CN117798720A - Cutting device for fastener manufacture and use process thereof - Google Patents

Abstract

The invention relates to the technical field of fastener manufacturing, in particular to a cutting device for fastener manufacturing and a using process thereof. The purpose of fastener manufacture is achieved by guiding the arrangement of the conveying structure and the thermosetting structure.

Description

Cutting device for fastener manufacture and use process thereof

Technical Field

The invention relates to the technical field of fastener manufacturing, in particular to a cutting device for fastener manufacturing and a using process thereof.

Background

Before the fastener is manufactured and processed, cutting treatment is needed, so that the fastener can be processed in a fixed length, the subsequent treatment on the surface of the fastener is facilitated, and the integrated fastener production work is facilitated.

According to chinese patent publication No. CN217343810U, a cutting device for fastener processing is disclosed, which comprises a workbench, the top of the workbench is fixedly sleeved with a feeding telescopic column, the top of the workbench is fixedly provided with a material clamping device, the top of the workbench is fixedly provided with a cutting knife set, the top of the workbench is fixedly provided with a stabilizer, the bottom of the workbench is movably sleeved with an adjusting column, the bottom of the workbench is fixedly provided with a discharging channel, in the above scheme, a blank block is clamped and fixed through a fourth clamping block and a third clamping block, so that the blank block is kept stable before thorough cutting, the centrifugal force is prevented from tearing in advance, the surface opening or protrusion of the blank block is prevented, the section flatness and quality standard of the blank block are ensured, and the accuracy of subsequent molding is ensured; in the scheme, the length of the blank block is adjusted by pushing the sliding block through the threaded rod, and the blank blocks with different diameters are cut into blank blocks with required lengths by adapting to different direct blank columns through the first clamping block and the second telescopic column;

the prior cutting device for manufacturing the fasteners and the scheme of the patent cases mostly adopt mechanized treatment to realize the cutting treatment of the fasteners by matching with manual work, but the full-automatic production is often needed during the production, and meanwhile, the cutting length is required to be ensured to be consistent during the production process, so that the standardized production work is better carried out, and therefore, the improvement is needed.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a cutting device for manufacturing a fastener and a using process thereof.

The technical scheme adopted for solving the technical problems is as follows: the cutting device for manufacturing the fastener comprises a guide transmission structure and a heating hardening structure, wherein the side end of the guide transmission structure is limited and connected with the heating hardening structure;

the guiding transmission structure comprises a first belt, a second belt, an alloy raw material, a transmission control component and a cutting processing component, wherein the alloy raw material is sleeved on the transmission control component, the side end of the alloy raw material is communicated with the cutting processing component, the transmission control component and the cutting processing component are fixedly connected, the side ends of the transmission control component and the cutting processing component are in driving connection through the first belt, and the centers of the transmission control component and the cutting processing component are in driving connection through the second belt;

the heating hardening structure comprises a heating control seat, a sealing guide plate, an isolation guide plate and a side support protection frame, wherein the front end of the side support protection frame is fixedly connected with the isolation guide plate, the upper end of the isolation guide plate and the upper end of the side support protection frame are fixedly connected with the sealing guide plate, and the upper end of the sealing guide plate is provided with the heating control seat.

Specifically, transmission control part includes cooperation roller dish, defeated material roller, power guide arm, motor, power roller, cooperation roller frame, auxiliary motor, support chassis, cooperation spacing roller frame and installation combination frame, the side drive of motor is connected with the power guide arm, fixedly connected with defeated material roller on the power guide arm, the side bottom fixedly connected with cooperation roller dish of power guide arm, the motor is through the spacing installation of support chassis.

Specifically, the center upper end fixed mounting of supporting the chassis has auxiliary motor, the last drive of auxiliary motor is connected with the power roller, fixedly connected with cooperation roller frame on the power roller, the upper end rotation of cooperation roller frame is connected with cooperation spacing roller frame, the rear end bottom fixedly connected with of supporting the chassis installs the combination frame.

