CN117068715B - Conveying equipment for aluminum pot processing - Google Patents

Abstract

The invention relates to the technical field of conveying equipment, in particular to conveying equipment for aluminum pot processing, which comprises a conveyor body, a guide structure, a carrying structure, a feeding structure, a dust collection structure and a limiting structure, wherein the carrying structure is convenient for carrying a wafer, the carrying difficulty is reduced, the feeding structure is convenient for realizing automatic feeding of the wafer, the operation flexibility is improved, the guide structure is convenient for guiding the wafer, the wafer is prevented from deflecting on the conveyor body, the position of a guide plate can be adjusted, the wafers with different sizes are convenient for guiding, the limiting structure is convenient for fixing the guide structure, the stability is improved, dust generated during polishing is conveniently sucked into a collecting frame, the flexibility is improved, the air circulation on the surface of a workpiece is quickened through the dust collection structure, the cooling speed of the workpiece after polishing is quickened, and the influence on the suction of the sucker caused by higher workpiece temperature after polishing is avoided.

Description

Conveying equipment for aluminum pot processing

Technical Field

The invention relates to the technical field of conveying equipment, in particular to conveying equipment for aluminum pot processing.

Background

The aluminum pot is a portable, durable, quick-heating, uniform in heat conduction and rust-free pot, the main material of the aluminum alloy pot is aluminum, copper, magnesium, zinc, silicon and other metal substances can be added in the aluminum pot for improving the hardness, the aluminum pot generally conveys metal wafers through a conveyor in the production and processing process, and mechanical grippers grasp the wafers on the conveyor to a punching machine to process the wafers into aluminum pot products.

However, traditional conveyer is when handling the aluminium pot, after a batch of disk processing is accomplished, need carry the disk to the right-hand member of conveyer through operating personnel, the rethread is artifical to take the disk to carry out the material loading on the conveyer belt, it is higher to lead to the transport degree of difficulty through artifical transport disk, and still need artifical material loading after carrying to the conveyer right-hand member, the flexibility of operation is relatively poor, and the disk still can take place the off tracking condition on the conveyer, be convenient for sucking disc tongs snatch the disk, thereby the production processing to the aluminium pot is influenced, can produce a large amount of dust when the disk is polished, operating personnel inhales the dust for a long time and probably causes the harm to the health, and the polished surface temperature of work piece can rise, can influence the adsorption effect of sucking disc.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides conveying equipment for aluminum pot processing.

The technical scheme adopted for solving the technical problems is as follows: conveying equipment for aluminum pot processing, comprising:

a conveyor body;

the wafer carrying device comprises a carrying structure, wherein the carrying structure is arranged on a conveyor body and used for carrying wafers, the carrying structure comprises a carrier, the carrier is detachably connected onto the conveyor body, a plurality of fixing columns are fixedly connected onto the carrier, a fixing rod is connected onto the conveyor body in a sliding manner, and the fixing rod is clamped with a fixing groove on the carrier.

Specifically, fixedly connected with second connecting rod on the dead lever, sliding connection between second connecting rod and the conveyer body, fixedly connected with first reset spring between second connecting rod and the conveyer body.

Specifically, be equipped with the loading structure on the conveyer body, the loading structure includes the loading board, sliding connection has the loading board on the carrier, fixedly connected with connecting plate on the loading board, sliding connection between connecting plate and the carrier, install first hydraulic stem on the conveyer body, fixed connection between the flexible end of connecting plate and first hydraulic stem, install the second hydraulic stem on the conveyer body, the flexible end fixedly connected with push pedal of second hydraulic stem.

Specifically, be equipped with three guide structures of group on the conveyer body, guide structure includes the deflector, sliding connection has two deflector on the conveyer body, fixedly connected with head rod on the deflector, sliding connection between head rod and the conveyer body, two equal fixedly connected with rack on the head rod, sliding connection between rack and the conveyer body, rotate on the conveyer body and be connected with the gear, two mesh between rack and the gear.

