CN214798159U - Copper shaft wire cutting machine - Google Patents

Abstract

The utility model discloses a copper shaft wire cutting machine, which relates to the copper shaft processing field and comprises a frame, wherein a first wire transmission mechanism, a second wire transmission mechanism and a third wire transmission mechanism are arranged on the frame, a mesh cutting and weaving mechanism is arranged between the first wire transmission mechanism and the second wire transmission mechanism on the frame, an adjusting mechanism is arranged between the mesh cutting and weaving mechanism and the second wire transmission mechanism, a cutting and peeling mechanism is arranged between the second wire transmission mechanism and the third wire transmission mechanism, a skin cutting mechanism is arranged between the second wire transmission mechanism and the cutting and peeling mechanism on the frame, and a control mechanism is also included, the utility model can enable the copper wire to walk once to strip the mesh and the plastic skin on the outer surface of the copper shaft, reduces the working procedures, improves the working efficiency, the adjusting mechanism in the utility model clamps the copper wire tightly, prevents the uneven weaving and cutting of the mesh after the copper wire is flattened, the utility model provides a cut mesh grid mechanism passes through the rotation speed difference realization of motor and cuts mesh grid, and the precision is high.

Description

Copper shaft wire cutting machine

Technical Field

The utility model relates to a copper axle processing field, in particular to copper axle wire cutting machine.

Background

The surface of copper axle has mesh grid and plastic skin, need strip mesh grid and plastic skin when using, and current copper axle wire cutting machine needs the reciprocal walking of copper axle twice when cutting the line with the outside mesh grid of copper axle and plastic skin strip, need walk once when peeling the mesh grid promptly and strip the mesh grid, then retreat back, walk once again and strip the plastic skin, the process is complicated, and is inefficient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a walking once can strip copper epaxial mesh grid and plastic skin, and can cut off copper axle wire cutting machine.

The utility model provides a technical scheme that its technical problem adopted is: copper axle wire cutting machine, which comprises a frame, be provided with first biography line mechanism, second biography line mechanism and third biography line mechanism in the frame, it is provided with between first biography line mechanism and the second biography line mechanism and cuts braided wire mechanism to lie in the frame, it is provided with guiding mechanism to cut between braided wire mechanism and the second biography line mechanism, it cuts skinning mechanism to be provided with between second biography line mechanism and the third biography line mechanism, lie in second biography line mechanism in the frame and cut skinning mechanism and be provided with between the mechanism and cut skinning mechanism, still including the control mechanism who is used for controlling copper axle wire cutting machine, second biography line mechanism, third biography line mechanism, cut braided wire mechanism, guiding mechanism, cut skinning mechanism and skin cutting mechanism respectively with control mechanism electrical connection, first biography line mechanism, second biography line mechanism and third biography line mechanism are used for driving the copper line transmission, the copper line includes braided wire from inside to outside in proper order, Plastic rubber and copper axle, cut the mesh grid mechanism and be used for cutting off the mesh grid of copper axle surface, cut off peeling mechanism and be used for cutting off the plastic skin of copper axle surface to strip the mesh grid and the plastic skin of copper axle surface, it is used for the surface axial incision at the plastic skin to cut skin mechanism, makes to be convenient for separately axis and plastic skin, control mechanism is used for controlling copper axle wire cutting machine.

