CN211965743U

CN211965743U - Electromagnetic wire cutting device

Info

Publication number: CN211965743U
Application number: CN202020117919.XU
Authority: CN
Inventors: 过武军; 许兴根; 鱼健; 张旭辉; 孙红军; 许晓卿; 由建忠; 黄健; 陈文�; 陶冉
Original assignee: Ningxia Suxi Copper Technology Co ltd
Current assignee: Ningxia Suxi Copper Technology Co ltd
Priority date: 2020-01-18
Filing date: 2020-01-18
Publication date: 2020-11-20
Anticipated expiration: 2030-01-18

Abstract

An electromagnetic wire cutting apparatus comprising: supporting component, the direction subassembly, the transportation subassembly, cutting assembly and centre gripping subassembly, the supporting component includes workstation and backup pad, the direction subassembly includes direction wheelset and lower direction wheelset, go up direction wheelset and lower direction wheelset interval about respectively and set up in the backup pad, the transportation subassembly is including transporting the boss, conveying roller, the lifter plate, the lift driving piece, adjust the slider and adjust the driving piece, cutting component includes first cutting piece and second cutting piece, first cutting piece sets up on adjust the slider with second cutting piece longitudinal symmetry, the centre gripping subassembly includes centre gripping sliding seat and clamping jaw. The utility model discloses an electromagnetic wire cutting device is through setting up supporting component, direction subassembly, transportation subassembly, cutting assembly and centre gripping subassembly to can replace the manual work to carry out the cutting operation to the electromagnetic wire, and can adapt to the electromagnetic wire cutting process of multiple specification, improve the efficiency and the cutting accuracy of production and processing from this.

Description

Electromagnetic wire cutting device

Technical Field

The utility model relates to an electromagnetic wire production and processing technology field especially relates to an electromagnetic wire cutting device.

Background

Electromagnetic wires are insulated electrical wires used to make coils or windings in electrical products. Also known as winding wire. Magnet wires must meet a variety of requirements for use and manufacturing processes. The former includes its shape, specification, ability to work at high temperature for a short time and a long time, and to withstand strong vibration and centrifugal force at high speed in some occasions, withstand corona and breakdown at high voltage, resist chemical corrosion under special atmosphere, etc.; the latter include the requirements of being subjected to stretching, bending and abrasion during winding and laying, as well as swelling, erosion during impregnation and drying.

In the processing operation of magnet wires, it is necessary to perform a cutting operation on the processed and formed magnet wires, thereby cutting the magnet wires into corresponding length specifications. The existing electromagnetic wire cutting is generally carried out manually, the manual cutting mode is not high in production efficiency, and the flatness of the cutting surface of the electromagnetic wire cannot be guaranteed, so that secondary trimming is required, and certain manpower and material resources are consumed; meanwhile, the cutting lengths of the electromagnetic wires of different specifications are different, so that the cutting equipment in the prior art cannot adapt to the cutting processing of the electromagnetic wires of multiple specifications, and when the electromagnetic wire of another specification needs to be replaced for cutting, the cutting equipment in the prior art needs to be debugged, or a corresponding cutting part needs to be replaced, so that certain inconvenience is brought to the production and processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide one kind and can replace the manual work to carry out the cutting operation to the electromagnetism line, and can adapt to the electromagnetism line cutting device of the electromagnetism line cutting processing of multiple specification.

The purpose of the utility model is realized through the following technical scheme:

an electromagnetic wire cutting apparatus comprising:

the supporting component comprises a workbench and a supporting plate, and the supporting plate is vertically arranged on the workbench;

the guide assembly comprises an upper guide wheel set and a lower guide wheel set, the upper guide wheel set and the lower guide wheel set are respectively arranged on the supporting plate at intervals up and down, and a guide channel is arranged between the upper guide wheel set and the lower guide wheel set;

a transportation assembly, wherein the transportation assembly comprises a transportation boss, a transmission roller, a lifting plate, a lifting driving piece, an adjusting slider and an adjusting driving piece, the transportation boss is fixedly arranged on the supporting plate, a transportation groove is arranged on the transportation boss, the transportation groove is aligned with the guide channel, the lifting plate is slidably arranged on the supporting plate, the transmission roller is rotatably arranged on the lifting plate, the lifting driving piece is connected with the lifting plate, the lifting driving piece is used for driving the lifting plate to perform reciprocating displacement towards the transportation boss so as to enable the transmission roller to abut against or separate from the transportation groove, the adjusting slider is slidably arranged on the transportation boss, the adjusting driving piece is connected with the adjusting slider, the adjusting driving piece is used for driving the adjusting slider to perform reciprocating displacement towards the transportation boss, a conveying limiting channel is formed in the adjusting slide block and is aligned with the conveying groove;

