CN115241717A - Quantitative circular cutting equipment for wire harness production and processing - Google Patents

Abstract

The invention discloses quantitative ring cutting equipment for producing and processing a wire harness, which belongs to the technical field of automobile part production, and comprises a ring cutting bed, wherein a feeding frame is arranged on the ring cutting bed, a feeding roller is arranged on the feeding frame, a metering ring is arranged on the ring cutting bed, the metering ring is fixedly connected with the ring cutting bed, a feeding groove is arranged on the feeding frame, a feeding component is arranged in the feeding groove, a feeding pipe is arranged on the ring cutting bed, the feeding pipe is rotationally connected with the ring cutting bed, a ring cutting rotating wheel is arranged on one side, away from the feeding groove, of the feeding pipe, the ring cutting rotating wheel is rotationally connected with the ring cutting bed, a collecting box is arranged on one side, away from the ring cutting rotating wheel, of the ring cutting bed, the collecting box is slidably connected with the ring cutting bed, a protective cover is arranged on the ring cutting bed, and a control cabinet is arranged on the protective cover.

Description

Quantitative circular cutting equipment for wire harness production and processing

Technical Field

The invention relates to the technical field of automobile part production, in particular to quantitative circular cutting equipment for producing and processing a wire harness.

Background

The wire harness refers to a component which is formed by pressing a contact terminal connector punched by a copper material and an electric wire and cable, then molding and pressing an insulator or adding a metal shell outside the contact terminal connector, and bundling the wire harness to form a connecting circuit.

At present to car pencil, the processing mode of big is all for shearing or circular cutting operation, but because the many pistil patchcords of copper nature are kept in the pencil, some patchcords are thin as hair, several or even dozens of annealed copper wires, make the appearance rate of defective products very high, a large amount of materials have been wasted, the processing product improves it a bit, for example, chinese utility model patent CN202121172044.4 just discloses a circular cutting device for car pencil, the utility model discloses a depth that can accurate regulation three side cutter, thickness and the pencil inside diameter according to the pencil cortex of difference adjust, the position of pencil obtains stable fixed, adapt to different operating modes, the precision is higher, can not cause the inside damage to the pencil, but this product can't quantitative excision when cutting, the excision in-process simultaneously, the tangent plane that causes the external epidermis layer is not level, and there are more burrs, the bad product rate that has caused the pencil has also promoted greatly.

Disclosure of Invention

The invention provides quantitative circular cutting equipment for producing and processing a wire harness, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the ring cutting equipment comprises a ring cutting bed, wherein a feeding frame is arranged on the ring cutting bed, a feeding roller is arranged on the feeding frame, a metering ring is arranged on the ring cutting bed, the metering ring is fixedly connected with the ring cutting bed, a feeding groove is arranged on the feeding frame, a feeding assembly is arranged in the feeding groove, a feeding pipe is arranged on the ring cutting bed, the feeding pipe is rotatably connected with the ring cutting bed, a ring cutting rotating wheel is arranged on one side, away from the feeding groove, of the feeding pipe, the ring cutting rotating wheel is rotatably connected with the ring cutting bed, a collecting box is arranged on one side, away from the ring cutting rotating wheel, of the ring cutting bed, the collecting box is slidably connected with the ring cutting bed, a protective cover is arranged on the ring cutting bed, a control cabinet is arranged on the protective cover, a wiring harness material needing to be cut is placed on the feeding frame and then pushed into the feeding groove, the wiring harness is driven to move by the feeding assembly in the feeding groove, the wiring harness penetrates through the metering ring in the moving process, the metering ring transmits an electric signal into the control cabinet, then the wiring harness penetrates through the feeding pipe and enters the collecting box, and is received by the collecting box and stored.

The feeding assembly comprises a feeding motor, the feeding motor is arranged in a feeding groove, sliding rails are arranged on two sides of the feeding groove, a plurality of clamping blocks are arranged in the sliding rails, each clamping block is arranged on a conveying belt, an output roller is arranged on the feeding motor, an outer gear is arranged on the output roller, a transmission gear is arranged in the feeding groove and meshed with the output roller, one side, away from the output roller, of the transmission gear is meshed with an output auxiliary wheel, the output auxiliary wheel is connected with the feeding groove in a rotating mode, the conveying belt in the sliding rails bypasses the output roller and the output auxiliary wheel respectively, after a wire harness material enters the feeding groove, the feeding motor runs and drives the conveying belt to rotate, the conveying belt drives the clamping blocks to move in the sliding rails, the clamping blocks can clamp the wire harness material to move, the output auxiliary wheel can rotate along with the transmission of the transmission gear, the conveying belt on the output auxiliary wheel can run synchronously, the wire harness material can stably move towards the direction of the circular cutting rotating wheel, and the wire harness material can be well protected in the moving process due to the structural arrangement.

