CN214023247U - Steel wire shot cutting machine - Google Patents

Abstract

The utility model relates to a technical field of steel wire cutting ball, concretely relates to steel wire cutting ball machine, which comprises a frame, install in the frame and advance a subassembly and shred the subassembly, advance to be provided with the seal wire subassembly between a subassembly and the shred subassembly. The beneficial effect of this application does: set up the seal wire subassembly between advancing a subassembly and shredding the subassembly, the steel wire is cut by seal wire subassembly direction to shredding subassembly department after advancing a subassembly, can avoid the steel wire transition crooked, can improve the cutting precision of steel wire for the steel wire aggregate is more even.

Description

Steel wire shot cutting machine

Technical Field

The application relates to the technical field of steel wire aggregate processing, in particular to a steel wire shot cutting machine.

Background

The steel wire is cut through the manual work before the shot is cut to the steel wire, along with the further development of science and technology, has appeared the steel wire shot cutting machine gradually, and gradual replacement manual operation has improved and has cut the ball efficiency.

In the related technology, a steel wire enters equipment from one end of a steel wire shot cutting machine, the steel wire is sent to a wire cutting position for cutting after wire feeding, and the steel wire is cut into shot.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the wire feeding end and the wire cutting end of the steel wire have a certain distance, the steel wire is pushed to move towards the wire cutting end through the wire feeding end, and because the steel wire which is just uncoiled also has a certain curvature, in the process of moving from the wire feeding end to the wire cutting end, the steel wire can be continuously bent due to the action of the pushing force, so that the cutting precision of the steel wire is not high, and the cut steel wire granules are not uniform.

SUMMERY OF THE UTILITY MODEL

In order to improve steel wire cutting accuracy for the steel wire aggregate is more even, this application provides a steel wire shot cutting machine.

The application provides a steel wire shot cutting machine adopts following technical scheme:

the steel wire shot cutting machine comprises a rack, wherein a wire feeding assembly and a wire cutting assembly are mounted on the rack, and a wire guide assembly is arranged between the wire feeding assembly and the wire cutting assembly.

By adopting the technical scheme: set up the seal wire subassembly between advancing a subassembly and shredding the subassembly, the steel wire is cut by seal wire subassembly direction to shredding subassembly department after advancing a subassembly, can avoid the steel wire transition crooked, can improve the cutting precision of steel wire for the steel wire aggregate is more even.

Preferably, advance the silk subassembly including setting up the silk casing of advancing in the frame, advance the silk casing in be provided with go up the running roller and advance the running roller down, go up the running roller and rotate and connect on the fixed axle, the fixed axle both ends are passed through the bolt fastening and are being advanced on the silk casing lateral wall, the axis of rotation that advances the running roller down passes through the bearing and rotates and connect on the lateral wall of advancing the silk casing, the axis of rotation one side that advances the running roller down is worn out and is advanced behind the silk casing and the pivot key-type connection of driving disk, the driving disk passes through the belt with the output wheel of first motor and is connected, first motor fixed mounting is in the frame.

By adopting the technical scheme: the first motor drives the transmission disc to rotate through the belt after being started, the transmission disc drives the lower wire feeding wheel to rotate, and the lower wire feeding wheel is matched with the upper wire feeding wheel to convey a steel wire to the wire guiding assembly.

Preferably, a gap through which a steel wire passes is reserved between the upper wire feeding wheel and the lower wire feeding wheel, and the outer surfaces of the upper wire feeding wheel and the lower wire feeding wheel are rough surfaces.

By adopting the technical scheme: under the initial condition, the steel wire is worn to establish in going up the wire wheel and advancing down the clearance between the wire wheel to aim at the seal wire subassembly, the clearance size is adjustable, according to the size of steel wire diameter, adjusts the size in clearance in order to adapt to different steel wires through the position of adjusting last wire wheel, and the last wire wheel of matte can prevent that the steel wire from skidding in clearance department with advancing the wire wheel down, conveying steel wire that can be better.

