CN111129901A - Device for connecting cables and wires - Google Patents

Abstract

The invention discloses a device for connecting cables and wires, which comprises an outer shell, wherein a lower displacement cavity is arranged in the outer shell, a gear cavity is arranged on the left side of the lower displacement cavity, an upper moving cavity is arranged above the lower displacement cavity, a wire stripping sliding cavity is arranged on the front side of the lower displacement cavity, a cable pipe is arranged in the lower displacement cavity, a lower chute is arranged on the lower end surface of the cable pipe, a lower pressing block is arranged in the cable pipe and is slidably arranged in the lower chute on the lower end surface of the cable pipe, an isolating block is fixedly arranged on the lower end surface of the lower displacement cavity, clamping components are symmetrically arranged on the left side and the right side along the central line of the isolating block, the device is convenient to operate, two cables can be better connected, the diameter of the cable can be selected according to the three most common diameters, the diameter of the wire stripping knife block can be switched according to the required diameter of the cable, and, the connection is more fixed and is not easy to separate.

Description

Device for connecting cables and wires

Technical Field

The invention relates to the technical field of wire connection, in particular to a device for connecting cables and wires.

Background

Cable wires generally use in our life, but to their connection, most people still peel off both ends, carry out the two copper wires that leak out and hold between the fingers the copper wire together with the hand, then bind with raw adhesive tape, but the effect of holding between the fingers usually is not good to the unskilled people of gimmick, and the influence makes them separate and causes very big trouble and danger through a period of time or external force, also takes very much time simultaneously to need a better more simple and convenient connected mode.

Disclosure of Invention

In view of the above technical deficiencies, the present invention provides a device for connecting cables and wires, which overcomes the above drawbacks.

The device for connecting the cable and the electric wire comprises an outer shell, wherein a lower displacement cavity is arranged in the outer shell, a gear cavity is arranged on the left side of the lower displacement cavity, an upper moving cavity is arranged above the lower displacement cavity, a wire stripping sliding cavity is arranged on the front side of the lower displacement cavity, a cable pipe is arranged in the lower displacement cavity, a lower sliding chute is arranged on the lower end surface of the cable pipe, a lower pressing block is arranged in the cable pipe and is slidably arranged in the lower sliding chute on the lower end surface of the cable pipe, an isolating block is fixedly arranged on the lower end surface of the lower displacement cavity, and clamping components are symmetrically arranged on the left side and the right side of the central line of the;

the cable pipe is provided with a welding cavity close to the isolating block, an inclined waste cavity is arranged between the left welding cavity and the right welding cavity, a tin block cavity is arranged above the inclined waste cavity, a tin block is arranged on the tin block cavity in an upward way, a welding pipe is arranged between the lower part of the tin block cavity and the inclined waste cavity, the front side of the tin block cavity is provided with an opening and communicated with the welding gun cavity, a welding gun is arranged in the welding gun cavity, a connecting rod is dynamically arranged above the welding gun, a switch is fixedly arranged above the connecting rod, a separation cavity is arranged on the rear side of the cable pipe, and the opening of the separation cavity faces backwards;

the inner side of the separation cavity is provided with a separation limiting block, the separation cavity is internally provided with a circular tube for a cable to enter, the separation limiting block is fixedly connected with a separation spring below the separation limiting block, the lower side of the separation spring is fixedly arranged on the lower end face of the separation cavity, the rear side of the separation limiting block is fixedly provided with a separation pressing block right above the separation pressing groove, the middle of the cable tube is provided with a clamping groove, the outer side of the clamping groove is stacked along the central line of the isolation block to form a peeling assembly, and the inclined waste material cavity inclines backwards and is positioned above the isolation block. The centerline of the spacer.