the cutting assembly comprises a first cutting piece and a second cutting piece, the first cutting piece and the second cutting piece are symmetrically arranged on the adjusting slide block from top to bottom, and the first cutting piece and the second cutting piece are both positioned at the discharge end of the conveying limiting channel; and

the centre gripping subassembly, the centre gripping subassembly includes centre gripping sliding seat and clamping jaw, the centre gripping sliding seat slide set up in on the workstation, the clamping jaw set up in on the centre gripping sliding seat, just the clamping jaw with adjust the setting of slider looks parallel and level.

In one embodiment, the upper guide wheel set comprises a guide mounting plate, a guide pressing plate, an elastic resetting piece and a plurality of upper guide wheels, the guide mounting plate is fixedly arranged on the supporting plate, the guide pressing plate is arranged on the supporting plate in a sliding mode, the elastic resetting piece is respectively connected with the guide mounting plate and the guide pressing plate, and the upper guide wheels are respectively and rotatably arranged on the guide pressing plate.

In one embodiment, the elastic return member is a spring.

In one embodiment, the lower guide wheel set comprises a plurality of lower guide wheels, and each lower guide wheel is arranged in a straight shape.

In one embodiment, the lifting drive member is a pneumatic cylinder.

In one embodiment, the adjusting driving member comprises an adjusting motor and an adjusting gear, the adjusting gear is arranged on the supporting plate, and the adjusting motor is connected with the adjusting gear.

In one embodiment, the adjusting slider is an adjusting rack, and the adjusting rack is meshed with the adjusting gear.

In one embodiment, the first cutting member comprises a first cutting mounting seat, a first cutting blade and a first cutting driving cylinder, the first cutting mounting seat is arranged on the adjusting slide block, the first cutting blade is arranged on the first cutting mounting seat in a sliding mode and is located above the discharge end of the transportation limiting channel, and the first cutting driving cylinder is connected with the first cutting blade.

In one embodiment, the second cutting member includes a second cutting mounting seat, a second cutting blade and a second cutting driving cylinder, the second cutting mounting seat is disposed on the adjusting slider, the second cutting blade is slidably disposed on the second cutting mounting seat, the second cutting blade is located below the discharge end of the conveying limiting channel, and the second cutting driving cylinder is connected with the second cutting blade.

In one embodiment, the clamping assembly further comprises a transverse driving cylinder, the transverse driving cylinder is connected with the clamping sliding seat, and the transverse driving cylinder is used for driving the clamping sliding seat to perform reciprocating displacement towards the cutting assembly.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model discloses an electromagnetic wire cutting device is through setting up supporting component, direction subassembly, transportation subassembly, cutting assembly and centre gripping subassembly to can replace the manual work to carry out the cutting operation to the electromagnetic wire, and can adapt to the electromagnetic wire cutting process of multiple specification, improve the efficiency and the cutting accuracy of production and processing from this.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an electromagnetic wire cutting apparatus according to an embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is noted that as used herein, reference to an element being "connected" to another element also means that the element is "in communication" with the other element, and fluid can be in exchange communication between the two.

