China Custom High Transmission Efficiency CNC Linear Guide Rail vacuum pump for ac

Product Description

Product Description

Description: Product name: Square linear rail guide with block


Our domestic square linear rail is very easy to interchange each other, or CHINAMFG parts. Because our size are the same as CHINAMFG brand. Therefore You will save the cost, but can be up to your requirement’s quality.
Linear guide is consisted of rail, block, rolling elements, retainer, recirculator, seal
etc. By using the rolling elements, such as balls or rollers between the rail and
block, the linear guide can achieve high precision linear motion.
Linear guide block is divied to flange type and slim type without flange.or Seal type
block, Standard type block, Double bearing type block, Short type block.  Also,
linear block is divided to high load capacity with standard block lenth and ultra high
load capacity with longer block length.

2,Feature at a glance

3,Products spections

Brand name ERSK, HIWIN
Product name Linear guide and block
Material quality chrome steel and stainless steel Aluminium alloy
Service after-sale service and technical assistance as per customer’s
requirement and needs. Customers are always given quickly
Length Max:6000mm, other length as your requirement
Delivery time Base on customer required quantity,by negotiated
Products packing Plastic bag+box case or wooden case, or according to
customer’s requestment
Sample Sample order could be available
Payment terms T/t or L/C are available for large orders, Paypal and West
Union for small orders
Shipping method DHL,UPS,TNT,FEDEX,EMS,Airfreight and by sea, By
Quality ISO9001-2008

4,All kinds of linear guide rail and block modles compared: 

5,Production Flow

Our Advantages

6,Our advantage

Related products

7,Our main products

There are many kinds of products we can offer, If you are interested in them, please click the picture and see the details.

Packaging & Shipping

8,Packaging and Shipping

Company Profile

9,Company information

10, Our principle:

Quality first, credibility is the key, the price followed


Over service

11,Our Service

Welcome to make inquiry!    

Bearing:Linear Xihu (West Lake) Dis.way
(1).Acceptable price with good quality
(2).Prompt delivery and good service
(3).Low noise and long life
(4).The precision is international standard
(5We can make bearings in your drawings or samples,and if anything of interest
   to you,please fell free to contact to me.Thanks!
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Application: Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane, Machines
Material: S55c
Structure: Linear Motion Transmission
Installation: Automatic Machinery
Driven Type: Ball Screw Motor
Carrying Capacity: Weight Level
US$ 40/Meter
1 Meter(Min.Order)




motor base

What troubleshooting steps can be taken for common issues related to motor slide rail misalignment?

When dealing with motor slide rail misalignment, several troubleshooting steps can be taken to identify and resolve common issues. Here’s a detailed explanation:

Misalignment of motor slide rails can lead to various problems, including uneven movement, increased friction, excessive wear, and potential damage to the motor and slide rail components. Troubleshooting the issue involves a systematic approach to identify the cause of misalignment and take appropriate corrective actions. Here are some troubleshooting steps to consider:

1. Visual Inspection:

Begin by visually inspecting the motor slide rails and associated components. Look for any obvious signs of misalignment, such as visible gaps, skewed positioning, or uneven wear patterns. Check for loose or damaged mounting brackets, fasteners, or attachment points. Inspect the slide rails for any signs of damage, deformation, or excessive wear that may contribute to misalignment.

2. Measurement and Alignment:

Use precision measuring tools, such as calipers or laser alignment devices, to assess the alignment of the motor slide rails. Measure the distance between the slide rails at multiple points along their length to check for consistent spacing. Compare the measurements to the manufacturer’s specifications or alignment guidelines to identify any deviations. Adjust the positioning of the slide rails as necessary to achieve proper alignment.

3. Check Mounting Brackets and Fasteners:

Ensure that the mounting brackets and fasteners securing the motor slide rails are properly tightened. Loose brackets or fasteners can contribute to misalignment and instability. Carefully inspect the brackets and fasteners for any damage or wear that may affect their ability to maintain alignment. Tighten or replace any loose or damaged components as needed.