Specifically, the processing part cuts includes driven roll dish, connection deflector roll, blade roll frame, spacing guide block, guide output seat, support underframe, rotation control axle, belt guide seat, contact output arbor wheel, supplementary bearing roller, spacing bearing frame, cooperation spacing guide dish, first branch and second branch, fixedly connected with guide output seat on the support underframe, it is connected with contact output arbor wheel to rotate on the guide output seat, contact output arbor wheel passes through rotation control axle drive connection, fixedly connected with belt guide seat on the rotation control axle.

Specifically, the rear end butt joint of guide output seat is equipped with supplementary carrier roller, the rear end fixed mounting of supporting the underframe has spacing bearing frame, it is connected with second branch to rotate on the spacing bearing frame, fixedly connected with spacing guide block on the second branch, fixedly connected with blade roller frame on the spacing guide block, the lateral end fixedly connected with of second branch connects the deflector roll, the lateral end fixedly connected with driven roller dish of connecting the deflector roll.

Specifically, the lower extreme rotation of blade roller frame, spacing guide block is connected with the spacing guide disc of cooperation, the spacing guide disc of cooperation is through the spacing connection of first branch.

Specifically, the heating hardening structure further comprises a transmission conduction band and a power control seat, wherein the transmission conduction band is connected to the power control seat in a driving mode, and a side support protection frame is fixedly connected to the power control seat.

Specifically, be connected with the cooperation roller frame of one side through the second belt on the belt guide, when cooperation roller frame rotates, drive second belt, belt guide follow and carry out normal running fit, driven roller dish is connected with cooperation roller dish drive through first belt and sets up.

Specifically, the lateral part upper end fixedly connected with of supporting baseplate frame installs the side frame board, install infrared monitor on the side frame board of installation.

A process for using a cutting device for fastener manufacture, comprising the steps of:

s1, firstly, an alloy raw material is wound on a material conveying roller, a motor at the moment works to drive a power guide rod to rotate, so that a matched roller disc and the power guide rod rotate along with each other, the alloy raw material at the moment is matched with the power roller in a transmission way through the rotation of the material conveying roller, the auxiliary machine can drive the power roller and a matched roller frame to rotate, so that a transmission control part transmits on the matched roller frame, and a matched limit roller frame at the upper end is contacted with the alloy raw material to carry out limit transmission treatment of the alloy raw material;

s2, the alloy material reaches a second power roller and a matching roller frame to realize continuous transmission, a driving piece is arranged on the second power roller, a rotation control shaft and a belt guide seat can be driven to rotate through a second belt, and when the rotation control shaft and the belt guide seat rotate, a contact output shaft wheel can be driven to perform rotation matching on the guide output seat to realize the guiding and transmission work of the alloy material;

s3, after the alloy raw materials reach the auxiliary bearing roller, the alloy raw materials continue to be transmitted to the matched limiting guide disc, the matched roller disc can drive the driven roller disc to rotate through the first belt, when the driven roller disc rotates, the connecting guide roller can be driven to rotate, the connecting guide roller can drive the blade roller frame, the limiting guide block and the second support rod to rotate along with the rotating, the alloy raw materials are transmitted on the matched limiting guide disc, and the blade roller frame can cut the alloy raw materials through the rotating, so that fixed-length cutting treatment work is realized;

s4, the finally cut alloy raw materials arrive at the transmission guide belt, the power control seat drives the transmission guide belt to operate at the moment, the alloy raw materials are driven to be transmitted and processed, meanwhile, the heating control seat can heat, preliminary hot working of the alloy raw materials is achieved, and the work is completed.

The invention has the beneficial effects that:

according to the invention, through the structural arrangement of the guiding and conveying structure, the alloy raw materials are conveniently conveyed and guided to work, the alloy raw materials are wound on the conveying roller, the motor can drive the matched roller disc and the power guide rod to rotate, meanwhile, the conveying roller follows to rotate, so that the alloy raw materials are conveyed continuously through the matched roller frame, the alloy raw materials reach the center of the guiding and outputting seat, the matched roller frame can drive the rotation control shaft and the belt guide seat to rotate through the second belt, the contact output shaft wheel can follow to rotate, the alloy raw materials are continuously conveyed, the alloy raw materials are transmitted to the matched limit guide disc through the auxiliary bearing roller, the matched roller disc drives the driven roller disc to rotate through the first belt, the driven roller disc drives the connecting guide roller, the blade roller frame, the limit guide seat block and the second support rod to rotate when the blade roller frame rotates, the lower end of the alloy raw materials can contact the alloy raw materials, the lower end of the alloy raw materials is limited through the matched limit guide disc, and the alloy raw materials are cut to a fixed length when the blade roller frame rotates.

