CN213901656U - Copper-clad plate cold drawing device - Google Patents

Abstract

A copper-clad plate cold plate device comprises a base, a conveying assembly and a turnover assembly, wherein the conveying assembly comprises a linkage shaft, a bearing part and two bearing belts, the two bearing belts are respectively rotatably arranged on the base, two ends of the linkage shaft are respectively connected with the two bearing belts, the two bearing belts are used for driving the copper-clad plate to slide on the bearing part, the turnover assembly comprises a turnover driving part, a turnover shaft and a plurality of turnover groups, the turnover driving part is used for driving the turnover shaft to rotate so as to enable each turnover group to drive the copper-clad plate to turn over, the copper-clad plate is driven to be transferred to the turnover group through the arranged bearing belts, then the copper-clad plate is driven by the turnover shaft to turn over, the heat dissipation space of the copper-clad plate can be increased, the copper-clad plate can rapidly dissipate heat and cool, the cooling efficiency of the copper-clad plate is improved, two side surfaces of the copper-clad plate can be synchronously cooled, and warping caused by the temperature difference of the two side surfaces of the copper-clad plate can be prevented, so as to ensure the flatness of the copper-clad plate.

Description

Copper-clad plate cold drawing device

Technical Field

The utility model relates to a copper-clad plate processing technology field especially relates to a copper-clad plate cold drawing device.

Background

The copper clad laminate is a plate material prepared by impregnating electronic glass fiber cloth or other reinforcing materials with resin, coating copper foil on one side or both sides, and hot pressing. The printed circuit board with different forms and different functions is manufactured by the working procedures of selective processing, etching, drilling, copper plating and the like on the copper-clad plate. The copper-clad plate mainly plays the roles of interconnection, conduction, insulation and support for the printed circuit, and has great influence on the transmission speed, energy loss, characteristic impedance and the like of signals in the circuit.

In the production process of processing the copper-clad plate into the circuit board, one of the related procedures is to carry out surface treatment on the cut copper-clad plate, specifically, the surface of the copper-clad plate is pretreated by using acid water and alkaline water so as to coarsen the surface of the copper-clad plate, and then the copper-clad plate can be better attached with a dry film in the following procedures. Because can produce great heat when utilizing acid water, buck to carry out corrosion treatment to the surface of copper-clad plate for the copper-clad plate has higher temperature, and the high temperature can influence follow-up effect to copper-clad plate subsides dry film, therefore need cool down it after the copper-clad plate alligatoring treatment. At present, the copper-clad plate is blown and cooled by installing a blowing device on the production line, however, the cooling mode has the following problems:

firstly, the copper-clad plate is conveyed in a tiled state on flowing water, and the blowing device is installed at the side edge position of the assembly line, so that the temperature of the top surface of the copper-clad plate can be reduced before the temperature of the bottom surface when the blowing device blows and cools the copper-clad plate, and thus, the temperature difference of the two side surfaces of the copper-clad plate is easily caused, and the copper-clad plate is warped;

secondly, in order to improve the cooling effect of the blowing device on the copper-clad plate, the flow speed of the production line is often required to be reduced, so that the cooling efficiency of the copper-clad plate can be reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a copper-clad plate cold drawing device, can cool down simultaneously to two sides of copper-clad plate, prevent that there is the temperature difference and warpage from appearing in two sides of copper-clad plate, but also can improve the cold drawing efficiency of copper-clad plate.

The purpose of the utility model is realized through the following technical scheme:

a cold plate device of copper-clad plate includes:

a base;

the conveying assembly comprises a linkage shaft, a bearing piece and two bearing belts, the two bearing belts are respectively and rotatably arranged on the base, two ends of the linkage shaft are respectively connected with the two bearing belts, the bearing piece is rotatably arranged on the base and is positioned between the two bearing belts, and the two bearing belts are used for driving the copper-clad plate to slide on the bearing piece; and

the turnover assembly comprises a turnover driving piece, a turnover shaft and a plurality of turnover sets, wherein the turnover shaft is rotatably arranged on the base, the turnover shaft is adjacent to the conveying assembly, the turnover driving piece is arranged on the base, an output shaft of the turnover driving piece is connected with the turnover shaft, the turnover sets are respectively arranged on the turnover shaft and are circumferentially distributed on the turnover shaft, and the turnover driving piece is used for driving the turnover shaft to rotate so as to drive the copper-clad plate to be turned over.

