CN219541581U - Mining convex section type anchor cable production and processing system - Google Patents

Abstract

The utility model discloses a production and processing system of a mining convex-joint type anchor cable, which comprises a winding and unwinding module and a steel strand, wherein the winding and unwinding module is arranged on the ground, the steel strand is arranged on the upper part of the winding and unwinding module, the system also comprises a forming module for forming and processing the steel strand, a balancing module for guaranteeing the rewinding tension balance of the anchor cable, and a coding control module for reading operation data and controlling the operation state of equipment, the forming module is positioned on the inner side of the winding and unwinding module, the balancing module is positioned between the forming module and the winding and unwinding module, and the coding control module is correspondingly arranged with the forming module.

Description

Mining convex section type anchor cable production and processing system

Technical Field

The utility model relates to the technical field of anchor cable production equipment, in particular to a mining convex-joint type anchor cable production and processing system.

Background

In the prior art, the anchor cable is a rock-soil anchoring device taking a steel strand as a main structure, has the advantages of high strength and high tensile tonnage, but has the defects of low elongation rate, usually only 3% -5% of the elongation rate of the anchor cable due to the fact that the basic raw material of the anchor cable is a high-carbon steel strand, low absorption work of the material and poor impact resistance, is extremely easy to break under the conditions of rock burst and large deformation, is widely used in various industries, particularly widely applied in the construction industry, is used as an important mode of mine and building support, is matched with an anchor and a tray, and has the functions of connecting the tray with the anchor, and utilizing the anchor cable tensioning device to pretighten so as to diffuse pretightening force to surrounding rock strata and achieve the effect of supporting pretightening. The prior art has disclosed nest type anchor cable, also called protruding festival formula anchor cable, and it has energy-absorbing, shock resistance anti-fracture's advantage, however when carrying out production and processing to protruding festival formula anchor cable among the prior art, need rely on the manual work to produce processing to it, production efficiency is lower, intensity of labour is high, and product quality stability is relatively poor, can't satisfy the mass production demand of anchor cable.

The application number is: the Chinese patent of 202022059359.X discloses automatic production equipment of mining anchor cables, which is production line equipment and comprises a pay-off reel, wherein a tractor is arranged on one side of the pay-off reel, an electric control cabinet is arranged on one side of the tractor, a cutting box is arranged on one side of the electric control cabinet, a wire collecting frame is arranged on one side of the cutting box, the electric control cabinet is a PLC electric control cabinet, a water tank is arranged inside the cutting box, and the water tank is used for storing cooling liquid. However, the mining anchor cable automatic production equipment can only produce and process the traditional linear anchor cable, is not provided with a convex joint forming device, cannot produce the convex joint anchor cable, and cannot balance the tension generated by rewinding the anchor cable, so that the winding stability of the mining anchor cable is poor, and the production and processing quality of the anchor cable is affected.

Disclosure of Invention

The utility model aims to provide a mining convex section type anchor cable production and processing system.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model provides a mining boss formula anchor rope production processing system, includes receive and releases line module and steel strand wires, receive and releases line module and arranges subaerial, the steel strand wires disposes on receive and releases line module upper portion, still including be used for right the shaping module of steel strand wires processing, be used for guaranteeing anchor rope rewinding expansion force balanced module and be used for reading operation data and control equipment running state's code control module, shaping module is located receive and releases line module inboard, balanced module is located between shaping module and the receive and releases line module, code control module corresponds with shaping module and arranges.

The forming module comprises a convex section forming device and a cutting device, the convex section forming device is erected on the ground through a bracket, the cutting device is arranged adjacent to the convex section forming device and erected on the ground through the bracket, and the steel strands are arranged in the middle of the convex section forming device and the cutting device.

The convex joint forming device comprises a forming machine frame, forming hydraulic cylinders, forming movable frames and positioning tools, wherein the forming machine frame is erected on the ground through a support frame, the forming hydraulic cylinders are provided with two groups, the two groups of forming hydraulic cylinders are arranged on one side of the forming machine frame at intervals in parallel and fixedly connected with the forming machine frame, the output ends of the forming hydraulic cylinders are horizontally arranged, the forming movable frames correspond to the forming hydraulic cylinders, the forming hydraulic cylinders are arranged on the inner sides of the forming machine frame and are in sliding connection with the forming machine frame through mounting shafts, the forming movable frames are fixedly connected with the output ends of the forming hydraulic cylinders, the positioning tools are provided with two groups, and the two groups of positioning tools are symmetrically assembled on one side of the forming movable frames and one side of the forming machine frame, which is far away from the forming hydraulic cylinders.

