dial indicators. These tools assist technicians in precisely aligning the motor with connected equipment. By using these verification methods, technicians can ensure that the alignment is within specified tolerances, further enhancing stability and minimizing the risk of misalignment-related issues.
5. Secure Mounting: Motor bases are designed to securely attach the motor to the base, typically using bolts or fasteners. This secure mounting prevents any movement or shifting of the motor during operation, enhancing stability. It also helps maintain the alignment achieved during the installation process.
By providing support, adjustable alignment features, rigidity, alignment verification, and secure mounting, motor bases contribute significantly to the stability and alignment of electric motors in industrial applications. Proper stability and alignment are essential for optimal motor performance, reduced wear and tear, improved energy efficiency, and prolonged motor lifespan.
When installing a motor base, it’s crucial 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, a motor base is a critical component that contributes to the stability and alignment of electric motors by providing support, alignment adjustability, rigidity, alignment verification, and secure mounting, ultimately enhancing motor performance and reliability.
editor by CX 2024-03-26