Specifically, the left side be equipped with limit structure on the head rod, limit structure includes the gag lever post, and the left side sliding connection has the gag lever post on the head rod, block between gag lever post and the spacing groove on the conveyer body.

Specifically, fixedly connected with slide bar on the gag lever post, sliding connection between slide bar and the left head rod, fixedly connected with button on the slide bar, sliding connection between button and the left head rod.

Specifically, be equipped with a plurality of and gag lever post assorted spacing groove on the conveyer body, fixedly connected with second reset spring between button and the left head rod.

Specifically, be equipped with dust extraction on the conveyer body, dust extraction includes collects the frame, sliding connection has the collection frame on the conveyer body, install the installing frame on the collection frame, install the filter screen on the installing frame, install the vacuum pump on the conveyer body, the first connecting pipe is installed to the induction port of vacuum pump, the other end of first connecting pipe is installed on the conveyer body, fixedly connected with suction hood on the conveyer body, fixedly connected with second connecting pipe on the suction hood, fixedly connected between the other end of second connecting pipe and the conveyer body.

Specifically, the second connecting pipe is communicated to the upper part of the collecting frame, and the first connecting pipe is communicated to the bottom of the filter screen.

Specifically, fixedly connected with sealing washer on the collection frame, block between sealing washer and the seal groove on the conveyer body.

The beneficial effects of the invention are as follows:

(1) According to the conveying equipment for processing the aluminum pot, the conveying structure for conveying the wafers is arranged on the conveyor body, and the conveying structure is convenient to convey the wafers, so that the conveying difficulty is reduced.

(2) According to the conveying equipment for processing the aluminum pot, the feeding structure is arranged on the conveyor body, and the feeding structure is convenient to set so as to automatically feed the wafer, so that the operation flexibility is improved.

(3) According to the conveying equipment for aluminum pot processing, the guide structure is arranged on the conveyor body, the limiting structure is arranged on the first connecting rod at the left side, the guide structure is convenient for guiding the wafer, the wafer is prevented from deviating on the conveyor body, the position of the guide plate can be adjusted, the wafers with different sizes are convenient to guide, the flexibility is improved, the limiting structure is convenient to fix the guide structure, and the stability is improved.

(4) According to the conveying equipment for aluminum pot processing, the dust collection structure is arranged on the conveyor body, dust generated during polishing is conveniently sucked into the collecting frame, flexibility is improved, air circulation on the surface of a workpiece is quickened through the dust collection structure, cooling speed of the workpiece after polishing is quickened, and influence on suction of a sucker caused by higher temperature of the workpiece after polishing is avoided.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is a schematic view of a connection structure of a rack and a conveyor body according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of the portion C shown in FIG. 4;

FIG. 6 is an enlarged schematic view of the structure of the portion D shown in FIG. 4;

FIG. 7 is a schematic diagram of a connection structure between a collection frame and a conveyor body according to the present invention;

FIG. 8 is an enlarged schematic view of the E-section structure shown in FIG. 7;

FIG. 9 is a schematic diagram of a connection structure between a truck and a conveyor body according to the present invention;

fig. 10 is an enlarged schematic view of the F-section structure shown in fig. 9;

fig. 11 is an enlarged schematic view of the G portion structure shown in fig. 9;

fig. 12 is a schematic diagram of a connection structure between a loading plate and a carrier according to the present invention.

In the figure: 1. a conveyor body; 2. a guide structure; 201. a guide plate; 202. a first connecting rod; 203. a rack; 204. a gear; 3. a carrying structure; 301. a carrier; 302. fixing the column; 303. a fixed rod; 304. a fixing groove; 305. a second connecting rod; 306. a first return spring; 4. a feeding structure; 401. a loading plate; 402. a connecting plate; 403. a first hydraulic lever; 404. a second hydraulic lever; 405. a push plate; 5. a dust collection structure; 501. a collection frame; 502. a mounting frame; 503. a filter screen; 504. a first connection pipe; 505. a vacuum pump; 506. a second connection pipe; 507. a dust hood; 508. a seal ring; 509. sealing grooves; 6. a limit structure; 601. a limit rod; 602. a limit groove; 603. a slide bar; 604. a button; 605. and a second return spring.

