CN213890177U - Copper-clad plate cutting machine - Google Patents

Abstract

A copper-clad plate cutting machine comprises a base, a material moving assembly, a recovery assembly and a cutting assembly, wherein the base is provided with a material carrying area, the material carrying area is used for carrying a copper-clad plate, the material moving assembly comprises a material moving sliding plate and a material taking part, the material taking part is used for clamping the copper-clad plate, the material moving sliding plate is used for driving the material taking part to move towards the direction close to or away from the material carrying area, the recovery assembly comprises a pressing block and an absorption box, the pressing block is used for pressing the copper-clad plate, the absorption box is connected with the pressing block, the cutting assembly comprises a cutting driving part and a cutting knife, the cutting driving part is used for driving the cutting knife to cut the copper-clad plate, the material moving sliding plate can drive the material taking part to adjust the position of the copper-clad plate, a fixing jig is not needed to fix the copper-clad plate, therefore, the copper-clad plates with different sizes can be compatible, the pressing block and the absorption box are matched to act, dust generated by the cutting knife can be collected, thereby preventing the environment from being polluted and the human body from being harmed.

Description

Copper-clad plate cutting machine

Technical Field

The utility model relates to a circuit board processing technology field especially relates to a copper-clad plate cutting machine.

Background

The copper clad laminate is a plate-shaped material which is prepared by impregnating a reinforcing material with resin, coating a copper foil on one surface or two surfaces of the reinforcing material and carrying out hot pressing, and is called a copper clad laminate. It is a basic material for PCB, often called substrate.

The copper-clad plate is before processing into the circuit board, often with massive form feed, because the area of massive copper-clad plate is bigger usually, need cut so that its transportation and processing of being convenient for to it, cuts the copper-clad plate at present, need fix the copper-clad plate on the tool, then utilizes the cutting knife to cut, however, the cutting mode that uses at present has following problem:

firstly, before cutting the copper-clad plate, a fixing jig needs to be installed on a cutting machine, then the copper-clad plate can be fixed by the fixing jig, and when the sizes of the copper-clad plate are different during feeding, the fixing jig needs to be replaced, so that the cutting machine used at present is difficult to be compatible with the copper-clad plates with different sizes;

secondly, when the copper-clad plate is cut, a large amount of dust can be generated, the dust can not only pollute the production environment of a workshop, but also can harm the safety of a human body, so that how to collect the dust brought by cutting the copper-clad plate is the problem to be solved by technical personnel in the field, and the improvement of the compatibility of the cutting machine for the copper-clad plates with different sizes is realized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a copper-clad plate cutting machine, can effectively improve the compatibility to not unidimensional copper-clad plate, can also collect the dust that the cutting copper-clad plate produced in order to prevent polluted environment and harm human safety.

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

a copper-clad plate cutting machine comprises:

the base is provided with a material carrying area, and the material carrying area is used for carrying the copper-clad plate;

the material moving assembly comprises a material moving sliding plate and a material taking part, the material moving sliding plate is arranged on the base in a sliding mode, the material taking part is arranged on the material moving sliding plate and used for clamping the copper-clad plate, and the material moving sliding plate is used for driving the material taking part to move towards the direction close to or far away from the material carrying area;

the recycling assembly comprises a pressing block and an absorption box, the pressing block is arranged on the base in a sliding mode and is positioned above the material loading area, a recycling groove is formed in the pressing block, the absorption box is arranged on the pressing block, and the absorption box is communicated with the recycling groove; and

the cutting assembly comprises a cutting driving piece and a cutting knife, the cutting driving piece is arranged on the base and is located below the material carrying area, the cutting knife is rotatably arranged on the cutting driving piece, and the cutting driving piece is used for driving the cutting knife to move towards the direction close to or far away from the material carrying area.

In one embodiment, the material moving assembly further includes a material moving motor, a rotating shaft, a rotating gear and a transferring rack, the material moving motor is disposed on the material moving sliding plate, the rotating shaft is disposed on an output shaft of the material moving motor, the transferring rack is disposed on the base, the rotating gear is sleeved on the rotating shaft, and the rotating gear is engaged with the transferring rack.