Preferably, a wire dividing plate is further arranged on one side, away from the wire cutting assembly, of the wire feeding assembly, a wire dividing hole and/or a wire dividing groove are/is formed in the wire dividing plate, and a wire guiding assembly is arranged on the other side of the wire feeding assembly.

By adopting the technical scheme: the wire dividing plate can comb the steel wires in advance, and the steel wires penetrate into the wire dividing plate or the wire dividing groove and then penetrate into a gap between the upper wire feeding wheel and the lower wire feeding wheel as required, and the first motor is started after the wire guiding assembly is aligned to the gap, so that wire feeding can be realized.

Preferably, the shredding assembly comprises a shredding box arranged on the rack, a cutting roller is rotatably mounted in the shredding box, shaft heads at two ends of the cutting roller are mounted on the side wall of the shredding box through bearings, a cutter is arranged on the outer peripheral side of the cutting roller, the shaft head on one side of the cutting roller penetrates through the side wall of the shredding box and then is connected with a rotating wheel, the rotating wheel is connected with an output wheel of a second motor through a belt, and the second motor is fixedly mounted on the rack.

By adopting the technical scheme: through the rotation of second motor, drive the runner through the belt and rotate, the runner drives and cuts the roller rotation to the cutter on the roller can be ceaselessly cut the steel wire, become the aggregate with the steel wire cutting.

Preferably, the inner wall of the shredding box, which is close to one side of the wire feeding assembly, is provided with a steel wire limiting clamp, a through hole is formed in the steel wire limiting clamp, and the lower part of the shredding box is provided with a steel wire shot outlet.

By adopting the technical scheme: when shredding, the steel wire can be clamped by the steel wire limiting clamp, the steel wire is prevented from jumping when being cut, the cutting precision of the steel wire is further improved, and the cut steel wire shots are discharged from the steel wire shot outlet to the shredding box.

Preferably, the steel wire limiting clamp comprises a lower limiting clamp arranged on the side wall of the shredding box and an upper limiting clamp arranged on the side wall of the shredding box in a sliding manner, a sliding rail is arranged on the side wall of the shredding box, the upper limiting clamp is clamped on the sliding rail in a clamping manner, a steel wire guide surface is formed between the upper limiting clamp and the lower limiting clamp, and the upper limiting clamp is connected with a distance adjusting assembly.

By adopting the technical scheme: according to the diameter difference of cutting steel wire, can adjust upper limit clamp through apart from adjusting part for the perforation aperture between upper limit clamp and the lower limit clamp can change in order to adapt to different steel wires.

Preferably, the distance adjusting assembly comprises a threaded sleeve arranged on the upper side wall of the shredding box, an adjusting screw is connected to the threaded sleeve in a threaded mode, a rotating block is arranged at the lower end of the adjusting screw, and the rotating block is rotatably connected in a limiting sleeve arranged on the upper side of the upper limiting clamp.

By adopting the technical scheme: through rotatory adjusting screw, adjusting screw's end changes in vertical direction, because adjusting screw's end is provided with the turning block, and the turning block rotates to be connected in the stop collar, and the turning block can drive the spacing clamp and remove to adjust the clearance between spacing clamp and the lower spacing clamp, adapt to the different steel wire of diameter.

Preferably, the guide wire assembly comprises a plurality of limiting pipes arranged between the wire feeding shell of the wire feeding assembly and the wire cutting box of the wire cutting assembly.

By adopting the technical scheme: the steel wire is through advancing a silk subassembly propelling movement, and every steel wire is all cut by propelling movement to shredding assembly department in spacing intraductal, can prevent at the in-process of propelling movement, and the steel wire overbending leads to the cutting inhomogeneous.