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 to 12, a conveying apparatus for aluminum pan processing according to the present invention includes a conveyor body 1; the carrying structure 3, be equipped with the carrying structure 3 to carrying the disk on the conveyer body 1, the carrying structure 3 includes carrier 301, can dismantle on the conveyer body 1 and be connected with carrier 301, fixedly connected with a plurality of fixed columns 302 on the carrier 301, sliding connection has dead lever 303 on the conveyer body 1, block between the dead lever 303 and the fixed slot 304 on the carrier 301.

Specifically, fixedly connected with second connecting rod 305 on dead lever 303, sliding connection between second connecting rod 305 and the conveyer body 1, fixedly connected with first reset spring 306 between second connecting rod 305 and the conveyer body 1, at first when installing truck 301, make loading board 401 move to be less than truck 301, carry the disk to the right-hand member of conveyer body 1 through truck 301, then through promoting truck 301, make and contradict between truck 301 and the dead lever 303, because the bottom of dead lever 303 is trapezoidal structure, consequently, can contradict dead lever 303 and slide upwards, drive second connecting rod 305 and slide upwards when dead lever 303 slides upwards, first reset spring 306 shrink when second connecting rod 305 slides upwards, this moment truck 301 continues to slide, when sliding to certain position, dead lever 303 can slide downwards under the effect of first reset spring 306, can with the fixed slot 304 on the truck 301 between the card, this moment accomplish the fixed to truck 301, thereby be convenient for carry out the disk through pushing up truck 301, the degree of difficulty has been reduced, simultaneously through the card between dead lever 301 and the body 301, the steady and the conveyer that is convenient for carry out between truck 301 and the firm conveyer 301.

Specifically, be equipped with charging structure 4 on the conveyer body 1, charging structure 4 includes loading plate 401, sliding connection has loading plate 401 on the carrier 301, fixedly connected with connecting plate 402 on the loading plate 401, sliding connection between connecting plate 402 and the carrier 301, install first hydraulic stem 403 on the conveyer body 1, fixed connection between the flexible end of connecting plate 402 and first hydraulic stem 403, install second hydraulic stem 404 on the conveyer body 1, the flexible end fixedly connected with push pedal 405 of second hydraulic stem 404, the flexible end of this moment accessible starts first hydraulic stem 403, drives connecting plate 402 upward movement when the flexible end of first hydraulic stem 403 extends, drives loading plate 401 upward movement when connecting plate 402 upward movement, makes the disk upwards slide along a plurality of fixed columns 302 when the top of top disk and fixed column 302, and accessible start second hydraulic stem 404, and drive push pedal 405 left movement when the flexible end of second hydraulic stem 404, push pedal 405 can carry out the parallel and level to the conveyer body to carry out the connecting rod 401 through the top of carrying out on the carrier body, thereby can carry out the fixed connection rod 305 when the flexible processing to the top of disk, and the carrier body is carried out the fixed connection rod is carried out to the flexible upward movement when the flexible is carried out to the carrier body, and the flexible is carried out the flexible is carried on the connecting rod is carried out to the top of the carrier is carried 1 to the lifting device is realized when the disk is pushed up to the connecting plate 401.