In one embodiment, the material taking part comprises a clamping bottom plate, a clamping lever and a clamping cylinder, the clamping bottom plate is arranged on the material moving sliding plate, the clamping cylinder is arranged on the material moving sliding plate, the clamping lever is rotatably arranged on the material moving sliding plate and is connected with an output shaft of the clamping cylinder, and the clamping cylinder is used for pushing and pulling one end of the clamping lever so that the other end of the clamping lever is close to or far away from the clamping bottom plate.

In one embodiment, the material taking part further comprises a clamping wheel, and the clamping wheel is rotatably arranged at one end of the clamping lever, which is far away from the clamping cylinder.

In one embodiment, the recycling assembly further comprises a lifting cylinder, the lifting cylinder is arranged on the base, and an output shaft of the lifting cylinder is connected with the pressing block.

In one embodiment, the cutting driving member includes a traverse driving portion and a lifting driving portion, the traverse driving portion is disposed on the base, the lifting driving portion is disposed on the traverse driving portion, the traverse driving portion is configured to drive the lifting driving portion to perform a traverse motion, the cutting knife is rotatably disposed on the lifting driving portion, and the lifting driving portion is configured to drive the cutting knife to perform a lifting motion.

In one embodiment, the cutting driving member further comprises a U-shaped bracket, the U-shaped bracket is disposed on the lifting driving portion, and the cutting knife is rotatably disposed on the U-shaped bracket.

In one embodiment, the cutting assembly further comprises a rotating motor, the rotating motor is arranged on the U-shaped bracket, and an output shaft of the rotating motor is connected with the cutting knife.

In one embodiment, the copper-clad plate cutting machine further comprises a sliding assembly, the sliding assembly comprises a material carrying plate and a rolling ball, the material carrying plate is arranged on the base, an accommodating groove is formed in the material carrying plate, and the rolling ball is accommodated in the accommodating groove.

In one embodiment, the sliding assembly further includes a clamping sleeve body, a first accommodating groove is formed in the clamping sleeve body, a second accommodating groove is formed in the bottom wall of the accommodating groove, the clamping sleeve body is accommodated in the accommodating groove, and the inner side wall of the first accommodating groove and the inner side wall of the second accommodating groove jointly wrap the rolling ball.

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

the utility model discloses a copper-clad plate cutting machine, including the base, move the material subassembly, retrieve subassembly and cutting assembly, the base is seted up and is carried the material district, carry the material district and be used for carrying the copper-clad plate, move the material subassembly including moving the material slide and getting the material piece, it sets up on the base to move the material piece, it is used for pressing from both sides tight copper-clad plate to get the material piece, it is used for driving the direction motion that gets the material piece and near or keep away from carrying the material district to move the material slide, retrieve the subassembly and include compact heap and absorption box, compact heap slip sets up on the base, and compact heap is located the top of carrying the material district, the accumulator has seted up the accumulator on the compact heap, the absorption box sets up on the compact heap, and absorption box and accumulator intercommunication, cutting assembly includes cutting driving piece and cutting knife, the cutting driving piece sets up on the base, and the cutting driving piece is located the below that carries the material district, the cutting knife rotation sets up on the cutting driving piece, the cutting driving piece is used for driving the cutting knife and toward being close to or keeping away from the direction motion of carrying the material district, move the material slide through setting up and can drive and get the position of material piece to the copper-clad plate and adjust the back so that the cutting knife can cut the copper-clad plate into specified size, therefore, can compatible not unidimensional copper-clad plate, need not use fixed tool to fix the copper-clad plate, and the compact heap and the absorption box mating reaction that set up, can collect the dust that the cutting knife produced, thereby can prevent polluted environment and harm human safety.

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 diagram of a copper-clad plate cutting machine according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a recycling assembly of the copper-clad plate cutting machine shown in FIG. 1;

FIG. 3 is a schematic view of a part of the structure of the copper-clad plate cutting machine shown in FIG. 1;

FIG. 4 is a schematic view of a partial structure at another angle of the copper-clad plate cutting machine shown in FIG. 1;

fig. 5 is a schematic structural view of a material taking member according to an embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of a sliding assembly according to an embodiment of the present invention.

