CN216330290U - Pop can flatting mill - Google Patents

Abstract

The utility model relates to the field of recycling, in particular to a pop-top can flatting mill, which comprises a flatting mill frame, a motor, a lower main rolling roll shaft, a lower driven rolling roll shaft, a gap bridge shaft chain wheel and a gap bridge shaft gear. The frame of the flatting mill is fixedly connected with a motor; the frame of the flatting mill is rotatably connected with a lower main rolling roll shaft; the frame of the flatting mill is rotatably connected with a lower driven rolling roll shaft; the lower main rolling roller shaft and the lower driven rolling roller shaft are arranged in parallel relatively, and a gap enough for flattening the pop-top can is reserved in the middle; a transmission device is arranged between the motor and the lower main rolling roller shaft; the frame of the flatting mill is rotationally connected with a chain wheel of an intermediate shaft; the intermediate shaft chain wheel is fixedly connected with the intermediate shaft gear, and the intermediate shaft chain wheel is concentric with the intermediate shaft gear; the lower main rolling roller shaft is meshed with a gap bridge shaft gear; the chain wheel of the intermediate shaft is in chain transmission with the shaft of the lower driven rolling roller. It aims at that: aims to provide a pop can flatting mill which can realize fast flatting of pop cans so as to reduce the volume of the pop cans.

Description

Pop can flatting mill

Technical Field

The utility model relates to the field of recovery, in particular to a ring-pull can flatting mill.

Background

Pop cans are the design used in production for packaging beverages. Compared with the bottles and cans before the pop can is released, the pop can has the advantages of lightness, safety, portability and the like, and the advantages enable the pop can to be widely used in production and life.

As cans are used more and more frequently, more and more cans are discarded. And the material of the pop can is mainly aluminum, and the pop can also contains other recyclable metals, such as iron and manganese, which are industrial materials frequently used in the industry, so that the recycling of the pop can saves a large amount of production resources.

In the recovery process of the pop cans, due to the hollow design of the pop cans, a small number of pop cans occupy excessive storage volume, and resource waste is caused.

The existing pop can recovery method is that the pop cans are collected by manpower firstly, then transported to a recovery point to be stacked, and then transported to a garbage disposal center from the recovery point to be pressed uniformly. When the pop-top cans are transported to a garbage disposal center from a recycling point, the recycling efficiency of the garbage disposal center obtained on a recycling vehicle is low due to the fact that the pop-top cans occupy large volume and small actual weight.

There is room for improvement in the above problems.

Disclosure of Invention

1. Technical problem to be solved

The purpose of the utility model is: aims to provide a pop can flatting mill which can realize fast flatting of pop cans so as to reduce the volume of the pop cans.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A pop can flatting mill further comprises a flatting mill frame 5, a motor 24, a lower main rolling roller shaft 13, a lower driven rolling roller shaft 23, a gap bridge shaft sprocket 2 and a gap bridge shaft gear 3.

The crusher frame 5 is fixedly connected to a motor 24 for powering the apparatus.

The crusher frame 5 is rotatably connected to a lower main roller shaft 13.

The crusher frame 5 is rotatably connected to the lower driven-roller shaft 23.

The lower main rolling roller shaft 13 and the lower driven rolling roller shaft are arranged in parallel relatively, and a gap enough for flattening the pop-top can is reserved in the middle for flattening the pop-top can.

The electric motor 24 is in transmission with the lower main stitching roller shaft 13.

The crusher frame 5 is rotatably connected with an intermediate shaft chain wheel 2.

The intermediate shaft chain wheel 2 is fixedly connected with the intermediate shaft gear 3, and the intermediate shaft chain wheel 2 is concentric with the intermediate shaft gear 3.

The lower main rolling roller shaft 13 is meshed with the carrier shaft gear 3.

A transmission device is arranged between the intermediate shaft chain wheel 2 and the lower driven rolling roller shaft 23.

Furthermore, a feed hopper 15 is fixedly connected above the flattening machine frame 5. The discharge plate 9 is fixedly connected below the flattening machine frame 5, so that the pop-top can is more convenient to deliver and collect.

Furthermore, a square seat bearing 14 is arranged on the flattening machine frame 5. The square bearing seat 14 plays a role in lubrication, so that the service life of a product is prolonged, and rapid abrasion is prevented.

Further, the edge of the lower main rolling roller shaft 13 is fixedly connected with a steel wire brush rod 10. The edge of the lower driven rolling roller shaft 23 is fixedly connected with a steel wire brush stick 10, and the steel wire brush stick 10 can clean the pop-top can adhered to the product.

Further, an upper main rolling roller shaft 6 is rotatably connected to the flatting mill frame 5. The upper driven rolling roll shaft 7 is rotatably connected on the flattening machine frame 5.

The upper main stitching roller shaft 6 and the lower main stitching roller shaft 13 are connected through chain transmission. The lower driven rolling roll shaft 23 is in chain transmission connection with the upper driven rolling roll shaft 7.

The upper main rolling roller shaft 6 and the upper driven rolling roller shaft 7 are arranged in parallel relatively, a gap enough for flattening the pop-top can is reserved in the middle, the gap is slightly larger than the gap between the lower main rolling roller shaft 13 and the lower driven rolling roller shaft 23 and is positioned right above the gap, so that the pop-top can enter the lower gap after being extruded through the upper first gap and then is repeatedly extruded.

Further, a slide block seat bearing 21 is arranged on the flattening machine frame 5. The upper driven rolling roller shaft 7 and the lower driven rolling roller shaft 23 are rotatably connected to the slider holder bearing 21.

An adjusting screw 18 is arranged on the inner side edge of the frame 5 of the flattening machine. A rolling shaft pressure spring 17 is connected to the adjusting screw 18 through threads. The rolling shaft compression spring 17 is fixedly connected with the slider seat bearing 21, so that a user can adjust the tightness of the product by rotating the adjusting screw 18.

Further, a motor pulley 26 is provided on the motor 24. The flattening machine frame 5 is rotatably connected with a transmission shaft belt pulley 25. The transmission shaft belt pulley is provided with a rectangular seat bearing 19.

The motor pulley 26 and the transmission shaft pulley 25 are in transmission via a belt.

A transmission shaft chain wheel 27 is arranged at the circle center of the transmission shaft belt wheel 25. A lower main rolling double chain wheel 8 is arranged at the circle center of the lower main rolling roller shaft 13. A lower driven double-shaft chain wheel 22 is arranged at the circle center of the lower driven rolling roller shaft 23. An upper rolling shaft chain wheel 16 is arranged at the circle centers of the upper main rolling roller shaft 6 and the upper driven rolling roller shaft 7.

The lower part of the transmission shaft chain wheel 27 is in chain transmission with the larger gear of the lower main rolling double chain wheel 8.

The lower driven double-shaft chain wheel 22 and the smaller gear of the lower main rolling double-chain wheel 8 are in chain transmission. This can transmit the rotation of the motor 24 to the lower main stitching roller shaft 13.

Further, a bearing 1 with a seat and a bearing seat 4 of a gap bridge shaft are arranged on the frame 5 of the flatting mill. A gear gap bridge shaft 11 is arranged between the bearing with the seat 1 and the gap bridge shaft bearing seat 4.

The intermediate shaft chain wheel 2 and the intermediate shaft gear 3 are fixedly connected to the gear intermediate shaft 11, so that the intermediate shaft chain wheel 2 and the intermediate shaft gear 3 can concentrically rotate.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

a pop can flattening machine flattens pop cans by a compression roller shaft driven by a motor (24) through placing the pop cans into the pop can flattening machine, collects the flattened pop cans from a discharge port and then uniformly transports the cans, so that the occupied space of the pop cans is reduced, and the workload of back-and-forth transportation is reduced. The problems that the existing pop-top can occupies a large space in the recovery process and has low recovery efficiency are effectively solved.