The structure of the heating hardening structure is adopted, the cut alloy raw materials are transmitted to the transmission guide belt, the power control seat can drive the transmission guide belt to rotate at the moment, so that the alloy raw materials are transmitted and controlled, meanwhile, the heating control seat works to perform internal heating treatment, and the heating treatment can be matched when the alloy raw materials are transmitted, so that the heating hardening treatment is realized, the subsequent processing treatment work of the alloy raw materials is facilitated, and the alloy raw materials at the moment are raw materials for processing fasteners.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of a front perspective view of a main body of the present invention;

FIG. 2 is a schematic side view perspective of the main body of the present invention;

FIG. 3 is a rear perspective view of the main body of the present invention;

FIG. 4 is a schematic view of a front perspective view of a guiding and transporting structure according to the present invention;

FIG. 5 is a schematic view of a front perspective view of a transmission control unit according to the present invention;

FIG. 6 is a schematic view showing a front perspective of a cutting processing unit according to the present invention;

FIG. 7 is a schematic view of a front perspective view of a thermosetting structure according to the present invention;

FIG. 8 is a disassembled view of the thermosetting structure of the present invention;

fig. 9 is a front perspective view of a second embodiment of the body of the present invention.

In the figure: 1-guiding and conveying structure, 2-heating and hardening structure, 3-first belt, 4-second belt, 5-alloy raw material, 6-conveying and controlling part, 7-cutting and processing part, 8-matching roller disc, 9-conveying roller, 10-power guide rod, 11-motor, 12-power roller, 13-matching roller frame, 14-auxiliary motor, 15-supporting chassis, 16-matching limit roller frame, 17-mounting combined frame, 18-driven roller disc, 19-connecting guide roller, 20-blade roller frame, 21-limiting guide seat block, 22-guiding and outputting seat, 23-supporting bottom plate frame, 24-rotating control shaft, 25-belt guide seat, 26-contact output shaft wheel, 27-auxiliary bearing roller, 28-limiting bearing seat, 29-matching limit guide disc, 30-first support rod, 31-second support rod, 32-heating and controlling seat, 33-sealing, 34-isolating guide plate, 35-side support and protection frame, 36-conveying and monitoring guide belt, 37-power control seat, 38-infrared device and 39-mounting side guide plate frame.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Examples

As shown in fig. 1 to 8, the cutting device for manufacturing a fastener and the using process thereof of the invention comprise a guiding and conveying structure 1 and a heating and hardening structure 2, wherein the side end of the guiding and conveying structure 1 is limited and connected with the heating and hardening structure 2;

the guiding and conveying structure 1 comprises a first belt 3, a second belt 4, an alloy raw material 5, a conveying control part 6 and a cutting processing part 7, wherein the alloy raw material 5 is sleeved on the conveying control part 6, the side end of the alloy raw material 5 is communicated with the cutting processing part 7, the conveying control part 6 and the cutting processing part 7 are fixedly connected, the side ends of the conveying control part 6 and the cutting processing part 7 are in driving connection through the first belt 3, and the centers of the conveying control part 6 and the cutting processing part 7 are in driving connection through the second belt 4;

the heating hardening structure 2 comprises a heating control seat 32, a sealing guide plate 33, an isolation guide plate 34 and a side support protection frame 35, wherein the front end of the side support protection frame 35 is fixedly connected with the isolation guide plate 34, the upper end of the side support protection frame 35 is fixedly connected with the sealing guide plate 33, the heating control seat 32 is installed at the upper end of the sealing guide plate 33, the cut alloy raw materials 5 reach a transmission guide belt 36, the power control seat 37 drives the transmission guide belt 36 to operate, the alloy raw materials 5 are driven to be transmitted, meanwhile, the heating control seat 32 can perform heating work, and preliminary hot working on the alloy raw materials 5 is realized.

