CN218926014U - Sideslip power composite set of can body machine - Google Patents

Abstract

The utility model discloses a transverse moving power combination device of a can body machine, which relates to the field of can manufacturing equipment and comprises a screw bottom plate and two mounting plates, wherein a motor mounting plate is fixedly arranged on the top side of the screw bottom plate, a driving structure is fixedly arranged on the motor mounting plate, a can feeding sliding plate is arranged on the driving structure, and a horizontal adjusting structure is arranged on the can feeding sliding plate. According to the utility model, through the arrangement of the structures such as the servo motor and the tank feeding slide plate, the screw rod is driven by the servo motor to rotate, the tank feeding slide plate can be controlled to horizontally slide while rotating, so that the position of the clamp can be horizontally moved, and through connecting the two clamping slide plates on the opening and closing structure of the tank body machine, the two clamping slide plates can be controlled to reciprocate in the directions close to or far away from each other, so that the clamp on two sides can be reciprocally opened and closed to clamp or loosen the tank body, the tank body can be accurately transferred to a processing area while being clamped, and the processing efficiency of the tank body is improved.

Description

Sideslip power composite set of can body machine

Technical Field

The utility model relates to the technical field of can manufacturing equipment, in particular to a transverse moving power combination device of a can body machine.

Background

The tank body machine adopts hydraulic force to finish two works of flanging (or rolling up) and rib expansion, the machine works stably and reliably, the service life is long, the tank body is sleeved into a model through a conveyor belt, the machine can finish all the works, and the tank body machine is safe and labor-saving to use and suitable for tank products such as wine tanks, chemical tanks, tea tanks and the like.

In the prior art, in order to ensure that the tank body can be accurately transferred to a processing area in the process of processing the tank body, the tank body needs to be transferred and the position of the tank body is limited in a positioning manner so as to improve the processing effect and the processing efficiency of the tank body, and therefore, a transverse moving power combination device of the tank body machine is required to meet the demands of people.

Disclosure of Invention

The utility model aims to provide a transverse moving power combination device of a tank body machine, which aims to solve the problems that in the background technology, in order to ensure that a tank body can be accurately transferred to a processing area, the tank body is required to be transferred and the position of the tank body is required to be limited in a positioning way so as to improve the processing effect and the processing efficiency of the tank body.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a sideslip power composite set of can body machine, includes lead screw bottom plate and two mounting panels, the upside fixed mounting of lead screw bottom plate has the motor mounting panel, and fixed mounting has driving structure on the motor mounting panel, installs on the driving structure and send a jar slide, send a jar slide to install horizontal adjustment structure, equal movable mounting has the clamping structure on two mounting panels, and the clamping structure is installed on horizontal adjustment structure.

Preferably, the driving structure comprises two reinforcing plates, wherein the two reinforcing plates are fixedly arranged on the top side of the screw bottom plate, the two reinforcing plates are fixedly arranged on one side of the motor mounting plate, a servo motor is fixedly arranged on one side of the motor mounting plate, a screw rod is fixedly arranged at the output end of the servo motor, a limiting block and a fixing block are rotatably arranged on the screw rod, the limiting block and the fixing block are fixedly arranged on the top side of the screw bottom plate, a sliding screw sleeve is arranged on the screw rod in a threaded manner, and the sliding screw sleeve is fixedly arranged on the bottom side of the can feeding sliding plate.

Preferably, the horizontal adjusting structure comprises four tank clamping guide rod support plates, the four tank clamping guide rod support plates are symmetrically and fixedly arranged on the top side of the tank conveying sliding plate respectively, two tank clamping guide rods are fixedly arranged on one side, close to each other, of the two tank clamping guide rod support plates on the same side, and the same tank clamping movable block is slidably arranged on the two tank clamping guide rods on the same side.

Preferably, two movable grooves are formed in the tank clamping movable block, and two tank clamping guide rods are respectively and slidably arranged in the two movable grooves.

Preferably, the top side of the screw bottom plate is symmetrically and fixedly provided with two guide rail fixing plates, the top sides of the two guide rail fixing plates are fixedly provided with first guide rails, the bottom side of the can feeding sliding plate is symmetrically and fixedly provided with two first sliding blocks, the two first sliding blocks are respectively provided with a first sliding groove, and the two first guide rails are respectively and slidably arranged in the two first sliding grooves.

Preferably, the clamping structure comprises two clamping and conveying connecting rods, the two clamping and conveying connecting rods are respectively fixedly arranged on the top sides of the two clamping and conveying movable blocks, clamping and connecting blocks are fixedly arranged on the top sides of the two clamping and conveying connecting rods, clamping tank cross beams are fixedly arranged on the two clamping and conveying connecting blocks, a plurality of clamps are movably arranged on the top sides of the two clamping tank cross beams, two mounting holes are formed in the clamps, second sliding blocks are slidably arranged on the top sides of the two mounting plates, clamping sliding plates are fixedly arranged on the top sides of the two second sliding blocks, sliding block fixing plates are fixedly arranged on the top sides of the two clamping sliding plates, third sliding blocks are fixedly arranged on the top sides of the two sliding block fixing plates, and the two third sliding blocks are slidably arranged on the bottom sides of the two clamping tank cross beams.

Preferably, three sliding grooves are formed in the third sliding block, a third sliding rail is arranged in the three sliding grooves in a sliding mode, and the third sliding rail is fixedly arranged at the bottom side of the tank clamping cross beam.

Preferably, a second sliding groove is formed in the second sliding block, a second sliding rail is slidably installed in the second sliding groove, and the second sliding rail is fixedly installed on the top side of the mounting plate.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the structures such as the servo motor and the tank feeding slide plate, the screw rod is driven by the servo motor to rotate, the tank feeding slide plate can be controlled to horizontally slide while rotating, and then the position of the clamp can be horizontally moved, and through connecting the two clamping slide plates on the opening and closing structure of the tank body machine, the two clamping slide plates can be controlled to reciprocate towards the directions close to or far away from each other, so that the clamp on two sides can be reciprocally opened and closed to clamp or loosen the tank body, and the tank body can be accurately transferred to a processing area while being clamped, and the processing efficiency of the tank body is improved.

According to the utility model, through the arrangement of the mounting holes, the clamp can be installed by penetrating the mounting holes through screws and screwing on the tank clamping cross beam, and the shape of the clamp can be changed according to the shape of the tank body, so that the applicability is improved.

Drawings

FIG. 1 is a schematic diagram of a traversing power assembly of a can body machine according to the present utility model;

FIG. 2 is a schematic diagram of an explosion structure of a traversing power assembly of a can body machine according to the present utility model;

FIG. 3 is a schematic view of a servo motor part of a traversing power assembly of a can body machine according to the present utility model;

FIG. 4 is a schematic top view of a traversing power assembly of a can body machine according to the present utility model;

fig. 5 is a schematic side view of a transverse moving power assembly device of a can body machine according to the present utility model.

