CN107952909B

CN107952909B - A processor for processing metal wire into crooked frame structure

Info

Publication number: CN107952909B
Application number: CN201810027701.2A
Authority: CN
Inventors: 王甫; 牛莉; 段贤勇; 孙燕; 张新建; 李双柱; 王怀韬
Original assignee: Anhui Technical College of Mechanical and Electrical Engineering
Current assignee: Anhui Technical College of Mechanical and Electrical Engineering
Priority date: 2018-01-11
Filing date: 2018-01-11
Publication date: 2024-05-17
Anticipated expiration: 2038-01-11
Also published as: CN107952909A

Abstract

The invention relates to the field of wire rod processing, in particular to a processing machine for processing metal wire rods into a bent frame-type structure. Including processing frame, transmission orthotic devices and location bending device, transmission orthotic devices includes locating rack, initiative compacting component and driven compacting component, be equipped with location drive part on the processing frame, location bending device is including crossing line locating part, installing the location bending part of crossing line locating part top and installing the bending drive part that is used for driving location bending part along the length direction removal of processing frame on the processing frame, location bending part is connected with the bending drive part transmission. In the positioning and bending process, the positioning cylinders are arranged to accurately position the wire to be processed in the processing and bending process, so that the processing and bending operation of the wire can be realized, and the bending driving part drives the positioning and bending part to move, so that the bending operation of a plurality of positions of the wire can be satisfied.

Description

A processor for processing metal wire into crooked frame structure

Technical Field

The invention relates to the field of wire rod processing, in particular to a processing machine for processing metal wire rods into a bent frame-type structure.

Background

At present, in building or other industries, metal wires are often required to be bent into different sizes, firstly, slightly bent wires are changed into a straight state through compaction and correction, then, the straight metal wires are bent into a pre-designed structure through automatic or manual operation, and in the prior art, the equipment for bending the metal wires comprises two types, namely a stamping forming machine and a wheel type rolling forming machine. The two molding machines have the following defects: the stamping forming machine has the defects of serious surface scratch and low production efficiency of metal wires; the wheel type rolling forming machine has irregular forming and certain limit on the height after folding. Moreover, the bending machine in the prior art can only produce metal wires with fixed pitch and height, and the pitch and the height of bending of the metal wires cannot be adjusted at will on the bending machine.

The invention patent CN201168756Y discloses a frame provided with a guide rail on a metal wire bending machine, a stepping mechanism, a push rod mechanism, a left bending mechanism and a right bending mechanism which are symmetrically arranged on two sides of the push rod mechanism and have the same structure; the stepping mechanism is arranged on the upper side of the workbench surface of the rack and comprises a stroke-adjustable cylinder and a wire clamping device which are arranged in the horizontal direction; the left bending mechanism and the right bending mechanism are arranged on the lower side of the working table surface in the moving direction of the metal wire rod on one side of the stepping mechanism, and bending operation of the wire rod to be processed can be realized through the mode.

In the actual bending process, the bending operation of the metal wire to be processed in the bending process needs to be considered, and the deviation of the expected bending position possibly occurs in the bending positioning process, so that the error of the size of the bent wire can possibly lead to the waste of the whole metal wire, and the output of manpower and material resources is further increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a processing machine for processing metal wires into a bent frame structure.

In order to solve the problems, the invention provides the following technical scheme:

The utility model provides a processing machine for processing metal wire into crooked frame type structure, includes processing frame, installs at the processing frame top and is used for carrying out preliminary correction's transmission orthotic devices and installs on the processing frame and be located the location bending device of transmission orthotic devices output, transmission orthotic devices includes the locating rack, installs on the locating rack and is the initiative compressing tightly part and the driven compressing tightly part that the symmetry set up, processing frame is last and be located the side of locating rack and be equipped with and be used for driving driven compressing tightly part pivoted location drive part, location bending device is including installing the line location part at processing frame top, install the location bending part of crossing line location part top and install the bending drive part that is used for driving location bending part along the length direction removal of processing frame on the processing frame, location bending part is connected with the bending drive part transmission.

Further, the processing frame includes processing panel and a plurality of supporting legs that are rectangular structure and distribute in processing panel bottom, processing panel's below just is the backup pad that the horizontality set up between a plurality of supporting legs, the inside wall fixed connection of edge and a supporting leg all around of backup pad respectively.

Further, the locating rack is vertical state setting at the top of processing panel, initiative compacting component is including installing initiative clamp roller, initiative transfer line on the locating rack lateral wall and installing the worm wheel on initiative transfer line, initiative transfer line sets up along the width direction of processing panel, the one end of initiative transfer line runs through the central point put fixed connection of locating rack and initiative clamp roller, and the other end sets up on the inside wall on the locating rack, be equipped with on the locating rack and supply initiative transfer line both ends to remove the sliding tray along vertical direction, the top of locating rack is equipped with the rolling disc, the central point put of rolling disc is equipped with the worm, the worm sets up along vertical direction downwards, worm wheel and worm meshing.

Further, the driven compacting component comprises a driven compacting roller arranged below the driving compacting roller and a driven transmission rod arranged on the positioning frame, two ends of the driven transmission rod respectively penetrate through the positioning frame and extend along the width direction of the processing panel, one end of the driven transmission rod is fixedly connected with the central position of the driven compacting roller, and the other end of the driven transmission rod is in transmission connection with the positioning driving component.

Further, the line locating part is including setting up the line cylinder that is cylindrical structure on processing panel, a plurality of along the equidistant positioning cylinder that distributes of line cylinder axis and install and be used for driving a plurality of positioning cylinders and remove along vertical direction's whole drive assembly together in line cylinder bottom, the tip of line cylinder is equipped with the first through-hole that supplies the wire rod of waiting to bend to pass, it is equipped with a rectangle through slot to distribute on the upper and lower outer circumference lateral wall of line cylinder, every rectangle through slot all passes the line cylinder along processing panel's length direction transversal, every rectangle through slot's bottom all is equipped with a plurality of second through-holes along line cylinder axis direction equidistant distribution, every second through-hole all communicates with first through-hole.

Further, a plurality of the positioning cylinder and a plurality of second through holes of setting in the line drum bottom one-to-one, every be located all be equipped with the stopper that two symmetries set up on the inside wall of the second through hole of line drum bottom, every be equipped with two spacing grooves on the outer circumference wall of positioning cylinder, two spacing grooves and two stopper one-to-one, every the lateral wall of stopper is wave structure, the first half of positioning cylinder is equipped with the positioning through groove, the positioning through groove runs through the positioning cylinder along the axis direction of perpendicular to line drum.

Further, the whole drive assembly is including installing the loading board in the logical inslot of line drum bottom, installing in the loading board bottom and along the mounting panel that processing panel's width direction set up and installing the carriage at the mounting panel side, be equipped with the actuating cylinder that is vertical state setting on the carriage, the tip and the top fixed connection of mounting panel of actuating cylinder telescopic link.

Further, the bending driving component comprises a driving motor arranged on the supporting plate, two positioning guide rails symmetrically arranged between the supporting plate and the processing panel and a positioning installation seat arranged on the two positioning guide rails simultaneously, a rotating disc is arranged on a main shaft of the driving motor, a first connecting rod and a second connecting rod are arranged between the central position of the rotating disc and the bottom of the positioning installation seat, one end of the first connecting rod is fixedly connected with the main shaft of the driving motor, one end of the second connecting rod is hinged to one end of the first connecting rod, which is far away from the driving motor, and the other end of the second connecting rod is fixedly connected with the bottom of the positioning installation seat.