Preferably, a plurality of the limiting pipes are positioned on the same horizontal plane and are parallel to each other, one end of each limiting pipe extends to a gap between the upper wire feeding wheel and the lower wire feeding wheel of the wire feeding assembly, and the other end of each limiting pipe extends to the steel wire limiting clamp of the wire cutting assembly.

By adopting the technical scheme: the wire feeding channel is formed between the gap between the upper wire feeding wheel and the lower wire feeding wheel and the steel wire limiting clamp, and the steel wire can be prevented from being excessively bent.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up the seal wire subassembly, the steel wire is cut to shred subassembly department by the direction of seal wire subassembly behind the advance silk subassembly, can avoid the steel wire transition crooked, can improve the cutting accuracy of steel wire for the steel wire aggregate is more even.

2. The steel wire can be clamped by the steel wire limiting clamp, so that the steel wire is prevented from jumping when being cut, and the cutting precision of the steel wire is further improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic top view of an embodiment of the present application.

Fig. 3 is a schematic structural view of a wire separating plate according to an embodiment of the present application.

Fig. 4 is an enlarged schematic structural diagram at a in fig. 1 according to an embodiment of the present application.

Reference number legend, 100, rack; 200. a wire feeding assembly; 210. feeding a wire shell; 220. an upper feeding wheel; 230. a wire feeding wheel is arranged; 240. a fixed shaft; 241. an adjustment groove; 250. a drive plate; 260. a first motor; 261. mounting a plate; 270. a wire separating plate; 271. a wire dividing hole; 272. a wire dividing groove; 300. a shredding assembly; 310. shredding boxes; 311. a steel wire shot outlet; 320. cutting rollers; 321. a cutter; 330. a second motor; 340. a steel wire limiting clamp; 341. perforating; 342. a lower limiting clamp; 343. an upper limit clamp; 345. a slide rail; 346. a steel wire guide surface; 350. a distance adjustment assembly; 351. a threaded sleeve; 352. adjusting the screw rod; 353. rotating the block; 354. a limiting sleeve; 360. a material guide plate; 370. a rotating wheel; 400. a guidewire assembly; 410. a limiting pipe; 411. and a guide opening.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a steel wire shot cutting machine.

Referring to fig. 1, a steel wire shot cutting machine, including the frame 100, the frame 100 can be fixed subaerial through rag bolt, install into silk subassembly 200 and shred subassembly 300 on the frame 100, it is provided with wire guide assembly 400 to advance between silk subassembly 200 and the shred subassembly 300, advance silk subassembly 200 and divide the steel wire to shred subassembly 300 department conveying, in the steel wire in-process of conveying, the steel wire leads by wire guide assembly 400 to the steel wire through wire guide assembly 400, the steel wire conveys to shred subassembly 300 department in wire guide assembly 400 and cuts, wire guide assembly 400 can avoid the steel wire transition crooked, can improve the cutting precision of steel wire, make the steel wire aggregate more even.

Referring to fig. 1 and 2, in order to realize wire feeding, in this embodiment, the wire feeding assembly 200 includes a wire feeding housing 210 disposed on the rack 100, the wire feeding housing 210 may be fixed on the rack 100 by bolts, an upper wire feeding wheel 220 and a lower wire feeding wheel 230 are disposed in the wire feeding housing 210, and the specific installation manner is: go up the godet 220 and rotate and connect on fixed axle 240, fixed axle 240 both ends pass through the bolt fastening on advancing the lateral wall of silk casing 210, the axis of rotation of advancing godet 230 down passes through the bearing and rotates the connection on advancing the lateral wall of silk casing 210, and the axis of rotation one side of advancing godet 230 down wears out and advances behind the silk casing 210 with the pivot key-type connection of driving disk 250, driving disk 250 passes through the belt with the output shaft of first motor 260 and is connected, first motor 260 passes through bolt fixed mounting in frame 100, the preferred is equipped with first mounting panel 261 on frame 100, first motor 260 passes through the bolt fastening on first mounting panel 261.