Preferably, the clamping assembly comprises the lower displacement cavity and a part in the lower displacement cavity, a sliding groove is arranged in the lower pressing block, one side of the sliding groove, which is far away from the central line of the isolating block, is provided with a transmission rack, the transmission rack is simultaneously and slidably mounted in the lower sliding block fixedly mounted in the lower end wall of the lower displacement cavity, a first gear is connected with the gear rack above the transmission rack, the first gear is fixedly mounted on a first shaft, the front end and the rear end of the first shaft are respectively and rotatably mounted in the front end wall and the rear end wall of the gear cavity, a second gear fixedly mounted on the first shaft is arranged on the rear side of the first gear, a lower pressing rack is connected to one side of the gear rack, which is close to the central line of the isolating block, the lower pressing rack extends into the cable duct, and a lower connecting rod is fixedly mounted above, a lower connecting rod is fixedly arranged above the lower connecting rod, an upper connecting rod is fixedly arranged at the front side of the lower connecting rod, an upper connecting rod is fixedly arranged at the rear side of the upper connecting rod, an upper transmission rack is fixedly arranged at the rear side of the upper connecting rod, an upper sliding block is fixedly arranged on the end wall of the upper moving cavity, the upper transmission rack is slidably arranged in the upper sliding block, a gear rack below the upper transmission rack is connected with a third gear which is fixedly arranged on a second shaft, the front end and the rear end of the second shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the upper moving cavity, the front side of the third gear is provided with a fourth gear fixedly arranged on the second shaft, a fifth rack meshed and connected with the fourth gear teeth and teeth is arranged on the fourth gear close to the central line of the isolation block, the fifth rack is slidably mounted on the end wall of the upper moving chamber and extends into the cable duct.

Preferably, the peeling assembly comprises a motor fixedly installed in the front end wall of the wire stripping sliding cavity, a third shaft located in the wire stripping sliding cavity is dynamically installed on the rear side of the motor, a sixth gear is fixedly installed on the third shaft, a gear rack above the sixth gear is meshed with a displacement rack, a rack fixing block is fixedly installed above the displacement rack, a fixing rod is fixedly installed above the rack fixing block, the fixing rod is slidably installed and fixedly installed in the left rear end face of the sliding block on the front end face of the wire stripping sliding cavity, a cylinder cavity is arranged in the fixing rod, an air pump is fixedly installed in the front end wall of the cylinder cavity, an air cylinder is dynamically installed on the rear side of the air pump, an air cylinder is fixedly installed on the rear side of the air cylinder, and clamping components are symmetrically arranged up and down along the center line.

Preferably, the clamping part comprises a displacement fixed block which is slidably mounted on the upper part, a lower displacement plate is slidably mounted in one end of the central line far away from the fixed rod, a lower displacement rod is rotatably mounted on the upper end surface of the displacement fixed block by a fixed rotating shaft, one end of the central line far away from the lower displacement rod is rotatably mounted on the fixed rotating shaft on the fixed rod, an upper displacement rod is rotatably mounted on the lower end surface of the displacement fixed block by the fixed rotating shaft, one end of the upper displacement rod near the central line is rotatably mounted on the fixed rotating shaft on the lower displacement plate, a left displacement plate is fixedly mounted at one end of the lower displacement plate near the central line, a motor is fixedly mounted at one end of the left displacement plate far away from the central line, a fourth shaft is dynamically mounted at one end of the motor near the central line, and is rotatably mounted in the, and a second wire stripping cutter block, a third wire stripping cutter block and a first wire stripping cutter block are uniformly and fixedly arranged on the circumference of one surface of the fixing plate, which is close to the center line, and the second wire stripping cutter block is positioned above and below the clamping groove.

The beneficial effects are that: the device is convenient to operate, can better connect two cables, can select the diameter of the cable corresponding to three most common diameters, can switch the diameter of the wire stripping cutter block corresponding to the required diameter of the cable, adopts the tin block melting to carry out fixed conductive connection, is more fixed in connection and is not easy to separate.

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.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic view of C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic view of D-D of FIG. 1 according to an embodiment of the present invention;