The utility model has the advantages of manpower saving, simple structure, low price and the like, and has wide market prospect.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

the reference numbers in the figures illustrate:

1. a pedestal bearing; 2. a bridge shaft sprocket; 3. a carrier shaft gear; 4. a gap bridge shaft bearing seat; 5. a flatting mill frame; 6. an upper main roll-pressing roll shaft; 7. an upper driven roll shaft; 8. a lower main rolling double chain wheel; 9. a discharge plate; 10. a steel wire brush stick; 11. a gear intermediate shaft; 12. a main rolling shaft gear; a lower main roll-pressing roller shaft; 14. a square-seat bearing; 15. a feed hopper; 16. an upper rolling shaft sprocket; 17. rolling a shaft pressure spring; 18. adjusting the screw rod; 19. a rectangular-seat bearing; 20. a drive shaft; 21. a slider block bearing; 22. a lower driven double-shaft sprocket; 23. a lower driven roll shaft; 24. an electric motor; 25. a transmission shaft pulley; 26. a motor pulley; 27. a transmission shaft chain wheel.

Detailed Description

As shown in fig. 1-2, the pop-top can flattening machine comprises a flattening machine frame 5, a motor 24, a lower main rolling roll shaft, a lower driven rolling roll shaft 23, a gap bridge shaft chain wheel 2 and a gap bridge shaft gear 3. The flattening machine frame 5 is fixedly connected with a motor 24; the flattening machine frame 5 is in rotating connection with the lower main rolling roller shaft; the flattening machine frame 5 is rotationally connected with the lower driven rolling roll shaft 23; the main rolling roll shaft and the lower driven rolling roll shaft 23 are arranged in parallel relatively, and a gap enough for flattening the pop can is reserved in the middle for pressing the pop can; the motor 24 and the lower main rolling roller shaft form a transmission device; the flattening machine frame 5 is rotatably connected with a gap bridge shaft chain wheel 2; the intermediate shaft chain wheel 2 is fixedly connected with an intermediate shaft gear 3, and the intermediate shaft chain wheel 2 is concentric with the intermediate shaft gear 3; the lower main rolling roll shaft is meshed with the intermediate shaft gear 3; the transmission device exists between the bridging shaft chain wheel 2 and the lower driven rolling roller shaft 23. A feed hopper 15 is fixedly connected above the flattening machine frame 5; the discharge plate 9 is fixedly connected below the flattening machine frame 5, so that the pop-top can is more convenient to deliver and collect. A square seat bearing 14 is arranged on the flattening machine frame 5; the square bearing seat plays a role in lubrication of rotary connection, the service life of a product is prolonged, and rapid abrasion is prevented. The edge of the lower main rolling roller shaft is fixedly connected with a steel wire brush rod 10; the edge of the lower driven rolling roller shaft 23 is fixedly connected with a steel wire brush stick 10, and the two steel wire brush sticks 10 can clean the pop-top can adhered to the product. An upper main rolling roller shaft 6 is rotatably connected to the flatting mill frame 5; the upper driven rolling roll shaft 7 is rotatably connected on the flatting mill frame 5; the upper main rolling roller shaft 6 and the lower main rolling roller shaft are provided with a transmission device; a transmission device is arranged between the lower driven rolling roller shaft 23 and the upper driven rolling roller shaft 7; the upper main rolling roller shaft 6 and the upper driven rolling roller shaft 7 are arranged in parallel relatively, a gap enough for flattening the pop-top can is reserved in the middle, the gap is slightly larger than the gap between the main rolling roller shaft and the lower driven rolling roller shaft 23 and is positioned right above the gap, so that the pop-top can be better compressed under the repeated extrusion of two gaps. The frame 5 of the flattening machine is provided with a slide block seat bearing 21; the upper driven rolling roller shaft 7 and the lower driven rolling roller shaft 23 are rotatably connected to the slider seat bearing 21; an adjusting screw 18 is arranged on the inner side edge of the flatting mill frame 5; a rolling shaft pressure spring 17 is connected to the adjusting screw 18 through threads; the rolling shaft compression spring 17 is fixedly connected with the slider seat bearing 21, so that a user can adjust the tightness of the product by rotating the adjusting screw 18. The motor is provided with a motor belt pulley 26; a transmission shaft belt pulley 25 is rotatably connected on the flattening machine frame 5; the motor belt pulley 26 is in transmission connection with the transmission shaft belt pulley 25 through a belt; the transmission shaft belt pulley is provided with a rectangular seat bearing 19; a transmission shaft chain wheel 27 is arranged at the circle center of the transmission shaft belt wheel 25; a lower main rolling double chain wheel 8 is arranged at the center of the lower main rolling roller shaft; a lower driven double-shaft chain wheel 22 is arranged at the circle center of the lower driven rolling roller shaft 23; an upper rolling shaft chain wheel is arranged at the circle centers of the upper main rolling roller shaft 6 and the upper driven rolling roller shaft 7; the lower part of the transmission shaft chain wheel 27 is in chain transmission with a larger gear of the lower main rolling double chain wheel 8; the lower driven double-shaft chain wheel 22 and the smaller gear of the lower main rolling double-chain wheel 8 are in chain transmission. This can transmit the rotation of the motor to the lower main stitching roller shaft 13. A bearing 1 with a seat and a bearing seat 4 of a gap bridge shaft are arranged on the frame 5 of the flatting mill; a gear gap bridge shaft 11 is arranged between the bearing with a seat 1 and the gap bridge shaft bearing seat 4; the gear intermediate shaft 11 is fixedly connected with an intermediate shaft chain wheel 2 and an intermediate shaft gear 3, so that the intermediate shaft chain wheel and the intermediate shaft gear can concentrically rotate.

