CN117428125A - Cutting device for spring to be molded - Google Patents

Abstract

The application provides a cutting device for treating shaping spring belongs to cutting device equipment field, and this a cutting device for treating shaping spring includes: frame, conveying component and cutting assembly, conveying component includes conveying roller, lower conveying roller, first crane, receiving piece, first straight slide rail and distance board, the distance board with first straight slide rail sliding end fixed connection, cutting assembly includes second crane and cutting piece, the second crane sets up first crane one side. The steel bars are conveyed by the upper conveying roller and the lower conveying roller, when one end of the steel bars is propped against one side of the distance plate, limitation of cutting distance of the steel bars is achieved, position adjustment of the distance plate is implemented by the aid of the first linear sliding rail, limitation of cutting distance of the steel bars with different lengths can be adapted, errors caused by manual measurement of the steel bars are reduced, and waste of the steel bars is reduced.

Description

Cutting device for spring to be molded

Technical Field

The application relates to the field of cutting devices, in particular to a cutting device for a spring to be formed.

Background

In general, in the process of manufacturing a plurality of larger springs, firstly, the length of the steel bar to be cut is determined according to the length and the diameter of the spring, and then the spring steel bar to be formed is manufactured into the spring, so that a fixed-distance cutting device is required to be used, the length of the steel bar can be measured manually by some small spring manufacturing enterprises, the steel bar is cut off, and in the process of manually measuring, the phenomenon of measuring errors can often occur, thereby failing to meet the production of the springs in batches, and causing the waste of the steel bar.

Disclosure of Invention

The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the application provides a cutting device for treating shaping spring, can realize treating the spring reinforcing bar of shaping and cut off by a distance to utilize last conveying roller and lower conveying roller to carry the reinforcing bar, when reinforcing bar one end supports in one side of distance board, realized cutting off distance limitation of reinforcing bar, and implement the position control to the distance board with first straight line slide rail, the cutting off distance's of reinforcing bar that can adapt to different length is limited, has reduced the error that the manual measurement reinforcing bar appears, has reduced the waste of reinforcing bar.

According to the application, a cutting device for a spring to be formed comprises: frame, conveying assembly and cutting assembly, conveying assembly includes conveying roller, lower conveying roller, first crane, connects material piece, first straight line slide rail and distance board, first crane sets up frame one side upper portion, it is in to go up the conveying roller setting first crane bottom, lower conveying roller sets up frame one side upper portion, connect material piece to be located lower conveying roller one side, first straight line slide rail sets up connect material piece upper portion, the distance board with first straight line slide rail sliding end fixed connection, it includes second crane and cutting member to cut the subassembly, the second crane sets up first crane one side, the cutting member sets up second crane bottom.

In addition, a cutting device for a spring to be formed according to the present application has the following additional technical features:

according to the application, go up the conveying roller with the conveying roller all includes first motor, rotation wheel and anti-skidding cover down, one first motor with first crane bottom fixed connection, one first motor with frame one side upper portion fixed connection, one the rotation wheel with first crane bottom rotates to be connected, one the rotation wheel with frame one side upper portion rotates to be connected, the fixed cover of anti-skidding cover is in the rotation wheel is outside, first motor output with rotate the wheel transmission and be connected, rotate the wheel with anti-skidding cover all is provided with a plurality of.

According to the application, first motor output is provided with first band pulley, it is provided with the second band pulley to rotate wheel one side, first band pulley with one the second band pulley passes through belt drive to be connected, adjacent two pass through belt drive between the second band pulley and be connected.

According to the application, first crane includes first support body, first extensible member and first gag lever post, first gag lever post one end with first support body upper portion fixed connection, first gag lever post other end slip runs through inside frame one side, first extensible member one side with frame one side fixed connection, first extensible member output with first support body upper portion fixed connection, one first motor with first support body one side fixed connection, a plurality of the rotor with first support body rotates to be connected.

According to the application, connect the material piece to include first material receiving roller, second extensible member, third crane and support, the support with frame one side upper portion fixed connection, first material receiving roller with support upper portion rotates to be connected, second extensible member tip with support one side rotates to be connected, second extensible member output with first material receiving roller one side rotates to be connected, the second material receiving roller with the third crane rotates to be connected, third extensible member tip with the third crane rotates to be connected, third crane lifting end with support sliding connection, first linear slide rail sets up support upper portion.

According to the application, first material receiving roller with the second material receiving roller all includes second motor, roll body and strut, the second motor with strut fixed connection, the roll body with the strut rotates to be connected, one the strut with the support rotates to be connected, second extensible member output with one the strut rotates to be connected, one the strut with the third lifting frame lifting end rotates to be connected, third extensible member output with another the strut rotates to be connected, the second motor output with the roll body transmission is connected, the roll body is provided with a plurality ofly, adjacent two the transmission is connected between the roll body.