The two ends of the transmission gear are respectively connected with an adjusting slide block in a rotating mode, the adjusting slide block is connected with a feeding groove in a sliding mode, the output end of a feeding motor and an output auxiliary wheel are connected with the feeding groove in a sliding mode, the feeding motor and the output auxiliary wheel are movably connected with the adjusting slide block through a first connecting rod and a second connecting rod, the first connecting rod is connected with the second connecting rod in a rotating mode, the adjusting slide block is connected with a metering ring through a guide rod, when the diameter of a wire harness changes, in order to guarantee clamping strength, the position of the adjusting slide block can be adjusted through adjustment, the distance between the output auxiliary wheel and an output roller is adjusted, the distance between clamping blocks is indirectly controlled through movement traction between the first connecting rod and the second connecting rod, the clamping radius of the device can be changed, after the position of the adjusting slide block is changed, the guide rod is guided to move, and the metering radius of the metering ring is adjusted under the abutting of a wedge column on the feeding frame.

A follower wheel is arranged in the metering ring, the follower wheel is rotationally connected with the metering ring, an anti-deviation wheel is arranged on one side, far away from the follower wheel, in the metering ring, the anti-deviation wheel is movably connected with the metering ring, a plurality of catching strips are arranged on the anti-deviation wheel, each catching strip is respectively in sliding connection with the anti-deviation wheel, a catching spring is respectively arranged on each catching strip, two ends of each catching spring respectively abut against the corresponding catching strip and an expansion cylinder, the expansion cylinder is rotationally connected with the metering ring, the expansion cylinder is a petal-shaped cylinder, an expansion wedge block is arranged on the expansion cylinder, the expansion wedge block is in sliding contact with the expansion cylinder, the expansion wedge block is connected with an adjusting slide block through a guide rod, teeth are arranged on the follower wheel, the tooth on the follower wheel and the elasticity switch are in discontinuous interactive contact, the elasticity switch is connected with the control cabinet through a wire, when the wiring harness material enters into the metering ring, firstly, the wiring harness material can fall on the follower wheel, then, the catching strip on the deviation prevention wheel can fall on the wiring harness material and rotate along with the wiring harness material, the catching strip can be in continuous contact with the wiring harness material in the rotating process so as to compress the wiring harness material, the phenomena of sliding and the like are avoided, the follower wheel is made to rotate, the elasticity switch can be continuously touched by the rotating follower wheel, signals can be transmitted into the control cabinet when the elasticity switch is closed once, and when the number of times of closing reaches a preset value, the quantitative conveying effect is completed.

The ring cutting machine is characterized in that a plurality of ring cutting tools are arranged in a ring cutting rotating wheel, a limiting groove is arranged in the ring cutting rotating wheel, each ring cutting tool is respectively embedded into the limiting groove and is in sliding connection with the limiting groove, a ring cutting column is arranged on one side, far away from the limiting groove, of each ring cutting tool, each ring cutting column is respectively embedded into a spiral disc, a cutting slide is arranged on the spiral disc, each ring cutting column is respectively embedded into the cutting slide and is in sliding connection with the cutting slide, external teeth are arranged on the spiral disc, a ring cutting motor is arranged in the ring cutting rotating wheel, the output end of the ring cutting motor is meshed with the external teeth on the spiral disc, a deviation rectifying ring is arranged on a ring cutting bed, the circle center of the ring cutting rotating wheel, the circle center of the metering ring and the circle center of the deviation rectifying ring are on the same straight line, the ring cutting motor is connected with a control cabinet through a wire, when a wire harness material is transported to the ring cutting rotating wheel, the control cabinet can enable a feeding motor to stop moving according to the internal program setting, the ring cutting motor can operate, the ring cutting motor can drive the ring cutting rotating wheel to move in the rotating wheel groove on the ring cutting, and the ring cutting machine can reduce the problem that a unilateral cutting tool caused by an overheating cutting tool, and can be cut a raw material, and the problem of a single-cutting tool, so that the cutting tool caused by the cutting tool, and the problem that the cutting machine can be cut the unilateral cutting machine.

