CN112453618A

CN112453618A - Electric wire soldering tin and repairing process device

Info

Publication number: CN112453618A
Application number: CN202011382198.6A
Authority: CN
Inventors: 罗活
Original assignee: Lianyungang Kahe Machinery Technology Co Ltd
Current assignee: Lianyungang Kahe Machinery Technology Co Ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-09

Abstract

The invention discloses a wire soldering and repairing process device, which comprises a device main body and a working box arranged in the device main body, wherein the invention optimizes and improves the wire soldering process, only the electric wire needs to be clamped on the device for the copper wire of primary soldering, the electric wire is clamped, the clamping mechanism rotates when the electric wire rises, the scattered copper wire is screwed into a bundle to be beneficial to the subsequent soldering, only a motor needs to be started to place the electric wire in a soldering tin cavity to fill molten soldering tin in the cavity, for the soldered electric wire, the electric wire is placed in a hot melting cavity, the soldering tin falls off after being melted at high temperature, the problem that the soldering tin of the electric wire is not uniform by manual soldering tin and has poor shape is solved, the electric wire is not attractive, and for the soldered electric wire, part of the soldering tin falls off when external force is applied to the left and the right, the soldering tin needs to be repaired, and the problem that a soldering tin process which saves resources and is convenient does not exist at present.

Description

Electric wire soldering tin and repairing process device

Technical Field

The invention relates to a wire soldering and repairing process device, and mainly relates to the technical field of soldering.

Background

The back line is inseparabler after the electric wire soldering tin is crossed, can not have the problem that generates heat and burn out, and wire joint is not soldering tin, and to big cable, because the electric current is big, the time has long the joint and has generated heat easily. Therefore, for large cables and multi-strand copper core wires, the large cables and the multi-strand copper core wires are preferably reinforced by soldering tin, the manual soldering tin and the soldering tin are uneven, the shape and the form are not good, the appearance is not attractive, and the electrical conductivity is influenced to a certain extent.

Disclosure of Invention

The invention aims to provide a wire soldering and repairing process device, which overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to an electric wire soldering and repairing process device, which comprises a device main body and a working box arranged in the device main body, wherein a working chamber is arranged in the working box, a clamping transmission mechanism, a rotating mechanism and a quantitative mechanism are arranged in the working chamber, the clamping transmission mechanism comprises a moving motor fixedly connected and arranged on the top wall of the working chamber, the lower end of the moving motor is provided with a moving motor shaft in a power rotating connection mode, a motor gear is fixedly arranged on the moving motor shaft, a transmission rotating shaft arranged on the right side of the moving motor is arranged on the top wall of the working chamber in a rotating connection mode, a transmission gear is fixedly arranged on the transmission rotating shaft, a transmission belt is arranged between the transmission gear and the motor gear in a transmission connection mode, a sliding rod is fixedly connected and arranged on the transmission belt, a sliding rod groove arranged between the moving motor and the transmission, the upper end of the sliding rod can move left and right in the sliding rod groove, the lower end of the sliding rod is fixedly connected with a sliding block, a supporting rod and a supporting plate are fixedly connected between the left wall and the right wall of the working cavity, the sliding block is arranged on the supporting rod in a sliding manner, the lower end face of the sliding block is fixedly connected with a first telescopic outer rod, a first telescopic inner rod is arranged in the first telescopic outer rod in a sliding manner, a telescopic rod motor is fixedly arranged on the lower end face of the sliding block, a second telescopic outer rod is arranged on the lower end face of the telescopic rod motor in a power connection and rotation manner, a second telescopic inner rod is arranged in the second telescopic outer rod in a spiral connection manner, a fixing plate is fixedly connected between the second telescopic inner rod and the lower end of the first telescopic inner rod, a clamp is fixedly connected with the lower end of the fixing plate, an electric, a driving ratchet wheel is fixedly arranged on the second telescopic outer rod;

the rotating mechanism comprises a rotating hole which is fixedly arranged on the left side of the second transmission rod and is arranged in the support plate, a rotating tube cavity is arranged in the rotating hole in a rotating connection mode, a rotating groove is fixedly arranged on the inner wall of the rotating hole, two rotating lugs which are bilaterally symmetrical are fixedly arranged on the outer end face of the rotating tube cavity, a telescopic rod groove communicated with the inner side of the rotating tube cavity is fixedly arranged in each rotating lug, a fixed connecting rod is fixedly connected on the left outer end face and the right outer end face of the rotating tube cavity, a rotating block is arranged on the fixed connecting rod in a rotating connection mode, a transmission cavity is arranged in each rotating block, a threaded hole is fixedly arranged on the inner wall on the left side in the transmission cavity, a moving rod penetrating through the right wall of each rotating block and the left wall of the rotating tube cavity is arranged in the threaded, the upper portion of the outer end face of the left side of the moving rod is provided with threads meshed with the threaded holes, a reset spring is fixedly connected between the left wall of the transmission cavity and the left end of the moving rod, a first bevel gear ring is fixedly arranged on the outer surface of the rotating block, and a second bevel gear ring in meshed transmission with the first bevel gear ring is fixedly arranged on the lower end face of the supporting plate.

A quantitative box arranged on the left side of the rotary tube cavity is fixedly connected on the lower end face of the supporting plate, a spring groove is arranged in the quantitative box and the supporting plate, a hot melting box is arranged in the spring groove and moves up and down, the quantitative mechanism comprises a pressure transmission box arranged below the supporting plate, a first air pressure cavity and a second air pressure cavity arranged on the left side of the first air pressure cavity are arranged in the pressure transmission box, a transmission air pressure cavity is communicated between the first air pressure cavity and the second air pressure cavity, a first limiting plate is fixedly arranged between the first air pressure cavity and the transmission air pressure cavity, a first air pressure plate is arranged in the first air pressure cavity in a vertically sliding mode, the first air pressure plate is limited by the first limiting plate to move downwards, a first air pressure rod penetrating through the top wall of the first air pressure cavity is fixedly connected on the upper end face of the first air pressure plate, and a spring plate is fixedly connected on the upper end, the spring plate with fixed connection is equipped with the spring under the hot-melt box between the terminal surface, second atmospheric pressure chamber with the fixed second limiting plate that is equipped with between transmission atmospheric pressure chamber, it is equipped with the second atmospheric pressure board to slide from top to bottom in the second atmospheric pressure chamber, the restriction of second limiting plate the second atmospheric pressure board downstream, fixed connection is equipped with on the second atmospheric pressure board up end run through in the second atmospheric pressure pole of second atmospheric pressure chamber roof.

Furthermore, a melting working chamber is fixedly connected to the lower end face of the support plate, a soldering tin box is arranged in the melting working chamber and the support plate in a penetrating manner, a soldering tin groove which can move back and forth and stretch left and right and a melting soldering tin storage chamber which is arranged at the lower side of the soldering tin groove and is arranged in the melting working chamber, the melting soldering tin storage chamber is communicated with the soldering tin groove through an extrusion port, soldering tin is arranged in the melting soldering tin storage chamber, a jacking plate which can move up and down is arranged on the bottom wall of the melting soldering tin storage chamber, a second air pressure rod penetrating through the bottom wall of the melting soldering tin storage chamber is fixedly connected to the lower end face of the jacking plate, a heat conducting plate arranged in the melting working chamber is fixedly arranged on the outer end face of the soldering tin box, a heat conducting motor is fixedly arranged on the bottom wall of the melting working chamber, and the heat, the right end of the soldering tin groove is provided with a squeezing plate, a telescopic motor is fixedly arranged in the supporting plate, the left end of the telescopic motor is in power connection with a telescopic shaft penetrating through the right wall of the soldering tin box, and the left end of the telescopic shaft is fixedly connected with the squeezing plate.

Further, a motor supporting plate arranged below the supporting plate is fixedly connected to the rear wall of the working cavity, the second air pressure rod penetrates through the motor supporting plate, a tin injection motor is fixedly arranged on the upper end face of the motor supporting plate, a motor shaft is dynamically connected to the upper end face of the tin injection motor, a rotating gear is fixedly arranged on the motor shaft, two gear supporting rods arranged on the left side and the right side of the second air pressure rod are fixedly connected to the motor supporting plate, a linkage gear in threaded engagement with the linkage gear is arranged on the gear supporting rods in a rotating connection mode, and the linkage gear is engaged with the rotating gear.

Furthermore, a second transmission rod vertically penetrating through the support plate is rotatably connected to the lower end face of the support rod, a second ratchet wheel and a first transmission gear arranged below the support plate are fixedly arranged on the second transmission rod, a first transmission rod arranged on the right side of the telescopic rod motor and on the left side of the second transmission rod is fixedly connected to the lower end of the support rod, and a first ratchet wheel meshed with the driving ratchet wheel and the second ratchet wheel is rotatably connected to the first transmission rod.

Furthermore, a transmission gear rod arranged on the right side of the rotary pipe cavity and the left side of the second transmission rod is rotatably connected to the lower end face of the support plate, and a second transmission gear meshed with the first transmission gear is fixedly arranged on the transmission gear rod.

