CN220942961U - Supporting steel wire feeding mechanism - Google Patents

Abstract

The utility model discloses a support steel wire feeding mechanism, the on-line screen storage device comprises a base, the base top is equipped with horizontal alignment subassembly, vertical alignment subassembly and conveying subassembly, and wherein horizontal alignment subassembly, vertical alignment subassembly and conveying subassembly distribute along steel wire conveying direction in proper order. According to the utility model, the bent steel wire is automatically straightened through the transverse straightening component and the longitudinal straightening component, so that the obtained steel wire has higher straightness, and the processing efficiency and the product quality are improved; the movable plate is moved by rotating the adjusting nut, so that the movable plate drives the gap between the movable straightening wheel and the fixed straightening wheel to adapt to the diameters of different steel wires, and the strength of straightening the steel wires is improved; the movable conveying wheel is driven to move up and down through the telescopic cylinder, so that the gap between the movable conveying wheel and the fixed conveying wheel is adjusted, the steel wire is convenient to compress tightly, the steel wire straightening conveying is realized, and stable traction force is provided for steel wire feeding.

Description

Supporting steel wire feeding mechanism

Technical Field

The utility model relates to the technical field of steel wire feeding, in particular to a supporting steel wire feeding mechanism.

Background

In automobile research and development design, in order to improve the comfort level of automobile seat back, generally set up latticed spring wire curtain on the seat skeleton, wherein the former production in preparation spring wire curtain need carry out the feed to its spring wire, the spring wire originally is the storage mode of tying up, draw the steel wire and process when needs to process, the steel wire of this time can influence the machining precision of steel wire owing to having produced the deformation, so need to straighten operation such as steel wire at the in-process of pay-off, current steel wire pay-off structure is great to the restriction of place between feed and the materials, and steel wire alignment straightness precision is not high moreover, stability is relatively poor, influence machining efficiency and qualification rate.

Disclosure of Invention

The utility model aims to provide a supporting steel wire feeding mechanism so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the steel wire supporting feeding mechanism comprises a base, wherein a transverse straightening assembly, a longitudinal straightening assembly and a conveying assembly are arranged above the base, and the transverse straightening assembly, the longitudinal straightening assembly and the conveying assembly are sequentially distributed along the conveying direction of the steel wires; the transverse straightening assembly comprises a first straightening base plate, wherein the first straightening base plate is horizontally arranged; the upper end of the first straightening substrate is provided with a first fixed straightening wheel set and a first movable straightening wheel set, wherein the first fixed straightening wheel set and the first movable straightening wheel set are respectively arranged on two sides of the steel wire; the longitudinal straightening assembly comprises a second straightening base plate, wherein the second straightening base plate is vertically arranged; the front end of the second straightening substrate is provided with a second fixed straightening wheel set and a second movable straightening wheel set, wherein the second fixed straightening wheel set and the second movable straightening wheel set are respectively arranged on the upper side and the lower side of the steel wire; the conveying assembly comprises a conveying substrate, wherein the conveying substrate is vertically arranged; the front end of the conveying substrate is provided with a fixed conveying wheel and a movable conveying wheel, wherein the fixed conveying wheel and the movable conveying wheel are arranged symmetrically up and down and clamp the steel wire.

Preferably, the first fixed straightening wheel set consists of three first fixed straightening wheels which are distributed at equal intervals, wherein the first movable straightening wheel set consists of two first movable straightening wheels which are distributed at equal intervals; the first fixed straightening wheels and the first movable straightening wheels are arranged at intervals in a staggered mode.

Preferably, a first movable groove is formed in the first straightening base plate, and a first movable plate is arranged in the first movable groove; the first movable straightening wheel is arranged on the first movable plate, and the first movable straightening wheel is rotationally connected with the first movable plate.

Preferably, the inner walls of the two sides of the first movable groove are provided with first guiding sliding rails, wherein the two sides of the first movable plate are respectively provided with first sliding grooves matched with the first guiding sliding rails.