Specifically, three groups of guide structures 2 are arranged on the conveyor body 1, the guide structures 2 comprise guide plates 201, two guide plates 201 are slidably connected on the conveyor body 1, first connecting rods 202 are fixedly connected on the guide plates 201, the first connecting rods 202 are slidably connected with the conveyor body 1, racks 203 are fixedly connected on the two first connecting rods 202, the racks 203 are slidably connected with the conveyor body 1, gears 204 are rotatably connected on the conveyor body 1, the racks 203 are engaged with the gears 204, a limit structure 6 is arranged on the first connecting rods 202 on the left side, the limit structure 6 comprises a limit rod 601, a limit rod 601 is slidably connected on the first connecting rods 202 on the left side, the limit rod 601 is clamped with a limit groove 602 on the conveyor body 1, the limiting rod 601 is fixedly connected with a sliding rod 603, the sliding rod 603 is in sliding connection with the left first connecting rod 202, the sliding rod 603 is fixedly connected with a button 604, the button 604 is in sliding connection with the left first connecting rod 202, the conveyor body 1 is provided with a plurality of limiting grooves 602 matched with the limiting rod 601, a second return spring 605 is fixedly connected between the button 604 and the left first connecting rod 202, before processing, the position of the guide plate 201 on the conveyor body 1 can be adjusted according to the size of a wafer, the button 604 can be pressed downwards to enable the button 604 to slide downwards, the second return spring 605 is contracted when the button 604 slides downwards, meanwhile, the button 604 drives the sliding rod 603 to slide downwards, the sliding rod 603 drives the limiting rod 601 to slide downwards, the limiting rod 601 is not clamped with the limiting grooves 602 on the conveyor body 1 any more, at this time, the first connecting rod 202 on the left side drives the rack 203 on the lower side to slide rightwards, the rack 203 on the lower side drives the gear 204 to rotate when sliding rightwards, the rack 203 on the upper side is driven to slide leftwards when the gear 204 rotates, the first connecting rod 202 on the right side drives the guide plates 201 to move, and simultaneously the two guide plates 201 move oppositely, so that the wafer is conveniently guided through the two guide plates 201, the wafer is prevented from deflecting on the conveyor body 1, the position of the guide plates 201 can be adjusted, the wafers with different sizes are conveniently guided, the flexibility is improved, the adjusted first connecting rod 202 is conveniently fixed through the clamping between the limiting rod 601 and the conveyor body 1, the stability is improved, and the wafer can be grabbed onto a punching machine by the sucker grip on the rightmost side at this time.

Specifically, the dust collection structure 5 is arranged on the conveyor body 1, the dust collection structure 5 comprises a collection frame 501, the collection frame 501 is connected with the conveyor body 1 in a sliding manner, a mounting frame 502 is arranged on the collection frame 501, a filter screen 503 is arranged on the mounting frame 502, a vacuum pump 505 is arranged on the conveyor body 1, a first connecting pipe 504 is arranged on an air suction port of the vacuum pump 505, the other end of the first connecting pipe 504 is arranged on the conveyor body 1, a dust hood 507 is fixedly connected on the conveyor body 1, a second connecting pipe 506 is fixedly connected on the dust hood 507, a fixed connection is arranged between the other end of the second connecting pipe 506 and the conveyor body 1, the second connecting pipe 506 is communicated to the upper part of the collection frame 501, the first connecting pipe 504 is communicated to the bottom of the filter screen 503, a sealing ring 508 is fixedly connected on the collection frame 501, the sealing ring 508 is clamped with the sealing groove 509 on the conveyor body 1, after stamping is completed, the stamped workpiece can be grabbed to the middle part of the conveyor body 1 by the sucker gripper and is continuously conveyed, then the stamped workpiece is grabbed to the polisher by the sucker gripper in the middle part for polishing, the vacuum pump 505 can be started during polishing, because the first connecting pipe 504 at the suction inlet of the vacuum pump 505 is communicated with the bottom of the filter screen 503, dust generated during polishing can enter the second connecting pipe 506 through the dust suction cover 507 and then enter the filter screen 503 on the mounting frame 502 through the second connecting pipe 506, so that the dust generated during polishing is conveniently sucked into the collecting frame 501 through the vacuum pump 505 matched with the filter screen 503, the flexibility is improved, the air circulation of the surface of the workpiece is accelerated through the vacuum pump 505, the cooling speed of the workpiece after polishing is accelerated, the workpiece temperature after polishing is prevented from affecting the suction of the suction cup due to higher temperature, and meanwhile, the sealing performance between the collecting frame 501 and the conveyor body 1 is improved through the cooperation between the sealing ring 508 and the sealing groove 509.