Be provided with the edging arm on the circular cutting runner, edging arm and circular cutting runner swivelling joint, the edging arm is kept away from circular cutting runner one end and is provided with the edging motor, be provided with the edging wheel on the edging motor output, be provided with rotatory hydraulic stem on the edging arm, rotatory hydraulic stem both ends support edging arm and circular cutting runner respectively, be provided with the clearance box in the circular cutting runner, clearance box and circular cutting runner swivelling joint, the pencil raw and other materials of shearing completion will break off in the circular cutting wheel, the material loading subassembly will promote the pencil material to a node of collecting box direction continuation work afterwards, a node moves back again afterwards, rotatory hydraulic stem will drive the edging arm at this moment and rotate, the edging motor begins to rotate, drive the edging wheel and work, make pencil subassembly circular cutting face obtain thoroughly cutting off, get rid of the shearing seal of a government organization in old china simultaneously, prevent that it from appearing the phenomenon of polymerization and take place.

Rectify ring and circular cutting bed sliding connection, it is provided with the spout of rectifying on the ring to rectify, the spout of rectifying is kept away from and is provided with the vice ring of rectifying on one side of rectifying the ring, the vice ring of rectifying and the spout sliding connection of rectifying, it is provided with a plurality of compact lumps to rectify the intra-annular, compact lump and ring sliding connection of rectifying, it is provided with the elasticity book piece to rectify the intra-annular, every compact lump is connected with the elasticity book piece, the elasticity book piece passes through the wire and is connected with the switch board, the pencil material of accomplishing the edging will enter into the ring of rectifying, then for the circular telegram of elasticity book piece, the compact lump will be supported out to the elasticity book piece, the pencil material of accomplishing the shearing will be pushed down to the compact lump, provide the holding power for the edging operation of edging wheel, pencil material will enter into the spout of rectifying after the edging is accomplished, and pass the vice ring of rectifying, subsequently get into in the collection incasement.

Be provided with rotatory gyro wheel on the clearance box, be provided with rotatory flabellum in the clearance box, be provided with the locking block on the clearance box, locking block and circular cutting runner sliding contact, rotatory flabellum is through inhaling sediment gear train and spiral shell meshing, it sets up in the clearance box to inhale the sediment gear train, be provided with the diffusion plectrum on the clearance box, the diffusion plectrum passes through spring shaft swivelling joint when the spiral shell is rotatory with the clearance box, can drive and inhale the sediment gear train and rotate, it will transmit power for rotatory flabellum to inhale the sediment gear train, rotatory flabellum will produce the negative pressure, the diffusion plectrum this moment will be driven, clearance box this moment will be in open state, thereby collect the material such as piece that produces when cuting, when the spiral shell counter-rotation, the diffusion plectrum will reset under the effect of spring shaft, avoided collecting clastic can be discharged once more, cause secondary pollution's problem.

The collecting box is internally provided with a bearing chute, the bearing chute is internally provided with a plurality of bearing plates, each bearing plate is respectively provided with a material receiving groove, the bearing plates and the collecting box are rotatably connected through a spring shaft, the collecting box is provided with a material receiving slideway, two ends of the material receiving slideway are respectively connected with a deviation correcting ring and a collecting box fixedly connected, the collecting box is provided with a discharge port, a baffle plate is arranged on the discharge port, when the sheared wire harness materials enter the collecting box through the bearing chute, the wire harness materials can fall on the bearing plates, the bearing plates are influenced by the weight of the wire harness materials to rotate on the inner wall of the collecting box, each wire harness material can be protected by each bearing plate, the problem of wire harness friction damage brought in the carrying process is avoided, when the wire harness materials in the collecting box need to be unloaded, the baffle plate is opened, and the wire harness materials in the collecting box can be unloaded.

Compared with the prior art, the invention has the following beneficial effects: 1. the invention adopts the structure component of quantitative cutting, can plan and quantify the wire harness material to be girdled, and completes the operation of quantitative girdling of the wire harness material, and simultaneously adopts the structure arrangement of the deviation prevention wheel, so that the feeding length of the wire harness material can be ensured not to generate larger error when the wire harness material passes through the metering ring, and simultaneously, the catching strip on the deviation prevention wheel can avoid the deflection of the wire harness material and the insufficient feeding of the wire harness material.

2. The metering ring and the feeding assembly are matched, so that unnecessary torsional damage and friction damage to the wiring harness materials can be guaranteed in the using process of the wire harness material clamping device, the wire harness material clamping device can adapt to more types of wiring harness materials, and meanwhile when the clamping radius of the feeding assembly is reduced, the metering ring can be driven to be adjusted, so that the metering ring can clamp the wiring harness materials more accurately.

