ET End Carriage
Product Description
ET End Carriage, EC End Carriage
- Dawson Group Ltd. - China Manufacturer, Supplier, Factory
The wheel has gear flange, directly is transmitted with motor. With the addition of box beam structure, compact design, easy installation and maintenance. You can
contact us for the detail information.
When soft starting, and after fly wheel acting, the movement of high inertia is produced. No impact, this keeps crane stable, smooth, and noiseless, to stabilize the brake.
High performance of start torque, motor body is simple for radiation, high-pressure resisting more than“1500V, light current, small in size, powerful output, available for high frequency.
With direct-type electromagnet brake, control can be adjustable with screw, high abrasion brake leather, long service life, safety, and never be falling off.
Product code | ||||
ET 1,2 | 17 3 | - | 25 4 | |
1,2 | ET | ET,UT Overhead, under running | ||
3 | 17 | 17=170mm,Wheel dia. B-8 wheel | ||
4 | 25 | 25=2500mm Wheel bases |
Welcome to buy the newest and competitive price DAWSON ET End Carriage from our factory. We're one of the leading China manufacturers and suppliers, offering you the wholesale service and the OEM service at a discount. With CE certification, our products made in China in stock are high in quality and low in price. Please be free to get the free sample from us.
For further information, please contact us. Email:info@dawson-group.com
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Electric Wire Rope Hoist Crane Fittings:
A wire rope hoist is a hoist that utilizes wire rope as the lifting medium. It is often powered electrically or pneumatically. This lifting device is made up of a rope storage drum, motor(s), gear box and braking system, and is suspended from a monorail or bridge beam(s) by means of a trolley. It may also be stationary mounted.
A crane is a machine used for lifting and lowering a load, and moving it horizontally. A crane's drives may be manual, powered or a combination of both. Cranes are typically used when there is insufficient (or intermittent) flow volume such that the use of a conveyor cannot be justified. They provide more flexibility in movement than conveyors, and less flexibility in movement than industrial trucks. Loads handled by cranes are more varied with respect to their shape and weight than those handled by a conveyor. Most cranes utilize hoists for vertical movement, although manipulators can be used if precise positioning of the load is required.
Many different types of cranes are used for material handling applications. These include overhead cranes as well as cherry picker type boom lifts, mobile and self-propelled cranes, straddle and counterbalanced (cantilevered) cranes. Portable and mobile floor cranes can be equipped with fixed or telescopic booms as well as mast rotation when equipped with outriggers. Lifting can be performed with the boom itself or a winch operated cable lift.
Selection Criteria
The size of the hoist is determined by the load spectrum, average operating time, safe working load and rope revving.
1. What are the operating conditions ?
2. What is the specified safe working load ?
3. To what height must the load be lifted ?
4. What is the required lifting speed ?
5. Do the loads need to be lifted and lowered with great accuracy ?
6. Is horizontal load travel necessary ?
7. How the hoist to be controlled ?
Duty Factor | Mean Effective Loads | Average operating time per day in hours | ||||
Light Duty | K≤0.125 Hoist units which are usually subject to very small loads and in exceptional cases only to maximum loads | ≤2 | 2-1 | 4-8 | 8-16 | |
Medium Duty | 0.125<k≤0.25 Hoist units which are usually subject to small loads but rather often to maximum loads | ≤1 | 1-2 | 2-4 | 4-8 | |
Heavy Duty | 0.25<k≤0.5 Hoist units which are usually medium loads but frequently to maximum loads | ≤0.5 | 0.5-1 | 1-2 | 2-4 | |
Very Heavy Duty | 0.5<k≤1 Hoist units which are usually subject to maximum or almost maximum loads | ≤0.25 | 0.25-0.5 | 0.5-1 | 1-2 | |
Working Group | ISO | M3 | M4 | M5 | M6 | |
FEM | 1Bm | 1Am | 2m | 3m |
The average operating time per working day is estimated or calculated as follows:
2 × average hook path(m) × number of cycles/hour × number of working time/day
Operating time/day= ------------------------------------------------------------------------------------------------------------
60 ×lifting speed(m/min)
Application of related products: