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The simplest method to increase productivity is to raise machine operation speed. It often accompanies with excessive vibration and noise, damage to machines and products and decreasing in machine life. Most important of all, safety has to be sacrificed to a certain degree because of large shock forces generated.
1. To increase production rate.
2. To extend machine life.
3. To simplify equipment design.
4. To reduce maintenance cost.
5. To reduce vibration and noise levels.
1. Eliminating vibration and absorbing striking energy in a short time.
2. Reducing operating noise and offering a quiet working environment.
3. Accelerating machine operation and elevating production capacity.
4. Extending machine life time and reducing after sale service.
5. Improving quailty of products.
Robots for plastic injection moulding machine, pick and place robots, feeding equipment, screen print machines, conveyors, air cylinders, vibration conveyor systems, rolling doors, medical equipment, foundry industries, rodless cylinders, package machines, machine tools, rubber/ plastic machines, woodworking machines, aircraft industries, military equipment, education researches and automotive transfer lines.
A pneumatic gripper is a specific type of pneumatic actuator that typically involves either parallel or angular motion of surfaces, the gripper can be used as part of a ''pick and place'' system that will allow a component to be picked up and placed elsewhere during the manufacturing process.
Some grippers act directly on the object they are gripping based on the force of the air pressure supplied to the gripper, while others will use a mechanism such as a gear or toggle to leverage the amount of force applied to the object being gripped. Grippers can also vary in terms of the opening size, the amount of force that can be applied, and the shape of the gripping surfaces—frequently called ''tooling jaws or fingers''. They can be used to pick up everything from very small items (a transistor or chip for a circuit board, for example) to very large items, such as an engine block for a car. Grippers are frequently added to industrial robots in order to allow the robot to interact with other objects.
All our engineers are well trained and have many experience in the construction of aluminium profile systems.
We are able to meet our customers specific application demands through the use of our in house CAD support service.
We provide our customers with a Cut Down service to satisfy specific length requirements.
The advantages are the cross-section ends are burr free and do not need to be reworked.
With our experienced and trained technicians, and our fully equipped workshop on site,
we are able to assemble effiently to meet our customers high quality requirements.
Conveyor
A conveyor system is a frequently used piece of mechanized handling equipment that transfers material from one place to another. A conveyor system is extremely useful in moving large and heavy materials from one location to another. Conveyor systems are popular and widely used in the material handling and packaging industries because they are quick and efficient in transporting a variety of materials. There are many kinds of conveyors available and therefore, different conveyors are used by different industries for different purposes. Conveyors are regularly used by many industries including the chemical, agricultural, electronic, aerospace, computer, food processing, pharmaceutical, print finishing and packaging, bottling and canning and the automotive industry.An automated system is a conveyor system that transports materials to different places and operates without human intervention. Automated systems are usually designed and manufactured for products of different weights, shapes and sizes. These systems can operate independently and can also work with other equipments. The automated system provides certain benefits:
- The automated system provides total product handling and is automated
- Each automated conveyor system is designed according to specific needs and requirements
- There are a large variety of automated systems especially designed for the requirements of the customer
- Automated systems are available in painted, mild, and stainless steel
A belt conveyor is a type of conveyor system, which has two or more pulleys, and rotates above a continuous loop of material to transport materials from one place to another. Both or one of the pulleys is powered. The pulley which is powered is known as the drive pulley while the pulley which is not powered is known as the idler. Belt conveyors may be classified into two main industrial classes namely, material handling and bulk material handling. Material handling includes general transportation of boxes within a factory and bulk material handling includes transportation of agricultural and industrial products to outdoor places, such as coal, grain, ores, etc.
A roller conveyor is a type of conveyor system where materials and products can be conveyed, moved and accumulated for transport and handling purposes with the help of rollers. Roller conveyors can have diameters ranging from 16 mm to 190 mm and lengths ranging from 70 mm to 3500 mm. Roller conveyors are made of high quality materials and can also have other features such as seals, roller bearings and housings. Roller conveyors are mainly used by the food-processing industry, for document and postal handling, luggage handling and cargo handling.
A chain conveyor is a type of conveyor system that utilises a constant chain arrangement which is powered to carry a succession of single pendants. A motor is used to power the chain arrangement and the materials balanced on the pendants are conveyed. The chain conveyor equipment is highly popular and used by many industry sectors in their production process. The chain conveyor is commonly used by the automotive industry to convey parts of the car through paint plants. The chain conveyor is also used in other industrial sectors such as the brown and white goods, metal finishing and other industries for distribution.
A screw conveyor is a type of conveyor system which is known for its material handling mechanism. It is widely used by industries handling bulk materials. In the modern industry, screw conveyors are commonly used in the horizontal position or at a slight incline to increase efficiency in moving semi-solid materials such as animal feed, food waste, meat and bone meal, wood chips, boiler ash, municipal solid waste, aggregates and many others. A screw conveyor can have a bigger pitch spacing which results in higher capacity with no increase in the speed of rotation.
2 Slide in and out.
3 loading capacity can be 800-3000 KGS per layer.