In one embodiment, the bearing member includes a bearing shaft and a plurality of bearing rotating wheels, two ends of the bearing shaft are respectively connected with the base, and each of the bearing rotating wheels is respectively rotatably disposed on the bearing shaft.

In one embodiment, the bearing parts are provided in plurality, and a space is arranged between the bearing parts.

In one embodiment, the material turning group comprises a plurality of material turning parts, wherein in one of the material turning parts, each material turning part comprises a fixed block and a material blocking strip, an accommodating groove is formed in the turning shaft, the fixed block is accommodated in the accommodating groove, and the material blocking strips are arranged on the fixed blocks.

In one embodiment, the stirring group further comprises a lock rod, the turnover shaft is further provided with a locking hole, the locking hole is communicated with the accommodating groove, the fixing block is provided with a locking hole, and the lock rod penetrates through the locking hole and the locking hole.

In one embodiment, the material turning part further comprises a limiting rod, the fixing block is further provided with a fixing hole, the material blocking strip is provided with a limiting hole, and the limiting rod penetrates through the fixing hole and the limiting hole.

In one embodiment, the fixing block is further provided with a limiting groove, and the limiting groove is communicated with the fixing hole.

In one embodiment, the material turning part further comprises a buffer spring and a sleeve body, the sleeve body is sleeved on the material blocking strip, and two ends of the buffer spring are respectively abutted against the sleeve body and the inner side wall of the limiting groove.

In one embodiment, two buffer springs are provided, the two buffer springs are respectively abutted against the sleeve body, and the two buffer springs are respectively located at two sides of the sleeve body.

In one embodiment, the copper-clad plate cold plate device further comprises a waste collection box, wherein the waste collection box is arranged on the base and is positioned at the bottom of the turnover shaft.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a cold plate device of copper clad plate, including base, conveying subassembly and upset subassembly, conveying subassembly includes universal driving shaft, carrier and two bearing belts, two bearing belts rotate respectively and set up on the base, the both ends of universal driving shaft are connected with two bearing belts respectively, carrier rotates and sets up on the base, and carrier lies in between two bearing belts, two bearing belts are used for driving the copper clad plate to slide on carrier, upset subassembly includes upset driving piece, trip shaft and a plurality of stirring group, the trip shaft rotates and sets up on the base, and the trip shaft sets up adjacent conveying subassembly, the upset driving piece sets up on the base, and the output shaft of upset driving piece is connected with the trip shaft, each stirring group sets up respectively on the trip shaft, and each stirring group is in the circumference distribution on the trip shaft, the upset driving piece is used for driving the trip shaft to rotate, so that each stirring group drives the copper clad plate to overturn the operation, the copper-clad plate is driven by the bearing belt through the arrangement to be transferred to the material overturning group, then the copper-clad plate is driven by the turnover shaft to be overturned, and the heat dissipation space of the copper-clad plate can be increased, so that the copper-clad plate can be quickly cooled, the cooling efficiency of the copper-clad plate is improved, two sides of the copper-clad plate can be synchronously cooled, the copper-clad plate can be prevented from warping due to the fact that the two sides have temperature difference, and the flatness of the copper-clad plate is guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a copper-clad plate cold plate device according to an embodiment of the present invention;

fig. 2 is a schematic view of a part of the structure of the copper clad plate cold plate apparatus shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is noted that as used herein, reference to an element being "connected" to another element also means that the element is "in communication" with the other element, and fluid can be in exchange communication between the two.

Please refer to fig. 1, a copper-clad plate cold drawing device 10, including base 1000, delivery assembly 2000 and upset subassembly 3000 are all installed on base 1000, delivery assembly 2000 is used for transferring the copper-clad plate to upset subassembly 3000 on, upset subassembly 3000 is used for carrying out the upset operation to the copper-clad plate, so, through carrying out the upset operation to the copper-clad plate, thereby make the blast apparatus who installs on the assembly line can cool down two sides of copper-clad plate comprehensively, prevent that there is the temperature difference and warping in two sides of copper-clad plate, and the upset operation can increase the clearance between the copper-clad plate, thereby be favorable to the heat dissipation, and then can improve the cold drawing efficiency of copper-clad plate.

