CN112092443A

CN112092443A - Pop can compression processing robot

Info

Publication number: CN112092443A
Application number: CN202010911664.9A
Authority: CN
Inventors: 刘一笑
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-12-18

Abstract

The invention discloses a compression treatment robot for pop cans, which comprises a platform, a rotating mechanism, a discharging mechanism, a compression mechanism and a collecting barrel, and is characterized in that: the platform is a rectangular steel plate, and is also an installation platform of the rotating mechanism, the discharging mechanism, the compressing mechanism and the collecting cylinder; the rotating mechanism comprises: the lower end part of the turntable bracket is fixedly arranged on the upper end surface of the platform; can be quick compress into the piece with the easy open can through the compression mechanism who sets up, convenient storage and transportation are handled.

Description

Pop can compression processing robot

Technical Field

The invention relates to the field of waste recovery, in particular to a zip-top can compression processing robot.

Background

At present, pop can products are mostly used for packaging beer beverages, and as the demand of people for the fast-consumption products is larger and larger, more and more waste pop cans are generated, and the waste pop cans enable aluminum products to belong to recyclable resources and have recycling value. And carry out compression treatment then can practice thrift recovery unit's space to receiving the easy open can, improve the utilization ratio, convenient transportation if adopt the mode of artifical compression, then can waste a large amount of manpowers, is suitable for it conversely like this.

Disclosure of Invention

Aiming at the technical problem, the invention provides the zip-top can compression processing robot which can rapidly compress and process zip-top cans and is high in recovery rate.

In order to solve the above problems: the utility model provides a zip-top can compression processing robot, includes platform, slewing mechanism, discharge mechanism, compressing mechanism, a collecting vessel, its characterized in that: the platform is a rectangular steel plate, and meanwhile, the platform is also an installation platform of the rotating mechanism, the discharging mechanism, the compressing mechanism and the collecting barrel.

The rotating mechanism comprises: and the lower end part of the turntable support is fixedly arranged on the upper end surface of the platform.

The discharge mechanism comprises: the discharging device comprises a discharging support and a discharging platform, wherein the lower end part of the discharging support is fixedly arranged on the upper end surface of the platform, and the lower end surface of the discharging platform is fixedly arranged on the upper end part of the discharging support.

The compression mechanism includes: the lower end part of the compression bracket is fixedly arranged on the platform.

The lower end part of the collecting cylinder is arranged on the upper end surface of the platform.

Further, slewing mechanism still include outer ring gear, fixture, ring gear rotation motor frame, ring gear rotation motor, rotating gear, buckle, its characterized in that: the lower end face of the outer gear ring is fixedly arranged at the upper end part of the turntable bracket, and the lower end face of the gear ring rotating motor frame is arranged on the outer gear ring; the front end face of the gear ring rotating motor is fixedly arranged on the gear ring rotating motor frame, a rotating gear is arranged on a rotating shaft of the gear ring rotating motor, and the rotating gear is meshed with the side face of the outer gear ring to form matching; the middle position of the concave-convex plate is fixedly connected with the middle position of the outer gear ring, and a concave-convex sliding rail is arranged on the lower end face of the concave-convex plate.

Further, fixture include centre gripping sideboard, solid fixed splint, movable clamp plate, compression spring, telescopic link, splint slide rail, movable pulley, its characterized in that: the front end parts of the clamping side plates are fixedly arranged on the side end surface of the gear ring rotating motor frame, two sides of the fixed clamping plate are fixedly arranged between the two clamping side plates, and the front end parts of the fixed clamping plates are fixedly arranged on the side end surface of the gear ring rotating motor frame; the clamping side plates are arranged on the two sides of the movable clamping plate, the movable clamping plate is arranged in the clamping side plates on the two sides in a sliding mode through the clamping side plates, and the upper end face of the movable clamping plate is provided with an arc baffle; the front end part of the telescopic rod is fixedly arranged at the rear end part of the movable clamping plate, the sliding wheel is arranged at the rear end part of the telescopic rod, and the upper end part of the sliding wheel is slidably arranged in the concave-convex sliding rail.

