CN109904701B - Automatic cable location cable connector clamp for equipment - Google Patents

Abstract

The invention relates to a cable positioning cable plug connector clamp for an automatic device, which comprises an upper pressing clamp and a lower pressing clamp; forming inner grooves are arranged in the upper pressing clamp and the lower pressing clamp; the upper pressing pliers are provided with a connector piece jacking claw mechanism, the connector piece jacking claw mechanism comprises two pushing swing arms and connector piece supporting bulges arranged at the tail ends of the pushing swing arms, and the connector piece supporting bulges are in claw shapes extending back to the extrusion bulges; the middle parts of the two groups of pushing swing arms are provided with pushing swing arm driving blocks; the lower pressing pliers are provided with an extrusion cavity, a supporting block is arranged in the extrusion cavity, and the supporting block is rotationally connected to the inner wall of the extrusion cavity; a driving column for driving the supporting block to rotate is arranged in the lower pressing clamp; the sliding variable-resistance connecting structure is arranged between the upper pressing clamp and the lower pressing clamp, the cable pressing mechanism is arranged in the middle of the upper pressing clamp, and the pushing rod is arranged on the lower pressing clamp and used for clamping the back of the cable plug piece.

Description

Automatic cable location cable connector clamp for equipment

Technical Field

The invention relates to a cable positioning cable plug connector clamp for an automatic device, and belongs to the field of cable pressing clamps.

Background

Traditional cable terminal joint pressure pincers are the dogtooth and the concave tooth of fixed shape generally, and the combination through dogtooth and concave tooth realizes bending and then realizing the clamp tightly to the cable terminal, but because concave tooth and dogtooth are fixed, and when the rapid grip tight, lack the stable fixed to the terminal, so cause the terminal head to bend very easily, the unable normal tight condition of clamp of cable brings great influence to product quality.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the technical problem of unstable clamping quality of the cable terminal connector in the prior art is solved, and the cable positioning cable plug connector clamp for the automatic equipment is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a cable positioning cable plug connector clamp for an automatic device comprises an upper pressing clamp and a lower pressing clamp; the upper pressing clamp and the lower pressing clamp are oppositely arranged; the upper pressing pliers comprise an upper pressing jaw, the upper pressing jaw comprises a forming inner groove A, and a bent convex part is arranged in the middle of the forming inner groove A; the upper pressing pliers are provided with a joint piece jacking claw mechanism, a pushing cavity is arranged in the upper pressing pliers, the joint piece jacking claw mechanism comprises two groups of jacking swing arms arranged in the pushing cavity, the two groups of jacking swing arms are arranged in a mirror symmetry mode, the top ends of the jacking swing arms are rotatably connected to the top ends of the pushing cavity, the tail ends of the jacking swing arms extend out of an upper pressing jaw, an extrusion bulge with a triangular cross section is arranged between the middle parts of the upper pressing jaw and the extending positions of the tail ends of the jacking swing arms, a joint piece supporting bulge is arranged at the tail end of each jacking swing arm, the joint piece supporting bulge is in a claw shape extending back to the extrusion bulge, a jacking swing arm driving block is arranged at the middle parts of the two groups of jacking swing arms, and the middle part of each jacking swing arm driving block is connected to a guide rod arranged at the bottom of, one end of the pushing swing arm driving block is connected to a guide rod in a sliding mode, the guide rod is fixed to the bottom of the pushing cavity, two groups of pushing inclined planes are arranged on two sides of the pushing swing arm driving block in a mirror symmetry mode, and the distance from the bottom, close to one side of the upper pressure jaw, of each pushing inclined plane to the guide rod is larger than the distance from the top of each pushing inclined plane to the guide rod; a contact ejector rod used for being in contact with the pushing inclined plane is arranged at the bottom of the pushing swing arm; the pushing swing arm driving block pushes the pushing swing arm to swing when sliding along the sliding rod; the upper pressing pliers are further provided with an upper pushing seat, the upper pushing seat is connected to the top of the upper pressing pliers in a sliding mode through a plurality of sliding rod assemblies A, each sliding rod assembly A is an elastic sliding rod, the middle of each upper pushing seat is connected with a sliding rod in a sliding mode, each sliding rod is connected to the top of a pushing swing arm driving block through a connecting rod, and the top end of each sliding rod is in contact with the upper pushing seat; a cable positioning part is further arranged at the position, corresponding to the bending protruding part, in the middle of the forming inner groove A, and comprises a cable pressing head, a strip-shaped cable positioning groove is formed in the end part of the cable pressing head, a lifting and contracting rod is arranged at the tail end of the cable pressing head, the lifting and contracting rod is inserted into the guide rod, and two sides of the cable pressing head are connected to the tail end of the pushing swing arm through guide reeds; the lower pressing pliers comprise a lower pressing jaw, the lower pressing jaw comprises a forming inner groove B, and an inwards concave arc-shaped bending part is arranged in the forming inner groove B; the inner side of the lower pressing pliers, which corresponds to the lower pressing jaw, is provided with a pressing cavity, a connector piece supporting mechanism is arranged in the pressing cavity, the supporting mechanism comprises two supporting blocks which are symmetrically arranged, the supporting blocks are fan-shaped, the circle center of the fan-shaped supporting blocks is rotationally connected to the inner wall of the pressing cavity, and the fan-shaped outer edges of the two supporting blocks are arranged in a back-to-back manner; a pushing opening for the fan-shaped end part of the supporting block to extend out is formed between the bottom surface of the forming inner groove B and the extrusion cavity; push arms for pushing the supporting blocks are symmetrically arranged in the extrusion cavity and comprise an extension part and a connecting part, wherein the extension part is used for being in contact with the supporting blocks, and the connecting part is cylindrical and is rotatably connected in the extrusion cavity; the bottom of the extrusion cavity is connected with a lower pushing seat, the lower pushing seat is connected with the bottom of the lower pressing clamp through a sliding rod component B, the middle of the lower pushing seat is provided with a driving column, two side walls of the driving column are provided with friction blocks, and the friction blocks are in transmission connection with the connecting parts of the pushing arms through teeth; the middle part of the driving column is also provided with a push-out rod, the middle part of the top of the extrusion cavity is provided with a sliding hole penetrating through the forming inner groove B, and the diameter of the push-out rod is smaller than that of the sliding hole; the side wall of the upper pressing clamp is also provided with a contact unit parallel to the longitudinal axis of the upper pressing clamp, the contact unit comprises a contact plate, and a plurality of contact blocks are arranged on the contact plate in a linear array manner; the side wall of the lower pressing clamp is connected with a contact connecting plate through an expansion seat; the contact connecting plate extends out relative to the lower pressing jaw, a strip-shaped resistance contact strip is arranged at the top of the contact connecting plate, and a point-shaped contact sheet is arranged at the bottom of the contact connecting plate; the top of the contact plate is provided with a conductive interface A, the bottom of the resistance contact strip is connected with a conductive interface B, and the contact piece is provided with a conductive interface C.

As a further improvement of the invention, an extrusion mandril is arranged on the extending part of the push arm, the end part of the extrusion mandril is spherical, and the end part of the extrusion mandril is contacted with the back part of the supporting block.

As a further improvement of the invention, the driving column of the lower pushing seat is of a hollow structure, a pushing rod inserted into the middle part of the driving column is arranged in the extrusion cavity, and the pushing rod is also of a hollow structure.

As a further improvement of the invention, the sliding rod assembly A comprises a sliding groove A arranged in the upper pushing seat and a sliding rod A vertically and slidably connected in the sliding groove A, the sliding rod A is connected to the upper pressing pliers, and the sliding rod A is elastically connected with the bottom of the sliding groove A through a spring; the sliding rod component B comprises a sliding groove B arranged in the lower push seat and a sliding rod B vertically connected in the sliding groove B in a sliding mode, the sliding rod B is connected to the lower pressing pliers, and the sliding rod B is elastically connected with the bottom of the sliding groove B through a spring.

As a further improvement of the invention, the two transverse ends of the cable pressing head are also movably connected with the connector piece supporting bulges through the connecting rods with single rotating points.

As a further improvement of the invention, the extrusion convex part also comprises a plurality of zigzag auxiliary convex parts; and a plurality of anti-skid rubber pads are arranged on the supporting block.

The invention has the beneficial effects that:

1. the invention realizes the stable support of the terminal piece through the edge supporting mechanism with the variable opening and the variable terminal piece, and simultaneously realizes the synchronous extrusion of two sides of the terminal piece through the supporting block with the variable angle, thereby ensuring that the left side and the right side of the whole terminal piece can be symmetrically extruded and deformed, and realizing the stable clamping of a cable; the contact plate and the contact connecting plate can realize the speed reduction and the reversing of the relative movement of the upper pressing pliers and the lower pressing pliers under different moving states of the upper pressing pliers and the lower pressing pliers, and realize automatic or semi-automatic control.

2. The cable hold-down mechanism and the ejecting mechanism that this structure set up can realize that the location and the later stage of cable compress tightly fixedly to cable connector piece and cable clamping position's stability, and are effectual, and stability is strong.

3. The extrusion ejector rods with different lengths can realize the rotary driving of the supporting blocks at different synchronous speeds by changing the length of the force arm.

4. The cooperation of lower push seat and slide bar can guarantee the coaxial stable removal between lower pressing plier and the lower push seat.

5. The supplementary bellying of cockscomb structure can guarantee to the stable centre gripping at cable connector piece both ends, and locking pine takes off, and anti-skidding callus on the sole can improve surface friction, when preventing to press from both sides tightly, the connector piece is deviate from between two supporting shoes.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1. pressing tongs upwards; 2. pressing down the pliers; 3. pushing the base upwards; 4. a lower push base; 5. pushing the swing arm driving block; 6. a connecting rod; 7. a slide bar; 8. pushing the swing arm; 9. extruding the boss; 10. contacting the ejector rod; 11. pressing the jaw upwards; 12. a support block; 13. a push arm; 14. extruding the ejector rod; 15. a drive column; 16. a friction block; 17. a slide bar assembly B; 18. a slide bar assembly A; 19. a contact connecting plate; 20. a contact block; 21. a contact pad; 22. a resistive contact strip; 23. a contact plate; 24. a slide hole; 25. pushing out the rod; 26. a cable compression head; 27. a connecting rod; 28. lifting and shrinking the rod; 29. a guide rod.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in FIG. 1, the invention relates to a cable positioning cable connector clamp for an automatic device, which comprises an upper pressing clamp and a lower pressing clamp; the upper pressing clamp and the lower pressing clamp are oppositely arranged; the upper pressing pliers comprise an upper pressing jaw, the upper pressing jaw comprises a forming inner groove A, and a bent convex part is arranged in the middle of the forming inner groove A; the upper pressing pliers are provided with a joint piece jacking claw mechanism, a pushing cavity is arranged in the upper pressing pliers, the joint piece jacking claw mechanism comprises two groups of jacking swing arms arranged in the pushing cavity, the two groups of jacking swing arms are arranged in a mirror symmetry mode, the top ends of the jacking swing arms are rotatably connected to the top ends of the pushing cavity, the tail ends of the jacking swing arms extend out of an upper pressing jaw, an extrusion bulge with a triangular cross section is arranged between the middle parts of the upper pressing jaw and the extending positions of the tail ends of the jacking swing arms, a joint piece supporting bulge is arranged at the tail end of each jacking swing arm, the joint piece supporting bulge is in a claw shape extending back to the extrusion bulge, a jacking swing arm driving block is arranged at the middle parts of the two groups of jacking swing arms, and the middle part of each jacking swing arm driving block is connected to a guide rod arranged at the bottom of, one end of the pushing swing arm driving block is connected to a guide rod in a sliding mode, the guide rod is fixed to the bottom of the pushing cavity, two groups of pushing inclined planes are arranged on two sides of the pushing swing arm driving block in a mirror symmetry mode, and the distance from the bottom, close to one side of the upper pressure jaw, of each pushing inclined plane to the guide rod is larger than the distance from the top of each pushing inclined plane to the guide rod; a contact ejector rod used for being in contact with the pushing inclined plane is arranged at the bottom of the pushing swing arm; the pushing swing arm driving block pushes the pushing swing arm to swing when sliding along the guide rod; the upper pressing pliers are further provided with an upper pushing seat, the upper pushing seat is connected to the top of the upper pressing pliers in a sliding mode through a plurality of sliding rod assemblies A, each sliding rod assembly A is an elastic sliding rod, the middle of each upper pushing seat is connected with a sliding rod in a sliding mode, each sliding rod is connected to the top of a pushing swing arm driving block through a connecting rod, and the top end of each sliding rod is in contact with the upper pushing seat; a cable positioning part is further arranged at the position, corresponding to the bending protruding part, in the middle of the forming inner groove A, and comprises a cable pressing head, a strip-shaped cable positioning groove is formed in the end part of the cable pressing head, a lifting and contracting rod is arranged at the tail end of the cable pressing head, the lifting and contracting rod is inserted into the guide rod, and two sides of the cable pressing head are connected to the tail end of the pushing swing arm through guide reeds; the lower pressing pliers comprise a lower pressing jaw, the lower pressing jaw comprises a forming inner groove B, and an inwards concave arc-shaped bending part is arranged in the forming inner groove B; the inner side of the lower pressing pliers, which corresponds to the lower pressing jaw, is provided with a pressing cavity, a connector piece supporting mechanism is arranged in the pressing cavity, the supporting mechanism comprises two supporting blocks which are symmetrically arranged, the supporting blocks are fan-shaped, the circle center of the fan-shaped supporting blocks is rotationally connected to the inner wall of the pressing cavity, and the fan-shaped outer edges of the two supporting blocks are arranged in a back-to-back manner; a pushing opening for the fan-shaped end part of the supporting block to extend out is formed between the bottom surface of the forming inner groove B and the extrusion cavity; push arms for pushing the supporting blocks are symmetrically arranged in the extrusion cavity and comprise an extension part and a connecting part, wherein the extension part is used for being in contact with the supporting blocks, and the connecting part is cylindrical and is rotatably connected in the extrusion cavity; the bottom of the extrusion cavity is connected with a lower pushing seat, the lower pushing seat is connected with the bottom of the lower pressing clamp through a sliding rod component B, the middle of the lower pushing seat is provided with a driving column, two side walls of the driving column are provided with friction blocks, and the friction blocks are in transmission connection with the connecting parts of the pushing arms through teeth; the middle part of the driving column is also provided with a push-out rod, the middle part of the top of the extrusion cavity is provided with a sliding hole penetrating through the forming inner groove B, and the diameter of the push-out rod is smaller than that of the sliding hole; the side wall of the upper pressing clamp is also provided with a contact unit parallel to the longitudinal axis of the upper pressing clamp, the contact unit comprises a contact plate, and a plurality of contact blocks are arranged on the contact plate in a linear array manner; the side wall of the lower pressing clamp is connected with a contact connecting plate through an expansion seat; the contact connecting plate extends out relative to the lower pressing jaw, a strip-shaped resistance contact strip is arranged at the top of the contact connecting plate, and a point-shaped contact sheet is arranged at the bottom of the contact connecting plate; the top of the contact plate is provided with a conductive interface A, the bottom of the resistance contact strip is connected with a conductive interface B, and the contact sheet is provided with a conductive interface C;

furthermore, an extrusion ejector rod is arranged on the extending part of the push arm, the end part of the extrusion ejector rod is spherical, and the end part of the extrusion ejector rod is in contact with the back of the supporting block;

furthermore, the driving column of the lower pushing seat is of a hollow structure, a pushing rod inserted into the middle of the driving column is arranged in the extrusion cavity, and the pushing rod is also of a hollow structure;

further, the sliding rod assembly A comprises a sliding groove A arranged in the upper pushing seat and a sliding rod A vertically and slidably connected into the sliding groove A, the sliding rod A is connected to the upper pressing pliers, and the sliding rod A is elastically connected with the bottom of the sliding groove A through a spring; the sliding rod component B comprises a sliding groove B arranged in the lower push seat and a sliding rod B vertically and slidably connected in the sliding groove B, the sliding rod B is connected to the lower pressing pliers, and the sliding rod B is elastically connected with the bottom of the sliding groove B through a spring;

furthermore, the two transverse ends of the cable pressing head are movably connected with the connector piece supporting bulges through the connecting rods at the single rotating points;

furthermore, the extrusion lug boss also comprises a plurality of sawtooth-shaped auxiliary lug bosses; and a plurality of anti-skid rubber pads are arranged on the supporting block.

In use, the apparatus may be mounted on an associated automated press, requiring the automated press to include two electrically driven drive rods; when the device is installed, an upper pushing seat and a lower pushing seat of the device are respectively connected with two driving rods, meanwhile, a contact mechanism is connected to a related control unit, the bottom end of a resistance contact bar is connected to a first output port of a bridge through the bridge, then a contact plate is connected to an input port of the bridge, a contact sheet is connected to a second output port of the bridge, a resistance threshold value of the bridge is set, when the resistance is reduced, the moving speed of the driving rods is reduced, the driving rods are driven reversely when the resistance is reduced to a certain threshold value, and when the resistance is increased to a certain threshold value, the driving rods are disconnected and started reversely in a delayed manner;

when the connector is pressed, firstly, the connector piece is placed on a lower pressing jaw of a lower pressing clamp, meanwhile, a cable is placed in the middle of the connector piece, the cable is pressed to the middle of the connector piece under the elastic action of a cable pressing head, meanwhile, the upper pushing seat and the lower pushing seat are driven to move relatively, the upper pressing clamp and the lower pressing clamp are moved by utilizing a sliding rod component A and a sliding rod component B, at the moment, a supporting block in the lower pressing jaw can bend towards the lower pressing jaw under the pushing of a pushing arm, so that the back of the connector piece is supported, the back of the connector piece is bent, meanwhile, the parts of two sides of the connector are bent under the driving of the inner wall of the upper pressing jaw, after the connector piece is bent to a certain degree, the two ends of the connector piece are supported by an extrusion bulge part at the end part of a pushing swing arm, the end part of the connector piece is prevented from being bent too fast, the clamping effect is not uniform, and the upper pressing clamp and, the pushing swing arm driving block is pushed to move through the connecting rod, the pushing swing arm rotates while moving, the extrusion bulge gradually loosens the support for the two ends of the connector piece until the connector piece is safely separated, and further the final bending of the connector piece is realized, and the smooth transition of the end part of the connector piece can be ensured by the guide reed arranged while bending, and finally the connector piece is extruded to the surface of a cable; the whole clamping is realized, and meanwhile, the pushing rod at the bottom can realize the compression of the cable joint, namely the reverse side of the joint sheet, so that the compression effect is ensured.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides an automatic cable location cable connector clamp for equipment which characterized by: comprises an upper pressing clamp and a lower pressing clamp; the upper pressing clamp and the lower pressing clamp are oppositely arranged; the upper pressing pliers comprise an upper pressing jaw, the upper pressing jaw comprises a forming inner groove A, and a bent convex part is arranged in the middle of the forming inner groove A; the upper pressing pliers are provided with a joint piece jacking claw mechanism, a pushing cavity is arranged in the upper pressing pliers, the joint piece jacking claw mechanism comprises two groups of jacking swing arms arranged in the pushing cavity, the two groups of jacking swing arms are arranged in a mirror symmetry mode, the top ends of the jacking swing arms are rotatably connected to the top ends of the pushing cavity, the tail