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.

Referring to fig. 1, a copper-clad plate cutting machine 10 comprises a base 100, a material moving component 200, a recovery component 300 and a cutting component 400, wherein the material moving component 200 is installed on the base 100, the material moving component 200 is used for driving the copper-clad plate to slide on the base 100, the recovery component 300 is installed on the base 100, the recovery component 300 is used for compressing the copper-clad plate on one hand and collecting waste materials generated by cutting on the other hand, the cutting component 400 is installed on the base 100, and the cutting component 400 is used for cutting the copper-clad plate.

Referring to fig. 1 again, the base 100 is provided with a material loading area 110, the material loading area 110 is used for bearing the copper-clad plate, the material moving assembly 200 includes a material moving sliding plate 210 and a material taking member 220, the material moving sliding plate 210 is slidably disposed on the base 100, the material taking member 220 is disposed on the material moving sliding plate 210, the material taking member 220 is used for clamping the copper-clad plate, and the material moving sliding plate 210 is used for driving the material taking member 220 to move in a direction close to or far from the material loading area 110.

It should be noted that the base 100 is provided with the material carrying area 110, in an embodiment, the base 100 may be formed by welding a square tube, and then a table is installed on the base 100, wherein a gap for avoiding the cutting assembly 400 is formed in the middle of the table, so that the material carrying area 110 capable of carrying the copper clad laminate is formed on the base 100; further, the material moving sliding plate 210 is slidably disposed on the base 100, specifically, guide rails are installed on two sides of the base 100, and then the material moving sliding plate 210 slides on the guide rails, so that the material moving sliding plate 210 can slide on the base 100 to be close to or far from the material loading area 110, in an embodiment, the material moving sliding plate 210 can be driven by a screw rod component or an air cylinder driven by a motor; further, get material piece 220 and install on moving material slide 210, in an embodiment, it can be the gas claw to get material piece 220, consequently, it can press from both sides tight copper-clad plate to get material piece 220, so, when moving material slide 210 and slide on base 100, just can drive the material piece 220 of getting that presss from both sides tight copper-clad plate and slide on base 100, that is, the copper-clad plate just can slide on base 100, so, even the copper-clad plate size of the supplied materials is inconsistent, it carries out position adjustment to the copper-clad plate to get material piece 220 through moving material slide 210 drive, just can cut the copper-clad plate that the supplied materials size is inconsistent into appointed size, make this copper-clad plate cutting machine 10 possess higher compatibility, can cut the copper-clad plate of not unidimensional.

Referring to fig. 1 and fig. 2 again, the recycling assembly 300 includes a compressing block 310 and an absorption box 320, the compressing block 310 is slidably disposed on the base 100, the compressing block 310 is located above the material loading area 110, a recycling slot 311 is disposed on the compressing block 310, the absorption box 320 is disposed on the compressing block 310, and the absorption box 320 is communicated with the recycling slot 311.

It should be noted that the pressing block 310 is slidably disposed on the base 100, so that the pressing block 310 can move up and down on the base 100, it should be noted that the pressing block 310 is located above the material loading area 110, when the copper-clad plate is placed in the material loading area 110, the pressing block 310 will slide down and finally press against the copper-clad plate, and then the cutting assembly 400 performs a cutting operation on the copper-clad plate, it should be noted that the pressing block 310 is also located above the cutting assembly 400, so that when the cutting assembly 400 cuts the copper-clad plate to generate cut dust, the dust can enter the absorption box 320 through the recycling slot 311 on the pressing block 310, in one embodiment, in order to ensure that the dust can smoothly enter the absorption box 320 through the recycling slot 311, the absorption box 320 is connected to the exhaust fan, so that a negative pressure is formed in the absorption box 320 by the exhaust fan, when the dust is generated by cutting, the dust is sucked up into the absorption box 320, so that the dust is recovered, and the environment pollution and the harm to the human body safety can be effectively prevented.