Furthermore, a meshing gear arranged below the supporting plate is fixedly arranged on the outer end face of the rotating pipe cavity, the meshing gear is meshed with the second transmission gear, and the second transmission gear can drive the rotating pipe cavity to rotate when rotating.

Furthermore, a telescopic rod is connected between the left wall of the telescopic rod groove and the left end face of the clamping plate.

The invention has the beneficial effects that: the invention optimizes and improves the electric wire soldering process, for the copper wire subjected to primary soldering, only the electric wire needs to be clamped on the device to clamp the electric wire, the clamping mechanism rotates to enable the scattered copper wire to be spirally formed into a bundle while the electric wire rises, the subsequent soldering is facilitated, only the motor needs to be started to place the electric wire in the soldering tin cavity, the molten soldering tin is filled in the cavity, for the soldered electric wire, the electric wire is placed in the hot melting cavity, the soldering tin drops after melting at high temperature, and the tin is supplemented for the electric wire according to the dropping amount of the soldering tin, so that the problems that the manual soldering tin is not uniform, the shape and the form are not good, the appearance is not attractive, and for the soldered electric wire, partial soldering tin drops when the external force is applied, the soldering tin needs to be repaired, and at present, the resource-saving and convenient soldering tin.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is a schematic diagram of the structure D-D in fig. 2.

Fig. 6 is an enlarged schematic view of E in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The electric wire soldering and repairing process device described in conjunction with the attached drawings 1-6 comprises a device main body 10 and a working box 11 arranged in the device main body 10, wherein a working chamber 12 is arranged in the working box 11, a clamping transmission mechanism 13, a rotating mechanism 14 and a quantifying mechanism 15 are arranged in the working chamber 12, the clamping transmission mechanism 13 comprises a moving motor 16 fixedly connected and arranged on the top wall of the working chamber 12, a moving motor shaft 17 is arranged at the lower end of the moving motor 16 in a power rotating connection manner, a motor gear 18 is fixedly arranged on the moving motor shaft 17, a transmission rotating shaft 20 arranged on the right side of the moving motor 16 is rotatably connected and arranged on the top wall of the working chamber 12, a transmission gear 21 is fixedly arranged on the transmission rotating shaft 20, a transmission belt 19 is arranged between the transmission gear 21 and the motor gear 18 in a transmission connection manner, a slide rod 24 is fixedly connected and arranged, a slide bar groove 23 arranged between the moving motor 16 and the transmission rotating shaft 20 is fixedly arranged on the top wall of the working cavity 12, the upper end of the slide bar 24 can move left and right in the slide bar groove 23, the lower end of the slide bar 24 is fixedly connected with a slide block 26, a supporting rod 25 and a supporting plate 40 are fixedly connected between the left wall and the right wall of the working cavity 12, the slide block 26 moves left and right and is slidably arranged on the supporting rod 25, a first telescopic outer rod 27 is fixedly connected on the lower end surface of the slide block 26, a first telescopic inner rod 31 is vertically slidably arranged in the first telescopic outer rod 27, a telescopic rod motor 28 is fixedly arranged on the lower end surface of the slide block 26, a second telescopic outer rod 29 is rotatably connected on the lower end surface of the telescopic rod motor 28, a second telescopic outer rod 30 is rotatably connected in the second telescopic outer rod 29, and a fixing plate 32 is fixedly connected between the second telescopic inner rod 30 and the lower end of the first, a clamp 33 is fixedly connected to the lower end of the fixing plate 32, an electric wire 22 can be clamped in the clamp 33, an electric wire copper wire 86 is arranged in the electric wire 22, and a driving ratchet 34 is fixedly arranged on the second telescopic outer rod 29;

the rotating mechanism 14 includes a rotating hole 88 fixed on the left side of the second transmission rod 37 in the support plate 40, a rotating tube cavity 43 is rotatably connected in the rotating hole 88, a rotating groove 45 is fixedly arranged on the inner wall of the rotating hole 88, two rotating protrusions 46 which are bilaterally symmetrical are fixedly arranged on the outer end surface of the rotating tube cavity 43, a telescopic rod groove 47 communicated with the inner side of the rotating tube cavity 43 is fixedly arranged in the rotating protrusion 46, a fixed connecting rod 50 is fixedly connected on the left and right outer end surfaces of the rotating tube cavity 43, a rotating block 51 is rotatably connected on the fixed connecting rod 50, a transmission cavity 53 is arranged in the rotating block 51, a threaded hole 54 is fixedly arranged on the inner wall of the left side in the transmission cavity 53, a moving rod 55 penetrating through the right wall of the rotating block 51 and the left wall of the rotating tube cavity 43 is arranged in the threaded hole 54 in a left-, a clamping plate 49 arranged on the inner wall of the rotating tube cavity 43 is fixedly connected to the right end of the moving rod 55, a thread 56 engaged with the threaded hole 54 is arranged on the upper portion of the outer end face of the left side of the moving rod 55, a return spring 57 is fixedly connected between the left wall of the transmission cavity 53 and the left end of the moving rod 55, a first bevel gear ring 52 is fixedly arranged on the outer surface of the rotating block 51, and a second bevel gear ring 59 engaged with the first bevel gear ring 52 for transmission is fixedly arranged on the lower end face of the supporting plate 40.