According to the application, the third crane comprises a third frame body and a fourth telescopic member, the third frame body is in sliding connection with the support, the end part of the fourth telescopic member is fixedly connected with the frame, the output end of the fourth telescopic member is fixedly connected with the bottom of the third frame body, one supporting frame is in rotary connection with the third frame body, and one end of the third telescopic member is in rotary connection with the third frame body.

According to the application, first linear slide rail includes third motor, first threaded rod and first sliding block, first threaded rod with the support rotates to be connected, the third motor with support fixed connection, the third motor output with first threaded rod one end fixed connection, first sliding block with support sliding connection, first sliding block with first threaded rod threaded connection, first sliding block with distance plate fixed connection.

According to the application, the second crane includes fifth extensible member, second support body and second gag lever post, second gag lever post one end with second support body upper portion fixed connection, the second gag lever post other end slip runs through first support body, fifth extensible member one side with first support body fixed connection, fifth extensible member output with second support body upper portion fixed connection, the cutting member sets up second support body bottom.

According to the application, the cutting member includes fourth motor and emery wheel, fourth motor output is provided with the third band pulley, the emery wheel is provided with the fourth band pulley, the third band pulley with fourth band pulley transmission is connected, the fourth motor with second support body one side fixed connection, the emery wheel with the second support body rotates to be connected.

Many times, the steel bar is cut into steel bar segments to be formed, so that the whole steel bar is required to be placed at the cutting end of the cutting device in many times, a certain effort is required to be manually spent for carrying the steel bar, and the manual work load is increased.

According to the application, still include the material loading subassembly, the material loading subassembly includes second linear slide rail, fourth crane, third linear slide rail, pole setting, swivel mount and tongs, the second linear slide rail sets up frame one side upper portion, second linear slide rail sliding end with fourth crane bottom fixed connection, fourth crane upper portion with third linear slide rail one side fixed connection, the pole setting with third linear slide rail sliding end bottom fixed connection, the swivel mount with pole setting bottom swivelling joint, the tongs with swivel mount one side fixed connection, third linear slide rail the pole setting the swivel mount with the tongs all are provided with a plurality of.

The sliding end of the second linear slide rail drives the movement of the fourth lifting frame, the third linear slide rail moves to one side upper portion of the steel bar pile, the sliding end of the third linear slide rail drives the movement of the vertical rod, the vertical rod drives the rotary frame to adjust to the position of the steel bar to be grabbed, the rotary frame rotates to drive the rotary of the fourth lifting frame, the lifting end of the fourth lifting frame drives the descending of the third linear slide rail, the third linear slide rail drives the descending of the vertical rod, the vertical rod drives the rotary frame to descend, the rotary frame drives the tongs to descend, the tongs carry out grabbing of the steel bar, then, after the tongs grab the steel bar, the lifting end of the fourth lifting frame drives the lifting of the third linear slide rail, the third linear slide rail drives the lifting of the vertical rod, thereby driving the rotary frame and the tongs to lift the steel bar, the sliding end of the second linear slide rail drives the fourth lifting frame, the fourth lifting frame drives the third linear slide rail to move, the third linear slide rail drives the lifting of the one end of the pole and the hand to move, the lifting roller is driven by the fourth lifting roller and the lifting roller is driven by the fourth lifting roller, the lifting roller is driven by the lifting roller and the lifting roller is placed between the lifting roller and the steel bar to move between the rotary roller and the roller is placed on the lifting roller and the roller.

According to the application, the second linear slide rail includes fifth motor, second threaded rod, movable block and chassis, the chassis with chassis one side upper portion fixed connection, the fifth motor with chassis one side fixed connection, the fifth motor output with second threaded rod one end fixed connection, the second threaded rod with the chassis rotates to be connected, the second threaded rod with movable block threaded connection, the movable block is located inside the chassis, movable block upper portion with inside sliding connection of chassis, fourth crane bottom with movable block upper portion fixed connection.

According to the application, the fourth crane comprises a third frame body, a fourth frame body and a sixth telescopic member, wherein one side of the third frame body is in sliding connection with one side of the fourth frame body, the other side of the fourth frame body is fixedly connected with the upper part of the moving block, the end part of the sixth telescopic member is fixedly connected with the upper part of the moving block, the output end of the sixth telescopic member is fixedly connected with the bottom of the third frame body, and one side of the third linear sliding rail is fixedly connected with one side of the third frame body.