The transmission control part 6 comprises a matched roller disc 8, a material conveying roller 9, a power guide rod 10, a motor 11, a power roller 12, a matched roller frame 13, an auxiliary motor 14, a supporting underframe 15, a matched limit roller frame 16 and an installation combined frame 17, wherein the power guide rod 10 is connected to the side end of the motor 11 in a driving mode, the material conveying roller 9 is fixedly connected to the power guide rod 10, the matched roller disc 8 is fixedly connected to the bottom of the side end of the power guide rod 10, the motor 11 is installed in a limiting mode through the supporting underframe 15, the alloy raw material 5 is wound on the material conveying roller 9, the motor 11 works at the moment and drives the power guide rod 10 to rotate, the matched roller disc 8 and the power guide rod 10 rotate along with the rotation of the material conveying roller 9, the alloy raw material 5 at the moment is in transmission fit, the power roller frame 12 is reached, the auxiliary motor 14 can drive the power roller 12 and the matched roller frame 13 to rotate, the transmission control part 6 is in the matched roller frame 13, the matched limit roller frame 16 at the upper end is in contact with the alloy raw material 5, the limiting transmission treatment of the alloy raw material 5 is carried out, and then the second power roller 12 and the matched roller frame 13 is reached, and the purpose of continuous transmission is achieved.

An auxiliary motor 14 is fixedly arranged at the upper end of the center of the supporting underframe 15, a power roller 12 is connected to the auxiliary motor 14 in a driving mode, a matched roller frame 13 is fixedly connected to the power roller 12, a matched limit roller frame 16 is connected to the upper end of the matched roller frame 13 in a rotating mode, and an installation combined frame 17 is fixedly connected to the bottom of the rear end of the supporting underframe 15.

The cutting processing part 7 comprises a driven roller disc 18, a connecting guide roller 19, a blade roller frame 20, a limiting guide seat block 21, a guide output seat 22, a supporting baseplate frame 23, a rotation control shaft 24, a belt guide seat 25, a contact output shaft wheel 26, an auxiliary bearing roller 27, a limiting bearing seat 28, a matched limiting guide disc 29, a first supporting rod 30 and a second supporting rod 31, wherein the guide output seat 22 is fixedly connected to the supporting baseplate frame 23, the contact output shaft wheel 26 is rotationally connected to the guide output seat 22, the contact output shaft wheel 26 is in driving connection through the rotation control shaft 24, the belt guide seat 25 is fixedly connected to the rotation control shaft 24, a driving piece is arranged on the second power roller 12, the rotation control shaft 24 and the belt guide seat 25 can be driven to rotate through a second belt 4, when the rotation control shaft 24 and the belt guide seat 25 rotate, the contact output shaft wheel 26 can be driven to perform rotation fit on the guide output seat 22, so that the guiding transmission work of the alloy raw materials 5 is realized, and then the alloy raw materials 5 reach the auxiliary bearing roller 27 to be continuously transmitted to the matched limiting guide disc 29.

The rear end butt joint of guide output seat 22 is equipped with supplementary carrier roller 27, support the rear end fixed mounting of underframe 23 has spacing bearing frame 28, rotate on the spacing bearing frame 28 and be connected with second branch 31, fixedly connected with spacing guide block 21 on the second branch 31, fixedly connected with blade roller frame 20 on the spacing guide block 21, the side fixedly connected with of second branch 31 connects deflector roll 19, the side fixedly connected with driven roller dish 18 of connecting deflector roll 19, cooperation roller dish 8 can drive driven roller dish 18 through first belt 3 and rotate, when driven roller dish 18 rotates, can drive the connection deflector roll 19 and rotate, connect deflector roll 19 can drive blade roller frame 20, spacing guide block 21, second branch 31 follow and rotate, alloy raw materials 5 at this moment is transmitted on cooperation spacing deflector dish 29, blade roller frame 20 is through rotating, can cut the processing to alloy raw materials 5, thereby realize fixed length's cutting treatment work.

The lower ends of the blade roller frame 20 and the limiting guide seat block 21 are rotatably connected with a matched limiting guide disc 29, and the matched limiting guide disc 29 is in limiting connection through a first supporting rod 30.

