CN219247124U - Terminal mechanism is worn to granule - Google Patents

Abstract

The utility model discloses a shot terminal penetrating mechanism, which relates to the technical field of communication cable production and processing and comprises a bottom plate and a transverse moving module arranged on the bottom plate, wherein a sliding table base and a displacement assembly arranged on the sliding table base are arranged on the transverse moving module, a mounting seat is arranged on the displacement assembly, and a top sliding table is fixedly connected to the mounting seat. The cable stripper is reasonable in design structure, the guide block and the jacking block can be pushed forward by the push rod air cylinder, so that the two bearings are jacked by the jacking block, further, the rotating shaft is rotated to drive the two clamping blocks to clamp a cable, when the full stripping action is realized, the operation of the transmission assembly is controlled to enable the mounting seat to move forward on the two guide rails, then the half stripping cable head penetrates into the outer upper and lower holding and grabbing assembly and the parallel clamping assembly, meanwhile, the thin air cylinder drives the clamping seat to move forward to enable the holding cable head to clamp a cable wire, then the transmission assembly is controlled to rotate reversely, and the mounting seat is enabled to move backward integrally, so that the cable skin can be stripped.

Description

Terminal mechanism is worn to granule

Technical Field

The utility model relates to the technical field of communication cable production and processing, in particular to a shot terminal penetrating mechanism.

Background

In the prior art, a stainless steel tube is sleeved outside a cable, one end of the cable leaks out and is peeled, and then the cable is retracted backwards, so that peeled cable wires are hidden inside the stainless steel tube. The mechanism moves to the position of a terminal punching mechanism, the stainless steel pipe hole site is concentric with the shot terminal threading hole, and then the peeled cable extends out before the wire penetrates into the terminal after the stainless steel pipe end surface is flush with the shot terminal end surface, so that crimping is completed;

however, the prior art has the following disadvantages:

1. the cable is not protected after being peeled, so that the metal wires are easy to scatter;

2. the friction between the metal wire and the inner wall of the stainless steel hole can generate bending deformation to lead to the threading of the end reverse wire;

3. the stainless steel tube is difficult to concentrically and repeatedly position with the terminal round hole, and the cable moves forwards after moving backwards and repeatedly. To this end we provide a shot piercing terminal mechanism that solves the above problems.

Disclosure of Invention

First) solving the technical problems

The utility model aims to make up the defects of the prior art and provides a shot terminal penetrating mechanism.

Two) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a terminal mechanism is worn in granule, includes the bottom plate and sets up the sideslip module on the bottom plate, install the slip table base on the sideslip module and set up the displacement subassembly on the slip table base, be provided with the mount pad on the displacement subassembly, link firmly the top slip table on the mount pad, be provided with cable wire stripping and alternate the mechanism on the top slip table, cable wire stripping alternate mechanism is including installing push rod cylinder on the top slip table and setting up two slim cylinders on the mount pad, every the one end of slim cylinder has all linked firmly the holder, and two slim cylinders symmetry each other, every all linked firmly the clamp head on the holder, and two clamp heads all set up one side at the chuck piece, the flexible end of push rod cylinder has linked firmly the guide block, slide on the top is provided with the top and moves the piece, one side rotation of top slip table is connected with two pivots, every the bearing is all installed to the bottom of pivot, and the both sides face of top move the piece all is the inclined plane, and every the one end that keeps away from the chuck piece has kept away from the bearing and has linked firmly.

Further, displacement subassembly is including installing drive assembly, guide rail and the servo motor on the slip table base, still including installing the lead screw on the slip table base, and the lead screw is connected with drive assembly, the guide rail sets up to two, and the lead screw setting is between two guide rails, servo motor's output shaft is connected with drive assembly, the bottom surface screw thread of mount pad cup joints on the lead screw, and the mount pad slides through two sliders and set up on two guide rails.

Further, the transmission assembly comprises two belt pulleys rotating on the sliding table base and a transmission belt sleeved on the two belt pulleys, and the two belt pulleys are respectively connected with one end of the screw rod and the output end of the servo motor.

Further, the cable stripping penetration mechanism further comprises an adjusting block arranged on the top sliding table.

Third), beneficial effects:

compared with the prior art, the shot terminal penetrating mechanism has the following beneficial effects:

according to the utility model, firstly, the push rod cylinder pushes the guide block and the jacking block forward, so that the two bearings are jacked by the jacking block, the rotating shaft is further made to rotate to drive the two chuck blocks to clamp a cable, when the full stripping action is realized, the operation of the transmission assembly is controlled to enable the mounting seat to move forward on the two guide rails, then the half stripping cable heads penetrate into the external upper and lower holding and grabbing assemblies and the parallel clamping assembly, meanwhile, the thin cylinder drives the chuck seat to move forward to enable the holding cable heads to clamp the cable metal wire, then the transmission assembly is controlled to rotate reversely, the mounting seat is integrally moved backwards, the cable skin can be removed, the problem that the cable core is held tightly and does not scatter can be effectively solved, when the terminal inserting action is realized, the operation of the transmission assembly is controlled to enable the mounting seat to move forward, the cable heads are aligned with the round holes of the terminal, the mechanism is enabled to be pre-penetrated for one section, the two sections penetrate into the cable, the problem that the cable cannot be penetrated into the position of the shot terminal metal wire, the copper wire is forked is solved, then the two thin cylinders are controlled, the two holding cable heads are opened, and the transmission assembly is continuously operated, and the whole mounting seat is enabled to move forward, so that the two sections are continuously carried out, and the repeated penetration errors are eliminated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the bottom structure of the present utility model;

FIG. 3 is a right side view of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2B according to the present utility model;

fig. 6 is an enlarged schematic view of the structure of fig. 3C according to the present utility model.

In the figure: 1. a bottom plate; 2. a traversing module; 3. a slipway base; 4. a displacement assembly; 41. a transmission assembly; 42. a guide rail; 43. a servo motor; 5. a top slipway; 6. a mounting base; 7. a cable stripping penetration mechanism; 70. a clamp seat; 71. a push rod cylinder; 72. an adjusting block; 73. a guide block; 74. a top moving block; 75. a thin cylinder; 76. a rotating shaft; 77. a bearing; 78. a chuck block; 79. and a wire holding chuck.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-6, the present utility model provides a technical solution: the utility model provides a shot wears terminal mechanism, including bottom plate 1 and the sideslip module 2 of setting on bottom plate 1, sideslip module 2 is current conventional technology part, its specific structure no longer describes in detail, install slip table base 3 and the displacement subassembly 4 of setting on slip table base 3 on the sideslip module 2, make slip table base 3 can move under the operation of sideslip module 2, thereby adjust the position of slip table base 3, be provided with mount pad 6 on the displacement subassembly 4, make mount pad 6 can carry out the left and right movement under the operation of displacement subassembly 4, displacement subassembly 4 includes drive assembly 41 installed on slip table base 3, guide rail 42 and servo motor 43, still include the lead screw of installing on slip table base 3, and the lead screw is connected with drive assembly 41, guide rail 42 sets up to two, and the lead screw sets up between two guide rails 42, servo motor 43's output shaft is connected with drive assembly 41, the bottom surface screw thread of mount pad 6 cup joints on the lead screw, and mount pad 6 slides through two sliders and sets up on two guide rails 42, drive assembly 41 includes two belt pulleys that rotate on slip table base 3 and belt pulley motor and belt pulley are equipped with respectively, install cable 5 on two end-to-drive wire cable wire reel 5, the top is installed to the end wire stripping 5 is realized to the end, the cable stripping is installed to the end is realized to the end is further on the slip table base 5, the end is connected with the drive wire stripping assembly 5, and is convenient for rotating, the top wire stripping is installed on the top wire 5, the wire stripping penetrating mechanism 7 comprises a push rod air cylinder 71 arranged on the top sliding table 5 and two thin air cylinders 75 arranged on the mounting seat 6, one end of each thin air cylinder 75 is fixedly connected with a clamp head seat 70, the two thin air cylinders 75 are mutually symmetrical, each clamp head seat 70 is fixedly connected with a wire holding clamp head 79, the two wire holding clamp heads 79 are arranged on one side of a clamp head block 78, the two clamp head seats 70 can be relatively moved under the operation of the two thin air cylinders 75, the wire on the wire holding clamp head 79 is clamped by the push rod air cylinder 71, the telescopic end of the push rod air cylinder 71 is fixedly connected with a guide block 73, the top sliding table 5 is slidably provided with a top moving block 74, the top moving block 74 is connected with the guide block 73, one side surface of the top sliding table 5 is rotationally connected with two rotating shafts 76, the bottom end of each rotating shaft 76 is provided with a bearing 77, the two side surfaces of the top moving block 74 are inclined surfaces, each rotating shaft 76 is fixedly connected with a clamping head block 78 at one end far away from a bearing 77, when a push rod air cylinder 71 pushes a guide block 73 to move, a pushing block 74 moves together, two side surfaces of the pushing block 74 can push two bearings 77 to turn over, and further the two rotating shafts 76 rotate together relatively, so that the two clamping head blocks 78 can clamp cables, the cable stripping penetrating mechanism 7 further comprises an adjusting block 72 arranged on a top sliding table 5, the adjusting block 72 can limit the movement of the guide block 73, the displacement of the guide block 73 can be more accurate, the clamping of the two clamping head blocks 78 is further ensured, when the push rod air cylinder 71 pushes the guide block 73 and the pushing block 74 forward during operation, the two bearings 77 are pushed by the pushing block 74, the rotating shafts 76 are further rotated to drive the two clamping head blocks 78 to clamp the cables, and the cable stripping operation is realized, the operation of the transmission assembly 41 is controlled to enable the mounting seat 6 to move forwards on the two guide rails 42, then the half-stripped cable head is penetrated into the external upper and lower holding and grabbing assemblies and the parallel clamping assemblies, the specific structure of the upper and lower holding and grabbing assemblies and the parallel clamping assemblies is not described in detail in the prior art, meanwhile, the thin air cylinder 75 drives the clamping seat 70 to move forwards to enable the holding cable head 79 to clamp a cable wire, then the transmission assembly 41 is controlled to rotate reversely, the mounting seat 6 moves backwards integrally, the cable skin can be removed, the problem that the cable core is held tightly and does not scatter can be effectively solved, when the terminal inserting action is realized, the operation of the transmission assembly 41 is controlled, the mounting seat 6 moves forwards, the cable head is aligned to a terminal round hole to penetrate in advance, the mechanism is made to penetrate into a section of a cable in advance, the problem that the cable is penetrated into a shot terminal wire in a position in a two-section mode, the forked copper wire is outwards leaked is solved, the two thin air cylinders 75 are controlled, the two holding cable clamping heads 79 are opened, then the transmission assembly 41 is continuously operated, and the whole mounting seat 6 is enabled to move forwards continuously to carry out two-section penetrating ends, so that the repeated errors are eliminated.

According to the utility model, firstly, the push rod air cylinder 71 pushes the guide block 73 and the jacking block 74 forward, so that the two bearings 77 are jacked by the jacking block 74, further, the rotating shaft 76 is enabled to rotate to drive the two clamping blocks 78 to clamp a cable, when the full stripping action is realized, the operation of the transmission assembly 41 is controlled to enable the mounting seat 6 to move forward on the two guide rails 42, then the half stripping cable heads penetrate into the outer upper and lower holding and grabbing assemblies and the parallel clamping assembly, meanwhile, the thin air cylinder 75 is enabled to drive the clamping seat 70 to move forward to enable the holding cable heads 79 to clamp the cable wires, then the transmission assembly 41 is controlled to rotate reversely, the mounting seat 6 is enabled to move backwards integrally, the cable skin can be removed, the problem that the cable cores are held tightly and not scattered can be solved, when the terminal inserting action is realized, the operation of the transmission assembly 41 is controlled to enable the mounting seat 6 to move forward, the wire heads are aligned with the terminal round holes to be pre-penetrated, the mechanism is enabled to pre-penetrate a section of the cable, the problem that the wire cannot penetrate into the dispersed wire is solved, and the split copper wires are outwards leaked is then controlled to enable the two holding cable heads 75 to move backwards, the whole clamping seat 79 is enabled to move continuously, and the error of the whole transmission seat 6 is continuously to be continuously carried out, so that the error of the whole transmission assembly is eliminated.

Claims (4)

1. The utility model provides a terminal mechanism is worn to granule, includes bottom plate (1) and sideslip module (2) of setting on bottom plate (1), its characterized in that: the cable stripping and inserting device comprises a transverse moving module (2), a sliding table base (3) and a displacement assembly (4) arranged on the sliding table base (3), wherein an installation seat (6) is arranged on the displacement assembly (4), a top sliding table (5) is fixedly connected to the installation seat (6), and a cable stripping and inserting mechanism (7) is arranged on the top sliding table (5);

cable wire stripping interlude mechanism (7) are including installing push rod cylinder (71) on top slip table (5) and setting up two slim cylinders (75) on mount pad (6), every the one end of slim cylinder (75) has all linked firmly chuck base (70), and two slim cylinders (75) mutual symmetry, every all linked firmly on chuck base (70) and embraced line chuck (79), and two all set up one side at chuck piece (78) of embracing line chuck (79), the flexible end of push rod cylinder (71) has linked firmly guide block (73), slide on top slip table (5) and be provided with top movable block (74), and top movable block (74) are connected with guide block (73), one side rotation of top slip table (5) is connected with two pivot (76), and every bearing (77) are all installed to the bottom of pivot (76), and the both sides face of top movable block (74) all is the inclined plane, every chuck piece (78) are kept away from one end of bearing (77).

2. A particulate threading terminal mechanism as claimed in claim 1 wherein: the displacement assembly (4) comprises a transmission assembly (41) arranged on the sliding table base (3), guide rails (42) and a servo motor (43), and further comprises a screw rod arranged on the sliding table base (3), the screw rod is connected with the transmission assembly (41), the guide rails (42) are arranged in two, the screw rod is arranged between the two guide rails (42), an output shaft of the servo motor (43) is connected with the transmission assembly (41), the bottom surface of the mounting seat (6) is sleeved on the screw rod through threads, and the mounting seat (6) is slidably arranged on the two guide rails (42) through two sliding blocks.

3. A particulate threading terminal mechanism as claimed in claim 2 wherein: the transmission assembly (41) comprises two belt pulleys rotating on the sliding table base (3) and a transmission belt sleeved on the two belt pulleys, and the two belt pulleys are respectively connected with one end of the screw rod and the output end of the servo motor (43).

4. A particulate threading terminal mechanism as claimed in claim 1 wherein: the cable stripping penetration mechanism (7) further comprises an adjusting block (72) arranged on the top sliding table (5).

Images