In the figure: 100. a screw bottom plate; 101. a mounting plate; 200. a motor mounting plate; 201. a reinforcing plate; 202. a servo motor; 203. a screw rod; 204. a limiting block; 205. a fixed block; 206. sliding the silk sleeve; 300. a can feeding slide plate; 301. a tank clamping guide rod support plate; 302. a tank clamping guide rod; 303. a can clamping movable block; 304. a movable groove; 305. a guide rail fixing plate; 306. a first guide rail; 307. a first slider; 308. a first chute; 400. clamping and conveying a connecting rod; 401. clamping connecting blocks; 402. a tank clamping beam; 403. a clamp; 404. a second slider; 405. a clamping slide plate; 406. a slider fixing plate; 407. a third slider; 408. three sliding grooves; 409. a third slide rail; 410. a second chute; 411. a second slide rail; 412. and (5) mounting holes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, a traversing power combination device of a can body machine comprises a screw bottom plate 100 and two mounting plates 101, wherein a motor mounting plate 200 is fixedly mounted on the top side of the screw bottom plate 100, a driving structure is fixedly mounted on the motor mounting plate 200, a can feeding slide plate 300 is mounted on the driving structure, a horizontal adjusting structure is mounted on the can feeding slide plate 300, clamping structures are movably mounted on the two mounting plates 101, the clamping structures are mounted on the horizontal adjusting structure, the screw bottom plate 100 and the mounting plates 101 are mounted on a device shell when in use, a clamping slide plate 405 is connected on an opening and closing mechanism of the device, the two clamping slide plates 405 can be controlled to reciprocate in the direction of approaching or separating mutually, a second slide block 404 is driven to move when the clamping slide plate 405 moves, and the second slide block 404 slides on a second slide rail 411 through the second slide groove 410, so that the clamping slide plate 405 can be prevented from shifting, the holding clamp sliding plate 405 moves and drives the third sliding block 407 to move through the sliding block fixing plate 406, so that the moving third sliding block 407 drives the can clamping beam 402 to move through the matching of the three sliding grooves 408 and the third sliding rail 409, the clamping 403 on the two can clamping beams 402 can realize the reciprocating opening and closing effect under the reciprocating movement of the two holding clamp sliding plates 405, the can clamping beam 402 can drive the holding clamp connecting block 401 to move while moving, the holding clamp connecting block 401 drives the can clamping movable block 303 to move through the clamping connecting rod 400, the moving can clamping movable block 303 can slide on the two can clamping guide rods 302 respectively through the two movable grooves 304, the stability of the can clamping beam 402 during moving is further ensured, the output end of the servo motor 202 can drive the lead screw 203 to rotate when the servo motor 202 is started, the rotating lead screw 203 can rotate on the limiting block 204 and the fixed block 205, the lead screw 203 is prevented from being deviated, the lead screw 203 drives the sliding wire sleeve 206 to horizontally move, the horizontal moving direction of the sliding wire sleeve 206 can be controlled, the sliding wire sleeve 206 can drive the can feeding slide plate 300 to horizontally move, the can feeding slide plate 300 can further drive the two first sliding blocks 307 to move, the first sliding blocks 307 can slide on the first guide rail 306 through the first sliding grooves 308, the can feeding slide plate 300 can be further limited to horizontally slide, the can feeding slide plate 300 is prevented from being deviated, the can feeding slide plate 300 can drive the four can clamping guide rod support plates 301 to move, the can clamping guide rod support plates 301 can further drive the can clamping movable blocks 303 to move through the can clamping guide rods 302, the moving can clamping movable blocks 303 can drive the can clamping connecting rods 400 to move, the moving can clamping connecting blocks 401 can further drive the clamps 403 to horizontally move through the can clamping cross beams 402, when the two clamps 403 are opened, the two clamps 403 can be further controlled to move through the two clamps 403, the can be further moved through the servo motor 202, the positions of the can be further moved, the can body 403 can be clamped, and the mounting holes 412 can be formed in the can be changed through the mounting holes of the clamps 403.

Further, the driving structure comprises two reinforcing plates 201, the two reinforcing plates 201 are fixedly arranged on the top side of the screw bottom plate 100, the two reinforcing plates 201 are fixedly arranged on one side of the motor mounting plate 200, a servo motor 202 is fixedly arranged on one side of the motor mounting plate 200, a screw rod 203 is fixedly arranged at the output end of the servo motor 202, a limiting block 204 and a fixed block 205 are rotatably arranged on the screw rod 203, the limiting block 204 and the fixed block 205 are fixedly arranged on the top side of the screw bottom plate 100, a sliding screw sleeve 206 is threadedly arranged on the screw rod 203, the sliding screw sleeve 206 is fixedly arranged on the bottom side of the can feeding slide plate 300, when the servo motor 202 is started, the output end of the servo motor 202 drives the screw rod 203 to rotate, the rotating screw rod 203 rotates on the limiting block 204 and the fixed block 205, the screw rod 203 is prevented from shifting, the screw rod 203 is simultaneously driven to horizontally move, and then the horizontal moving direction of the sliding screw sleeve 206 can be controlled, and the can be simultaneously driven to horizontally move the can feeding slide plate 300.