The motor 24 in the product is started and the motor 24 rotates the motor pulley 26. The motor pulley 26 drives the transmission shaft pulley 25 to rotate through belt transmission, and the transmission shaft sprocket 27 fixedly connected with the transmission shaft pulley 25 also starts to rotate. The transmission shaft chain wheel 27 drives the lower main rolling double chain wheel 8 to rotate through chain transmission, and drives the lower driving rolling roller shaft 13 to rotate. When the lower main rolling double chain wheel 8 rotates, the carrier shaft gear 2 meshed with the lower main rolling double chain wheel also starts to rotate, but the rotating directions of the two are opposite. The intermediate shaft gear 2 drives the intermediate shaft chain wheel 4 fixedly connected with the intermediate shaft gear when rotating. The driven rolling roller shaft 23 is driven by the intermediate shaft chain wheel 4 through chain transmission. The lower driving and driven stitching roller shafts 13 and 23 rotate the upper driving and driven stitching roller shafts 6 and 7, respectively, by chain transmission.

After a user puts the pop-top can into the pop-top can from the feed hopper 15, the pop-top can passes through a gap between the upper main rolling roller shaft 6 and the upper driven rolling roller shaft 7 and is flattened to fall into a smaller gap between the lower main rolling roller shaft 13 and the lower driven rolling roller shaft 23, after the pop-top can is further compressed, the pop-top can falls into the discharge plate 9 to be collected, the pop-top can adhered to a product is also cleaned by the steel wire brush rod 18, and the pop-top can falls into the discharge plate 9 to be collected.

Claims (8)

1. A pop can flatting mill is characterized in that: comprises a flatting mill frame (5), a motor (24), a lower main rolling roll shaft (13), a lower driven rolling roll shaft (23), a gap bridge shaft sprocket (2) and a gap bridge shaft gear (3);

the flattening machine frame (5) is fixedly connected with a motor (24);

the frame (5) of the flattening machine is rotationally connected with a lower main rolling roll shaft (13);

the frame (5) of the flattening machine is rotationally connected with the lower driven rolling roll shaft (23);

the lower main rolling roll shaft (13) and the lower driven rolling roll shaft (23) are arranged in parallel relatively, and a gap is reserved in the middle and used for flattening the pop can;

a transmission device is arranged between the motor (24) and the lower main rolling roller shaft (13);

the flattening machine frame (5) is rotationally connected with the gap bridge shaft chain wheel (2);

the intermediate shaft chain wheel (2) is fixedly connected with the intermediate shaft gear (3), and the intermediate shaft chain wheel (2) is concentric with the intermediate shaft gear (3);

the lower main rolling roll shaft (13) is meshed with the carrier shaft gear (3);

the intermediate shaft chain wheel (2) is connected with the lower driven rolling roller shaft (23) through chain transmission.