Further, the method comprises the following steps: the mesh cutting and weaving mechanism comprises a first fixing frame, a first pipeline and a second pipeline are arranged on the first fixing frame, the first pipeline is arranged inside the second pipeline, one end of the second pipeline is connected with a first synchronizing wheel through a first bearing, a spiral groove is formed in the axial direction of the first synchronizing wheel, a second synchronizing wheel is arranged on one side of the first synchronizing wheel and integrally formed with the second pipeline, a first synchronizing belt is arranged on the outer surfaces of the first synchronizing wheel and the second synchronizing wheel together, a plurality of grooves are formed in the axial direction of the second synchronizing wheel in an array mode, a first cutter is arranged in each groove, cutter heads of the first cutters are located on the same circle, the first cutters move along the grooves, the distance between the cutter heads can be changed, and a third synchronizing wheel is connected to the inner surface, far away from one end of the first synchronizing wheel, of the first synchronizing belt, the third synchronizing wheel is provided with a first motor, the outer surface of the second pipeline is provided with a third pipeline, the outer surface of one end, far away from the first synchronizing wheel, of the third pipeline is fixedly connected with a fourth synchronizing wheel, the outer surface of the fourth synchronizing wheel is provided with a second synchronous belt, the outer surface of one end, far away from the fourth synchronizing wheel, of the second synchronous belt is provided with a fifth synchronizing wheel, the fifth synchronizing wheel is connected with a second motor, one end, far away from the fifth synchronizing wheel, of the third pipeline is integrally formed with a roller wheel, the roller wheel is connected with a first cutter, the rotating directions of the first motor and the second motor are the same, the first motor and the second motor are respectively and electrically connected with a control mechanism, the first motor rotates to drive the third synchronizing wheel to rotate, so that the first synchronizing belt is driven to drive the first synchronizing wheel and the second synchronizing wheel to drive the second synchronizing wheel to rotate, and the second motor rotates to drive the fifth synchronizing wheel to rotate, when the rotating speed of the first motor is the same as that of the second motor, the distance between the first cutters is unchanged, and when the rotating speed of the second motor is smaller than that of the first motor, the diameter surrounded by the first cutters is increased.

Further, the method comprises the following steps: the adjusting mechanism comprises a fixed plate, an upper adjusting groove and a lower adjusting groove are arranged on the fixed plate, the upper adjusting groove and the lower adjusting groove are both connected with the fixed plate in a sliding manner, an upper clamping jaw is rotatably connected above the upper adjusting groove through a connecting piece, a lower clamping jaw is rotatably connected below the lower adjusting groove through a connecting piece, an upper connecting plate is rotatably connected to one end, away from the upper adjusting groove, of the upper clamping jaw, a lower connecting plate is rotatably connected to one end, away from the lower adjusting groove, of the lower clamping jaw, the distance between the upper clamping jaw and the lower clamping jaw on one side close to the upper adjusting groove is larger than the distance between the upper clamping jaw and the lower clamping jaw on the end away from the upper adjusting groove, a fourth air cylinder for driving the upper connecting plate to move up and down is arranged above the upper connecting plate on the fixed plate, and a fifth air cylinder for driving the lower connecting plate to move up and down is fixedly connected below the lower connecting plate on the fixed plate, the fourth cylinder and the fifth cylinder are electrically connected with the control mechanism respectively, the fourth cylinder and the fifth cylinder are driven to drive the upper connecting plate and the lower connecting plate to move oppositely, one ends of the upper clamping jaw and the lower clamping jaw, which are close to the upper connecting plate, move oppositely, one ends of the upper clamping jaw and the lower clamping jaw, which are close to the upper adjusting groove, move oppositely to drive the upper adjusting groove and the lower adjusting groove to move oppositely, so that a copper wire is clamped, the shape of the copper wire is round, and the copper wire is prevented from being flattened and then is not uniformly braided and cut into a braided mesh, and a copper shaft is prevented from being damaged.

Further, the method comprises the following steps: the second wire transmission mechanism comprises a third fixing frame and a fourth fixing frame, wherein a second wire transmission upper part is arranged on the third fixing frame, a second wire transmission lower part is arranged on the fourth fixing frame, lifting components for driving the third fixing frame to lift are symmetrically arranged on two sides of the third fixing frame, the lifting components are electrically connected with the control mechanism, the lifting components are used for driving the third fixing frame to move up and down, so that the second wire transmission upper part is close to or far away from the second wire transmission lower part, when the second wire transmission upper part is close to the second wire transmission lower part, copper wire transmission is driven, and when the second wire transmission upper part is far away from the second wire transmission lower part, the second wire transmission upper part is not in contact with the copper wire, so that the copper wire transmission cannot be driven;

the upper part of the second wire comprises a plurality of sixth synchronous wheels and third synchronous belts arranged on the outer surfaces of the sixth synchronous wheels, wherein one side of one third synchronous belt is provided with a third motor, the lower end surfaces of the sixth synchronous wheels are positioned on the same horizontal plane, so that the lower end surface of the third synchronous belt is horizontal, and the third motor rotates to drive the third synchronous belts to rotate, thereby driving the copper wire to transmit;

the second biography line lower part includes a plurality of seventh synchronizing wheels and sets up the fourth hold-in range at a plurality of seventh synchronizing wheel surfaces, and one side of one of them fourth hold-in range is provided with the fourth motor, and is a plurality of the up end of seventh synchronizing wheel is in on the same horizontal plane for the level form is personally submitted to the upper end of fourth hold-in range, third hold-in range and fourth hold-in range cooperation drive copper axle carry out the transmission, third motor and fourth motor respectively with control mechanism electrical connection.