Referring to fig. 1 and 3, the cutting assembly 400 includes a cutting driving member 410 and a cutting blade 420, the cutting driving member 410 is disposed on the base 100, the cutting driving member 410 is disposed below the loading area 110, the cutting blade 420 is rotatably disposed on the cutting driving member 410, and the cutting driving member 410 is used for driving the cutting blade 420 to move toward or away from the loading area 110.

It should be noted that, the cutting driving member 410 is disposed on the base 100, and the cutting driving member 410 is located below the material loading area 110, in an embodiment, the cutting slit 111 is disposed on the material loading area 110, the cutting knife 420 can perform traversing movement and lifting movement on the cutting slit 111, specifically, the cutting driving member 410 is installed at the bottom of the material loading area 110, the cutting knife 420 is installed on the cutting driving member 410, the cutting driving member 410 is used for driving the cutting knife 420 to perform lifting movement and traversing movement, it should be noted that, under the driving of the cutting driving member 410, the cutting knife 420 can extend out of the plane of the material loading area 110 to cut the copper-clad plate, or descend from the plane of the material loading area 110, so as to improve the safety, prevent the cutting knife 420 from cutting operators, and on the other hand is also beneficial to the copper-clad plate sliding on the material loading area 110.

Referring to fig. 4, in an embodiment, the material moving assembly 200 further includes a material moving motor 230, a rotating shaft 240, a rotating gear 250 and a moving rack 260, the material moving motor 230 is disposed on the material moving sliding plate 210, the rotating shaft 240 is disposed on an output shaft of the material moving motor 230, the moving rack 260 is disposed on the base 100, the rotating gear 250 is sleeved on the rotating shaft 240, and the rotating gear 250 is engaged with the moving rack 260.

It should be noted that the material moving sliding plate 210 can slide on the base 100, so that the material taking part 220 installed on the material moving sliding plate 210 can drive the copper clad laminate to slide on the material loading area 110, specifically, the material moving sliding plate 210 is installed with the material moving motor 230 and the rotating shaft 240, and then the material moving motor 230 drives the rotating shaft 240 to rotate, wherein the rotating shaft 240 is installed and fixed with two rotating gears 250, in one embodiment, the two rotating gears 250 are respectively located at two ends of the rotating shaft 240, further, the moving rack 260 is installed and fixed on the base 100, in one embodiment, the moving rack 260 is also provided with two rotating gears 250, and the two rotating gears 250 are meshed with the two moving racks 260 one by one, so that when the material moving motor 230 drives the rotating shaft 240 to rotate, the material moving sliding plate 210 can slide on the base 100 by using the meshing relationship between the rotating gears 250 and the moving rack 260, it is main to need, utilizes gear engagement's mode drive, can be so that realize accurate control to moving the slip of material slide 210, and then can carry out accurate control to the cutting size of copper-clad plate.

Referring to fig. 1 and 5, in one embodiment, the material taking member 220 includes a clamping base plate 221, a clamping lever 222 and a clamping cylinder 223, the clamping base plate 221 is disposed on the material moving sliding plate 210, the clamping cylinder 223 is disposed on the material moving sliding plate 210, the clamping lever 222 is rotatably disposed on the material moving sliding plate 210, the clamping lever 222 is connected to an output shaft of the clamping cylinder 223, and the clamping cylinder 223 is used for pushing and pulling one end of the clamping lever 222 so as to enable the other end of the clamping lever 222 to approach or be away from the clamping base plate 221.

It should be noted that the material taking part 220 can clamp the copper-clad plate, specifically, the clamping bottom plate 221 is installed on the material moving sliding plate 210, when the material moving sliding plate 210 drives the clamping bottom plate 221 to move to the limit position in the direction close to the material carrying area 110, and the copper-clad plate is placed on the material carrying area 110, the clamping bottom plate 221 can be located at the bottom of the copper-clad plate, in one embodiment, the material carrying area 110 is further provided with a avoiding groove 112, when the clamping bottom plate 221 is pushed to be close to the material carrying area and located at the limit position, the clamping bottom plate 221 can be inserted into the avoiding groove 112, and then the copper-clad plate is pushed in the direction of the material taking part 220, so that the clamping bottom plate 221 can be located below the copper-clad plate; further, the clamping lever 222 is rotatably disposed on the material moving sliding plate 210, and it should be noted that the middle portion of the clamping lever 222 is hinged to the material moving sliding plate 210, and the output shaft of the clamping cylinder 223 is connected to one end of the clamping lever 222, when the clamping cylinder 223 performs a pushing and pulling action, the other end of the clamping lever 222 can be driven to be close to or far away from the clamping bottom plate 221, so that the clamping lever 222 and the clamping bottom plate 221 can clamp and fix the copper-clad plate together.

