CN219791390U - Aluminium pot storage device - Google Patents

Abstract

The utility model discloses an aluminum can storage device, which comprises an organism, wherein a lower conveying chain, an upper conveying chain, a positioning chain wheel, a lower positioning chain wheel and a mobile trolley are arranged on the organism, the lower conveying chain, the positioning chain wheel and the mobile trolley are connected end to end, an upper trolley chain wheel and a lower trolley chain wheel are arranged on the mobile trolley, the aluminum can is hung on the lower conveying chain at the upper can side and sequentially bypasses the lower positioning chain wheel and the lower trolley chain wheel along with the lower conveying chain from the upper can side to the lower can side according to the setting sequence, the aluminum can is unloaded at the lower can side and sequentially bypasses the upper positioning chain wheel and the upper trolley chain wheel and then returns to the upper can side, a motor is arranged on the organism and drives a first driving chain wheel to drive the upper can trolley to descend and drive a regulating trolley to ascend, and an upper can electric control driving assembly for stopping driving when the upper can trolley descends to the upper can side lower position sensor is used for temporarily storing the aluminum can, and the whole processing production line is not required to stop when processing equipment fails.

Description

Aluminium pot storage device

[ technical field ]

The utility model relates to an aluminum can storage device.

[ background Art ]

The existing aluminum can production line relates to a plurality of processing equipment, when one of the processing equipment fails and stops, the aluminum can cannot be input into the processing equipment for processing and is output to the next processing equipment, the problem that the aluminum can output by the previous processing equipment is piled up easily, and the aluminum can output by the next processing equipment is not supplied for processing is solved, so that when the failure stops, the whole production line is required to stop working, the aluminum can is continuously processed after the processing equipment with the failure is maintained, and the production efficiency is influenced.

[ summary of the utility model ]

The utility model overcomes the defects of the prior art and provides the aluminum can storage device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

an aluminum can storage device, its characterized in that: including organism and end to end's lower conveying chain and last conveying chain, be equipped with four at least positioning sprocket groups on the organism between last jar side and the lower jar side, positioning sprocket group is including setting up in the last positioning sprocket of organism upside and setting up in the lower positioning sprocket of organism downside, the organism middle part is equipped with the travelling car of at least three oscilaltion, be equipped with at least a set of dolly sprocket group on the travelling car, the dolly sprocket group is including setting up in the last dolly sprocket of travelling car upside and setting up in the lower dolly sprocket of travelling car downside, the aluminium pot is hung on last jar side and is followed lower conveying chain and gets into the lower jar side from last jar side to lower jar side direction according to setting up the order one by one, the aluminium pot is lifted down in order to get around lower positioning sprocket, go up the sprocket after the lower jar side and is walked around last positioning sprocket in proper order, the travelling car of going up the dolly sprocket back to the jar side, the travelling car that is close to the travelling car of going up jar side is the travelling car of travelling car side is the lower jar dolly, the travelling car of travelling car side is the lower jar sprocket wheel, the travelling car of travelling car side is the lower jar side, the travelling car of travelling car side is the lower jar sprocket side, the travelling car side is the motor car and the position sensor is equipped with the driving pot and the position sensor is equipped with the driving device in order of the position sensor car, the position sensor car is connected to the position sensor car on the engine car, and the position sensor car is lifted down the position sensor car.

An aluminum can storage device as described above, wherein: the lower positioning chain wheel arranged between the lower tank trolley and the adjusting trolley is a second driving chain wheel, the lower tank side of the machine body is connected with second aluminum tank processing equipment, the second aluminum tank processing equipment works to drive the lower tank trolley to descend, the lower tank side of the machine body is provided with a lower tank side upper position sensor and a lower tank side lower position sensor for detecting the position of the lower tank trolley, and the upper tank electric control driving assembly is connected with a lower tank electric control driving assembly for driving the second driving chain wheel to drive the adjusting trolley to ascend when the lower tank trolley descends to the lower tank side lower position sensor and stopping driving when the lower tank trolley ascends to the lower tank side upper position sensor.