Further, the method comprises the following steps: the third wire transmission mechanism and the second wire transmission mechanism have the same structure.

Further, the method comprises the following steps: the terminal that lies in second biography line mechanism in the frame is provided with first horn section of thick bamboo, the terminal that lies in to cut off peeling mechanism in the frame is provided with the second horn section of thick bamboo, the terminal that lies in third biography line mechanism in the frame is provided with the third horn section of thick bamboo, first horn section of thick bamboo, second horn section of thick bamboo and third horn section of thick bamboo are convenient for the copper line and penetrate.

Further, the method comprises the following steps: the cutting and peeling mechanism comprises a second fixing frame, a knife rest is arranged on the second fixing frame, a cutter and a peeling knife are arranged on the knife rest, a first air cylinder for driving the cutter and the peeling knife to open or close is arranged on one side of the knife rest on the second fixing frame, a front-and-back moving assembly for driving the second fixing frame to move back and forth is arranged on one side of the second fixing frame on the machine frame, so that the cutter or the peeling knife moves to the peeling mechanism, a left-and-right moving assembly for driving the second fixing frame to move left and right is arranged below the second fixing frame, the first air cylinder, the front-and-back moving assembly and the left-and-right moving assembly are respectively electrically connected with a control mechanism, the first air cylinder is used for driving the cutter and the peeling knife to open or close, the cutter is used for cutting off plastic skins on the outer surface of the copper shaft, and the peeling knife is used for peeling off the mesh and the plastic skins on the outer surface of the copper shaft, the back-and-forth moving assembly is used for driving the second fixing frame to move back and forth, so that the cutter or the peeling knife moves to the peeling mechanism to cut or peel, and the left-and-right moving assembly is used for driving the second fixing frame to drive the peeling knife to move left and right to peel the woven mesh and the plastic skin from the outer surface of the copper shaft.

Further, the method comprises the following steps: the cutter includes first cutter piece and second cutter piece, the skinning knife includes first skinning blade and second skinning blade, first cutter piece and first skinning blade set up on the knife rest, second cutter piece and second skinning blade set up on the connecting plate, the connecting plate sets up in the drive shaft of first cylinder, first cylinder driving band moves the knife rest and removes to drive first cutter piece and first skinning blade and remove, make cutter and skinning knife open or closed.

Further, the method comprises the following steps: the skin cutting mechanism comprises a fixed upper groove and a fixed lower groove, the upper end of the fixed upper groove is provided with a second upper cutter, the lower end of the fixed lower groove is provided with a second lower cutter, a second cylinder used for driving the fixed upper groove to move up and down is arranged above the fixed upper groove, a third cylinder used for driving the fixed lower groove to move up and down is arranged below the fixed lower groove, the second cylinder and the third cylinder are respectively electrically connected with the control mechanism, the second cylinder and the third cylinder are driven to drive the fixed upper groove and the fixed lower groove to move relatively, so that the second upper cutter and the second lower cutter are driven to move relatively, the copper wire is contacted with the plastic skin and a knife on the outer surface of the copper wire shaft, and the copper wire shaft and the plastic skin are convenient to separate.

The utility model has the advantages that: the utility model discloses can make copper line walking once just can strip the mesh grid and the plastic skin of copper axle surface, reduce the process, improve work efficiency, the utility model provides an guiding mechanism presss from both sides the copper line tightly for copper line shape is more round, prevents that the copper line from being flattened back mesh grid and weaving the inhomogeneous of cutting, hinders the copper axle, the utility model provides a cut mesh grid mechanism passes through the rotation speed difference realization of motor and cuts the mesh grid, and the precision is high.