Referring to fig. 1 again, the conveying assembly 2000 includes a linkage shaft 2100, a bearing component 2200 and two bearing belts 2300, the two bearing belts 2300 are respectively rotatably disposed on the base 1000, two ends of the linkage shaft 2100 are respectively connected with the two bearing belts 2300, the bearing component 2200 is rotatably disposed on the base 1000, the bearing component 2200 is located between the two bearing belts 2300, and the two bearing belts 2300 are used for driving the copper-clad plate to slide on the bearing component 2200.

It should be noted that two bearing belts 2300 are respectively rotatably disposed on the base 1000, specifically, after the bearing is rotatably mounted on the base 1000, the bearing belts 2300 are sleeved on the bearing, in this way, the bearing belt 2300 can rotate on the bearing to achieve rotation on the base 1000, and the two bearing belts 2300 are respectively located on the two sidewalls of the base 1000, so that a certain distance exists between the two bearing belts 2300, further, both ends of the linkage shaft 2100 are respectively connected with the two bearing belts 2300, specifically, both ends of the linkage shaft 2100 are respectively connected with the bearings, so that when the linkage shaft 2100 rotates, the bearings can be simultaneously driven to rotate, thereby causing rotation of bearing belt 2300 about the bearings, and in one embodiment, linkage shaft 2100 is driven to rotate by a motor, and, as such, when the copper-clad plate is placed on the bearing belt 2300, the copper-clad plate can be conveyed; further, the bearing part 2200 is rotatably disposed on the base 1000, and in one embodiment, the bearing part 2200 may be a wheel, and the wheel is located between the two bearing belts 2300, and the wheel is identical to the height of the bearing belts 2300, so that after the copper-clad plate is placed on the bearing belts 2300, the wheel can simultaneously bear the copper-clad plate, and thus, stable transmission of the copper-clad plate is achieved.

Referring to fig. 1 again, the turnover assembly 3000 includes a turnover driving member 3100, a turnover shaft 3200 and a plurality of turnover sets 3300, the turnover shaft 3200 is rotatably disposed on the base 1000, the turnover shaft 3200 is adjacent to the conveying assembly 2000, the turnover driving member 3100 is disposed on the base 1000, an output shaft of the turnover driving member 3100 is connected to the turnover shaft 3200, each turnover set 3300 is disposed on the turnover shaft 3200, each turnover set 3300 is circumferentially distributed on the turnover shaft 3200, the turnover driving member 3100 is configured to drive the turnover shaft 3200 to rotate, so that each turnover set 3300 drives the copper-clad laminate to perform a turnover operation.

It should be noted that, when the copper-clad plate is conveyed by the carrier belt 2300, the copper-clad plate is transferred to the material turning group 3300 adjacent to the copper-clad plate, specifically, the turning shaft 3200 is rotatably disposed on the base 1000, and the axial extension line of the turning shaft 3200 is perpendicular to the extension line of the conveying direction of the carrier belt 2300, so that the copper-clad plate is transferred to the turning shaft 3200 by the carrier belt 2300, it should be noted that each material turning group 3300 is respectively disposed on the turning shaft 3200, specifically, each material turning group 3300 is circumferentially disposed on the turning shaft 3200, so that when the turning driving member 3100 drives the turning shaft 3200 to rotate, each material turning group 3300 is driven to rotate, so that when the copper-clad plate approaches the turning shaft 3200, the material turning groups 3300 drive the copper-clad plate to turn over one by one, and it should be noted that, each copper-clad plate can obtain enough heat dissipation space during the turning process of the copper-clad plate, so, through the blast apparatus that sets up on the assembly line, can make the radiating effect of copper-clad plate better, improve the cold drawing efficiency of copper-clad plate, moreover, can cool down in step to two sides of copper-clad plate, prevent that there is the temperature difference and the warpage from appearing in two sides of copper-clad plate, in an embodiment, upset driving piece 3100 is the motor.