An aluminum can storage device as described above, wherein: the lower conveying chain and the upper conveying chain are respectively provided with a chain needle for hanging aluminum cans, an upper can assembly connected with the first aluminum can processing equipment is arranged on the upper can side of the machine body, the upper can assembly comprises an upper can indexing drum which rotates along with the operation of the first aluminum can processing equipment and outputs the aluminum cans to be arranged at intervals, and an upper can blowing device which blows the aluminum cans to be hung on the chain needle when the upper can indexing drum drives the aluminum cans to rotate to the relative position with the chain needle is arranged on the upper can indexing drum.

An aluminum can storage device as described above, wherein: the lower conveying chain and the upper conveying chain are respectively provided with a chain needle for hanging the aluminum cans, the lower can side of the machine body is provided with a lower can assembly connected with second aluminum can processing equipment, the lower can assembly comprises a lower can indexing drum wheel rotating along with the operation of the second aluminum can processing equipment, and a lower can blowing device for blowing the aluminum cans hanging on the upper conveying chain to be separated from the chain needle when the aluminum cans moving to the relative position with the lower can indexing drum wheel storage groove.

An aluminum can storage device as described above, wherein: the outside of the lower tank indexing drum storage groove is provided with a baffle plate for blocking the aluminum tank from moving, and the outside of the lower tank indexing drum is provided with a guide plate for guiding the aluminum tank into the second production equipment.

An aluminum can storage device as described above, wherein: the upper positioning chain wheel is provided with a top position sensor for detecting the position of the movable trolley; the lower positioning chain wheel is provided with a bottom position sensor for detecting the moving trolley.

An aluminum can storage device as described above, wherein: the upper tank electric control driving assembly comprises an upper tank reduction gearbox connected with the motor, and an upper tank electromagnetic clutch for driving the first driving sprocket to work is connected to the output end of the upper tank reduction gearbox.

An aluminum can storage device as described above, wherein: the lower tank electric control driving assembly comprises a lower tank reduction gearbox, a universal connecting shaft is connected between the lower tank reduction gearbox and the upper tank reduction gearbox, and the output end of the lower tank reduction gearbox is connected with a lower tank electromagnetic clutch for driving the second driving sprocket to work.

The beneficial effects of the utility model are as follows:

the aluminum can temporary storage device is arranged between two aluminum can processing devices, an upper can component is linked with front-side aluminum can processing devices to hang aluminum cans, a lower can component is linked with rear-side aluminum can processing devices to discharge aluminum cans, and the aluminum cans are lifted up and down through a moving trolley, so that the quantity of the stored aluminum cans in the aluminum can storage device is adjusted, the effect of temporarily storing the aluminum cans is achieved, the whole processing production line is not required to be stopped when the aluminum can processing devices break down, when the rear-side aluminum can processing devices break down, the front-side aluminum can processing devices can continue to work to temporarily store the processed aluminum cans in the aluminum can storage device, and when the front-side aluminum can processing devices break down, the rear-side aluminum can processing devices can continue to work to process the aluminum cans temporarily stored in the aluminum can storage device; meanwhile, the aluminum can storage device further balances feeding at the upper can side and discharging at the lower can side, so that balance of working speeds of aluminum can processing equipment at two sides is realized, and continuous production is better realized.

[ description of the drawings ]

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

FIG. 3 is a diagram of a second embodiment of the present utility model.

Detailed description of the preferred embodiments

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly. Furthermore, the description of "preferred," "less preferred," and the like, herein is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "preferred", "less preferred" may include at least one such feature, either explicitly or implicitly.

As shown in fig. 1, an aluminum can storage device comprises a machine body 1, a lower conveying chain 21 and an upper conveying chain 22 which are connected end to end, wherein at least four positioning chain wheel sets are arranged between an upper can side and a lower can side on the machine body 1, each positioning chain wheel set comprises an upper positioning chain wheel 31 arranged on the upper side of the machine body 1 and a lower positioning chain wheel 32 arranged on the lower side of the machine body 1, at least three movable trolleys 4 capable of ascending and descending are arranged in the middle of the machine body 1, at least one group of trolley chain wheel sets are arranged on the movable trolleys 4, each trolley chain wheel set comprises an upper trolley chain wheel 51 arranged on the upper side of the movable trolleys 4 and a lower trolley chain wheel 52 arranged on the lower side of the movable trolleys 4, the aluminum cans are hung on the lower conveying chain 21 on the upper can side and sequentially bypass the lower positioning chain wheel 32 and the lower trolley chain wheel 52 along with the lower conveying chain 21 from the upper can side to the lower can side, the aluminum cans enter the lower can side after being dismounted on the lower can side, the upper conveying chain wheel 22 sequentially bypasses the upper positioning chain wheel 31 and the upper trolley chain wheel 51, and then returns to the upper can side, and the circulation movement of the conveying chain is realized.