Further, the horizontal adjusting structure comprises four tank clamping guide rod support plates 301, the four tank clamping guide rod support plates 301 are symmetrically and fixedly arranged on the top side of the tank conveying sliding plate 300 respectively, two tank clamping guide rods 302 are fixedly arranged on the side, close to each other, of the two tank clamping guide rod support plates 301 on the same side, one tank clamping movable block 303 is slidably arranged on the two tank clamping guide rods 302 on the same side, the tank clamping cross beam 402 moves and drives the holding clamping connecting block 401 to move, and the holding clamping connecting block 401 drives the tank clamping movable block 303 to move through the tank clamping connecting rod 400, and the moving tank clamping movable block 303 slides on the two tank clamping guide rods 302 through the two movable grooves 304 respectively, so that stability of the tank clamping cross beam 402 during moving is further guaranteed.

Further, two movable slots 304 are formed in the can clamping movable block 303, two can clamping guide rods 302 are respectively slidably mounted in the two movable slots 304, and the moving can clamping movable block 303 can respectively slide on the two can clamping guide rods 302 through the two movable slots 304.

Further, two guide rail fixing plates 305 are symmetrically and fixedly installed on the top side of the screw bottom plate 100, first guide rails 306 are fixedly installed on the top sides of the two guide rail fixing plates 305, two first sliding blocks 307 are symmetrically and fixedly installed on the bottom side of the can feeding sliding plate 300, first sliding grooves 308 are formed in the two first sliding blocks 307, the two first guide rails 306 are respectively and slidably installed in the two first sliding grooves 308, and the first sliding blocks 307 can slide on the first guide rails 306 through the first sliding grooves 308, so that the can feeding sliding plate 300 is limited to slide horizontally only, and the can feeding sliding plate 300 is prevented from shifting.

Further, the clamping structure includes two clamp send connecting rod 400, two clamp send connecting rod 400 respectively fixed mounting is in the top side of two clamp jar movable block 303, two equal fixed mounting of top side that clamp send connecting rod 400 has clamp connecting block 401, equal fixed mounting has clamp jar crossbeam 402 on two clamp connecting block 401, equal movable mounting of top side of two clamp jar crossbeams 402 has a plurality of anchor clamps 403, two mounting holes 412 have been seted up on the anchor clamps 403, the equal slidable mounting of top side of two mounting plates 101 has second slider 404, the equal fixed mounting of top side of two second slider 404 has clamp slide 405, the equal fixed mounting of top side of two clamp slide 405 has slider fixed plate 406, the equal fixed mounting of top side of two slider fixed plate 406 has third slider 407, two third slider 407 slidable mounting respectively is in the bottom side of two clamp jar crossbeams 402, install lead screw bottom plate 100 and mounting plate 101 on the equipment shell during the use, clamp slide 405 connects on the opening mechanism of equipment, can control two clamp 405 and be close to each other or keep away from each other in the direction at the same time at the clamp slider, thereby can drive the slider that the slider moves the slider that moves the slider is held by the slider 405, and can be moved by the slider that the slider is held in a reciprocating movement of the slider is held by the slider 405, the slider is held by the slider in a slider 408, the second, the slider is held in the slider is held by the slider and can be moved by the slider in the reciprocal movement of the slider in the direction of the slider in the position of the top of the slider, and can, and the slider can be moved by the slider, and the slider can by the slider can and the slider can have the slider and the slider can move by the slider and the slider.