A quantitative box 60 arranged on the left side of the rotary tube cavity 43 is fixedly connected to the lower end face of the support plate 40, a spring groove 61 is arranged in the quantitative box 60 and the support plate 40, a hot melting box 62 is arranged in the spring groove 61 and moves up and down, the quantitative mechanism 15 comprises a pressure transmission box 77 arranged below the support plate 40, a first air pressure cavity 78 and a second air pressure cavity 82 arranged on the left side of the first air pressure cavity 78 are arranged in the pressure transmission box 77, a transmission air pressure cavity 81 is communicated between the first air pressure cavity 78 and the second air pressure cavity 82, a first limiting plate 79 is fixedly arranged between the first air pressure cavity 78 and the transmission air pressure cavity 81, a first air pressure plate 80 is arranged in the first air pressure cavity 78 and moves up and down, the first limiting plate 79 limits the first air pressure plate 80 to move down, and a first air pressure rod 65 penetrating through the top wall of the first air pressure cavity 78 is fixedly connected to the upper end face of the first air pressure plate 80, first pneumatic rod 65 upper end fixed connection is equipped with spring plate 63, spring plate 63 with under the hot-melt box 62 fixed connection between the terminal surface is equipped with spring 64, second pneumatic chamber 82 with the fixed second limiting plate 84 that is equipped with between transmission pneumatic chamber 81, the middle and upper sliding in second pneumatic chamber 82 is equipped with second pneumatic plate 83, second limiting plate 84 restriction second pneumatic plate 83 removes downwards, fixed connection is equipped with on the second pneumatic plate 83 up end run through in the second pneumatic rod 74 of second pneumatic chamber 82 roof.

Beneficially, a melting working chamber 66 is fixedly connected to the lower end face of the support plate 40, a soldering tin box 67 is arranged in the melting working chamber 66 and the support plate 40 in a penetrating manner, a soldering tin groove 68 capable of moving back and forth and stretching left and right and a melting soldering tin storage chamber 87 arranged at the lower side of the soldering tin groove 68 and arranged in the melting working chamber 66 are arranged on the rear wall of the soldering tin box 67, the melting soldering tin storage chamber 87 is communicated with the soldering tin groove 68 through an extrusion opening 72, soldering tin is filled in the melting soldering tin storage chamber 87, a top pressing plate 73 capable of moving up and down is arranged on the bottom wall of the melting soldering tin storage chamber 87, the second air pressure rod 74 penetrating the bottom wall of the melting soldering tin storage chamber 87 is fixedly connected to the lower end face of the top pressing plate 73, a heat conduction plate 75 arranged in the melting working chamber 66 is fixedly arranged on the outer end face of the soldering tin box 67, and a heat conduction motor, the heat conduction motor 76 is electrically connected with the heat conduction plate 75, the right end of the soldering tin groove 68 is provided with the extrusion plate 69, the support plate 40 is fixedly provided with the telescopic motor 70, the left end of the telescopic motor 70 is in power connection with the telescopic shaft 71 penetrating through the right wall of the soldering tin box 67, and the left end of the telescopic shaft 71 is fixedly connected with the extrusion plate 69.

Advantageously, a motor support plate 89 arranged below the support plate 40 is fixedly connected to the rear wall of the working chamber 12, the second pneumatic rod 74 penetrates through the motor support plate 89, a tin injection motor 90 is fixedly arranged on the upper end surface of the motor support plate 89, a motor shaft 91 is dynamically connected to the upper end surface of the tin injection motor 90, a rotating gear 92 is fixedly arranged on the motor shaft 91, two gear support rods 93 arranged on the left side and the right side of the second pneumatic rod 74 are fixedly connected to the motor support plate 89, a linkage gear 94 in threaded engagement with the linkage gear 94 is rotatably connected to the gear support rods 93, and the linkage gear 94 is engaged with the rotating gear 92.