When the automatic wafer handling device is used, firstly, when the carrier 301 is installed, the feeding plate 401 moves to be lower than the carrier 301, wafers are carried to the right end of the conveyor body 1 through the carrier 301, then the carrier 301 is pushed to abut against the fixing rod 303, the bottom end of the fixing rod 303 is of a trapezoid structure, so that the fixing rod 303 can abut against the fixing rod 303 to slide upwards, the second connecting rod 305 is driven to slide upwards when the fixing rod 303 slides upwards, the first reset spring 306 contracts when the second connecting rod 305 slides upwards, the carrier 301 continues to slide at the moment, when the second connecting rod slides to a certain position, the fixing rod 303 slides downwards under the action of the first reset spring 306 and is clamped with the fixing groove 304 on the carrier 301, and at the moment, the fixing of the carrier 301 is completed, so that the wafers are conveniently carried through the carrier 301, the carrying difficulty is reduced, and meanwhile, the fixing between the carrier 301 and the conveyor body 1 is conveniently carried out through the clamping between the fixing rod 303 and the carrier 301, and the stability is improved;

at this time, the first hydraulic rod 403 is started, the telescopic end of the first hydraulic rod 403 drives the connecting plate 402 to move upwards when being extended, the connecting plate 402 drives the feeding plate 401 to move upwards when moving upwards, the wafer slides upwards along the plurality of fixing columns 302 when the feeding plate 401 moves upwards, when the bottom surface of the top wafer is flush with the top of the fixing columns 302, the push plate 405 is driven to move leftwards when the telescopic end of the second hydraulic rod 404 is contracted by starting the second hydraulic rod 404, the push plate 405 pushes the top wafer onto the conveyor body 1 to be conveyed, the conveyor body 1 conveys the wafer onto processing equipment to be processed, automatic feeding of the wafer is conveniently realized through cooperation between the feeding plate 401 and the push plate 405, the operation flexibility is improved, and when the connecting plate 402 is in conflict with the second connecting rod 305, the fixing rod 303 is released from fixing the carrier 301 by continuous upward movement of the connecting plate 402;

before machining, the position of the guide plate 201 on the conveyor body 1 can be adjusted according to the size of a wafer, the button 604 on the left first connecting rod 202 can be pressed downwards, the second return spring 605 contracts when the button 604 slides downwards, meanwhile, the button 604 drives the slide rod 603 to slide downwards, the slide rod 603 drives the limit rod 601 to slide downwards, the limit rod 601 is not clamped with the limit groove 602 on the conveyor body 1 any more, at the moment, the first connecting rod 202 on the left drives the lower rack 203 to slide rightwards, the lower rack 203 drives the gear 204 to rotate when the gear 204 rotates, the upper rack 203 drives the upper rack 203 to slide leftwards, the upper rack 203 drives the guide plate 201 to move when the upper rack 203 slides leftwards, and the two guide plates 201 move in opposite directions, so that the wafer is conveniently guided through the two guide plates 201, the wafer is prevented from running off on the conveyor body 1, the positions of the guide plates 201 can be adjusted, the wafers with different sizes are conveniently guided, the flexibility is improved, the clamping between the limit rod 601 and the conveyor body 1 is conveniently clamped, the first connecting rod 202 is conveniently adjusted, and the wafer is conveniently clamped to the right side of the punch is firmly, and the wafer is firmly clamped by the suction disc, and the suction disc is firmly pressed;

after punching press completion, accessible sucking disc tongs snatch the work piece that punches to the middle part of conveyer body 1 and continue to carry, then snatch the work piece of punching press through the sucking disc tongs in middle part and polish on the polisher, accessible start vacuum pump 505 during polishing, because the first connecting pipe 504 of vacuum pump 505 induction port department communicates to the bottom of filter screen 503, the dust that produces during polishing can enter into in the second connecting pipe 506 through the suction hood 507, on the filter screen 503 on the rethread second connecting pipe 506 enters into the installing frame 502, thereby be convenient for inhale the collecting frame 501 with the dust that produces during polishing through vacuum pump 505 cooperation filter screen 503, the flexibility is improved, and the circulation of air on work piece surface has been accelerated through the vacuum pump 505, the cooling rate of work piece after polishing has been avoided the higher absorption of work piece temperature after polishing to cause the influence to the sucking disc, cooperation between sealing washer 508 and the seal groove 509 simultaneously, the leakproofness between collecting frame 501 and conveyer body 1 has been improved.