The embodiment mode described above: when the first motor 260 is started, the transmission disc 250 is driven to rotate by the belt, the transmission disc 250 drives the lower wire feeding wheel 230 to rotate, the lower wire feeding wheel 230 and the upper wire feeding wheel 220 are matched to convey a steel wire, the steel wire is conveyed into the wire guiding assembly 400, and the steel wire is conveyed to the wire cutting assembly 300 to be cut into threads by the guiding of the wire guiding assembly 400.

Referring to fig. 1 and 2, a gap through which a steel wire passes is reserved between the upper wire feeding wheel 220 and the lower wire feeding wheel 230, the outer surfaces of the upper wire feeding wheel 220 and the lower wire feeding wheel 230 are rough surfaces, and the rough surfaces of the upper wire feeding wheel 220 and the lower wire feeding wheel 230 can prevent the steel wire from slipping at the gap and can better convey the steel wire. Under initial condition, the steel wire is worn to establish in going up the clearance between wire wheel 220 and the lower wire wheel 230 to aim at wire guide assembly 400, the clearance size is adjustable, according to the size of steel wire diameter, adjusts the size in clearance in order to adapt to different steel wires, specific regulation mode through the position of adjusting last wire wheel 220: an adjusting groove 241 is formed in the side wall of the wire feeding shell 210, two ends of the fixing shaft 240 of the upper wire feeding wheel 220 are fixed in the adjusting groove 241 through nuts, when the position needs to be adjusted, the nuts are loosened, the position of the upper wire feeding roller is adjusted, and after the position is adjusted, the fixing shaft 240 can be fixed by reversely tightening the nuts.

Referring to fig. 1 and 2, the shredding assembly 300 includes a shredding box 310 disposed on the machine frame 100, a cutting roller 320 is rotatably mounted in the shredding box 310, shaft heads at two ends of the cutting roller 320 are mounted on a sidewall of the shredding box 310 through bearings, a cutter 321 is disposed at an outer circumferential side of the cutting roller 320, a shaft head at one side of the cutting roller 320 penetrates through the sidewall of the shredding box 310 and is connected to a rotating wheel 370, the rotating wheel 370 is connected to an output wheel of the second motor 330 through a belt, and the second motor 330 is fixedly mounted on the machine frame 100 through bolts. Through the rotation of second motor 330, drive runner 370 through the belt and rotate, runner 370 drives and cuts the roller 320 and rotates, thereby cut that cutter 321 on the roller 320 can not stop and cut the steel wire, become the aggregate with the steel wire cutting, wherein second motor 330 is inverter motor, its rotational speed can be adjusted, thereby the rotational speed of cutting the roller 320 also follows can adjust, under the certain circumstances of steel wire feed speed, can adjust the cutting size of steel wire aggregate through the rotational speed of adjusting second motor 330.

Referring to fig. 1 and 2, in the present embodiment, the guide wire assembly 400 includes a plurality of stopper tubes 410 disposed between the wire feeding housing 210 of the wire feeding assembly 200 and the wire cutting box 310 of the wire cutting assembly 300. The steel wire is through advancing the propelling movement of silk subassembly 200, and every steel wire is all cut by propelling movement to the department of shredding subassembly 300 in spacing pipe 410, can prevent at the in-process of propelling movement, and the steel wire excessively bends and leads to the cutting inhomogeneous. The spacing pipes 410 are positioned on the same horizontal plane and are parallel to each other, one end of each spacing pipe 410 extends to the gap between the upper wire feeding wheel 220 and the lower wire feeding wheel 230 of the wire feeding assembly 200, the spacing pipe 410 at the end is provided with a guide opening 411, the steel wires can enter the spacing pipe 410, the other end of each spacing pipe 410 extends to the steel wire limiting clamp 340 of the wire cutting assembly 300, a plurality of wire feeding channels are formed, the steel wires can be prevented from being excessively bent, and the cutting precision can be improved.