The positioning tool comprises a positioning hydraulic cylinder, a positioning movable seat and a positioning base, wherein the positioning hydraulic cylinder is arranged on the forming movable frame or on the upper portion of the forming machine frame and is fixedly connected with the corresponding forming movable frame or the forming machine frame, the output end of the positioning hydraulic cylinder is arranged downwards, the positioning movable seat is arranged at the output end of the positioning hydraulic cylinder and is fixedly connected with the output end of the positioning hydraulic cylinder, the positioning base is corresponding to the positioning movable seat, the positioning movable seat is arranged on the forming movable frame or on the lower portion of the forming machine frame and is fixedly connected with the corresponding forming movable frame or the forming machine frame, the positioning base is opposite to the positioning movable seat, and the steel strands are positioned between the positioning base and the positioning movable seat.

The cutting device comprises a cutting motor and a cutting wheel, the cutting motor is erected on the ground through a support, the output end of the cutting motor is horizontally arranged, and the cutting wheel is arranged at the output end of the cutting motor and fixedly connected with the output end of the cutting motor.

The balance module comprises a balance bracket, a balance rotating shaft and a balance fixed pulley, wherein the balance bracket is arranged on one side of the forming frame, which is far away from the cutting motor, and is erected on the ground, two groups of balance rotating shafts are arranged on the two sides of the upper end of the balance bracket and are rotationally connected with the balance bracket, the balance fixed pulley is arranged on the inner side of the upper part of the balance bracket and is rotationally connected with the balance bracket, and the balance fixed pulley is positioned between the two groups of balance rotating shafts.

The coding control module comprises a coding support and a coder, wherein the coding support is arranged on one side, far away from the forming rack, of the cutting motor and is erected on the ground, the coder is arranged at the upper end of the coding support and is fixedly connected with the coding support, and the coder is electrically connected with the control system.

The winding and unwinding module comprises an uncoiler, a rewinding machine and a traction feeding device, wherein the uncoiler is arranged on the surface of the coding support, which is far away from one side of the cutting motor, and is erected through the support, the rewinding machine is arranged on the surface of the balance support, which is far away from one side of the forming frame, and is erected through the support, and the traction feeding device is arranged between the uncoiler and the coding support.

The uncoiler and the rewinder are oppositely arranged at two sides of the forming frame, and two ends of the steel strand are respectively connected with the uncoiler and the rewinder.

The traction feeding device comprises a traction support and a traction roller set, wherein the traction support is arranged between the uncoiler and the coding support and is erected on the ground through the support, the traction roller set is provided with a plurality of groups, the traction roller set is adjacently arranged on the upper portion of the traction support side by side and is rotationally connected with the traction support, and the steel strand is positioned on the inner side of the traction roller set.

The beneficial effects of the utility model are as follows:

the shaping module can be used for directly processing the steel strand into the convex-joint type anchor cable, the shaping process is automatic, the balancing module is arranged, the rewinding tension generated during rewinding processing of the anchor cable can be balanced, the winding stability and the production and processing quality of the anchor cable are guaranteed, the coding control module is arranged, the winding and unwinding module, the shaping module and the balancing module are matched, the automatic continuous processing production of the convex-joint type anchor cable can be realized, the production efficiency and the stability of the product quality are improved, the labor intensity is reduced, and the mass production requirement of the anchor cable can be met.

Drawings

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

FIG. 2 is a schematic view of a boss forming apparatus according to the present utility model;

FIG. 3 is a schematic view of the structure of the cutting device of the present utility model;

fig. 4 is a schematic structural view of the traction feeding device of the present utility model.