3. The shearing type circular cutting assembly is adopted, when the wiring harness material enters the circular cutting rotating wheel, the wiring harness material is sheared by the plurality of shearing cutters, the plurality of shearing cutters form the same sector, so that the cutting operation of the wiring harness material is completed, meanwhile, the types of the shearing cutters can be changed, when the cutting operation is not needed, the outer ring wrapping layer of the wiring harness material is cut off by changing the types of the cutters, meanwhile, the shearing cutters can be used for avoiding the friction damage to the flexible wires in the wiring harness material, and meanwhile, the burr problem generated when the wiring harness material is processed is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the protective cover of the present invention;

FIG. 3 is a schematic view of a metering ring configuration of the present invention;

FIG. 4 is a schematic view of the internal structure of the anti-deflection wheel of the present invention;

FIG. 5 is a schematic view of the internal structure of the feeding trough of the present invention;

FIG. 6 is a schematic view of the internal structure of the loading assembly of the present invention;

FIG. 7 is a schematic view of the internal structure of the ring cutting rotor of the present invention;

FIG. 8 is a schematic view of the spiral disk structure of the present invention;

FIG. 9 is a schematic view of the internal structure of the cleaning box of the present invention;

FIG. 10 is a schematic view of the collection box configuration of the present invention;

FIG. 11 is a schematic diagram of the inner structure of the deviation rectifying ring of the present invention

The reference numbers in the figures: 1. a circular cutting bed; 2. a feeding frame; 3. a feeding roller; 4. a metering ring; 5. a feeding groove; 6. a feeding assembly; 7. a feeding pipe; 8. a circular cutting rotating wheel; 9. a collection box; 10. a protective cover; 11. a control cabinet; 601. a feeding motor; 602. a clamping block; 603. a conveyor belt; 604. an output roller; 501. a transmission gear; 605. an output auxiliary wheel; 502. adjusting the sliding block; 606. a first link; 607. a second link; 608. a guide bar; 401. a follower wheel; 402. an anti-deviation wheel; 403. a catch bar; 404. a catch spring; 405. an expansion cylinder; 406. expanding the wedge block; 407. an elastic switch; 801. a circular cutting tool; 803. a spiral disc; 804. a circular cutting motor; 12. a rectification ring; 13. grinding an edge arm; 1301. an edging motor; 1302. grinding an edge wheel; 1303. rotating the hydraulic rod; 805. cleaning the box; 1201. a deviation rectifying chute; 1202. a deviation rectifying auxiliary ring; 1203. a compression block; 1204. loosening and tightening the coil sheet; 806. rotating the roller; 807. rotating the fan blades; 808. a locking block; 809. a slag suction gear set; 810. diffusing the poking sheet; 901. a load bearing chute; 902. carrying a plate; 903. a material receiving slideway; 904. a striker plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the circular cutting equipment comprises a circular cutting bed 1, a feeding frame 2 is arranged on the circular cutting bed 1, a feeding roller 3 is arranged on the feeding frame 2, a metering ring 4 is arranged on the circular cutting bed 1, the metering ring 4 is fixedly connected with the circular cutting bed 1, a feeding groove 5 is arranged on the feeding frame 2, a feeding assembly 6 is arranged in the feeding groove 5, a feeding pipe 7 is arranged on the circular cutting bed 1, the feeding pipe 7 is rotatably connected with the circular cutting bed 1, a circular cutting rotating wheel 8 is arranged on one side, away from the feeding groove 5, of the feeding pipe 7, the circular cutting rotating wheel 8 is rotatably connected with the circular cutting bed 1, a collecting box 9 is arranged on one side, away from the circular cutting rotating wheel 8, of the circular cutting bed 1, the collecting box 9 is slidably connected with the circular cutting bed 1, a protective cover 10 is arranged on the circular cutting bed 1, a control cabinet 11 is arranged on the protective cover 10, a wire harness material to be cut is placed on the feeding frame 2 and then pushed into the feeding groove 5, the feeding assembly 6 in the feeding groove 5 is driven to move the wire harness, the wire harness can pass through the metering ring 4, the control cabinet 11, the wire harness material can pass through the feeding wheel 7, and then the wire harness can be cut into the collecting box 8, and the wire harness can be cut by the electric signal, and the wire harness material can be cut into the collecting box 9, and then be cut into the collecting box 8, and the collecting box can be cut by the wire harness.

As shown in fig. 5 and 6, the feeding assembly 6 includes a feeding motor 601, the feeding motor 601 is disposed in the feeding chute 5, sliding tracks are disposed on two sides of the feeding chute 5, a plurality of clamping blocks 602 are disposed in the sliding tracks, each clamping block 602 is disposed on a conveying belt 603, an output roller 604 is disposed on the feeding motor 601, an external gear is disposed on the output roller 604, a transmission gear 501 is disposed in the feeding chute 5, the transmission gear 501 is engaged with the output roller 604, one side of the transmission gear 501, which is far away from the output roller 604, is engaged with an output secondary wheel 605, the output secondary wheel 605 is rotatably connected with the feeding chute 5, the conveying belt 603 in the sliding tracks respectively bypasses the output roller 604 and the output secondary wheel 605, after the wire harness material enters the feeding groove 5, the feeding motor 601 operates to drive the conveying belt 603 to rotate, the conveying belt 603 drives the clamping block 602 to move in the sliding track, the clamping block 602 clamps the wire harness material to move, the output secondary wheel 605 also rotates along with the transmission of the transmission gear 501, and therefore the conveying belt 603 on the output secondary wheel 605 synchronously operates, the wire harness material can stably move towards the direction of the circular cutting rotating wheel 8, the structure arrangement enables the wire harness material to keep the advancing direction in the moving process, the wire harness material can be well protected, and the problems of scratching and the like are avoided.