Advantageously, a second transmission rod 37 vertically penetrating through the support plate 40 is rotatably connected to the lower end surface of the support rod 25, a second ratchet 38 and a first transmission gear 39 disposed below the support plate 40 are fixedly disposed on the second transmission rod 37, a first transmission rod 35 disposed on the right side of the telescopic rod motor 28 and on the left side of the second transmission rod 37 is fixedly connected to the lower end of the support rod 25, and a first ratchet 36 engaged with the driving ratchet 34 and the second ratchet 38 is rotatably connected to the first transmission rod 35.

Advantageously, a transmission gear rod 41 arranged on the right side of the rotating pipe cavity 43 and the left side of the second transmission rod 37 is rotatably connected to the lower end surface of the support plate 40, and a second transmission gear 42 engaged with the first transmission gear 39 is fixedly arranged on the transmission gear rod 41.

Advantageously, a meshing gear 44 disposed below the support plate 40 is fixedly disposed on an outer end surface of the rotating tube cavity 43, the meshing gear 44 is meshed with the second transmission gear 42, and the second transmission gear 42 can drive the rotating tube cavity 43 to rotate when rotating.

Advantageously, a telescopic rod 48 is connected between the left wall of the telescopic rod groove 47 and the left end face of the clamping plate 49.

Sequence of mechanical actions of the whole device:

initially, the telescopic rod motor 28 in the clamping transmission mechanism 13 is not started, the moving motor 16 is not started, the second telescopic inner rod 30 is contracted in the second telescopic outer rod 29, the slide rod 24 is positioned at the rightmost end in the slide rod groove 23, the driving ratchet wheel 34 and the first ratchet wheel 36 are positioned at positions capable of being in meshing transmission, the first ratchet wheel 36 is meshed with the second ratchet wheel 38, the first transmission gear 39 is meshed with the second transmission gear 42, the second transmission gear 42 is meshed with the rotating mechanism 14, the rotating tube cavity 43 is static and does not rotate, the clamping plate 49 is tightly attached to the inner wall of the rotating tube cavity 43, the moving rod 55 is meshed in the threaded hole 54, the return spring 57 is in a natural stretching state, the first bevel gear ring 52 is statically meshed with the second bevel gear ring 59, the telescopic rod 48 is in a contracting state, the telescopic motor 70 is not started, the telescopic shaft 71 is contracted to place the extrusion plate 69 on the inner wall of the right side of the solder box 67, the, the second air pressure plate 83 is positioned at the lower side in the second air pressure cavity 82, and the air in the transmission air pressure cavity 81 is in static balance;

when the device works, the electric wire 22 without soldering tin is placed in the clamping device 33 and clamped, the telescopic rod motor 28 is started, the telescopic rod motor 28 drives the second telescopic outer rod 29 to rotate rightwards, at the moment, the state of the second telescopic outer rod 29 does not affect the motion state of the first ratchet wheel 36, the rotating second telescopic outer rod 29 drives the second telescopic inner rod 30 to extend downwards, the second telescopic inner rod 30 drives the fixing plate 32 to move downwards, the fixing plate 32 drives the first telescopic inner rod 31 in the first telescopic outer rod 27 to move downwards, the fixing plate 32 drives the electric wire 22 and the electric wire copper wire 86 in the clamping device 33 to move downwards until the electric wire copper wire 86 completely moves to the position below the clamping plate 49 in the rotating tube cavity 43, and the telescopic rod motor 28 is closed;

the telescopic rod motor 28 is started reversely, the telescopic rod motor 28 drives the second telescopic outer rod 29 to rotate leftwards, the second telescopic outer rod 29 rotating leftwards enables the second telescopic inner rod 30 to contract upwards, the second telescopic inner rod 30 contracting upwards drives the electric wire copper wire 86 to move upwards in the rotating tube cavity 43, the rotating driving ratchet wheel 34 drives the first ratchet wheel 36 to rotate rightwards on the first transmission rod 35, the rotating first ratchet wheel 36 drives the second ratchet wheel 38 meshed with the first ratchet wheel 36 to rotate, the rotating second ratchet wheel 38 drives the second transmission rod 37 to rotate, the rotating second transmission rod 37 drives the first transmission gear 39 to rotate, the rotating first transmission gear 39 drives the second transmission gear 42 meshed with the first transmission gear 39 to rotate, the rotating second transmission gear 42 drives the meshing gear 44 meshed with the second transmission gear 42 to rotate, and the rotating tube cavity 43 to rotate on the support plate 40, the rotating rotary lumen 43 drives the fixed connecting rod 50 to rotate, the rotating fixed connecting rod 50 drives the rotating block 51 to rotate, the rotating block 51 drives the first bevel gear ring 52 to rotate, at the moment, the second bevel gear ring 59 meshed with the first bevel gear ring 52 drives the first bevel gear ring 52 to rotate, the rotating first bevel gear ring 52 drives the rotating block 51 to rotate on the fixed connecting rod 50, the rotating block 51 drives the fixing rod 58 to rotate, the rotating fixing rod 58 drives the threads 56 meshed with the fixing rod 58 to enable the moving rod 55 to move rightwards, the moving rod 55 moves rightwards to drive the clamping plates 49 to move towards the middle, the clamping plates 49 moving towards the middle stretch the telescopic rod 48 rightwards, the moving rod 55 enables the two clamping plates 49 to move towards the middle to clamp the electric wire copper wire 86, when the left end of the moving rod 55 is disengaged with the fixing rod 58, the clamping plates 49 continuously clamp the electric wire copper wire 86, meanwhile, the clamping plate 49 rotating along with the rotating tube cavity 43 twists the wire copper wire 86 moving upwards into a spiral strip to facilitate the next step of soldering tin;