Preferably, the upper end of the first movable plate is provided with a first straightening screw, the top end of the first straightening screw penetrates through the first straightening base plate and extends outwards, and the extending end of the first straightening screw is screwed with a first adjusting nut; the first straightening screw outer wall cover is equipped with first spring, and wherein first spring one end and first fly leaf fixed connection, this first spring other end and first movable groove inner wall fixed connection.

Preferably, the second fixed straightening wheel set consists of three second fixed straightening wheels which are distributed at equal intervals, wherein the second movable straightening wheel set consists of two second movable straightening wheels which are distributed at equal intervals; the second fixed straightening wheels and the second movable straightening wheels are arranged at intervals in a staggered mode.

Preferably, a second movable groove is formed in the second straightening base plate, and a second movable plate is arranged in the second movable groove; the second movable straightening wheel is arranged on the second movable plate, and the second movable straightening wheel is rotationally connected with the second movable plate.

Preferably, the inner walls of the two sides of the second movable groove are provided with second guiding sliding rails, and the two sides of the second movable plate are respectively provided with second sliding grooves matched with the second guiding sliding rails.

Preferably, the upper end of the second movable plate is provided with a second straightening screw, the top end of the second straightening screw penetrates through the second straightening base plate and extends outwards, and the extending end of the second straightening screw is screwed with a second adjusting nut; the second straightening screw outer wall cover is equipped with the second spring, and wherein second spring one end and second fly leaf fixed connection, this second spring other end and second movable groove inner wall fixed connection.

Preferably, a third movable groove is formed in the conveying substrate, and a third movable plate is arranged in the third movable groove; the movable conveying wheel is arranged on the third movable plate, and a rotating shaft of the movable conveying wheel penetrates through the third movable plate and is fixedly connected with a driven belt gear; and the two sides of the third movable plate are respectively provided with a third sliding groove, wherein the opening of the third sliding groove is respectively in sliding connection with the inner side wall of the third movable groove.

Preferably, a telescopic cylinder is arranged above the conveying substrate, wherein the telescopic cylinder is fixedly connected with the conveying substrate through a cylinder mounting seat; the top end of a piston rod of the telescopic cylinder is provided with a lifting plate, the lower end of the lifting plate is symmetrically provided with two guide rods, and the guide rods penetrate through the conveying substrate downwards and are fixedly connected with a third movable plate; the guide rod outer wall cover is equipped with supporting spring, and wherein supporting spring one end and third fly leaf fixed connection, this supporting spring other end and third fly leaf inner wall fixed connection.

Preferably, a protective cover is arranged at the rear end of the conveying substrate, wherein a servo motor is arranged in the protective cover and is fixedly connected with the conveying substrate through a motor mounting seat; and a driving gear is arranged on an output shaft of the servo motor, wherein a driven gear is arranged on one side of the transmission substrate, which is close to the driving gear, and the driven gear is meshed with the driving gear.

Preferably, the driven gear is coaxially provided with a driving belt gear, wherein the driving belt gear is in driving connection with the driven belt gear through a gear belt.

Preferably, the side part of the third movable groove is provided with a rectangular groove, and the rectangular groove is internally provided with a movable rod; one end of the movable rod is slidably connected with the rectangular groove, and the other end of the movable rod is provided with a pressing wheel which is arranged on the side edge of the gear belt and is abutted to the gear belt.

Preferably, the front end of the conveying substrate is respectively provided with a feeding duct and a discharging duct, wherein the feeding duct and the discharging duct are symmetrically arranged.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, continuous and automatic feeding of the spring steel wire can be realized, and the bent steel wire can be automatically straightened through the transverse straightening component and the longitudinal straightening component in the feeding process, so that the obtained steel wire has higher straightness, and the processing efficiency and the product quality are improved; the movable plate is moved by rotating the adjusting nut, so that the movable plate drives the gap between the movable straightening wheel and the fixed straightening wheel to adapt to the diameters of different steel wires, and the feeding efficiency is ensured; the movable conveying wheel is driven to move up and down through the telescopic cylinder, so that the gap between the movable conveying wheel and the fixed conveying wheel is adjusted, the steel wire is convenient to compress, the steel wire is straightened and conveyed, and the feeding stability is ensured; through passing the steel wire through the feeding guide pipe and the discharging guide pipe, the shaking generated by the steel wire in the moving process can be effectively reduced, and the stability of the movement of the steel wire is improved.

Drawings

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

FIG. 2 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 3 is a schematic rear view of the present utility model;

FIG. 4 is a schematic view of the structure of the lateral alignment assembly of the present utility model;

FIG. 5 is a schematic view of the structure of the longitudinal straightening assembly of the present utility model;

fig. 6 is a schematic view of the structure of the transfer assembly of the present utility model.

Wherein: 1. a base; 2. a lateral alignment assembly; 201. a first alignment substrate; 202. a first fixed straightening wheel set; 2021. a first fixed straightening wheel; 203. a first movable straightening wheel set; 2031. a first movable straightening wheel; 204. a first movable groove; 205. a first movable plate; 206. a first straightening screw; 207. a first adjustment nut; 208. a first spring; 209. a first guide rail; 210. a first chute; 3. a longitudinal straightening assembly; 301. a second alignment substrate; 302. the second fixed straightening wheel set; 3021. a second fixed straightening wheel; 303. the second movable straightening wheel set; 3031. a second movable straightening wheel; 304. a second movable groove; 305. a second movable plate; 306. a second straightening screw; 307. a second adjustment nut; 308. a second spring; 309. the second guide slide rail; 310. a second chute; 4. a transfer assembly; 401. conveying the substrate; 402. a fixed transfer wheel; 403. a movable transfer wheel; 404. a third movable groove; 405. a third movable plate; 406. a third chute; 5. a steel wire; 6. a telescopic cylinder; 7. a cylinder mounting seat; 8. a lifting plate; 9. a guide rod; 10. a support spring; 11. a protective cover; 12. a servo motor; 13. a motor mounting seat; 14. a drive gear; 15. a driven gear; 16. a drive belt gear; 17. a gear belt; 18. a driven belt gear; 19. rectangular grooves; 20. a movable rod; 21. a pinch roller; 22. a feed conduit; 23. and a discharging guide pipe.

Detailed Description

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

Referring to fig. 1 to 6 in combination, a supporting steel wire feeding mechanism comprises a base 1, wherein a transverse straightening assembly 2, a longitudinal straightening assembly 3 and a conveying assembly 4 are arranged above the base 1, and the transverse straightening assembly 2, the longitudinal straightening assembly 3 and the conveying assembly 4 are sequentially distributed along the conveying direction of a steel wire 5; the steel wire 5 passes horizontal alignment subassembly 2 and vertical alignment subassembly 3 respectively, then pulls by the traction force that conveying assembly 4 provided, can realize steel wire 5 automatic feed to realize the effect of alignment in the feeding process, conveying assembly 4 can guide steel wire 5 to the shaping station moreover, is not restricted by the distance.

Referring to fig. 3 to 5 in combination, as an embodiment of the present utility model, the lateral alignment assembly 2 includes a first alignment substrate 201, wherein the first alignment substrate 201 is horizontally disposed; the upper end of the first straightening substrate 201 is provided with a first fixed straightening wheel set 202 and a first movable straightening wheel set 203, wherein the first fixed straightening wheel set 202 and the first movable straightening wheel set 203 are respectively arranged on two sides of the steel wire 5; the longitudinal alignment assembly 3 comprises a second alignment substrate 301, wherein the second alignment substrate 301 is vertically arranged; the front end of the second straightening base plate 301 is provided with a second fixed straightening wheel set 302 and a second movable straightening wheel set 303, wherein the second fixed straightening wheel set 302 and the second movable straightening wheel set 303 are respectively arranged on the upper side and the lower side of the steel wire 5; the transverse straightening component 2 and the longitudinal straightening component 3 are matched with each other to straighten the bent steel wire 5 from different directions, so that the steel wire 5 is prevented from being bent in a certain direction, and the straightness of the steel wire 5 is improved; the transfer assembly 4 includes a transfer substrate 401, wherein the transfer substrate 401 is vertically disposed; the front end of the conveying substrate 401 is provided with a fixed conveying wheel 402 and a movable conveying wheel 403, wherein the fixed conveying wheel 402 and the movable conveying wheel 403 are symmetrically arranged up and down and clamp the steel wire 5; by adjusting the gap between the movable conveying wheel 403 and the fixed conveying wheel 402, the steel wire 5 is convenient to be compressed, the steel wire 5 is straightened and conveyed, and stable traction force is provided for feeding the steel wire 5.