According to the application, third linear slide rail includes sixth motor, supporting rod frame, third threaded rod and second sliding block, supporting rod frame one side with third support body one side fixed connection, sixth motor with third support body upper portion fixed connection, sixth motor output with third threaded rod transmission is connected, the third threaded rod with the supporting rod frame rotates to be connected, the second sliding block with the inside sliding connection of supporting rod frame, the third threaded rod with second sliding block threaded connection, pole setting upper portion with second sliding block bottom fixed connection.

According to the application, the sixth motor output end is provided with the fifth band pulley, third threaded rod one side is provided with the sixth band pulley, the fifth band pulley with drive connection between the sixth band pulley, adjacent two drive connection between the sixth band pulley.

According to the application, the swivel mount includes seventh extensible member and swivel mount body, the swivel mount body middle part with pole setting bottom rotates to be connected, seventh extensible member one end with pole setting one side rotates to be connected, seventh extensible member output with swivel mount body one side rotates to be connected, the tongs with swivel mount body one side fixed connection.

The reinforcing bar is at the in-process of cutting, and what often adopt is that the abrasive disc rubs the cutting, consequently at the in-process of cutting, has the appearance of metal dust, and many cutting device can be provided with dustproof equipment, but the dustproof equipment of ordinary use still has reserved the cutting mouth, especially just cuts the reinforcing bar when, has more dust to fly upward, and then appears that a large amount of metal dust is diffused in the air, brings harm for staff's health.

According to the application, still include dust extraction, dust extraction includes dust cover, cover plate, reset spring and dust catcher, the dust cover with second crane one side fixed connection, the dust cover is located the cutting member cutting end is outside, the cover plate is located the dust cover below, the cover plate with frame sliding connection, the reset spring bottom with frame one side fixed connection, reset spring upper portion one side with cover plate bottom fixed connection, the dust catcher with frame one side fixed connection, the dust catcher suction end respectively with the dust cover with cover plate one side intercommunication.

When the cutting piece is used for cutting the reinforcing steel bars, the lifting end of the third lifting frame can drive the cutting piece to descend, firstly, the dust cover is positioned outside the cutting end of the cutting piece, the upper half part of the cutting end of the cutting piece is covered with the dust cover, the cutting piece continuously descends, the bottom of the dust cover can be propped against the upper part of the cover plate, the cover plate can follow the descending of the dust cover under the action of the reset spring, the covering of the cutting end of the whole cutting piece is realized, meanwhile, the dust collector simultaneously and respectively sucks dust from the dust cover and the cover plate, flying of metal dust is reduced, the metal dust is diffused in the air, and the harm of the dust to the body health of workers is reduced.

According to the application, the cutting device for the spring to be formed has the beneficial effects that:

1. the lifting end of the first lifting frame drives the upper conveying roller to lift, so that the steel bars are conveniently placed between the upper conveying roller and the lower conveying roller, and the upper conveying roller and the lower conveying roller are utilized to drive the steel bars, so that the steel bars are conveniently conveyed.

2. When carrying the reinforcing bar, the slip end of first straight line slide rail drives the removal of distance board, adjusts the position of distance board, goes up the conveying roller and carries the reinforcing bar down, supports the one end of reinforcing bar on the upper portion of distance board, and at this moment, the lifting end of second crane drives the decline implementation of cutting member and cuts off the reinforcing bar, and the machine-shaping of being convenient for of spring is convenient for measure the distance of reinforcing bar simultaneously, has reduced the error of manual measurement, has reduced the waste of reinforcing bar.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present application and therefore should not be considered as limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a first view of a cutting device for a spring to be formed according to an embodiment of the present application;

fig. 2 is a schematic view of a part of the structures of an upper conveying roller and a lower conveying roller according to an embodiment of the present application;

FIG. 3 is a partial block diagram of a receiving member provided in an embodiment of the present application;

fig. 4 is a schematic view of a part of a structure of a receiving member according to an embodiment of the present application;

FIG. 5 is a schematic view of a portion of a structure of a roll body according to an embodiment of the present disclosure;

FIG. 6 is a schematic view of a portion of a cutting assembly according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of a portion of a structure of a feeding assembly according to an embodiment of the present disclosure;

fig. 8 is a schematic view of a portion of a second linear rail according to an embodiment of the present disclosure;

fig. 9 is a schematic view of a part of a structure of a third linear slide and a rotating frame according to an embodiment of the present application;

fig. 10 is a schematic view of a part of a dust collection assembly according to an embodiment of the present application.