ends of the jacking swing arms extend out of an upper pressing jaw, an extrusion bulge with a triangular cross section is arranged between the middle parts of the upper pressing jaw and the extending positions of the tail ends of the jacking swing arms, a joint piece supporting bulge is arranged at the tail end of each jacking swing arm, the joint piece supporting bulge is in a claw shape extending back to the extrusion bulge, a jacking swing arm driving block is arranged at the middle parts of the two groups of jacking swing arms, and the middle part of each jacking swing arm driving block is connected to a guide rod arranged at the bottom of, one end of the pushing swing arm driving block is connected to a guide rod in a sliding mode, the guide rod is fixed to the bottom of the pushing cavity, two groups of pushing inclined planes are arranged on two sides of the pushing swing arm driving block in a mirror symmetry mode, and the distance from the bottom, close to one side of the upper pressure jaw, of each pushing inclined plane to the guide rod is larger than the distance from the top of each pushing inclined plane to the guide rod; a contact ejector rod used for being in contact with the pushing inclined plane is arranged at the bottom of the pushing swing arm; the pushing swing arm driving block pushes the pushing swing arm to swing when sliding along the sliding rod; the upper pressing pliers are further provided with an upper pushing seat, the upper pushing seat is connected to the top of the upper pressing pliers in a sliding mode through a plurality of sliding rod assemblies A, each sliding rod assembly A is an elastic sliding rod, the middle of each upper pushing seat is connected with a sliding rod in a sliding mode, each sliding rod is connected to the top of a pushing swing arm driving block through a connecting rod, and the top end of each sliding rod is in contact with the upper pushing seat; a cable positioning part is further arranged at the position, corresponding to the bending protruding part, in the middle of the forming inner groove A, and comprises a cable pressing head, a strip-shaped cable positioning groove is formed in the end part of the cable pressing head, a lifting and contracting rod is arranged at the tail end of the cable pressing head, the lifting and contracting rod is inserted into the guide rod, and two sides of the cable pressing head are connected to the tail end of the pushing swing arm through guide reeds; the lower pressing pliers comprise a lower pressing jaw, the lower pressing jaw comprises a forming inner groove B, and an inwards concave arc-shaped bending part is arranged in the forming inner groove B; the inner side of the lower pressing pliers, which corresponds to the lower pressing jaw, is provided with a pressing cavity, a connector piece supporting mechanism is arranged in the pressing cavity, the supporting mechanism comprises two supporting blocks which are symmetrically arranged, the supporting blocks are fan-shaped, the circle center of the fan-shaped supporting blocks is rotationally connected to the inner wall of the pressing cavity, and the fan-shaped outer edges of the two supporting blocks are arranged in a back-to-back manner; a pushing opening for the fan-shaped end part of the supporting block to extend out is formed between the bottom surface of the forming inner groove B and the extrusion cavity; push arms for pushing the supporting blocks are symmetrically arranged in the extrusion cavity and comprise an extension part and a connecting part, wherein the extension part is used for being in contact with the supporting blocks, and the connecting part is cylindrical and is rotatably connected in the extrusion cavity; the bottom of the extrusion cavity is connected with a lower pushing seat, the lower pushing seat is connected with the bottom of the lower pressing clamp through a sliding rod component B, the middle of the lower pushing seat is provided with a driving column, two side walls of the driving column are provided with friction blocks, and the friction blocks are in transmission connection with the connecting parts of the pushing arms through teeth; the middle part of the driving column is also provided with a push-out rod, the middle part of the top of the extrusion cavity is provided with a sliding hole penetrating through the forming inner groove B, and the diameter of the push-out rod is smaller than that of the sliding hole; the side wall of the upper pressing clamp is also provided with a contact unit parallel to the longitudinal axis of the upper pressing clamp, the contact unit comprises a contact plate, and a plurality of contact blocks are arranged on the contact plate in a linear array manner; the side wall of the lower pressing clamp is connected with a contact connecting plate through an expansion seat; the contact connecting plate extends out relative to the lower pressing jaw, a strip-shaped resistance contact strip is arranged at the top of the contact connecting plate, and a point-shaped contact sheet is arranged at the bottom of the contact connecting plate; the top of the contact plate is provided with a conductive interface A, the bottom of the resistance contact strip is connected with a conductive interface B, and the contact piece is provided with a conductive interface C.