The heat hardening structure 2 further comprises a transmission conduction band 36 and a power control seat 37, the transmission conduction band 36 is connected to the power control seat 37 in a driving mode, and the side support protection frame 35 is fixedly connected to the power control seat 37.

The belt guide seat 25 is connected with the matched roller frame 13 on one side through the second belt 4, and when the matched roller frame 13 rotates, the second belt 4 and the belt guide seat 25 are driven to be in follow-up running fit, and the driven roller disc 18 is in driving connection with the matched roller disc 8 through the first belt 3.

A process for using a cutting device for fastener manufacture, comprising the steps of:

s1, firstly, an alloy raw material 5 is wound on a material conveying roller 9, a motor 11 works at the moment to drive a power guide rod 10 to rotate, so that a matching roller disc 8 and the power guide rod 10 rotate along with each other, the alloy raw material 5 is transmitted and matched through the rotation of the material conveying roller 9 to reach a power roller 12, an auxiliary motor 14 can drive the power roller 12 and a matching roller frame 13 to rotate, so that a transmission control part 6 is transmitted on the matching roller frame 13, a matching limiting roller frame 16 at the upper end is in contact with the alloy raw material 5, and limiting transmission treatment of the alloy raw material 5 is performed;

s2, the alloy material reaches the second power roller 12 and the matching roller frame 13 to realize continuous transmission, a driving piece is arranged on the second power roller 12, the second belt 4 can drive the rotation control shaft 24 and the belt guide seat 25 to rotate, and when the rotation control shaft 24 and the belt guide seat 25 rotate, the contact output shaft wheel 26 can be driven to perform rotation matching on the guide output seat 22 to realize the guide transmission work of the alloy material 5;

s3, after the alloy raw material 5 reaches the auxiliary bearing roller 27, the alloy raw material is continuously transmitted and is transmitted to the matched limiting guide disc 29, the matched roller disc 8 at the moment can drive the driven roller disc 18 to rotate through the first belt 3, when the driven roller disc 18 rotates, the connecting guide roller 19 can be driven to rotate, the connecting guide roller 19 can drive the blade roller frame 20, the limiting guide block 21 and the second support rod 31 to rotate along with the rotation, the alloy raw material 5 at the moment is transmitted on the matched limiting guide disc 29, and the blade roller frame 20 can cut the alloy raw material 5 through rotation, so that the fixed-length cutting treatment work is realized;

s4, the finally cut alloy raw material 5 reaches the transmission conduction band 36, and the power control seat 37 drives the transmission conduction band 36 to operate at the moment to drive the alloy raw material 5 to carry out transmission treatment, and meanwhile, the heating control seat 32 can carry out heating work, so that preliminary hot working of the alloy raw material 5 is realized, and the work is completed.

In the embodiment, a user installs the guiding and transmitting structure 1 and the heating and hardening structure 2 in a combined way, the alloy raw material 5 is wound on the material conveying roller 9, the motor 11 works at the moment to drive the power guide rod 10 to rotate, so that the matching roller disc 8 and the power guide rod 10 rotate along with each other, the alloy raw material 5 is transmitted and matched through the rotation of the material conveying roller 9 to reach the power roller 12, the auxiliary motor 14 can drive the power roller 12 and the matching roller frame 13 to rotate, so that the transmission control part 6 transmits on the matching roller frame 13, the matching limit roller frame 16 at the upper end is contacted with the alloy raw material 5 to carry out limit transmission treatment of the alloy raw material 5, then reaches the second power roller 12 and the matching roller frame 13 to realize continuous transmission, the driving piece is arranged on the second power roller 12, the second belt 4 can drive the rotation control shaft 24 and the belt guide seat 25 to rotate, when the rotation control shaft 24 and the belt guide seat 25 rotate, the contact output shaft wheel 26 can be driven to rotate on the guide output seat 22 to realize the guiding and conveying work of the alloy raw material 5, then the alloy raw material 5 reaches the auxiliary bearing roller 27 to continue conveying and is conveyed to the matching limit guide disc 29, the matching roller disc 8 can drive the driven roller disc 18 to rotate through the first belt 3, the connecting guide roller 19 can be driven to rotate when the driven roller disc 18 rotates, the connecting guide roller 19 can drive the blade roller frame 20, the limit guide seat block 21 and the second support rod 31 to rotate along with the rotation, the alloy raw material 5 at the moment is conveyed on the matching limit guide disc 29, the blade roller frame 20 can cut the alloy raw material 5 through rotation, and thus the fixed-length cutting work is realized, then the cut alloy raw material 5 reaches the transmission conduction band 36, and the power control seat 37 drives the transmission conduction band 36 to operate at the moment to drive the alloy raw material 5 to carry out transmission treatment, and meanwhile, the heating control seat 32 can carry out heating work, so that preliminary hot working of the alloy raw material 5 is realized, and the work is completed.