Referring to fig. 4, as an embodiment of the present utility model, the first fixed straightening wheel set 202 is composed of three first fixed straightening wheels 2021 distributed equidistantly, wherein the first movable straightening wheel set 203 is composed of two first movable straightening wheels 2031 distributed equidistantly; the first fixed straightening wheels 2021 and the first movable straightening wheels 2031 are alternately arranged at intervals; the first straightening base plate 201 is provided with a first movable groove 204, wherein a first movable plate 205 is arranged in the first movable groove 204; the first movable straightening wheel 2031 is installed on the first movable plate 205, wherein the first movable straightening wheel 2031 is rotatably connected with the first movable plate 205; the upper end of the first movable plate 205 is provided with a first straightening screw 206, the top end of the first straightening screw 206 penetrates through the first straightening base plate 201 and extends outwards, and the extending end of the first straightening screw 206 is screwed with a first adjusting nut 207; the outer wall of the first straightening screw 206 is sleeved with a first spring 208, one end of the first spring 208 is fixedly connected with the first movable plate 205, and the other end of the first spring 208 is fixedly connected with the inner wall of the first movable groove 204; first guiding sliding rails 209 are disposed on inner walls of two sides of the first movable slot 204, and first sliding grooves 210 adapted to the first guiding sliding rails 209 are respectively disposed on two sides of the first movable plate 205.

In the above-mentioned scheme, by rotating the first adjusting nut 207, the first adjusting nut 207 cooperates with the first spring 208 to drive the first straightening screw 206 to drive the first movable plate 205 to move up and down, and the first movable plate 205 moves linearly along the first guiding sliding rail 209 in the moving process, wherein the cooperation of the first sliding groove 210 and the first guiding sliding rail 209 provides guiding and limiting effects for the movement of the first movable plate 205, so that the stability of the first movable plate 205 driving the first movable straightening wheel 2031 to move is improved; the first movable straightening wheel 2031 is driven to move up and down in the first movable groove 204 by the first movable plate 205, so that the size of a gap between the first movable straightening wheel 2031 and the first fixed straightening wheel 2021 is adjusted to adapt to steel wires 5 with different diameters on one hand, and the strength of the first movable straightening wheel 2031 and the first fixed straightening wheel 2021 for transversely straightening the steel wires 5 can be controlled on the other hand, so that the straightness of the steel wires 5 is improved.

Referring to fig. 5, as an embodiment of the present utility model, the second fixed straightening wheel set 302 is composed of three second fixed straightening wheels 3021 distributed equidistantly, wherein the second movable straightening wheel set 303 is composed of two second movable straightening wheels 3031 distributed equidistantly; the second fixed straightening wheels 3021 and the second movable straightening wheels 3031 are alternately arranged at intervals; the second straightening base plate 301 is provided with a second movable groove 304, wherein a second movable plate 305 is arranged in the second movable groove 304; the second movable straightening wheel 3031 is installed on the second movable plate 305, wherein the second movable straightening wheel 3031 is rotatably connected with the second movable plate 305; second guiding sliding rails 309 are arranged on the inner walls of the two sides of the second movable groove 304, and second sliding grooves 310 matched with the second guiding sliding rails 309 are respectively arranged on the two sides of the second movable plate 305; the upper end of the second movable plate 305 is provided with a second straightening screw 306, the top end of the second straightening screw 306 penetrates through the second straightening base plate 301 and extends outwards, and the extending end of the second straightening screw 306 is screwed with a second adjusting nut 307; the outer wall of the second straightening screw 306 is sleeved with a second spring 308, wherein one end of the second spring 308 is fixedly connected with the second movable plate 305, and the other end of the second spring 308 is fixedly connected with the inner wall of the second movable groove 304.

