China Hot selling Wenzhou Msqb Rotary Table Pneumatic Cylinder Pneumatic Cylinder vacuum pump booster

Product Description

Product Description

1.Rotating Cylinders.
2.Large rolling element bearing.
3.Pivoting angle adjustment range:0~190°.
4.With internal shock absorber.
5.Movement in direction of table’s radial thrust:0.01mm or less.
6.Small size and light weight.
7.Variety of installation options for space-saving

Applicable for positioning, transportation, quantitative filling, right and left displacement, flow control, etc. capable of accuracy and speedy purpose.

Specificatio

Size 10 20 30 50
Fluid Air
Maximum operating pressure With adjustment bolt 1Mpa
With internal shock absorber 0.6Mpa
Minimum operating pressure Basic type 0.1Mpa
High precision type 0.2Mpa 0.1Mpa
 
Ambient and fluid temperature 0 to 60ºC
Cushion Rubber buffer(standard)/With internal shock absorber(optional)
Angle adjustment ranger 0 ~ 190°
Maximum rotation 190°
Stable swing time range With adjustment bolt 0.2~1.0s/90°
With internal shock absorber 0.2~0.7s/90°
Port size Ø15
 
Ø18 Ø21 Ø25
Pipe Size M5 x 0.8 Rc1/8
Inductive switch D-A93

HOW TO ORDER 

DINENSION 

PRODUCT CATALOG 

APPLIANCE

PACKAGE AND DELVIERY

PAYMENT 

FAQ

Q1: Are factory or trading company?

A1:We are the leading manufacturer of pneumatic products who have 10 years experience. Welcome to visit our factory

at any time.

 

Q2:Can I get sample?

A2:Yes,We can offer free sample but express charge by your side. In a word, each of your needs are of most valuable

matter for us.

 

Q3:Do you accept OEM business?

A3:Yes.We do.

 

Q4:What’s the payment term?

A4: T/T,Western Union,Paypal are applicable for us.

 

Q5: How about the warranty?

A5: 12 months under normally used.

 

Q6. What’s the delivery time ? 

A6.. Normal model 2-5days,because we have ability to do the stock.For big order,it takes about 10-15days.

 

Q7: How does your factory dothe quality control?
A7: Quality is important,we always attach importance to quality control from the beginning to the end of the prodution.

Q8:Each product will be fully assembled and carefully tested before packing and shipping.

      Yes, we can supply bore size 32mm to 125mm, stroke 25 to 2000mm

 

Q9:. We want to buy DNC series assembly kits ,aluminum tubes and piston rod,can you supply?

     Yes, we can supply assembly kits,aluminum tubes and piston rod to you.

 

Q10:.How about the trade items you can accept?

    We can accept trade items are EXW,FOB,CFR,CIF,DDP

 

Q11:Other ISO Standard Pneumatic Cylinders are also available for you:

DNG ISO15552 Standard cylinder

SI ISO6431 Standard cylinder

MA ISO6432 Mini cylinder

ADVU ISO6431 Compact/Thin cylinder

Our company also can provide other pneumatic cylinder as below,

1. Standard cylinder: SC/SU, MB, CA1

2. Compact cylinder: SDA, CQ2

3. Mini cylinder: MA, MAL, CJ2, CM2, CJP

4. Double-shaft cylinder: TN, CXS

5. Free installation cylinder: CU

6. Slide bearing cylinder: STM

7. Three-shaft cylinder: MGP

8. Stopper cylinder: RSQ

9. Clamp cylinder: XCK

10. Rotary cylinder: MSQ

11. Rodless cylinder: CY1

12. Air gripper: XHZ2/XHC2, XHL2, XHT2

More information and details, you can contact us and visit our website.

If you have the nonstandard products want to design, don’t hesitate to contact us.

 

Material: Aluminum
Usage: Print, Semiconductor, Automation and Control, Robot
Structure: Piston Cylinder
Power: Pneumatic
Standard: Standard
Pressure Direction: Double-acting Cylinder
Customization:
Available

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rotary cylinder

How do rotary cylinders contribute to precise rotational control?

Rotary cylinders play a crucial role in achieving precise rotational control in various applications. Here’s a detailed explanation:

1. Actuation Methods: Rotary cylinders utilize hydraulic or pneumatic actuation methods to generate rotational motion. These actuation methods offer precise control over the application of force, allowing for accurate and controlled rotation.

2. Control Valves: Control valves are used to regulate the fluid flow into and out of the rotary cylinder. By adjusting the valve settings, the rotational speed and direction can be precisely controlled, enabling precise rotational control.

3. Feedback Systems: Some rotary cylinders incorporate feedback systems, such as position sensors or encoders, to provide real-time information about the cylinder’s rotational position. This feedback enables precise control over the rotational movement, allowing for accurate positioning and synchronization with other system components.

4. Stroke Adjustment: Rotary cylinders often have adjustable stroke lengths, which allow for precise control over the range of rotational movement. By adjusting the stroke, the rotational angle can be precisely controlled, enabling precise rotational control for specific applications.

5. Positioning Guides: Rotary cylinders may feature positioning guides, such as grooves or slots, that help guide and stabilize the rotational movement. These guides ensure precise alignment and minimize deviations or wobbling during operation, contributing to precise rotational control.

6. Precision Manufacturing: Rotary cylinders are manufactured with high precision to ensure smooth and accurate rotation. The use of high-quality materials, precision machining, and tight tolerances contribute to precise rotational control, minimizing unwanted variations or errors.

7. Integration with Control Systems: Rotary cylinders can be seamlessly integrated with control systems, allowing for precise control over the rotational motion. They can be programmed and synchronized with other system components, such as sensors, actuators, and PLCs, to achieve precise rotational control in complex automation processes.

