CN215658438U

CN215658438U - Laser peeling mechanism and laser peeling tin-sticky welding machine with same

Info

Publication number: CN215658438U
Application number: CN202122185551.8U
Authority: CN
Inventors: 陈芳利; 李发红; 刘桂宝; 孙伟; 李刚
Original assignee: Shenzhen Alisheng Electronics Co ltd
Current assignee: Shenzhen Yumingwang Electronics Co ltd
Priority date: 2021-09-09
Filing date: 2021-09-09
Publication date: 2022-01-28
Anticipated expiration: 2031-09-09

Abstract

The utility model relates to a laser skinning mechanism and have laser skinning tin sticky welding machine of this mechanism, laser skinning mechanism includes the board, the top of board is equipped with crane and rack, the crane is kept away from the one end of board and is installed the laser instrument, the lift driving piece is installed to the lateral wall of crane, the output of lift driving piece is connected with the lift seat, the rotary driving piece is installed to the lateral wall of lift seat, the output of rotary driving piece is connected with the roating seat, the roating seat is installed from one side of crane and is got the driving piece, the output of getting the driving piece is installed and is got the corruption clamping jaw, the top of board is still installed and is used for cutting the subassembly in advance of electric wire line skin and the subassembly of skinning that is used for stripping electric wire line skin in advance. The laser is skinned tin sticky welding machine includes this application laser peeling mechanism. The application has the effect of reducing damage to the core wire.

Description

Laser peeling mechanism and laser peeling tin-sticky welding machine with same

Technical Field

The application relates to the technical field of wire stripping, in particular to a laser stripping mechanism and a laser stripping tin-sticky welding machine with the same.

Background

With the development of science and technology, the efficiency of producing electric wires is improved along with the increase of requirements, the use requirements of people on the electric wires are increased day by day, and when the electric wires are connected and processed, the insulating wire skin wrapped on the outer layers of the electric wires needs to be peeled off, so that the peeling process of the electric wires is also very important.

The traditional peeling method is manual peeling or mechanical peeling, along with social development, more and more people adopt mechanical peeling, when adopting mechanical peeling, the electric wire is often required to be arranged on an electric wire carrier, the electric wire carrier is placed in peeling equipment, a wire skin is cut by a cutter die, the cut wire skin is peeled, when adopting the cutter die to cut the wire skin, the cutter die is sharp, the internal core wire is easily cut, the damage of the core wire is caused, the peeling quality is reduced, and the bad influence can be generated on the quality of connection processing.

Disclosure of Invention

In order to reduce the damage of heart yearn, this application provides a laser skinning mechanism and have laser skinning tin sticky welding machine of this mechanism.

The application provides a laser peeling mechanism adopts following technical scheme:

the utility model provides a laser peeling mechanism, includes the board, the top of board is equipped with crane and rack, the crane is kept away from the one end of board and is installed the laser instrument, the lift driving piece is installed to the lateral wall of crane, the output of lift driving piece is connected with the lift seat of sliding the connection with the crane, rotary driving piece is installed to the lateral wall of lift seat, rotary driving piece's output is connected with the roating seat, the roating seat is installed from one side of crane and is got the driving piece, the output of getting the driving piece is got and is installed the corruption clamping jaw, the corruption clamping jaw is located the below of laser instrument, the subassembly of cutting in advance that is used for cutting the electric wire line skin in advance and the subassembly of skinning that is used for stripping the electric wire line skin are still installed to the top of board.

Through adopting above-mentioned technical scheme, can place the electric wire carrier on the rack, the subassembly is cut in advance to the line skin in the messenger, then the order is got driving piece drive corrosion clamping jaw clamp and is got the electric wire carrier, the lift driving piece drive lift seat rises and is close to the laser instrument, rotatory driving piece drive roating seat is rotatory, open the laser instrument, carry out laser corrosion to the electric wire line skin on the electric wire carrier, so that the line skin disconnection that will strip, the subassembly of skinning again makes the line skin of disconnection strip, the in-process laser instrument mainly corrodes the outer line skin of electric wire, be difficult for causing the damage to the heart yearn, can effectively reduce the spoilage of heart yearn.

Optionally, the precutting assembly comprises a precutting frame installed at the top of the machine table, an upper cutting driving piece and a lower cutting driving piece are installed on one side, close to the placing frame, of the precutting frame, the output ends of the upper cutting driving piece and the lower cutting driving piece are oppositely arranged, an upper cutting frame is installed at the output end of the upper cutting driving piece, and a lower cutting frame is installed at the output end of the lower cutting driving piece.

