CN216918077U - Double-wire steel wire heat treatment and conveying mechanism - Google Patents

Abstract

The utility model discloses a double-wire steel wire heat treatment and conveying mechanism, which comprises two groups of steel wires arranged in parallel in the front-back direction, two groups of heat treatment components used for respectively carrying out heat treatment on the steel wires, and a first wire feeding wheel set and a second wire feeding wheel set used for conveying the two groups of steel wires, wherein the first wire feeding wheel set and the second wire feeding wheel set are arranged in a front-back staggered manner, and run synchronously and stop synchronously with the corresponding heat treatment components respectively; secondly, the first wire feeding wheel set and the second wire feeding wheel set are arranged in a staggered mode, the length of the whole machine can be reduced, and the space utilization rate is improved.

Description

Double-wire steel wire heat treatment and conveying mechanism

Technical Field

The utility model relates to the technical field of bagged spring production equipment, in particular to a double-wire steel wire heat treatment and conveying mechanism.

Background

A springing head is a machine used to produce springs. In order to feed the steel wire into the springing head, a steel wire conveying mechanism is required.

In order to improve the production efficiency, the spring beating machine head capable of double-line production is available. However, since the conventional steel wire heat treatment conveying mechanism needs to convey the steel wire while performing heat treatment, the heat treatment of the double-wire steel wire is still maintained when the double-wire is switched. However, in the case of a double wire springing head, which can only produce one type of spring at a time, and thus only one steel wire can be transported at a time, the other steel wire needs to be in a waiting state, and in this case, if both steel wires are subjected to heat treatment, the steel wire in the waiting state is cooled again after heat treatment, and the cooled steel wire is used for producing the spring, which may easily cause waste.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a double-wire steel wire heat treatment and conveying mechanism.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a double-line copper wire heat treatment and conveying mechanism, includes two sets of fore-and-aft direction parallel arrangement's copper wire, is used for carrying out the two sets of heat treatment subassemblies that heat treat respectively to the copper wire and is used for carrying out the first line wheelset and the second that send the line wheelset to carry out two sets of copper wires and send the line wheelset, first line wheelset and the second send the line wheelset to misplace from beginning to end and set up, first line wheelset and the second send the line wheelset to move and stop in step corresponding to the heat treatment subassembly synchronous operation respectively.

Further, still including the first line wheelset of crossing and the second line wheelset of crossing that are used for guaranteeing two sets of copper wire horizontal transport, the first line wheelset of crossing misplaces with the second around the line wheelset, and two sets of copper wires are crossed the line wheelset from the first line wheelset and the second respectively and are passed through, and it is two sets of heat treatment subassembly dislocation set is used for carrying out heat treatment to the copper wire that crosses the line wheelset from the first line wheelset and the second respectively and pass through.

Further, the heat treatment assembly comprises a positive electrode assembly and a negative electrode assembly, and the distance between the positive electrode assembly and the negative electrode assembly is adjustable.

Further, positive pole subassembly includes mount pad, conducting block and displacement mechanism, the conducting block is installed on the mount pad, the mount pad is at vertical direction slidable mounting, displacement mechanism drive the mount pad is displacement from top to bottom.

Furthermore, the conductive block of the heat treatment assembly corresponding to the first wire passing wheel set is arranged in a staggered manner with the conductive block of the heat treatment assembly corresponding to the second wire passing wheel set.

Furthermore, two conducting blocks are arranged on the positive pole assembly, and a negative pole assembly is arranged in front of and behind each positive pole assembly.

Further, the displacement mechanism is an air cylinder.

Furthermore, the first wire feeding wheel set comprises a first upper wheel, a first lower wheel, an upper wheel driving shaft and a lower wheel driving shaft, the second wire feeding wheel set comprises a second upper wheel, a second lower wheel and an upper wheel driving sleeve, the first upper wheel is fixedly connected with the upper wheel driving shaft, the first lower wheel is fixedly connected with the lower wheel driving shaft, the second upper wheel is fixedly connected with the upper wheel driving sleeve, the upper wheel driving shaft penetrates through the upper wheel driving sleeve, and the first lower wheel and the second lower wheel are fixedly connected with the lower wheel driving shaft.

The utility model has the following beneficial effects:

according to the double-wire steel wire heat treatment and conveying mechanism, the first wire feeding wheel set and the second wire feeding wheel set which are staggered and independently driven are arranged, the two staggered heat treatment components are arranged at the same time, the first wire feeding wheel set and the second wire feeding wheel set respectively run synchronously with the two heat treatment mechanisms, and when and only when one of the first wire feeding wheel set or the second wire feeding wheel set conveys a steel wire, the corresponding heat treatment mechanism carries out heat treatment on the steel wire, so that the heat treatment components can be accurately prevented from carrying out heat treatment on the steel wire which does not need to produce a spring, and waste products are avoided; secondly, the first wire feeding wheel set and the second wire feeding wheel set are arranged in a staggered mode, the length of the whole machine can be reduced, and the space utilization rate is improved.