In the figure: 1. steel strand; 2. a forming frame; 3. forming a hydraulic cylinder; 4. forming a movable frame; 5. positioning a hydraulic cylinder; 6. positioning the movable seat; 7. positioning a base; 8. cutting off the motor; 9. a cutoff wheel; 10. a balance bracket; 11. a balance rotating shaft; 12. a balance fixed pulley; 13. a coding bracket; 14. an encoder; 15. an uncoiler; 16. a rewinder; 17. a traction bracket; 18. a traction roller group.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings,

the utility model discloses a mining convex-joint type anchor cable production and processing system, which comprises a winding and unwinding module and a steel strand 1, wherein the winding and unwinding module is arranged on the ground, the steel strand 1 is configured on the upper part of the winding and unwinding module, the mining convex-joint type anchor cable production and processing system also comprises a forming module for forming and processing the steel strand 1, a balancing module for guaranteeing balance of rewinding tension of the anchor cable and a coding control module for reading operation data and controlling the operation state of equipment, the forming module is positioned on the inner side of the winding and unwinding module, the balancing module is positioned between the forming module and the winding and unwinding module, the coding control module is correspondingly arranged with the forming module, and the overall structure schematic diagram of the mining convex-joint type anchor cable production and processing system is shown in figure 1.

The shaping module comprises a boss shaping device and a cutting device, the boss shaping device is erected on the ground through a support, the cutting device is adjacently arranged with the boss shaping device and is erected on the ground through the support, the steel strand 1 is arranged in the middle of the boss shaping device and the cutting device, the shaping module is matched with the boss shaping device and the cutting device to shape and process the steel strand 1, so that the boss-type anchor cable is processed, the boss shaping device is used for processing the steel strand 1 into the boss-type anchor cable, and the cutting device is used for cutting off the boss-type anchor cable according to production requirements.

The boss forming device comprises a forming frame 2, a forming hydraulic cylinder 3, a forming movable frame 4 and a positioning tool, wherein the forming frame 2 is erected on the ground through a bracket, the forming hydraulic cylinder 3 is provided with two groups, the two groups of forming hydraulic cylinders 3 are arranged on one side of the forming frame 2 at intervals in parallel and fixedly connected with the forming frame 2, the output end of the forming hydraulic cylinder 3 is horizontally arranged, the forming movable frame 4 is correspondingly arranged on the inner side of the forming frame 2 and is in sliding connection with the forming frame 2 through a mounting shaft, the forming movable frame 4 is fixedly connected with the output ends of the two groups of forming hydraulic cylinders 3, the positioning tool is provided with two groups, the two groups of positioning tools are symmetrically assembled on one side of the forming movable frame 4 and one side of the forming frame 2 away from the forming hydraulic cylinder 3, two groups of guide wheels which are adjacently arranged in parallel are arranged on one side of the forming frame 2 away from the forming hydraulic cylinder 3, the steel strand 1 is positioned between the two groups of guide wheels, the boss forming device is matched with the positioning tool through the forming frame 2, the forming hydraulic cylinder 3, the forming movable frame 4 and the positioning tool, wherein the molding frame 2 is used for providing mounting support for the molding hydraulic cylinder 3, the molding movable frame 4 and the positioning tool, the molding hydraulic cylinder 3 is used for driving the molding movable frame 4 to horizontally move, the molding movable frame 4 is used for providing mounting support for the positioning tool and horizontally moves under the action of the molding hydraulic cylinder 3, thereby processing the steel strand 1 into a convex-joint type anchor cable by matching with a positioning tool, wherein the positioning tool is used for positioning the steel strand 1, and the steel strand 1 is processed into a convex-joint type anchor cable under the action of the forming movable frame 4, and the guide wheel is used for guiding the steel strand 1.

The location frock includes location pneumatic cylinder 5, location movable seat 6 and location base 7, location pneumatic cylinder 5 sets up in the upper portion of shaping movable frame 4 or shaping frame 2 and with shaping movable frame 4 or shaping frame 2 fixed connection that corresponds, the output of location pneumatic cylinder 5 sets up downwards, location movable seat 6 sets up the output of location pneumatic cylinder 5 and with the output fixed connection of location pneumatic cylinder 5, location base 7 corresponds location movable seat 6 sets up in the lower part of shaping movable frame 4 or shaping frame 2 and with shaping movable frame 4 or shaping frame 2 fixed connection that corresponds, location base 7 sets up with location movable seat 6 relatively, steel strand wires 1 are located between location base 7 and the location movable seat 6, location frock presss from both sides dress location to steel strand wires 1 through location pneumatic cylinder 5, location movable seat 6 and location base 7 cooperation, wherein, location pneumatic cylinder 5 is used for providing the erection bracing for location movable seat 6 and drives location movable seat 6 and goes up and down the action, location movable seat 6 is used for going up and down the action under the effect of location pneumatic cylinder 5, thereby change its and location base 7 are located the boss 1 and are located the location movable seat 7, location 1 is processed the boss principle, location 1 is located: the positioning hydraulic cylinder 5 controls the positioning movable seat 6 to descend, so that the positioning movable seat 6 and the positioning base 7 clamp and position the steel strand 1 together, then the forming hydraulic cylinder 3 drives the forming movable frame 4 to move towards the forming frame 2 provided with the positioning tools, the steel strand 1 is extruded, the steel strand 1 between two groups of positioning tools generates a convex joint structure, and the convex joint structure can be matched with the steel strand 1 to form a convex joint type anchor cable.