As shown in fig. 6 and 3, two ends of the transmission gear 501 are respectively connected with the adjusting slider 502 in a rotating manner, the adjusting slider 502 is connected with the feeding trough 5 in a sliding manner, the output end of the feeding motor 601 and the output secondary wheel 605 are connected with the feeding trough 5 in a sliding manner, the feeding motor 601 and the output secondary wheel 605 are movably connected with the adjusting slider 502 through a first connecting rod 606 and a second connecting rod 607, the first connecting rod 606 is connected with the second connecting rod 607 in a rotating manner, and the adjusting slider 502 is connected with the metering ring 4 through a guide rod 608.

As shown in fig. 3 and 4, a follower wheel 401 is arranged in the metering ring 4, the follower wheel 401 is rotatably connected with the metering ring 4, an anti-deviation wheel 402 is arranged at one side of the metering ring 4 far from the follower wheel 401, the anti-deviation wheel 402 is movably connected with the metering ring 4, a plurality of catching bars 403 are arranged on the anti-deviation wheel 402, each catching bar 403 is respectively slidably connected with the anti-deviation wheel 402, a catching spring 404 is respectively arranged on each catching bar 403, two ends of each catching spring 404 respectively abut against the corresponding catching bar 403 and an expansion cylinder 405, the expansion cylinder 405 is rotatably connected with the metering ring 4, the expansion cylinder 405 is a petal cylinder, an expansion wedge 406 is arranged on the expansion cylinder 405, the expansion wedge 406 is in sliding contact with the expansion cylinder 405, the expansion wedge 406 is connected with an adjusting slide block 502 through a guide rod 608, teeth are arranged on the follower wheel 401, the teeth on the follower wheel 401 are in discontinuous interactive contact with the elastic switch 407, the elastic switch 407 is connected with the control cabinet 11 through a lead, when a wiring harness material enters the metering ring 4, the wiring harness material firstly falls on the follower wheel 401, then the catching strip 403 on the anti-deviation wheel 402 falls on the wiring harness material and rotates along with the wiring harness material, the catching strip 403 can be in continuous contact with the wiring harness material in the rotating process to compress the wiring harness material, the phenomena of sliding and the like of the wiring harness material are avoided, the follower wheel 401 rotates, the rotating follower wheel 401 can continuously touch the elastic switch 407, the elastic switch 407 can transmit a signal into the control cabinet 11 once when being closed, and the quantitative conveying effect is completed when the number of times of closing reaches a preset value.

As shown in fig. 7 and 8, a plurality of circular cutting tools 801 are arranged in a circular cutting wheel 8, a limit groove is arranged in the circular cutting wheel 8, each circular cutting tool 801 is respectively embedded in the limit groove and is connected with the limit groove in a sliding manner, a circular cutting column is arranged on one side of each circular cutting tool 801, which is far away from the limit groove, each circular cutting column is respectively embedded in a spiral disc 803, a cutting slideway is arranged on the spiral disc 803, each circular cutting column is respectively embedded in the cutting slideway and is connected with the cutting slideway in a sliding manner, external teeth are arranged on the spiral disc 803, a circular cutting motor 804 is arranged in the circular cutting wheel 8, the output end of the circular cutting motor 804 is meshed with the external teeth on the spiral disc 803, a deviation rectifying ring 12 is arranged on a circular cutting machine 1, the circle center of the circular cutting wheel 8, the circle center of the metering ring 4 and the circle center of the deviation rectifying ring 12 are on the same straight line, the circular cutting motor 804 is connected with a control cabinet 11 through a lead wire, when the wire harness material is transported to the ring cutting rotating wheel 8, along with the input of signals in the metering ring 4, the control cabinet 11 stops the movement of the feeding motor 601 according to the internal program setting, the ring cutting motor 804 operates to drive the ring cutting prop to move in the limiting groove on the ring cutting rotating wheel 8, all the ring cutting tools 801 get close to the circle center of the ring cutting rotating wheel 8, and finally all the tools present a complete circle, so that the raw material of the wire harness is cut off.