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 (3)

1. Conveying equipment for aluminum pot processing is characterized by comprising:

a conveyor body (1);

the wafer carrying device comprises a carrying structure (3), wherein the carrying structure (3) for carrying wafers is arranged on a conveyor body (1), the carrying structure (3) comprises a carrier (301), the carrier (301) is detachably connected to the conveyor body (1), a plurality of fixing columns (302) are fixedly connected to the carrier (301), a fixing rod (303) is connected to the conveyor body (1) in a sliding manner, and the fixing rod (303) is clamped with a fixing groove (304) on the carrier (301); the fixed rod (303) is fixedly connected with a second connecting rod (305), the second connecting rod (305) is in sliding connection with the conveyor body (1), and a first reset spring (306) is fixedly connected between the second connecting rod (305) and the conveyor body (1);

the feeding structure (4) is arranged on the conveyor body (1), the feeding structure (4) comprises a feeding plate (401), the feeding plate (401) is connected to the carrier (301) in a sliding mode, a connecting plate (402) is fixedly connected to the feeding plate (401), the connecting plate (402) is connected with the carrier (301) in a sliding mode, a first hydraulic rod (403) is arranged on the conveyor body (1), the connecting plate (402) is fixedly connected with the telescopic end of the first hydraulic rod (403), a second hydraulic rod (404) is arranged on the conveyor body (1), and a push plate (405) is fixedly connected to the telescopic end of the second hydraulic rod (404);

three groups of guide structures (2) are arranged on the conveyor body (1), the guide structures (2) comprise guide plates (201), two guide plates (201) are connected to the conveyor body (1) in a sliding mode, first connecting rods (202) are fixedly connected to the guide plates (201), racks (203) are fixedly connected to the first connecting rods (202) in a sliding mode, racks (203) are fixedly connected to the first connecting rods (202), the racks (203) are connected to the conveyor body (1) in a sliding mode, gears (204) are connected to the conveyor body (1) in a rotating mode, and the two racks (203) are meshed with the gears (204); the left first connecting rod (202) is provided with a limiting structure (6), the limiting structure (6) comprises a limiting rod (601), the left first connecting rod (202) is connected with the limiting rod (601) in a sliding mode, and the limiting rod (601) is clamped with a limiting groove (602) on the conveyor body (1); a slide bar (603) is fixedly connected to the limiting bar (601), the slide bar (603) is in sliding connection with the left first connecting bar (202), a button (604) is fixedly connected to the slide bar (603), and the button (604) is in sliding connection with the left first connecting bar (202); a plurality of limit grooves (602) matched with the limit rods (601) are formed in the conveyor body (1), and a second reset spring (605) is fixedly connected between the button (604) and the first connecting rod (202) on the left side;

be equipped with dust extraction (5) on conveyer body (1), dust extraction (5) are including collecting frame (501), sliding connection has on conveyer body (1) to collect frame (501), install installing frame (502) on collecting frame (501), install filter screen (503) on installing frame (502), install vacuum pump (505) on conveyer body (1), first connecting pipe (504) are installed to the induction port of vacuum pump (505), the other end of first connecting pipe (504) is installed on conveyer body (1), fixedly connected with dust hood (507) on conveyer body (1), fixedly connected with second connecting pipe (506) on dust hood (507), fixedly connected with between the other end of second connecting pipe (506) and conveyer body (1).

2. The conveying equipment for aluminum pot processing according to claim 1, wherein: the second connecting pipe (506) is communicated to the upper side of the collecting frame (501), and the first connecting pipe (504) is communicated to the bottom of the filter screen (503).

3. The conveying equipment for aluminum pot processing according to claim 2, wherein: and a sealing ring (508) is fixedly connected to the collecting frame (501), and the sealing ring (508) is clamped with a sealing groove (509) on the conveyor body (1).