Drawings

FIG. 1 is a schematic view of the overall structure of a copper-axis wire cutting machine;

FIG. 2 is a schematic structural view of a mesh cutting and weaving mechanism;

FIG. 3 is a schematic view of a helical groove;

FIG. 4 is a schematic structural view of a second wire feeding mechanism;

FIG. 5 is a schematic view of the cutting and peeling mechanism;

FIG. 6 is a schematic structural view of the peeling mechanism;

labeled as: 1. a frame; 2. a first wire transfer mechanism; 3. a second wire transfer mechanism; 4. a third wire transfer mechanism; 5. cutting and weaving the net mechanism; 6. cutting off the peeling mechanism; 7. a skin cutting mechanism; 8. an adjustment mechanism; 31. a third fixing frame; 32. a fourth fixing frame; 33. the upper part of the second transmission line; 34. the lower part of the second transmission line; 51. a first fixing frame; 52. a first synchronizing wheel; 53. a second synchronizing wheel; 54. a first cutter; 55. a fourth synchronizing wheel; 56. a roller; 61. a tool holder; 62. a cutter; 63. a skinning knife; 64. a first cylinder; 65. a forward and backward movement assembly; 71. fixing the upper groove; 72. fixing the lower groove; 73. a second upper cutter; 74. a second lower cutter; 75. a second cylinder; 76. and a third cylinder.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Copper axle wire cutting machine as shown in figure 1, which comprises a frame, be provided with first wire drive mechanism 2, second biography line mechanism 3 and third biography line mechanism 4 in the frame 1, it is provided with between first wire drive mechanism 2 and second biography line mechanism 3 and cuts braided wire mechanism 5 to lie in the frame 1, it is provided with guiding mechanism 8 to cut between braided wire mechanism 5 and the second biography line mechanism 3, it cuts skinning mechanism 6 to be provided with between second biography line mechanism 3 and the third biography line mechanism 4 to cut, it is provided with between second biography line mechanism 3 and the cutting skinning mechanism 6 and cuts skinning mechanism 7 on the frame 1, still include the control mechanism that is used for controlling copper axle wire cutting machine, second biography line mechanism 3, third biography line mechanism 4, cuts braided wire mechanism 5, guiding mechanism 8, cuts skinning mechanism 6 and cuts skinning mechanism 7 and is connected with control mechanism electrical respectively, first biography line mechanism 2, second biography line mechanism 4, second biography line mechanism 5, third biography line mechanism 8, the skinning mechanism 6 and skinning mechanism 7 are connected with control mechanism electrical behavior, Second biography line mechanism 3 and third biography line mechanism 4 are used for driving copper line transmission, the copper line includes braided net, plastic skin and copper axle from inside to outside in proper order, it is used for cutting off the braided net of copper axle surface to cut off braided net mechanism 5, cut off peeling mechanism 6 and be used for cutting off the plastic skin of copper axle surface to stripping the braided net and the plastic skin of copper axle surface, it is used for the surface axial incision at the plastic skin to cut off skin mechanism 7, makes and is convenient for separately axis and plastic skin, control mechanism is used for controlling copper axle wire cutting machine, control mechanism includes the controller.

On the basis, as shown in fig. 2 and 3, the mesh cutting and weaving mechanism 5 includes a first fixing frame 51, a first pipeline and a second pipeline are arranged on the first fixing frame 51, the first pipeline is arranged inside the second pipeline, one end of the second pipeline is connected with a first synchronizing wheel 52 through a first bearing, a spiral groove 57 is arranged in the axial direction of the first synchronizing wheel 52, a second synchronizing wheel 53 is arranged on one side of the first synchronizing wheel 52, the second synchronizing wheel 53 and the second pipeline are integrally formed, a first synchronizing belt is arranged on the outer surfaces of the first synchronizing wheel 52 and the second synchronizing wheel 53, a plurality of grooves are arranged in the axial direction of the second synchronizing wheel 53, a first cutting knife 54 is arranged in each groove, the cutting bits of the first cutting knife 54 are on the same circle, the first cutting knife 54 moves along the grooves, so that the distance between the cutting bits can be changed, the inner surface of one end of the first synchronous belt, which is far away from the first synchronous wheel 52, is connected with a third synchronous wheel, the third synchronous wheel is provided with a first motor, the outer surface of the second pipeline is provided with a third pipeline, the outer surface of one end of the third pipeline, which is far away from the first synchronous wheel 52, is fixedly connected with a fourth synchronous wheel 55, the outer surface of the fourth synchronous wheel 55 is provided with a second synchronous belt, the outer surface of one end of the second synchronous belt, which is far away from the fourth synchronous wheel 55, is provided with a fifth synchronous wheel, the fifth synchronous wheel is connected with a second motor, one end of the third pipeline, which is far away from the fifth synchronous wheel, is integrally formed with a roller 56, the roller 56 is connected with a first cutter 54, the rotation directions of the first motor and the second motor are the same, the first motor and the second motor are respectively electrically connected with a control mechanism, the first motor rotates to drive the third synchronous wheel to rotate, when the rotating speed of the second motor is higher than that of the first motor, the first cutters 54 move inwards to reduce the diameter defined by the first cutters 54, so that the mesh grid on the outer surface of the copper shaft is cut off, when the rotating speed of the first motor is the same as that of the second motor, the distance between the first cutters 54 is unchanged, and when the rotating speed of the second motor is lower than that of the first motor, the diameter defined by the first cutters 54 is increased.