The number of the positioning tools can be adjusted according to actual conditions and use requirements.

The cutting device comprises a cutting motor 8 and a cutting wheel 9, wherein the cutting motor 8 is erected on the ground through a bracket, the output end of the cutting motor 8 is horizontally arranged, the cutting wheel 9 is arranged at the output end of the cutting motor 8 and fixedly connected with the output end of the cutting motor 8, the cutting device cuts off the steel strand 1 through the cooperation of the cutting motor 8 and the cutting wheel 9, the cutting motor 8 is used for providing mounting support for the cutting wheel 9 and driving the cutting wheel 9 to rotate, and the cutting wheel 9 is used for rotating under the action of the cutting motor 8 so as to cut off the steel strand 1.

The balance module comprises a balance bracket 10, a balance rotating shaft 11 and a balance fixed pulley 12, wherein the balance bracket 10 is arranged on one side of the forming frame 2 far away from the cutting motor 8 and is erected on the ground, the balance rotating shaft 11 is provided with two groups, the two groups of balance rotating shafts 11 are symmetrically arranged on two sides of the upper end of the balance bracket 10 and are rotationally connected with the balance bracket 10, the balance fixed pulley 12 is arranged on the inner side of the upper part of the balance bracket 10 and is rotationally connected with the balance bracket 10, the balance fixed pulley 12 is positioned between the two groups of balance rotating shafts 11, the balance module is matched with the balance rotating shaft 11 and the balance fixed pulley 12 through the balance bracket 10, and balance stability of rewinding expansion force is kept during rewinding processing of an anchor rope, wherein the balance bracket 10 is used for providing installation support for the balance rotating shaft 11 and the balance fixed pulley 12, and the balance rotating shaft 11 and the balance fixed pulley 12 jointly form a rewinding balance structure of the anchor rope, so that the balance stability of rewinding force is kept during rewinding processing of the anchor rope.

The coding control module comprises a coding support 13 and an encoder 14, wherein the coding support 13 is arranged on one side of the cutting motor 8 far away from the forming rack 2 and is erected on the ground, the encoder 14 is arranged at the upper end of the coding support 13 and is fixedly connected with the coding support 13, the encoder 14 is electrically connected with the control system, the coding control module is matched with the coding support 13 and the encoder 14, the running state of the processing system is monitored and running data are read, the coding support 13 is used for providing mounting support for the encoder 14, the encoder 14 is used for monitoring the running state of the processing system and reading the running data, and the control system is used for determining the feeding length and the convex joint position and informing the running flow of the equipment.

The winding and unwinding module comprises an uncoiler 15, a rewinder 16 and a traction feeding device, wherein the uncoiler 15 is arranged on one side of the coding support 13, which is far away from the cutting motor 8, and is erected on the ground through a support, the rewinder 16 is arranged on one side of the balance support 10, which is far away from the forming frame 2, and is erected on the ground through the support, the traction feeding device is arranged between the uncoiler 15 and the coding support 13, the winding and unwinding module is matched with the traction feeding device through the uncoiler 15, the rewinder 16 and the traction feeding device to control the winding and unwinding action of the steel strand 1, the uncoiler 15 is used for installing the raw material steel strand 1, the uncoiler 15 is provided with a braking device to prevent material from being scattered, the rewinder 16 is used for carrying out the rewinding work after the anchor cable processing is completed, and the traction feeding device is used for conveying the raw material steel strand 1.

The uncoiler 15 and the rewinder 16 are oppositely arranged at two sides of the forming frame 2, two ends of the steel strand 1 are respectively connected with the uncoiler 15 and the rewinder 16, and the uncoiler 15 and the rewinder 16 are matched to realize automatic processing of the steel strand 1.