Further, a third sliding groove 408 is formed in the third sliding block 407, a third sliding rail 409 is slidably mounted in the third sliding groove 408, the third sliding rail 409 is fixedly mounted at the bottom side of the can clamping beam 402, and the moving third sliding block 407 drives the can clamping beam 402 to move through the cooperation of the third sliding groove 408 and the third sliding rail 409.

Further, a second sliding groove 410 is formed in the second sliding block 404, a second sliding rail 411 is slidably mounted in the second sliding groove 410, the second sliding rail 411 is fixedly mounted on the top side of the mounting plate 101, and the second sliding block 404 slides on the second sliding rail 411 through the second sliding groove 410, so that the deviation of the holding and clamping sliding plate 405 can be avoided.

The working principle of the utility model is as follows:

when in use, the screw bottom plate 100 and the mounting plate 101 are mounted on the equipment shell, the holding clamp slide plates 405 are connected to the opening and closing mechanism of the equipment, the two holding clamp slide plates 405 can be controlled to reciprocate in the direction of approaching or separating from each other, the holding clamp slide plates 405 can drive the second slide blocks 404 to move when moving, and further the second slide blocks 404 can slide on the second slide rails 411 through the second slide grooves 410, so that the holding clamp slide plates 405 can be prevented from shifting, the holding clamp slide plates 405 can drive the third slide blocks 407 to move through the slide block fixing plates 406 when moving, the moving third slide blocks 407 can drive the tank clamping cross beams 402 to move through the cooperation of the three slide grooves 408 and the third slide rails 409, so that the clamp 403 on the two tank clamping cross beams 402 can realize the reciprocating opening and closing effect under the reciprocating movement of the two holding clamp slide plates 405, and the tank clamping cross beams 402 can drive the holding clamp connecting blocks 401 to move when moving, so that the holding and clamping connecting block 401 drives the clamping tank moving block 303 to move through the clamping and conveying connecting rod 400, the moving clamping tank moving block 303 can slide on the two clamping tank guide rods 302 through the two moving grooves 304 respectively, stability during movement of the clamping tank cross beam 402 is further ensured, when the servo motor 202 is started, the output end of the servo motor 202 can drive the screw rod 203 to rotate, the rotating screw rod 203 can rotate on the limiting block 204 and the fixed block 205, the screw rod 203 is prevented from shifting, the screw rod 203 can drive the sliding wire sleeve 206 to horizontally move while rotating, so that the horizontal movement direction of the sliding wire sleeve 206 can be controlled, the sliding wire sleeve 206 can drive the tank conveying slide plate 300 to horizontally move while moving, the tank conveying slide plate 300 can drive the two first slide blocks 307 to move, the first slide blocks 307 can slide on the first guide rails 306 through the first slide grooves 308, and the tank conveying slide plate 300 can be limited to horizontally slide only, avoid sending a jar slide 300 skew, send a jar slide 300 to remove and can drive four clamp tank guide arm extension boards 301 and remove, and then make clamp tank guide arm extension board 301 drive clamp tank movable block 303 through clamp tank guide arm 302 and remove, the clamp tank movable block 303 of removal can drive clamp and send connecting rod 400 and remove, and then make the clamp connecting block 401 of holding that removes drive anchor clamps 403 horizontal migration through clamp tank crossbeam 402, can press from both sides the jar body and get and loosen when two anchor clamps 403 open, can realize controlling two anchor clamps 403 and remove through starting servo motor 202, and then can remove the position of jar body, realize the processing pay-off to the jar body, and set up mounting hole 412 on the anchor clamps 403, pass mounting hole 412 through using the screw and install anchor clamps 403 on clamp tank crossbeam 402, can change the shape of anchor clamps 403 according to the shape of jar body.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a sideslip power composite set of can body machine, includes lead screw bottom plate (100) and two mounting panels (101), its characterized in that: the motor mounting plate (200) is fixedly mounted on the top side of the screw bottom plate (100), the driving structure is fixedly mounted on the motor mounting plate (200), the can feeding slide plate (300) is mounted on the driving structure, the horizontal adjusting structure is mounted on the can feeding slide plate (300), the clamping structures are movably mounted on the two mounting plates (101), and the clamping structures are mounted on the horizontal adjusting structure.