starting the heat conduction motor 76, wherein the heat conduction motor 76 enables the heat conduction plate 75 to be heated rapidly, and the heat conduction plate 75 heats and melts the soldering tin in the soldering tin box 67 and the melted soldering tin storage cavity 87;

when the electric wire copper wire 86 completely moves to the upper part of the rotating tube cavity 43, the telescopic rod motor 28 is closed, the electric wire copper wire 86 stops moving upwards, the moving motor 16 is started, the moving motor 16 drives the moving motor shaft 17 to rotate leftwards, the moving motor shaft 17 rotating leftwards drives the motor gear 18 to rotate leftwards, the motor gear 18 rotating leftwards drives the transmission belt 19 to transmit leftwards, the transmission belt 19 drives the transmission gear 21 to rotate, the transmission belt 19 drives the upper end of the sliding rod 24 to slide leftwards in the sliding rod groove 23, the sliding rod 24 sliding leftwards drives the sliding block 26 to slide leftwards on the supporting rod 25, when the electric wire copper wire 86 moves to the upper part of the soldering tin groove 68 through the sliding block 26, the moving motor 16 is closed, the telescopic rod motor 28 is started, the telescopic rod motor 28 drives the second telescopic outer rod 29 to rotate rightwards, the rotating, the second telescopic inner rod 30 drives the fixing plate 32 to move downwards, the fixing plate 32 drives the first telescopic inner rod 31 in the first telescopic outer rod 27 to move downwards, the fixing plate 32 drives the electric wire 22 and the electric wire copper wire 86 in the clamp 33 to move downwards into the soldering tin groove 68, the telescopic motor 70 is started, the telescopic motor 70 drives the telescopic shaft 71 to extend leftwards for a proper distance and then closes the telescopic motor 70, the soldering tin groove 68 contracts leftwards under the leftward extrusion force of the extrusion plate 69, the tin injection motor 90 is started, the tin injection motor 90 drives the motor shaft 91 to rotate, the rotating motor shaft 91 drives the rotating gear 92 to rotate, the rotating gear 92 drives the linkage gear 94 meshed with the rotating gear 92 to rotate, the rotating linkage gear 94 drives the second pneumatic rod 74 meshed with the linkage gear 94 to move upwards, and the second pneumatic rod 74 drives the second pneumatic plate 83 to move upwards and downwards in the second pneumatic cavity 82, the gas in the second air pressure cavity 82 is compressed and enters the first air pressure cavity 78 through the circulating pipeline 85, the gas entering the first air pressure cavity 78 compresses and moves the first air pressure plate 80 downwards, the second air pressure rod 74 moving upwards drives the jacking plate 73 to move upwards in the molten soldering tin storage cavity 87 to extrude molten soldering tin, the molten soldering tin is injected into the soldering tin box 67 from the extrusion opening 72 until the soldering tin completely covers the electric wire copper wire 86, the telescopic rod motor 28 is started reversely to enable the electric wire copper wire 86 to move to the upper side of the soldering tin box 67, then the tin injection motor 90 is started reversely to enable the quantifying mechanism 15 to recover the initial state, and a complete soldering process is completed;