Through adopting above-mentioned technical scheme, when placing the electric wire carrier on the rack, can arrange the electric wire on the electric wire carrier in between last cutting frame and the undercutting frame, make and go up cutting driving piece drive and go up cutting frame, undercut driving piece drive undercutting frame, make and go up cutting frame and undercutting frame and be close to each other and cut the electric wire in advance, be convenient for carry out laser corrosion.

Optionally, the subassembly of skinning is including installing the frame of skinning at board top, the shelf location of skinning has the displacement driving piece, the output of displacement driving piece is connected with the displacement seat, the displacement driving piece can drive the displacement seat and be close to or keep away from the rack, the displacement seat is close to one side of rack and installs the upper clamp driving piece and presss from both sides the driving piece down, the output that goes up the clamp driving piece is installed and is used for pressing from both sides the last cutter of getting the electric wire line skin, the lower cutter that is used for pressing from both sides the electric wire line skin is installed to the output that presss from both sides the driving piece down.

Through adopting above-mentioned technical scheme, accomplish the laser corrosion back, place the electric wire carrier on the rack, can make displacement driving piece drive displacement seat be close to the rack, make the corruption department of electric wire line skin be located between cutter and the lower cutter, drive upper clamp driving piece and lower clamp driving piece make upper cutter and lower cutter holder hold the line skin, make displacement driving piece drive displacement seat keep away from the rack again, can strip by the line skin of corruption disconnection.

Optionally, the peeling assembly further comprises two clamping driving pieces mounted on the side wall of the displacement seat, secondary clamping plates are mounted at output ends of the two clamping driving pieces, and the upper cutter and the lower cutter are located between the placing frame and the secondary clamping plates.

By adopting the technical scheme, after the upper cutter and the lower cutter clamp the disconnected line skin to be stripped, the two-clamp driving piece can drive the secondary clamping plate to clamp the disconnected line skin and drive the upper cutter and the lower cutter to loosen the disconnected line skin, so that the line skin melted after being corroded by laser is prevented from being adhered to the upper cutter or the lower cutter.

Optionally, the peeling frame is far away from one end of the machine table and is provided with a limiting driving piece, the output end of the limiting driving piece is provided with a limiting plate used for pressing the electric wire carrier, and the limiting plate is located above the placing frame.

Through adopting above-mentioned technical scheme, when skinning, can make spacing driving piece drive limiting plate push down the electric wire carrier, reduce the condition that the electric wire carrier takes place the displacement to more do benefit to and skin.

Optionally, the top of board is installed and is corroded the frame, corrode the frame and keep away from the one end of board and seted up the corruption chamber, the corruption chamber is located between laser instrument and the corruption clamping jaw.

Through adopting above-mentioned technical scheme, set up and corrode the frame and set up and corrode the chamber and can play the guard action to the staff at the in-process that the laser corrodes, hinder the staff to stretch out the hand and be shone by the laser between laser instrument and the corrosion clamping jaw.

The second is convenient, and the application provides a laser is skinned tin sticky welding machine, adopts following technical scheme:

the utility model provides a laser is skinned and is stained with tin welding machine, includes foretell any kind of laser peeling mechanism, the conveying driving piece is installed to the inner wall of rack, the conveying rail is installed to the output of conveying driving piece, the conveying rail slides with the inner wall of rack and is connected, the glide direction and the extending direction of conveying rail all are the same with the extending direction of rack, install the conveying piece on the conveying rail, install the hinge bar that is used for promoting the electric wire carrier on the conveying piece.

Through adopting above-mentioned technical scheme, can make conveying driving piece drive conveying rail, drive conveying piece and articulated rod and promote the electric wire carrier to play the effect of conveying to the electric wire carrier on the rack.

Optionally, the input of board is installed and is pushed down the frame, push down the inner wall of frame and install the driving piece of flare-outing, the output of the driving piece of flare-outing is installed and is just pressed from both sides the driving piece, the driving piece of flare-outing can drive and just press from both sides the driving piece and be close to or keep away from the rack, the output that just presss from both sides the driving piece is installed and is used for the splint of flare-outing of centre gripping electric wire, push down the frame and keep away from the one end of board and install the driving piece of pushing down, the output that pushes down the driving piece is installed and is located the lower clamp plate of rack top.

Through adopting above-mentioned technical scheme, promote the electric wire carrier, convey the electric wire to the position that does benefit to the splint centre gripping of flare-outing, push down driving piece drive holding down plate and push down the electric wire carrier, just press from both sides driving piece drive and flare-outing splint and grasp the electric wire, flare-outing the driving piece drive and just press from both sides the driving piece and keep away from the rack, can flare-outing the electric wire, be convenient for corrode and skin.