2. The traversing power assembly for a can body machine as recited in claim 1, wherein: the driving structure comprises two reinforcing plates (201), wherein the two reinforcing plates (201) are fixedly arranged on the top side of a screw bottom plate (100), the two reinforcing plates (201) are fixedly arranged on one side of a motor mounting plate (200), a servo motor (202) is fixedly arranged on one side of the motor mounting plate (200), a screw rod (203) is fixedly arranged at the output end of the servo motor (202), a limiting block (204) and a fixing block (205) are rotatably arranged on the screw rod (203), the limiting block (204) and the fixing block (205) are fixedly arranged on the top side of the screw bottom plate (100), a sliding screw sleeve (206) is arranged on the screw rod (203) in a threaded manner, and the sliding screw sleeve (206) is fixedly arranged on the bottom side of the can conveying sliding plate (300).

3. The traversing power assembly for a can body machine as recited in claim 1, wherein: the horizontal adjusting structure comprises four tank clamping guide rod support plates (301), the four tank clamping guide rod support plates (301) are symmetrically and fixedly arranged on the top side of the tank conveying sliding plate (300), two tank clamping guide rods (302) are fixedly arranged on one side, close to each other, of the two tank clamping guide rod support plates (301) located on the same side, and one tank clamping movable block (303) is slidably arranged on the two tank clamping guide rods (302) located on the same side.

4. A traversing power assembly for a can body machine as claimed in claim 3, wherein: two movable grooves (304) are formed in the tank clamping movable block (303), and two tank clamping guide rods (302) are respectively and slidably arranged in the two movable grooves (304).

5. The traversing power assembly for a can body machine as recited in claim 1, wherein: two guide rail fixing plates (305) are symmetrically and fixedly arranged on the top side of the screw bottom plate (100), first guide rails (306) are fixedly arranged on the top sides of the two guide rail fixing plates (305), two first sliding blocks (307) are symmetrically and fixedly arranged on the bottom side of the can feeding sliding plate (300), first sliding grooves (308) are formed in the two first sliding blocks (307), and the two first guide rails (306) are respectively and slidably arranged in the two first sliding grooves (308).

6. The traversing power assembly for a can body machine as recited in claim 1, wherein: the clamping structure comprises two clamping and conveying connecting rods (400), the two clamping and conveying connecting rods (400) are respectively and fixedly arranged on the top sides of two clamping tank movable blocks (303), clamping connecting blocks (401) are respectively and fixedly arranged on the top sides of the two clamping and conveying connecting rods (400), clamping tank cross beams (402) are respectively and fixedly arranged on the two clamping connecting blocks (401), a plurality of clamps (403) are respectively and movably arranged on the top sides of the two clamping tank cross beams (402), two mounting holes (412) are formed in the clamps (403), second sliding blocks (404) are respectively and slidably arranged on the top sides of the two mounting plates (101), clamping sliding plates (405) are respectively and fixedly arranged on the top sides of the two second sliding blocks (404), sliding block fixing plates (406) are respectively and fixedly arranged on the top sides of the two sliding block fixing plates (406), third sliding blocks (407) are respectively and slidably arranged on the bottom sides of the two clamping tank cross beams (402).

7. The traversing power assembly for a can body machine as recited in claim 6, wherein: and the third sliding block (407) is provided with a three sliding groove (408), a third sliding rail (409) is slidably arranged in the three sliding groove (408), and the third sliding rail (409) is fixedly arranged at the bottom side of the tank clamping cross beam (402).

8. The traversing power assembly for a can body machine as recited in claim 6, wherein: a second sliding groove (410) is formed in the second sliding block (404), a second sliding rail (411) is arranged in the second sliding groove (410) in a sliding mode, and the second sliding rail (411) is fixedly arranged on the top side of the mounting plate (101).

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