In the above-mentioned scheme, by rotating the second adjusting nut 307, the second adjusting nut 307 cooperates with the second spring 308 to drive the second straightening screw 306 to drive the second movable plate 305 to move up and down, and the second movable plate 305 moves along the second guiding sliding rail 309 in a straight line in the moving process, wherein the cooperation of the second sliding groove 310 and the second guiding sliding rail 309 provides guiding and limiting effects for the movement of the second movable plate 305, so that the stability of the second movable plate 305 driving the second movable straightening wheel 3031 to move is improved; the second movable plate 305 drives the second movable straightening wheel 3031 to move up and down in the second movable groove 304, so that the gap between the second movable straightening wheel 3031 and the second fixed straightening wheel 3021 is adjusted, on one hand, the gap adapts to steel wires 5 with different diameters, on the other hand, the force of the second movable straightening wheel 3031 and the second fixed straightening wheel 3021 for longitudinally straightening the steel wires 5 can be controlled, and the straightness and feeding efficiency of the steel wires 5 are improved.

Referring to fig. 2 and fig. 6 in combination, as an embodiment of the present utility model, a third movable slot 404 is formed on the transfer substrate 401, where a third movable plate 405 is disposed in the third movable slot 404; the movable transmission wheel 403 is installed on the third movable plate 405, wherein the rotating shaft of the movable transmission wheel 403 penetrates through the third movable plate 405 and is fixedly connected with the driven belt gear 18; the two sides of the third movable plate 405 are respectively provided with a third sliding groove 406, wherein the openings of the third sliding grooves 406 are respectively connected with the inner side walls of the third movable grooves 404 in a sliding way; a telescopic cylinder 6 is arranged above the conveying substrate 401, wherein the telescopic cylinder 6 is fixedly connected with the conveying substrate 401 through a cylinder mounting seat 7; the top end of a piston rod of the telescopic cylinder 6 is provided with a lifting plate 8, the lower end of the lifting plate 8 is symmetrically provided with two guide rods 9, and the guide rods 9 penetrate through the conveying substrate 401 downwards and are fixedly connected with a third movable plate 405; the outer wall of the guide rod 9 is sleeved with a supporting spring 10, one end of the supporting spring 10 is fixedly connected with the third movable plate 405, and the other end of the supporting spring 10 is fixedly connected with the inner wall of the third movable groove 404.

In the above-mentioned scheme, the telescopic cylinder 6 drives the piston rod to drive the lifting plate 8 to move, so that the guide rod 9 arranged below the lifting plate 8 drives the third movable plate 405 to move up and down in the third movable groove 404, and the guide rod 9 is matched with the third sliding grooves 406 arranged on two sides of the third movable plate 405 to provide guiding and limiting effects for the up and down lifting of the third movable plate 405 in the third movable groove 404, so as to improve the stability of the up and down lifting of the third movable plate 405 driving the movable conveying wheel 403; the movable conveying wheel 403 is driven to lift up and down through the third movable plate 405, so that the gap between the movable conveying wheel 403 and the fixed conveying wheel 402 is adjusted, the surfaces of the movable conveying wheel 403 and the fixed conveying wheel 402 are guaranteed to be tightly attached to the steel wire 5, the steel wire 5 is tightly pressed, the steel wire 5 is straightened and conveyed, and the feeding stability is guaranteed.

Referring to fig. 6, as an embodiment of the present utility model, a protective cover 11 is disposed at the rear end of a transmission substrate 401, wherein a servo motor 12 is installed in the protective cover 11, and the servo motor 12 is fixedly connected with the transmission substrate 401 through a motor mounting seat 13; a driving gear 14 is arranged on the output shaft of the servo motor 12, wherein a driven gear 15 is arranged on one side of the transmission substrate 401 close to the driving gear 14, and the driven gear 15 is meshed with the driving gear 14; the driven gear 15 is coaxially provided with a driving belt gear 16, wherein the driving belt gear 16 is in driving connection with a driven belt gear 18 via a gear belt 17.