Optionally, the roll-over stand is installed at the top of board, the driving piece that takes off and land that the output is connected with the roll-over stand is installed at the top of board, the output of the driving piece that takes off and land is installed and is fallen the frame, the top of board is offered and is located the upset radius within range of roll-over stand and is stained with agent groove and tin sticky groove, it falls the frame and deviates from roll-over stand one side and installs and be stained with agent driving piece and tin sticky driving piece to play, the output of being stained with the agent driving piece is installed and is used for pressing from both sides the adhesive clamping jaw who gets the electric wire carrier, the tin sticky clamping jaw that is used for pressing from both sides the electric wire carrier is installed to the output of tin sticky driving piece.

By adopting the technical scheme, after the corrosion and peeling are finished, the conveying rail continues to convey the electric wire carrier to the lower parts of the adhesive clamping jaws and the tin pick-up clamping jaws, so that the adhesive driving piece and the tin pick-up driving piece can respectively drive the adhesive clamping jaws and the tin pick-up clamping jaws to clamp the electric wire carrier, the lifting frame is driven to lift, the overturning frame is driven to overturn, and the core wires of the electric wires on the clamped electric wire carrier can be adhered with soldering flux and tin pick-up.

Optionally, the output of board still installs the frame of cutting the tie, the lateral wall of cutting the tie is installed and is cut the tie driving piece, cut the tie sword to install the output of tie driving piece.

By adopting the technical scheme, after the steps of adhering the soldering flux and tin to the core wire are completed, the flattening driving piece drives the flattening cutter to flatten the end part of the core wire, so that the end part of the core wire is flattened.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the wire carrier can be placed on the placing frame, the precutting assembly precuts the wire sheath, the clamping driving piece drives the corrosion clamping jaw to clamp the wire carrier, the lifting driving piece drives the lifting seat to ascend to be close to the laser, the rotating driving piece drives the rotating seat to rotate, the laser is started to carry out laser corrosion on the wire sheath on the wire carrier, the wire sheath to be stripped is disconnected, the stripping assembly strips the disconnected wire sheath, and the laser mainly corrodes the wire sheath on the outer layer of the wire in the process, so that the core wire is not easily damaged, and the damage rate of the core wire can be effectively reduced;

2. when the wire carrier is placed on the placing frame, wires on the wire carrier can be placed between the upper cutting frame and the lower cutting frame, the upper cutting driving piece drives the upper cutting frame, the lower cutting driving piece drives the lower cutting frame, the upper cutting frame and the lower cutting frame are close to each other, the wires are precut, and laser corrosion is facilitated;

3 after finishing laser corrosion, place the electric wire carrier on the rack, can make displacement driving piece drive displacement seat be close to the rack, make the corruption department of electric wire line skin be located between cutter and the lower cutter, press from both sides driving piece and lower clamp driving piece in the drive, make cutter and lower cutter holder hold the line skin, make displacement driving piece drive displacement seat keep away from the rack again, can strip by corroding the line skin of disconnection.

Drawings

Fig. 1 is a schematic structural diagram of a laser peeling and tin wetting welding machine including a laser peeling mechanism in an embodiment of the present application.

Fig. 2 is an exploded view of the structure of the lifting seat, the rotary driving member and the rotary seat in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a pre-cutting frame in an embodiment of the present application.

Figure 4 is a partial cross-sectional view of a debarking frame in an embodiment of the present application.

FIG. 5 is a schematic view of the connection between the transfer drive and the transfer rail in the embodiment of the present application.

Fig. 6 is a partial sectional view of the lower pressure frame in the embodiment of the present application.

Fig. 7 is a schematic view of a roll-over stand and a cut-flat stand in an embodiment of the present application.