In the figure: 100-frames; 200-a transport assembly; 210-upper conveying rollers; 211-a first motor; 212-rotating a wheel; 213-an anti-skid sleeve; 214-a first pulley; 215-a second pulley; 220-lower conveying rollers; 230-a first lifting frame; 231-a first frame; 232-a first telescoping member; 233-a first stop lever; 240-receiving piece; 241-a first receiving roll; 2411-a second motor; 2412-a roller body; 2413-a bracket; 242-a second receiving roll; 243-a second telescoping member; 244-a third telescoping member; 245-a third lifting frame; 2451-a third frame; 2452-fourth telescoping member; 246-bracket; 250-a first linear slide; 251-a third motor; 252-a first threaded rod; 253—a first slider; 260-distance plate; 300-a cutting assembly; 310-a second lifting frame; 311-fifth telescoping pieces; 312-a second frame; 313-a second stop bar; 320-cutting member; 321-fourth motor; 322-grinding wheel; 323-a third pulley; 324-fourth pulley; 400-feeding components; 410-a second linear slide; 411-fifth motor; 412-a second threaded rod; 413-moving blocks; 414-chassis; 420-fourth lifting frame; 421-third frame; 422-fourth frame; 423-sixth telescoping members; 430-a third linear slide; 431-sixth motor; 432-a support bar rack; 433-a third threaded rod; 434-a second slider; 435-a fifth pulley; 436-sixth pulley; 440-vertical rods; 450-rotating rack; 451-seventh telescoping members; 452-rotating the frame; 460-a grip; 500-dust collection assembly; 510-a dust cover; 520-cover plate; 530-a return spring; 540-vacuum cleaner.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some of the embodiments of the present application, but not all of the embodiments. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without undue burden are within the scope of the present application.

A cutting device for a spring to be formed according to the present application is described below with reference to the accompanying drawings.

As shown in fig. 1 to 10, a cutting device for a spring to be formed according to the present application includes a frame 100, a conveying assembly 200, and a cutting assembly 300.

The conveying assembly 200 includes an upper conveying roller 210, a lower conveying roller 220, a first lifting frame 230, a material receiving member 240, a first linear sliding rail 250 and a distance plate 260, the first lifting frame 230 is disposed on one side upper portion of the frame 100, the upper conveying roller 210 is disposed at the bottom of the first lifting frame 230, the lower conveying roller 220 is disposed on one side upper portion of the frame 100, the material receiving member 240 is disposed on one side of the lower conveying roller 220, the first linear sliding rail 250 is disposed on the upper portion of the material receiving member 240, the distance plate 260 is fixedly connected with the sliding end of the first linear sliding rail 250, the cutting assembly 300 includes a second lifting frame 310 and a cutting member 320, the second lifting frame 310 is disposed on one side of the first lifting frame 230, and the cutting member 320 is disposed at the bottom of the second lifting frame 310.

The operation of a cutting device for springs to be formed according to the present application is described below with reference to the accompanying drawings;

firstly, the lifting end of the first lifting frame 230 drives the upper conveying roller 210 to lift, so that the steel bars are conveniently placed between the upper conveying roller 210 and the lower conveying roller 220, and the upper conveying roller 210 and the lower conveying roller 220 are utilized to drive the steel bars, so that the steel bars are conveniently conveyed;

then, while conveying the steel bar, the sliding end of the first linear slide rail 250 drives the distance plate 260 to move, the position of the distance plate 260 is adjusted, the upper conveying roller 210 and the lower conveying roller 220 convey the steel bar, one end of the steel bar is propped against the upper part of the distance plate 260, at the moment, the lifting end of the second lifting frame 310 drives the cutting element 320 to descend to cut off the steel bar, so that the spring is convenient to process and shape, and meanwhile, the distance measurement of the steel bar is convenient;

therefore, when one end of the steel bar abuts against one side of the distance plate 260, limitation of cutting distance of the steel bar is achieved, and limitation of cutting distance of the steel bar with different lengths can be adapted by adjusting the position of the distance plate 260 through the first linear sliding rail 250, errors caused by manual measurement of the steel bar are reduced, and waste of the steel bar is reduced.

In addition, a cutting device for a spring to be formed according to the present application has the following additional technical features:

according to the application, as shown in fig. 3, the upper conveying roller 210 and the lower conveying roller 220 each comprise a first motor 211, a rotating wheel 212 and an anti-slip sleeve 213, one first motor 211 is fixedly connected with the bottom of the first lifting frame 230, one first motor 211 is fixedly connected with one side upper part of the frame 100, one rotating wheel 212 is rotatably connected with the bottom of the first lifting frame 230, one rotating wheel 212 is rotatably connected with one side upper part of the frame 100, the anti-slip sleeve 213 is fixedly sleeved outside the rotating wheel 212, the output end of the first motor 211 is in transmission connection with the rotating wheel 212, and the rotating wheel 212 and the anti-slip sleeve 213 are all provided with a plurality of anti-slip sleeves.

