CN210132008U - Auxiliary forming device for steel wire meshes - Google Patents

Abstract

The utility model relates to a mechanical equipment technical field specifically is an auxiliary forming device of wire net: the device comprises a bottom plate, a first pressure assembly and a second pressure assembly; the lower end face of the bottom plate is symmetrically provided with a first rotating shaft and a second rotating shaft along the feeding through groove, and the front ends and the rear ends of the first rotating shaft and the second rotating shaft are connected with the lower end face of the bottom plate through a return device; the return devices are arranged at the front side and the rear side of the lower end surface of the bottom plate; the first rotating shaft is connected with the first pressure assembly, and the second rotating shaft is connected with the second pressure assembly; the first pressure assembly and the second pressure assembly have the same structure; the return device drives a first pressure lip on the first pressure assembly to abut against a second pressure lip on the second pressure assembly; swing arms are sleeved on the first rotating shaft and the second rotating shaft, a translation block for driving the first rotating shaft and the second rotating shaft to rotate is arranged between the two swing arms, and protrusions are arranged on the upper end face and the lower end face of one end of the translation block; through setting up the pressure lip, the utility model discloses can be effectual fixed with warp, prevent that it from taking place the drunkenness.

Description

Auxiliary forming device for steel wire meshes

Technical Field

The utility model relates to the technical field of mechanical equipment, specifically a supplementary forming device of wire net.

Background

The steel wire mesh is usually woven by warps and wefts; in the weaving process, a plurality of warps are inserted into the wefts; however, in the actual operation process, when the weft threads and the warp threads are woven, the weft threads often move to cause weaving deviation, so that the regularity of the steel wire mesh forming is influenced; in conclusion, how to fix the weft to prevent the weft from moving without affecting the knitting efficiency is a problem that the company is in urgent need to solve.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: how to fix the weft and prevent the weft from moving.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model relates to an auxiliary forming device for a steel wire mesh, which comprises a bottom plate, a first pressure component and a second pressure component;

a feeding through groove is formed in the end face of the bottom plate;

the feeding through groove has the function of enabling materials to enter from the feeding through groove for subsequent processing.

The lower end face of the bottom plate is symmetrically provided with a first rotating shaft and a second rotating shaft along the feeding through groove, and the front ends and the rear ends of the first rotating shaft and the second rotating shaft are connected with the lower end face of the bottom plate through a return device; the return devices are arranged at the front side and the rear side of the lower end surface of the bottom plate;

that is to say, the end parts of the first rotating shaft and the second rotating shaft are provided with return devices and are connected with the bottom plate through the return devices; the return device is used for controlling the first rotating shaft and the second rotating shaft to rotate reversely so as to enable the first pressure lip and the second pressure lip to be abutted.

The first rotating shaft is connected with the first pressure assembly, and the second rotating shaft is connected with the second pressure assembly; the first pressure assembly and the second pressure assembly have the same structure;

the first pressure assembly comprises a first bracket, one end of the first bracket is connected with the first rotating shaft, the other end of the first bracket is connected with the first pressure lip, and when the first rotating shaft rotates, the first pressure lip is driven to rotate; because the structure of the first pressure component is consistent with that of the second pressure component, the first rotating shaft and the second rotating shaft drive the corresponding pressure lips to be combined or separated.

The return device drives a first pressure lip on the first pressure assembly to abut against a second pressure lip on the second pressure assembly;

swing arms are sleeved on the first rotating shaft and the second rotating shaft, a translation block for driving the first rotating shaft and the second rotating shaft to rotate is arranged between the two swing arms, and protrusions are arranged on the upper end face and the lower end face of one end of the translation block;

when the two swing arms abut against the non-protruding part of the translation block, the first pressure lip is abutted against the second pressure lip; the translation piece passes through the translation, supports two swing arms when translation piece arch department, and two swing arms drive corresponding pivot and rotate to drive first pressure lip and the separation of second pressure lip.

The utility model has the advantages that: the utility model relates to an auxiliary forming device of a steel wire mesh, which controls the separation or the compaction of a pressing lip through the movement of a translation block, when a swing arm is pressed against the non-convex part of the translation block, the pressing lip fixes one end of a warp thread, thereby preventing the weft thread from being arranged in the process of penetrating in the pressing lip; and then the swing arm is supported to the raised part of the translation block by the translation block, the pressure lips are separated, the subsequent process drives the warp to move to the place where the next warp needs to be woven, the warp is compressed again, and the weft starts to be woven so as not to influence the weaving efficiency.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the left side of the present invention;

fig. 2 is a schematic structural diagram of the right side of the present invention;

fig. 3 is a schematic structural view from above of the present invention;

fig. 4 is a schematic structural diagram of the translation block of the present invention;

in the figure: 1-bottom plate, 11-feeding through groove, 2-first pressure component, 21-first rotating shaft, 22-first pressure lip, 3-second pressure component, 31-second rotating shaft, 32-second pressure lip, 4-return device, 5-swing arm and 6-translation block.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1-3, the utility model relates to an auxiliary forming device for a steel wire mesh, which comprises a bottom plate 1, a first pressure component 2 and a second pressure component 3;

a feeding through groove 11 is formed in the end face of the bottom plate 1;

the feeding through groove has the function of enabling materials to enter from the feeding through groove for subsequent processing.