Description of reference numerals:

1. a machine platform; 11. a dipping agent groove; 12. a tin dipping tank; 2. placing a rack; 21. a transfer drive; 22. a transfer rail; 23. a transfer block; 24. a hinged lever; 3. a lifting frame; 31. a lifting seat; 32. a lifting drive member; 33. a rotary drive member; 34. a rotating base; 35. a gripping drive; 36. corroding the clamping jaw; 37. a laser; 4. etching the frame; 41. etching the cavity; 5. pre-cutting frame; 51. an upper cutting driving piece; 52. an upper cutting frame; 53. a down-cut drive member; 54. a lower cutting frame; 6. a peeling frame; 60. a displacement drive member; 61. a displacement seat; 62. an upper clamp driving member; 63. an upper cutter; 64. a lower clamp driving member; 65. a lower cutter; 66. two clamp driving pieces; 67. secondary splinting; 68. a limiting driving piece; 69. a limiting plate; 7. pressing down the frame; 71. straightening the driving piece; 72. a straightening seat; 73. primarily clamping a driving piece; 74. straightening the clamping plate; 75. pressing down the driving member; 76. a lower pressing plate; 8. a roll-over stand; 81. turning over the driving piece; 82. a take-off and landing drive member; 83. lifting and lowering the frame; 84. a sticker driving member; 85. a sticking agent clamping jaw; 86. a tinned drive member; 87. tin-dipped clamping jaws; 9. cutting a flat frame; 91. cutting the driving piece; 92. a cutting and flattening knife.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses laser peeling mechanism and laser peeling tin-wetting welding machine with the same.

Referring to fig. 1 and 2, a laser peeling mechanism, including board 1, rack 2 for placing the electric wire carrier is installed to the top surface of board 1, crane 3 and corrosion rack 4 are still installed to the top surface of board 1, crane 3 slides near one side of rack 2 and is connected with lift seat 31, the direction of sliding of lift seat 31 is perpendicular to the top surface of board 1, lift driving piece 32 is installed near one side of rack 2 to crane 3, lift driving piece 32 is the cylinder, the output of lift driving piece 32 is connected with the bottom of lift seat 31, lift driving piece 32 can drive lift seat 31 and go up and down along the direction of perpendicular to board 1 top surface.

Lift seat 31 deviates from one side of crane 3 and installs rotary driving piece 33, rotary driving piece 33 is servo motor, roating seat 34 is installed to rotary driving piece 33's output, roating seat 34 is close to one side of rotary driving piece 33 and rotates with lift seat 31 to be connected, roating seat 34 deviates from one side of lift seat 31 and installs to press from both sides and get driving piece 35, it is pneumatic finger to press from both sides and get driving piece 35's output and install corrosion clamping jaw 36, corrosion clamping jaw 36 is located the top of rack 2, when needing to press from both sides the electric wire carrier of placing on rack 2, can make lift driving piece 32 drive lift seat 31 descend, make rotary driving piece 33 drive roating seat 34 make corrosion clamping jaw 36 be in the horizontality simultaneously, it gets corrosion clamping jaw 36 and presss from both sides to press from both sides driving piece 35 drive corrosion clamping jaw.

The laser 37 is installed at one end of the lifting frame 3 far away from the machine table 1, the laser 37 is located above the corrosion clamping jaw 36, the output end of the laser 37 faces the placing frame 2, the corrosion frame 4 is further installed on the top surface of the machine table 1, the corrosion chamber 41 is formed at one end of the corrosion frame 4 far away from the machine table 1, the opening of the corrosion chamber 41 faces the placing frame 2, a through hole communicated with the corrosion chamber 41 is formed in the top surface of the corrosion frame 4, the corrosion chamber 41 is located between the laser 37 and the corrosion clamping jaw 36, after the wire carrier is clamped, laser corrosion needs to be carried out on a wire skin on the wire carrier, at the moment, the lifting driving piece 32 drives the lifting seat 31 to ascend, the wire carrier is made to be close to the corrosion chamber 41, the laser 37 is started to carry out laser corrosion on the wire skin on the wire carrier, after corrosion of one side of the wire skin is completed, the rotary driving piece 33 drives the rotary seat 34 to overturn by 180 degrees, and the laser 37 corrodes the other side of the wire skin, after the corrosion is completed, the rotating driving member 33 drives the rotating seat 34 to overturn for 180 degrees again, the lifting driving member 32 drives the lifting seat 31 to descend, the bottom surface of the wire carrier is made to contact with the top surface of the placing frame 2, the clamping driving member 35 drives the corrosion clamping jaw 36 to release the wire carrier, and the wire carrier is placed on the top surface of the placing frame 2 to complete the laser corrosion of a wire skin on the wire carrier.