According to the application, as shown in fig. 3, a first belt pulley 214 is arranged at the output end of the first motor 211, a second belt pulley 215 is arranged at one side of the rotating wheel 212, the first belt pulley 214 is connected with one second belt pulley 215 through belt transmission, and two adjacent second belt pulleys 215 are connected through belt transmission.

According to the application, as shown in fig. 2, the first lifting frame 230 includes a first frame 231, a first telescopic member 232 and a first limiting rod 233, one end of the first limiting rod 233 is fixedly connected with the upper portion of the first frame 231, the other end of the first limiting rod 233 slides through the inside of one side of the frame 100, one side of the first telescopic member 232 is fixedly connected with one side of the frame 100, an output end of the first telescopic member 232 is fixedly connected with the upper portion of the first frame 231, one first motor 211 is fixedly connected with one side of the first frame 231, and a plurality of rotating wheels 212 are rotatably connected with the first frame 231.

According to the application, as shown in fig. 4, the receiving element 240 includes a first receiving roller 241, a second receiving roller 242, a second telescopic element 243, a third telescopic element 244, a third lifting frame 245 and a support 246, the support 246 is fixedly connected with one side upper portion of the frame 100, the first receiving roller 241 is rotatably connected with one side upper portion of the support 246, an end portion of the second telescopic element 243 is rotatably connected with one side of the support 246, an output end of the second telescopic element 243 is rotatably connected with one side of the first receiving roller 241, the second receiving roller 242 is rotatably connected with the third lifting frame 245, an end portion of the third telescopic element 244 is rotatably connected with the third lifting frame 245, a lifting end of the third lifting frame 245 is slidably connected with the support 246, and the first linear sliding rail 250 is arranged on one side upper portion of the support 246.

According to the application, as shown in fig. 5, the first receiving roller 241 and the second receiving roller 242 comprise a second motor 2411, roller bodies 2412 and a supporting frame 2413, the second motor 2411 is fixedly connected with the supporting frame 2413, the roller bodies 2412 are rotatably connected with the supporting frame 2413, one supporting frame 2413 is rotatably connected with the supporting frame 246, the output end of the second telescopic member 243 is rotatably connected with one supporting frame 2413, one supporting frame 2413 is rotatably connected with the lifting end of the third lifting frame 245, the output end of the third telescopic member 244 is rotatably connected with the other supporting frame 2413, the output end of the second motor 2411 is in transmission connection with the roller bodies 2412, and a plurality of roller bodies 2412 are arranged between two adjacent roller bodies 2412.

According to the application, as shown in fig. 4, the third lifting frame 245 includes a third frame 2451 and a fourth telescopic member 2452, the third frame 2451 is slidably connected with the bracket 246, an end of the fourth telescopic member 2452 is fixedly connected with the frame 100, an output end of the fourth telescopic member 2452 is fixedly connected with a bottom of the third frame 2451, a supporting frame 2413 is rotatably connected with the third frame 2451, and one end of the third telescopic member 244 is rotatably connected with the third frame 2451.

According to the present application, as shown in fig. 4, the first linear slide 250 includes a third motor 251, a first threaded rod 252 and a first sliding block 253, the first threaded rod 252 is rotationally connected with the bracket 246, the third motor 251 is fixedly connected with the bracket 246, the output end of the third motor 251 is fixedly connected with one end of the first threaded rod 252, the first sliding block 253 is slidably connected with the bracket 246, the first sliding block 253 is in threaded connection with the first threaded rod 252, and the first sliding block 253 is fixedly connected with the distance plate 260.

According to the application, as shown in fig. 6, the second lifting frame 310 includes a fifth telescopic member 311, a second frame 312 and a second limiting rod 313, one end of the second limiting rod 313 is fixedly connected with the upper portion of the second frame 312, the other end of the second limiting rod 313 penetrates through the first frame 231 in a sliding manner, one side of the fifth telescopic member 311 is fixedly connected with the first frame 231, the output end of the fifth telescopic member 311 is fixedly connected with the upper portion of the second frame 312, and the cutting member 320 is arranged at the bottom of the second frame 312.

According to the application, as shown in fig. 6, the cutting member 320 includes a fourth motor 321 and a grinding wheel 322, the output end of the fourth motor 321 is provided with a third belt pulley 323, the grinding wheel 322 is provided with a fourth belt pulley 324, the third belt pulley 323 is in transmission connection with the fourth belt pulley 324, the fourth motor 321 is fixedly connected with one side of the second frame 312, and the grinding wheel 322 is in rotation connection with the second frame 312.

Many times, the steel bar is cut into steel bar segments to be formed, so that the whole steel bar is required to be placed at the cutting end of the cutting device in many times, a certain effort is required to be manually spent for carrying the steel bar, and the manual work load is increased.