On the basis, the adjusting mechanism 8 comprises a fixing plate, an upper adjusting groove and a lower adjusting groove are arranged on the fixing plate, the upper adjusting groove and the lower adjusting groove are both connected with the fixing plate in a sliding manner, an upper clamping jaw is rotatably connected above the upper adjusting groove through a connecting piece, a lower clamping jaw is rotatably connected below the lower adjusting groove through a connecting piece, an upper connecting plate is rotatably connected to one end, away from the upper adjusting groove, of the upper clamping jaw, a lower connecting plate is rotatably connected to one end, away from the lower adjusting groove, of the lower clamping jaw, the distance between the upper clamping jaw and the lower clamping jaw on one side close to the upper adjusting groove is larger than the distance between the upper clamping jaw and the lower clamping jaw on one end away from the upper adjusting groove, a fourth air cylinder for driving the upper connecting plate to move up and down is arranged above the fixing plate, and a fifth air cylinder for driving the lower connecting plate to move up and down is fixedly connected below the fixing plate, the fourth cylinder and the fifth cylinder are electrically connected with the control mechanism respectively, the fourth cylinder and the fifth cylinder are driven to drive the upper connecting plate and the lower connecting plate to move oppositely, one ends of the upper clamping jaw and the lower clamping jaw, which are close to the upper connecting plate, move oppositely, one ends of the upper clamping jaw and the lower clamping jaw, which are close to the upper adjusting groove, move oppositely to drive the upper adjusting groove and the lower adjusting groove to move oppositely, so that a copper wire is clamped, the shape of the copper wire is round, and the copper wire is prevented from being flattened and then is not uniformly braided and cut into a braided mesh, and a copper shaft is prevented from being damaged.

On the basis, as shown in fig. 4, the second wire transmission mechanism 3 includes a third fixing frame 31 and a fourth fixing frame 32, a second wire transmission upper portion 33 is disposed on the third fixing frame 31, a second wire transmission lower portion 34 is disposed on the fourth fixing frame 32, lifting components for driving the third fixing frame 31 to lift are symmetrically disposed on two sides of the third fixing frame 31, the lifting components are electrically connected with the control mechanism, the lifting components are used for driving the third fixing frame 31 to move up and down, so that the second wire transmission upper portion 33 is close to or away from the second wire transmission lower portion 34, when the second wire transmission upper portion 33 is close to the second wire transmission lower portion 34, a copper wire is driven to transmit, and when the second wire transmission upper portion 33 is away from the second wire transmission lower portion 34, the second wire transmission upper portion 33 is not in contact with the copper wire, so that the copper wire cannot be driven to transmit;

the second wire upper part 33 comprises a plurality of second synchronous wheels 53 and second synchronous belts arranged on the outer surfaces of the second synchronous wheels 53, wherein one side of one second synchronous belt is provided with a third motor, the lower end surfaces of the second synchronous wheels 53 are positioned on the same horizontal plane, so that the lower end surfaces of the second synchronous belts are horizontal, and the third motor rotates to drive the second synchronous belts to rotate, thereby driving copper wires to transmit;

second biography line lower part 34 includes a plurality of sixth synchronizing wheels and sets up the fourth hold-in range at a plurality of sixth synchronizing wheel surfaces, and one side of one of them fourth hold-in range is provided with the fourth motor, and is a plurality of the up end of sixth synchronizing wheel is in on the same horizontal plane for the level form is personally submitted to the upper end of fourth hold-in range, third hold-in range and fourth hold-in range cooperation drive copper axle carry out the transmission, third motor and fourth motor respectively with control mechanism electrical connection.

