CN116571813A - Cutting equipment and method for corrugated pipe spring support and hanger production - Google Patents

Abstract

The invention relates to the technical field of cutting equipment, in particular to cutting equipment and a method for producing a corrugated pipe spring support and hanger, wherein the cutting equipment comprises a workbench, a cutting structure, a limiting structure, a collecting structure, a shaking structure, a circulating structure, a replacing structure and a support and hanger body; the support and hanger body is sawn through the cutting structure, the cutting length of the cutting structure is convenient to adjust, the cutting effect is good, the limit structure can effectively prevent the support and hanger body from deviating, and the cutting effect is improved; the collecting structure effectively avoids the splashing of the scraps when the support and hanger body is sawn, gathers the scraps effectively, improves the cleaning efficiency of the workbench, avoids the accumulation of the scraps by the shaking structure, and improves the use effect of the collecting structure; the circulating structure is replaced regularly through the replacement structure, the collected scraps are processed and recycled, the steel scraps are effectively recycled through the circulating structure, the production cost is saved, the utilization rate of water resources is improved, and the water resources are saved.

Description

Cutting equipment and method for corrugated pipe spring support and hanger production

Technical Field

The invention relates to the technical field of cutting equipment, in particular to cutting equipment and a cutting method for corrugated pipe spring support and hanger production.

Background

The spring support and hanger is mainly used for steam-water pipelines or boiler equipment of a power plant and is designed according to a moment balance principle, and a certain supporting force can be obtained on equipment devices thereof which generate thermal displacement during operation, so that no additional stress is brought to the pipelines and the equipment, the expansion displacement generated by some cold-hot pipelines during working operation and the absorption and buffering of the amplitude can be limited or allowed, the expansion displacement of the pipelines within a design value can be limited or allowed, the operation safety of the pipelines and the equipment is ensured, and when the spring support and hanger is manufactured, the support and hanger cutting equipment is required to be used for cutting cylindrical steel pipes with different lengths.

However, the existing spring support and hanger cutting equipment has a certain saw ring length, is not suitable for saw rings with different lengths, and when the spring support and hanger cutting equipment is used, the cutting effect of the cutting equipment is affected due to insufficient saw ring tension; meanwhile, when the cutting equipment is used, steel scraps are easy to splash and are not easy to collect and gather, and part of the steel scraps and tap water of the cooling equipment are adhered to a workbench and are not easy to clean; the sweeps of cutting are because be difficult to collect the clearance, lead to the waste of material, and inconvenient recycle of water resource mixing sweeps has caused the waste of resource simultaneously, and cutting equipment's energy utilization is lower.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides cutting equipment and a cutting method for the production of a corrugated pipe spring support and hanger.

The technical scheme adopted for solving the technical problems is as follows: the cutting equipment for the production of the corrugated pipe spring support and hanger comprises a workbench, wherein a cutting structure is arranged on the workbench, a limiting structure is arranged on the workbench, a collecting structure is arranged on the workbench, a shaking structure is arranged on the cutting structure, a circulating structure is arranged on the workbench, a replacement structure is arranged on the workbench, and a support and hanger body is arranged on the limiting structure;

the cutting structure comprises a first hydraulic rod, the telescopic end of the first hydraulic rod is fixed on a workbench, a first mounting frame is mounted on one side of the first hydraulic rod, a connecting frame is mounted on the other side of the first hydraulic rod, the cross section of the connecting frame is of an L-shaped structure, a limiting rod is mounted on the connecting frame, the limiting rod is in sliding connection with the connecting frame, one end of the limiting rod is fixed on the workbench, a second mounting frame is arranged on one side of the connecting frame, a motor is mounted on one side of the second mounting frame, the output end of the motor is connected with a first mounting disc, the first mounting disc is connected with the second mounting frame in a rotating mode, a saw ring is wound on the first mounting disc, the other end of the saw ring is wound on the second mounting disc, the second mounting disc is arranged in the first mounting frame, one side of the second mounting disc is connected with a first rotating shaft in a rotating mode, one end of the first rotating mode is connected with the inside of the sliding disc, the sliding disc is connected with the inside of the first mounting frame in a sliding mode, and the inside of the first mounting frame is connected with a screw in a threaded mode.

Specifically, the cutting structure still includes the handle, the tip of screw rod is located to the handle, can dismantle between handle and the screw rod and be connected, the opposite side of first mounting bracket and second mounting bracket all is equipped with a cleaning block, conflict between cleaning block and the saw circle, constitute the structure of falling the U-shaped jointly between first hydraulic stem and the link, respectively be equipped with a correction wheel on first hydraulic stem and the link, conflict between correction wheel and the saw circle.

Specifically, the limiting structure comprises a second hydraulic rod, two second hydraulic rods are symmetrically arranged in the workbench, sliding blocks are arranged at the telescopic ends of the second hydraulic rod, the sliding blocks are connected with the workbench in a sliding mode, one side of each sliding block is provided with a limiting block, the two limiting blocks are symmetrically arranged, one end of each sliding block is connected with one pushing rod in a sliding mode, the section of each pushing rod is of a soil-shaped structure, one side of each pushing rod is connected with a first spring, the first springs are arranged in the limiting blocks, an extrusion block is arranged at the end of each pushing rod, the section of each extrusion block is of a trapezoid structure, the extrusion blocks are in sliding connection with the limiting blocks, one side of each extrusion block is abutted to the corresponding pushing block, the two ends of each pushing block are of trapezoid structures, one end of each pushing block is connected with the corresponding sliding groove in a sliding groove, the corresponding sliding groove is arranged at one end of each tightening rod, the tightening rod is connected with the corresponding limiting block in a sliding mode, one end of each tightening rod is fixedly provided with a tightening strip, the tightening strip is connected with the corresponding tightening rod, the corresponding tightening rod is connected with the corresponding first springs, and the corresponding first springs are arranged on one side of the corresponding tightening rod; the cross section of tight strip is the arc structure, one side of tight strip is equipped with the rubber pad, the cross section of rubber pad is the arc structure.

Specifically, the collection structure includes the head rod, two the head rod is fixed in one side of first hydraulic stem and link respectively, the one end sliding connection of head rod is in the inside of workstation, the tip of head rod is equipped with the rack, rack sliding connection is in the inside of workstation, one side meshing of rack has the gear, the inside of gear is equipped with the second pivot, rotate between second pivot and the workstation and be connected, the tip of second pivot is equipped with the baffle, rotate between baffle and the workstation and be connected, the cross-section of baffle is arc structure, the inside of the workstation of baffle bottom is equipped with down the silo, the flitch is installed to the bottom of unloading silo.

Specifically, the shake structure includes the second connecting rod, two the second connecting rod is fixed in one side of first hydraulic stem and link respectively, sliding connection between second connecting rod and the workstation, the bottom of second connecting rod is contradicted there is the clamp plate, clamp plate sliding connection is in the inside of workstation, the bottom of clamp plate is equipped with the third spring, the inside of workstation is located to the third spring, the bottom of clamp plate is equipped with the pull rod, pull rod sliding connection is in the inside of workstation, the tip rotation of pull rod is connected with first connecting axle, the rotation of first connecting axle is connected in the inside of connecting block, the one end that the connecting block deviates from first connecting axle rotates and is connected with the second connecting axle, the one end in slide bar is connected in the inside of workstation in the rotation of second connecting axle, the shake board is installed to the one end of slide bar, contradict between shake board and the blanking board, be equipped with a plurality of sand strips of rectangular array on the shake board.

Specifically, the circulation structure includes the water catch pore, and is a plurality of the water catch pore locates on the workstation, the inside of workstation is equipped with the header tank, the installing frame is installed on the top of header tank, first filter screen is installed on the top of installing frame, the waste bin is installed on the top of first filter screen, one side of waste bin is equipped with the unloading hole, unloading hole and unloading groove intercommunication, sliding connection between waste bin and the workstation, the inside of header tank is equipped with the second filter screen, the drain pipe is installed to the bottom of header tank.

Specifically, the top of header tank is equipped with two parallel mounting grooves, the inside roll connection of mounting groove has the removal wheel, four the bottom four corners of installing the frame is located respectively to the removal wheel, one side of installing the frame is equipped with four fixed blocks, sliding connection between fixed block and the first filter screen, sliding connection between fixed block and the waste bin, the inside sliding connection of fixed block has first fixture block, the one end of first fixture block is equipped with the fifth spring, the inside of fixed block is located to the fifth spring, first fixture block sliding connection is in the inside of waste bin, one side of first fixture block is contradicted and is had the connecting strip, four the connecting strip is two corresponding parallel one sides of locating two parallel layering, sliding connection is equipped with the fourth spring between layering and the waste bin, the inside of waste bin is located to the fourth spring.

Specifically, change the structure and include the shell, rotate between shell and the workstation and be connected, the outside of shell is equipped with the handle, the cross-section of handle is U-shaped structure, be equipped with the draw-in groove on the shell, the inside sliding connection of draw-in groove has the second fixture block, second fixture block sliding connection is in the inside of workstation, the cross-section of second fixture block is T-shaped structure, one side of second fixture block is equipped with the sixth spring, the inside of workstation is located to the sixth spring, one side that the second fixture block deviates from the sixth spring is equipped with carries the piece, sliding connection between carrying piece and the workstation.

A method of severing apparatus for bellows spring hanger production, comprising the steps of:

s1: fixing a support and hanger body with proper length on a workbench through a limiting structure, after fixing the support and hanger body, operating a cutting structure, sawing the support and hanger body by the cutting structure, taking down the sawn support and hanger body, opening the limiting structure, and conveying the support and hanger body to a proper position for limiting through the limiting structure;

s2: when the cutting structure cuts the support and hanger body, the cutting structure drives the collecting structure to collect waste scraps generated when the cutting structure saws the support and hanger body, and meanwhile, the cutting structure drives the shaking structure to operate so as to knock the accumulated waste scraps, and when the cutting structure ascends, the collecting structure and the shaking structure are reset;

S3: after the collection structure collects the shielding sweeps, the sweeps flow into the circulation structure, the sweeps are stored through the circulation structure, meanwhile, the waste water of the cooling cutting structure is collected through the circulation structure, solid-liquid separation is achieved, the treated waste water is reused, the circulation structure is replaced regularly through the replacement structure, and the collected sweeps are processed and reused.

The beneficial effects of the invention are as follows:

(1) According to the cutting equipment and the cutting method for the corrugated pipe spring support and hanger production, the cutting structure is arranged on the workbench, the limiting structure is arranged on the workbench, the support and hanger body with the proper length is conveniently fixed on the workbench through the limiting structure, the cutting structure is operated after the support and hanger body is fixed, the support and hanger body is sawn by the cutting structure, then the sawn support and hanger body is taken down, the limiting structure is opened, the support and hanger body is conveyed to the proper position to continue to limit through the display limiting structure, the cutting length of the cutting structure is convenient to adjust, the cutting effect is good, the support and hanger body can be effectively prevented from deviating by the limiting structure, and the cutting effect is improved.

(2) According to the cutting equipment and the cutting method for the production of the corrugated pipe spring support and hanger, the collecting structure is arranged on the workbench, the shaking structure is arranged on the cutting structure, when the cutting structure cuts the support and hanger body, the cutting structure drives the collecting structure to collect waste scraps generated when the cutting structure saw the support and hanger body, meanwhile, the cutting structure drives the shaking structure to operate, so that piled waste scraps are knocked, when the cutting structure ascends, the collecting structure and the shaking structure are reset, the collecting structure effectively avoids waste scraps splashing when the support and hanger body is sawed, the waste scraps are effectively gathered, the cleaning efficiency of the workbench is improved, the shaking structure avoids waste scraps from accumulating, and the use effect of the collecting structure is improved.

(3) According to the cutting equipment and the method for the production of the corrugated pipe spring supporting and hanging frame, the circulating structure is arranged on the workbench, the replacing structure is arranged on the workbench, after the collecting structure collects the shielding scraps, the scraps flow into the circulating structure, are stored through the circulating structure, meanwhile, the waste water of the cooling and cutting structure is collected through the circulating structure, solid-liquid separation is achieved, the treated waste water is recycled, the circulating structure is replaced periodically through the replacing structure, the collected scraps are processed and recycled, the steel scraps are effectively recycled and reused through the circulating structure, the production cost is saved, the utilization rate of water resources is improved, and the water resources are saved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of a severing apparatus for the production of bellows spring hangers and support provided by the present invention;

FIG. 2 is a schematic view of a cutting structure according to the present invention;

FIG. 3 is a schematic diagram of a connection structure between a slider and a second mounting plate according to the present invention;

FIG. 4 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 5 is a schematic diagram of a connection structure between a workbench and a limiting structure of the invention;

FIG. 6 is a schematic view of a connection structure of a cutting structure and a collecting structure according to the present invention;

FIG. 7 is an enlarged schematic view of the B-section structure shown in FIG. 6;

FIG. 8 is an enlarged schematic view of the structure of the portion C shown in FIG. 6;

FIG. 9 is a schematic diagram showing the connection structure of the first connecting rod, the second connecting rod and the cutting structure of the present invention;

FIG. 10 is a schematic diagram of a connection structure between a first hydraulic rod and a shaking structure according to the present invention;

FIG. 11 is a schematic view of a circulation structure of the present invention;

FIG. 12 is a schematic view of the connection structure of the waste bin, the first filter screen and the mounting frame of the present invention;

FIG. 13 is an enlarged schematic view of the structure of the portion D shown in FIG. 9;

fig. 14 is an enlarged schematic view of the E-section structure shown in fig. 9.

In the figure: 1. a work table; 2. cutting the structure; 201. a first hydraulic lever; 202. a first mounting frame; 203. a connecting frame; 204. a limit rod; 205. a second mounting frame; 206. a motor; 207. a first mounting plate; 208. sawing the ring; 209. a second mounting plate; 210. a first rotating shaft; 211. a slide plate; 212. a screw; 213. a handle; 214. a cleaning block; 215. a correction wheel; 3. a limit structure; 301. a second hydraulic lever; 302. a slide block; 303. a limiting block; 304. a push rod; 305. a first spring; 306. extruding blocks; 307. a pushing block; 308. a tightening rod; 309. a chute; 310. tightening the strip; 311. a rubber pad; 312. a second spring; 4. a collection structure; 401. a first connecting rod; 402. a rack; 403. a gear; 404. a second rotating shaft; 405. a baffle; 406. discharging groove; 407. a blanking plate; 5. a dithering structure; 501. a second connecting rod; 502. a pressing plate; 503. a third spring; 504. a pull rod; 505. a first connecting shaft; 506. a connecting block; 507. a second connecting shaft; 508. a slide bar; 509. a shaking plate; 6. a circulation structure; 601. a water collecting hole; 602. a waste bin; 603. a first filter screen; 604. a mounting frame; 605. a water collection tank; 606. a second filter screen; 607. a drain pipe; 608. a moving wheel; 609. a mounting groove; 610. a blanking hole; 611. pressing strips; 612. a fourth spring; 613. a connecting strip; 614. a first clamping block; 615. a fixed block; 616. a fifth spring; 7. replacing the structure; 701. a housing; 702. a handle; 703. a clamping groove; 704. a second clamping block; 705. a sixth spring; 706. lifting blocks; 8. a support and hanger body.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-14, the cutting equipment for corrugated pipe spring support and hanger production comprises a workbench 1, wherein a cutting structure 2 is arranged on the workbench 1, a limiting structure 3 is arranged on the workbench 1, a collecting structure 4 is arranged on the workbench 1, a shaking structure 5 is arranged on the cutting structure 2, a circulating structure 6 is arranged on the workbench 1, a replacing structure 7 is arranged on the workbench 1, and a support and hanger body 8 is arranged on the limiting structure 3;

the cutting structure 2 comprises a first hydraulic rod 201, a telescopic end of the first hydraulic rod 201 is fixed on the workbench 1, a first mounting frame 202 is mounted on one side of the first hydraulic rod 201, a connecting frame 203 is mounted on the other side of the first hydraulic rod 201, the cross section of the connecting frame 203 is of an L-shaped structure, a limiting rod 204 is mounted on the connecting frame 203, the limiting rod 204 is in sliding connection with the connecting frame 203, one end of the limiting rod 204 is fixed on the workbench 1, a second mounting frame 205 is arranged on one side of the connecting frame 203, a motor 206 is mounted on one side of the second mounting frame 205, a first mounting plate 207 is connected with an output end of the motor 206, the first mounting plate 207 is in rotary connection with the second mounting frame 205, a saw ring 208 is wound on the first mounting plate 207, the other end of the saw ring 208 is wound on a second mounting plate 209, the second mounting plate 209 is arranged in the first mounting frame 202, one side of the second mounting plate 209 is in a rotary connection with a first mounting plate 210, a rotary shaft 211 is in the first mounting plate 211 is in the rotary connection with a rotary shaft 212, and the rotary shaft 211 is in the rotary shaft 212 is in the rotary connection with the first mounting plate 212;

The cutting structure 2 further comprises a handle 213, the handle 213 is arranged at the end part of the screw 212, the handle 213 is detachably connected with the screw 212, the opposite sides of the first mounting frame 202 and the second mounting frame 205 are respectively provided with a cleaning block 214, the cleaning blocks 214 are in contact with the saw ring 208, an inverted U-shaped structure is jointly formed between the first hydraulic rod 201 and the connecting frame 203, the first hydraulic rod 201 and the connecting frame 203 are respectively provided with a correction wheel 215, and the correction wheels 215 are in contact with the saw ring 208; after the support and hanger body 8 is fixed, start first hydraulic stem 201 and motor 206, first hydraulic stem 201 slowly contracts, make saw circle 208 slowly descend, motor 206 operation and then drive first mounting disc 207 and rotate, first mounting disc 207 rotates and then drive saw circle 208 and rotate, saw circle 208 and then drive second mounting disc 209 and rotate, saw circle 208 rotates and then saw a support and hanger body 8, the setting of cleaning block 214, can clear up the sweeps in the kerf, correct the inclination that wheel 215 can effectual correction saw circle 208, during installation saw circle 208, can rotate the handle 213 of first mounting bracket 202 one side, and then drive screw 212 and rotate, screw 212 rotates and then drives slide plate 211 and slide, and then the distance between first mounting disc 207 and the second mounting disc 209, and then make saw circle 208 tighten up, make saw circle 208 during operation more stable, the length of cutting structure 2 cutting is convenient for adjust, the effect of cutting is better, limit structure 3 can effectively avoid a support and hanger body 8 off tracking, the cutting effect has been improved.

Specifically, the limit structure 3 includes a second hydraulic rod 301, two second hydraulic rods 301 are symmetrically disposed in the workbench 1, a sliding block 302 is disposed at a telescopic end of the second hydraulic rod 301, the sliding block 302 is slidably connected with the workbench 1, one sides of the two sliding blocks 302 are respectively provided with a limit block 303, the two limit blocks 303 are symmetrically disposed, one end of the push block 307 is slidably connected with a push rod 304 in the interior of the adjacent side of the limit block 303, the cross section of the push rod 304 is in a 'soil' shape, one side of the push rod 304 is connected with a first spring 305, the first spring 305 is disposed in the interior of the limit block 303, an end portion of the push rod 304 is provided with a squeezing block 306, the cross section of the squeezing block 306 is in a trapezoid structure, the squeezing block 306 is slidably connected with the limit block 303, two ends of the pushing block 307 are both trapezoid structures, one end of the pushing block 307 is slidably connected with the limit block 303, one end of the pushing block 307 is slidably connected with the interior of a chute 309, the chute 309 is disposed in the interior of the limit block 309, the end of the first spring 308 is tightly connected with the first end of the limit block 308, and the second spring 308 is tightly connected with the first end of the first spring 308, and the end of the first spring 308 is tightly connected with the first end of the first spring 308, and the second end of the first end of the spring is tightly connected with the first end 308 is tightly connected with the second end of the first end of the spring 308; the section of the tightening strip 310 is of an arc-shaped structure, one side of the tightening strip 310 is provided with a rubber pad 311, and the section of the rubber pad 311 is of an arc-shaped structure; when the hanger body 8 is conveyed to a specific position, the second hydraulic rods 301 are started, the two second hydraulic rods 301 are extended, the sliding block 302 is driven to slide in the workbench 1, the sliding block 302 is slid, the two limiting blocks 303 are driven to primarily clamp the hanger body 8, after the hanger body 8 is primarily clamped, as the second hydraulic rod 301 continues to extend, the push rod 304 is abutted against the other limiting block 303, the push rod 304 is further slid, the first spring 305 is compressed, the push rod 304 pushes the push block 306 to slide, the push block 306 is slid, the push block 307 is driven to slide in the chute 309, the tightening rod 308 is driven to slide, the second spring 312 is compressed, the tightening rod 308 is slid, the tightening rod 310 and the rubber pad 311 are driven to further lock the hanger body 8, after the hanger body 8 is fixed, the first hydraulic rod 201 and the motor 206 are started, the first hydraulic rod 201 is slowly contracted, so that the saw ring 208 slowly descends, the motor 206 runs to drive the first mounting plate 207 to rotate, the first mounting plate 207 rotates to drive the saw ring 208 to rotate, the saw ring 208 further drives the second mounting plate 209 to rotate, the saw ring 208 rotates to saw the support and hanger body 8, the cleaning block 214 is arranged to clean scraps in saw gaps, the correcting wheel 215 can effectively correct the inclination of the saw ring 208, when the saw ring 208 is mounted, the handle 213 at one side of the first mounting frame 202 can be rotated to drive the screw 212 to rotate, the screw 212 rotates to drive the sliding plate 211 to slide, the distance between the first mounting plate 207 and the second mounting plate 209 is adjusted, the saw ring 208 is tightened, the saw ring 208 is more stable in operation, the cutting length of the cutting structure 2 is convenient to adjust, the cutting effect is better, the limiting structure 3 can effectively avoid the support and hanger body 8 from deviating, the cutting effect is improved.

Specifically, the collecting structure 4 includes a first connecting rod 401, two first connecting rods 401 are respectively fixed on one side of the first hydraulic rod 201 and one side of the connecting frame 203, one end of the first connecting rod 401 is slidably connected in the workbench 1, a rack 402 is disposed at an end of the first connecting rod 401, the rack 402 is slidably connected in the workbench 1, a gear 403 is meshed with one side of the rack 402, a second rotating shaft 404 is disposed in the gear 403, the second rotating shaft 404 is rotationally connected with the workbench 1, a baffle 405 is disposed at an end of the second rotating shaft 404, the baffle 405 is rotationally connected with the workbench 1, a section of the baffle 405 is in an arc structure, a blanking groove 406 is disposed in the workbench 1 at a bottom end of the baffle 405, and a blanking plate 407 is mounted at a bottom end of the blanking groove 406;

when the first hydraulic rod 201 slowly descends, the first connecting rod 401 descends, and then drives the rack 402 at the end of the first hydraulic rod to slide, the rack 402 slides and then drives the gear 403 to rotate, the gear 403 rotates and then the second rotating shaft 404 rotates, the second rotating shaft 404 rotates and then drives the baffle 405 to rotate, the angle of the baffle 405 is adjusted, when the cutting structure 2 operates, splashed scraps are effectively blocked, meanwhile, the operation of the cutting structure 2 is not influenced, and collected scraps flow into the circulation structure 6 through the blanking groove 406.

Specifically, the shaking structure 5 includes a second connecting rod 501, two second connecting rods 501 are respectively fixed on one sides of the first hydraulic rod 201 and the connecting frame 203, the second connecting rod 501 is slidably connected with the workbench 1, the bottom end of the second connecting rod 501 abuts against a pressing plate 502, the pressing plate 502 is slidably connected with the interior of the workbench 1, a third spring 503 is disposed at the bottom end of the pressing plate 502, the third spring 503 is disposed in the interior of the workbench 1, a pull rod 504 is disposed at the bottom end of the pressing plate 502, the pull rod 504 is slidably connected with the interior of the workbench 1, the end portion of the pull rod 504 is rotatably connected with a first connecting shaft 505, the first connecting shaft 505 is rotatably connected with the interior of a connecting block 506, one end of the connecting block 506, which is away from the first connecting shaft 505, is rotatably connected with a second connecting shaft 507, the second connecting shaft 507 is rotatably connected with one end of a slide rod 508, the slide rod 508 is slidably connected with the interior of the workbench 1, one end of the slide rod 508 is provided with a shaking plate 509, the shaking plate 509 is disposed between the shaking plate 509 and the blanking plate 407, and a plurality of shaking ribs are disposed on the rectangular plate 509; whenever the cutting structure 2 is about to end a section of cutting movement, the first hydraulic rod 201 contracts, and then drives the second connecting rod 501 to collide with the pressing plate 502, and then drives the pressing plate 502 to slide, and then the pressing plate 502 drives the third spring 503 to compress, and drives the pull rod 504 to slide, and then drives the connecting block 506 to move, and then drives the slide rod 508 to horizontally slide, and then drives the shaking plate 509 to knock the blanking plate 407 at the bottom end of the blanking groove 406, and then the scrap is prevented from accumulating, and when the first hydraulic rod 201 stretches, the third spring 503 can drive the pressing plate 502 and the pull rod 504 to slide again, and then the slide rod 508 and the shaking plate 509 are knocked again to knock the blanking plate 407, so that the collecting effect of the collecting structure 4 is better, the scrap is effectively gathered when the collecting structure 4 effectively avoids the scrap splashing when the support hanger body 8 is sawn, and the cleaning efficiency of the workbench 1 is improved.

Specifically, the circulation structure 6 includes a water collecting hole 601, a plurality of water collecting holes 601 are formed in the workbench 1, a water collecting tank 605 is arranged in the workbench 1, a mounting frame 604 is mounted at the top end of the water collecting tank 605, a first filter screen 603 is mounted at the top end of the mounting frame 604, a waste bin 602 is mounted at the top end of the first filter screen 603, a blanking hole 610 is formed in one side of the waste bin 602, the blanking hole 610 is communicated with the blanking groove 406, the waste bin 602 is in sliding connection with the workbench 1, a second filter screen 606 is arranged in the water collecting tank 605, and a drain pipe 607 is mounted at the bottom end of the water collecting tank 605;

the top of the water collecting tank 605 is provided with two parallel mounting grooves 609, the inside of the mounting grooves 609 is in rolling connection with a moving wheel 608, four moving wheels 608 are respectively arranged at four corners of the bottom end of the mounting frame 604, one side of the mounting frame 604 is provided with four fixing blocks 615, the fixing blocks 615 are in sliding connection with a first filter screen 603, the fixing blocks 615 are in sliding connection with the waste bin 602, a first clamping block 614 is in sliding connection with the inside of the fixing blocks 615, one end of the first clamping block 614 is provided with a fifth spring 616, the fifth spring 616 is arranged inside the fixing blocks 615, the first clamping block 614 is in sliding connection with the inside of the waste bin 602, one side of the first clamping block 614 is in abutting contact with a connecting strip 613, two pairs of connecting strips 613 are correspondingly arranged at one side of two parallel pressing strips 611, the pressing strips 611 are in sliding connection with the first filter screen 603, the bottom end of the pressing strips 611 is provided with a fourth spring 612, and the fourth spring 612 is arranged inside the waste bin 602;

The mixture of cooling water and scraps flows through the blanking hole 610 through the blanking groove 406, finally flows into the waste bin 602, the water collecting hole 601 of the waste water on the workbench 1 flows into the waste bin 602, then flows into the water collecting tank 605 after being filtered by the first filter screen 603, finally flows into the cooling water circulating system through the second filter screen 606 in the water collecting tank 605 for secondary filtration, and finally the drain pipe 607 flows back to the cooling water circulating system again, and the separated scraps are stored on the first filter screen 603 in the waste bin 602.