As shown in fig. 1, the moving trolley 4 near the upper tank side is an upper tank trolley 41, the moving trolley 4 near the lower tank side is a lower tank trolley 42, the moving trolley 4 between the upper tank trolley 41 and the lower tank trolley 42 is an adjusting trolley 43, a lower positioning sprocket 32 arranged between the upper tank trolley and the adjusting trolley 43 is a first driving sprocket 33, the upper tank side of the machine body 1 is connected with first aluminum tank processing equipment, the first aluminum tank processing equipment works to drive the upper tank trolley 41 to rise, the upper tank side of the machine body 1 is provided with an upper tank side upper position sensor 61 and an upper tank side lower position sensor 62 for detecting the position of the upper tank trolley, the machine body 1 is provided with a motor 7, and the motor 7 is connected with an upper tank electric control driving assembly for driving the first driving sprocket 33 to drive the upper tank trolley 41 to descend and the adjusting trolley 43 to ascend when the upper tank trolley 41 descends to the upper tank side lower position sensor 62.

As shown in fig. 1, in the initial state, the upper tank carriage 41 is located at the position of the upper tank side lower position sensor 62, when the aluminum tank is stored, the first aluminum tank processing equipment on the front side works to input the aluminum tank processed by the processing equipment to the upper tank side of the machine body 1, the aluminum tank is hung on the lower conveying chain 21 on the upper tank side, at this time, the upper positioning chain wheel 31 and the lower positioning chain wheel 32 on the rear side of the upper tank carriage 41 are not rotated, the first aluminum tank processing equipment on the front side and the upper tank carriage 41 are linked to drive the upper tank carriage 41 to ascend, so that the lower conveying chain 21 on the lower side of the upper tank carriage 41 for hanging the aluminum tank is lengthened, the upper conveying chain 22 on the upper side of the upper tank carriage 41 for no-load is shortened, namely, the upper conveying chain 22 on the upper side for no-load of the upper tank carriage 41 is converted into the lower conveying chain 21 after being hung on the aluminum tank through the upper tank side; when the upper tank trolley 41 rises to the upper tank side upper position sensor 61, the upper tank electric control driving assembly drives the first driving chain wheel 33 to rotate, at the moment, the positioning chain wheel group at the rear side of the first driving chain wheel 33 does not rotate, the first driving chain wheel 33 rotates to enable the upper tank trolley 41 to descend, meanwhile, the adjusting trolley 43 rises to enable the lower conveying chain 21 of the aluminum tank hung on the lower side of the adjusting trolley 43 to grow, the empty upper conveying chain 22 on the upper side of the adjusting trolley 43 is shortened, meanwhile, the upper tank trolley 41 falls to enable the empty upper conveying chain 22 on the upper side of the upper tank trolley 41 to grow, the lower conveying chain 21 of the aluminum tank hung on the lower side of the upper tank trolley 41 is shortened, namely, the lower conveying chain 21 of the aluminum tank hung on the lower side of the upper tank trolley 41 is transferred to the lower conveying chain 21 of the adjusting trolley 43, and the empty lower conveying chain 21 on the adjusting trolley 43 is transferred to the empty lower conveying chain 21 on the upper side of the adjusting trolley 43; until the upper tank carriage 41 descends to return to the position of the upper tank side lower position sensor 62, the upper tank electric control driving assembly stops driving the first driving sprocket 33, and the upper tank loading step is repeated, so that the upper tank temporary storage function of the aluminum tank of the storage device is realized.