Further, the location part of bending is including installing the cylinder of bending on the location mount pad, bending the locating plate and two guide bars of installing in the cylinder lateral part of bending, the tip of the cylinder telescopic link of bending and the bottom of two guide bars all with the top fixed connection of the locating plate of bending.

The beneficial effects are that: according to the processing machine for processing the metal wire into the bent frame-type structure, when the metal wire is bent, the wire to be bent passes through the space between the driving compression roller and the driven compression roller, the driven compression roller is driven to rotate through the positioning driving part, the wire to be bent is driven to move along the length direction of the processing frame until penetrating through the whole wire passing cylinder, the positioning operation of the wire to be bent is realized through the positioning cylinders on the wire passing cylinder, after the position of the wire to be bent is determined, the bending operation of the wire to be bent is realized through the positioning bending part, the positioning bending part is driven to move along the length direction of the processing panel through the bending driving part, and therefore the processing of multiple sections of positions of the wire to be processed can be met, in the positioning bending process, the accurate positioning of the wire to be processed can be realized, the positioning bending operation of the wire can be realized through the positioning bending driving part, and the bending operation of multiple positions of the wire can be met.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic perspective view of a transmission correcting device according to the present invention;

FIG. 5 is a schematic diagram showing a perspective view of a transmission correcting device according to the present invention;

FIG. 6 is a schematic perspective view of a processing rack and bending drive assembly of the present invention;

FIG. 7 is a front view of the tooling frame and bend drive components of the present invention;

FIG. 8 is a schematic perspective view of the wire passing positioning member of the present invention;

FIG. 9 is a side view of the wire passing positioning member of the present invention;

FIG. 10 is a cross-sectional view taken along line B-B in FIG. 9;

FIG. 11 is a perspective partial cross-sectional view of a wire passing cylinder of the present invention;

Reference numerals illustrate: the machining frame 1, the machining panel 1a, the supporting legs 1b, the supporting plate 1c, the transmission correcting device 2, the positioning frame 2a, the rotating disc 2a1, the worm 2a2, the driving pressing part 2b, the driving pressing roller 2b1, the driving transmission rod 2b2, the worm wheel 2b3, the driven pressing part 2c, the driven pressing roller 2c1, the driven transmission rod 2c2, the positioning driving part 2d, the positioning bending device 3, the threading positioning part 3a, the positioning bending part 3b, the bending driving part 3c, the driving motor 3c1, the positioning guide rail 3c2, the positioning mounting seat 3c3, the first connecting rod 3c4, the second connecting rod 3c5, the threading cylinder 3d, the positioning cylinder 3e, the integral driving assembly 3f, the bearing plate 3f1, the mounting plate 3f2, the bearing frame 3f3, the limiting block 3g, the driving cylinder 3h, the bending cylinder 3i, the bending positioning plate 3j and the guide rod 3k.

Detailed Description

Specific embodiments of the invention are described in further detail below with reference to the drawings and examples of the specification:

Referring to fig. 1 to 11, a processing machine for processing metal wires into a bent frame structure comprises a processing frame 1, a transmission correcting device 2 installed at the top of the processing frame 1 and used for carrying out preliminary correction on the metal wires to be processed, and a positioning bending device 3 installed on the processing frame 1 and located at the output end of the transmission correcting device 2, wherein the transmission correcting device 2 comprises a positioning frame 2a, a driving pressing part 2b and a driven pressing part 2c which are installed on the positioning frame 2a and are symmetrically arranged, a positioning driving part 2d used for driving the driven pressing part 2c to rotate is arranged on the side of the processing frame 1 and located at the side of the positioning frame 2a, and the positioning bending device 3 comprises a wire passing positioning part 3a installed at the top of the processing frame 1, a positioning bending part 3b installed above the wire passing positioning part 3a and a bending driving part 3c installed on the processing frame 1 and used for driving the positioning bending part 3b to move along the length direction of the processing frame 1, and the positioning bending part 3b is in transmission connection with the bending driving part 3 c.