In one embodiment, an electromagnetic wire cutting apparatus includes: the cutting device comprises a supporting assembly, a guiding assembly, a transporting assembly, a cutting assembly and a clamping assembly, wherein the supporting assembly comprises a workbench and a supporting plate, and the supporting plate is vertically arranged on the workbench; the guide assembly comprises an upper guide wheel set and a lower guide wheel set, the upper guide wheel set and the lower guide wheel set are respectively arranged on the supporting plate at intervals up and down, and a guide channel is arranged between the upper guide wheel set and the lower guide wheel set; the transportation assembly comprises a transportation boss, a conveying roller, a lifting plate, a lifting driving piece, an adjusting slider and an adjusting driving piece, the transportation boss is fixedly arranged on the supporting plate, a transportation groove is formed in the transportation boss, the transportation groove is aligned with the guide channel, the lifting plate is slidably arranged on the supporting plate, the conveying roller is rotatably arranged on the lifting plate, the lifting driving piece is connected with the lifting plate and is used for driving the lifting plate to perform reciprocating displacement towards the transportation boss so as to enable the conveying roller to abut against or be separated from the transportation groove, the adjusting slider is slidably arranged on the transportation boss and is connected with the adjusting slider, the adjusting driving piece is used for driving the adjusting slider to perform reciprocating displacement towards the transportation boss, a conveying limiting channel is formed in the adjusting slide block and is aligned with the conveying groove; the cutting assembly comprises a first cutting piece and a second cutting piece, the first cutting piece and the second cutting piece are symmetrically arranged on the adjusting slide block from top to bottom, and the first cutting piece and the second cutting piece are both positioned at the discharge end of the conveying limiting channel; the centre gripping subassembly includes centre gripping sliding seat and clamping jaw, the centre gripping sliding seat slide set up in on the workstation, the clamping jaw set up in on the centre gripping sliding seat, just the clamping jaw with adjust the setting of slider looks parallel and level. The utility model discloses an electromagnetic wire cutting device is through setting up supporting component, direction subassembly, transportation subassembly, cutting assembly and centre gripping subassembly to can replace the manual work to carry out the cutting operation to the electromagnetic wire, and can adapt to the electromagnetic wire cutting process of multiple specification, improve the efficiency and the cutting accuracy of production and processing from this.

The present invention is directed to a wire cutting apparatus, which is capable of cutting a wire into a desired shape. Referring to fig. 1, an electromagnetic wire cutting apparatus 10 includes: the cutting device comprises a supporting assembly 100, a guiding assembly 200, a transporting assembly 300, a cutting assembly 400 and a clamping assembly 500, wherein the supporting assembly 100 comprises a workbench 110 and a supporting plate 120, and the supporting plate 120 is vertically arranged on the workbench 110; the guide assembly 200 includes an upper guide wheel set 210 and a lower guide wheel set 220, the upper guide wheel set 210 and the lower guide wheel set 220 are respectively disposed on the support plate 120 at intervals up and down, and a guide channel is disposed between the upper guide wheel set 210 and the lower guide wheel set 220;

further, the upper guide wheel set 210 includes a guide mounting plate 211, a guide pressing plate 212, an elastic reset member 213 and a plurality of upper guide wheels 214, the guide mounting plate 211 is fixedly disposed on the supporting plate 120, the guide pressing plate 212 is slidably disposed on the supporting plate 120, the elastic reset member 213 is respectively connected with the guide mounting plate 211 and the guide pressing plate 212, and each upper guide wheel 214 is respectively rotatably disposed on the guide pressing plate 212; the lower guide wheel group 220 includes a plurality of lower guide wheels 221, each of which is disposed in a line shape. In this embodiment, the elastic restoring member is a spring.

It should be noted that, by arranging the upper guide wheel set 210 and the lower guide wheel set 220 on the support plate 120, the electromagnetic wire can be guided and limited through the guide channel between the upper guide wheel set 210 and the lower guide wheel set 220, so that the transmission operation of the electromagnetic wire is more stable. Specifically, the lower guide wheel set 220 is composed of a plurality of lower guide wheels 221, so that the lower guide wheels can be matched with the plurality of upper guide wheels 214 in the upper guide wheel set 210, so that the electromagnetic wire is pressed between each upper guide wheel 214 and each lower guide wheel 221, and thus, the transmission guide function can be achieved through the rotation of each upper guide wheel 214 and each lower guide wheel 221, and the transmission operation of the electromagnetic wire is more stable; meanwhile, each upper guide wheel 214 is rotatably arranged on the guide pressure plate 212, and the elastic reset piece 213 is connected with the guide mounting plate 211 and the guide pressure plate 212, so that the gap between each upper guide wheel 214 and each lower guide wheel 221 can be adjusted by the expansion and contraction of the elastic reset piece 213, thereby being suitable for the production and processing of electromagnetic wires with different width specifications, improving the pressing force between each upper guide wheel 214 and each lower guide wheel 221, and enabling the transmission operation of the electromagnetic wires to be more stable.

