CN220407789U - Cable cap pressing assembly mechanism - Google Patents

Abstract

The utility model provides a inhaul cable pressing cap assembly mechanism, which belongs to the technical field of inhaul cable processing and comprises a frame, two mounting modules and two riveting modules; the mounting module comprises a supporting frame, a turntable, a pushing rod and a compacting component; the turntable is rotationally arranged on the frame and provided with a plurality of cap pressing holes; the pushing rod is positioned at the rear of the turntable, and horizontally moves to push out the pressing cap in the pressing cap hole to the end part of the sleeve; the compaction assembly comprises a lower positioning block and an upper positioning block which are arranged on the support frame; the riveting die block comprises a fixing frame, a lower pressing block and an upper pressing block. According to the inhaul cable cap pressing assembly mechanism, the caps are rotated to correspond to the sleeves through the turntables of the two installation modules, and the caps in the cap pressing holes are pushed onto the sleeves by means of the pushing rods; the installation module and the riveting module realize automatic installation and riveting of the press cap, avoid manual installation and riveting, improve the working efficiency and simultaneously ensure long-time continuous work.

Description

Cable cap pressing assembly mechanism

Technical Field

The utility model belongs to the technical field of inhaul cable processing, and particularly relates to an inhaul cable pressing cap assembly mechanism.

Background

When a brake cable manufacturer produces the brake cable, firstly, the sleeve of the brake cable is wound into a bundle, the sleeve of the brake cable in the bundle is required to be processed into a section shape during processing, and then the cut brake cable is chamfered; and after chamfering is finished, the end part of the sleeve is provided with a press cap, and steel wires are penetrated into the sleeve. In the prior art, the sleeve is required to be manually installed and riveted, but the installation and riveting quality of manual operation cannot be guaranteed, the working efficiency is low, the risk of misplacement of the two-head press caps exists, and the manual operation cannot continuously work for a long time.

Disclosure of Invention

The utility model aims to provide a inhaul cable press cap assembling mechanism which aims to realize automatic installation and riveting of press caps at two ends of a sleeve.

In order to achieve the above purpose, the utility model adopts the following technical scheme: provided is a cable press cap assembly mechanism, including:

a frame;

the two mounting modules are respectively positioned at two ends of the rack; the mounting module comprises a supporting frame, a turntable, a pushing rod and a compacting component; the support frame is arranged on the frame; the rotary table is rotationally arranged on the supporting frame and provided with a plurality of cap pressing holes; the pushing rod is positioned at the rear of the turntable, and horizontally moves to push out the pressing cap in the pressing cap hole to the end part of the sleeve; the pressing assembly comprises a lower positioning block and an upper positioning block which are arranged on the supporting frame, and the upper positioning block has longitudinal freedom;

the riveting module is respectively positioned at two ends of the frame, and is positioned at one side of the installation module; the riveting module comprises a fixing frame, a lower pressing block and an upper pressing block, wherein the lower pressing block is positioned on the fixing frame, the upper pressing block is slidably arranged on the fixing frame, and riveting grooves are formed in the lower end of the upper pressing block and the upper end of the lower pressing block.

As another embodiment of the application, the fixing frame comprises a terminal machine mounting plate, a supporting plate and a pressurizing cylinder mounting plate; the lower pressing block is arranged on the terminal machine mounting plate; the supporting plate is longitudinally arranged on the terminal machine mounting plate and positioned at the rear side of the lower pressing block, and a sliding rail is arranged on the side wall of the supporting plate; the upper end surface of the supporting plate is connected with the pressure cylinder mounting plate, and the pressure cylinder mounting plate is provided with a pressure cylinder; the side wall of the upper pressing block is connected with the sliding rail by virtue of a sliding block, and the upper end face of the upper pressing block is connected with the pressurizing cylinder by virtue of a die connecting piece.

As another embodiment of the application, the die connecting piece is in an i shape.

As another embodiment of the application, a pushing cylinder is mounted on the rear side of the supporting plate, and the free end of the pushing cylinder penetrates through the supporting plate to push the pressing cap.

As another embodiment of the application, four cap pressing holes are formed in the side wall of the rotary table, the included angle between the axes of every two adjacent cap pressing holes is 90 degrees, a communicating cavity is formed in the middle of the rotary table, and the communicating cavity is communicated with the four cap pressing holes.