Referring to fig. 5 again, in one embodiment, the material taking member 220 further includes a clamping wheel 224, and the clamping wheel 224 is rotatably disposed on an end of the clamping lever 222 away from the clamping cylinder 223.

It should be noted that the clamping wheels 224 are driven to press the copper-clad plate, and the copper-clad plate can be prevented from being damaged due to direct contact between the copper-clad plate and the clamping lever 222 by pressing the clamping wheels 224 against the copper-clad plate.

Referring to fig. 1 and fig. 3 again, in one embodiment, the recycling assembly 300 further includes a lifting cylinder 330, the lifting cylinder 330 is disposed on the base 100, and an output shaft of the lifting cylinder 330 is connected to the pressing block 310.

It should be noted that, lift cylinder 330 can drive compact heap 310 and make elevating movement, so, when centre gripping bottom plate 221 is moved material slide 210 and is driven in order to be close to and carry material district 110 and be in extreme position, lift cylinder 330 drives compact heap 310 and descends so that it supports and press on the copper-clad plate this moment, on the one hand, can make compact heap 310 fix the copper-clad plate better, prevent it from taking place the off normal, on the other hand, can make cutting knife 420 when cutting the copper-clad plate, cutting knife 420 can be located the accumulator 311 on compact heap 310, thereby be favorable to absorbing the dust that box 320 collected the cutting formation better, avoid the dust to fly away outside the equipment, improve the dust recovery effect.

Referring to fig. 3 again, in an embodiment, the cutting driving member 410 includes a traverse driving portion 411 and a lifting driving portion 412, the traverse driving portion 411 is disposed on the base 100, the lifting driving portion 412 is disposed on the traverse driving portion 411, the traverse driving portion 411 is used for driving the lifting driving portion 412 to perform a traverse motion, the cutting knife 420 is rotatably disposed on the lifting driving portion 412, and the lifting driving portion 412 is used for driving the cutting knife 420 to perform a lifting motion.

It should be noted that the traverse driving portion 411 is installed on the base 100, the traverse driving portion 411 is used for driving the lifting driving portion 412 to perform a traverse motion, specifically, the traverse driving portion 411 can drive the lifting driving portion 412 to move along the extending direction of the cutting slot 111, so as to drive the cutting knife 420 installed on the lifting driving portion 412 to move along the extending direction of the cutting slot 111, in an embodiment, the traverse driving portion 411 is a screw rod module driven by a motor, and the lifting driving portion 412 is installed on an output shaft of the screw rod module; further, the lifting driving portion 412 is used for driving the cutting knife 420 to perform lifting movement, and thus, the transverse moving driving portion 411 and the lifting driving portion 412 are combined, so that the cutting knife 420 can perform cutting operation on the copper-clad plate, in an embodiment, the lifting driving portion 412 includes a jacking cylinder 412a, a jacking plate 412b and a jacking bracket 412c, the jacking bracket 412c is installed on an output shaft of the transverse moving driving portion 411, the jacking cylinder 412a is installed on the jacking bracket 412c, the jacking plate 412b is installed on an output shaft of the jacking cylinder 412a, the cutting knife 420 is installed on the jacking plate 412b, so that the jacking cylinder 412a is used for driving the jacking plate 412b to perform lifting movement, so that the cutting knife 420 performs lifting movement, in an embodiment, the lifting driving portion 412 further includes a guide column 412d, one end of the guide column 412d is fixed with the jacking plate 412b, and the other end of the guide column 412d penetrates through the jacking bracket 412c, in this way, the lifting plate 412b can be lifted more smoothly.

Referring to fig. 3 again, in one embodiment, the cutting driving member 410 further includes a U-shaped bracket 413, the U-shaped bracket 413 is disposed on the lifting driving portion 412, and the cutting blade 420 is rotatably disposed on the U-shaped bracket 413.