Examples

On the basis of embodiment 1, as shown in fig. 9, the upper end of the side portion of the support floor frame 23 is fixedly connected with a mounting side frame plate 39, and an infrared monitor 38 is mounted on the mounting side frame plate 39.

When the embodiment is implemented, a user installs the infrared monitor 38 and the installation side frame plate 39, the installation side frame plate 39 supports the infrared monitor 38, the infrared monitor 38 can sense the alloy raw materials 5, the feeding monitoring work is assisted, and after the feeding of the alloy raw materials 5 is completed, the feeding can be prompted to the outside.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A cutting device for fastener manufacture, characterized in that: the device comprises a guide transmission structure (1) and a heating hardening structure (2), wherein the side end of the guide transmission structure (1) is limited and connected with the heating hardening structure (2);

the guiding transmission structure (1) comprises a first belt (3), a second belt (4), an alloy raw material (5), a transmission control component (6) and a cutting processing component (7), wherein the alloy raw material (5) is sleeved on the transmission control component (6), the side end of the alloy raw material (5) is communicated with the cutting processing component (7), the transmission control component (6) and the cutting processing component (7) are fixedly connected, the side ends of the transmission control component (6) and the cutting processing component (7) are in driving connection through the first belt (3), and the centers of the transmission control component (6) and the cutting processing component (7) are in driving connection through the second belt (4);

the heating hardening structure (2) comprises a heating control seat (32), a sealing guide plate (33), an isolation guide plate (34) and a side support protection frame (35), wherein the front end of the side support protection frame (35) is fixedly connected with the isolation guide plate (34), the upper end of the isolation guide plate (34) and the upper end of the side support protection frame (35) are fixedly connected with the sealing guide plate (33), and the upper end of the sealing guide plate (33) is provided with the heating control seat (32).

2. A cutting device for fastener manufacture according to claim 1, wherein: the transmission control component (6) comprises a matching roller disc (8), a material conveying roller (9), a power guide rod (10), a motor (11), a power roller (12), a matching roller frame (13), an auxiliary motor (14), a supporting underframe (15), a matching limiting roller frame (16) and an installation combined frame (17), wherein the power guide rod (10) is connected with a side end drive of the motor (11), the material conveying roller (9) is fixedly connected to the power guide rod (10), the matching roller disc (8) is fixedly connected to the bottom of the side end of the power guide rod (10), and the motor (11) is installed in a limiting mode through the supporting underframe (15).

3. A cutting device for fastener manufacture according to claim 2, wherein: the auxiliary motor (14) is fixedly arranged at the upper end of the center of the supporting underframe (15), the power roller (12) is connected to the auxiliary motor (14) in a driving mode, the matching roller frame (13) is fixedly connected to the power roller (12), the matching limiting roller frame (16) is rotatably connected to the upper end of the matching roller frame (13), and the installation combined frame (17) is fixedly connected to the bottom of the rear end of the supporting underframe (15).

4. A cutting device for fastener manufacture according to claim 3, wherein: the cutting processing component (7) comprises a driven roller disc (18), a connecting guide roller (19), a blade roller frame (20), a limiting guide block (21), a guide output seat (22), a supporting baseplate frame (23), a rotating control shaft (24), a belt guide seat (25), a contact output shaft wheel (26), an auxiliary bearing roller (27), a limiting bearing seat (28), a matched limiting guide disc (29), a first supporting rod (30) and a second supporting rod (31), the supporting baseplate frame (23) is fixedly connected with the guide output seat (22), the guide output seat (22) is rotationally connected with the contact output shaft wheel (26), the contact output shaft wheel (26) is in driving connection through the rotating control shaft (24), and the rotating control shaft (24) is fixedly connected with the belt guide seat (25).

