CN111041188A

CN111041188A - Copper line annealing cooling body

Info

Publication number: CN111041188A
Application number: CN201911389207.1A
Authority: CN
Inventors: 仇胜余
Original assignee: Yancheng Jingsheng Wire And Cable Co ltd
Current assignee: Yancheng Jingsheng Wire And Cable Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-04-21

Abstract

The invention discloses a copper wire annealing and cooling mechanism which comprises a working box, wherein the inner side wall of the working box is fixedly connected with a cooling box, the position, close to the upper part, of the left side wall of the cooling box is communicated with a first stirring box, the position, close to the lower part, of the right side wall of the cooling box is communicated with a second stirring box, the inner side wall of the working box is fixedly connected with a double-shaft motor, the upper driving end of the double-shaft motor is fixedly connected with a first driving disc, the eccentric position of the top of the first driving disc is fixedly connected with a first driving rod, and one end, far away from the first driving disc, of the first driving rod is fixedly connected with a. According to the invention, when the double-shaft motor is driven, the first piston plate and the second piston plate reciprocate in opposite directions, so that cooling liquid is stirred, the cooling rate of the copper wire is increased, the production rate is increased, and the economic benefit is indirectly increased.

Description

Copper line annealing cooling body

Technical Field

The invention belongs to the technical field of copper wire production and processing equipment, and particularly relates to a copper wire annealing and cooling mechanism.

Background

The copper wire is a metal material, and in life, the practical copper wire is used as a lead. The conductive performance is good, and the conductive material is widely used for manufacturing wires, cables, brushes and the like; the heat conductivity is good, and the magnetic instrument and the instrument which need antimagnetic interference, such as a compass, an aviation instrument and the like, are commonly manufactured; has excellent plasticity, is easy to be processed by hot pressing and cold pressing, and can be made into copper materials such as pipes, bars, wires, strips, belts, plates, foils and the like. The pure copper product has two types of smelting products and processing products, the copper wire usually needs annealing treatment in the production process, and the copper wire needs to be cooled to a proper temperature after the annealing treatment so as to be processed in the next step.

The existing production workshops mostly adopt water cooling when cooling copper wires, but most of cooling modes are still placed inside a cooling box, and when the copper wires are produced in a large scale, the cooling mode takes time, so that the production benefit is indirectly reduced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a copper wire annealing cooling mechanism.

In order to achieve the purpose, the invention adopts the following technical scheme: a copper wire annealing and cooling mechanism comprises a working box, wherein a cooling box is fixedly connected to the inner side wall of the working box, a first stirring box is communicated with a position, close to the upper part, of the left side wall of the cooling box, a second stirring box is communicated with a position, close to the lower part, of the right side wall of the cooling box, a double-shaft motor is fixedly connected to the inner side wall of the working box, a first driving disc is fixedly connected to the upper driving end of the double-shaft motor, a first driving rod is fixedly connected to the eccentric position of the top of the first driving disc, a first connecting rod is fixedly connected to one end, far away from the first driving disc, of the first connecting rod penetrates through the cooling box, extends to the inside of the first stirring box, and is fixedly connected with a first piston plate, the first piston plate is slidably connected with the inner side wall of the first stirring box, and a second driving disc is fixedly connected to the, and a second driving rod is fixedly connected to the eccentric position at the bottom of the second driving disk.

As a further description of the above technical solution:

one end fixedly connected with second connecting rod that the second driving-disc was kept away from to the second actuating lever, the one end that the second actuating lever was kept away from to the second connecting rod runs through the second and stirs case and extend to its inside and fixedly connected with second piston plate, the inside wall sliding connection of second piston plate and second stirring case.

As a further description of the above technical solution:

the top of the working box is provided with a box door, the box door is positioned right above the cooling box, and the top of the box door is fixedly connected with a handle.

As a further description of the above technical solution:

the position switch-on that the left side wall of cooling box is close to the bottom has the drain pipe, the one end that the cooling box was kept away from to the drain pipe runs through the work box and extends to its outside, the inside of drain pipe is provided with the valve.

As a further description of the above technical solution:

and an observation window is arranged at the position, corresponding to the cooling box, of the front side wall of the working box, and the observation window is in a straight line shape.