Further, discharge mechanism still include transport mechanism, ejection of compact drive wheel, ejection of compact motor support, ejection of compact motor, upper and lower actuating lever, play feed cylinder, dwang, upper and lower movable block, slide bar, suction nozzle, its characterized in that: the conveying mechanism comprises conveying belt plates, a conveying belt and a conveying belt motor, synchronous belt rollers are mounted at two ends between the conveying belt plates, the conveying belt is sleeved on the two synchronous belt rollers, the front end face of the conveying belt motor is fixedly mounted at one end part of the conveying belt plate, a rotating shaft of the conveying belt motor is fixedly connected with the synchronous belt rollers, and the conveying belt motor drives the conveying belt to move; the lower end part of the discharging barrel is fixedly arranged at the front end part of the discharging platform, vertical slideways are arranged on two sides of the discharging barrel, slide bars are arranged on two sides of the upper and lower movable blocks, and the slide bars are slidably arranged in the vertical slideways arranged on the discharging barrel; the lower end part of the discharging motor support is fixedly arranged at the front end part of the discharging platform, the discharging driving wheel is rotatably arranged at the upper end part of the discharging motor support, the discharging motor is also arranged at the mounting position, the front end surface of the discharging motor is fixedly arranged on the discharging motor support, and the rotating shaft of the discharging motor is fixedly connected with the discharging driving wheel; the upper end parts of the upper and lower driving rods are rotatably arranged on a rotating shaft arranged outside the discharging driving wheel, and the lower end parts of the upper and lower driving rods are rotatably arranged on the rotating rod; the suction nozzle is arranged on the lower end face of the sliding rod.

Furthermore, discharge mechanism still include feed cylinder support, feed cylinder, its characterized in that, the lower tip fixed mounting of feed cylinder support in the rear end position of ejection of compact platform, the feed cylinder set up in the feed cylinder support, the lower tip of feed cylinder is provided with the rectangle opening.

Further, compression mechanism still include the compression mount pad, strike the cover, strike the pole, strike board, buffer spring, its characterized in that: the rear end part of the compression mounting seat is fixedly arranged at the upper end part of the compression bracket, and the rear end part of the impact sleeve is fixedly arranged at the front end part of the compression mounting seat; the upper end part of the impact rod is slidably arranged in the impact sleeve, the spring is sleeved on the impact rod, the upper end part of the spring is fixedly arranged on the lower end surface of the impact sleeve, the lower end part of the spring is fixedly arranged on the impact plate, the impact plate is fixedly arranged on the front end part of the conveyor belt plate, and a buffer spring is arranged between the two layers of impact plates.

Furthermore, the impact plate is made of a stainless steel plate, and a circular groove is formed in the lower end face of the impact plate.

Compared with the prior art, the invention has the beneficial effects that.

(1) The pop can is quickly conveyed downwards under the pushing action by arranging the discharging mechanism and reaches the clamping mechanism for compression treatment;

(2) the concave-convex turntable can adjust clamping and loosening work of the pop can, the structure is simple, and work efficiency can be improved.

(3) Can be quick compress into the piece with the easy open can through the compression mechanism who sets up, convenient storage and transportation are handled.

Drawings

Fig. 1 and 2 are schematic views of the overall structure of the present invention.

Fig. 3 and 4 are schematic structural diagrams of the rotating mechanism of the invention.

Fig. 5 is a partial schematic view of the telescoping rod of the rotating mechanism of the present invention.

Fig. 6 is a partial structure diagram of the concave-convex plate of the rotating mechanism of the invention.

Fig. 7 and 8 are schematic structural diagrams of the discharging mechanism of the invention.

Fig. 9 is a schematic view of the compression mechanism of the present invention.

Description of the drawings: 1-a platform; 2-a rotation mechanism; 3-a discharging mechanism; 4-a compression mechanism; 5-a collecting cylinder; 201-turntable support; 202-external gear ring; 203-clamping the edge plate; 204-a gear ring rotating motor frame; 205-ring gear rotating motor; 206-a rotating gear; 207-fixed splint; 208-moving the splint; 209-compression spring; 210-a telescoping rod; 211-cleat sliding track; 212-a sliding wheel; 213-a relief plate; 214-concave-convex slide rail; 301-discharge holder; 302-a discharge platform; 303-cartridge holder; 304-a cartridge; 305-a conveyor belt plate; 306-a conveyor belt; 307-conveyor motor; 308-discharge driving wheel; 309-discharge motor support; 310-discharge motor; 311-up and down drive rods; 312-a discharge cylinder; 313-rotating rods; 314-up and down moving block; 315-sliding bar; 316-suction nozzle; 401-compressing the stent; 402-compression mount; 403-impacting sleeve; 404-a spring; 405-an impact bar; 406-an impingement plate; 407-buffer spring.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): a robot for compressing pop cans is characterized in that a platform 1 is a rectangular steel plate, and meanwhile, the platform 1 is also a mounting platform for a rotating mechanism 2, a discharging mechanism 3, a compressing mechanism 4 and a collecting cylinder 5.