Referring to fig. 1 again, the transportation assembly 300 includes a transportation boss 310, a transportation roller 320, a lifting plate 330, a lifting driving member 340, an adjustment slider 350 and an adjustment driving member 360, the transportation boss 310 is fixedly disposed on the supporting plate 120, the transportation boss 310 is formed with a transportation groove aligned with the guide channel, the lifting plate 330 is slidably disposed on the supporting plate 120, the transportation roller 320 is rotatably disposed on the lifting plate 330, the lifting driving member 340 is connected with the lifting plate 330, the lifting driving member 340 is used for driving the lifting plate 330 to perform a reciprocating displacement toward the transportation boss 310, so that the transportation roller 320 is abutted against or separated from the transportation groove, the adjustment slider 350 is slidably disposed on the transportation boss 310, the adjustment driving member 360 is connected with the adjustment slider 350, the adjustment driving member 360 is used for driving the adjustment slider 350 to perform a reciprocating displacement toward the transportation boss 310, the adjustment slider 350 is formed with a transportation limit channel, the transport limit channels are aligned with the transport grooves. In this embodiment, the lift drive member is a cylinder.

It should be noted that, after the electromagnetic wire is pressed and held fixedly by the guiding assembly 200, the electromagnetic wire is placed in the transportation groove of the transportation boss 310 by manual work or by corresponding mechanical arm stretching, at this time, the lifting driving member 340 drives the lifting plate 330 to move towards the transportation boss 310, so that the transmission roller 320 abuts against the electromagnetic wire in the transportation groove, and then the motor drives the transmission roller 320 to rotate, so that the electromagnetic wire can be transmitted in the transportation groove, because the transportation limiting channel is arranged on the adjusting slider 350, and the transportation limiting channel is aligned with the transportation groove, so that the electromagnetic wire can move to the transportation limiting channel of the adjusting slider 350 in the transmission motion, and can be transmitted out from the discharge end of the transportation limiting channel, thereby realizing the transmission operation of the electromagnetic wire, and making the transmission operation of the electromagnetic wire more stable.

Referring to fig. 1 again, the cutting assembly 400 includes a first cutting element 410 and a second cutting element 420, the first cutting element 410 and the second cutting element 420 are symmetrically disposed on the adjusting slider 350, and the first cutting element 410 and the second cutting element 420 are both located at the discharge end of the transportation limiting channel. Further, the air conditioner is provided with a fan,

the clamping assembly 500 includes a clamping sliding base 510 and a clamping jaw 520, the clamping sliding base 510 is slidably disposed on the worktable 110, the clamping jaw 520 is disposed on the clamping sliding base 510, and the clamping jaw 520 is disposed flush with the adjusting slider 350. The clamping assembly 500 further comprises a transverse driving cylinder 530, the transverse driving cylinder 530 is connected to the clamping sliding seat 510, and the transverse driving cylinder 530 is configured to drive the clamping sliding seat 510 to perform reciprocating displacement towards the cutting assembly 400.

It should be noted that, when the electromagnetic wire is located at the discharge end of the transportation limit channel, the transverse driving cylinder 530 drives the clamping sliding seat 510 to move towards the cutting assembly 400, so that the clamping jaw 520 is located at the discharge end of the transportation limit channel, at this time, the electromagnetic wire at the discharge end of the transportation limit channel is clamped and fixed by the clamping jaw 520, and then the transverse driving cylinder 530 drives the clamping sliding seat 510 to reset, so that the electromagnetic wire is in a stretching and tensioning state, and the distance between the cutting assembly 400 and the clamping assembly 500 is set, so that the cutting length of the electromagnetic wire can be corresponded; when the magnet wire is in a stretching and tensioning state, the first cutting piece 410 and the second cutting piece 420 respectively perform cutting operation close to each other, so that the magnet wire at the discharge end of the transportation limit channel can be cut off, and the cutting operation of the magnet wire is completed; because the magnet wire keeps tensile tensioning state when the cutting for the magnet wire surface after the cutting keeps leveling, thereby improves holistic cutting efficiency.

Referring to fig. 1 again, the adjusting driving member 360 includes an adjusting motor and an adjusting gear 361, the adjusting gear 361 is disposed on the supporting plate 120, and the adjusting motor is connected to the adjusting gear 361; the adjusting slide block is an adjusting rack which is meshed with the adjusting gear; the first cutting member 410 includes a first cutting mounting seat 411, a first cutting blade 412 and a first cutting driving cylinder 413, the first cutting mounting seat 411 is disposed on the adjusting slider 350, the first cutting blade 412 is slidably disposed on the first cutting mounting seat 411, the first cutting blade 412 is located above the discharging end of the transportation limiting channel, and the first cutting driving cylinder 413 is connected with the first cutting blade 412. The second cutting member 420 comprises a second cutting mounting seat 421, a second cutting blade 422 and a second cutting driving cylinder 423, the second cutting mounting seat 421 is arranged on the adjusting sliding block 350, the second cutting blade 422 is slidably arranged on the second cutting mounting seat 421, the second cutting blade 422 is located below the discharging end of the conveying limiting channel, and the second cutting driving cylinder 423 is connected with the second cutting blade 422.