The lower end face of the bottom plate is symmetrically provided with a first rotating shaft 21 and a second rotating shaft 31 along the feeding through groove, and the front ends and the rear ends of the first rotating shaft 21 and the second rotating shaft 31 are connected with the lower end face of the bottom plate 1 through a return device 4; the return devices 4 are arranged at the front and rear sides of the lower end surface of the bottom plate 1;

that is to say, the end parts of the first rotating shaft and the second rotating shaft are provided with return devices and are connected with the bottom plate through the return devices; the return device is used for controlling the first rotating shaft and the second rotating shaft to rotate reversely so as to enable the first pressure lip and the second pressure lip to be abutted.

The first rotating shaft 21 is connected with the first pressure component 2, and the second rotating shaft 31 is connected with the second pressure component 3; the first pressure assembly 2 and the second pressure assembly 3 have the same structure;

the first pressure assembly comprises a first bracket, one end of the first bracket is connected with the first rotating shaft, the other end of the first bracket is connected with the first pressure lip, and when the first rotating shaft rotates, the first pressure lip is driven to rotate; because the structure of the first pressure component is consistent with that of the second pressure component, the first rotating shaft and the second rotating shaft drive the corresponding pressure lips to be combined or separated.

The return device 4 drives the first pressure lip 22 on the first pressure assembly 2 and the second pressure lip 32 on the second pressure assembly 3 to abut against each other;

as shown in fig. 4, swing arms 5 are respectively sleeved on the first rotating shaft 21 and the second rotating shaft 31, a translation block 6 for driving the first rotating shaft 21 and the second rotating shaft 31 to rotate is arranged between the two swing arms 5, and protrusions are arranged on the upper end surface and the lower end surface of one end of the translation block 6;

when the two swing arms 5 abut against the non-protruding part of the translation block 6, the first pressure lip 22 abuts against the second pressure lip 32; the translation block 6 is translated, and when the two swing arms 5 abut against the protruding part of the translation block 6, the two swing arms 5 drive the corresponding rotating shafts to rotate, and drive the first pressure lip 22 to separate from the second pressure lip 32.

The utility model relates to an auxiliary forming device of a steel wire mesh, which controls the separation or the compaction of a pressing lip through the movement of a translation block, when a swing arm is pressed against the non-convex part of the translation block, the pressing lip fixes one end of a warp thread and the weft thread penetrates into the pressing lip; and then the translation block translates, when the swing arm is supported at the raised part of the translation block, the pressure lips are separated, the subsequent process drives the warp to move to the place where the next warp needs to be woven, the warp is compressed again, and the weft starts to be woven.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (1)

1. An auxiliary forming device for a steel wire mesh is characterized by comprising a bottom plate, a first pressure assembly and a second pressure assembly;

a feeding through groove is formed in the end face of the bottom plate;

the lower end face of the bottom plate is symmetrically provided with a first rotating shaft and a second rotating shaft along the feeding through groove, and the front ends and the rear ends of the first rotating shaft and the second rotating shaft are connected with the lower end face of the bottom plate through a return device; the return devices are arranged on the front side and the rear side of the lower end face of the bottom plate;

the first rotating shaft is connected with the first pressure assembly, and the second rotating shaft is connected with the second pressure assembly; the first pressure assembly and the second pressure assembly are consistent in structure;

the return device drives a first pressure lip on the first pressure assembly to abut against a second pressure lip on the second pressure assembly;

swing arms are sleeved on the first rotating shaft and the second rotating shaft, a translation block for driving the first rotating shaft and the second rotating shaft to rotate is arranged between the two swing arms, and protrusions are arranged on the upper end face and the lower end face of one end of the translation block;

when the two swing arms abut against the non-protruding part of the translation block, the first pressure lip abuts against the second pressure lip; the translation piece is through the translation, will two when the swing arm supports translation piece arch department, two the swing arm drives corresponding pivot and rotates, and drives first pressure lip with the separation of second pressure lip.

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