Working principle: when the metal wire is bent, firstly, the wire to be bent passes through the space between the driving compression roller 2b1 and the driven compression roller 2c1, the driven compression roller 2c1 is driven to rotate by the positioning driving part 2d, the wire to be bent is driven to move along the length direction of the processing frame 1 until penetrating the whole wire passing cylinder 3d, the positioning operation of the wire to be bent is realized by a plurality of positioning cylinders 3e on the wire passing cylinder 3d, after the position of the wire to be bent is determined, the bending operation of the wire to be bent is realized by the positioning bending part 3b, the positioning bending part 3b is driven to move along the length direction of the processing panel 1a by the bending driving part 3c, and then the processing of a plurality of sections of positions of the wire to be processed can be satisfied.

The processing frame 1 includes processing panel 1a and a plurality of supporting legs 1b that are rectangular structure and distribute in processing panel 1a bottom, processing panel 1 a's below just is the backup pad 1c that the horizontality set up between a plurality of supporting legs 1b, backup pad 1 c's peripheral edge respectively with the inside wall fixed connection of a supporting leg 1b, processing panel 1a has realized the bearing operation of driving orthotic devices 2 and location bending device 3, can provide stable processing platform for processing bending operation, and processing panel 1a bottom a plurality of supporting legs 1 b's setting can realize stable supporting operation to processing panel 1a, when bending operation to the metal wire, can realize stable bending operation, and then improved the bending operation to the metal wire.

The positioning frame 2a is vertically arranged at the top of the processing panel 1a, the active pressing component 2b comprises an active pressing roller 2b1, an active transmission rod 2b2 and a worm wheel 2b3 arranged on the active transmission rod 2b2, the active transmission rod 2b2 is arranged along the width direction of the processing panel 1a, one end of the active transmission rod 2b2 penetrates through the positioning frame 2a and is fixedly connected with the central position of the active pressing roller 2b1, the other end of the active transmission rod 2b is arranged on the inner side wall of the positioning frame 2a, sliding grooves for moving the two ends of the active transmission rod 2b2 along the vertical direction are arranged on the positioning frame 2a, a rotating disc 2a1 is arranged at the top of the positioning frame 2a, the center position of the rotating disc 2a1 is provided with a worm 2a2, the worm 2a2 is downwards arranged along the vertical direction, the worm wheel 2b3 is meshed with the worm 2a2, when the wire to be bent is required to be bent, the wire to be bent is required to be positioned and corrected, in the correcting process, the worm 2a2 is driven to rotate through the rotating disc 2a1 arranged on the positioning frame 2a, because the worm 2a2 is meshed with the worm wheel 2b3, the worm wheel 2b3 is driven to rotate, the worm wheel 2b3 is sleeved on the driving transmission rod 2b2, and then the driving compression roller 2b1 can be driven to rotate, and the wire to be bent is driven to extend and move along the length direction of the processing panel 1 a.

The driven pressing part 2c comprises a driven pressing roller 2c1 arranged below the driving pressing roller 2b1 and a driven transmission rod 2c2 arranged on the positioning frame 2a, two ends of the driven transmission rod 2c2 penetrate through the positioning frame 2a respectively and extend along the width direction of the processing panel 1a, one end of the driven transmission rod 2c2 is fixedly connected with the center position of the driven pressing roller 2c1, the other end of the driven transmission rod 2c2 is in transmission connection with the positioning driving part 2d, and when a metal wire to be bent is driven to move along the length direction of the processing panel 1a, the driven transmission rod 2c2 is driven to rotate through the positioning driving part 2d, and the driven pressing roller 2c1 is in transmission connection with the driven transmission rod 2c2 so as to be matched with the driving pressing roller 2b1, so that the driving movement operation of the wire to be bent is realized.