As shown in fig. 7, an edge grinding arm 13 is arranged on the circular cutting wheel 8, the edge grinding arm 13 is rotatably connected with the circular cutting wheel 8, an edge grinding motor 1301 is arranged at one end of the edge grinding arm 13, which is far away from the circular cutting wheel 8, an edge grinding wheel 1302 is arranged at the output end of the edge grinding motor 1301, a rotary hydraulic rod 1303 is arranged on the edge grinding arm 13, two ends of the rotary hydraulic rod 1303 respectively abut against the edge grinding arm 13 and the circular cutting wheel 8, a cleaning box 805 is arranged in the circular cutting wheel 8, the cleaning box 805 is rotatably connected with the circular cutting wheel 8, the cut wire harness raw material is cut off in the circular cutting wheel, the feeding assembly 6 pushes the wire harness material to continue to work for one node in the direction of the collecting box 9, and then the node is withdrawn, at this time, the rotary hydraulic rod 1303 drives the edge grinding arm 13 to rotate, the edge grinding motor 1301 starts to rotate, drives the edge grinding wheel 1302 to work, so that the circular cutting surface of the wire harness assembly is completely cut off, and the cutting mark is removed, thereby preventing the occurrence of polymerization phenomenon of the wire harness assembly.

As shown in fig. 2 and 11, the deviation rectifying ring 12 is slidably connected to the ring cutting machine 1, a deviation rectifying chute 1201 is disposed on the deviation rectifying ring 12, a deviation rectifying sub-ring 1202 is disposed on a side of the deviation rectifying chute 1201 away from the deviation rectifying ring 12, the deviation rectifying sub-ring 1202 is slidably connected to the deviation rectifying chute 1201, a plurality of pressing blocks 1203 are disposed in the deviation rectifying ring 12, the pressing blocks 1203 are slidably connected to the deviation rectifying ring 12, elastic sheets 1204 are disposed in the deviation rectifying ring 12, each pressing block 1203 is connected to the elastic sheet 1204, the elastic sheets 1204 are connected to the control cabinet 11 through wires, the cut wire harness material will enter the deviation rectifying chute 12, then the elastic sheets 1204 are powered on, the elastic sheets 1204 will abut against the pressing blocks 1203, the pressing blocks 1203 will press the cut wire harness material, a supporting force is provided for the edge grinding operation of the edge grinding wheel 1302, the wire harness material will enter the deviation rectifying chute, pass through the deviation rectifying sub-ring 1202, and then enter the collection box 9.

As shown in fig. 9, a rotary roller 806 is arranged on the cleaning box 805, a rotary fan blade 807 is arranged in the cleaning box 805, a locking block 808 is arranged on the cleaning box 805, the locking block 808 is in sliding contact with the circular cutting wheel 8, the rotary fan blade 807 is meshed with the spiral disk 803 through a slag suction gear set 809, the slag suction gear set 809 is arranged in the cleaning box 805, a diffusing pull plate 810 is arranged on the cleaning box 805, the diffusing pull plate 810 and the cleaning box 805 are rotationally connected through a spring shaft, when the spiral disk 803 rotates, the slag suction gear set 809 is driven to rotate, the slag suction gear set 809 transmits power to the rotary fan blade 807, negative pressure is generated when the rotary fan blade rotates, the diffusing pull plate 810 of the 807 is driven, the cleaning box 805 is in an open state at the moment, so as to collect materials such as scraps generated during shearing, and the like, when the spiral disk 803 reversely rotates, the diffusing pull plate 810 is reset under the action of the spring shaft, and the problem that the collected scraps are discharged again to cause secondary pollution is avoided.

As shown in fig. 10, a carrying chute 901 is provided in the collection box 9, a plurality of carrying plates 902 are provided in the carrying chute 901, a receiving groove is provided on each carrying plate 902, the carrying plates 902 are rotatably connected with the collection box 9 through a spring shaft, a receiving chute 903 is provided on the collection box 9, both ends of the receiving chute 903 are fixedly connected with the deviation rectifying ring 12 and the collection box 9, a discharge port is provided on the collection box 9, a baffle plate 904 is provided on the discharge port, when the cut harness material enters the collection box 9 through the carrying chute 901, the cut harness material falls on the carrying plates 902, the carrying plates 902 will rotate on the inner wall of the collection box 9 under the influence of the weight of the harness material, each carrying plate 902 will protect each harness material, the problem of friction damage of the harness caused in the carrying process is avoided, when the harness material in the collection box 9 needs to be removed, the baffle plate 904 is opened, and the harness material in the collection box 9 can be removed.