Referring to fig. 1 and 3, a pre-cutting frame 5 is further installed on the top surface of the machine table 1, an upper cutting driving member 51 and a lower cutting driving member 53 which are distributed in the vertical direction and have output ends opposite to each other are installed on one side of the pre-cutting frame 5 close to the placement frame 2, both the upper cutting driving member 51 and the lower cutting driving member 53 are air cylinders, an upper cutting frame 52 is installed on the output end of the upper cutting driving member 51, a lower cutting frame 54 is installed on the output end of the lower cutting driving member 53, both the end portions of the upper cutting frame 52 and the lower cutting frame 54 close to each other are provided with pre-cutting portions, before corroding a wire skin on a wire carrier, the wire carrier is placed on the placement frame 2, the wire is positioned between the upper cutting frame 52 and the lower cutting frame 54, the upper cutting driving member 51 and the lower cutting driving member 53 are driven to close to each other to complete the pre-cutting of the wire skin, the driving sequence of the upper cutting driving member 51 and the lower cutting driving member 53 is not required, the wire sheath can be driven simultaneously or sequentially, and can be precut to produce cutting marks, and the wire sheath is easier to break when laser corrosion is subsequently carried out.

Referring to fig. 1 and 4, a peeling frame 6 is further installed on the machine table 1, a limiting driving member 68 is installed at one end of the peeling frame 6, which is far away from the machine table 1, the limiting driving member 68 is an air cylinder, a limiting plate 69 is installed at the downward end of the output end of the limiting driving member 68, the limiting plate 69 is located above the placing frame 2, the limiting driving member 68 can drive the limiting plate 69 to move in the direction perpendicular to the top surface of the placing frame 2, a displacement driving member 60 is installed on the inner bottom wall of the peeling frame 6, the displacement driving member 60 is an air cylinder, a displacement seat 61 is installed at the output end of the displacement driving member 60, the displacement seat 61 is connected with the inner bottom wall of the peeling frame 6 in a sliding manner, the displacement driving member 60 can drive the displacement seat 61 to approach or be far away from the placing frame 2, an upper clamp driving member 62 and a lower clamp driving member 64, which are distributed in the vertical direction and are installed at one side of the displacement seat 61, the output ends of which are opposite to each other, the upper clamp driving member 62 and the lower clamp driving member 64 are air cylinders, the output end of the upper clamp driving piece 62 is provided with an upper cutter 63, the output end of the lower clamp driving piece 64 is provided with a lower cutter 65, after the wire skin is subjected to laser corrosion, the wire carrier is placed on the top surface of the placing frame 2 and is positioned between the upper cutter 63 and the lower cutter 65, the limiting plate 69 is driven to move downwards by the limiting driving piece 68 so as to limit the wire carrier, the upper clamp driving piece 62 and the lower clamp driving piece 64 are driven, the upper cutter 63 and the lower cutter 65 clamp the position on the wire skin corroded by the laser, the displacement driving piece 60 is driven, the displacement seat 61 is far away from the placing frame 2, and the upper cutter 63 and the lower cutter 65 pull out the corroded part on the wire skin so as to complete peeling.

Two clamp driving pieces 66 are installed on the side wall, adjacent to the side where the upper clamp driving piece 62 is installed, of the displacement seat 61, the two clamp driving pieces 66 are pneumatic fingers, a secondary clamping plate 67 is installed at the output end of the two clamp driving pieces 66, the upper cutter 63 and the lower cutter 65 are located between the secondary clamping plate 67 and the placing frame 2, after the upper cutter 63 and the lower cutter 65 pull out the corroded part of the wire sheath, the two clamp driving pieces 66 drive the secondary clamping plate 67 to clamp the pulled-out part of the wire sheath, the upper clamp driving piece 62 and the lower clamp driving piece 64 are driven to enable the upper cutter 63 and the lower cutter 65 to be away from each other, the phenomenon that the cut-off part of the pulled-out part of the wire sheath in a high-temperature state after being corroded by laser is stuck to the upper cutter 63 or the lower cutter 65 is prevented, and then the two clamp driving pieces 66 drive the secondary clamping plate 67 to loosen the pulled-out part of the wire sheath to enable the wire sheath to naturally fall.

Referring to fig. 1 and 5, a laser peeling and tin staining welding machine comprises the laser peeling mechanism, and further comprises a transmission driving member 21 installed on the inner bottom wall of the placing frame 2, the transmission driving member 21 is an air cylinder, a transmission rail 22 connected with the inner bottom wall of the placing frame 2 in a sliding manner is installed at the output end of the transmission driving member 21, the extension direction of the transmission rail 22 is the same as the extension direction of the placing frame 2, a transmission block 23 is installed on the top surface of the transmission rail 22, the top surface of the transmission block 23 is lower than the top surface of the placing frame 2, a hinge rod 24 is hinged to the top of the transmission block 23, the hinge rod 24 is divided into a pushing end and a non-pushing end by the hinge rod 24, in an initial state, the non-pushing end of the hinge rod 24 is inserted into the top surface of the transmission block 23, when the output end of the transmission driving member 21 extends, the pushing end of the hinge rod 24 is abutted to the side wall of a wire carrier, so as to push the wire carrier, after the promotion, the output that conveys driving piece 21 contracts back, and in-process, the promotion end of hinge bar 24 is pushed down when passing through the electric wire carrier, and self is rotatory around the articulated shaft, and non-promotion end lifts up simultaneously, can reset smoothly and do not take the electric wire carrier to move back, so relapse, can convey the electric wire carrier on the rack 2.