In addition, the third wire transmission mechanism 4 and the second wire transmission mechanism 3 have the same structure.

On the basis, the end that is located second biography line mechanism 3 in frame 1 is provided with first horn section of thick bamboo, the end that is located to cut off peeling mechanism 6 in frame 1 is provided with the second horn section of thick bamboo, the end that is located third biography line mechanism 4 in frame 1 is provided with the third horn section of thick bamboo, the copper line of being convenient for of first horn section of thick bamboo, second horn section of thick bamboo and third horn section of thick bamboo penetrates.

On the basis, as shown in fig. 5, the cutting and peeling mechanism 6 includes a second fixing frame, a knife rest 61 is arranged on the second fixing frame, a cutting knife 62 and a peeling knife 63 are arranged on the knife rest 61, a first air cylinder 64 for driving the cutting knife 62 and the peeling knife 63 to open or close is arranged on one side of the second fixing frame on the knife rest 61, a front-and-back moving assembly 65 for driving the second fixing frame to move back and forth is arranged on one side of the frame 1 on the second fixing frame, so that the cutting knife 62 or the peeling knife 63 moves to the peeling mechanism 7, a left-and-right moving assembly for driving the second fixing frame to move left and right is arranged below the second fixing frame, the first air cylinder 64, the front-and-back moving assembly 65 and the left-and-right moving assembly are respectively electrically connected with a control mechanism, the first air cylinder 64 is used for driving the cutting knife 62 and the peeling knife 63 to open or close, the cutting knife 62 is used for cutting off the plastic skin on the outer surface of the copper shaft, the peeling knife 63 is used for peeling off the woven mesh and the plastic skin on the outer surface of the copper shaft, the front-back moving component 65 is used for driving the second fixing frame to move back and forth, so that the cutting knife 62 or the peeling knife 63 moves to the peeling mechanism 7 to cut or peel the skin, and the left-right moving component is used for driving the second fixing frame to drive the peeling knife 63 to move left and right to peel off the woven mesh and the plastic skin from the outer surface of the copper shaft.

On the basis of the above, the cutting knife 62 includes a first cutting blade and a second cutting blade, the peeling knife 63 includes a first peeling blade and a second peeling blade, the first cutting blade and the first peeling blade are disposed on the knife rest 61, the second cutting blade and the second peeling blade are disposed on the connecting plate, the connecting plate is disposed on the driving shaft of the first cylinder 64, and the first cylinder 64 drives the knife rest 61 to move, so as to drive the first cutting blade and the first peeling blade to move, and the cutting knife 62 and the peeling knife 63 are opened or closed.

On the basis, as shown in fig. 6, the skin cutting mechanism 7 includes a fixed upper groove 71 and a fixed lower groove 72, a second upper cutter 73 is disposed at the upper end of the fixed upper groove 71, a second lower cutter 74 is disposed at the lower end of the fixed lower groove 72, a second cylinder 75 for driving the fixed upper groove 71 to move up and down is disposed above the fixed upper groove 71, a third cylinder 76 for driving the fixed lower groove 72 to move up and down is disposed below the fixed lower groove 72, the second cylinder 75 and the third cylinder 76 are electrically connected to the control mechanism, and the second cylinder 75 and the third cylinder 76 are driven to drive the fixed upper groove 71 and the fixed lower groove 72 to move relatively, so that the second upper cutter 73 and the second lower cutter 74 are driven to move relatively, and contact with the copper wire, and cut the plastic skin on the outer surface of the copper shaft, thereby facilitating separation of the copper shaft and the plastic skin.