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: 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 device for connecting cables and wires comprises an outer shell 10, wherein a lower displacement cavity 17 is arranged in the outer shell 10, a gear cavity 30 is arranged at the left side of the lower displacement cavity 17, an upper moving cavity 21 is arranged above the lower displacement cavity 17, a wire stripping sliding cavity 59 is arranged at the front side of the lower displacement cavity 17, a cable pipe 32 is arranged in the lower displacement cavity 17, a lower chute is arranged on the lower end surface of the cable pipe 32, a lower pressing block 15 is arranged in the cable pipe 32 and is slidably mounted in the lower chute on the lower end surface of the cable pipe 32, an isolation block 13 is fixedly mounted on the lower end surface of the lower displacement cavity 17, clamping components are symmetrically arranged along the central line of the isolation block 13, a welding cavity 20 is arranged on the cable pipe 32 close to the isolation block 13, an inclined waste cavity 57 is arranged between the left welding cavity 20 and the right welding cavity 20, a tin block cavity 65 is arranged above the inclined waste cavity 57, and the tin block cavity 65 is opened upwards and is provided, a welding pipe 19 is arranged between the lower portion of the tin block cavity 65 and the inclined waste material cavity 57, the front side of the tin block cavity 65 is provided with an opening and communicated with the welding gun cavity 64, the welding gun 63 is arranged in the welding gun cavity 64, a connecting rod 62 is dynamically installed above the welding gun 63, a switch 12 is fixedly arranged above the connecting rod 62, a separation cavity 67 is arranged at the rear side of the cable tube 32, the opening of the separation cavity 67 faces backwards, a lower pressure groove 69 is arranged in the lower end wall of the separation cavity 67, a separation limiting block 68 is arranged in the separation cavity 67 and is connected with the cable tube 32 to form a round pipe for the cable 31 to enter, a separation spring 70 is fixedly connected below the separation limiting block 68, the lower portion of the separation spring 70 is fixedly installed on the lower end face of the separation cavity 67, a separation pressing block 66 located right above the lower pressure groove 69 is fixedly installed at the rear side of the separation limiting, the middle of the cable tube 32 is provided with a clamping groove 61, the outer side of the clamping groove 61 is stacked along the central line of the isolation block 13 to be provided with a husking assembly, and the inclined waste cavity 57 inclines backwards and is positioned above the isolation block 13. Center line of spacer 13

Advantageously, the clamping assembly includes the lower displacement cavity 17 and includes the components in the lower displacement cavity 17, a sliding slot 16 is provided in the lower pressing block 15, a driving rack 28 is slidably mounted on one side of the sliding slot 16 away from the center line of the spacer 13, the driving rack 28 is simultaneously slidably mounted in the lower sliding block 18 fixedly mounted in the lower end wall of the lower displacement cavity 17, a first gear 25 is connected to a rack and pinion above the driving rack 28, the first gear 25 is fixedly mounted on a first shaft 27, the front end and the rear end of the first shaft 27 are respectively rotatably mounted in the front end wall and the rear end wall of the gear cavity 30, a second gear 26 fixedly mounted on the first shaft 27 is provided on the rear side of the first gear 25, a lower pressing rack 24 is connected to a rack and pinion on one side of the second gear 26 close to the center line of the spacer 13, the lower pressing rack 24 extends into the cable duct 32, connecting rod 29 under transmission rack 28 top fixed mounting has, connecting rod 29 top fixed mounting has connecting rod 36 down, connecting rod 36 front side fixed mounting has last connecting rod 33 down, it has last connecting rod 35 to go up connecting rod 33 rear side fixed mounting, it has last transmission rack 34 to go up connecting rod 35 rear side fixed mounting, fixed mounting has last slider 22 on going up the movable chamber 21 end wall, it has last slider 22 to go up transmission rack 34 slidable mounting, it is connected with third gear 72 to go up transmission rack 34 below rack gear rack, third gear 72 fixed mounting is on secondary shaft 71, secondary shaft 71 front and back end rotates respectively and installs in the front and back end wall of going up movable chamber 21, third gear 72 front side is equipped with fixed mounting in the fourth gear 73 on secondary shaft 71, fourth gear 73 is close to the central line of spacing block 13 is equipped with the fifth rack 74 of being connected with fourth gear 73 rack and pinion meshing, the fifth rack 74 is slidably mounted on the end wall of the upper moving chamber 21 and extends into the cable duct 32.

