CN205398879U - Walking beam mechanism - Google Patents

Abstract

The utility model provides a walking beam mechanism relates to a spinning machine technical field. The utility model discloses an including walking beam, back beam and tension cylinder, the tension cylinder sets up in the left side of walking beam, and back beam sets up on the right side of walking beam, and the tension cylinder passes through warp to be connected with the walking beam, and the walking beam passes through warp and is connected with back beam. The utility model discloses each layer warp layering is clear, and the shelves turner handles the broken end, it is convenient to connect, has reduced intensity of labour, and the walking beam twines frictional force for each layer warp has attached a package simultaneously, makes each layer warp tension further obtain control to evenly unanimously, the roughness of zone face has been improved.

Description

A kind of walking beam mechanism

Technical field

This utility model relates to a kind of technical field of textile machine, particularly relates to a kind of walking beam mechanism.

Background technology

Existing conveyer belt is multilamellar fabric, it is usually 6 layers of warp and simultaneously participates in weaving, former loom, without walking beam, is directly entered the back rest by tension roller, is then passed through heald and weaves, warp density is very big, each layer warp is interlaced at back rest place, tangle, and during indivedual warp break, change wastes time and energy, shelves turner labor intensity is very big, and warp is at non-tension control device between tension roller to the back rest.

Utility model content

For the weak point existed in the problems referred to above, this utility model provides a kind of walking beam mechanism, make the layering of its each layer warp clear, shelves turner processes broken end, joint conveniently, reducing labor intensity, walking beam is that each layer warp addition of a looping frictional force simultaneously, makes each layer warp tension be controlled further, and uniformity, improve the flatness of zone face.

In order to solve the problems referred to above, this utility model provides a kind of walking beam mechanism, wherein, including walking beam, the back rest and tension roller, described tension roller is arranged on the left side of described walking beam, the described back rest is arranged on the right side of described walking beam, and described tension roller is connected with described walking beam by warp, and described walking beam is connected with the described back rest by warp.

Preferably, described walking beam is arranged on swing roof beam structure, described walking beam includes the first walking beam group, the second walking beam group, the 3rd walking beam group, the 4th walking beam group, the 5th walking beam group and the 6th walking beam group, described first walking beam group, described second walking beam group and described 3rd walking beam group are arranged on the right-hand member of described swing roof beam structure, and described 4th walking beam group, described 5th walking beam group and described 6th walking beam group are arranged on the left side of described swing roof beam structure.

Preferably, described first walking beam group, described second walking beam group and described 3rd walking beam group are set in parallel, and described 4th walking beam group, described 5th walking beam group and described 6th walking beam group are set in parallel.

Preferably, described first walking beam group includes the first walking beam and the second walking beam, described second walking beam group includes the 3rd walking beam and the 4th walking beam, described 3rd walking beam group includes the 5th walking beam and the 6th walking beam, described 4th walking beam group includes the 7th walking beam and the 8th walking beam, described 5th walking beam group includes the 9th walking beam and the tenth walking beam, and described 6th walking beam group includes the 11st walking beam and the 12nd walking beam.

Preferably, described tension roller includes the first tension roller, the second tension roller, the 3rd tension roller, the 4th tension roller, the 5th tension roller and the 6th tension roller, and the described back rest includes the back rest and the lower back rest.

Preferably, described first tension roller, described first walking beam, described second walking beam and the described upper back rest are sequentially connected with by warp, described second tension roller, described 3rd walking beam, described 4th walking beam and the described upper back rest are sequentially connected with by warp, described 3rd tension roller, described 5th walking beam, described 6th walking beam and the described upper back rest are sequentially connected with by warp, described 4th tension roller, described 7th walking beam, described 8th walking beam and the described lower back rest are sequentially connected with by warp, described 5th tension roller, described 9th walking beam, described tenth walking beam and the described lower back rest are sequentially connected with by warp, described 6th tension roller, described 11st walking beam, described 12nd walking beam and the described lower back rest are sequentially connected with by warp.

Preferably, described walking beam is flexibly connected with described swing roof beam structure, and described walking beam swings by a small margin along the warp direction of motion on described swing roof beam structure.

Compared with prior art, this utility model has the advantage that

This utility model each layer warp layering is clear, and shelves turner processes broken end, joint conveniently, reduces labor intensity, walking beam is that each layer warp addition of a looping frictional force simultaneously, each layer warp tension is made to be controlled further, and uniformity, improve the flatness of zone face.

Accompanying drawing explanation

Fig. 1 is example structure schematic diagram of the present utility model.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with accompanying drawing and example, this utility model is described in further detail, but example is not as to restriction of the present utility model.