Specifically, the replacing structure 7 includes a housing 701, the housing 701 is rotationally connected with the workbench 1, a handle 702 is provided at the outer portion of the housing 701, the cross section of the handle 702 is in a U-shaped structure, a clamping groove 703 is provided on the housing 701, a second clamping block 704 is slidably connected in the clamping groove 703, the second clamping block 704 is slidably connected in the workbench 1, the cross section of the second clamping block 704 is in a T-shaped structure, a sixth spring 705 is provided at one side of the second clamping block 704, the sixth spring 705 is provided in the workbench 1, a lifting block 706 is provided at one side of the second clamping block 704 facing away from the sixth spring 705, and the lifting block 706 is slidably connected with the workbench 1; when scraps need to be recovered, the lifting block 706 is pulled to slide the second clamping block 704, the sixth spring 705 is compressed, the second clamping block 704 slides out of the inside of the clamping groove 703 of the outer shell 701 to rotate the outer shell 701, the mounting blocks on two sides of the waste box 602 slide out of the waste box 602, the mounting frame 604 at the bottom end of the waste box 602 is provided with the moving wheel 608, the moving wheel 608 rolls in the inside of the mounting groove 609 at the top end of the water collecting tank 605 to easily slide out the waste box 602, when the first filter screen 603 needs to be replaced, the first pressing bar 611 is pressed, the fourth spring 612 is compressed, the connecting bar 613 slides to abut against the first clamping block 614 to slide, the fifth spring 616 is compressed, the first clamping block 614 slides out of the inside of the waste box 602 to draw the fixing block 615 out of the waste box 602 and the inside of the first filter screen 603, and the first filter screen 603 is replaced; the circulating structure 6 effectively recycles the steel scraps, saves the production cost, improves the utilization rate of water resources and saves the water resources.

A method of severing apparatus for bellows spring hanger production, comprising the steps of:

s1: fixing a support and hanger body 8 with proper length on a workbench 1 through a limiting structure 3, after fixing the support and hanger body 8, operating a cutting structure 2, sawing the support and hanger body 8 by the cutting structure 2, taking down the sawn support and hanger body 8, opening the limiting structure 3, and conveying the support and hanger body 8 to a proper position to continue to limit through the limiting structure 3;

s2: when the cutting structure 2 cuts the support and hanger body 8, the cutting structure 2 drives the collecting structure 4 to collect waste scraps generated when the cutting structure 2 saws the support and hanger body 8, and meanwhile, the cutting structure 2 drives the shaking structure 5 to operate so as to knock the accumulated waste scraps, and when the cutting structure 2 ascends, the collecting structure 4 and the shaking structure 5 are reset;

s3: after the collection structure 4 collects the shielding sweeps, the sweeps flow into the circulation structure 6, the sweeps are stored through the circulation structure 6, meanwhile, the waste water of the cooling cutting structure 2 is collected through the circulation structure 6, solid-liquid separation is achieved, the treated waste water is reused, the circulation structure 6 is replaced regularly through the replacement structure 7, and the collected sweeps are processed and reused.

When the invention is used, after the support and hanger body 8 is conveyed to a specific position, the second hydraulic rod 301 is started, the two second hydraulic rods 301 are extended, the sliding block 302 is driven to slide in the workbench 1, the sliding block 302 is slid, the two limiting blocks 303 are driven to primarily clamp the support and hanger body 8, after the support and hanger body 8 is primarily clamped, the push rod 304 is in contact with the other limiting block 303 along with the continuous extension of the second hydraulic rod 301, the push rod 304 is further slid, the first spring 305 is compressed, the push rod 304 pushes the push block 306 to slide, the push block 306 is slid, the push block 307 is driven to slide, the push block 307 slides in the chute 309, the tightening rod 308 is driven to slide, the second spring 312 is compressed, the tightening rod 308 is driven to slide, the tightening rod 310 and the rubber pad 311 are further locked to the support and hanger body 8, after the support and hanger body 8 is fixed, the first hydraulic rod 201 and the motor 206 are started, the first hydraulic rod 201 is slowly contracted, so that the saw ring 208 slowly descends, the motor 206 runs to drive the first mounting plate 207 to rotate, the first mounting plate 207 rotates to drive the saw ring 208 to rotate, the saw ring 208 further drives the second mounting plate 209 to rotate, the saw ring 208 rotates to saw the support and hanger body 8, the cleaning block 214 is arranged to clean scraps in saw gaps, the correcting wheel 215 can effectively correct the inclination of the saw ring 208, when the saw ring 208 is mounted, the handle 213 at one side of the first mounting frame 202 can be rotated to drive the screw 212 to rotate, the screw 212 rotates to drive the sliding plate 211 to slide, the distance between the first mounting plate 207 and the second mounting plate 209 is adjusted, the saw ring 208 is tightened, the saw ring 208 is more stable in operation, the cutting length of the cutting structure 2 is convenient to adjust, the cutting effect is better, the limiting structure 3 can effectively avoid the support and hanger body 8 from deviating, the cutting effect is improved;

When the first hydraulic rod 201 slowly descends, the first connecting rod 401 descends, and then drives the rack 402 at the end of the first hydraulic rod 201 to slide, the rack 402 slides to drive the gear 403 to rotate, the gear 403 rotates to drive the connecting block 506 to rotate, the second rotating shaft 404 rotates to drive the baffle 405 to rotate, the angle of the baffle 405 is adjusted, when the cutting structure 2 operates, the scattered waste scraps are effectively blocked, meanwhile, the operation of the cutting structure 2 is not influenced, the collected waste scraps flow into the inside of the circulating structure 6 through the blanking groove 406, meanwhile, each time the cutting structure 2 is about to finish a section of cutting motion, the first hydraulic rod 201 contracts, and then drives the second connecting rod 501 to abut against the pressing plate 502, and then drives the pressing plate 502 to slide, and then drives the third spring 503 to compress, and drives the pulling rod 504 to slide, and then drives the connecting block 506 to move, and then drives the sliding rod 508 to horizontally slide, and then drives the blanking plate 407 at the bottom of the blanking plate 407 of the blanking plate 509 to knock the blanking plate 406, and further avoids the waste scraps from accumulating, and when the first hydraulic rod 201 stretches, the third spring 503 resets and then drives the pressing plate 502 to slide again, and then drives the blanking plate 509 to slide again, and the waste scraps collecting efficiency of the hanging frame 4 is better, and the efficiency of the waste scraps collecting table 8 is better when the hanging frame is cleaned, and the waste scraps is collected by the hanging frame 4;

