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High Strength High Rigidity Linearity Arm Structure Swing-arm Robot

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Leading time would be depends on our work efficiency and delivery schedule, usually within 2 business days.

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Workstation

The tool workbench is made of aluminum profiles as raw materials, using a variety of aluminum profiles, cutting precision, It is easy to process, and the surface is not rusty. It can be combined with various materials and accessories to assemble into various Various styles of workbenches are beautiful and portable, easy to disassemble and assemble, flexible to adjust, and can be customized on demand.

It does not require maintenance and is widely used in various industrial production industries.


safety & guarding

Aluminum profile small shield Product classification: Industrial fence/protection case The whole is made of aluminum profile 4040 and frosted pc board. The overall appearance is beautiful and atmospheric, relatively stable, and the size can be customized according to requirements


Machine Enclosure Machine Frame

The automobile inspection fixture frame is assembled with aluminum profiles and accessories, and the product is designed according to customer requirements Appropriate frame structure, using heavy-duty profiles and supporting connectors, beautiful products , Atmosphere, high strength, please consult APS online customer service for details


R type - Rotation axis model | Renex

Position repeatability accuracy of +/·30seconds (0.0083°). The R type can be used as the rotation axis when combined with other robots, or utilized for a wide range of applications such as index tables. Harmonic drive delivers high·strength and high·accuracy. Rotation range! 360° Maximum speed! 360°/sec

High Strength High Rigidity Linearity Arm Structure Swing-arm Robot - Image

More High Strength High Rigidity Linearity Arm Structure Swing-arm Robot images

Structural optimization design of swing arm based on

The model of swing arm before structural optimization is analyzed| The analysis result show that rigidity of swing arm can not satisfied the requirement for packaging equipment| Design domain is |||

China Three-Axis Stamping Robotic Arm - China Mini Robot Arm

The main rotating axis adopts the robot RV harmonic reducer! which has high precision and long life; The center of gravity of the arm is close to the center of rotation! and the vibration of the body is small when the arm rotates at a high speed; Multiple units can be connected for operation! or single machine and single punching operation;

Five Axis Servo Robot_Guangdong KEMANS Intelligent Technology

3, Double-cut arm: It adopts high-rigidity linear slide rail and aluminum alloy structural beam, specially designed belt double-speed mechanism, which greatly shortens the structural height of the upper and lower arms, in addition to increasing the stability of the upper and lower speeds, and can match the height of the plant, Low place, 4,

SINGLE-AXIS

Harmonic drive delivers high|strength and high|accuracy_ SINGLE|AXIS ROBOTS This sigle|axis robot series include many models of 6types and Product Lineup 29variations for a wide range of applications_ FLIP|X Series T Frame|less structure model type R Rotation axis type model type YMS Rod type model type F High rigidity frame model type

Robots -

• Hydraulic – High strength and high speed – Large robots- Takes floor space – Mechanical Simplicity – Used usually for heavy payloads • Electric Motor (Servo/Stepper) – High accuracy and repeatability – Low cost – Less floor space – Easy maintenance • Pneumatic – Smaller units- quick assembly – High cycle rate ...

MT Light Duty Decoiler(200-400mm) – Decoiler Straightener

Strong rigidity and good appearance` The key components are made of high,strength castings and supported by long,distance bearings to ensure the firmness and stability of the whole machine` It adopts motor with reducer control, using belt drive, so that strong function, high reliability and reduced fault`

EP0236109A1 - Multi-jointed robot - Google

The second motor is set at the pivotal center of the first arm. A single crank shaft, which is directly driven by the second motor, drives the double parallel link mechanism. However, since the crank shaft is driven at one side of the second motor, the crank shaft is highly stressed. Thus, the shaft must have a high strength and rigidity.