Advantageously, the peeling assembly comprises a motor 55 fixedly installed in the front end wall of the wire stripping sliding cavity 59, a third shaft 54 located in the wire stripping sliding cavity 59 is dynamically installed on the rear side of the motor 55, a sixth gear 53 is fixedly installed on the third shaft 54, a displacement rack 52 is connected to the gear rack above the sixth gear 53 in a meshing manner, a rack fixing block 51 is fixedly installed above the displacement rack 52, a fixing rod 49 is fixedly installed above the rack fixing block 51, the fixing rod 49 is slidably installed and fixedly installed in the left rear end face of the sliding block 56 on the front end face of the wire stripping sliding cavity 59, a cylinder cavity 60 is arranged in the fixing rod 49, an air pump 58 is fixedly installed in the front end wall of the cylinder cavity 60, an air cylinder 50 is dynamically installed on the rear side of the air pump 58, a 75 is fixedly installed on the rear side of the air cylinder 50, and clamping components are vertically symmetrical along the center line of the 75, the clamping part includes slidable mounting and is in displacement fixed block 47 on 75, dead lever 49 is kept away from one end slidable mounting of 75 central lines has lower displacement plate 45, displacement fixed block 47 up end is rotated by fixed pivot and is installed down displacement pole 48, displacement pole 48 keeps away from down the one end of 75 central lines is rotated and is installed and be located on the fixed pivot on dead lever 49, displacement fixed block 47 down the terminal surface by fixed pivot rotate install displacement pole 46, it is close to go up displacement pole 46 the one end of 75 central lines is rotated and is installed and be located down on the fixed pivot on displacement plate 45, displacement plate 45 is close to down the one end fixed mounting of 75 central lines has left displacement plate 44, left displacement plate 44 keeps away from the one end fixed mounting of 75 central lines has motor 43, motor 43 is close to the one end power mounting of 75 central lines has fourth shaft 42, the fourth shaft 42 is rotatably installed in the left displacement plate 44 and is fixedly installed with a fixing plate 40, a second wire stripping block 41, a third wire stripping block 39 and a first wire stripping block 38 are uniformly and fixedly installed on the circumference of one surface of the fixing plate 40 close to the center line of the clamp 75, and the second wire stripping block 41 is located above and below the clamping groove 61.

When the work is started:

1. the cable 31 is first put into the cable tube 32, then the diameter of the stripping blade block is selected according to the diameter of the cable 31, the motor 43 is started to enable the stripping blade block with the corresponding diameter to be positioned above and below the clamping groove 61, and then the motor 43 is turned off.

2. Then the cable 31 moves to the right until it abuts against the lower pressing block 15, so that the lower pressing block 15 moves to the right and downwards, the lower pressing block 15 moves to the right and downwards to drive the transmission rack 28 to move to the right, the transmission rack 28 moves to the right to rotate the first gear 25, the first gear 25 rotates to drive the first shaft 27 to rotate, the first shaft 27 rotates to drive the second gear 26 to rotate, and the second gear 26 rotates to drive the lower pressing rack 24 to move upwards.

3. The driving rack 28 moves rightwards to rotate the first gear 25 and simultaneously drive the upper driving rack 34 to move rightwards through the lower connecting rod 29 and the lower connecting rod 36 and the upper connecting rod 33 and the upper connecting rod 35, the upper driving rack 34 moves rightwards to rotate the third gear 72, the third gear 72 rotates to drive the second shaft 71 to rotate, the second shaft 71 rotates to drive the fourth gear 73 to rotate, the fourth gear 73 rotates to drive the fifth rack 74 to move downwards, and the fifth rack 74 moves downwards and the pressing rack 24 moves upwards to clamp the cable 31.

4. When the cable 31 cannot extend inwards, the air pump 58 is started, the air pump 58 drives the air cylinder 50 to move, the air cylinder 50 moves backwards to drive the cylinder 75 to move backwards, the cylinder 75 moves backwards to enable the upper clamping component and the lower clamping component to pass through, so that the displacement fixing block 47, the upper displacement rod 46 and the lower displacement rod 48 are driven by the connecting rod to move to drive the lower displacement plate 45 to move upwards and downwards, the lower displacement plate 45 moves upwards and downwards to drive the left displacement plate 44 to move upwards and downwards, and the left displacement plate 44 moves upwards and downwards to extend into the clamping groove 61 to clamp the cable 31.

5. When the clamping member clamps the cable 31, the motor 55 is started, the motor 55 drives the third shaft 54 to rotate, the third shaft 54 rotates to rotate the sixth gear 53, the sixth gear 53 rotates to move the displacement rack 52 to the right, the displacement rack 52 moves rightward through the rack fixing block 51 to move the fixing lever 49 rightward in the slide block 56, the fixing lever 49 is moved rightward in the sliding block 56 to peel the insulation of the cable 31 down into the inclined waste chamber 57, when all the strips are stripped, the motor 55 is started in a reverse rotation mode, so that the fixed rod 49 moves to the left in the sliding block 56 to an initial position, then, the air pump 58 is reversely started to move the air cylinder 50 backwards so as to enable the stripping knife block to exit the clamping groove 61.

6. Then a part of the cable 31 is pulled out, then the cable 31 with another end to be connected is extended into the right clamping component, then the cable 31 moves leftwards until the cable abuts against the lower pressing block 15, so that the lower pressing block 15 moves leftwards and downwards, the lower pressing block 15 moves leftwards and downwards so as to drive the transmission rack 28 to move leftwards, the transmission rack 28 moves leftwards so as to rotate the first gear 25, the first gear 25 rotates so as to drive the first shaft 27 to rotate, the first shaft 27 rotates so as to drive the second gear 26 to rotate, and the second gear 26 rotates so as to drive the lower pressing rack 24 to move upwards.