4 Easy to assemble and disassemble.
5 Surface treatment: Powder coated.
6 Different style, size and color are available.
We hold expertise in offering our clients a comprehensive range of Racks. These Mold Racks are fabricated using finest quality factor inputs. Our range is appreciated by our clients as these can be used for the storage of heavy goods such as tools, molds and motors.
Injection Mold Die Storage Racks features:
1, Drawer side easy to handle and spaces adjustable at ease.
2, Provided with pulley and manual chain block for easy handling.
3, Unified size and varied matches for connection at any place.
4, Assembly-type components for easy assembly and disassembly.
5, Each mould shelces can hold several moulds, easy to maintain, manage and identify moulds within min. Space.
6.Drawer racking, it is used for storing the moulds, the customed sizes are available.
Suitable for storing different kinds of mould with each veneer separately drawable and height of each layer adjustable, saving storage and operation space. Equipped with transfer car on the top and limiting set to assure lifting easily and safety. Four roller are installed under the drawer to make the removing easily.
Despite their widespread use, HID lamps utilize antiquated technology that costs building managers both directly and indirectly. Specifically, using HID lamps will result in: higher than necessary energy costs, frequently maintenance costs and poor lighting performance. These issues can all be addressed by converting your existing lighting to LED.
Energy Savings
Energy savings is a primary driver behind why you should evaluate LED lighting for your building or facility. Common wattages for LED high bay fixtures can range from 40 Watts to 800 Watts. If we compare this wattage to a typical HID high bay fixture that same range is about 120 watts vs 40 watts for LED and 1000 watts vs 400 Watts for LED
So by switching to LED lighting you are immediately reducing your energy consumption by 40%-60%. To put this in cost that you would be saving, RM 1,200~2,500 per fixture per year in electricity costs if you made the switch to LED lighting. Depending on the size of your facility this can really affect the operational balance sheet.
Maintenance Cost Reduction
By converting to LED’s you will also see a dramatic reduction in the maintenance of your high bay light fixtures. This is due to the way LEDs generate light, and the way they progress through their functional life. Instead of ceasing to function properly once a fuel source is significantly reduced, LED generated light output degrades very slowly over time. As a result the functional life of an LED product can be significantly longer than that of an HID Lamp, therefore drastically reducing the maintenance load required.
Lighting Performance
Finally, lighting performance is a critical factor in evaluating the move to a different type of lighting. From a performance standpoint, LED’s are a head-and-shoulders above their HID counterparts.
LED’s utilize a multi-point design, meaning they distributed light on the intended surface very evenly. Meaning that light levels across a given surface will vary less between fixture mounting locations. In addition to the even distribution of light, LEDs are available in a range of CCT’s (Correlated Color Temperatures), and as a result provide a range of options to increase the visual perception of “brightness”.
In contrast HID fixtures produce a “bright spot” directly underneath the fixture with light levels decreasing drastically as the distance between fixtures increases.
LFM LED is equally well suited for professional use as for use by the visually impaired and others with a need for precise magnification. The light weight makes it easy to move around. It's easily mounted with a removable table edge clamp.
Shadowfree magnification The glass lens is positioned in the middle of a circle of LED light sources. This is the ideal way of illuminating an object, virtually eliminating shadows.
The LED Magnifier equipped with a full circle of light emitting diodes (LED) with a total energy consumption of only 9,5W. LEDs have an incredibly long life span. The diodes have a life expectancy of 50.000 hours. That means 25 years or more with normal use. You will never have to change the light source! About magnification Follow this link to read more about the principles of magnification, and how a LED magnifier can make a difference for people in many different fields of life.
Pneumatic manifolds provide a convenient junction point for the distribution of fluids or gases and are used to provide pneumatic power to two or more locations to supply multiple tools. Simply thread pneumatic fittings into the ports of the distribution block to produce an organized method of supplying multiple lines from a single source. Air manifolds come in various port options and different material types for low and high-pressure applications.
Pneumatic Manifold Advantages
- 2 to 10 station air manifolds
- Variety of sizes & configurations
- Aluminum, brass, stainless steel, polypropylene & nylon materials
- Aluminum pneumatic manifolds are black anodized for corrosion resistance
- Precision machined
If the brand or model that you are looking for is not in our list. Kindly contact us for more details information.
End of arm tooling (EOAT) is a crucial aspect of robotic technology. It refers to the equipment that interacts with parts and components, typically at the end of a robotic arm. For example, the welding torch on a robotic welding system, Pick and place application, Insert application, IML & IMD application or 2 colours molding application..
The EOAT gives a robot a specific functionality and can be changed to fit different applications or even be built to accommodate several processes at once. Either way, advancements in EOAT capabilities are parallel to advancements in robotic capabilities.
There are many different types of EOAT for robots: grippers, Suction, cutting, parts removing,tool changers and more. They’re powered electrically, mechanically or pneumatically. The application dictates which type of EOAT is needed.
Currently, and in the near future, pneumatic EOATs have proven to be the most popular, since they’re easy to integrate and pack a lot of power in a small package. Grippers are also a popular EOAT for robots, as pick and place applications are prime targets for automation and the gripping capabilities of robots has advanced significantly in recent years.
EOAT is an important part of a robotic system. It’s what gives a robot its functionality, and as EOAT advances, so does robotics.