On the basis, the working principle is as follows:

firstly first wire drive mechanism drives the copper line transmission and cuts mesh grid mechanism department, the shape of guiding mechanism 8 adjustment copper line, then cut mesh grid mechanism 5 and cut off the mesh grid on the copper line, second wire passing mechanism drives the copper line transmission and cuts skin mechanism 7 mechanism department, skin mechanism 7 cuts the sword at the upper end and the lower extreme of plastic skin, then peel sword 63 among the cutting and peeling mechanism 6 strips away the mesh grid earlier, then cutter 62 cuts off the plastic skin, then it peels the plastic skin to remove about peeling sword 63, then third wire passing mechanism spreads the copper axle out, so repetitive work.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. Copper axle wire cutting machine includes frame (1), its characterized in that: a first wire transmission mechanism (2), a second wire transmission mechanism (3) and a third wire transmission mechanism (4) are arranged on the frame (1), a mesh cutting and weaving mechanism (5) is arranged on the frame (1) and between the first wire transmission mechanism (2) and the second wire transmission mechanism (3), an adjusting mechanism (8) is arranged between the cutting and weaving net mechanism (5) and the second wire transmission mechanism (3), a cutting and peeling mechanism (6) is arranged between the second wire transmission mechanism (3) and the third wire transmission mechanism (4), a skin cutting mechanism (7) is arranged on the frame (1) and between the second wire conveying mechanism (3) and the cutting and peeling mechanism (6), and the machine also comprises a control mechanism for controlling the copper shaft wire cutting machine, the second wire transmission mechanism (3), the third wire transmission mechanism (4), the mesh cutting and weaving mechanism (5), the adjusting mechanism (8), the cutting and peeling mechanism (6) and the skin cutting mechanism (7) are respectively electrically connected with the control mechanism.

2. The copper spool wire cutting machine of claim 1 wherein: the mesh cutting and weaving mechanism (5) comprises a first fixing frame (51), a first pipeline and a second pipeline are arranged on the first fixing frame (51), the first pipeline is arranged in the second pipeline, one end of the second pipeline is connected with a first synchronizing wheel (52) through a first bearing, a spiral groove (57) is formed in the axial direction of the first synchronizing wheel (52), a second synchronizing wheel (53) is arranged on one side of the first synchronizing wheel (52), the second synchronizing wheel (53) and the second pipeline are integrally formed, a first synchronizing belt is arranged on the outer surfaces of the first synchronizing wheel (52) and the second synchronizing wheel (53) together, a plurality of grooves are formed in the axial direction of the second synchronizing wheel (53), a first cutter (54) is arranged in each groove, cutter heads of the first cutters (54) are located on the same groove, and the first cutter circle (54) moves along the groove, so that the distance between a plurality of cutter heads can be changed, the inner surface of one end of the first synchronous belt far away from the first synchronous wheel (52) is connected with a third synchronous wheel, the third synchronizing wheel is provided with a first motor, the outer surface of the second pipeline is provided with a third pipeline, a fourth synchronizing wheel (55) is fixedly connected with the outer surface of one end of the third pipeline, which is far away from the first synchronizing wheel (52), a second synchronous belt is arranged on the outer surface of the fourth synchronous wheel (55), a fifth synchronous wheel is arranged on the outer surface of one end of the second synchronous belt far away from the fourth synchronous wheel (55), the fifth synchronizing wheel is connected with a second motor, one end of the third pipeline far away from the fifth synchronizing wheel is integrally formed with a roller (56), the roller (56) is connected with the first cutter (54), the rotating directions of the first motor and the second motor are the same, and the first motor and the second motor are respectively electrically connected with the control mechanism.

3. The copper spool wire cutting machine of claim 1 wherein: the adjusting mechanism (8) comprises a fixed plate, an upper adjusting groove and a lower adjusting groove are arranged on the fixed plate, the upper adjusting groove and the lower adjusting groove are both connected with the fixed plate in a sliding manner, an upper clamping jaw is rotatably connected above the upper adjusting groove through a connecting piece, a lower clamping jaw is rotatably connected below the lower adjusting groove through a connecting piece, an upper connecting plate is rotatably connected to one end, away from the upper adjusting groove, of the upper clamping jaw, a lower connecting plate is rotatably connected to one end, away from the lower adjusting groove, of the lower clamping jaw, the distance between the upper clamping jaw and the lower clamping jaw on one side close to the upper adjusting groove is larger than the distance between the upper clamping jaw and the lower clamping jaw on one end away from the upper adjusting groove, a fourth air cylinder for driving the upper connecting plate to move up and down is fixedly connected above the upper connecting plate on the fixed plate, and a fifth air cylinder for driving the lower connecting plate to move up and down is fixedly connected below the lower connecting plate on the fixed plate, and the fourth cylinder and the fifth cylinder are respectively electrically connected with the control mechanism.