The wire passing positioning component 3a comprises a wire passing cylinder 3d which is arranged on the processing panel 1a and is in a cylindrical structure, a plurality of positioning cylinders 3e which are distributed at equal intervals along the axis of the wire passing cylinder 3d, and an integral driving component 3f which is arranged at the bottom of the wire passing cylinder 3d and is used for driving the positioning cylinders 3e to move along the vertical direction, wherein first through holes for the wires to be bent to pass through are formed in the end part of the wire passing cylinder 3d, rectangular through grooves are distributed on the upper and lower outer circumferential side walls of the wire passing cylinder 3d, each rectangular through groove penetrates through the wire passing cylinder 3d along the length direction of the processing panel 1a, a plurality of second through holes which are distributed at equal intervals along the axis direction of the wire passing cylinder 3d are formed in the bottom of each rectangular through groove, each second through hole is communicated with the first through holes, and when the metal wires pass through the wire passing through cylinder 3d, the integral driving component 3f drives the bending positioning parts to move along the vertical direction together, so that the wires to be bent can be positioned and effectively bent in the positioning mode.

The utility model provides a plurality of positioning cylinder 3e with set up a plurality of second through-holes one-to-one in the line drum 3d bottom, every be located all be equipped with two stopper 3g that the symmetry set up on the inside wall of the second through-hole of line drum 3d bottom, every be equipped with two spacing grooves on the outer circumference wall of positioning cylinder 3e, two spacing grooves and two stopper 3g one-to-one, every the lateral wall of stopper 3g is wave structure, positioning cylinder 3 e's first half is equipped with the positioning through-groove, the positioning through-groove runs through positioning cylinder 3e along the axis direction of perpendicular to line drum 3d, and every second through-hole all can satisfy the positioning operation to a positioning cylinder 3e, and the setting of two stoppers 3g can satisfy the assembly operation to positioning cylinder 3e on the second through-hole, and then can satisfy the in-process realization accurate positioning operation at the processing metal wire.

The whole drive assembly 3f includes the loading board 3f1 of installing in the logical inslot of line drum 3d bottom, installs the mounting panel 3f2 that just set up along the width direction of processing panel 1a in loading board 3f1 bottom and installs the loading frame 3f3 of mounting panel 3f2 side, be equipped with the actuating cylinder 3h that is vertical state setting on the loading frame 3f3, the tip and the top fixed connection of mounting panel 3f2 of actuating cylinder 3h telescopic link, the installation operation to actuating cylinder 3h can be installed in the setting of loading frame 3f3, after the metal wire to be processed carries out the operation of bending, drives mounting panel 3f2 along vertical direction downwardly moving through actuating cylinder 3h, because mounting panel 3f2 and loading panel 3f1 fixed connection have driven whole loading board 3f1 and a plurality of locating cylinder 3e of installing on loading board 3f1 and have moved, can satisfy when taking out the metal wire after the completion of bending, can not produce the problem such as stop to the metal wire that the processing was accomplished.

The bending driving part 3c comprises a driving motor 3c1 arranged on the supporting plate 1c, two positioning guide rails 3c2 symmetrically arranged between the supporting plate 1c and the processing panel 1a and a positioning installation seat 3c3 simultaneously arranged on the two positioning guide rails 3c2, a rotating disc 2a1 is arranged on a main shaft of the driving motor 3c1, a first connecting rod 3c4 and a second connecting rod 3c5 are arranged between the central position of the rotating disc 2a1 and the bottom of the positioning installation seat 3c3, one end of the first connecting rod 3c4 is fixedly connected with the main shaft of the driving motor 3c1, one end of the second connecting rod 3c5 is hinged with one end of the first connecting rod 3c4 away from the driving motor 3c1, the other end of the second connecting rod 3c5 is fixedly connected with the bottom of the positioning installation seat 3c3, the first connecting rod 3c4 is driven to rotate through the driving motor 3c1, the first connecting rod 3c4 is hinged with the second connecting rod 3c5, and then the second connecting rod 3c5 is driven to rotate, because the positioning installation seat 3c3 is simultaneously installed on the two positioning guide rails 3c2, and then the second connecting rod 3c5 is driven to rotate through the first connecting rod 3c4, the second connecting rod 3c5 drives the positioning installation seat 3c3 to simultaneously move on the two positioning guide rails 3c2, and further the bending operation of the metal wire to be bent, which is positioned in the wire passing cylinder 3d, can be met.