As a further description of the above technical solution:

the top and the equal fixedly connected with guide block in bottom of first piston plate and second piston plate, the inside wall of first stirring case and second stirring case is all seted up the guide way corresponding with the guide block, guide block sliding connection is in the inside of guide way.

The invention has the following beneficial effects:

when the copper wire annealing and cooling mechanism is used, through the arrangement of the double-shaft motor, the cooling box, the first stirring box, the second stirring box, the first driving disc, the second driving disc, the first driving rod, the second driving rod, the first connecting rod, the second connecting rod, the first piston plate, the second piston plate, the box door, the handle and the observation window, when the annealed copper wire needs to be cooled, the box door is opened through the handle, the copper wire to be cooled is arranged in the cooling box, the double-shaft motor is started, because the upper driving end and the lower driving end of the double-shaft motor are respectively fixedly connected with the first driving disc and the second driving disc, the eccentric position of the top of the first driving disc is fixedly connected with the first connecting rod through the first driving rod, and one end of the first connecting rod, far away from the first driving rod, penetrates through the cooling box, extends to the inside of the first stirring box and is fixedly connected with the first piston plate, the bottom eccentric position of same second driving-disc is fixed connection through second actuating lever and second connecting rod, and the second connecting rod is kept away from the one end of second actuating lever and second piston plate and is fixed connection, and when the biax motor was driven, first piston plate was the back and forth motion of opposite direction with the second piston plate, and then stirred the coolant liquid for the cooling rate of copper wire, and then improved production rate, indirect improvement economic benefits.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an enlarged view of FIG. 1 taken at A.

Illustration of the drawings:

1. a work box; 2. a first piston plate; 3. a first agitating tank; 4. a cooling tank; 5. a handle; 6. a box door; 7. a first connecting rod; 8. a first drive lever; 9. a first drive disk; 10. a double-shaft motor; 11. a second drive lever; 12. a second connecting rod; 13. a second piston plate; 14. a second agitating tank; 15. a valve; 16. a liquid outlet pipe; 17. an observation window; 18. a second drive disc; 19. a guide block; 20. a guide groove.

Detailed Description

Referring to fig. 1-3, one embodiment of the present invention is provided: a copper wire annealing and cooling mechanism comprises a working box 1, wherein a cooling box 4 is fixedly connected to the inner side wall of the working box 1, a first stirring box 3 is communicated with the position, close to the upper part, of the left side wall of the cooling box 4, a second stirring box 14 is communicated with the position, close to the lower part, of the right side wall of the cooling box 4, a double-shaft motor 10 is fixedly connected to the inner side wall of the working box 1, a first driving disc 9 is fixedly connected to the upper driving end of the double-shaft motor 10, a first driving rod 8 is fixedly connected to the eccentric position of the top of the first driving disc 9, a first connecting rod 7 is fixedly connected to the end, far away from the first driving disc 9, of the first connecting rod 7, one end, far away from the first driving rod 8, penetrates through the cooling box 4, extends to the inside of the first stirring box 3 and is fixedly connected with a first piston plate 2, the first piston plate 2 is slidably connected with the inner side, the second driving rod 11 is fixedly connected to the bottom eccentric position of the second driving disk 18.

One end of the second driving rod 11, which is far away from the second driving disk 18, is fixedly connected with a second connecting rod 12, one end of the second connecting rod 12, which is far away from the second driving rod 11, penetrates through the second stirring box 14, extends into the second stirring box and is fixedly connected with a second piston plate 13, and the second piston plate 13 is in sliding connection with the inner side wall of the second stirring box 14, so that the stirring degree is increased, and the cooling rate is improved; a box door 6 is arranged at the top of the working box 1, the box door 6 is positioned right above the cooling box 4, and a handle 5 is fixedly connected to the top of the box door 6, so that a copper wire can be conveniently placed in the cooling box 4; a liquid outlet pipe 16 is communicated with the position, close to the bottom, of the left side wall of the cooling box 4, one end, far away from the cooling box 4, of the liquid outlet pipe 16 penetrates through the working box 1 and extends to the outside of the working box, and a valve 15 is arranged inside the liquid outlet pipe 16, so that cooling liquid can be conveniently replaced; an observation window 17 is arranged at the position of the front side wall of the working box 1 corresponding to the cooling box 4, and the observation window 17 is in a straight line shape, so that the cooling condition can be observed conveniently; the top and the bottom of first piston plate 2 and second piston plate 13 all are fixedly connected with guide block 19, and first stirring case 3 and the inside wall of second stirring case 14 all offer with the corresponding guide way 20 of guide block 19, guide block 19 sliding connection provides the guide effect for the removal of first piston plate 2 and second piston plate 13 in the inside of guide way 20.