As shown in fig. 1, the lower positioning sprocket 32 arranged between the lower tank trolley 42 and the adjusting trolley 43 is a second driving sprocket 34, the lower tank side of the machine body 1 is connected with second aluminum tank processing equipment, the second aluminum tank processing equipment works to drive the lower tank trolley to descend, the lower tank side of the machine body 1 is provided with a lower tank side upper position sensor 63 and a lower tank side lower position sensor 64 for detecting the position of the lower tank trolley 42, and the upper tank electric control driving assembly is connected with a lower tank electric control driving assembly for driving the second driving sprocket 34 to drive the adjusting trolley 43 to ascend and driving the lower tank trolley 42 when the lower tank trolley 42 ascends to the lower tank side upper position sensor 63.

As shown in fig. 1, in the initial state, the lower tank cart 42 is located at the position of the upper position sensor 63 on the lower tank side, when the aluminum tank is dismounted, the second aluminum tank processing equipment on the rear side receives the temporary aluminum tank input on the lower tank side of the machine body 1, the lower conveying chain 21 for hanging the aluminum tank is used for unloading the lower aluminum tank through the lower tank side, at this time, the upper positioning chain wheel 31 and the lower positioning chain wheel 32 on the front side of the lower tank cart 42 are not rotated, the second aluminum tank processing equipment on the rear side and the lower tank cart 42 are linked to drive the lower tank cart 42 to descend, so that the empty upper conveying chain 22 on the upper side of the lower tank cart 42 is lengthened, the lower conveying chain 21 for hanging the aluminum tank on the lower side of the lower tank cart 42 is shortened, namely, the lower conveying chain 21 for hanging the aluminum tank on the lower side of the lower tank cart 42 is converted into the upper conveying chain 22 after unloading the lower aluminum tank through the lower tank side; when the lower tank truck 42 descends to the position of the lower tank side lower position sensor 64, the lower tank electric control driving assembly drives the second driving chain wheel 34 to rotate, at the moment, the positioning chain wheel group at the front side of the second driving chain wheel 34 does not rotate, the second driving chain wheel 34 rotates to enable the lower tank truck 42 to ascend, meanwhile, the regulating truck 43 descends to enable the lower conveying chain 21 of the aluminum tank hung on the lower side of the regulating truck to be shortened, the empty load upper conveying chain 22 on the upper side of the regulating truck 43 grows, meanwhile, the lower conveying chain 21 of the aluminum tank hung on the upper side of the lower tank truck 42 is shortened by the ascending of the lower tank truck 42, namely, the lower conveying chain 21 of the aluminum tank hung on the lower side of the regulating truck 43 is transferred to the lower conveying chain 21 of the lower side of the lower tank truck 42, and the empty load upper conveying chain 22 on the upper side of the lower tank truck 42 is transferred to the empty load upper conveying chain 22 on the upper side of the regulating truck 43; until the lower tank cart 42 rises back to the position of the lower tank side upper position sensor 63, the lower tank electric control driving assembly stops driving the second driving sprocket 34, and the above-described lower tank step is repeated, realizing the aluminum tank lower tank function of the storage device.

As shown in fig. 2, in the present case, in actual use, a plurality of adjusting carriages 43 are provided in the machine body 1, and at least a plurality of groups of carriage chain wheel sets are provided on the travelling carriage 4; in fig. 2, four adjusting trolleys 43 are provided, and two trolley chain wheel sets are provided on the travelling trolley 4. In actual operation, as shown in fig. 2, the front oil polishing machine and the upper tank trolley 41 are linked to drive the upper tank trolley 41 to ascend, the rear neck collecting machine and the lower tank trolley 42 are linked to descend, when the upper tank trolley 41 ascends to the upper tank side upper position sensor 61, the aluminum tank hung on the upper tank trolley 41 is transferred to the adjusting trolley 43 through the first driving sprocket 33, when the lower tank trolley 42 descends to the lower tank side lower position sensor 64, the adjusting trolley 43 is hung on the lower tank trolley 42 through the second driving sprocket 34, the temporary storage function of the aluminum tank is realized, meanwhile, the upper tank side feeding and the lower tank side discharging are independently controlled, the balance of the upper tank side feeding and the lower tank side discharging is realized, and the continuous production is better realized from the processing working speed of the balance aluminum tank.