In the above-mentioned scheme, the servo motor 12 drives the driving gear 14 to rotate, so that the driving gear 14 drives the driven gear 15 to rotate synchronously, and because the driven gear 15 and the driving belt gear 16 are coaxially arranged, when the driven gear 15 rotates, the driving belt gear 16 also rotates together, wherein the driving belt gear 16 drives the driven belt gear 18 to rotate through the gear belt 17, so that the driven belt gear 18 drives the movable conveying wheel 403 to rotate, the movable conveying wheel 403 is tightly attached to the surface of the fixed conveying wheel 402 through the movable conveying wheel 403, so as to compress the steel wire 5, and the steel wire 5 is straightened and conveyed along with the rotation of the movable conveying wheel 403.

Referring to fig. 6, as an embodiment of the present utility model, a side portion of the third movable slot 404 is provided with a rectangular groove 19, wherein the rectangular groove 19 is provided with a movable rod 20; one end of the movable rod 20 is slidably connected with the rectangular groove 19, wherein the other end of the movable rod 20 is provided with a pressing wheel 21, and the pressing wheel 21 extends to the side edge of the gear belt 17 and is abutted against the gear belt 17.

In the above-mentioned scheme, the movable rod 20 is adjusted to slide along the rectangular groove 19 which is obliquely arranged, so that the driving pinch roller 21 compresses the gear belt 17, the guiding and tensioning effects are achieved for the gear belt 17 between the driving belt gear 16 and the driven belt gear 18, the gear belt 17 is always in the optimal tensioning state, and the stability of the driven belt gear 18 driving the movable conveying wheel 403 to rotate is improved.

Referring to fig. 2, as an embodiment of the present utility model, a front end of a conveying substrate 401 is provided with a feeding conduit 22 and a discharging conduit 23, respectively, wherein the feeding conduit 22 and the discharging conduit 23 are symmetrically disposed.

In the above-mentioned scheme, after the steel wire 5 is automatically straightened through the transverse straightening component 2 and the longitudinal straightening component 3, the steel wire 5 passes through the feeding guide pipe 22 and is tightly pressed by the movable conveying wheel 403 and the fixed conveying wheel 402, and the steel wire 5 is outwards conveyed by the discharging guide pipe 23 along with the rotation of the movable conveying wheel 403, so that the shaking of the steel wire 5 in the moving process can be effectively reduced through the cooperation of the feeding guide pipe 22 and the discharging guide pipe 23, and the moving stability of the steel wire 5 is improved.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (10)

1. The steel wire supporting feeding mechanism comprises a base (1), wherein a transverse straightening component (2), a longitudinal straightening component (3) and a conveying component (4) are arranged above the base (1), and the transverse straightening component (2), the longitudinal straightening component (3) and the conveying component (4) are sequentially distributed along the conveying direction of a steel wire (5); the transverse straightening assembly (2) is characterized by comprising a first straightening base plate (201), wherein the first straightening base plate (201) is horizontally arranged; the upper end of the first straightening substrate (201) is provided with a first fixed straightening wheel set (202) and a first movable straightening wheel set (203), wherein the first fixed straightening wheel set (202) and the first movable straightening wheel set (203) are respectively arranged at two sides of the steel wire (5); the longitudinal straightening assembly (3) comprises a second straightening base plate (301), wherein the second straightening base plate (301) is vertically arranged; the front end of the second straightening base plate (301) is provided with a second fixed straightening wheel set (302) and a second movable straightening wheel set (303), wherein the second fixed straightening wheel set (302) and the second movable straightening wheel set (303) are respectively arranged on the upper side and the lower side of the steel wire (5); the conveying assembly (4) comprises a conveying substrate (401), wherein the conveying substrate (401) is vertically arranged; the front end of the conveying substrate (401) is provided with a fixed conveying wheel (402) and a movable conveying wheel (403), wherein the fixed conveying wheel (402) and the movable conveying wheel (403) are arranged symmetrically up and down and clamp the steel wire (5).