As shown in Figure 1, embodiment of the present utility model includes walking beam, the back rest 3 and tension roller 1, and tension roller 1 is arranged on the left side of walking beam, and the back rest 3 is arranged on the right side of walking beam, tension roller 1 is connected with walking beam by warp, and walking beam is connected with the back rest 3 by warp.Walking beam is arranged on swing roof beam structure 2, walking beam includes the first walking beam group, the second walking beam group, the 3rd walking beam group, the 4th walking beam group, the 5th walking beam group and the 6th walking beam group, first walking beam group, the second walking beam group and the 3rd walking beam group are arranged on the right-hand member swinging roof beam structure 2, and the 4th walking beam group, the 5th walking beam group and the 6th walking beam group are arranged on the left side swinging roof beam structure 2.First walking beam group, the second walking beam group and the 3rd walking beam group are set in parallel, and the 4th walking beam group, the 5th walking beam group and the 6th walking beam group are set in parallel.First walking beam group includes the first walking beam 4 and the second walking beam 5, second walking beam group includes the 3rd walking beam 6 and the 4th walking beam 7,3rd walking beam group includes the 5th walking beam 8 and the 6th walking beam 9,4th walking beam group includes the 7th walking beam 10 and the 8th walking beam 11,5th walking beam group includes the 9th walking beam 12 and the tenth walking beam 13, and the 6th walking beam group includes the 11st walking beam the 14 and the 12nd walking beam 15.Tension roller 1 includes the first tension roller the 18, second tension roller the 19, the 3rd tension roller the 20, the 4th tension roller the 21, the 5th tension roller 22 and the 6th tension roller 23, and the back rest 3 includes the back rest 16 and the lower back rest 17.First tension roller 18, first walking beam 4, second walking beam 5 and the upper back rest 16 are sequentially connected with by warp, second tension roller 19, 3rd walking beam 6, 4th walking beam 7 and the upper back rest 16 are sequentially connected with by warp, 3rd tension roller 20, 5th walking beam 8, 6th walking beam 9 and the upper back rest 16 are sequentially connected with by warp, 4th tension roller 21, 7th walking beam 10, 8th walking beam 11 and the lower back rest 17 are sequentially connected with by warp, 5th tension roller 22, 9th walking beam 12, tenth walking beam 13 and the lower back rest 17 are sequentially connected with by warp, 6th tension roller 23, 11st walking beam 14, 12nd walking beam 15 and the lower back rest 17 are sequentially connected with by warp.

In work, by 12 walking beams and swing being flexibly connected of roof beam structure 2, walking beam swings along the warp direction of motion on roof beam structure 2 by a small margin swinging.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses this utility model.The multiple amendment of these embodiments be will be apparent from for those skilled in the art, and generic principles defined herein when without departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (7)

1. a walking beam mechanism, it is characterized in that, including walking beam, the back rest and tension roller, described tension roller is arranged on the left side of described walking beam, the described back rest is arranged on the right side of described walking beam, described tension roller is connected with described walking beam by warp, and described walking beam is connected with the described back rest by warp.

2. walking beam mechanism as claimed in claim 1, it is characterized in that, described walking beam is arranged on swing roof beam structure, described walking beam includes the first walking beam group, the second walking beam group, the 3rd walking beam group, the 4th walking beam group, the 5th walking beam group and the 6th walking beam group, described first walking beam group, described second walking beam group and described 3rd walking beam group are arranged on the right-hand member of described swing roof beam structure, and described 4th walking beam group, described 5th walking beam group and described 6th walking beam group are arranged on the left side of described swing roof beam structure.

3. walking beam mechanism as claimed in claim 2, it is characterized in that, described first walking beam group, described second walking beam group and described 3rd walking beam group are set in parallel, and described 4th walking beam group, described 5th walking beam group and described 6th walking beam group are set in parallel.

4. walking beam mechanism as claimed in claim 3, it is characterized in that, described first walking beam group includes the first walking beam and the second walking beam, described second walking beam group includes the 3rd walking beam and the 4th walking beam, described 3rd walking beam group includes the 5th walking beam and the 6th walking beam, described 4th walking beam group includes the 7th walking beam and the 8th walking beam, described 5th walking beam group includes the 9th walking beam and the tenth walking beam, and described 6th walking beam group includes the 11st walking beam and the 12nd walking beam.

5. walking beam mechanism as claimed in claim 4, it is characterized in that, described tension roller includes the first tension roller, the second tension roller, the 3rd tension roller, the 4th tension roller, the 5th tension roller and the 6th tension roller, and the described back rest includes the back rest and the lower back rest.

null6. walking beam mechanism as claimed in claim 5，It is characterized in that，Described first tension roller、Described first walking beam、Described second walking beam and the described upper back rest are sequentially connected with by warp，Described second tension roller、Described 3rd walking beam、Described 4th walking beam and the described upper back rest are sequentially connected with by warp，Described 3rd tension roller、Described 5th walking beam、Described 6th walking beam and the described upper back rest are sequentially connected with by warp，Described 4th tension roller、Described 7th walking beam、Described 8th walking beam and the described lower back rest are sequentially connected with by warp，Described 5th tension roller、Described 9th walking beam、Described tenth walking beam and the described lower back rest are sequentially connected with by warp，Described 6th tension roller、Described 11st walking beam、Described 12nd walking beam and the described lower back rest are sequentially connected with by warp.

7. walking beam mechanism as claimed in claim 6, it is characterised in that described walking beam is flexibly connected with described swing roof beam structure, and described walking beam swings by a small margin along the warp direction of motion on described swing roof beam structure.