CN117142185B

CN117142185B - Bubble cleaning machine is used in can production

Info

Publication number: CN117142185B
Application number: CN202311227935.9A
Authority: CN
Inventors: 郑君伟; 张淑娟; 齐凤莲; 闫小红
Original assignee: Zunhua Guanghui Food Co ltd
Current assignee: Zunhua Guanghui Food Co ltd
Priority date: 2023-09-21
Filing date: 2023-09-21
Publication date: 2024-05-03
Anticipated expiration: 2043-09-21
Also published as: CN117142185A

Abstract

The application relates to a bubble cleaning machine for can production, which comprises a groove body and a conveying belt arranged in the groove body, wherein a plurality of shifting plates are arranged on the belt body of the conveying belt at intervals, a hopper communicated with the groove body is fixedly connected to the side wall of the groove body close to a conveying starting point of the conveying belt, the hopper is gradually inclined downwards along the conveying direction of the conveying belt, a transverse plate positioned below the hopper is fixedly connected to the side wall of the groove body close to the hopper, and the distance between the transverse plate and the inner bottom wall of the hopper is gradually reduced along the direction close to the groove body; the transverse plate is connected with a mounting plate in a sliding manner, the mounting plate slides along the length direction of the conveyor belt, a plurality of push rods are fixedly connected to the mounting plate, and the push rods penetrate through the lower surface of the hopper and slide along the length direction of the conveyor belt; the groove body is also internally provided with a driving component for driving the mounting plate to move, and when the mounting plate is far away from the groove body, the upper end face of the push rod is not higher than the inner bottom wall of the hopper. The application has the effect of improving the cleaning raw material efficiency of the bubble cleaning machine.

Description

Bubble cleaning machine is used in can production

Technical Field

The application relates to the field of equipment for food production, in particular to a bubble cleaning machine for can production.

Background

When producing the can, need wash the raw materials, common belt cleaning device includes the bubble cleaning machine, and the bubble cleaning machine includes the cell body and installs the conveyer belt in the cell body, and the conveying terminal point department of conveyer belt is the tilt up gradually, and the conveying terminal point of conveyer belt is located outside the cell body, still the interval is provided with the plectrum that drives the raw materials and remove on the cell body of conveyer belt, and the cell body is located the hopper of fixedly connected with slope on the lateral wall of conveyer belt conveying origin one side, hopper and cell body intercommunication.

When wasing the raw materials, operating personnel pour the raw materials to the hopper on, owing to there is the raw materials of irregular shape, and the raw materials can not follow the fine slip of the bottom surface of hopper slope to the cell body in, leads to the raw materials to pile up in the hopper, influences follow-up raw materials to get into the cell body and washs, needs operating personnel to stir the raw materials manually this moment, breaks up piled up and pushes into the cell body.

Because operating personnel both need fall the material, still need observe the removal condition of raw materials in the hopper and break up the raw materials of piling up, lead to operating personnel to empty the frequency of raw materials and reduce to lead to the inefficiency of bubble cleaning machine cleaning raw materials.

Disclosure of Invention

In order to improve the efficiency of cleaning raw materials of the bubble cleaning machine, the application provides the bubble cleaning machine for can production.

The application provides a bubble cleaning machine for can production, which adopts the following technical scheme:

The utility model provides a bubble cleaning machine for can production, includes the cell body and installs the conveyer belt in the cell body, the interval is provided with a plurality of poking plates on the cell body of conveyer belt, fixedly connected with and the hopper of cell body intercommunication on the lateral wall that the cell body is close to the conveyer belt delivery start point, the hopper is down inclined gradually along the direction of delivery of conveyer belt, fixedly connected with is located the diaphragm of hopper below on the lateral wall that the cell body is close to the hopper, the diaphragm with the distance between the diapire reduces gradually along the direction that is close to the cell body in the hopper;

The transverse plate is connected with a mounting plate in a sliding manner, the mounting plate slides along the length direction of the conveyor belt, a plurality of push rods are fixedly connected to the mounting plate, and the push rods penetrate through the lower surface of the hopper and slide along the length direction of the conveyor belt;

The groove body is also internally provided with a driving component for driving the mounting plate to move, and when the mounting plate is far away from the groove body, the upper end face of the push rod is not higher than the inner bottom wall of the hopper.

Through adopting above-mentioned technical scheme, when the up end of push rod is less than the interior diapire of hopper, mounting panel and push rod are located one side that the cell body was kept away from to the diaphragm, when drive assembly drove the mounting panel to the direction that is close to the cell body when removing, the mounting panel drove the push rod along the diaphragm to the direction that is close to the cell body remove, because the distance between diapire in diaphragm and the hopper reduces along the direction that is close to the cell body gradually, along with the push rod to the direction that is close to the cell body removes, the upper end of push rod protrusion in the interior diapire of hopper gradually to make the push rod can peg graft in the accumulational raw materials.