As another embodiment of the application, a pushing cylinder is arranged on the supporting frame and located at the rear of the rotary disc, and the free end of the pushing cylinder is connected with the rear end of the pushing rod.

As another embodiment of the application, the mounting module further comprises a material distributing assembly, wherein the material distributing assembly comprises a material distributing seat, a material distributing plate and a material distributing vertical rod; the lower end of the material distributing seat is provided with a discharging hole, and the discharging hole is positioned above the turntable; the upper end of the material distributing seat is connected with a feeding pipe, and the feeding pipe is positioned behind the discharging hole; the distributing plate is arranged on the distributing seat in a sliding manner, and the distributing plate slides back and forth to push the pressing cap to the discharging hole; the upper part of the material distributing seat is also provided with a material distributing vertical rod which is positioned above the discharging hole, and the material distributing vertical rod longitudinally slides to press the pressing cap into the pressing cap hole of the turntable.

As another embodiment of the present application, the feeding pipe is connected with the vibrating disk structure.

As another embodiment of the application, the riveting machine further comprises an air blowing module and an induction module which are positioned on one side of the installation module far away from the riveting module, wherein the air blowing module and the induction module are correspondingly arranged and are respectively positioned at two ends of the frame; the blowing module comprises a mounting frame, a positioning assembly and a blowing assembly; the air blowing assembly comprises a movable air cylinder and a position adjusting piece arranged at the free end of the movable air cylinder, an air blowing channel is arranged in the position adjusting piece, an air inlet hole used for communicating the air blowing channel is formed in the side wall of the position adjusting piece, an air nozzle protruding outwards is arranged at the end part of the position adjusting piece, and an air outlet hole communicated with the air blowing channel is formed in the air nozzle.

As another embodiment of the application, the side wall of the positioning piece is also provided with an oil inlet.

The inhaul cable pressing cap assembly mechanism provided by the utility model has the beneficial effects that: compared with the prior art, the inhaul cable cap pressing assembly mechanism rotates the cap pressing to correspond to the sleeve through the turntables of the two installation modules, and pushes the cap pressing in the cap pressing hole to the sleeve by means of the pushing rod; after the installation of the pressing cap is completed, the sleeve carries the pressing cap to enter a riveting station, and the sleeve is placed on the lower pressing block and is extruded and riveted by the upper pressing block; the installation module and the riveting module realize automatic installation and riveting of the press cap, avoid manual installation and riveting, improve the working efficiency and simultaneously ensure long-time continuous work.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of a cable press cap assembly mechanism provided by an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of an air blowing module according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of an installation module according to an embodiment of the present utility model;

FIG. 4 is a cross-sectional view of a mounting module provided by an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of a riveting module according to an embodiment of the present utility model;

fig. 6 is a front view of a riveting module according to an embodiment of the present utility model.

In the figure: 1. a vibrating disk structure; 2. a frame; 3. a positioning member; 4. a positioning assembly; 5. a sleeve; 6. a material distribution component; 7. a turntable; 8. a compression assembly; 9. pressing into blocks; 10. pressing the block; 11. a pressurizing cylinder; 12. an air tap; 13. an air inlet hole; 14. an oil inlet hole; 15. a moving cylinder; 16. a lower positioning block; 17. an upper positioning block; 18. a driving motor; 19. a pushing cylinder; 20. a material dividing plate; 21. a material distributing seat; 22. a material separating vertical plate; 23. a pushing rod; 24. a material separating upright rod; 25. a fixing frame; 26. a boost cylinder mounting plate; 27. a die joint; 28. and a die connecting piece.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 6, a description will now be given of a cable press cap assembly mechanism provided by the present utility model. The inhaul cable pressing cap assembly mechanism comprises a frame 2, two installation modules and two riveting modules; the two mounting modules are respectively positioned at two ends of the frame 2; the mounting module comprises a supporting frame, a turntable 7, a pushing rod 23 and a compacting component 8; the supporting frame is arranged on the frame 2; the turntable 7 is rotatably arranged on the supporting frame, and a plurality of cap pressing holes are formed in the turntable 7; the pushing rod 23 is positioned at the rear of the turntable 7, and the pushing rod 23 horizontally moves to push out the press cap in the press cap hole to the end part of the sleeve 5; the compressing assembly 8 comprises a lower positioning block 16 and an upper positioning block 17 which are arranged on the supporting frame, and the upper positioning block 17 has longitudinal freedom; the two riveting modules are respectively positioned at two ends of the frame 2 and positioned at one side of the installation module; the riveting module comprises a fixing frame 25, a lower pressing block 10 and an upper pressing block 9, wherein the lower pressing block 10 is positioned on the fixing frame 25, the upper pressing block 9 is slidably arranged on the fixing frame 25, and riveting grooves are formed in the lower end of the upper pressing block 9 and the upper end of the lower pressing block 10.

Compared with the prior art, the inhaul cable press cap assembly mechanism comprises the mounting module and the riveting module, and the two ends of the inhaul cable are provided with the press caps, so that the number of the mounting module and the riveting module is two, the two mounting modules correspond, and the two riveting modules correspond; the two ends of the inhaul cable can be simultaneously provided with the pressing cap and simultaneously riveted.

The two installation modules have the same structure; the support frame is fixed on the frame 2, a turntable 7 is arranged on the support frame, and the axial direction of the turntable 7 is in the horizontal direction and is positioned on the same horizontal plane with a sleeve 5 fixed on the frame 2; the circumference of the turntable 7 is provided with a plurality of cap pressing holes, when the caps in the cap pressing holes rotate to correspond to the sleeve 5, the pushing rods 23 are pushed forward, and the pushing rods 23 extend into the cap pressing holes and push out the caps onto the sleeve 5; in the process, the upper positioning block 17 presses the sleeve 5 on the lower positioning block 16, so that the sleeve 5 is prevented from being displaced.

After the press caps are installed, the two press caps are required to be riveted at the end part of the sleeve 5, so that the sleeve 5 carries the press caps to enter a riveting station; the fixing frame 25 of the riveting module is fixed on the frame 2, the lower pressing block 10 is arranged on the fixing frame 25, the pressing cap is placed in the riveting groove on the upper end face of the lower pressing block 10, then the upper pressing block 9 is driven to move downwards, the riveting groove at the lower end of the upper pressing block 9 is attached to the upper end of the pressing cap, and the pressing cap is extruded and riveted.

According to the inhaul cable cap pressing assembly mechanism provided by the utility model, the cap pressing is rotated to correspond to the sleeve 5 through the turntables 7 of the two installation modules, and the cap pressing in the cap pressing hole is pushed onto the sleeve 5 by means of the pushing rod 23; after the installation of the press cap is completed, the sleeve 5 carries the press cap to enter a riveting station, and the sleeve 5 is placed on the lower press block 10 and is extruded and riveted by the upper press block 9; the installation module and the riveting module realize automatic installation and riveting of the press cap, avoid manual installation and riveting, improve the working efficiency and simultaneously ensure long-time continuous work.

Optionally, a longitudinal supporting plate is arranged at the front part of the supporting frame, a sliding rail is arranged on the longitudinal supporting plate, and the upper positioning block 17 is fixed on the sliding rail by virtue of a sliding block. The upper end of the longitudinal supporting plate is also provided with a longitudinal air cylinder which drives the upper positioning block 17 to move up and down.

The support frame is also provided with a driving motor 18, and the output end of the driving motor 18 is connected with the central shaft of the turntable 7.

In some possible embodiments, referring to fig. 5 and 6, the mount 25 includes a terminal machine mounting plate, a support plate, and a pressure cylinder mounting plate 26; the lower pressing block 10 is arranged on the terminal machine mounting plate; the supporting plate is longitudinally arranged on the terminal machine mounting plate and positioned at the rear side of the lower pressing block 10, and the side wall of the supporting plate is provided with a sliding rail; the upper end surface of the supporting plate is connected with a pressure cylinder mounting plate 26, and the pressure cylinder mounting plate 26 is provided with a pressure cylinder 11; the side wall of the upper pressing block 9 is connected with the sliding rail by a sliding block, and the upper end surface of the upper pressing block 9 is connected with the pressurizing cylinder 11 by a die connecting piece 28.

A lower pressing block 10 is arranged on the terminal machine mounting plate, a supporting plate is arranged at the rear of the lower pressing block 10, a longitudinal sliding rail is arranged on the supporting plate, and a sliding block is connected to the sliding rail; the slide block is connected with the upper pressing block 9 and drives the upper pressing block 9 to move up and down. A pressure cylinder mounting plate 26 is mounted at the top end of the support plate, a pressure cylinder 11 is mounted on the pressure cylinder mounting plate 26, the free end of the pressure cylinder 11 penetrates through the pressure cylinder mounting plate 26 and extends downwards, the free end of the pressure cylinder 11 is connected with a die connecting piece 28, and the die connecting piece 28 is connected with the upper end face of the upper pressing block 9.

When riveting, firstly, the end part of the pressing cap is positioned in a riveting concave groove of the lower pressing block 10, then the pressurizing cylinder 11 is driven to extend, and the pressurizing cylinder 11 drives the upper pressing block 9 to slide downwards along the sliding rail; until the riveting concave groove at the lower end of the upper pressing block 9 is attached to the upper end face of the pressing cap and presses the pressing cap downwards.

Optionally, a die joint 27 is arranged at the free end of the pressurizing cylinder 11, and a connecting groove is arranged at the lower end of the die joint 27; the die connecting piece 28 is I-shaped, the upper end of the die connecting piece 28 is clamped in the connecting groove, and the lower end of the die connecting piece 28 is connected with the upper pressing block 9 through bolts.

Optionally, a pushing cylinder is installed at the rear side of the supporting plate, and the free end of the pushing cylinder penetrates through the supporting plate to push and press the cap. The supporting plate is provided with a through hole, the free end of the pushing cylinder is connected with a limiting rod, and the limiting rod extends out of the through hole by means of the pushing cylinder and abuts against the end part of the pressing cap, so that the pressing cap is prevented from falling out of the end part of the sleeve 5.

In some possible embodiments, referring to fig. 3 and 4, four cap pressing holes are formed on the side wall of the turntable 7, the included angle between the axes of two adjacent cap pressing holes is 90 °, and a communication cavity is formed in the middle of the turntable 7 and is communicated with the four cap pressing holes.

Four cap pressing holes are formed in the circumferential side wall of the rotary table 7, and the four cap pressing holes are uniformly distributed on the rotary table 7. The axial direction of the cap pressing hole is consistent with the diameter direction of the rotary disk 7. A communication cavity is arranged in the middle of the turntable 7 and is communicated with the four pressing cap holes. The pushing rod 23 sequentially penetrates through the cap pressing hole and the communication cavity, and the end part of the pushing rod 23 enters the other cap pressing hole and pushes out the cap in the other cap pressing hole.

Specifically, a pushing cylinder 19 is arranged on the support frame, the pushing cylinder 19 is positioned at the rear of the turntable 7, and the free end of the pushing cylinder 19 is connected with the rear end of a pushing rod 23.

In some possible embodiments, referring to fig. 3 and 4, the mounting module further includes a distributing assembly 6, and the distributing assembly 6 includes a distributing seat 21, a distributing plate 20, and a distributing upright 24; the lower end of the material distributing seat 21 is provided with a discharging hole which is positioned above the turntable 7; the upper end of the material distributing seat 21 is connected with a feeding pipe which is positioned behind the discharging hole; the distributing plate 20 is arranged on the distributing seat 21 in a sliding way, and the distributing plate 20 slides back and forth to push the pressing cap to the discharging hole; a material separating vertical rod 24 is further arranged above the material separating seat 21, the material separating vertical rod 24 is positioned above the discharging hole, and the material separating vertical rod 24 longitudinally slides to be used for pressing the pressing cap into the pressing cap hole of the turntable 7.

The material distribution assembly 6 comprises a material distribution seat 21, the material distribution seat 21 is arranged above the turntable 7, the material distribution seat 21 comprises a bottom plate, a side plate, a cavity is formed by surrounding the bottom plate and the vertical plate, a discharging hole is formed in the bottom plate, the discharging hole is positioned above the turntable 7, and the discharging hole is coaxial with the cap pressing hole with an upward opening.

The inlet pipe is located the top of dividing seat 21, and the lower extreme of inlet pipe stretches into in the cavity of dividing seat 21 and the inlet pipe is located the rear of discharge opening. The press cap in the feed pipe enters the cavity of the distributing seat 21 and is then pushed forward to the discharge hole by the distributing plate 20.

The distributing plate 20 is slidably arranged in the distributing seat 21, and the distributing plate 20 only pushes one pressing cap each time, so that the phenomenon that a plurality of pressing caps fall off simultaneously to influence the normal operation of the turntable 7 can be avoided.

A dividing vertical plate 22 is provided on the dividing seat 21, and a dividing vertical rod 24 penetrates the dividing vertical plate 22 and extends downward. The separating riser 22 has the function of guiding and shielding the cavity of the separating seat 21.

Optionally, the feeding pipe is connected with the vibrating disc structure 1.

Optionally, since the sizes of the press caps mounted at the two ends of the inhaul cable are different, the blanking diameters and the inner diameters of the feeding pipes in the vibrating discs in the two mounting modules are different, and the inner diameters of the press cap holes of the rotary disc 7 are different.

In some possible embodiments, referring to fig. 1 and 2, the cable press cap assembly mechanism further includes an air blowing module and an induction module located at a side of the installation module away from the riveting module, where the air blowing module and the induction module are correspondingly disposed and are respectively located at two ends of the frame 2; the blowing module comprises a mounting frame, a positioning assembly 4 and a blowing assembly; the air blowing assembly comprises a movable air cylinder 15 and a position adjusting piece 3 arranged at the free end of the movable air cylinder 15, an air blowing channel is arranged in the position adjusting piece 3, an air inlet hole 13 used for communicating the air blowing channel is formed in the side wall of the position adjusting piece 3, an air nozzle 12 protruding outwards is arranged at the end part of the position adjusting piece 3, and an air outlet hole communicating the air blowing channel is formed in the air nozzle 12.

After the sleeve 5 is provided with the pressing cap, a steel wire needs to be penetrated into the sleeve 5, and the inside of the sleeve 5 is not enabled or the wall of the sleeve is flawed. Therefore, the ventilation detection is carried out on the sleeve 5 before the installation of the press cap, and one end of the frame 2 is provided with a blowing module and the other end is provided with an induction module at the station; the insufflation module is used for ventilating the inside of the sleeve 5, while the sensing module is used for detecting the gas pressure of the port at the other end of the sleeve 5. When the gas pressure detected by the sensing module is consistent with the gas pressure blown out by the blowing module, the sleeve 5 is in a qualified state, and the sleeve 5 in the qualified state enters the next cap pressing installation step. When the gas pressure detected by the sensing module is inconsistent with the gas pressure blown out by the blowing module, the sleeve 5 is in an unqualified state, and the sleeve 5 in the unqualified state automatically moves out after entering the next station without installing a pressing cap. Optionally, the sensing module is a SIN-P310 pressure transducer.

Specifically, the blowing module comprises a mounting frame, a positioning assembly 4 and a blowing assembly; the mounting frame is fixed on the frame 2, and a positioning assembly 4 and an air blowing assembly are sequentially arranged on the mounting frame from front to back; wherein the structure of the positioning assembly 4 corresponds to the structure of the hold-down assembly 8 in the installation module. The blowing assembly comprises a moving cylinder 15 and a positioning member 3, the moving cylinder 15 being adapted to push the positioning member 3 horizontally to extend into the end of the sleeve 5 or away from the sleeve 5.

The inside of the position adjusting part 3 is provided with an air blowing channel, the side wall of the position adjusting part 3 is provided with an air inlet hole 13, one end of the position adjusting part, which is far away from the movable air cylinder 15, is provided with an air tap 12 protruding outwards, and an air outlet hole is arranged on the air tap 12. The air inlet hole 13 is connected with an air inlet pipe and an air source, and the air tap 12 stretches into the sleeve 5 and is used for filling air into the sleeve 5. The outer diameter of the air tap 12 corresponds to the inner diameter of the sleeve 5.

Optionally, the side wall of the positioning part 3 is provided with an oil inlet hole 14, and the oil inlet hole 14 is positioned at one side of the air inlet hole 13 and is communicated with the air blowing channel. The liquid oil is carried into the sleeve 5 by the high-pressure gas, and the internal lubrication of the sleeve 5 is also performed while the ventilation detection is completed.