Referring to fig. 1 and 3, a wire dividing plate 270 is further disposed on one side of the wire feeding assembly 200 away from the wire cutting assembly 300, a wire dividing hole 271 or a wire dividing groove 272 is disposed on the wire dividing plate 270, or the wire dividing hole 271 or the wire dividing groove 272 are disposed at the same time, and a wire guiding assembly 400 is disposed on the other side of the wire feeding assembly 200. The wire dividing plate 270 can advance the carding of the steel wires, and the steel wires are threaded into the wire dividing plate 270 or the wire dividing groove 272 and then into the gap between the upper wire feeding wheel 220 and the lower wire feeding wheel 230 and aligned with the wire guiding assembly 400 according to requirements.

Referring to fig. 1 and 4, a wire limiting clamp 340 is disposed on an inner wall of the wire cutting box 310 near one side of the wire feeding assembly 200, a through hole 341 is disposed in the wire limiting clamp 340, a cutter 321 is disposed to cut the wire after the wire passes through the through hole 341, and a wire pill outlet 311 is disposed at a lower portion of the wire cutting box 310. The lower part of the wire cutting box 310 is provided with a material guide plate 360 inclined towards the steel wire pill outlet 311, steel wire granules can slide to the steel wire pill outlet 311 through the material guide plate 360 to be discharged out of the wire cutting box 310, the next step of processing is carried out, when the wire is cut, the steel wire can be clamped by the steel wire limiting clamp 340, the steel wire is prevented from jumping when being cut, and the cutting precision of the steel wire is further improved.

Referring to fig. 1 and 4, the wire limiting clamp 340 includes a lower limiting clamp 342 disposed on the sidewall of the shredding box 310 and an upper limiting clamp 343 slidably disposed on the sidewall of the shredding box 310, a slide rail 345 is disposed on the sidewall of the shredding box 310, the upper limiting clamp 343 is engaged with the slide rail 345, a plurality of wire guiding surfaces 346 are formed between the upper limiting clamp 343 and the lower limiting clamp 342, and the wire guiding surfaces 346 enable a wire to easily enter the upper limiting clamp 343 and are connected with a distance adjusting assembly 350. The upper limit clamp 343 may be adjusted by the distance adjusting assembly 350 according to the diameter of the cutting wire so that the aperture of the perforation 341 between the upper limit clamp 343 and the lower limit clamp 342 may be changed to accommodate different wires.

In this embodiment, the distance adjusting assembly 350 includes a threaded sleeve 351 disposed on the upper side wall of the shredding box 310, an adjusting screw 352 is threaded into the threaded sleeve 351, a rotating block 353 is disposed at the lower end of the adjusting screw 352, and the rotating block 353 is rotatably coupled in a limiting sleeve 354 disposed on the upper side of the upper limiting clamp 343. Through rotating adjusting screw 352, the end of adjusting screw 352 changes in the vertical direction, because adjusting screw 352's end is provided with turning block 353, and turning block 353 rotates and connects in stop collar 354, and turning block 353 can drive upper limit clamp 343 and remove to adjust the perforation 341 aperture between upper limit clamp 343 and the lower limit clamp 342, adapt to the different steel wire of diameter.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a steel wire shot cutting machine which characterized in that: the wire cutting machine comprises a rack (100), wherein a wire feeding assembly (200) and a wire cutting assembly (300) are installed on the rack (100), a wire guiding assembly (400) is arranged between the wire feeding assembly (200) and the wire cutting assembly (300), and the wire guiding assembly (400) comprises a plurality of limiting pipes (410) which are arranged between a wire feeding shell (210) of the wire feeding assembly (200) and a wire cutting box (310) of the wire cutting assembly (300).