Drawings

FIG. 1 is a schematic perspective view of a double-wire steel wire heat treatment and conveying mechanism according to the present invention;

FIG. 2 is a partial view A of FIG. 1;

FIG. 3 is a front view of a double-wire steel wire heat treatment and conveying mechanism according to the present invention;

fig. 4 is a sectional view taken along the plane B-B of fig. 3.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea of the utility model claimed.

As shown in fig. 1 to 4, the double-wire steel wire 101 heat treatment and conveying mechanism of the present invention includes two sets of steel wires 101 arranged in parallel in a front-rear direction, two sets of heat treatment modules 3 for heat-treating the steel wires 101, respectively, and a first wire feeding wheel set 4 and a second wire feeding wheel set 5 for conveying the two sets of steel wires 101, wherein the first wire feeding wheel set 4 and the second wire feeding wheel set 5 are arranged in a front-rear staggered manner, and the first wire feeding wheel set 4 and the second wire feeding wheel set 5 operate synchronously and stop synchronously with the corresponding heat treatment modules 3, respectively.

More specifically, the first wire feeding wheel set 4 and the second wire feeding wheel set 5 respectively convey two steel wires 101 when the wire feeding wheel set is in use, if and only if the first wire feeding wheel set 4 conveys the steel wires 101, the heat treatment component 3 carries out heat treatment on the steel wires 101 passing through the first wire passing wheel set 1, otherwise, the heat treatment component 3 stops heating the steel wires 101; similarly, the heat treatment assembly 3 heat-treats the corresponding steel wire 101 if and only if the second wire-feeding wheelset 5 conveys the steel wire 101, otherwise the heat treatment assembly 3 stops heating the steel wire 101.

The utility model has the advantages that: 1. by arranging the first wire feeding wheel set 4 and the second wire feeding wheel set 5 which are staggered and independently driven and simultaneously arranging the two staggered heat treatment assemblies 3, the first wire feeding wheel set 4 and the second wire feeding wheel set 5 respectively run synchronously with the two heat treatment mechanisms 3, and when and only when one of the first wire feeding wheel set 4 or the second wire feeding wheel set 5 conveys the steel wire 101, the corresponding heat treatment mechanism carries out heat treatment on the steel wire 101, so that the heat treatment assemblies 3 can be accurately prevented from carrying out heat treatment on the steel wire 101 without producing springs, and waste products are avoided; 2. the first wire feeding wheel set 4 and the second wire feeding wheel set 5 are arranged in a staggered mode, the length of the whole machine can be reduced, and the space utilization rate is improved.

Further, still including being used for guaranteeing two sets of copper wire 101 horizontal transport's first line wheelset and second line wheelset of crossing, first line wheelset and second are crossed the dislocation from beginning to end, and two sets of copper wire 101 are crossed the line wheelset from first line wheelset and second respectively and are crossed the line wheelset and pass through, and is two sets of heat treatment component dislocation set is used for carrying out heat treatment to the copper wire 101 of crossing the line wheelset from first line wheelset and second respectively.

It should be noted that, first cross line wheelset 1 comprises a plurality of first cross line wheelsets 1, second cross line wheelset 2 comprises a plurality of second cross line wheelsets 2, first cross line wheel and second cross line wheel dislocation in front and back direction.

Further, the heat treatment assembly 3 comprises a positive electrode assembly 31 and a negative electrode assembly 32, and the distance between the positive electrode assembly 31 and the negative electrode assembly 32 is adjustable.

More specifically, the distance between the positive electrode assembly 31 and the negative electrode assembly 32 is adjustable, so that the length of the steel wire 101 treated by heat at each time is adjustable.

It should be noted that the positive electrode assembly 31 and the negative electrode assembly 32 are respectively mounted on two mounting plates, the two mounting plates are mounted on the rack, and the mounting positions of the two mounting plates are adjustable, so that the distance between the positive electrode assembly 31 and the negative electrode assembly 32 is adjustable.

Further, the positive electrode assembly 31 includes a mounting seat 33, a conductive block 34, and a displacement mechanism 35, wherein the conductive block 34 is mounted on the mounting seat 33, the mounting seat 33 is slidably mounted in a vertical direction, and the displacement mechanism 35 drives the mounting seat 33 to displace up and down.

It should be noted that the structure of the negative electrode assembly 32 is similar to that of the positive electrode assembly 31, so that a description thereof is not required.

More specifically, the displacement mechanism 35 drives the conductive block 34 to displace up and down to ensure that the conductive block 34 is in close contact with the steel wire 101, thereby ensuring that the heat treatment component 3 performs heat treatment on the steel wire 101.

Further, the conductive block 34 of the heat treatment assembly 3 corresponding to the first wire passing wheel set 1 is disposed in a staggered manner with respect to the conductive block 34 of the heat treatment assembly 3 corresponding to the second wire passing wheel set 2.

More specifically, two sets of conducting block 34 of heat treatment component 3 misplaces from beginning to end to can correspond the first line wheelset 1 and the second line wheelset 2 of misplacing from beginning to end, thereby guarantee that two sets of heat treatment components 3 can not mutual interference, thereby guarantee that the heat treatment of two copper wires 101 is stable and mutual noninterference.