The specific structure of the rotating mechanism 2 is as shown in fig. 3, 4, 5 and 6, wherein the turntable support 201 is fixedly arranged on the upper end surface of the platform 1 at the lower end part of the turntable support 201; the lower end face of the outer gear ring 202 is fixedly arranged at the upper end part of the turntable support 201, and the lower end face of the gear ring rotating motor frame 204 is arranged on the outer gear ring 202; the front end face of the gear ring rotating motor 205 is fixedly arranged on the gear ring rotating motor frame 204, a rotating gear 206 is arranged on a rotating shaft of the gear ring rotating motor 205, and the rotating gear 206 is meshed with the side face of the outer gear ring 202 to form matching; the middle position of the concave-convex plate 213 is fixedly connected with the middle position of the outer gear ring 202, and the lower end surface of the concave-convex plate 213 is provided with a concave-convex slide rail 214.

The front end parts of the clamping side plates 203 are fixedly arranged on the side end surface of the gear ring rotating motor frame 204, two sides of the fixed clamping plate 207 are fixedly arranged between the two clamping side plates 203, and the front end part of the fixed clamping plate 207 is fixedly arranged on the side end surface of the gear ring rotating motor frame 204; the two sides of the movable clamping plate 208 are provided with clamping plate slide rails 211, the movable clamping plate 208 is slidably mounted in the clamping side plates 203 at the two sides through the clamping plate slide rails 211, and the upper end surface of the movable clamping plate 208 is provided with an arc baffle; the front end of the telescopic rod 210 is fixedly mounted on the rear end of the movable clamping plate 208, the sliding wheel 212 is arranged on the rear end of the telescopic rod 210, and the upper end of the sliding wheel 212 is slidably mounted in the concave-convex slide rail 214. The mechanism has the effects that when the toothed ring rotating motor 205 drives the clamping side plate 203 arranged on the toothed ring rotating motor frame 204 to do circular motion on the toothed ring, as the sliding wheel 212 at the rear end of the telescopic rod 210 is slidably arranged in the concave-convex plate 213, when the sliding wheel 212 moves to a concave position, the telescopic rod 210 drives the movable clamping plate 208 to move backwards, and the clamping mechanism is opened; when the sliding wheel 212 moves to the convex part, the telescopic rod 210 drives the splint sliding rail 211 to move forwards, and the clamping mechanism is tightened.

The specific structure of the discharging mechanism 3 is shown in fig. 7 and 8, wherein the discharging support 301 and the discharging platform 302 are arranged, the lower end of the discharging support 301 is fixedly arranged on the upper end face of the platform 1, and the lower end face of the discharging platform 302 is fixedly arranged on the upper end face of the discharging support 301. Synchronous belt rollers are arranged at two ends between the conveyor belt plates 305, the conveyor belt 306 is sleeved on the two synchronous belt rollers, the front end face of the conveyor belt motor 307 is fixedly arranged at one end part of the conveyor belt plates 305, a rotating shaft of the conveyor belt motor 307 is fixedly connected with the synchronous belt rollers, and the conveyor belt motor 307 drives the conveyor belt 306 to move; the conveyor belt plate 305, the conveyor belt 306 and the conveyor belt motor 307 form a conveying mechanism for conveying the cans to move forwards; the lower end part of the discharging barrel 312 is fixedly arranged at the front end part of the discharging platform 302, vertical slideways are arranged at two sides of the discharging barrel 312, slide bars 315 are arranged at two sides of the upper and lower movable blocks 314, and the slide bars 315 are slidably arranged in the vertical slideways arranged in the discharging barrel 312; the lower end part of the discharging motor bracket 309 is fixedly arranged at the front end part of the discharging platform 302, the discharging driving wheel 308 is rotatably arranged at the upper end part of the discharging motor bracket 309, the mounting position is also provided with a discharging motor 310, the front end surface of the discharging motor 310 is fixedly arranged on the discharging motor bracket 309, and the rotating shaft of the discharging motor 310 is fixedly connected with the discharging driving wheel 308; the upper end part of the up-and-down driving rod 311 is rotatably arranged on a rotating shaft arranged outside the discharging driving wheel 308, and the lower end part of the up-and-down driving rod 311 is rotatably arranged on a rotating rod 313; the suction nozzle 316 is disposed at a lower end surface of the sliding bar 315.