As shown in fig. 2, the upper positioning sprocket 31 is provided with a top position sensor 65 for detecting the position of the moving cart 4, when the aluminum can processing equipment on the rear side stops working and temporarily stores the aluminum can and does not output, the aluminum can processing equipment on the front side continuously feeds the aluminum can into the aluminum can storage device for temporarily storing the aluminum can, at the moment, the hanging aluminum can on the upper can cart 41 is transferred to the adjusting cart 43 through the first driving sprocket 33 when the upper can cart 41 is lifted to the upper can side position sensor 61, the aluminum can is transferred to the adjusting cart 43 through multiple lifting movements of the upper can cart 41, and after the first adjusting cart 43 close to the upper can cart 41 is lifted to the top, the adjacent second adjusting cart 43 is lifted and transferred to the aluminum can, so that the aluminum can storage device is in a full-load state until all the adjusting carts 43 are lifted to the top of the machine body 1 and the top position sensor 65 is triggered, at the moment, the front side aluminum can be controlled to stop inputting the processed aluminum can; as shown in fig. 2, the lower positioning sprocket 32 is provided with a bottom position sensor 66 for detecting the position of the moving cart 4, when the front aluminum can processing equipment stops working and cannot input processed aluminum cans for temporary storage, similarly, the rear aluminum can processing equipment continuously receives the aluminum cans output by the aluminum can storage device, at this time, when the lower can cart 42 descends to the lower can side lower position sensor 64, the aluminum cans are hung on the adjusting cart 43 and transferred to the lower can cart 42 through the second driving sprocket 34, the aluminum cans on the adjusting cart 43 are transferred to the cart 42 through multiple lifting movements of the lower can cart 42, after the first adjusting cart 43 close to the lower can cart 42 descends to the bottom, the adjacent second adjusting cart 43 descends to transfer the aluminum cans, so that until all the adjusting carts 43 descend to the bottom of the machine body 1 and trigger the bottom position sensor 66, the aluminum can be controlled to stop receiving the aluminum cans by the rear aluminum can processing equipment.

As shown in fig. 2-3, the lower conveying chain 21 and the upper conveying chain 22 are respectively provided with a chain needle 23 for hanging aluminum cans, the upper can side of the machine body 1 is provided with an upper can assembly 8 connected with first aluminum can processing equipment, the upper can assembly 8 comprises an upper can indexing drum 81 which rotates along with the operation of the first aluminum can processing equipment and outputs the aluminum cans to be arranged at intervals, and the upper can indexing drum 81 is provided with an upper can blowing device 82 for blowing the aluminum cans hanging on the chain needle 23 when the upper can indexing drum 81 drives the aluminum cans to rotate to the position opposite to the chain needle 23. When in actual operation, the lower conveying chain 21 drives the chain needle 23 to move onto the upper tank assembly 8, the aluminum tank processing equipment at the front side outputs an aluminum tank, the aluminum tank moves into the accommodating groove of the upper tank indexing drum 81 and rotates along with the upper tank indexing drum 81, and when the aluminum tank rotating position is opposite to the empty chain needle 23, the upper tank blowing device 82 blows the aluminum tank, and the aluminum tank bottle mouth is hung on the oppositely arranged chain needle 23, so that the aluminum tank hanging function at the upper tank side is realized.

As shown in fig. 2-3, the lower conveying chain 21 and the upper conveying chain 22 are respectively provided with a chain needle 23 for hanging aluminum cans, the lower can side of the machine body 1 is provided with a lower can assembly 9 connected with second aluminum can processing equipment, the lower can assembly 9 comprises a lower can indexing drum 91 which rotates along with the operation of the second aluminum can processing equipment, and a lower can blowing device for blowing the aluminum cans hanging on the upper conveying chain 22 to be separated from the chain needle 23 when the aluminum cans move to a position opposite to a storage groove of the lower can indexing drum 91. When the lower conveying chain 21 for hanging the aluminum cans moves to the lower can assembly 9 in actual operation, when the hanging aluminum cans rotate to be opposite to the storage groove of the lower can indexing drum 91, the lower can blowing device blows air to the bottle mouth of the aluminum cans, so that the aluminum cans drop onto the storage groove of the lower can indexing drum 91 from the chain needle 23, and then are transferred to aluminum can processing equipment at the rear side, so that the lower can side can unloading function is realized; as shown in fig. 2-3, a baffle 92 for blocking the movement of the aluminum cans is arranged outside the accommodating groove of the lower can indexing drum 91 to prevent the aluminum cans from being separated from the accommodating groove; the outside of the lower can indexing drum 91 is provided with a guide plate 93 for guiding the aluminum cans into the second production facility, so that the aluminum cans slide from the lower can indexing drum 91 receiving grooves to the rear side of the aluminum can processing facility input conveyor.

