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The Uhing® Timing Belt Drives are based on rigid aluminium sections that are resistant to torsion.

Several T-slots integrated in the carrier sections allow variable application and facilitate fitting.

Slide blocks can be easily inserted. Power is transmitted from the timing belt to the load carriage via the belt joint mounted on the load carriage.

Uhing timing belt drives are made of high-quality material, such as corrosion-proof, hardened guide rails and robust, dimensionally stable timing belts.

They are precise, allow accurate positioning, provide high acceleration rates and speeds and have a long life.

Numerous accessories and the Uhing® SMS 2010 positioning and sequence control system complete the range of products.

• Easy to install
• Precise guide
• High travelling speeds and acceleration rates
• Wide range of types and accesssories
• Enhanced mounting capabilities
• Integrated carriage guide

Brand: Velmex (made in USA)

Strongly recommended for applications where long travel length and high loads are required in the applications.

Precision Lead Screws used in every BiSlides are manufactured by Velmex themselves.

This is to ensure they are of the very best in quality: precision rolled Acme thread, hard nickel plated for smooth, trouble-free operation and long life.

StabilNut (a Velmex exclusive technology) is a solid, low friction connection between the lead screw and the carriage.

It has an anti-backlash design with fine mesh adjustment for responsive rotary to linear translation.

Neuromeka’s Delta is the world-class high-speed high-precision 4-axes Robot based on custom vibration suppression design.

In terms of payload capacity and workspace radius, there are two standard models.

D3 with 3kg payload and D6 with 6kg payload.

Neuromeka’s Delta Robots provide total automation solutions with custom grippers, conveyor belts and vision sensors integrated with PLCs in order to satify customers’ requirements for line automation.

Key Features:

• FAST for productivity
• PRECISE for variety of task with precision
• INTEGRATED for total automation solution

Brand: Uhing (made in Germany)

Fast action clamping system for rolls, spools and static application. The Uhing Easylock is fitted with a clamping ring which is increasingly offset to the shaft with which engages in response to axial or tensioning forces, so creating an increasing friction contact. The greater the tensioning force, the greater is the clamping effect of the ring.

As the roll or spool is held firmly betweeen the fixed cone and the clamping cone, braking moments are able to be transmitted from the shaft to the roll or spool. The machine can thus be stopped if a fault occurs.

Main advantages of Uhing Easylock:

• Shortest possible change over times
• Also suitable for static applications
• Modular system ensures simple adaptation to the task in hand
• No tools required
• Single handed operation
• High tensioning forces on a plain round shaft
• Also suitable for use with driven shafts
• Simple transmission of braking moments to the roll or spool: emergency stop secure
• Compact and synmetrical design
• Maintenance free
• Resistant against vibration

Whether the application is to transfer motion or transmit power,

PIC Design has the complete range of gearing needed to fulfill any application requirement.

Standard gears and assemblies are available for operation on parallel and right-angle shafts, linear motion applications can also be satisfied.

Toggle Action

The theoretical maximum holding or clamping force of a toggle action device is achieved when the 3 pivot points are in a straight line. To make allowance for external forces due to vibration and changing load conditions in industrial applications, the proper amount of over-travel at the centre pivot point has been carefully calculated to yield maximum clamping pressure, while achieving a positive locking position.

Holding Capacity & Clamping Force

All Good Hand Clamps are rated by their holding capacity. This rating is the maximum force the clamp will support when locked in the closed position without creating permanent deformation. This force is measured at a point closest to the base and diminishes as the end of the bar is reached. The clamping force is defined as the actual force being applied by the clamp to the work piece. This rating is not constant due to such variables as the location of force on the handle, amount of force the operator applies and the location of the spindle on the hold-down bar.

Features:

• Hand grips are covered with an oil/stain resistant red vinyl for easy identification and to assure safety and comfort for the operator
• All die-stamped steel parts are deburred, cleaned and zinc-plated finish to resist corrosion and creates a smooth and easy to clean surface
• Heavy-duty rivets are used to maintain accuracy and to increase endurance
• All heavy-duty clamps receive hardened ground pins and bushings
• Flanged washers are supplied with all U-bar and open-bar models
• Weld-on bolt retainers are supplied with all solid bar models
• Toggle mechanism is designed to allow maximum clearance for ease of loading and unloading of work piece

The first step to automating your processes.

The Smart Connected Collaborative Robot.

An easy and safe low-cost solution.

Cobots (collaborative robots) propose a new paradigm on how industrial robots can be utilized in manufacturing.

There is no longer a need for barriers and shields, realizing the full potential of a true collaboration between man and machine.

This is made possible by Indy’s advanced Collision Detection Technology.

Complex programming knowledge in Robotics is not necessary, allowing any workshops or labs users to increase productivity within hours of setting up.

Indy is designed and developed by Neuromeka in Korea, which is THE most automated country in the manufacturing world.

With their technology and expertise, Indy strives to strike the perfect balance between quality and price.