Referring to fig. 1 and 6, a lower pressing frame 7 is installed on the top surface of a machine table 1, a straightening driving member 71 is installed on the inner bottom wall of the lower pressing frame 7, the straightening driving member 71 is an air cylinder, an output end of the straightening driving member 71 is connected with a straightening seat 72, a primary clamping driving member 73 is installed on one side of the straightening seat 72 close to a placing rack 2, the straightening seat 72 and the primary clamping driving member 73 can slide on the inner bottom wall of the lower pressing frame 7 by driving the straightening driving member 71, the primary clamping driving member 73 is far away from or close to the placing rack 2, the primary clamping driving member 73 is a pneumatic finger, a straightening clamping plate 74 is installed on the output end of the primary clamping driving member 73, before the wire sheath is precut, the wire carrier can be placed on the placing frame 2, the primary clamp driving piece 73 is driven to enable the straightening clamp plates 74 to clamp the wire and the wire sheath, the straightening driving piece 71 drives the primary clamp driving piece 73 to be far away from the placing frame 2, and the straightening clamp plates 74 can straighten the wire and the wire sheath.

One end of the downward pressing frame 7, which is far away from the machine table 1, is provided with a downward pressing driving part 75, the downward pressing driving part 75 is an air cylinder, the output end of the downward pressing driving part 75 is provided with a downward pressing plate 76, and before the electric wires and the wire sheaths are straightened, the downward pressing driving part 75 drives the downward pressing plate 76 to press the electric wire carrier, so that the electric wire carrier is prevented from sliding in the straightening process.

Referring to fig. 1 and 7, a roll-over stand 8 and a roll-over driving member 81 are further mounted on the top surface of the machine table 1, the roll-over driving member 81 is a servo motor, the roll-over stand 8 is hinged to the machine table 1, the roll-over stand 8 is connected to the output end of the roll-over stand 81, a lifting driving member 82 is mounted on one side of the roll-over stand 8 close to the placement frame 2, the lifting driving member 82 is an air cylinder, a lifting frame 83 is mounted on the output end of the lifting driving member 82, the lifting frame 83 is connected to the roll-over stand 8 in a sliding manner, a wetting agent driving member 84 and a wetting agent driving member 86 are mounted on one side of the lifting frame 83 away from the roll-over stand 8, the wetting agent driving member 84 is located at one end of the lifting frame 83 close to the peeling frame 6, the wetting agent driving member 86 is located at one end of the lifting frame 83 away from the peeling frame 6, the wetting agent driving member 84 and the wetting agent driving member 86 are both pneumatic fingers, a wetting agent clamping jaw 85 is mounted at the output end of the wetting agent driving member 84, a wetting clamping jaw 87 is mounted at the output end of the wetting agent driving member 86, the dipping agent clamping jaw 85 and the tin dipping clamping jaw 87 are both positioned above the placing frame 2, after the electric wire is peeled, the electric wire carrier provided with the peeled electric wire is sequentially conveyed to pass through the lower parts of the dipping agent clamping jaw 85 and the tin dipping clamping jaw 87, the lifting and lowering driving piece 82 drives the lifting and lowering frame 83 to descend, and the dipping agent driving piece 84 and the tin dipping driving piece 86 can respectively drive the dipping agent clamping jaw 85 and the tin dipping clamping jaw 87 to clamp the electric wire carrier.