4. The copper spool wire cutting machine of claim 1 wherein: the second wire transmission mechanism (3) comprises a third fixing frame (31) and a fourth fixing frame (32), a second wire transmission upper part (33) is arranged on the third fixing frame (31), a second wire transmission lower part (34) is arranged on the fourth fixing frame (32), lifting components for driving the third fixing frame (31) to lift are symmetrically arranged on two sides of the third fixing frame (31), and the lifting components are electrically connected with the control mechanism;

the upper part (33) of the second wire comprises a plurality of sixth synchronous wheels and third synchronous belts arranged on the outer surfaces of the sixth synchronous wheels, wherein one side of one third synchronous belt is provided with a third motor, and the lower end surfaces of the sixth synchronous wheels are positioned on the same horizontal plane, so that the lower end surface of the third synchronous belt is horizontal;

second biography line lower part (34) include a plurality of seventh synchronizing wheels and set up the fourth hold-in range at a plurality of seventh synchronizing wheel surfaces, and one side of one of them fourth hold-in range is provided with the fourth motor, and is a plurality of the up end of seventh synchronizing wheel is in on the same horizontal plane for the level form is personally submitted to the upper end of fourth hold-in range, third hold-in range and fourth hold-in range cooperation drive copper axle carry out the transmission, third motor and fourth motor respectively with control mechanism electric connection.

5. The copper spool wire cutting machine of claim 1 wherein: the third wire transmission mechanism (4) and the second wire transmission mechanism (3) have the same structure.

6. The copper spool wire cutting machine of claim 4 wherein: the tail end of the second wire transmission mechanism (3) on the rack (1) is provided with a first horn cylinder, the tail end of the cutting and peeling mechanism (6) on the rack (1) is provided with a second horn cylinder, and the tail end of the third wire transmission mechanism (4) on the rack (1) is provided with a third horn cylinder.

7. The copper spool wire cutting machine of claim 1 wherein: the cutting and peeling mechanism (6) comprises a second fixing frame, a knife rest (61) is arranged on the second fixing frame, a cutter (62) and a peeling knife (63) are arranged on the knife rest (61), a first air cylinder (64) used for driving the cutter (62) and the peeling knife (63) to open or close is arranged on one side of the second fixing frame located on the knife rest (61), a front and back moving assembly (65) used for driving the second fixing frame to move back and forth is arranged on one side of the frame (1) located on the second fixing frame, so that the cutter (62) or the peeling knife (63) move to the front and back moving assembly (65) at the peeling mechanism (7), a left and right moving assembly used for driving the second fixing frame to move left and right is arranged below the second fixing frame, and the first air cylinder (64), the front and back moving assembly (65) and the left and right moving assembly are electrically connected with a control mechanism respectively.

8. The copper spool wire cutting machine of claim 7 wherein: the cutter (62) comprises a first cutter blade and a second cutter blade, the skinning knife (63) comprises a first skinning blade and a second skinning blade, the first cutter blade and the first skinning blade are arranged on the knife rest (61), the second cutter blade and the second skinning blade are arranged on the connecting plate, and the connecting plate is arranged on the driving shaft of the first air cylinder (64).

9. The copper spool wire cutting machine of claim 1 wherein: the skin cutting mechanism (7) comprises a fixed upper groove (71) and a fixed lower groove (72), a second upper cutter (73) is arranged at the upper end of the fixed upper groove (71), a second lower cutter (74) is arranged at the lower end of the fixed lower groove (72), a second cylinder (75) used for driving the fixed upper groove (71) to move up and down is arranged above the fixed upper groove (71), a third cylinder (76) used for driving the fixed lower groove (72) to move up and down is arranged below the fixed lower groove (72), and the second cylinder (75) and the third cylinder (76) are respectively electrically connected with a control mechanism.

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