The positioning bending component 3b comprises a bending cylinder 3i, a bending positioning plate 3j and two guide rods 3k, wherein the bending cylinder 3i and the bending positioning plate 3j are installed on a positioning installation seat 3c3, the end parts of the telescopic rods of the bending cylinder 3i and the bottom ends of the two guide rods 3k are fixedly connected with the top parts of the bending positioning plate 3j, when a metal wire to be bent is subjected to bending operation, the bending cylinder 3i drives the two guide rods 3k and the bending positioning plate 3j to move along the vertical direction, when the bending cylinder 3i drives the bending positioning rod to move through the bottom part of a through groove of the upper half part of the wire cylinder 3d, the two guide rods 3k and the bending positioning plate 3j are not moved at the bottom part of the through groove, and the telescopic rods of the bending cylinder 3i can continuously move downwards, so that the metal wire to be bent can be subjected to bending operation.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present invention are still within the scope of the technical solutions of the present invention.

Claims

1. A processing machine for processing a metal wire into a bent frame structure, characterized by: the device comprises a processing frame (1), a transmission correcting device (2) arranged at the top of the processing frame (1) and used for carrying out preliminary correction on metal wires to be processed, and a positioning bending device (3) arranged on the processing frame (1) and positioned at the output end of the transmission correcting device (2), wherein the transmission correcting device (2) comprises a positioning frame (2 a), a driving pressing part (2 b) and a driven pressing part (2 c) which are arranged on the positioning frame (2 a) in a symmetrical mode, a positioning driving part (2 d) used for driving the driven pressing part (2 c) to rotate is arranged on the processing frame (1) and positioned beside the positioning frame (2 a), the positioning bending device (3) comprises a wire passing positioning part (3 a) arranged at the top of the processing frame (1), a positioning bending part (3 b) arranged above the wire passing positioning part (3 a) and a bending driving part (3 c) arranged on the processing frame (1) and used for driving the positioning bending part (3 b) to move along the length direction of the processing frame (1), and the positioning bending part (3 b) is connected with the driving part (3 c) in a bending mode;

The processing frame (1) comprises a processing panel (1 a) and a plurality of supporting legs (1 b) which are distributed at the bottom of the processing panel (1 a) in a rectangular structure, wherein a supporting plate (1 c) is arranged below the processing panel (1 a) and between the supporting legs (1 b) in a horizontal state, and the peripheral edges of the supporting plate (1 c) are fixedly connected with the inner side wall of one supporting leg (1 b) respectively;

the wire passing positioning component (3 a) comprises a wire passing cylinder (3 d) which is arranged on the processing panel (1 a) and is in a cylindrical structure, a plurality of positioning cylinders (3 e) which are distributed at equal intervals along the axis of the wire passing cylinder (3 d), and an integral driving component (3 f) which is arranged at the bottom of the wire passing cylinder (3 d) and is used for driving the positioning cylinders (3 e) to move along the vertical direction together, wherein a first through hole for a wire to be bent to pass through is formed at the end part of the wire passing cylinder (3 d), rectangular through grooves are distributed on the upper and lower outer circumferential side walls of the wire passing cylinder (3 d), each rectangular through groove penetrates through the wire passing cylinder (3 d) along the length direction of the processing panel (1 a), a plurality of second through holes which are distributed at equal intervals along the axis direction of the wire passing cylinder (3 d) are formed at the bottom of each rectangular through groove, and each second through hole is communicated with the first through hole;