2. A can flattening mill as defined in claim 1, wherein: a feed hopper (15) is fixedly connected above the flattening machine frame (5); a discharge plate (9) is fixedly connected below the flattening machine frame (5).

3. A can flattening mill as defined in claim 1, wherein: a square seat bearing (14) is arranged on the flatting mill frame (5); the square-seat bearing (14) is used for lubrication.

4. A can flattening mill as defined in claim 2, wherein: a steel wire brush rod (10) is arranged on the flatting mill frame (5); the number of the steel wire brush rods (10) is 2; the edge of the lower main rolling roll shaft (13) is fixedly connected with a steel wire brush rod (10); the edge of the lower driven rolling roll shaft (23) is fixedly connected with a steel wire brush rod (10).

5. A can flattening mill as defined in claim 1, wherein: an upper main rolling roller shaft (6) is rotatably connected to the flatting mill frame (5); the upper driven rolling roll shaft (7) is rotatably connected to the flatting mill frame (5);

the upper main rolling roller shaft (6) is connected with the lower main rolling roller shaft (13) through chain transmission; the lower driven rolling roll shaft (23) is connected with the upper driven rolling roll shaft (7) through chain transmission;

the upper main rolling roller shaft (6) and the upper driven rolling roller shaft (7) are arranged in parallel relatively, a gap enough for flattening the pop can is reserved in the middle, and the gap is used for flattening the pop can.

6. A can flattening machine as defined in claim 5, wherein: a sliding block seat bearing (21) is arranged on the flattening machine frame (5); the upper driven rolling roll shaft (7) and the lower driven rolling roll shaft (23) are rotationally connected to the sliding block seat bearing (21);

an adjusting screw (18) is arranged on the inner side edge of the flatting mill frame (5); a rolling shaft pressure spring (17) is connected to the adjusting screw (18) in a threaded manner; the rolling shaft pressure spring (17) is fixedly connected with a sliding block seat bearing (21).

7. A can flattening mill as defined in claim 1, wherein: a motor belt pulley (26) is arranged on the motor (24); a transmission shaft belt pulley (25) is rotatably connected to the flatting mill frame (5);

the motor belt pulley (26) is in transmission connection with the transmission shaft belt pulley (25) through a belt; the transmission shaft belt pulley is provided with a rectangular seat bearing (19);

a transmission shaft chain wheel (27) is arranged at the circle center of the transmission shaft belt wheel (25); a lower main rolling double chain wheel (8) is arranged at the circle center of the lower main rolling roll shaft (13); a lower driven double-shaft chain wheel (22) is arranged at the circle center of the lower driven rolling roll shaft (23); an upper rolling shaft chain wheel (16) is arranged at the circle centers of the upper main rolling roller shaft (6) and the upper driven rolling roller shaft (7);

the lower part of the transmission shaft chain wheel (27) is in chain transmission with a larger gear of the lower main rolling double chain wheel (8);

the lower driven double-shaft chain wheel (22) and the smaller gear of the lower main rolling double-chain wheel (8) are driven by a chain.

8. A can flattening mill as defined in claim 1, wherein: a bearing (1) with a seat and a bearing seat (4) of a gap bridge shaft are arranged on the flatting mill frame (5); a gear gap bridge shaft (11) is arranged between the bearing (1) with the seat and the bearing seat (4) of the gap bridge shaft;

the gear intermediate shaft (11) is fixedly connected with an intermediate shaft chain wheel (2) and an intermediate shaft gear (3).

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