It should be noted that the U-shaped bracket 413 is mounted on the lifting plate 412b, and the cutting knife 420 is rotatably mounted on the U-shaped bracket 413 by a fixing shaft, so that the transverse moving driving part 411 and the lifting driving part 412 are utilized to enable the cutting knife 420 to perform lifting movement and transverse moving movement when rotating, and the cutting knife 420 can extend out of the cutting gap 111 to cut the copper clad laminate.

Referring to fig. 3 again, in one embodiment, the cutting assembly 400 further includes a rotating motor 430, the rotating motor 430 is disposed on the U-shaped bracket 413, and an output shaft of the rotating motor 430 is connected to the cutting blade 420. It should be noted that the cutting blade 420 can be driven to rotate continuously by the rotating motor 430.

Referring to fig. 1 and fig. 6, in an embodiment, the copper-clad plate cutting machine 10 further includes a sliding assembly 500, the sliding assembly 500 includes a material-carrying plate 510 and a rolling ball 520, the material-carrying plate 510 is disposed on the base 100, an accommodating slot is formed on the material-carrying plate 510, and the rolling ball 520 is accommodated in the accommodating slot.

It should be noted that the material loading plate 510 is installed on the base 100, specifically, the material loading plate 510 is installed on the material loading area 110, and then the rolling balls 520 are installed on the material loading plate 510, so that when the copper-clad plate is placed on the material loading plate 510, the copper-clad plate can roll on the rolling balls 520, and thus, the friction force between the copper-clad plate and the material loading plate 510 can be reduced, thereby being beneficial to conveying the copper-clad plate.

Referring to fig. 6 again, in an embodiment, the sliding assembly 500 further includes a position-locking sleeve 530, a first accommodating groove is formed on the position-locking sleeve 530, a second accommodating groove is formed on a bottom wall of the accommodating groove, the position-locking sleeve 530 is accommodated in the accommodating groove, and an inner sidewall of the first accommodating groove and an inner sidewall of the second accommodating groove jointly wrap the rolling ball 520.

It should be noted that, the copper-clad plate can be carried better with the help of rolling ball 520, furthermore, in order to ensure that rolling ball 520 can not drop from carrying flitch 510, utilize the screens cover body 530 to fix rolling ball 520 on carrying flitch 510, specifically, first holding tank has been seted up on the screens cover body 530, the second holding tank has been seted up on the diapire of accepting groove, place rolling ball 520 behind the second holding tank, place the screens cover body 530 lock in the accepting groove again, thereby make the inside wall of first holding tank and the inside wall of second holding tank wrap up rolling ball 520 jointly, thereby can prevent that rolling ball 520 from dropping from carrying flitch 510, in order to improve its stability.

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

the utility model discloses a copper-clad plate cutting machine, including the base, move the material subassembly, retrieve subassembly and cutting assembly, the base is seted up and is carried the material district, carry the material district and be used for carrying the copper-clad plate, move the material subassembly including moving the material slide and getting the material piece, it sets up on the base to move the material piece, it is used for pressing from both sides tight copper-clad plate to get the material piece, it is used for driving the direction motion that gets the material piece and near or keep away from carrying the material district to move the material slide, retrieve the subassembly and include compact heap and absorption box, compact heap slip sets up on the base, and compact heap is located the top of carrying the material district, the accumulator has seted up the accumulator on the compact heap, the absorption box sets up on the compact heap, and absorption box and accumulator intercommunication, cutting assembly includes cutting driving piece and cutting knife, the cutting driving piece sets up on the base, and the cutting driving piece is located the below that carries the material district, the cutting knife rotation sets up on the cutting driving piece, the cutting driving piece is used for driving the cutting knife and toward being close to or keeping away from the direction motion of carrying the material district, move the material slide through setting up and can drive and get the position of material piece to the copper-clad plate and adjust the back so that the cutting knife can cut the copper-clad plate into specified size, therefore, can compatible not unidimensional copper-clad plate, need not use fixed tool to fix the copper-clad plate, and the compact heap and the absorption box mating reaction that set up, can collect the dust that the cutting knife produced, thereby can prevent polluted environment and harm human safety.