7. The transmission rack 28 moves leftward to rotate the first gear 25, and simultaneously, the upper transmission rack 34 is driven to move leftward by the lower connecting rod 29, the lower connecting rod 36, the upper connecting rod 33 and the upper connecting rod 35, the upper transmission rack 34 moves leftward to rotate the third gear 72, the third gear 72 rotates to drive the second shaft 71 to rotate, the second shaft 71 rotates to drive the fourth gear 73 to rotate, the fourth gear 73 rotates to drive the fifth rack 74 to move downward, and the fifth rack 74 moves downward and the push-down rack 24 moves upward to clamp the cable 31.

8. When the cable 31 cannot extend inwards, the air pump 58 is started, the air pump 58 drives the air cylinder 50 to move, the air cylinder 50 moves backwards to drive the cylinder 75 to move backwards, the cylinder 75 moves backwards to enable the upper clamping component and the lower clamping component to pass through, so that the displacement fixing block 47, the upper displacement rod 46 and the lower displacement rod 48 are driven by the connecting rod to move to drive the lower displacement plate 45 to move upwards and downwards, the lower displacement plate 45 moves upwards and downwards to drive the left displacement plate 44 to move upwards and downwards, and the left displacement plate 44 moves upwards and downwards to extend into the clamping groove 61 to clamp the cable 31.

9. When the clamping member clamps the cable 31, the motor 55 is started, the motor 55 drives the third shaft 54 to rotate, the third shaft 54 rotates to rotate the sixth gear 53, the sixth gear 53 rotates to move the displacement rack 52 to the left, the displacement rack 52 moves leftwards through the rack fixing block 51 to drive the fixing rod 49 to move leftwards in the sliding block 56, the fixing lever 49 is moved leftward in the slide block 56 to peel the insulation of the cable 31 down into the inclined waste chamber 57, when all the strips are stripped, the motor 55 is started in a reverse rotation mode, so that the fixed rod 49 moves to the left in the sliding block 56 to an initial position, then, the air pump 58 is reversely started to move the air cylinder 50 backwards so as to enable the stripping knife block to exit the clamping groove 61.

10. Then, the left cable 31 is extended into the cable tube 32 again, then the switch 12 is pressed, the welding gun 63 is started through the connecting rod 62 to generate high temperature to melt the tin block 11, then the melted tin block 11 is dripped onto the left and right cables 31 to be connected through the welding tube 19, then the left and right cables 31 are electrically fixedly connected, after the completion of the melting, the welding gun 63 is closed, then the separation lower pressing block 66 is pressed to enable the separation limiting block 68 to press the separation spring 70 to move downwards, so that the connected cable 31 is taken out from the separation cavity 67, then the separation lower pressing block 66 is released, and the compressed separation spring 70 is reset against the separation limiting block 68, so that the device is reset.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (4)

1. A device for cable-to-wire connection comprising an outer housing, characterized in that: a lower displacement cavity is arranged in the outer shell, a gear cavity is arranged on the left side of the lower displacement cavity, an upper moving cavity is arranged above the lower displacement cavity, a wire stripping sliding cavity is arranged on the front side of the lower displacement cavity, a cable pipe is arranged in the lower displacement cavity, a lower sliding groove is formed in the lower end face of the cable pipe, a lower pressing block is arranged in the cable pipe and is slidably mounted in the lower sliding groove of the lower end face of the cable pipe, an isolation block is fixedly mounted on the lower end face of the lower displacement cavity, and clamping components are symmetrically arranged on the left and right sides along the central line of the isolation block;

the cable pipe is provided with a welding cavity close to the isolating block, an inclined waste cavity is arranged between the left welding cavity and the right welding cavity, a tin block cavity is arranged above the inclined waste cavity, a tin block is arranged on the tin block cavity in an upward way, a welding pipe is arranged between the lower part of the tin block cavity and the inclined waste cavity, the front side of the tin block cavity is provided with an opening and communicated with the welding gun cavity, a welding gun is arranged in the welding gun cavity, a connecting rod is dynamically arranged above the welding gun, a switch is fixedly arranged above the connecting rod, a separation cavity is arranged on the rear side of the cable pipe, and the opening of the separation cavity faces backwards;