2. The supporting steel wire feeding mechanism according to claim 1, wherein a first movable groove (204) is formed in the first straightening base plate (201), and a first movable plate (205) is arranged in the first movable groove (204); the first movable straightening wheel (2031) is arranged on the first movable plate (205), and the first movable straightening wheel (2031) is rotatably connected with the first movable plate (205).

3. The supporting steel wire feeding mechanism according to claim 2, wherein a first straightening screw (206) is arranged at the upper end of the first movable plate (205), the top end of the first straightening screw (206) penetrates through the first straightening base plate (201) and extends outwards, and a first adjusting nut (207) is screwed at the extending end of the first straightening screw (206); the outer wall of the first straightening screw (206) is sleeved with a first spring (208), one end of the first spring (208) is fixedly connected with the first movable plate (205), and the other end of the first spring (208) is fixedly connected with the inner wall of the first movable groove (204).

4. The supporting steel wire feeding mechanism according to claim 1, wherein a second movable groove (304) is formed in the second straightening base plate (301), and a second movable plate (305) is arranged in the second movable groove (304); the second movable straightening wheel (3031) is arranged on the second movable plate (305), and the second movable straightening wheel (3031) is rotatably connected with the second movable plate (305).

5. The supporting wire feeding mechanism according to claim 4, wherein a second straightening screw (306) is arranged at the upper end of the second movable plate (305), the top end of the second straightening screw (306) penetrates through the second straightening base plate (301) and extends outwards, and a second adjusting nut (307) is screwed at the extending end of the second straightening screw (306); and a second spring (308) is sleeved on the outer wall of the second straightening screw (306), one end of the second spring (308) is fixedly connected with the second movable plate (305), and the other end of the second spring (308) is fixedly connected with the inner wall of the second movable groove (304).

6. The supporting wire feeding mechanism according to claim 1, wherein a third movable slot (404) is formed on the conveying substrate (401), and a third movable plate (405) is disposed in the third movable slot (404); the movable conveying wheel (403) is arranged on the third movable plate (405), wherein the rotating shaft of the movable conveying wheel (403) penetrates through the third movable plate (405) and is fixedly connected with a driven belt gear (18); and the two sides of the third movable plate (405) are respectively provided with a third sliding groove (406), wherein the opening of the third sliding groove (406) is respectively connected with the inner side wall of the third movable groove (404) in a sliding way.

7. The supporting steel wire feeding mechanism according to claim 6, wherein a telescopic cylinder (6) is arranged above the conveying base plate (401), and the telescopic cylinder (6) is fixedly connected with the conveying base plate (401) through a cylinder mounting seat (7); the top end of a piston rod of the telescopic cylinder (6) is provided with a lifting plate (8), the lower end of the lifting plate (8) is symmetrically provided with two guide rods (9), and the guide rods (9) penetrate through the conveying substrate (401) downwards and are fixedly connected with a third movable plate (405); the outer wall of the guide rod (9) is sleeved with a supporting spring (10), one end of the supporting spring (10) is fixedly connected with a third movable plate (405), and the other end of the supporting spring (10) is fixedly connected with the inner wall of a third movable groove (404).

8. The supporting steel wire feeding mechanism according to claim 7, wherein a protective cover (11) is arranged at the rear end of the conveying substrate (401), a servo motor (12) is arranged in the protective cover (11), and the servo motor (12) is fixedly connected with the conveying substrate (401) through a motor mounting seat (13); the output shaft of the servo motor (12) is provided with a driving gear (14), wherein one side of the transmission substrate (401) close to the driving gear (14) is provided with a driven gear (15), and the driven gear (15) is meshed with the driving gear (14).

9. A supporting wire feeding mechanism according to claim 8, wherein the driven gear (15) is coaxially provided with a driving belt gear (16), wherein the driving belt gear (16) is in driving connection with the driven belt gear (18) via a gear belt (17).

10. The supporting steel wire feeding mechanism according to claim 6, wherein the side part of the third movable groove (404) is provided with a rectangular groove (19), and a movable rod (20) is arranged in the rectangular groove (19); one end of the movable rod (20) is in sliding connection with the rectangular groove (19), and a compression wheel (21) is arranged at the other end of the movable rod (20).