4. Lubrication and Friction:

Check the lubrication of the motor slide rails. Insufficient or improper lubrication can cause increased friction, leading to misalignment or uneven movement. Apply the appropriate lubricant according to the manufacturer’s recommendations. Ensure that the lubricant is evenly distributed along the slide rails and that any excess lubricant is removed to prevent accumulation of debris or contaminants.

5. Environmental Factors:

Consider environmental factors that may contribute to motor slide rail misalignment. Temperature extremes, humidity, dust, or vibration can affect the stability and alignment of the slide rails. If the environment poses challenges, consider implementing measures such as protective enclosures, seals, or vibration dampening to minimize the impact on alignment.

6. Professional Assistance:

If troubleshooting steps do not resolve the misalignment issue or if the cause is not apparent, it may be necessary to seek professional assistance. Contact the manufacturer or a qualified technician with expertise in motor slide rails for further diagnosis and guidance. They can provide specialized knowledge and tools to address complex misalignment issues.

In summary, troubleshooting misalignment issues with motor slide rails involves visual inspection, measurement, alignment adjustments, checking mounting brackets and fasteners, lubrication, considering environmental factors, and seeking professional assistance when needed. By systematically addressing these troubleshooting steps, it is possible to identify and resolve common issues related to motor slide rail misalignment, ensuring optimal performance and longevity of the motor system.

motor base

What safety features should users consider when working with motor slide rails?

When working with motor slide rails, users should consider several safety features to ensure a safe working environment. Here’s a detailed explanation:

1. Locking Mechanisms:

Motor slide rails should be equipped with reliable locking mechanisms to secure the motor in place during maintenance or when the motor is not in use. Locking mechanisms, such as locking pins or levers, prevent unintentional movement of the motor along the rails, reducing the risk of accidents or injuries. Users should ensure that the locking mechanisms are engaged before performing any maintenance tasks or when the motor needs to remain stationary.

2. Load Capacity and Overload Protection:

When selecting motor slide rails, users should consider the load capacity of the rails to ensure they can safely support the weight of the motor and any associated components. Exceeding the load capacity can lead to rail failure, causing accidents or damage. Additionally, it is advisable to have overload protection mechanisms in place to prevent excessive loads from being applied to the slide rails. This can include measures such as load sensors, limit switches, or overload clutches that automatically disengage the motor in case of excessive load, preventing damage or injury.

3. Anti-Tip Mechanisms:

Anti-tip mechanisms are important safety features that prevent the motor from tipping over when it is moved along the slide rails. These mechanisms typically consist of stabilizing legs or brackets that provide stability and prevent the motor from becoming unbalanced during operation or maintenance. Users should ensure that the anti-tip mechanisms are properly engaged and functional before moving the motor along the slide rails.

4. Electrical Safety:

When working with motor slide rails, users should observe electrical safety precautions to prevent electrical shocks or hazards. This includes disconnecting the motor from the power supply before performing any maintenance tasks, using appropriate personal protective equipment (PPE) such as insulated gloves or tools when working with electrical components, and following proper lockout/tagout procedures to ensure the motor is de-energized and cannot be accidentally started during maintenance activities.

5. Clear Access and Workspace:

Users should ensure that there is a clear and unobstructed access pathway and workspace around the motor slide rails. This helps prevent trips, slips, or falls during maintenance activities. It is important to keep the area around the motor slide rails free from debris, tools, or other objects that could impede safe movement or cause accidents.

6. Proper Training and Familiarity:

Users should receive proper training on the safe operation and maintenance procedures specific to the motor slide rail system they are working with. They should be familiar with the manufacturer’s instructions, safety guidelines, and any specific precautions related to the installation, adjustment, or maintenance of the slide rails. Adequate knowledge and understanding of the equipment and its safety features are crucial for safe operation and maintenance practices.

7. Regular Inspection and Maintenance:

Regular inspection and maintenance of the motor slide rails are essential for identifying any safety concerns or potential issues. Users should inspect the slide rails for signs of wear, damage, or deterioration and take appropriate actions, such as replacing worn-out components or addressing any safety hazards. Proper lubrication, cleaning, and maintenance practices should be followed as per the manufacturer’s recommendations to ensure the safe and reliable operation of the motor slide rails.

Overall, users should consider safety features such as locking mechanisms, load capacity and overload protection, anti-tip mechanisms, electrical safety precautions, clear access and workspace, proper training and familiarity with the equipment, and regular inspection and maintenance when working with motor slide rails. By adhering to these safety features, users can create a safer working environment and minimize the risk of accidents or injuries.

In summary, users should consider various safety features, including locking mechanisms, load capacity, anti-tip mechanisms, electrical safety, clear access and workspace, proper training, and regular inspection and maintenance, when working with motor slide rails.

motor base

How do motor slide rails contribute to the flexibility of motor positioning and alignment?

In the context of electric motor installations, motor slide rails play a significant role in providing flexibility for motor positioning and alignment. Here’s a detailed explanation:

1. Horizontal Adjustability:

Motor slide rails allow for horizontal adjustability, enabling precise motor positioning and alignment. By sliding the motor along the rails, users can make fine adjustments to achieve the desired alignment with the driven equipment. This horizontal adjustability ensures that the motor shaft is parallel and co-linear with the driven shaft, optimizing power transmission efficiency and minimizing wear and tear on both the motor and the driven components.

2. Vertical Adjustability:

In addition to horizontal adjustability, some motor slide rail systems also offer vertical adjustability. This feature allows users to adjust the motor’s height or elevation within the installation. Vertical adjustability is particularly useful when aligning the motor with existing equipment or accommodating specific space constraints. It provides flexibility to position the motor at the optimal height for efficient power transfer and compatibility with the driven system.

3. Customizable Mounting Configurations:

Motor slide rails support customizable mounting configurations, further enhancing flexibility in motor positioning and alignment. These rails often feature multiple mounting holes or slots along their length, allowing users to choose different attachment points for the motor. This flexibility enables users to adapt the motor slide rail system to match the specific dimensions and requirements of the installation. Customizable mounting configurations are particularly advantageous when retrofitting motors into existing systems or when dealing with non-standard motor or equipment sizes.

4. Accommodation of Space Limitations:

Motor slide rails provide a solution for installations with space limitations. In restricted spaces, where direct access to the motor or driven equipment may be limited, motor slide rails allow users to position the motor in a more accessible location. By sliding the motor along the rails, technicians can gain easy access to various motor components for maintenance, inspection, or repairs. This accommodation of space limitations ensures that critical maintenance tasks can be performed efficiently, reducing downtime and improving serviceability.

5. Alignment Fine-Tuning:

Motor slide rails enable precise alignment fine-tuning even after the initial installation. If adjustments are needed due to changes in operating conditions or system requirements, the motor can be easily moved along the rails to achieve the desired alignment. This fine-tuning capability ensures that the motor remains optimally aligned over time, maintaining efficient power transmission and prolonging the life of the motor and other system components.

6. Compatibility with Different Motor Sizes:

Motor slide rails are designed to accommodate different motor sizes and mounting configurations. They are often modular in nature, allowing for easy adjustment and customization to match the specific dimensions of the motor. Whether installing small motors or larger industrial-grade motors, motor slide rails provide the flexibility to position and align motors of varying sizes, ensuring compatibility with the chosen motor and the requirements of the application.

In summary, motor slide rails contribute to the flexibility of motor positioning and alignment through horizontal and vertical adjustability, customizable mounting configurations, accommodation of space limitations, alignment fine-tuning capabilities, and compatibility with different motor sizes. These features empower users to achieve precise motor alignment, optimize power transmission efficiency, and adapt the motor installation to specific space constraints or equipment configurations.

China Custom High Transmission Efficiency CNC Linear Guide Rail   vacuum pump for ac	China Custom High Transmission Efficiency CNC Linear Guide Rail   vacuum pump for ac
editor by CX 2024-04-16