The working principle is as follows: when a copper wire annealing and cooling mechanism is used, when the annealed copper wire needs to be cooled, the door 6 is opened through the handle 5, the copper wire to be cooled is placed in the cooling box 4, the double-shaft motor 10 is started, because the upper and lower driving ends of the double-shaft motor 10 are respectively fixedly connected with the first driving disc 9 and the second driving disc 18, the top eccentric position of the first driving disc 9 is fixedly connected with the first connecting rod 7 through the first driving rod 8, one end of the first connecting rod 7, far away from the first driving rod 8, penetrates through the cooling box 4 to extend into the first stirring box 3 and is fixedly connected with the first piston plate 2, the bottom eccentric position of the same second driving disc 18 is fixedly connected with the second connecting rod 12 through the second driving rod 11, and one end of the second connecting rod 12, far away from the second driving rod 11, is fixedly connected with the second piston plate 13, when the double-shaft motor 10 is driven, the first piston plate 2 and the second piston plate 13 do reciprocating motion in opposite directions, so that cooling liquid is stirred, the cooling rate of the copper wire is increased, the production rate is increased, and the economic benefit is indirectly increased.

Claims

1. The utility model provides a copper line annealing cooling body, includes work box (1), its characterized in that: the inner side wall of the working box (1) is fixedly connected with a cooling box (4), the position, close to the upper part, of the left side wall of the cooling box (4) is communicated with a first stirring box (3), the position, close to the lower part, of the right side wall of the cooling box (4) is communicated with a second stirring box (14), the inner side wall of the working box (1) is fixedly connected with a double-shaft motor (10), the upper driving end of the double-shaft motor (10) is fixedly connected with a first driving disk (9), the top eccentric position of the first driving disk (9) is fixedly connected with a first driving rod (8), one end, far away from the first driving disk (9), of the first driving rod (8) is fixedly connected with a first connecting rod (7), one end, far away from the first driving rod (8), of the first connecting rod (7) penetrates through the cooling box (4) and extends to the inside of the first stirring box (3) and is, the first piston plate (2) is in sliding connection with the inner side wall of the first stirring box (3), a second driving disc (18) is fixedly connected to the lower driving end of the double-shaft motor (10), and a second driving rod (11) is fixedly connected to the eccentric position of the bottom of the second driving disc (18).

2. The copper wire annealing cooling mechanism according to claim 1, characterized in that: one end fixedly connected with second connecting rod (12) that second driving disc (18) was kept away from in second actuating lever (11), the one end that second actuating lever (11) was kept away from in second connecting rod (12) runs through second stirring case (14) and extends to its inside and fixedly connected with second piston plate (13), the inside wall sliding connection of second piston plate (13) and second stirring case (14).

3. The copper wire annealing cooling mechanism according to claim 1, characterized in that: the top of work box (1) is provided with chamber door (6), chamber door (6) are located cooling box (4) directly over, the top fixedly connected with handle (5) of chamber door (6).

4. The copper wire annealing cooling mechanism according to claim 1, characterized in that: the position switch-on that the left side wall of cooling box (4) is close to the bottom has drain pipe (16), the one end that cooling box (4) were kept away from in drain pipe (16) runs through work box (1) and extends to its outside, the inside of drain pipe (16) is provided with valve (15).

5. The copper wire annealing cooling mechanism according to claim 1, characterized in that: an observation window (17) is arranged at the position, corresponding to the cooling box (4), of the front side wall of the working box (1), and the observation window (17) is in a straight shape.

6. The copper wire annealing cooling mechanism according to claim 1, characterized in that: the top and the bottom of first piston board (2) and second piston board (13) all fixedly connected with guide block (19), first stirring case (3) and the inside wall of second stirring case (14) are all seted up with corresponding guide way (20) of guide block (19), guide block (19) sliding connection is in the inside of guide way (20).