According to the application, as shown in fig. 7-9, the feeding assembly 400 further comprises a feeding assembly 400, the feeding assembly 400 comprises a second linear slide rail 410, a fourth lifting frame 420, a third linear slide rail 430, a vertical rod 440, a rotating frame 450 and a gripper 460, the second linear slide rail 410 is arranged on one side upper portion of the frame 100, the sliding end of the second linear slide rail 410 is fixedly connected with the bottom of the fourth lifting frame 420, the upper portion of the fourth lifting frame 420 is fixedly connected with one side of the third linear slide rail 430, the vertical rod 440 is fixedly connected with the bottom of the sliding end of the third linear slide rail 430, the rotating frame 450 is rotatably connected with the bottom of the vertical rod 440, the gripper 460 is fixedly connected with one side of the rotating frame 450, and a plurality of third linear slide rails 430, vertical rods 440, rotating frames 450 and grippers 460 are arranged.

The sliding end of the second linear slide 410 drives the fourth lifting frame 420 to move, the third linear slide 430 moves to the upper side of one side of the reinforcement stack, the sliding end of the third linear slide 430 drives the vertical rod 440 to move, the vertical rod 440 is adjusted, the vertical rod 440 drives the rotary frame 450 to adjust the position of the vertical rod 440, the rotary frame 450 is adjusted to the upper side of the reinforcement needing to be grabbed, the rotation of the rotary frame 450 drives the grip 460 to rotate, the grip 460 is rotated to a vertical state, the lifting end of the fourth lifting frame 420 drives the third linear slide 430 to descend, the third linear slide 430 drives the vertical rod 440 to descend, the vertical rod 440 drives the rotary frame 450 to descend, the rotary frame 450 drives the grip 460 to descend, the grip 460 is carried by the grip 460, then after the grip 460 grabs the reinforcement, the lifting end of the fourth lifting frame 420 drives the third linear slide 430, the lifting of the third linear slide 430 drives the rotary frame 450 and the grip 460, the reinforcement is carried by the lifting of the second linear slide 410, the sliding end of the second linear slide 410 drives the fourth lifting frame 420 to move, the lifting roller 220 is placed between the upper side of the fourth linear slide 420 and the fourth linear slide 220 by the lifting frame 220, the grip 220 is placed between the lifting roller and the fourth linear slide 220 is moved by the lifting roller 220 and the fourth linear slide 220 is placed between the upper side of the grip 220 and the fourth linear slide 220, the manual work load is reduced.

According to the application, as shown in fig. 8, the second linear slide 410 includes a fifth motor 411, a second threaded rod 412, a moving block 413 and a chassis 414, the chassis 414 is fixedly connected with an upper portion of one side of the chassis 100, the fifth motor 411 is fixedly connected with one side of the chassis 414, an output end of the fifth motor 411 is fixedly connected with one end of the second threaded rod 412, the second threaded rod 412 is rotatably connected with the chassis 414, the second threaded rod 412 is in threaded connection with the moving block 413, the moving block 413 is located inside the chassis 414, an upper portion of the moving block 413 is in sliding connection with an inner portion of the chassis 414, and a bottom of the fourth lifting frame 420 is fixedly connected with an upper portion of the moving block 413.

According to the application, as shown in fig. 7, the fourth lifting frame 420 includes a third frame 421, a fourth frame 422 and a sixth telescopic member 423, one side of the third frame 421 is slidably connected inside one side of the fourth frame 422, the other side of the fourth frame 422 is fixedly connected with the upper portion of the moving block 413, the end of the sixth telescopic member 423 is fixedly connected with the upper portion of the moving block 413, the output end of the sixth telescopic member 423 is fixedly connected with the bottom of the third frame 421, and one side of the third linear sliding rail 430 is fixedly connected with one side of the third frame 421.

According to the application, as shown in fig. 9, the third linear slide rail 430 includes a sixth motor 431, a supporting rod frame 432, a third threaded rod 433 and a second sliding block 434, one side of the supporting rod frame 432 is fixedly connected with one side of the third frame 421, the sixth motor 431 is fixedly connected with the upper portion of the third frame 421, the output end of the sixth motor 431 is in transmission connection with the third threaded rod 433, the third threaded rod 433 is in rotation connection with the supporting rod frame 432, the second sliding block 434 is in sliding connection with the inside of the supporting rod frame 432, the third threaded rod 433 is in threaded connection with the second sliding block 434, and the upper portion of the upright rod 440 is fixedly connected with the bottom of the second sliding block 434.