The working principle of the invention is as follows: the method comprises the steps that the wiring harness materials needing to be cut are placed on a feeding frame 2 and then pushed into a feeding groove 5, the wiring harnesses are driven by a feeding assembly 6 in the feeding groove 5 to move, a feeding motor 601 operates to drive a conveying belt 603 to rotate, the conveying belt 603 drives a clamping block 602 to move in a sliding track, the clamping block 602 clamps the wiring harness materials to move, an output auxiliary wheel 605 rotates along with the transmission of a transmission gear 501, the conveying belt 603 on the output auxiliary wheel 605 synchronously operates, the wiring harnesses move, the positions of a first connecting rod 606 and a second connecting rod 607 are adjusted simultaneously, more types of wiring harnesses can be adapted, the wiring harnesses pass through a metering ring 4 in the moving process, the metering ring 4 transmits electric signals into a control cabinet 11, the wiring harnesses pass through a feeding pipe 7 to enter a ring cutting runner 8, when the wiring harness materials are conveyed to the ring cutting runner 8, the control cabinet 11 inputs signals in the metering ring 4 along with the input of the signals, the control cabinet 11 stops moving according to internal program setting, the ring cutting motor 804 operates, the ring cutting runner 902 drives the wiring harness materials to enter a ring cutting runner 902 to cut the inner wall of a ring cutting runner 902, and the wiring harness materials to cut the inner wall of the ring cutting runner 801, and finally cut the wiring harness materials, and the wiring harnesses after the wiring harness materials enter a ring cutting runner 801, and the wiring harness cutting runner is cut into a ring cutting runner 801, and the cutting runner is cut off the cutting runner 9.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a pencil production and processing is with ration ring cutting equipment which characterized in that: the ring cutting equipment comprises a ring cutting bed (1), wherein a feeding frame (2) is arranged on the ring cutting bed (1), feeding rollers (3) are arranged on the feeding frame (2), a metering ring (4) is arranged on the ring cutting bed (1), the metering ring (4) is fixedly connected with the ring cutting bed (1), a feeding groove (5) is arranged on the feeding frame (2), a feeding assembly (6) is arranged in the feeding groove (5), a feeding pipe (7) is arranged on the ring cutting bed (1), the feeding pipe (7) is rotatably connected with the ring cutting bed (1), one side, away from the feeding groove (5), of the feeding pipe (7) is provided with a ring cutting rotating wheel (8), the ring cutting rotating wheel (8) is rotatably connected with the ring cutting bed (1), one side, away from the ring cutting rotating wheel (8), of the ring cutting bed (1) is provided with a collecting box (9), the collecting box (9) is slidably connected with the ring cutting bed (1), a protective cover (10) is arranged on the ring cutting bed (1), and a control cabinet (11) is arranged.

2. The quantitative circular cutting equipment for the production and processing of the wire harness as claimed in claim 1, wherein: the feeding assembly (6) comprises a feeding motor (601), the feeding motor (601) is arranged in a feeding groove (5), sliding rails are arranged on two sides of the feeding groove (5), a plurality of clamping blocks (602) are arranged in the sliding rails, each clamping block (602) is arranged on a conveying belt (603), an output roller (604) is arranged on the feeding motor (601), an outer gear is arranged on the output roller (604), a transmission gear (501) is arranged in the feeding groove (5), the transmission gear (501) is meshed with the output roller (604), one side, away from the output roller (604), of the transmission gear (501) is meshed with an output auxiliary wheel (605), the output auxiliary wheel (605) is rotatably connected with the feeding groove (5), and the conveying belts (603) in the sliding rails respectively bypass the output roller (604) and the output auxiliary wheel (605).

3. The quantitative circular cutting equipment for the production and processing of the wire harness as claimed in claim 2, wherein: the two ends of the transmission gear (501) are respectively connected with an adjusting sliding block (502) in a rotating mode, the adjusting sliding block (502) is connected with a feeding groove (5) in a sliding mode, the output end of the feeding motor (601), the output auxiliary wheel (605) and the feeding groove (5) are connected in a sliding mode, the feeding motor (601) and the output auxiliary wheel (605) are movably connected with the adjusting sliding block (502) through a first connecting rod (606) and a second connecting rod (607), the first connecting rod (606) is connected with the second connecting rod (607) in a rotating mode, and the adjusting sliding block (502) is connected with the metering ring (4) through a guide rod (608).