Further, the discharging mechanism 3 further comprises a material cylinder bracket 303 and a material cylinder 304, the lower end part of the material cylinder bracket 303 is fixedly installed at the rear end part of the discharging platform 302, the material cylinder 304 is arranged in the material cylinder bracket 303, and the lower end part of the material cylinder 304 is provided with a rectangular opening. The mechanism has the effects that when the pop can falls onto the conveying mechanism from the material barrel 304, the conveying mechanism clamps and moves the pop can into the discharging barrel 312, the discharging motor 310 drives the discharging driving wheel 308 to rotate, so that the upper and lower driving rods 311 are driven to move up and down, the upper and lower movable blocks 314 do reciprocating motion in the discharging barrel 312, and the suction nozzle 316 at the lower end sucks the pop can to move downwards and is placed in the clamping mechanism.

The specific structure of the compression mechanism 4 is shown in fig. 9, wherein the lower end of the compression bracket 401 is fixedly mounted on the platform 1, the rear end of the compression mounting seat 402 is fixedly mounted on the upper end of the compression bracket 401, and the rear end of the impact sleeve 403 is fixedly mounted on the front end of the compression mounting seat 402; the upper end of the impact rod 405 is slidably mounted inside the impact sleeve 403, the spring 404 is sleeved on the impact rod 405, the upper end of the spring 404 is fixedly mounted on the lower end face of the impact sleeve 403, the lower end of the spring is fixedly mounted on the impact plate 406, the impact plate 406 is fixedly mounted on the front end of the conveyor belt plate 305, the impact plate 406 is made of a stainless steel plate, and the lower end face of the impact plate 406 is provided with a circular groove. A buffer spring 407 is disposed between the two layers of the impact plate 406. The mechanism has the function of enabling the impact rod 405 to move downwards, enabling the impact plate 406 to contact the pop can, compressing the cylindrical pop can into a piece and facilitating transportation and processing.

Further, the lower end part of the collecting cylinder 5 is installed on the upper end surface of the platform 1 for collecting the compressed pop can and then carrying out integral transportation.

Claims

1. The utility model provides a zip-top can compression processing robot, includes platform (1), slewing mechanism (2), discharge mechanism (3), compressing mechanism (4), surge drum (5), its characterized in that: the platform (1) is a rectangular steel plate, and meanwhile, the platform (1) is also an installation platform of the rotating mechanism (2), the discharging mechanism (3), the compressing mechanism (4) and the collecting cylinder (5);

the rotating mechanism (2) comprises: the lower end part of the turntable support (201) is fixedly arranged on the upper end surface of the platform (1);

the discharging mechanism (3) comprises: the discharging device comprises a discharging support (301) and a discharging platform (302), wherein the lower end part of the discharging support (301) is fixedly arranged on the upper end surface of the platform (1), and the lower end surface of the discharging platform (302) is fixedly arranged on the upper end part of the discharging support (31);

the compression mechanism (4) comprises: the lower end part of the compression bracket (401) is fixedly arranged on the platform (1);

the lower end part of the collecting cylinder (5) is arranged on the upper end surface of the platform (1).

2. The can compressing robot as set forth in claim 1, wherein: the rotating mechanism (2) further comprises an outer gear ring (202), a clamping mechanism, a gear ring rotating motor frame (204), a gear ring rotating motor (205), a rotating gear (206) and a concave-convex plate (213), the lower end face of the outer gear ring (202) is fixedly arranged at the upper end part of the turntable support (201), and the lower end face of the gear ring rotating motor frame (204) is arranged on the outer gear ring (02); the front end face of the gear ring rotating motor (205) is fixedly arranged on a gear ring rotating motor frame (204), a rotating gear (206) is arranged on a rotating shaft of the gear ring rotating motor (205), and the rotating gear (206) is meshed with the side face of the outer gear ring (202) to form matching; the middle position of the concave-convex plate (213) is fixedly connected with the middle position of the outer gear ring (202), and a concave-convex slide rail (214) is arranged on the lower end surface of the concave-convex plate (213);