The mixture of cooling water and scraps flows through the blanking hole 610 through the blanking groove 406 and finally flows into the interior of the scrap box 602, waste water flows into the scrap box 602 through the water collecting hole 601 on the workbench 1, flows into the interior of the water collecting box 605 after being filtered by the first filter screen 603, finally flows into the cooling water circulating system again through the second filter screen 606 in the water collecting box 605, and finally flows back to the cooling water circulating system through the drain pipe 607, the separated scraps are stored on the first filter screen 603 in the interior of the scrap box 602, when the scraps are required to be recovered, the lifting block 706 is pulled, the second clamping block 704 is slid, the sixth spring 705 is compressed, the second clamping block 704 slides out of the clamping groove 703 of the housing 701, the housing 701 is rotated, the waste water slides out of the scrap box 602 through the mounting blocks at two sides of the scrap box 602, the mounting frame 604 at the bottom end of the scrap box 602 is provided with the moving wheel 608, the moving wheel 608 rolls out of the mounting groove 609 at the top end of the water collecting box 605, when the first filter screen is required to be replaced, the first pressing bar 611 is pressed, the fourth spring 612 is compressed, the connecting bar 613 slides against the first clamping block 614, the first clamping block 614 slides out of the first filter screen 602, the first filter screen 614 is slid out of the first clamping block 614 is further replaced, and the first filter screen 602 is further slid out of the first filter screen 602 is further replaced; the circulating structure 6 effectively recycles the steel scraps, saves the production cost, improves the utilization rate of water resources and saves the water resources.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. Cutting equipment for corrugated pipe spring support and hanger production is characterized by comprising a workbench (1), wherein a cutting structure (2) is arranged on the workbench (1), a limiting structure (3) is arranged on the workbench (1), a collecting structure (4) is arranged on the workbench (1), a shaking structure (5) is arranged on the cutting structure (2), a circulating structure (6) is arranged on the workbench (1), a replacement structure (7) is arranged on the workbench (1), and a support and hanger body (8) is arranged on the limiting structure (3);

The cutting structure (2) comprises a first hydraulic rod (201), the telescopic end of the first hydraulic rod (201) is fixed on a workbench (1), a first mounting frame (202) is mounted on one side of the first hydraulic rod (201), a connecting frame (203) is mounted on the other side of the first hydraulic rod (201), the cross section of the connecting frame (203) is of an L-shaped structure, a limiting rod (204) is mounted on the connecting frame (203), the limiting rod (204) is in sliding connection with the connecting frame (203), one end of the limiting rod (204) is fixed on the workbench (1), a second mounting frame (205) is arranged on one side of the connecting frame (203), a motor (206) is mounted on one side of the second mounting frame (205), the output end of the motor (206) is connected with a first mounting disc (207), a saw coil (208) is wound on the first mounting disc (207), the other end of the saw coil (208) is wound on the first mounting disc (209), the first mounting disc (209) is mounted on the first mounting disc (209), the second mounting disc (209) is mounted on the first mounting disc (209), the sliding plate (211) is slidably connected to the inside of the first mounting frame (202), a screw rod (212) is connected to the internal thread of the sliding plate (211), and the screw rod (212) is rotatably connected with the first mounting frame (202).

2. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: the cutting structure (2) further comprises a handle (213), the handle (213) is arranged at the end part of the screw rod (212), the handle (213) is detachably connected with the screw rod (212), the opposite sides of the first mounting frame (202) and the second mounting frame (205) are respectively provided with a cleaning block (214), the cleaning blocks (214) are abutted against the saw ring (208), an inverted U-shaped structure is jointly formed between the first hydraulic rod (201) and the connecting frame (203), and the first hydraulic rod (201) and the connecting frame (203) are respectively provided with a correction wheel (215), and the correction wheels (215) are abutted against the saw ring (208).

3. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: the limiting structure (3) comprises a second hydraulic rod (301), the two second hydraulic rods (301) are symmetrically arranged in the workbench (1), sliding blocks (302) are arranged at the telescopic ends of the second hydraulic rods (301), the sliding blocks (306) are connected with the workbench (1) in a sliding mode, one side of each sliding block (302) is provided with one limiting block (303), two limiting blocks (303) are symmetrically arranged, one pushing rod (304) is slidably connected in each side of each limiting block (303), the section of each pushing rod (304) is of a 'soil' shaped structure, one side of each pushing rod (304) is connected with a first spring (305), the first springs (305) are arranged in the limiting blocks (303), the end portions of each pushing rod (304) are provided with extruding blocks (306), the section of each extruding block (306) is of a trapezoid structure, one side of each extruding block (306) is slidably connected with the corresponding limiting block (303), one pushing block (307) is in a pushing groove (307) which one end of each extruding block (307) is connected with one end of each sliding block (309), the utility model discloses a stopper, including stopper (303) and fixed in the inside of stopper, tight pole (308), the one end of tight pole (308) is fixed with tight strip (310), sliding connection between tight strip (310) and stopper (303), the cross-section of tight pole (308) is T shape structure, one side of tight pole (308) is equipped with second spring (312), second spring (312) are installed in the inside of stopper (303).

4. A cutting apparatus for the production of bellows spring hangers and support according to claim 3, wherein: the section of the tightening strip (310) is of an arc-shaped structure, one side of the tightening strip (310) is provided with a rubber pad (311), and the section of the rubber pad (311) is of an arc-shaped structure.

5. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: the collecting structure (4) comprises a first connecting rod (401), two connecting rods (401) are respectively fixed on one sides of the first hydraulic rod (201) and the connecting frame (203), one end of each connecting rod (401) is slidably connected to the inside of each workbench (1), a rack (402) is arranged at the end of each connecting rod (401), the rack (402) is slidably connected to the inside of each workbench (1), a gear (403) is meshed on one side of each rack (402), a second rotating shaft (404) is arranged in each gear (403), the second rotating shafts (404) are connected with the corresponding workbench (1) in a rotating mode, a baffle (405) is arranged at the end of each second rotating shaft (404), the baffle (405) is connected with the corresponding workbench (1) in a rotating mode, a blanking groove (406) is arranged in the inside of each workbench (1) at the bottom of each baffle (405), and a blanking plate (407) is arranged at the bottom end of each blanking groove (406).

6. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: the shaking structure (5) comprises a second connecting rod (501), two second connecting rods (501) are respectively fixed on one side of a first hydraulic rod (201) and one side of a connecting frame (203), the second connecting rods (501) are in sliding connection with the workbench (1), a pressing plate (502) is abutted against the bottom end of each second connecting rod (501), the pressing plate (502) is in sliding connection with the inside of the workbench (1), a third spring (503) is arranged at the bottom end of each pressing plate (502), the third spring (503) is arranged in the workbench (1), a pull rod (504) is arranged at the bottom end of each pressing plate (502), the pull rod (504) is in sliding connection with the inside of the workbench (1), the end part of each pull rod (504) is in rotating connection with a first connecting shaft (505), one end of each connecting shaft (506) deviating from the first connecting shaft (505) is in rotating connection with a second connecting shaft (507), the second connecting shaft (507) is in rotating connection with one end of each connecting shaft (508) which is in sliding connection with one end of each connecting shaft (509) which is in the vibrating plate (509), one end of each connecting plate (509) is in sliding connection with one end (407), a plurality of convex strips of a rectangular array are arranged on the shaking plate (509).

7. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: circulation structure (6) are including catchment hole (601), and a plurality of catchment hole (601) are located on workstation (1), the inside of workstation (1) is equipped with header tank (605), installing frame (604) are installed on the top of header tank (605), first filter screen (603) are installed on the top of installing frame (604), waste bin (602) are installed on the top of first filter screen (603), one side of waste bin (602) is equipped with unloading hole (610), unloading hole (610) and unloading groove (406) intercommunication, sliding connection between waste bin (602) and workstation (1), the inside of header tank (605) is equipped with second filter screen (606), drain pipe (607) are installed to the bottom of header tank (605).

8. A cutting apparatus for bellows spring hanger production as claimed in claim 7, wherein: the top of header tank (605) is equipped with two parallel mounting grooves (609), the inside roll connection of mounting groove (609) has movable wheel (608), four the bottom four corners of installing frame (604) are located respectively to movable wheel (608), one side of installing frame (604) is equipped with four fixed blocks (615), sliding connection between fixed block (615) and first filter screen (603), sliding connection between fixed block (615) and waste bin (602), the inside sliding connection of fixed block (615) has first fixture block (614), the one end of first fixture block (614) is equipped with fifth spring (616), the inside of fixed block (615) is located to fifth spring (616), first fixture block (614) sliding connection is in the inside of waste bin (602), one side of first fixture block (614) is contradicted and is had connecting strip (613), four two corresponding parallel one sides of locating two parallel layering (611) of connecting strip (613), sliding connection between layering (611) and waste bin (602), the bottom of fourth spring (612) is equipped with waste bin (612), fourth spring (612) is located inside sliding connection.

9. A cutting apparatus for the production of bellows spring hangers and support as claimed in claim 1, wherein: the utility model provides a change structure (7) includes shell (701), rotate between shell (701) and workstation (1) and be connected, the outside of shell (701) is equipped with handle (702), the cross-section of handle (702) is U-shaped structure, be equipped with draw-in groove (703) on shell (701), the inside sliding connection of draw-in groove (703) has second fixture block (704), second fixture block (704) sliding connection is in the inside of workstation (1), the cross-section of second fixture block (704) is T-shaped structure, one side of second fixture block (704) is equipped with sixth spring (705), the inside of workstation (1) is located to sixth spring (705), one side that second fixture block (704) deviates from sixth spring (705) is equipped with lifting block (706), sliding connection between lifting block (706) and workstation (1).

10. A method for severing equipment for the production of bellows spring hangers according to any of claims 1-9, comprising the steps of:

s1: fixing a support and hanger body (8) with proper length on a workbench (1) through a limiting structure (3), after fixing the support and hanger body (8), operating a cutting structure (2), sawing the support and hanger body (8) through the cutting structure (2), then taking down the sawn support and hanger body (8), opening the limiting structure (3), and conveying the support and hanger body (8) to a proper position to continue limiting through the limiting structure (3);

S2: when the cutting structure (2) cuts the support and hanger body (8), the cutting structure (2) drives the collecting structure (4) to collect waste scraps generated when the cutting structure (2) is used for sawing the support and hanger body (8), and meanwhile, the cutting structure (2) drives the shaking structure (5) to operate so as to knock the accumulated waste scraps, and when the cutting structure (2) ascends, the collecting structure (4) and the shaking structure (5) are reset;

s3: after the collection structure (4) collects the shielding sweeps, the sweeps flow into the circulation structure (6), the sweeps are stored through the circulation structure (6), meanwhile, the wastewater of the cooling cutting structure (2) is collected through the circulation structure (6), solid-liquid separation is achieved, the treated wastewater is recycled, and the circulation structure (6) is replaced regularly through the replacement structure (7), so that the collected sweeps are processed and recycled.