2. A wire shot cutter as defined in claim 1, wherein: advance silk subassembly (200) including setting up advance silk casing (210) on frame (100), advance silk casing (210) in be provided with go up silk wheel (220) and advance silk wheel (230) down, go up silk wheel (220) and rotate to connect on fixed axle (240), fixed axle (240) both ends are fixed on advancing silk casing (210) lateral wall through the bolt, the axis of rotation that advances silk wheel (230) down passes through the bearing and rotates the connection on the lateral wall of advancing silk casing (210), the axis of rotation one side of advancing silk wheel (230) is worn out and is advanced the pivot key-type connection of silk casing (210) back and transmission dish (250) down, transmission dish (250) pass through the belt with the output wheel of first motor (260) and are connected, first motor (260) fixed mounting is on frame (100).

3. A wire shot cutter as defined in claim 2, wherein: a gap through which a steel wire passes is reserved between the upper wire feeding wheel (220) and the lower wire feeding wheel (230), the size of the gap can be adjusted, and the outer surfaces of the upper wire feeding wheel (220) and the lower wire feeding wheel (230) are rough surfaces.

4. A wire shot cutter as defined in claim 2, wherein: the wire dividing plate (270) is further arranged on one side, away from the wire cutting assembly (300), of the wire feeding assembly (200), a wire dividing hole (271) and/or a wire dividing groove (272) are/is formed in the wire dividing plate (270), and a wire guiding assembly (400) is arranged on the other side of the wire feeding assembly (200).

5. A wire shot cutter as defined in claim 1, wherein: the shredding assembly (300) comprises a shredding box (310) arranged on a rack (100), a cutting roller (320) is installed in the shredding box (310) in a rotating mode, shaft heads at two ends of the cutting roller (320) are installed on the side wall of the shredding box (310) through bearings, a cutter (321) is arranged on the outer peripheral side of the cutting roller (320), a rotating wheel (370) is connected to the shaft head on one side of the cutting roller (320) after penetrating through the side wall of the shredding box (310), the rotating wheel (370) is connected with an output wheel of a second motor (330) through a belt, and the second motor (330) is fixedly installed on the rack (100).

6. A wire shot cutter as defined in claim 5, wherein: the inner wall of one side, close to the wire feeding assembly (200), of the wire cutting box (310) is provided with a steel wire limiting clamp (340), a through hole (341) is formed in the steel wire limiting clamp (340), and the lower portion of the wire cutting box (310) is provided with a steel wire pill outlet (311).

7. A wire shot cutter as defined in claim 6, wherein: the steel wire limiting clamp (340) comprises a lower limiting clamp (342) arranged on the side wall of the shredding box (310) and an upper limiting clamp (343) arranged on the side wall of the shredding box (310) in a sliding mode, a sliding rail (345) is arranged on the side wall of the shredding box (310), the upper limiting clamp (343) is connected to the sliding rail (345) in a clamping mode, a steel wire guide surface (346) is formed between the upper limiting clamp (343) and the lower limiting clamp (342), and the upper limiting clamp (343) is connected with a distance adjusting assembly (350).

8. A wire shot cutter as defined in claim 7, wherein: the distance adjusting assembly (350) comprises a threaded sleeve (351) arranged on the upper side wall of the shredding box (310), an adjusting screw rod (352) is connected to the threaded sleeve (351) in a threaded mode, a rotating block (353) is arranged at the lower end of the adjusting screw rod (352), and the rotating block (353) is rotatably connected into a limiting sleeve (354) arranged on the upper side of an upper limiting clamp (343).

9. A wire shot cutter as defined in claim 8, wherein: the limiting pipes (410) are positioned on the same horizontal plane and are parallel to each other, one ends of the limiting pipes (410) extend to the gap between the upper wire feeding wheel (220) and the lower wire feeding wheel (230) of the wire feeding assembly (200), and the other ends of the limiting pipes (410) extend to the steel wire limiting clamp (340) of the wire cutting assembly (300) to form a wire feeding channel.

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