As shown in fig. 3, the upper tank electric control driving assembly comprises an upper tank reduction gearbox 101 connected with a motor 7, an upper tank electromagnetic clutch 102 for driving a first driving sprocket 33 to work is connected to the output end of the upper tank reduction gearbox 101, when the upper tank trolley 41 ascends to an upper tank side upper position sensor 61, the upper tank electric control driving assembly works, at the moment, the motor 7 drives the upper tank reduction gearbox 101 to rotate, and the upper tank electromagnetic clutch 102 works to drive the first driving sprocket 33 to rotate, so that the upper tank trolley 41 descends until the upper tank trolley 41 stops working when descending to an upper tank side lower position sensor 62, and waits for the next upper tank trolley 41 to ascend to the upper tank side upper position sensor 61.

As shown in fig. 3, the lower tank electric control driving assembly comprises a lower tank reduction gearbox 111, a universal connection shaft 112 is connected between the lower tank reduction gearbox 111 and the upper tank reduction gearbox 101, the output end of the lower tank reduction gearbox 111 is connected with a lower tank electromagnetic clutch 113 for driving the second driving sprocket 34 to work, when the lower tank trolley 42 descends to the lower tank side lower position sensor 64, the lower tank electric control driving assembly works, at the moment, the motor 7 drives the upper tank reduction gearbox 101 to rotate, the upper tank reduction gearbox 101 drives the lower tank reduction gearbox 111 to rotate through the universal connection shaft 112, and the lower tank electromagnetic clutch 113 works to drive the second driving sprocket 34 to rotate, so that the lower tank trolley 42 ascends until the lower tank trolley 42 ascends to the upper tank side upper position sensor 63, and waits for the next lower tank trolley 42 to descend to the lower tank side lower position sensor 64.

As shown in fig. 3, in this case, when the upper tank trolley 41 rises to the upper tank side upper position sensor 61, and simultaneously the lower tank trolley 42 descends to the lower tank side lower position sensor 64, the upper tank electric control driving assembly and the lower tank electric control driving assembly operate simultaneously, at this time, the motor 7 drives the upper tank reduction gearbox 101 to rotate, the upper tank reduction gearbox 101 drives the lower tank reduction gearbox 111 to rotate, and the upper tank electromagnetic clutch 102 and the lower tank electromagnetic clutch 113 operate simultaneously to respectively drive the first driving sprocket 33 and the second driving sprocket 34 to rotate, so that the upper tank trolley 41 descends and the lower tank trolley 42 ascend respectively, and the hanging aluminum tanks are transferred respectively, so that independent control is achieved and mutual influence is avoided.

The foregoing description of the preferred embodiments of the present utility model should not be construed as limiting the scope of the utility model, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the following description and drawings or any application directly or indirectly to other relevant art(s).

Claims (7)