5. The cutting device for fastener manufacture of claim 4, wherein: the rear end butt joint of guide output seat (22) is equipped with supplementary carrier roller (27), the rear end fixed mounting of supporting baseplate frame (23) has spacing bearing frame (28), rotate on spacing bearing frame (28) and be connected with second branch (31), fixedly connected with spacing guide block (21) on second branch (31), fixedly connected with blade roller frame (20) on spacing guide block (21), the side fixedly connected with of second branch (31) connects deflector roll (19), the side fixedly connected with driven roller dish (18) of connecting deflector roll (19).

6. A cutting device for fastener manufacture according to claim 5, wherein: the lower ends of the blade roller frame (20) and the limiting guide seat block (21) are rotationally connected with a matched limiting guide disc (29), and the matched limiting guide disc (29) is in limiting connection through a first supporting rod (30).

7. The cutting device for fastener manufacture of claim 6, wherein: the heating hardening structure (2) further comprises a transmission conduction band (36) and a power control seat (37), the transmission conduction band (36) is connected to the power control seat (37) in a driving mode, and a side support protection frame (35) is fixedly connected to the power control seat (37).

8. The cutting device for fastener manufacture of claim 7, wherein: the belt guide seat (25) is connected with a matched roller frame (13) on one side through a second belt (4), when the matched roller frame (13) rotates, the second belt (4) and the belt guide seat (25) are driven to be in follow-up running fit, and the driven roller disc (18) is in driving connection with the matched roller disc (8) through a first belt (3).

9. The cutting device for fastener manufacture of claim 8, wherein: the side upper end of the supporting baseplate frame (23) is fixedly connected with a mounting side frame plate (39), and an infrared monitor (38) is mounted on the mounting side frame plate (39).

10. A process for using the cutting device for fastener manufacture according to claim 8, comprising the steps of:

s1, firstly, an alloy raw material (5) is wound on a material conveying roller (9), a motor (11) works at the moment to drive a power guide rod (10) to rotate, so that a matched roller disc (8) and the power guide rod (10) rotate along with each other, the alloy raw material (5) is conveyed and matched through the rotation of the material conveying roller (9) to reach a power roller (12), an auxiliary motor (14) can drive the power roller (12) and a matched roller frame (13) to rotate, a conveying control part (6) is conveyed on the matched roller frame (13), and a matched limiting roller frame (16) at the upper end is contacted with the alloy raw material (5) to carry out limiting conveying treatment of the alloy raw material (5);

s2, the alloy material reaches a second power roller (12) and a matching roller frame (13) to realize continuous transmission, a driving piece is arranged on the second power roller (12), a rotation control shaft (24) and a belt guide seat (25) can be driven to rotate through a second belt (4), and when the rotation control shaft (24) and the belt guide seat (25) rotate, a contact output shaft wheel (26) can be driven to perform rotation matching on a guide output seat (22), so that the guiding and transmission work of the alloy material (5) is realized;

s3, after the alloy raw material (5) reaches the auxiliary bearing roller (27), the alloy raw material is continuously transmitted to the matched limiting guide disc (29), the matched roller disc (8) can drive the driven roller disc (18) to rotate through the first belt (3), when the driven roller disc (18) rotates, the connecting guide roller (19) can be driven to rotate, the connecting guide roller (19) can drive the blade roller frame (20), the limiting guide block (21) and the second support rod (31) to rotate along with the rotating, the alloy raw material (5) at the moment is transmitted on the matched limiting guide disc (29), and the blade roller frame (20) can cut the alloy raw material (5) through rotation, so that the fixed-length cutting treatment work is realized;

s4, the finally cut alloy raw material (5) reaches the transmission conduction band (36), the power control seat (37) drives the transmission conduction band (36) to operate at the moment, the alloy raw material (5) is driven to be transmitted, meanwhile, the heating control seat (32) can heat, preliminary hot working of the alloy raw material (5) is achieved, and the work is completed.