2. The automated equipment cable positioning cable connector clamp of claim 1, wherein: an extrusion ejector rod is arranged on the extending part of the push arm, the end part of the extrusion ejector rod is spherical, and the end part of the extrusion ejector rod is in contact with the back of the supporting block.

3. The automated equipment cable positioning cable connector clamp of claim 1, wherein: the driving column of the lower pushing seat is of a hollow structure, a pushing rod inserted into the middle of the driving column is arranged in the extrusion cavity, and the pushing rod is also of a hollow structure.

4. The automated equipment cable positioning cable connector clamp of claim 1, wherein: the sliding rod component A comprises a sliding groove A arranged in the upper pushing seat and a sliding rod A vertically and slidably connected in the sliding groove A, the sliding rod A is connected to the upper pressing pliers, and the sliding rod A is elastically connected with the bottom of the sliding groove A through a spring; the sliding rod component B comprises a sliding groove B arranged in the lower push seat and a sliding rod B vertically connected in the sliding groove B in a sliding mode, the sliding rod B is connected to the lower pressing pliers, and the sliding rod B is elastically connected with the bottom of the sliding groove B through a spring.

5. The automated equipment cable positioning cable connector clamp of claim 1, wherein: the transverse two ends of the cable pressing head are also movably connected with the connector piece supporting bulges through the connecting rods with single rotating points.

6. The automated equipment cable positioning cable connector clamp of claim 1, wherein: the extrusion bulge part also comprises a plurality of zigzag auxiliary bulge parts; and a plurality of anti-skid rubber pads are arranged on the supporting block.

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