4. The quantitative circular cutting equipment for the wire harness production and processing as claimed in claim 3, wherein: the metering device is characterized in that a follower wheel (401) is arranged in the metering ring (4), the follower wheel (401) is rotatably connected with the metering ring (4), an anti-deviation wheel (402) is arranged on one side, far away from the follower wheel (401), in the metering ring (4), the anti-deviation wheel (402) is movably connected with the metering ring (4), a plurality of capture strips (403) are arranged on the anti-deviation wheel (402), each capture strip (403) is slidably connected with the anti-deviation wheel (402), each capture spring (404) is arranged on each capture strip (403), two ends of each capture spring (404) respectively abut against the corresponding capture strip (403) and an expansion cylinder (405), the expansion cylinder (405) is rotatably connected with the metering ring (4), the expansion cylinder (405) is a petal-shaped cylinder, an expansion wedge block (406) is arranged on the expansion cylinder (405), the expansion wedge (406) is in sliding contact with the expansion cylinder (405), the expansion wedge (406) is connected with an adjusting slider (502) through a guide rod (608), a follower gear (401) is arranged on the follower wheel (401), and an elastic switch (407) is in contact with an intermittent control cabinet through a guide wire (11).

5. The quantitative circular cutting equipment for the production and processing of the wire harness as claimed in claim 4, wherein: be provided with a plurality of ring cutting tool (801) in ring cutting runner (8), be provided with the spacing groove in ring cutting runner (8), every ring cutting tool (801) respectively with imbed the spacing inslot and with spacing groove sliding connection, every keep away from spacing groove one side on ring cutting tool (801) and be provided with the ring cutting post, every the ring cutting post imbeds spiral disk (803) respectively in, be provided with the shearing slide on spiral disk (803), every the ring cutting post imbeds respectively in the shearing slide and with shearing slide sliding connection, be provided with the external tooth on spiral disk (803), be provided with ring cutting motor (804) in ring cutting runner (8), ring cutting motor (804) output and the external tooth meshing on spiral disk (803), be provided with on the ring cutting bed (1) and rectify a deviation ring (12), the centre of a circle of ring cutting runner (8), the centre of a circle of metering ring (4), with the centre of a circle of rectifying ring (12) on same straight line, ring cutting motor (804) are connected with switch board (11) through the wire.

6. The quantitative circular cutting equipment for the wire harness production and processing as claimed in claim 5, wherein: be provided with edging arm (13) on circular cutting runner (8), edging arm (13) and circular cutting runner (8) swivelling joint, edging arm (13) are kept away from circular cutting runner (8) one end and are provided with edging motor (1301), be provided with edging wheel (1302) on edging motor (1301) output, be provided with rotatory hydraulic stem (1303) on edging arm (13), rotatory hydraulic stem (1303) both ends support edging arm (13) and circular cutting runner (8) respectively, be provided with clearance box (805) in circular cutting runner (8), clearance box (805) and circular cutting runner (8) swivelling joint.

7. The quantitative circular cutting equipment for the wire harness production and processing as claimed in claim 6, wherein: rectify ring (12) and circular cutting bed (1) sliding connection, be provided with deviation rectifying chute (1201) on rectifying ring (12), deviation rectifying chute (1201) is kept away from and is provided with vice ring (1202) of rectifying on one side of rectifying ring (12), vice ring (1202) of rectifying and deviation rectifying chute (1201) sliding connection, be provided with a plurality of compact heap (1203) in rectifying ring (12), compact heap (1203) and ring (12) sliding connection of rectifying, it rolls up piece (1204) to be provided with the elasticity in ring (12), every compact heap (1203) are connected with elasticity book piece (1204), elasticity book piece (1204) are connected with switch board (11) through the wire.

8. The quantitative circular cutting equipment for the production and processing of the wire harness as claimed in claim 7, wherein: the cleaning box (805) is provided with a rotary roller (806), rotary fan blades (807) are arranged in the cleaning box (805), a locking block (808) is arranged on the cleaning box (805), the locking block (808) is in sliding contact with a circular-cut rotating wheel (8), the rotary fan blades (807) are meshed with the spiral disc (803) through a slag suction gear set (809), the slag suction gear set (809) is arranged in the cleaning box (805), a diffusing shifting sheet (810) is arranged on the cleaning box (805), and the diffusing shifting sheet (810) is in rotary connection with the cleaning box (805) through a spring shaft.

9. The quantitative circular cutting equipment for the production and processing of the wire harness as claimed in claim 8, wherein: the collecting box is characterized in that a bearing chute (901) is arranged in the collecting box (9), a plurality of bearing plates (902) are arranged in the bearing chute (901), a material receiving groove is formed in each bearing plate (902), the bearing plates (902) are rotatably connected with the collecting box (9) through spring shafts, a material receiving slide (903) is arranged on the collecting box (9), two ends of the material receiving slide (903) are fixedly connected with the deviation rectifying ring (12) and the collecting box (9) respectively, a discharge port is formed in the collecting box (9), and a material blocking plate (904) is arranged on the discharge port.

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