According to the application, as shown in fig. 9, a fifth belt wheel 435 is arranged at the output end of the sixth motor 431, a sixth belt wheel 436 is arranged at one side of the third threaded rod 433, the fifth belt wheel 435 is in transmission connection with the sixth belt wheel 436, and two adjacent sixth belt wheels 436 are in transmission connection.

According to the application, as shown in fig. 9, the rotating frame 450 includes a seventh telescopic member 451 and a rotating frame body 452, the middle of the rotating frame body 452 is rotationally connected with the bottom of the vertical rod 440, one end of the seventh telescopic member 451 is rotationally connected with one side of the vertical rod 440, the output end of the seventh telescopic member 451 is rotationally connected with one side of the rotating frame body 452, and the grip 460 is fixedly connected with one side of the rotating frame body 452.

The reinforcing bar is at the in-process of cutting, and the cutting plate friction cutting that often adopts, consequently at the in-process of cutting, has the appearance of metal dust, and many cutting device can be provided with dustproof equipment, but the dustproof equipment of ordinary use still has reserved the cutting mouth, especially just cuts the reinforcing bar when, has more dust to fly upward, and then appears that a large amount of metal dust is diffused in the air, brings harm for staff's health.

According to the application, as shown in fig. 10, still include dust collection assembly 500, dust collection assembly 500 includes dust cover 510, cover plate 520, reset spring 530 and dust catcher 540, dust cover 510 and second crane 310 one side fixed connection, dust cover 510 is located the cutting end outside of cutting member 320, cover plate 520 is located dust cover 510 below, cover plate 520 and frame 100 sliding connection, reset spring 530 bottom and frame 100 one side fixed connection, reset spring 530 upper portion one side and cover plate 520 bottom fixed connection, dust catcher 540 and frame 100 one side fixed connection, dust catcher 540 suction end communicates with dust cover 510 and cover plate 520 one side respectively.

When the cutting member 320 cuts the steel bar, the lifting end of the second lifting frame 310 drives the cutting member 320 to descend, firstly, the dust cover 510 is located outside the cutting end of the cutting member 320, the upper half of the cutting end of the cutting member 320 is covered, the cutting member 320 continuously descends, the bottom of the dust cover 510 is abutted to the upper portion of the cover plate 520, the cover plate 520 can follow the descending of the dust cover 510 under the action of the return spring 530, the covering of the cutting end of the whole cutting member 320 is achieved, meanwhile, the dust collector 540 simultaneously sucks dust from the dust cover 510 and the cover plate 520 respectively, flying of metal dust is reduced, the metal dust is reduced to diffuse in the air, and harm of the dust to the health of staff is reduced.

The first telescopic member 232, the second telescopic member 243, the third telescopic member 244, the fourth telescopic member 2452, the fifth telescopic member 311, the sixth telescopic member 423 and the seventh telescopic member 451 are all electric push rods, electric cylinders, hydraulic cylinders and air cylinders.

Other constructions and operations of a cutting device for springs to be formed according to the present application are known to those skilled in the art and will not be described in detail here.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other manners as well. The device embodiments described above are merely illustrative.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes or substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A cutting device for a spring to be formed is characterized by comprising

A frame (100);

the conveying assembly (200), the conveying assembly (200) comprises an upper conveying roller (210), a lower conveying roller (220), a first lifting frame (230), a material receiving part (240), a first linear sliding rail (250) and a distance plate (260), wherein the first lifting frame (230) is arranged at the upper part of one side of the frame (100), the upper conveying roller (210) is arranged at the bottom of the first lifting frame (230), the lower conveying roller (220) is arranged at the upper part of one side of the frame (100), the material receiving part (240) is arranged at one side of the lower conveying roller (220), the first linear sliding rail (250) is arranged at the upper part of the material receiving part (240), and the distance plate (260) is fixedly connected with the sliding end of the first linear sliding rail (250);

the upper conveying roller (210) and the lower conveying roller (220) comprise a first motor (211), rotating wheels (212) and anti-slip sleeves (213), one first motor (211) is fixedly connected with the bottom of the first lifting frame (230), one first motor (211) is fixedly connected with one side upper part of the frame (100), one rotating wheel (212) is rotatably connected with the bottom of the first lifting frame (230), one rotating wheel (212) is rotatably connected with one side upper part of the frame (100), the anti-slip sleeves (213) are fixedly sleeved outside the rotating wheels (212), the output end of the first motor (211) is in transmission connection with the rotating wheels (212), and the rotating wheels (212) and the anti-slip sleeves (213) are all provided with a plurality of anti-slip sleeves;

the cutting assembly (300), the cutting assembly (300) includes second crane (310) and cutting member (320), second crane (310) set up first crane (230) one side, cutting member (320) set up second crane (310) bottom.