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 cutting machine which characterized in that includes:

the base is provided with a material carrying area, and the material carrying area is used for carrying the copper-clad plate;

the material moving assembly comprises a material moving sliding plate and a material taking part, the material moving sliding plate is arranged on the base in a sliding mode, the material taking part is arranged on the material moving sliding plate and used for clamping the copper-clad plate, and the material moving sliding plate is used for driving the material taking part to move towards the direction close to or far away from the material carrying area;

the recycling assembly comprises a pressing block and an absorption box, the pressing block is arranged on the base in a sliding mode and is positioned above the material loading area, a recycling groove is formed in the pressing block, the absorption box is arranged on the pressing block, and the absorption box is communicated with the recycling groove; and

the cutting assembly comprises a cutting driving piece and a cutting knife, the cutting driving piece is arranged on the base and is located below the material carrying area, the cutting knife is rotatably arranged on the cutting driving piece, and the cutting driving piece is used for driving the cutting knife to move towards the direction close to or far away from the material carrying area.

2. The copper-clad plate cutting machine according to claim 1, wherein the material moving assembly further comprises a material moving motor, a rotating shaft, a rotating gear and a moving rack, the material moving motor is arranged on the material moving sliding plate, the rotating shaft is arranged on an output shaft of the material moving motor, the moving rack is arranged on the base, the rotating gear is sleeved on the rotating shaft, and the rotating gear is meshed with the moving rack.

3. The copper-clad plate cutting machine according to claim 1, wherein the material taking part comprises a clamping bottom plate, a clamping lever and a clamping cylinder, the clamping bottom plate is arranged on the material moving sliding plate, the clamping cylinder is arranged on the material moving sliding plate, the clamping lever is rotatably arranged on the material moving sliding plate and is connected with an output shaft of the clamping cylinder, and the clamping cylinder is used for pushing and pulling one end of the clamping lever so as to enable the other end of the clamping lever to be close to or far away from the clamping bottom plate.

4. The copper-clad plate cutting machine according to claim 3, wherein the material taking part further comprises a clamping wheel, and the clamping wheel is rotatably arranged at one end of the clamping lever far away from the clamping cylinder.

5. The copper-clad plate cutting machine according to claim 1, wherein the recovery assembly further comprises a lifting cylinder, the lifting cylinder is arranged on the base, and an output shaft of the lifting cylinder is connected with the pressing block.

6. The copper-clad plate cutting machine according to claim 1, wherein the cutting driving member comprises a traverse driving portion and a lifting driving portion, the traverse driving portion is disposed on the base, the lifting driving portion is disposed on the traverse driving portion, the traverse driving portion is configured to drive the lifting driving portion to perform a traverse motion, the cutting knife is rotatably disposed on the lifting driving portion, and the lifting driving portion is configured to drive the cutting knife to perform a lifting motion.

7. The copper-clad plate cutting machine according to claim 6, wherein the cutting driving member further comprises a U-shaped bracket, the U-shaped bracket is arranged on the lifting driving portion, and the cutting knife is rotatably arranged on the U-shaped bracket.

8. The copper-clad plate cutting machine according to claim 7, wherein the cutting assembly further comprises a rotating motor, the rotating motor is arranged on the U-shaped bracket, and an output shaft of the rotating motor is connected with the cutting knife.

9. The copper-clad plate cutting machine according to claim 1, further comprising a sliding assembly, wherein the sliding assembly comprises a material carrying plate and a rolling ball, the material carrying plate is arranged on the base, an accommodating groove is formed in the material carrying plate, and the rolling ball is accommodated in the accommodating groove.

10. The copper-clad plate cutting machine according to claim 9, wherein the sliding assembly further comprises a clamping sleeve body, the clamping sleeve body is provided with a first accommodating groove, the bottom wall of the accommodating groove is provided with a second accommodating groove, the clamping sleeve body is accommodated in the accommodating groove, and the inner side wall of the first accommodating groove and the inner side wall of the second accommodating groove jointly wrap the rolling ball.

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