if the repair welding needs to be performed on the electric wire welded with tin, after the clamping transmission mechanism 13 clamps the electric wire 22, the moving motor 16 is started, the transmission belt 19 moves leftwards to drive the sliding block 26 to move leftwards to move the electric wire copper wire 86 to the upper side of the hot melting box 62, the moving motor 16 is turned off, the telescopic rod motor 28 is started to place the electric wire copper wire 86 in the hot melting box 62, after the soldering tin on the electric wire copper wire 86 is melted, the soldering tin on the electric wire copper wire 86 drops on the bottom wall of the hot melting box 62, the gravity-borne hot melting box 62 presses the spring plate 63 downwards through the spring 64, the downwardly moving spring plate 63 moves the first air pressure rod 65 downwards, the downwardly moving first air pressure rod 65 moves the first air pressure rod 80 downwards, so that the second air pressure plate 83 moves upwards, the upwardly moving second air pressure plate 83 drives the second air pressure rod 74 to move upwards, at this time, the linkage gear 94 does not affect the motion state of, second pneumatic rod 74 drives roof pressure board 73 and upwards extrudes soldering tin, soldering tin is extruded into soldering tin case 67 from extrusion mouth 72 by ration, then, reverse start telescopic link motor 28 makes electric wire copper wire 86 arrange in hot melt case 62 top, restart mobile motor 16, mobile motor 16 drives electric wire copper wire 86 through the linkage directly over soldering tin case 67, close mobile motor 16, start telescopic link motor 28, close telescopic link motor 28 after moving electric wire copper wire 86 to soldering tin case 67 in, start telescopic link motor 70, telescopic link motor 70 drives telescopic shaft 71 and moves left, extrusion board 69 extrudees molten soldering tin, after soldering tin all covered electric wire copper wire 86, reverse start telescopic link motor 28, make electric wire copper wire 86 get back to soldering tin case 67 top, accomplish the repair welding.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a wire soldering tin and repair process units, includes the device main part and locates the work box in the device main part, be equipped with the working chamber in the work box, its characterized in that: the automatic feeding device is characterized in that a clamping transmission mechanism, a rotating mechanism and a quantifying mechanism are arranged in the working chamber, the clamping transmission mechanism comprises a fixed connection arranged on a movable motor on the top wall of the working chamber, the lower end of the movable motor is provided with a movable motor shaft in a power rotating connection mode, a motor gear is fixedly arranged on the movable motor shaft, a transmission rotating shaft arranged on the right side of the movable motor is arranged on the top wall of the working chamber in a rotating connection mode, a transmission gear is fixedly arranged on the transmission rotating shaft, a transmission belt is arranged between the transmission gear and the motor gear in a transmission connection mode, a sliding rod is fixedly connected onto the transmission belt, a sliding rod is fixedly arranged on the top wall of the working chamber and arranged between the movable motor and the transmission rotating shaft, the upper end of the sliding rod can move in the sliding rod groove, the lower end of the sliding, The sliding block is arranged on the supporting rod in a sliding mode in a left-right moving mode, a first telescopic outer rod is fixedly connected to the lower end face of the sliding block, a first telescopic inner rod is arranged in the first telescopic outer rod in a sliding mode in a vertical sliding mode, a telescopic rod motor is fixedly arranged on the lower end face of the sliding block, a second telescopic outer rod is arranged on the lower end face of the telescopic rod motor in a power connection rotating mode, a second telescopic inner rod is arranged in the second telescopic outer rod in a spiral connection mode, a fixed plate is fixedly connected to the lower end of the second telescopic inner rod and the lower end of the first telescopic inner rod, a clamping device is fixedly connected to the lower end of the fixed plate, an electric wire can be clamped in the clamping device, an electric wire copper wire is arranged in the electric wire;

the rotating mechanism comprises a rotating hole which is fixedly arranged on the left side of the second transmission rod and is arranged in the support plate, a rotating tube cavity is arranged in the rotating hole in a rotating connection mode, a rotating groove is fixedly arranged on the inner wall of the rotating hole, two rotating lugs which are bilaterally symmetrical are fixedly arranged on the outer end face of the rotating tube cavity, a telescopic rod groove communicated with the inner side of the rotating tube cavity is fixedly arranged in each rotating lug, a fixed connecting rod is fixedly connected on the left outer end face and the right outer end face of the rotating tube cavity, a rotating block is arranged on the fixed connecting rod in a rotating connection mode, a transmission cavity is arranged in each rotating block, a threaded hole is fixedly arranged on the inner wall on the left side in the transmission cavity, a moving rod penetrating through the right wall of each rotating block and the left wall of the rotating tube cavity is arranged in the threaded, the upper part of the outer end face on the left side of the moving rod is provided with a thread meshed with the threaded hole, a reset spring is fixedly connected between the left wall of the transmission cavity and the left end of the moving rod, a first bevel gear ring is fixedly arranged on the outer surface of the rotating block, a second bevel gear ring in meshed transmission with the first bevel gear ring is fixedly arranged on the lower end face of the supporting plate, a metering box arranged on the left side of the rotating tube cavity is fixedly connected on the lower end face of the supporting plate, a spring groove is arranged in the metering box and the supporting plate, a hot melting box is arranged in the spring groove in a vertically moving manner, the metering mechanism comprises a pressure transmission box arranged below the supporting plate, a first air pressure cavity and a second air pressure cavity arranged on the left side of the first air pressure cavity are arranged in the pressure transmission box, a transmission air pressure cavity is communicated with the second air pressure cavity, and a first limiting plate is fixedly arranged between the first air pressure cavity and the transmission, the hot melt box is characterized in that a first air pressure plate is arranged in the first air pressure cavity in a sliding mode from top to bottom, the first limiting plate limits the first air pressure plate to move downwards, a first air pressure rod penetrating through the top wall of the first air pressure cavity is fixedly connected to the upper end face of the first air pressure plate, a spring plate is fixedly connected to the upper end of the first air pressure rod, a spring is fixedly connected to the lower end face of the hot melt box and arranged between the upper end face of the hot melt box, a second limiting plate is fixedly arranged between the second air pressure cavity and the transmission air pressure cavity, a second air pressure plate is arranged in the second air pressure cavity in a sliding mode from top to bottom, the second limiting plate limits the second air pressure plate to move downwards, and a second air pressure rod penetrating through the top wall of the second air pressure cavity is.