The lubricated sleeve 5 can be inserted into the steel wire directly without applying lubricating oil to the steel wire.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. Cable press cap equipment mechanism, its characterized in that includes:

a frame (2);

the two mounting modules are respectively positioned at two ends of the frame (2); the mounting module comprises a supporting frame, a turntable (7), a pushing rod (23) and a compacting component (8); the supporting frame is arranged on the frame (2); the rotary table (7) is rotationally arranged on the supporting frame, and a plurality of cap pressing holes are formed in the rotary table (7); the pushing rod (23) is positioned at the rear of the turntable (7), and the pushing rod (23) horizontally moves to push out the pressing cap in the cap pressing hole to the end part of the sleeve (5); the compressing assembly (8) comprises a lower positioning block (16) and an upper positioning block (17) which are arranged on the supporting frame, and the upper positioning block (17) has longitudinal freedom degree;

the two riveting modules are respectively positioned at two ends of the frame (2) and are positioned at one side of the installation module; the riveting die comprises a fixing frame (25), a lower pressing block (10) and an upper pressing block (9), wherein the lower pressing block (10) is located on the fixing frame (25), the upper pressing block (9) is slidably arranged on the fixing frame (25), and riveting grooves are formed in the lower end of the upper pressing block (9) and the upper end of the lower pressing block (10).

2. The cable press cap assembly mechanism of claim 1, wherein the mount (25) includes a terminal block mounting plate, a support plate, and a pressure cylinder mounting plate (26); the lower pressing block (10) is arranged on the terminal machine mounting plate; the supporting plate is longitudinally arranged on the terminal machine mounting plate and positioned at the rear side of the lower pressing block (10), and a sliding rail is arranged on the side wall of the supporting plate; the upper end surface of the supporting plate is connected with the pressure cylinder mounting plate (26), and the pressure cylinder mounting plate (26) is provided with a pressure cylinder (11); the side wall of the upper pressing block (9) is connected with the sliding rail by virtue of a sliding block, and the upper end surface of the upper pressing block (9) is connected with the pressurizing cylinder (11) by virtue of a die connecting piece (28).

3. The cable press cap assembly mechanism of claim 2, wherein the die attachment (28) is i-shaped.

4. The cable press cap assembly mechanism as set forth in claim 2, wherein a pushing cylinder is installed at a rear side of the support plate, and a free end of the pushing cylinder penetrates through the support plate for pushing the press cap.

5. The inhaul cable cap pressing assembly mechanism according to claim 1, wherein four cap pressing holes are formed in the side wall of the rotary disc (7), the included angle between the axes of two adjacent cap pressing holes is 90 degrees, a communication cavity is formed in the middle of the rotary disc (7), and the communication cavity is communicated with the four cap pressing holes.

6. The inhaul cable pressing cap assembly mechanism according to claim 1, wherein a pushing cylinder (19) is arranged on the supporting frame, the pushing cylinder (19) is located behind the rotary disc (7), and the free end of the pushing cylinder (19) is connected with the rear end of the pushing rod (23).

7. The guy cable press cap assembly mechanism of claim 1, wherein the mounting module further includes a dispensing assembly (6), the dispensing assembly (6) including a dispensing seat (21), a dispensing plate (20), and a dispensing upright (24); the lower end of the material distributing seat (21) is provided with a discharging hole, and the discharging hole is positioned above the turntable (7); the upper end of the material distributing seat (21) is connected with a feeding pipe, and the feeding pipe is positioned behind the discharging hole; the distributing plate (20) is arranged on the distributing seat (21) in a sliding manner, and the distributing plate (20) slides back and forth to push the pressing cap to the discharging hole; the upper part of the material distributing seat (21) is also provided with a material distributing vertical rod (24), the material distributing vertical rod (24) is positioned above the discharging hole, and the material distributing vertical rod (24) longitudinally slides to press the press cap into the press cap hole of the rotary table (7).

8. The guy cable press cap assembly mechanism of claim 7, wherein the feed tube is connected to the vibrating disc structure (1).

9. The inhaul cable press cap assembly mechanism according to claim 1, further comprising an air blowing module and an induction module which are positioned on one side of the installation module far away from the riveting module, wherein the air blowing module and the induction module are correspondingly arranged and are respectively positioned at two ends of the frame (2); the blowing module comprises a mounting frame, a positioning assembly (4) and a blowing assembly; the air blowing assembly comprises a movable air cylinder (15) and a position adjusting piece (3) arranged at the free end of the movable air cylinder (15), an air blowing channel is arranged in the position adjusting piece (3), an air inlet hole (13) used for communicating the air blowing channel is formed in the side wall of the position adjusting piece (3), an air nozzle (12) protruding outwards is arranged at the end part of the position adjusting piece (3), and an air outlet hole communicating the air blowing channel is formed in the air nozzle (12).

10. The inhaul cable press cap assembly mechanism according to claim 9, wherein the side wall of the position adjusting piece (3) is further provided with an oil inlet hole (14).