1. An aluminum can storage device, its characterized in that: comprises a machine body (1) and a lower conveying chain (21) and an upper conveying chain (22) which are connected end to end, wherein at least four positioning chain wheel sets are arranged between the upper tank side and the lower tank side of the machine body (1), each positioning chain wheel set comprises an upper positioning chain wheel (31) arranged on the upper side of the machine body (1) and a lower positioning chain wheel (32) arranged on the lower side of the machine body (1), at least three movable trolley (4) capable of ascending and descending are arranged in the middle of the machine body (1), at least one group of trolley chain wheel sets are arranged on the movable trolley (4), each trolley chain wheel set comprises an upper trolley chain wheel (51) arranged on the upper side of the movable trolley (4) and a lower trolley chain wheel (52) arranged on the lower side of the movable trolley (4), an aluminum tank is hung on the lower conveying chain (21) on the upper tank side and then bypasses the lower positioning chain wheel (32) along with the lower conveying chain (21) from the upper tank side to the lower tank side direction, the lower trolley chain wheel (52) enters the lower tank side, the aluminum tank is dismounted on the lower tank side and then moves closer to the upper trolley (42) to the lower tank (4) and returns to the upper trolley (41) and is close to the lower trolley (42) on the upper tank side of the movable trolley (4), the lower positioning chain wheel (32) arranged between the upper tank trolley and the adjusting trolley (43) is a first driving chain wheel (33), the upper tank side of the machine body (1) is connected with first aluminum tank processing equipment, the first aluminum tank processing equipment works to drive the upper tank trolley (41) to lift, an upper tank side upper position sensor (61) and an upper tank side lower position sensor (62) for detecting the position of the upper tank trolley are arranged on the upper tank side of the machine body (1), a motor (7) is arranged on the machine body (1), the motor (7) is connected with an upper tank electric control driving assembly for driving the first driving chain wheel (33) to drive the upper tank trolley (41) to descend and drive the adjusting trolley (43) to ascend when the upper tank trolley (41) descends to the upper tank side lower position sensor (62).

2. An aluminum can storage device as in claim 1 wherein: the lower positioning chain wheel (32) arranged between the lower tank trolley (42) and the adjusting trolley (43) is a second driving chain wheel (34), the lower tank side of the machine body (1) is connected with second aluminum tank processing equipment, the lower tank processing equipment works to drive the lower tank trolley to descend, the lower tank side of the machine body (1) is provided with a lower tank side upper position sensor (63) and a lower tank side lower position sensor (64) for detecting the position of the lower tank trolley (42), and the upper tank electric control driving assembly is connected with a lower tank electric control driving assembly for driving the second driving chain wheel (34) to drive the adjusting trolley (43) to ascend and drive the lower tank trolley (42) when the lower tank trolley (42) ascends to the lower tank side upper position sensor (63).

3. An aluminum can storage device as in claim 1 wherein: the lower conveying chain (21) and the upper conveying chain (22) are respectively provided with a chain needle (23) for hanging aluminum cans, an upper can side of the machine body (1) is provided with an upper can assembly (8) connected with first aluminum can processing equipment, the upper can assembly (8) comprises an upper can indexing drum (81) which rotates along with the operation of the first aluminum can processing equipment and outputs the aluminum cans to be distributed at intervals, and the upper can indexing drum (81) is provided with an upper can blowing device (82) for blowing the aluminum cans hanging on the chain needle (23) when the upper can indexing drum (81) drives the aluminum cans to rotate to a position opposite to the chain needle (23).

4. An aluminum can storage device as in claim 1 wherein: the lower conveying chain (21) and the upper conveying chain (22) are respectively provided with a chain needle (23) for hanging aluminum cans, a lower can assembly (9) connected with second aluminum can processing equipment is arranged on the lower can side of the machine body (1), the lower can assembly (9) comprises a lower can indexing drum (91) which rotates along with the operation of the second aluminum can processing equipment, and a lower can blowing device for blowing the aluminum cans hanging on the upper conveying chain (22) to be separated from the chain needle (23) when the aluminum cans hanging on the upper conveying chain (22) move to the relative position with a storage groove of the lower can indexing drum (91).

5. An aluminum can storage device as in claim 4 wherein: the outside of the storage groove of the lower tank dividing drum (91) is provided with a baffle plate (92) for blocking the aluminum tank to move, and the outside of the lower tank dividing drum (91) is provided with a guide plate (93) for guiding the aluminum tank into the second production equipment.

6. An aluminum can storage device as in claim 2 wherein: the upper tank electric control driving assembly comprises an upper tank reduction gearbox (101) connected with the motor (7), and an upper tank electromagnetic clutch (102) for driving the first driving sprocket (33) to work is connected to the output end of the upper tank reduction gearbox (101).

7. An aluminum can storage device as in claim 6 wherein: the lower tank electric control driving assembly comprises a lower tank reduction gearbox (111), a universal connecting shaft (112) is connected between the lower tank reduction gearbox (111) and the upper tank reduction gearbox (101), and the output end of the lower tank reduction gearbox (111) is connected with a lower tank electromagnetic clutch (113) for driving the second driving sprocket (34) to work.