Indy7 Introduction Video

The first step to automating your processes.

The Smart Connected Collaborative Robot.

An easy and safe low-cost solution.

Cobots (collaborative robots) propose a new paradigm on how industrial robots can be utilized in manufacturing.

There is no longer a need for barriers and shields, realizing the full potential of a true collaboration between man and machine.

This is made possible by Indy’s advanced Collision Detection Technology.

Complex programming knowledge in Robotics is not necessary, allowing any workshops or labs users to increase productivity within hours of setting up.

Indy is designed and developed by Neuromeka in Korea, which is THE most automated country in the manufacturing world.

With their technology and expertise, Indy strives to strike the perfect balance between quality and price.

Indy7 Introduction Video

Deep learning based, high-performance vision solution IndyEye.

Compatible with all models of Indy Cobots.

Unlike competing vision sensors that require demanding working conditions, IndyEye can be applied flexibly to any working environment without large space or bright lights.

Deep learning server sharing can store working objects data to respond to customer requests.

Small and medium-sized manufacturers that require igh mix low volume conditions, IndyEye can adapt to a variety of tasks and be quickly applied.

Key Features:

HIGH-PERFORMANCE vision solution with deep learning
REASONABLE reasonable price via low-cost vision sensor
FLEXIBLE adaptable to various applications

IndyEye Introduction Video

Toggle Action

The theoretical maximum holding or clamping force of a toggle action device is achieved when the 3 pivot points are in a straight line. To make allowance for external forces due to vibration and changing load conditions in industrial applications, the proper amount of over-travel at the centre pivot point has been carefully calculated to yield maximum clamping pressure, while achieving a positive locking position.

Holding Capacity & Clamping Force

All Good Hand Clamps are rated by their holding capacity. This rating is the maximum force the clamp will support when locked in the closed position without creating permanent deformation. This force is measured at a point closest to the base and diminishes as the end of the bar is reached. The clamping force is defined as the actual force being applied by the clamp to the work piece. This rating is not constant due to such variables as the location of force on the handle, amount of force the operator applies and the location of the spindle on the hold-down bar.

Features:

• Hand grips are covered with an oil/stain resistant red vinyl for easy identification and to assure safety and comfort for the operator
• All die-stamped steel parts are deburred, cleaned and zinc-plated finish to resist corrosion and creates a smooth and easy to clean surface
• Heavy-duty rivets are used to maintain accuracy and to increase endurance
• All heavy-duty clamps receive hardened ground pins and bushings
• Flanged washers are supplied with all U-bar and open-bar models
• Weld-on bolt retainers are supplied with all solid bar models
• Toggle mechanism is designed to allow maximum clearance for ease of loading and unloading of work piece

Toggle Action

The theoretical maximum holding or clamping force of a toggle action device is achieved when the 3 pivot points are in a straight line. To make allowance for external forces due to vibration and changing load conditions in industrial applications, the proper amount of over-travel at the centre pivot point has been carefully calculated to yield maximum clamping pressure, while achieving a positive locking position.

Holding Capacity & Clamping Force

All Good Hand Clamps are rated by their holding capacity. This rating is the maximum force the clamp will support when locked in the closed position without creating permanent deformation. This force is measured at a point closest to the base and diminishes as the end of the bar is reached. The clamping force is defined as the actual force being applied by the clamp to the work piece. This rating is not constant due to such variables as the location of force on the handle, amount of force the operator applies and the location of the spindle on the hold-down bar.

Features:

• Hand grips are covered with an oil/stain resistant red vinyl for easy identification and to assure safety and comfort for the operator
• All die-stamped steel parts are deburred, cleaned and zinc-plated finish to resist corrosion and creates a smooth and easy to clean surface
• Heavy-duty rivets are used to maintain accuracy and to increase endurance
• All heavy-duty clamps receive hardened ground pins and bushings
• Flanged washers are supplied with all U-bar and open-bar models
• Weld-on bolt retainers are supplied with all solid bar models
• Toggle mechanism is designed to allow maximum clearance for ease of loading and unloading of work piece

Brand: Uhing (made in Germany)

The RG series of Rolling Ring Drives are the original aluminum bodied traversal units. They are friction drives which convert the constant rotation of a plain round shaft into reciprocating motion. A unique technology first invented by Uhing from Germany, widely used in the Wire and Cable Winding industry.

They operate like nuts on a threaded bar, however the pitch both left and right-hand is capable of fine adjustment or set to zero.

This effect is achieved by using ball bearing based Rolling Rings which are designed to pivot about the shaft, their specially crowned running surfaces being pressed against the shaft as it rotates. High quality product made in Germany by Uhing.

Main advantages of the Uhing Rolling Ring Principle:

• automatic reciprocating motion*
• variable adjustment of traverse speed up to 4.2 m/sec max, also different from both directions *
• variable adjustment of traverse length
• high dynamics at the reversal points
• low operating costs

*at constant speed and direction of shaft rotation