The top surface of the machine table 1 is provided with a dipping agent groove 11 and a dipping tin groove 12, the dipping agent groove 11 is internally provided with soldering flux, the dipping tin groove 12 is internally provided with soldering tin, the dipping agent groove 11 and the dipping tin groove 12 are positioned in the turning radius range of the turning frame 8, after the dipping agent clamping jaw 85 clamps the wire carrier below, the lifting driving piece 82 drives the lifting frame 83 to ascend, the turning driving piece 81 drives the turning frame 8 to turn, the lifting frame 83 is driven to turn, the dipping agent clamping jaw 85 can drive the core wire on the wire carrier which is naked after being peeled to dip into the dipping agent groove 11 so as to dip the wire with the soldering flux, after dipping the soldering flux, the turning driving piece 81 drives the turning frame 8 to reset, the lifting driving piece 82 drives the lifting frame 83 to descend, the dipping agent clamping jaw 85 loosens the wire carrier, so that the wire carrier is placed on the placing frame 2 again, the transmission driving piece 21 drives the hinge rod 24 to transmit the wire which is dipped with the soldering flux to the lower part of the dipping clamping jaw 87, the tin pick-up driving part 86 can drive the tin pick-up clamping jaw 87 to clamp the tin pick-up clamping jaw, meanwhile, the other group of wire carriers which are used for finishing peeling and are not used for picking up the electric wire of the soldering flux are transmitted to the lower part of the tin pick-up clamping jaw 85, the tin pick-up driving part 84 can drive the tin pick-up clamping jaw 85 to clamp the electric wire, the overturning driving part 81 drives the overturning frame 8 to overturn, so that the core wire which is not used for picking up the soldering flux is used for tin pick-up, the core wire which is used for picking up the soldering flux is synchronously used for dipping the soldering flux and tin pick-up, the processing efficiency can be improved, and the cost can be saved.

The top surface of board 1 still installs the frame of cutting flatly 9, cut flatly the frame 9 and be close to one side of rack 2 and install the driving piece of cutting flatly 91, cut flatly the driving piece 91 and be the cylinder, the output of cutting flatly driving piece 91 is towards the top surface of board 1, cut flatting cutter 92 is installed to the output of cutting flatly driving piece 91, after the electric wire is accomplished to be stained with scaling powder and tin sticky, cut flatting frame 9 and be close to one side of rack 2 and install, convey between the frame of cutting flatting cutter 92 and the frame of cutting flatting 9, cut flatting driving piece 91 drive and cut flatting cutter 92, make the end of cutting flatting cutter 92 to the electric wire cut flatly.

The laser peeling and tin staining welding machine is characterized in that the structural distribution sequence from the input end to the output end is a lower pressing frame 7, a precutting frame 5, a lifting frame 3, a peeling frame 6, a turnover frame 8 and a flattening frame 9, and the processing sequence is as follows: straightening, precutting, laser etching, peeling, dipping soldering flux, dipping tin and flattening.

The application principle of the laser peeling mechanism and the laser peeling tin-wetting welding machine with the same is as follows: placing the wire carrier on the placing frame 2, driving the transmission rail 22 by the transmission driving part 21, enabling the hinge rod 24 to push the wire carrier, clamping the wire by the primary clamp driving part 73, driving the primary clamp driving part 73 to be far away from the placing frame 2 by the straightening driving part 71 to straighten the wire, pushing the wire carrier to enable the wire to move to a position between the upper cutting frame 52 and the lower cutting frame 54, then driving the upper cutter 63 and the lower cutter 65 to pre-cut the wire skin, then pushing the wire carrier to enable the wire to move to the lower part of the corrosion cavity 41, driving the corrosion clamping jaw 36 to clamp the wire carrier and carry out laser corrosion on the wire skin, pushing the wire carrier to enable the wire to move to a position between the upper cutter 63 and the lower cutter 65 to peel after the corrosion is finished, then driving the staining agent clamping jaw 85, the staining clamping jaw 87, the lifting frame 83 and the turnover frame 8 to sequentially carry out the scaling powder and the staining, and then cutting the wire by the leveling knife 92, thereby completing the laser peeling of the electric wire.

The above are all preferred embodiments of the present application, and the present embodiment is only explained for the present application, and does not sequentially limit the protection scope of the present application, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A laser peeling mechanism is characterized by comprising a machine table (1), wherein the top of the machine table (1) is provided with a lifting frame (3) and a placing frame (2), a laser (37) is arranged at one end of the lifting frame (3) far away from the machine table (1), a lifting driving piece (32) is arranged on the side wall of the lifting frame (3), the output end of the lifting driving piece (32) is connected with a lifting seat (31), a rotary driving piece (33) is arranged on the side wall of the lifting seat (31), the output end of the rotary driving piece (33) is connected with a rotary seat (34), one side of the rotating seat (34) away from the lifting frame (3) is provided with a clamping driving piece (35), the output end of the clamping driving piece (35) is provided with a corrosion clamping jaw (36), the top of the machine table (1) is also provided with a precutting assembly for precutting the wire sheath and a peeling assembly for peeling the wire sheath.