2. The apparatus for soldering and repairing electric wires according to claim 1, wherein: the lower end face of the support plate is fixedly connected with a melting working cavity, the melting working cavity and the support plate are internally provided with a soldering tin box in a penetrating way, the rear wall of the soldering tin box is provided with a soldering tin groove which moves back and forth and can stretch left and right and a melting soldering tin storage cavity which is arranged at the lower side of the soldering tin groove and is arranged in the melting working cavity, the melting soldering tin storage cavity is communicated with the soldering tin groove through an extrusion port, soldering tin is arranged in the melting soldering tin storage cavity, the bottom wall of the melting soldering tin storage cavity is provided with a jacking plate which moves up and down, the lower end face of the jacking plate is fixedly connected with a second air pressure rod which penetrates through the bottom wall of the melting soldering tin storage cavity, the outer end face of the soldering tin box is fixedly provided with a heat conducting plate which is arranged in the melting working cavity, the bottom wall of, the right end of the soldering tin groove is provided with a squeezing plate, a telescopic motor is fixedly arranged in the supporting plate, the left end of the telescopic motor is in power connection with a telescopic shaft penetrating through the right wall of the soldering tin box, and the left end of the telescopic shaft is fixedly connected with the squeezing plate.

3. The apparatus for soldering and repairing electric wires according to claim 1, wherein: the rear wall of the working cavity is fixedly connected with a motor supporting plate arranged below the supporting plate, the second air pressure rod penetrates through the motor supporting plate, a tin injection motor is fixedly arranged on the upper end surface of the motor supporting plate, a motor shaft is dynamically connected and arranged on the upper end surface of the tin injection motor, a rotating gear is fixedly arranged on the motor shaft, two gear supporting rods arranged on the left side and the right side of the second air pressure rod are fixedly connected and arranged on the motor supporting plate, a linkage gear in threaded engagement with the linkage gear is rotatably connected and arranged on the gear supporting rods, and the linkage gear is engaged with the rotating gear.

4. The apparatus for soldering and repairing electric wires according to claim 1, wherein: the lower end face of the supporting rod is rotatably connected with a second transmission rod which vertically penetrates through the supporting plate, a second ratchet wheel and a first transmission gear which is arranged below the supporting plate are fixedly arranged on the second transmission rod, the lower end of the supporting rod is fixedly connected with a first transmission rod which is arranged on the right side of the telescopic rod motor and on the left side of the second transmission rod, and a first ratchet wheel which is meshed with the driving ratchet wheel and the second ratchet wheel is rotatably connected on the first transmission rod.

5. The apparatus for soldering and repairing electric wires according to claim 1, wherein: and the lower end face of the supporting plate is rotatably connected with a transmission gear rod arranged on the right side of the rotating pipe cavity and the left side of the second transmission rod, and a second transmission gear meshed with the first transmission gear is fixedly arranged on the transmission gear rod.

6. The apparatus for soldering and repairing electric wires according to claim 1, wherein: and a meshing gear arranged below the supporting plate is fixedly arranged on the outer end face of the rotating pipe cavity, the meshing gear is meshed with the second transmission gear, and the second transmission gear can drive the rotating pipe cavity to rotate when rotating.

7. The apparatus for soldering and repairing electric wires according to claim 1, wherein: and a telescopic rod is connected between the left wall of the telescopic rod groove and the left end face of the clamping plate.