Referring to fig. 1 again, in one embodiment, the bearing member 2200 includes a bearing shaft 2210 and a plurality of bearing rollers 2220, two ends of the bearing shaft 2210 are respectively connected to the base 1000, and each bearing roller 2220 is respectively rotatably disposed on the bearing shaft 2210.

It should be noted that, two ends of the bearing shaft 2210 are respectively and fixedly connected with the base 1000, and then each bearing runner 2220 is respectively and rotatably disposed on the bearing shaft 2210, in an embodiment, the bearing runner 2220 is fixed on the bearing shaft 2210 by a bearing, it should be noted that the height of the bearing runner 2220 is consistent with the height of the bearing belt 2300, so that the plurality of bearing runners 2220 are utilized to support the copper-clad plate, which can effectively improve the supporting strength of the copper-clad plate, and prevent the problem of downward bending when the copper-clad plate is conveyed on the two bearing belts 2300, in an embodiment, the bearing runner 2220 is a rubber wheel, and the damage to the copper-clad plate can be prevented by the rubber wheel.

In one embodiment, the carrier 2200 is provided in plurality, and a space is provided between the carriers 2200. It should be noted that, each bearing part 2200 is disposed on the base 1000 at intervals, and each bearing part 2200 is disposed between two bearing belts 2300, and a plurality of bearing parts 2200 are disposed, so that stability in conveying the copper-clad plate can be improved, and the problem of concave bending of the copper-clad plate can be prevented.

Referring to fig. 1 and 2, in one embodiment, the material turning set 3300 includes a plurality of material turning pieces 3310, wherein in one of the material turning pieces 3310, the material turning piece 3310 includes a fixing block 3311 and a material blocking strip 3312, an accommodating groove 3210 is formed on the turning shaft 3200, the fixing block 3311 is accommodated in the accommodating groove 3210, and the material blocking strip 3312 is disposed on the fixing block 3311.

It should be noted that, each material turnover component 3310 is provided with a space on the turning shaft 3200, and each material turnover component 3310 is distributed in a row along the axial direction of the turning shaft 3200, when the turning shaft 3200 rotates, each material turnover component 3310 can hold up the copper-clad plate and drive it to turn over; further, in an embodiment, the accommodating grooves 3210 are formed in a plurality, the fixing blocks 3311 are accommodated in the accommodating grooves 3210 in a one-to-one correspondence manner, and the material blocking strips 3312 are disposed on the fixing blocks 3311 in a one-to-one correspondence manner, so that the material blocking strips 3312 can be driven to rotate along with the rotation of the turning shaft 3200, and then the material blocking strips 3312 drive the copper clad laminate to turn over.

Referring to fig. 2 again, in an embodiment, the material turning set 3300 further includes a lock bar 3320, the turning shaft 3200 further has a locking hole 3220, the locking hole 3220 is communicated with the accommodating groove 3210, the fixing block 3311 has a locking hole 3311a, and the lock bar 3320 passes through the locking hole 3220 and the locking hole 3311 a.

It should be noted that the fixing block 3311 is accommodated in the accommodating groove 3210 to be fixed to the turning shaft 3200, and therefore, the fixing block 3311 can be fixed to the turning shaft 3200 by forming the locking hole 3220 on the turning shaft 3200, forming the locking hole 3311a on the fixing block 3311, and then allowing the lock bar 3320 to pass through the locking hole 3220 and the locking hole 3311a, and thus, the fixing block 3311 can be fixed to the turning shaft 3200, and it should be noted that, since there are a plurality of fixing blocks 3311 distributed in a row in one material overturning group 3300, the lock bar 3320 sequentially passes through each fixing block 3311 to fix each fixing block 3311, and further, since there are a plurality of material overturning groups 3300, the lock bar 3320 is provided with a plurality of lock bars 3320 to fix each material overturning group 3300, and thus, by providing the lock bar 3320 to lock the fixing block 3311, the efficiency of the fixing block 3311 mounted to the turning shaft 3200 can be improved, and the fixing block 3200 can be easily disassembled.