fixture include centre gripping sideboard (203), solid fixed splint (207), remove splint (208), compression spring (209), telescopic link (210), splint slide rail (211), movable pulley (212), its characterized in that: the front end parts of the clamping side plates (203) are fixedly arranged on the side end surface of the gear ring rotating motor frame (204), two sides of the fixed clamping plate 07) are fixedly arranged between the two clamping side plates (203), and the front end part of the fixed clamping plate (207) is fixedly arranged on the side end surface of the gear ring rotating motor frame (204); the clamping side plates (203) at two sides are slidably mounted in the movable clamping plate (208) through the clamping side rails (211), and the upper end surface of the movable clamping plate (208) is provided with an arc baffle; the front end part of the telescopic rod (210) is fixedly arranged at the rear end part of the movable clamping plate 208, the sliding wheel (212) is arranged at the rear end part of the telescopic rod (210), and the upper end part of the sliding wheel (212) is arranged in the concave-convex sliding rail (214) in a sliding manner.

3. The can compressing robot as set forth in claim 1, wherein: the discharging mechanism (3) further comprises a conveying mechanism, a discharging driving wheel (308), a discharging motor support (309), a discharging motor (310), an upper driving rod (311), a lower driving rod (311), a discharging barrel (312), a rotating rod (313), an upper movable block (314), a lower movable block (314), a sliding rod (315) and a suction nozzle (316), wherein the conveying mechanism comprises a conveying belt plate (305), a conveying belt (306) and a conveying belt motor (307), synchronous belt rollers are installed at two ends between the conveying belt plates (305), the conveying belt (306) is sleeved on the two synchronous belt rollers, the front end face of the conveying belt motor (307) is fixedly installed at one end part of the conveying belt plate (305), a rotating shaft of the conveying belt motor (307) is fixedly connected with the synchronous belt rollers, and the conveying belt motor (307) drives the conveying belt (306; the lower end part of the discharging barrel (312) is fixedly arranged at the front end part of the discharging platform (302), vertical slideways are arranged on two sides of the discharging barrel (312), slide rods (315) are arranged on two sides of the upper and lower movable blocks (314), and the slide rods (315) are slidably arranged in the vertical slideways arranged on the discharging barrel (312); the lower end part of the discharging motor support (309) is fixedly arranged at the front end part of the discharging platform (302), the discharging driving wheel (308) is rotatably arranged at the upper end part of the discharging motor support (309), the discharging motor (310) is also arranged at the mounting position of the discharging motor support, the front end surface of the discharging motor (310) is fixedly arranged on the discharging motor support (309), and the rotating shaft of the discharging motor (310) is fixedly connected with the discharging driving wheel (308); the upper end part of the up-and-down driving rod (311) is rotatably arranged on a rotating shaft arranged on the outer side of the discharging driving wheel (308), and the lower end part of the up-and-down driving rod (311) is rotatably arranged on a rotating rod (313); the suction nozzle (316) is arranged on the lower end surface of the sliding rod (315).

4. The can compressing robot as set forth in claim 1, wherein: discharge mechanism (3) still include feed cylinder support (303), feed cylinder (304), the lower tip fixed mounting of feed cylinder support (303) in the rear end position of ejection of compact platform (302), feed cylinder (304) set up in feed cylinder support (303), the lower tip of feed cylinder (304) is provided with the rectangle opening.

5. The can compressing robot as set forth in claim 1, wherein: the compression mechanism (4) further comprises a compression mounting seat (402), an impact sleeve (403), an impact rod (405), an impact plate (406) and a buffer spring (407), wherein the rear end part of the compression mounting seat (402) is fixedly mounted at the upper end part of the compression bracket (401), and the rear end part of the impact sleeve (403) is fixedly mounted at the front end part of the compression mounting seat (402); the upper end of the impact rod (405) is slidably mounted inside the impact sleeve (403), the spring (404) is sleeved on the impact rod (405), the upper end of the spring (404) is fixedly mounted on the lower end face of the impact sleeve (403), the lower end of the spring is fixedly mounted on the impact plate (406), the impact plate (406) is fixedly mounted at the front end of the conveyor belt plate (305), and a buffer spring (407) is arranged between the two layers of impact plates (406).

6. The can compressing robot as set forth in claim 1, wherein: the material of impact plate (406) be stainless steel plate, the lower terminal surface of impact plate (406) is provided with circular recess.