The positioning cylinders (3 e) are in one-to-one correspondence with the second through holes arranged at the bottom of the wire passing cylinder (3 d), two symmetrically arranged limiting blocks (3 g) are arranged on the inner side walls of the second through holes arranged at the bottom of the wire passing cylinder (3 d), two limiting grooves are formed in the outer circumferential wall of each positioning cylinder (3 e), the two limiting grooves are in one-to-one correspondence with the two limiting blocks (3 g), the side walls of each limiting block (3 g) are of wavy structures, the upper half part of each positioning cylinder (3 e) is provided with a positioning through groove, and the positioning through groove penetrates through the positioning cylinder (3 e) along the axial direction perpendicular to the wire passing cylinder (3 d);

The integral driving assembly (3 f) comprises a bearing plate (3 f 1) arranged in a through groove at the bottom of the wire passing cylinder (3 d), a mounting plate (3 f 2) arranged at the bottom of the bearing plate (3 f 1) and arranged along the width direction of the processing panel (1 a), and a bearing frame (3 f 3) arranged beside the mounting plate (3 f 2), wherein a driving air cylinder (3 h) arranged in a vertical state is arranged on the bearing frame (3 f 3), and the end part of a telescopic rod of the driving air cylinder (3 h) is fixedly connected with the top of the mounting plate (3 f 2);

The positioning frame (2 a) is vertically arranged at the top of the processing panel (1 a), the active pressing component (2 b) comprises an active pressing roller (2 b 1) arranged on the outer side wall of the positioning frame (2 a), an active transmission rod (2 b 2) and a worm wheel (2 b 3) arranged on the active transmission rod (2 b 2), the active transmission rod (2 b 2) is arranged along the width direction of the processing panel (1 a), one end of the active transmission rod (2 b 2) penetrates through the central position of the positioning frame (2 a) and the active pressing roller (2 b 1) and is fixedly connected, the other end of the active pressing component is arranged on the inner side wall of the positioning frame (2 a), sliding grooves for moving the two ends of the active transmission rod (2 b 2) along the vertical direction are formed in the positioning frame (2 a), a rotating disc (2 a 1) is arranged at the top of the positioning frame (2 a), a worm (2 a 2) is arranged at the central position of the rotating disc (2 a), and the worm (2 a 2) is meshed with the worm wheel (2 b2 a) along the vertical direction;

The driven pressing part (2 c) comprises a driven pressing roller (2 c 1) arranged below the driving pressing roller (2 b 1) and a driven transmission rod (2 c 2) arranged on the positioning frame (2 a);

The bending driving component (3 c) comprises a driving motor (3 c 1) arranged on a supporting plate (1 c), two positioning guide rails (3 c 2) symmetrically arranged between the supporting plate (1 c) and a processing panel (1 a) and a positioning installation seat (3 c 3) simultaneously arranged on the two positioning guide rails (3 c 2), a turntable is arranged on a main shaft of the driving motor (3 c 1), a first connecting rod (3 c 4) and a second connecting rod (3 c 5) are arranged between the central position of the turntable and the bottom of the positioning installation seat (3 c 3), one end of the first connecting rod (3 c 4) is fixedly connected with the main shaft of the driving motor (3 c 1), one end of the second connecting rod (3 c 5) is hinged with one end of the first connecting rod (3 c 4) far away from the driving motor (3 c 1), and the other end of the second connecting rod (3 c 5) is fixedly connected with the bottom of the positioning installation seat (3 c 3);

The positioning bending component (3 b) comprises a bending cylinder (3 i) arranged on a positioning mounting seat (3 c 3), a bending positioning plate (3 j) and two guide rods (3 k) arranged on the side parts of the bending cylinder (3 i), and the end parts of the telescopic rods of the bending cylinder (3 i) and the bottom ends of the two guide rods (3 k) are fixedly connected with the top parts of the bending positioning plate (3 j).