The traction feeding device comprises a traction support 17 and a traction roller set 18, wherein the traction support 17 is arranged between an uncoiler 15 and a coding support 13 and is erected on the ground through a support, the traction roller set 18 is provided with a plurality of groups, the traction roller sets 18 are adjacently arranged on the upper portion of the traction support 17 side by side and are rotationally connected with the traction support 17, a steel strand 1 is located on the inner side of the traction roller set 18, the traction feeding device is matched with the traction roller set 18 through the traction support 17 and the traction roller set 18 to carry out traction on the steel strand 1, the traction support 17 is used for providing installation support for the traction roller set 18, and the traction roller set 18 is used for carrying out traction on the steel strand 1 under the action of the traction support 17.

Working principle:

the steel strand 1 is arranged on an uncoiler 15, the uncoiler 15 is maximally loaded by 5 tons, the end head of the steel strand 1 is guided into a traction feeding device according to an operation procedure, the steel strand 1 is positioned at the inner side of a traction roller set 18, a manual operation button of the traction feeding device is started to drag the end head of the steel strand 1 to a cut position of a cutting device after passing through an encoder 14 device, the processed data of a processed product is input through a human-computer interface of a control system and then is transferred into an automatic operation mode, after equipment is started, the steel strand 1 automatically enters a boss forming device through the traction feeding device, meanwhile, the encoder 14 reads the operation data and transmits the operation data to the control system, the control system controls the stop position of the steel strand 1, controls the boss forming device to execute boss forming action, and the traction feeding device continues to operate and feed to a set length after boss processing is completed. Cutting off by a cutting device after the length is set, finishing the processing of the convex section anchor cable, if the anchor cable needing rewinding is processed, continuing to manually operate according to the operation flow before entering an automatic operation mode, guiding the steel strand 1 to the rewinding machine 16 through a balance module, fixing the end on the machine, setting a control system into the automatic operation mode, adjusting a conversion button of the uncoiler 15 to the automatic operation mode, and simultaneously, along with the operation of the traction feeding device and the convex section forming device, automatically operating the rewinding machine 16 to rewind the anchor cable.

The utility model has the beneficial effects that the forming module can directly process the steel strand into the convex-joint type anchor cable, the forming process is automatic, the balance module is arranged, the rewinding tension generated by the anchor cable during rewinding processing can be balanced, the winding stability and the production and processing quality of the anchor cable are ensured, the coding control module is arranged, and the automatic continuous processing and production of the convex-joint type anchor cable can be realized by matching with the winding and unwinding module, the forming module and the balance module, the production efficiency and the stability of the product quality are improved, the labor intensity is reduced, and the mass production requirement of the anchor cable can be met.

The foregoing describes one embodiment of the present utility model in detail, but the disclosure is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (10)

1. The utility model provides a mining boss formula anchor rope production processing system, includes receive and releases line module and steel strand wires (1), receive and releases line module and arrange subaerial, steel strand wires (1) configuration is in receive and releases line module upper portion, its characterized in that still including be used for right steel strand wires (1) carry out shaping processing's shaping module, be used for guaranteeing anchor rope rewinding expansion force balanced module and be used for reading operation data and control equipment running state's code control module, shaping module is located receive and releases line module inboard, balance module is located between shaping module and the receive and releases line module, code control module corresponds with shaping module and arranges.

2. A mining boss-type anchor cable production and processing system according to claim 1, wherein the forming module comprises a boss forming device and a cutting device, the boss forming device is erected on the ground through a bracket, the cutting device is arranged adjacent to the boss forming device and erected on the ground through the bracket, and the steel strand (1) is arranged in the middle of the boss forming device and the cutting device.

3. The mining convex-joint type anchor cable production and processing system according to claim 2, wherein the convex-joint forming device comprises a forming rack (2), forming hydraulic cylinders (3), forming movable frames (4) and positioning tools, the forming rack (2) is erected on the ground through a support, the forming hydraulic cylinders (3) are provided with two groups, the two groups of the forming hydraulic cylinders (3) are arranged on one side of the forming rack (2) at intervals in parallel and fixedly connected with the forming rack (2), the output ends of the forming hydraulic cylinders (3) are horizontally arranged, the forming movable frames (4) are correspondingly arranged on the inner sides of the forming rack (2) and are in sliding connection with the forming rack (2) through mounting shafts, the forming movable frames (4) are fixedly connected with the output ends of the two groups of the forming hydraulic cylinders (3), and the positioning tools are provided with two groups of positioning tools which are symmetrically assembled on one sides of the forming movable frames (4) and the forming rack (2) far away from the forming hydraulic cylinders (3).