It should be noted that, when the cutting length of the magnet wire needs to be adjusted, that is, the distance between the cutting assembly 400 and the clamping assembly 500 needs to be adjusted, so that the adjusting gear 361 is driven to rotate by the adjusting motor, so that the adjusting slider can move on the transportation boss 310, and because the first cutting mounting seat 411 and the second cutting mounting seat 421 are respectively arranged on the adjusting slider, the position of the adjusting slider can be adjusted according to the actual cutting length requirement, so that the discharge end of the transportation limit channel is close to or far away from the clamping assembly 500, so that the cutting operation of the magnet wire with different length specifications can be realized; through setting up first cutting mount pad 411 and second cutting mount pad 421 to can make first cutting blade 412 and second cutting blade 422 be located the discharge end department of the spacing passageway of transportation respectively, drive the drive that actuating cylinder 413 and second cutting drive actuating cylinder 423 through first cutting from this, make first cutting blade 412 and second cutting blade 422 carry out the motion that is close to each other, thereby can be with the electromagnetic wire cutting shaping of the spacing passageway discharge end department of transportation, thereby improve the efficiency and the cutting precision of production and processing.

the utility model discloses an electromagnetic wire cutting device 10 is through setting up supporting component 100, guide assembly 200, transportation subassembly 300, cutting assembly 400 and centre gripping subassembly 500 to can replace the manual work to carry out the cutting operation to the electromagnetic wire, and can adapt to the electromagnetic wire cutting processing of multiple specification, improve the efficiency and the cutting accuracy of production and processing from this.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An electromagnetic wire cutting apparatus, comprising:

2. The electromagnetic wire cutting device according to claim 1, wherein the upper guide wheel set comprises a guide mounting plate, a guide pressing plate, an elastic resetting member and a plurality of upper guide wheels, the guide mounting plate is fixedly arranged on the supporting plate, the guide pressing plate is slidably arranged on the supporting plate, the elastic resetting member is respectively connected with the guide mounting plate and the guide pressing plate, and each upper guide wheel is respectively rotatably arranged on the guide pressing plate.

3. The electromagnetic wire cutting apparatus of claim 2 wherein the resilient return member is a spring.

4. The electromagnetic wire cutting device of claim 1, wherein the lower guide wheel set comprises a plurality of lower guide wheels, each of the lower guide wheels being disposed in a line.

5. The electromagnetic wire cutting apparatus of claim 1 wherein the lift drive is a pneumatic cylinder.

6. The electromagnetic wire cutting device of claim 1, wherein the adjustment drive includes an adjustment motor and an adjustment gear, the adjustment gear being disposed on the support plate, the adjustment motor being coupled to the adjustment gear.

7. The electromagnetic wire cutting device of claim 6 wherein the adjustment slide is an adjustment rack, the adjustment rack being engaged with the adjustment gear.

8. The electromagnetic wire cutting device according to claim 1, wherein the first cutting member includes a first cutting mount, a first cutting blade, and a first cutting driving cylinder, the first cutting mount is disposed on the adjustment slider, the first cutting blade is slidably disposed on the first cutting mount, and the first cutting blade is located above a discharge end of the transportation limit passage, the first cutting driving cylinder is connected to the first cutting blade.

9. The electromagnetic wire-cutting apparatus of claim 1, wherein the second cutting member includes a second cutting mount, a second cutting blade, and a second cutting drive cylinder, the second cutting mount being disposed on the adjustment block, the second cutting blade being slidably disposed on the second cutting mount, the second cutting blade being positioned below the discharge end of the conveyor limit channel, the second cutting drive cylinder being coupled to the second cutting blade.

10. The electromagnetic wire cutting apparatus of claim 1, wherein the clamping assembly further comprises a transverse drive cylinder coupled to the clamping shoe, the transverse drive cylinder configured to drive the clamping shoe to reciprocate in a direction toward the cutting assembly.