Referring to fig. 2 again, in one embodiment, the material stirring member 3310 further includes a position-limiting rod 3313, the fixing block 3311 further has a fixing hole 3311b, the material-blocking strip 3312 has a position-limiting hole 3312a, and the position-limiting rod 3313 passes through the fixing hole 3311b and the position-limiting hole 3312 a.

It should be noted that the material stopping strip 3312 is installed on the fixed block 3311, specifically, through having seted up the fixed orifices 3311b on the fixed block 3311, the spacing hole 3312a has been seted up on the material stopping strip 3312, then let the gag lever post 3313 wear to locate the fixed orifices 3311b and spacing hole 3312a, thereby make the material stopping strip 3312 install on the fixed block 3311, it needs to notice, utilize the gag lever post 3313, make the material stopping strip 3312 rotate for the fixed block 3311, namely, the material stopping strip 3312 is swing joint with the fixed block 3311, therefore the material stopping strip 3312 has the cushioning effect to the copper-clad plate when carrying out the upset operation to the copper-clad plate, thereby effectively prevent damaging the copper-clad plate.

Referring to fig. 2 again, in one embodiment, the fixing block 3311 is further formed with a position-limiting groove 3311c, and the position-limiting groove 3311c is communicated with the fixing hole 3311 b.

It should be noted that, since the position-limiting rod 3313 passes through the position-limiting hole 3312a, the end of the material-blocking strip 3312 is accommodated in the position-limiting groove 3311c, so that the inner sidewall of the position-limiting groove 3311c limits the outer sidewall of the material-blocking strip 3312.

Referring to fig. 2 again, the material turning member 3310 further includes a buffering spring 3314 and a sleeve body 3315, the sleeve body 3315 is sleeved on the material stopping strip 3312, and two ends of the buffering spring 3314 are respectively abutted against the sleeve body 3315 and the inner sidewall of the limiting groove 3311 c.

It should be noted that the material stopping bar 3312 can rotate in the position of the position-limiting groove 3311c by the position-limiting rod 3313, further, the sleeve 3315 is sleeved on the material stopping bar 3312, and then the two ends of the buffering spring 3314 are respectively abutted on the inner side walls of the sleeve 3315 and the position-limiting groove 3311c, so that the sleeve 3315 has a buffering function relative to the position-limiting block 3311, so that the material stopping bar 3312 is sleeved on the sleeve 3315, and thus the material stopping bar 3312 has a buffering function relative to the position-limiting groove 3311c, in one embodiment, the buffering spring 3314 is provided with two buffering springs 3314, and the two buffering springs 3315 are respectively abutted on the sleeve 3315, and the two buffering springs 3314 are respectively located on two sides of the sleeve 3315, so that the material stopping bar 3312 is always located at the middle position of the position-limiting groove 3311c, and it should be noted that the material stopping bar 3312 has a buffering function by the cooperation of the buffering springs 3314 and 3315, so, when keeping off material strip 3312 bearing copper-clad plate and overturn, keep off material strip 3312 and just possess the cushioning effect to the copper-clad plate to the realization is gently got the purpose of lightly putting to the copper-clad plate, thereby can effectively prevent to damage the surface of copper-clad plate.

Referring to fig. 1 again, in one embodiment, the apparatus 10 further includes a waste collecting box 4000, the waste collecting box 4000 is disposed on the base 1000, and the waste collecting box 4000 is disposed at the bottom of the turning shaft 3200.