2. The laser peeling mechanism according to claim 1, wherein the pre-cutting assembly comprises a pre-cutting frame (5) installed at the top of the machine table (1), an upper cutting driving member (51) and a lower cutting driving member (53) are installed on one side of the pre-cutting frame (5) close to the placing frame (2), the output ends of the upper cutting driving member (51) are opposite to each other, an upper cutting frame (52) is installed at the output end of the upper cutting driving member (51), and a lower cutting frame (54) is installed at the output end of the lower cutting driving member (53).

3. The laser peeling mechanism of claim 1, wherein the peeling assembly comprises a peeling frame (6) installed at the top of the machine table (1), a displacement driving member (60) is installed on the peeling frame (6), a displacement seat (61) is connected to the output end of the displacement driving member (60), the displacement seat (61) can be driven by the displacement driving member (60) to be close to or far away from the placing frame (2), an upper clamp driving member (62) and a lower clamp driving member (64) are installed on one side, close to the placing frame (2), of the displacement seat (61), an upper cutter (63) used for clamping an electric wire skin is installed at the output end of the upper clamp driving member (62), and a lower cutter (65) used for clamping the electric wire skin is installed at the output end of the lower clamp driving member (64).

4. The laser peeling mechanism as claimed in claim 3, wherein the peeling assembly further comprises two clamp driving members (66) mounted on the side walls of the displacement seat (61), secondary clamping plates (67) are mounted at output ends of the two clamp driving members (66), and the upper cutter (63) and the lower cutter (65) are located between the placing frame (2) and the secondary clamping plates (67).

5. The laser peeling mechanism according to claim 3, wherein a limiting driving member (68) is mounted at one end of the peeling frame (6) far away from the machine table (1), a limiting plate (69) for pressing the wire carrier is mounted at an output end of the limiting driving member (68), and the limiting plate (69) is located above the placing frame (2).

6. The laser peeling mechanism according to claim 1, wherein the top of the machine table (1) is provided with a corrosion rack (4), one end of the corrosion rack (4) far away from the machine table (1) is provided with a corrosion cavity (41), and the corrosion cavity (41) is located between the laser (37) and the corrosion clamping jaw (36).

7. The utility model provides a laser skinning tin sticky welding machine, includes the laser skinning mechanism of any one of claims 1-6, characterized in that, transmission driving piece (21) is installed to the inner wall of rack (2), transmission rail (22) are installed to the output of transmission driving piece (21), transmission rail (22) slide with the inner wall of rack (2) and be connected, the glide direction and the extending direction of transmission rail (22) all are the same with the extending direction of rack (2), install transfer block (23) on transmission rail (22), install hinge bar (24) that are used for promoting the electric wire carrier on transfer block (23).

8. The laser stripping tin pick-up welding machine as claimed in claim 7, characterized in that the input end of the machine table (1) is provided with a lower pressing frame (7), the inner wall of the lower pressing frame (7) is provided with a straightening driving piece (71), the output end of the straightening driving piece (71) is provided with a clamping driving piece (73), the straightening driving piece (71) can drive the clamping driving piece (73) to be close to or away from the placing frame (2), the output end of the clamping driving piece (73) is provided with a straightening clamping plate (74) for clamping an electric wire, one end of the lower pressing frame (7) away from the machine table (1) is provided with a lower pressing piece (75), and the output end of the lower pressing piece (75) is provided with a lower pressing plate (76) above the placing frame (2).

9. The laser peeling and tin pick-up welding machine as claimed in claim 7, characterized in that a turning frame (8) is installed on the top of the machine table (1), the top of the machine table (1) is provided with a lifting driving piece (82) the output end of which is connected with the roll-over stand (8), the output end of the lifting driving piece (82) is provided with a lifting frame (83), the top of the machine table (1) is provided with a wetting agent groove (11) and a tin wetting groove (12) which are positioned in the turning radius range of the turning frame (8), one side of the lifting frame (83) departing from the turnover frame (8) is provided with a sticky agent driving piece (84) and a sticky tin driving piece (86), the output end of the adhesive driving piece (84) is provided with an adhesive clamping jaw (85) used for clamping the wire carrier, and a tin pick-up clamping jaw (87) used for clamping the wire carrier is arranged at the output end of the tin pick-up driving piece (86).

10. The laser peeling and tin staining welding machine as claimed in claim 9, wherein the output end of the machine table (1) is further provided with a flattening frame (9), a flattening driving member (91) is arranged on the side wall of the flattening frame (9), and a flattening knife (92) is arranged at the output end of the flattening driving member (91).