Further, two conductive blocks 34 are disposed on the positive electrode assembly 31, and a negative electrode assembly 32 is disposed in front of and behind each positive electrode assembly 31.

More specifically, two conductive blocks 34 are arranged on the positive electrode assembly 31, and one conductive block 34 is arranged on the negative electrode assembly 32, so that one heat treatment assembly 3 can perform heat treatment on two steel wires 101, and the heat treatment efficiency is improved.

Further, the displacement mechanism 35 is an air cylinder.

More specifically, the cylinder has the advantages of stable driving and accurate positioning, and is beneficial to the accurate contact of the position of the conductive block 34 and the steel wire 101.

Further, the first wire feeding wheel set 4 includes a first upper wheel 41, a first lower wheel 42, an upper wheel driving shaft 43 and a lower wheel driving shaft 44, the second wire feeding wheel set 5 includes a second upper wheel 51, a second lower wheel 52 and an upper wheel driving sleeve 53, the first upper wheel 41 is fixedly connected with the upper wheel driving shaft 43, the first lower wheel 42 is fixedly connected with the lower wheel driving shaft 44, the second upper wheel 51 is fixedly connected with the upper wheel driving sleeve 53, the upper wheel driving shaft 43 passes through the upper wheel driving sleeve 53, and both the first lower wheel 42 and the second lower wheel 52 are fixedly connected with the lower wheel driving shaft 44.

More specifically, by providing the upper wheel drive shaft 43 and the upper wheel drive sleeve 53, a gap exists between the upper wheel drive shaft 43 and the upper wheel drive sleeve 53. The rotation of the upper wheel driving sleeve 53 is not affected when the upper wheel driving shaft 43 is lifted, so that the space utilization rate is improved, and the transmission interaction between the first wire feeding wheel set 4 and the second wire feeding wheel set 5 is avoided.

Various other changes and modifications to the embodiments and concepts described above will be apparent to those skilled in the art, and all such changes and modifications are intended to be included within the scope of the appended claims.

Claims (8)

1. A double-wire steel wire heat treatment and conveying mechanism is characterized in that: the wire feeding device comprises two groups of steel wires arranged in parallel in the front-back direction, two groups of heat treatment components used for carrying out heat treatment on the steel wires respectively, and a first wire feeding wheel set and a second wire feeding wheel set used for conveying the two groups of steel wires, wherein the first wire feeding wheel set and the second wire feeding wheel set are arranged in a staggered mode in the front-back direction, and the first wire feeding wheel set and the second wire feeding wheel set run synchronously and stop synchronously corresponding to the corresponding heat treatment components respectively.

2. A double wire steel wire heat treatment and conveying mechanism as claimed in claim 1, wherein: still including being used for guaranteeing two sets of copper wire horizontal transport's first cross the line wheelset and the second cross the line wheelset, first cross the line wheelset and misplace around the line wheelset with the second, two sets of copper wires are crossed the line wheelset from first line wheelset and second respectively and are passed through, and is two sets of heat treatment component dislocation set is used for carrying out heat treatment to the copper wire that crosses the line wheelset from first line wheelset and second respectively and pass through.

3. A double wire steel wire heat treatment and conveying mechanism as claimed in claim 2, wherein: the heat treatment assembly comprises a positive electrode assembly and a negative electrode assembly, and the distance between the positive electrode assembly and the negative electrode assembly is adjustable.

4. A double wire steel wire heat treatment and conveying mechanism as claimed in claim 3, wherein: the positive component comprises a mounting seat, a conductive block and a displacement mechanism, the conductive block is mounted on the mounting seat, the mounting seat is mounted in a sliding mode in the vertical direction, and the displacement mechanism drives the mounting seat to displace vertically.

5. The double-wire steel wire heat treatment and conveying mechanism as claimed in claim 4, wherein: and conductive blocks of the heat treatment assembly corresponding to the first wire passing wheel set are arranged in a staggered manner with the conductive blocks of the heat treatment assembly corresponding to the second wire passing wheel set.

6. A double wire steel wire heat treatment and conveying mechanism as claimed in claim 4, wherein: the positive pole component is provided with two conductive blocks, and the front and the rear of each positive pole component are provided with a negative pole component.

7. The double-wire steel wire heat treatment and conveying mechanism as claimed in claim 4, wherein: the displacement mechanism is a cylinder.

8. A double wire steel wire heat treatment and conveying mechanism as claimed in claim 1, wherein: the first wire feeding wheel set comprises a first upper wheel, a first lower wheel, an upper wheel driving shaft and a lower wheel driving shaft, the second wire feeding wheel set comprises a second upper wheel, a second lower wheel and an upper wheel driving sleeve, the first upper wheel is fixedly connected with the upper wheel driving shaft, the first lower wheel is fixedly connected with the lower wheel driving shaft, the second upper wheel is fixedly connected with the upper wheel driving sleeve, the upper wheel driving shaft penetrates through the upper wheel driving sleeve, and the first lower wheel and the second lower wheel are fixedly connected with the lower wheel driving shaft.

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