4. A mining convex joint type anchor cable production and processing system as claimed in claim 3, wherein the positioning fixture comprises a positioning hydraulic cylinder (5), a positioning movable seat (6) and a positioning base (7), the positioning hydraulic cylinder (5) is arranged on the upper portion of the forming movable frame (4) or the forming rack (2) and is fixedly connected with the corresponding forming movable frame (4) or the forming rack (2), the output end of the positioning hydraulic cylinder (5) is downwards arranged, the positioning movable seat (6) is arranged at the output end of the positioning hydraulic cylinder (5) and is fixedly connected with the output end of the positioning hydraulic cylinder (5), the positioning base (7) is arranged on the lower portion of the forming movable frame (4) or the forming rack (2) corresponding to the positioning movable seat (6) and is fixedly connected with the corresponding forming movable frame (4) or the forming rack (2), the positioning base (7) is arranged opposite to the positioning movable seat (6), and the steel stranded wires (1) are positioned between the positioning base (7) and the positioning base (6).

5. The mining convex-joint type anchor cable production and processing system according to claim 4, wherein the cutting device comprises a cutting motor (8) and a cutting wheel (9), the cutting motor (8) is erected on the ground through a bracket, the output end of the cutting motor (8) is horizontally arranged, and the cutting wheel (9) is arranged at the output end of the cutting motor (8) and fixedly connected with the output end of the cutting motor (8).

6. The mining convex-joint type anchor cable production and processing system according to claim 5, wherein the balancing module comprises a balancing bracket (10), a balancing rotating shaft (11) and a balancing fixed pulley (12), the balancing bracket (10) is arranged on one side, far away from the cutting motor (8), of the forming frame (2) and is erected on the ground, the balancing rotating shaft (11) is provided with two groups, the two groups of the balancing rotating shafts (11) are symmetrically arranged on two sides of the upper end of the balancing bracket (10) and are rotationally connected with the balancing bracket (10), the balancing fixed pulley (12) is arranged on the inner side of the upper part of the balancing bracket (10) and is rotationally connected with the balancing bracket (10), and the balancing fixed pulley (12) is arranged between the two groups of the balancing rotating shafts (11).

7. The mining convex-joint type anchor cable production and processing system according to claim 6, wherein the coding control module comprises a coding bracket (13) and an encoder (14), the coding bracket (13) is arranged on one side, far away from the forming frame (2), of the cutting motor (8) and is erected on the ground, the encoder (14) is arranged at the upper end of the coding bracket (13) and is fixedly connected with the coding bracket (13), and the encoder (14) is electrically connected with the control system.

8. The mining convex-joint type anchor cable production and processing system according to claim 7, wherein the coiling and uncoiling module comprises an uncoiling machine (15), a rewinding machine (16) and a traction feeding device, the uncoiling machine (15) is arranged on one side of the coding support (13) away from the cutting motor (8) and is erected on the ground through the support, the rewinding machine (16) is arranged on one side of the balancing support (10) away from the forming frame (2) and is erected on the ground through the support, and the traction feeding device is arranged between the uncoiling machine (15) and the coding support (13).

9. The mining convex-joint type anchor cable production and processing system according to claim 8, wherein the uncoiler (15) and the rewinder (16) are arranged on two sides of the forming frame (2) opposite to each other, and two ends of the steel strand (1) are respectively connected with the uncoiler (15) and the rewinder (16).

10. The mining convex-joint type anchor cable production and processing system according to claim 9, wherein the traction feeding device comprises a traction support (17) and a traction roller group (18), the traction support (17) is arranged between the uncoiler (15) and the coding support (13) and is erected on the ground through the support, the traction roller group (18) is provided with a plurality of groups, the traction roller group (18) of the plurality of groups is adjacently arranged on the upper part of the traction support (17) side by side and is rotationally connected with the traction support (17), and the steel strand (1) is positioned on the inner side of the traction roller group (18).