break away from the intracavity and be equipped with down the indent in the lower endwall, break away from the intracavity be equipped with break away from the stopper with the cable duct meets and forms the pipe that supplies the cable to get into, break away from stopper below fixedly connected with and breaks away from the spring, break away from spring below fixed mounting break away from on the chamber lower extreme face, break away from stopper rear side fixed mounting and have being located briquetting under breaking away from directly over the indent down, be equipped with in the middle of the cable duct and press from both sides tight groove, press from both sides tight groove outside edge the central line of spacing block is piled up to be equipped with the subassembly of shelling, slope waste material chamber inclines backward and is located the spacing block top, the central line.

2. A device for cable-to-wire connection according to claim 1, characterized in that: the clamping assembly comprises the lower displacement cavity and a part in the lower displacement cavity, a sliding groove is arranged in the lower pressing block, one side of the sliding groove, which is far away from the central line of the isolating block, is provided with a transmission rack, the transmission rack is simultaneously and slidably arranged in the lower sliding block fixedly arranged in the lower end wall of the lower displacement cavity, a gear rack above the transmission rack is connected with a first gear, the first gear is fixedly arranged on a first shaft, the front end and the rear end of the first shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the gear cavity, the rear side of the first gear is provided with a second gear fixedly arranged on the first shaft, one side of the gear rack, which is close to the central line of the isolating block, is connected with a lower pressing rack, the lower pressing rack extends into the cable tube, a lower connecting rod is fixedly arranged above the transmission rack, and a lower connecting, connecting rod front side fixed mounting has last connecting rod down, it has last connecting rod to go up connecting rod rear side fixed mounting, it has last transmission rack to go up connecting rod rear side fixed mounting, it has last sliding block to go up fixed mounting on the chamber end wall to move, it installs to go up transmission rack slidable mounting in last sliding block, it is connected with the third gear to go up transmission rack below rack tooth strip, third gear fixed mounting is on the secondary shaft, the secondary shaft front and back end rotates respectively to be installed in the front and back end wall of last removal chamber, the third gear front side is equipped with fixed mounting and is in the epaxial fourth gear of secondary, the fourth gear is close to the central line of spacing block is equipped with the fifth rack of being connected with fourth gear tooth strip meshing, fifth rack slidable mounting is in on the end wall of last removal chamber and extend to in the cable duct.

3. A device for cable-to-wire connection according to claim 1, characterized in that: the wire stripping assembly comprises a motor fixedly mounted in the front end wall of the wire stripping sliding cavity, a third shaft in the wire stripping sliding cavity is mounted on the rear side of the motor in a power-driven mode, a sixth gear is fixedly mounted on the third shaft, a gear rack above the sixth gear is meshed with a displacement rack, a rack fixing block is fixedly mounted above the displacement rack, a fixing rod is fixedly mounted above the rack fixing block, the fixing rod is mounted and fixedly mounted in the left rear end face of the sliding block on the front end face of the wire stripping sliding cavity in a sliding mode, a cylinder cavity is arranged in the fixing rod, an air pump is fixedly mounted in the front end wall of the cylinder cavity, an air cylinder is mounted on the rear side of the air pump in a power-driven mode, an air cylinder is fixedly mounted on the rear side of the air cylinder.

4. A device for cable-to-wire connection according to claim 3, characterized in that: the clamping part comprises a displacement fixed block which is slidably mounted on the clamping part, a lower displacement plate is slidably mounted in one end of the central line far away from the fixed rod, the upper end surface of the displacement fixed block is rotatably mounted with a lower displacement rod by a fixed rotating shaft, one end of the central line far away from the lower displacement rod is rotatably mounted on the fixed rotating shaft on the fixed rod, the lower end surface of the displacement fixed block is rotatably mounted with an upper displacement rod by the fixed rotating shaft, one end of the upper displacement rod near the central line is rotatably mounted on the fixed rotating shaft on the lower displacement plate, one end of the lower displacement plate near the central line is fixedly mounted with a left displacement plate, one end of the left displacement plate far away from the central line is fixedly mounted with a motor, one end of the motor near the central line is dynamically mounted with a fourth shaft, and the fourth shaft is, and a second wire stripping cutter block, a third wire stripping cutter block and a first wire stripping cutter block are uniformly and fixedly arranged on the circumference of one surface of the fixing plate, which is close to the center line, and the second wire stripping cutter block is positioned above and below the clamping groove.

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