DATA

1. 600V EP rubber insulation tubes                                 2. 600V PVC flat tubes

 cable-chain-eng-1-1cable-chain-eng-1-2 

3. PU air tubes                                                                      4. Nylon tubes

cable-chain-eng-1-3cable-chain-eng-1-4

 

Design

cable-chain-eng-2-0

 

 

Types of applications

cable-chain-eng-2-1

 cable-chain-eng-2-2

cable-chain-eng-2-3

1-1 Cable Chain Closed Type

 cable-chain-eng-3-1

 

 cable-chain-eng-3-2

Mounting bracket size

cable-chain-eng-3-3\

 

1-2 Brackets for closed type

cable-chain-ch-4-1cable-chain-ch-4-2

cable-chain-eng-4-2cable-chain-eng-4-3

 

1-3 Assembly method

 cable-chain-eng-4-4

 

2-1 Opened Cable Chain Snap-on Type

cable-chain-eng-5-1

2-2 Dimensions for Snap-on Type

Series 1

cable-chain-eng-5-2

Series 2

cable-chain-eng-5-3

Length : fixed point in the middle - total length = stroke/2+ 3 (KR+G)

              fixed point in the one side - total length =  stroke + 3 (KR+G)

Model : To choose fit model, it's recommended 20% plus to the inside cable's outer diameter

Curve : To choose winding radius, it's recommended 8~10 times to the inside cable's diameter

 

2-3 Brackets for Snap-on Type

 cable-chain-eng-6-1

2-4 Product Series 1

cable-chain-ch-6-2

 

2-5 Assembly method - Product Series 1

cable-chain-eng-6-3

2-6 Product Series 2

cable-chain-ch-7-1cable-chain-ch-7-2

 cable-chain-ch-7-3cable-chain-ch-7-4

cable-chain-ch-7-5cable-chain-ch-7-6

 

2-7 Assembly method - Product Series 2

 cable-chain-eng-7-4

When assembling the cover, tilt the cover 45 to the connecting position and press it. 

cable-chain-eng-8-1

3-1 Cable Chain Secure Type

cable-chain-eng-8-2

 

3-2 Product Series 1 

cable-chain-eng-8-3

 cable-chain-eng-8-4

4-1 Chip Protection Closed Cable Chain

cable-chain-eng-9-1

4-2 Dimensions for Chip Protection Closed Cable Chain

cable-chain-eng-9-2

Body : reinforced plastic

Length : fixed point in the middle - total length = stroke/2 + 3 (KR+G)

              fixed point in one side - total length = stroke + 3 (KR+G)

Model : To choose fit model, it's recommended 20% plus to the inside cable's outer diameter.

Curve : To choose winding radius, it's recommended 8~10 times to the inside cable's diameter.

4-3 Brackets for Chip Protection Closed Cable Chain

 cable-chain-eng-9-3

5-1 Snap-open chip protection Cable chain

cable-chain-eng-10-1

5-2 Dimensions for Snap-open chip protection Cable chain

cable-chain-eng-10-2

 cable-chain-eng-10-3          cable-chain-eng-10-4

5-3 Dimensions for Snap-open Chip Protection Cable Chain

cable-chain-eng-10-5

cable-chain-eng-10-6

                                        Cable Chain Design Specification

  • Speed of Travel

For unsupported application, KYEC cable chains achieve speeds in excess of 5 m/s and rates of acceleration of more than (10m/s). These guidelines apply to KYEC energy chains of every size if they are used " unsupported straight". In specific applications, the top speed is influenced and limited by the length of travel,additional load and the frequency of travel.

  • Service life

In order to estimate the service life of an unsupported application, all technical data must be provided: type and number of conduits, additional load, speed, acceleration, travel frequency and details of the technical environment. Wear of the energy chains is very low, due to a special material compound and plastic-oriented design. A service life of between 15-30 million cycles can be achieved for "unsupported straight" applications even in high speed application.

  • Unsupported lengths

The maximum length of travel possible of an unsupported application depends on the stability of the chain used, and on the weight of the cables and hoses inside the chain (additional load). Figure 1 shows the maximum permissible " unsupported lengths with sag (FL)" of all KYEC cable chains depending on the additional load. Unsupported length is defined here in such a way that the upper section of the cable chain has a permission sag. In this case the upper section is bent over the back.

The largest possible travel is in any case equal to twice the largest possible unsupported length:

S max. = FLB*2

S max.= maximum travel

FLB= unsupported length with sag taking the additional load into account 

The sag of the KYEC cable chains does not pose a problem in many applications. It may become critical however when acceleration and frequency of travel are very high. In such cases the cable chain may be additionally supported. Figure 2 shows the conditions for the application of the chains "unsupported straight". "Unsupported straight" means that the upper section hangs parallel to the lower section. This configuration permits maximum travel speeds, accelerations and bending cycles.

 cable-chain-eng-11-1

 

cable-chain-eng-11-2

cable-chain-eng-12-2

cable-chain-eng-12-3

Guiding trough

Guiding trough are used for long travels, figure 3 is the basic shape. Height of guiding trough should be at least double to the height of cable chains. 

 cable-chain-eng-12-4

 

6 Cable chain Stainless

Patent number of Republic of China:67304    Patent number of Germany:G9109422.4

cable-chain-ch-13-1

cable-chain-eng-13-2

  • Body: stainless 304  
  • Assemble: Two flages connected to the tube's both ends as shown in figures. Three types can be chosen. 

Connector Type

cable-chain-eng-13-3

cable-chain-eng-13-4

Connecting method

cable-chain-ch-13-5

7 Metal Chain type

cable-chain-eng-14-1

cable-chain-eng-14-2

Chain Size

cable-chain-eng-14-3

Bracket size

cable-chain-eng-14-4

 

適用龍門銑床,磨床,X軸,Y軸,一般傳統機械,護套本身具有掛於軌道方,拉伸時中段不致彈出,所以拉伸性高,材質為紗+耐龍,具有耐溫,防塵,防汙水,內部可加裝PVC,拉伸帶白鐵彈簧片。

cable-chain-ch-16-1

cable-chain-ch-16-2

cable-chain-ch-16-3

cable-chain-ch-16-4