These factors combined contribute to the precise rotational control achieved through the utilization of rotary cylinders. It’s important to consult manufacturers’ documentation and guidelines for specific information on the capabilities and limitations of rotary cylinders in achieving precise rotational control.

rotary cylinder

How do rotary cylinders contribute to energy-efficient equipment operation?

Rotary cylinders play a significant role in promoting energy-efficient equipment operation. Here’s a detailed explanation:

1. Power-On-Demand: Rotary cylinders operate based on fluid power, either hydraulic or pneumatic. One of the key advantages of fluid power systems is their power-on-demand capability. This means that the cylinder generates force and consumes energy only when necessary to perform a specific task. When the task is completed, the fluid flow to the cylinder can be shut off, resulting in energy savings compared to continuously running mechanical systems.

2. Efficient Force Conversion: Rotary cylinders efficiently convert fluid power into rotary motion. They can generate high torque, enabling them to perform tasks requiring substantial rotational force. The efficient force conversion minimizes energy losses during operation, allowing for effective utilization of input energy to achieve desired movements and work output.

3. Compact Design: Rotary cylinders are often designed to be compact and lightweight. This design approach reduces the overall weight and inertia of the equipment, resulting in energy savings. The reduced weight requires less energy to accelerate and decelerate the moving parts of the equipment, leading to improved energy efficiency.

4. Precise Control: Rotary cylinders offer precise control over the rotational motion. The ability to control speed, acceleration, and position with accuracy allows for optimized equipment operation. By fine-tuning the control parameters, energy consumption can be minimized while still achieving the desired performance. This precise control contributes to energy-efficient operation by avoiding unnecessary energy wastage.

5. Integration with Control Systems: Rotary cylinders can be seamlessly integrated into control systems such as programmable logic controllers (PLCs) or computer numerical control (CNC) systems. These control systems enable advanced algorithms and optimization techniques to be applied to the operation of rotary cylinders. By optimizing the control signals and adjusting parameters in real-time, energy consumption can be further reduced while maintaining the required functionality.

6. Energy Recovery: In certain applications, rotary cylinders can incorporate energy recovery systems. These systems capture and utilize the energy released during deceleration or load lowering. For example, in hydraulic systems, energy recovery can be achieved through the use of regenerative valves or accumulators, which store and reuse the energy that would otherwise be dissipated as heat. By recovering and reusing energy, overall energy efficiency is improved.

7. System Optimization: Rotary cylinders are part of larger systems and equipment. By considering the overall system design and optimizing the interaction between components, energy-efficient operation can be achieved. This may involve optimizing the sizing and selection of rotary cylinders, reducing friction and leakage losses, implementing efficient fluid distribution systems, and employing energy-efficient control strategies.

8. Monitoring and Maintenance: Regular monitoring and maintenance of rotary cylinders contribute to energy-efficient equipment operation. By detecting and addressing issues such as leaks, wear, or misalignment, the performance and efficiency of the cylinders can be maintained. Proper lubrication and alignment also reduce energy losses and ensure smooth operation.

By incorporating these features and considerations, rotary cylinders contribute to energy-efficient equipment operation, reducing energy consumption, and promoting sustainability in various industries.

rotary cylinder

What are the key components and design features of a rotary cylinder?

A rotary cylinder consists of several key components and design features that enable its operation. Here’s a detailed explanation:

Key Components:

1. Housing: The housing is a cylindrical structure that encloses the internal components of the rotary cylinder. It provides support and protection to the internal mechanisms.

2. Piston or Vane: The piston or vane is the component that converts fluid pressure into rotary motion. In rack-and-pinion rotary cylinders, the piston engages with a rack to generate rotation. In vane or gear rotary cylinders, the piston or vane is responsible for creating the rotary motion directly.

3. Seals: Seals are used to prevent leakage of fluid and maintain pressure within the cylinder. They are typically made of rubber or other materials that provide a tight and reliable seal.

4. Bearings: Bearings are used to support the rotating components and reduce friction. They ensure smooth and efficient movement of the piston or vane within the cylinder.

Design Features:

1. Mechanism Type: Rotary cylinders can have different mechanism types, such as rack-and-pinion, vane, or gear mechanisms. The choice of mechanism depends on factors such as the required torque, speed, and application requirements.

2. Mounting Options: Rotary cylinders may have various mounting options to facilitate their installation and integration into different machinery or systems. Common mounting options include flange mounts, foot mounts, and trunnion mounts.

3. Fluid Connections: Rotary cylinders require fluid connections to supply hydraulic fluid or compressed air for their operation. These connections allow the cylinder to receive and release the fluid as needed to generate the rotary motion.

4. Motion Control: Some rotary cylinders may feature additional components for motion control, such as position sensors or limit switches. These components allow for precise control and monitoring of the rotary motion, enabling automation and system feedback.

5. Size and Capacity: Rotary cylinders come in various sizes and capacities to accommodate different application requirements. The size and capacity of a rotary cylinder determine its torque output, speed capabilities, and overall performance characteristics.

6. Material Selection: The materials used in the construction of a rotary cylinder are chosen based on factors such as strength, durability, and compatibility with the operating environment. Common materials include steel, aluminum, and various alloys.

Overall, the key components and design features of a rotary cylinder work together to convert fluid power into rotary motion efficiently and reliably. These components and features ensure smooth operation, precise control, and the ability to meet the demands of specific applications.

It’s important to consult the manufacturer’s documentation and guidelines for specific information on the components, design, and maintenance of rotary cylinders.

China Hot selling Wenzhou Msqb Rotary Table Pneumatic Cylinder Pneumatic Cylinder   vacuum pump booster	China Hot selling Wenzhou Msqb Rotary Table Pneumatic Cylinder Pneumatic Cylinder   vacuum pump booster
editor by CX 2023-11-18