It should be noted that, set up garbage collection box 4000 in the bottom of trip shaft 3200, so, drive when trip shaft 3200 and keep off material strip 3312 and rotate, and then drive the copper-clad plate when carrying out the upset operation, acid, the alkaline water on the copper-clad plate just can drip on garbage collection box 4000, realize retrieving the waste liquid to prevent polluted environment.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses a cold plate device of copper clad plate, including base, conveying subassembly and upset subassembly, conveying subassembly includes universal driving shaft, carrier and two bearing belts, two bearing belts rotate respectively and set up on the base, the both ends of universal driving shaft are connected with two bearing belts respectively, carrier rotates and sets up on the base, and carrier lies in between two bearing belts, two bearing belts are used for driving the copper clad plate to slide on carrier, upset subassembly includes upset driving piece, trip shaft and a plurality of stirring group, the trip shaft rotates and sets up on the base, and the trip shaft sets up adjacent conveying subassembly, the upset driving piece sets up on the base, and the output shaft of upset driving piece is connected with the trip shaft, each stirring group sets up respectively on the trip shaft, and each stirring group is in the circumference distribution on the trip shaft, the upset driving piece is used for driving the trip shaft to rotate, so that each stirring group drives the copper clad plate to overturn the operation, the copper-clad plate is driven by the bearing belt through the arrangement to be transferred to the material overturning group, then the copper-clad plate is driven by the turnover shaft to be overturned, and the heat dissipation space of the copper-clad plate can be increased, so that the copper-clad plate can be quickly cooled, the cooling efficiency of the copper-clad plate is improved, two sides of the copper-clad plate can be synchronously cooled, the copper-clad plate can be prevented from warping due to the fact that the two sides have temperature difference, and the flatness of the copper-clad plate is guaranteed.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a copper-clad plate cold plate device which characterized in that includes:

a base;

the conveying assembly comprises a linkage shaft, a bearing piece and two bearing belts, the two bearing belts are respectively and rotatably arranged on the base, two ends of the linkage shaft are respectively connected with the two bearing belts, the bearing piece is rotatably arranged on the base and is positioned between the two bearing belts, and the two bearing belts are used for driving the copper-clad plate to slide on the bearing piece; and

the turnover assembly comprises a turnover driving piece, a turnover shaft and a plurality of turnover sets, wherein the turnover shaft is rotatably arranged on the base, the turnover shaft is adjacent to the conveying assembly, the turnover driving piece is arranged on the base, an output shaft of the turnover driving piece is connected with the turnover shaft, the turnover sets are respectively arranged on the turnover shaft and are circumferentially distributed on the turnover shaft, and the turnover driving piece is used for driving the turnover shaft to rotate so as to drive the copper-clad plate to be turned over.

2. The copper-clad plate cold plate device of claim 1, wherein the bearing member comprises a bearing shaft and a plurality of bearing rotating wheels, two ends of the bearing shaft are respectively connected with the base, and each bearing rotating wheel is respectively and rotatably arranged on the bearing shaft.

3. The copper-clad plate cold plate device according to claim 2, wherein the carrying member is provided in plurality, and a space is provided between the carrying members.

4. The copper-clad plate cold plate device of claim 1, wherein the material turning group comprises a plurality of material turning pieces, wherein in one of the material turning pieces, the material turning piece comprises a fixed block and a material blocking strip, an accommodating groove is formed in the turning shaft, the fixed block is accommodated in the accommodating groove, and the material blocking strip is arranged on the fixed block.

5. The copper-clad plate cold plate device of claim 4, wherein the material turnover set further comprises a locking bar, the turnover shaft is further provided with a locking hole, the locking hole is communicated with the accommodating groove, the fixing block is provided with a locking hole, and the locking bar is arranged in the locking hole and the locking hole in a penetrating manner.

6. The copper-clad plate cold plate device of claim 4, wherein the material turning piece further comprises a limiting rod, the fixing block is further provided with a fixing hole, the material blocking strip is provided with a limiting hole, and the limiting rod penetrates through the fixing hole and the limiting hole.

7. The copper-clad plate cold-drawing device of claim 6, wherein the fixing block is further provided with a limiting groove, and the limiting groove is communicated with the fixing hole.

8. The copper-clad plate cold plate device of claim 7, wherein the material turning part further comprises a buffer spring and a sleeve body, the sleeve body is sleeved on the material blocking strip, and two ends of the buffer spring are respectively abutted against the sleeve body and the inner side wall of the limiting groove.

9. The copper-clad plate cold plate device according to claim 8, wherein there are two buffer springs, two buffer springs are respectively abutted against the sleeve body, and the two buffer springs are respectively located at two sides of the sleeve body.

10. The copper-clad plate cold plate device of claim 1, further comprising a waste collection box, wherein the waste collection box is disposed on the base and is located at the bottom of the turnover shaft.

Images