2. A cutting device for a spring to be formed according to claim 1, characterized in that the output end of the first motor (211) is provided with a first belt wheel (214), one side of the rotating wheel (212) is provided with a second belt wheel (215), the first belt wheel (214) is connected with one second belt wheel (215) through belt transmission, and two adjacent second belt wheels (215) are connected through belt transmission.

3. The cutting device for the spring to be formed according to claim 1, wherein the first lifting frame (230) comprises a first frame body (231), a first telescopic member (232) and a first limiting rod (233), one end of the first limiting rod (233) is fixedly connected with the upper portion of the first frame body (231), the other end of the first limiting rod (233) penetrates through the inside of one side of the frame (100) in a sliding mode, one side of the first telescopic member (232) is fixedly connected with one side of the frame (100), the output end of the first telescopic member (232) is fixedly connected with the upper portion of the first frame body (231), one first motor (211) is fixedly connected with one side of the first frame body (231), and a plurality of rotating wheels (212) are rotatably connected with the first frame body (231).

4. A cutting device for a spring to be formed according to claim 3, wherein the receiving member (240) comprises a first receiving roller (241), a second receiving roller (242), a second telescopic member (243), a third telescopic member (244), a third lifting frame (245) and a support (246), the support (246) is fixedly connected with one side upper portion of the frame (100), the first receiving roller (241) is rotatably connected with one side of the support (246), the end portion of the second telescopic member (243) is rotatably connected with one side of the support (246), the output end of the second telescopic member (243) is rotatably connected with one side of the first receiving roller (241), the second receiving roller (242) is rotatably connected with the third lifting frame (245), the end portion of the third telescopic member (244) is rotatably connected with the third lifting frame (245), the lifting end of the third lifting frame (245) is slidably connected with the support (246), and the first linear support (250) is arranged on one side of the support (250).

5. The cutting device for springs to be formed according to claim 4, wherein the first receiving roller (241) and the second receiving roller (242) comprise a second motor (2411), a roller body (2412) and a support frame (2413), the second motor (2411) is fixedly connected with the support frame (2413), the roller body (2412) is rotatably connected with the support frame (2413), one support frame (2413) is rotatably connected with the support frame (246), the output end of the second telescopic member (243) is rotatably connected with one support frame (2413), one support frame (2413) is rotatably connected with the lifting end of the third lifting frame (245), the output end of the third telescopic member (244) is rotatably connected with the other support frame (2413), the output end of the second motor (2411) is in transmission connection with the roller body (2412), and the roller body (2412) is provided with a plurality of adjacent roller bodies (2412) in transmission connection.

6. The cutting device for the spring to be formed according to claim 5, wherein the third lifting frame (245) comprises a third frame body (2451) and a fourth telescopic member (2452), the third frame body (2451) is in sliding connection with the support (246), the end part of the fourth telescopic member (2452) is fixedly connected with the frame (100), the output end of the fourth telescopic member (2452) is fixedly connected with the bottom of the third frame body (2451), one supporting frame (2413) is in rotational connection with the third frame body (2451), and one end of the third telescopic member (244) is in rotational connection with the third frame body (2451).

7. The cutting device for a spring to be formed according to claim 6, wherein the first linear slide rail (250) comprises a third motor (251), a first threaded rod (252) and a first sliding block (253), the first threaded rod (252) is rotationally connected with the bracket (246), the third motor (251) is fixedly connected with the bracket (246), the output end of the third motor (251) is fixedly connected with one end of the first threaded rod (252), the first sliding block (253) is slidingly connected with the bracket (246), the first sliding block (253) is in threaded connection with the first threaded rod (252), and the first sliding block (253) is fixedly connected with the distance plate (260).

8. The cutting device for the spring to be formed according to claim 7, wherein the second lifting frame (310) comprises a fifth telescopic member (311), a second frame body (312) and a second limiting rod (313), one end of the second limiting rod (313) is fixedly connected with the upper portion of the second frame body (312), the other end of the second limiting rod (313) penetrates through the first frame body (231) in a sliding mode, one side of the fifth telescopic member (311) is fixedly connected with the first frame body (231), the output end of the fifth telescopic member (311) is fixedly connected with the upper portion of the second frame body (312), and the cutting member (320) is arranged at the bottom of the second frame body (312).

9. The cutting device for the spring to be formed according to claim 8, wherein the cutting member (320) comprises a fourth motor (321) and a grinding wheel (322), a third belt wheel (323) is arranged at the output end of the fourth motor (321), the grinding wheel (322) is provided with a fourth belt wheel (324), the third belt wheel (323) is in transmission connection with the fourth belt wheel (324), the fourth motor (321) is fixedly connected with one side of the second frame body (312), and the grinding wheel (322) is in rotary connection with the second frame body (312).