Along with the movement of the push rod, the push rod can disperse the piled raw materials, so that the raw materials can smoothly move out of the hopper, the driving assembly continuously works to drive the mounting plate and the push rod to move in the direction away from the groove body, the distance that the upper end surface of the push rod protrudes out of the inner bottom wall of the hopper is gradually reduced, and when the upper end surface of the push rod is lower than the inner bottom wall of the hopper, the raw materials can smoothly move in the hopper; along with the continuous work of drive assembly, drive assembly drives mounting panel and push rod constantly removes, makes the push rod constantly stir the raw materials in the hopper, has reduced operating personnel and has both had the raw materials of need pouring out and need stir the condition of raw materials, makes operating personnel can be continuous to pouring out the raw materials in the hopper, has improved the efficiency that bubble cleaning machine washs the raw materials.

Optionally, fixedly connected with slider on the mounting panel, offer the spout with the slider adaptation on the diaphragm, the length direction of spout sets up along the length direction of conveyer belt, and the slider slides and peg graft in the spout.

Through adopting above-mentioned technical scheme, slider and spout cooperation make mounting panel and diaphragm sliding fit, when the mounting panel removes, slider and spout cooperation are led the mounting panel.

Optionally, the driving assembly comprises a driving plate slidingly connected with the groove body, the driving plate is positioned between the conveying belt and the side wall of the groove body, which is close to the hopper, and a shifting plate part positioned below the driving plate is positioned right below the driving plate;

the groove body is rotatably connected with a roller, and the roller is positioned above the driving plate;

A pull rope is fixedly connected to the driving plate, the pull rope is lapped on the roller, and one end of the pull rope, which is far away from the driving plate, penetrates through the groove body and is fixed with the mounting plate;

A limiting spring is arranged between the mounting plate and the groove body, one end of the limiting spring is fixed with the mounting plate, and the other end of the limiting spring is fixed with the groove body;

when the upper end surface of the push rod is not higher than the inner bottom wall of the hopper, the driving plate is positioned on the upper part of the groove body by the shifting plate.

By adopting the technical scheme, when the push rod is positioned on one side of the transverse plate far away from the groove body, the limiting spring is in an initial state, the limiting spring limits the mounting plate and the push rod, and the driving plate is positioned on the upper part of the groove body by the poking plate; when the shifting plate rotates to be separated from contact with the driving plate, the driving plate drives one end corresponding to the pull rope to move downwards under the action of gravity of the driving plate, the pull rope moves to drive the mounting plate to move towards the direction close to the groove body, and the limiting spring is compressed while the mounting plate moves.

When the shifting plate moves upwards, the shifting plate contacts with the driving plate and pushes the driving plate and one end corresponding to the pull rope to move upwards, and meanwhile, the limiting spring recovers deformation and pushes the mounting plate and one end corresponding to the pull rope to move in a direction away from the groove body.

Optionally, the connecting groove has been seted up on the lateral wall that the cell body is close to the hopper, and the length direction of connecting groove sets up along the direction of height of cell body, fixedly connected with on the drive plate with the connecting block of connecting groove adaptation, the connecting block slip grafting is in the connecting groove.

Through adopting above-mentioned technical scheme, spread groove and connecting block cooperation make drive plate and cell body sliding connection.

Optionally, a reset spring is fixedly connected to the driving plate, the length direction of the reset spring is set along the height direction of the groove body, and one end of the reset spring, which is far away from the driving plate, is fixed with the groove body.

By adopting the technical scheme, when the driving plate is not contacted with the poking plate, the reset spring is in an initial state, and when the poking plate pushes the driving plate to move upwards, the driving plate stretches the reset spring; when the poking plate is separated from the driving plate, the reset spring is restored to deform and pulls the driving plate to move downwards, so that the driving plate can be reset better, and assistance is provided for the movement of the driving plate and the pulling rope to pull the mounting plate.

Optionally, the cell body is close to the inside wall fixedly connected with deflector of hopper, the deflector is along the direction of delivery of conveyer belt downward sloping gradually, one side that the deflector kept away from the hopper is located the conveyer belt directly over.

Through adopting above-mentioned technical scheme, remove the raw materials outside the hopper and fall to the deflector on, then fall to the conveyer belt along the deflector on, reduced the raw materials and fallen to the gap department between conveyer belt and the cell body to make dial the board and can drive the better removal of raw materials.

Optionally, the mounting plate is provided with a vibration component for knocking the lower surface of the hopper to vibrate the hopper.

Through adopting above-mentioned technical scheme, vibrations subassembly work makes the hopper take place vibrations to make the raw materials that dials out can be better remove outside the hopper, reduce the condition emergence that the hopper blockked up.

Optionally, the vibration subassembly includes a plurality of rack of fixed connection on the mounting panel, and the length direction of rack sets up along the length direction of conveyer belt, rotate on the lower surface of hopper be connected with rack toothing's gear, rack and gear all are located one side of push rod, fixedly connected with strikes the pole on one of them terminal surface of gear, strike the pole and keep away from the terminal surface of gear axis and the distance between gear axis and the hopper lower surface, the distance between gear axis and the hopper is greater than.

Through adopting above-mentioned technical scheme, when the mounting panel moved to the direction that is close to the cell body, the mounting panel drove the rack and removes, and the rack removes and makes gear rotation, and gear rotation drives and beats the pole and rotate, and when mounting panel and push rod moved to the extreme position department that is close to the cell body, beat the lower surface contact of pole and hopper to beat the hopper, make the hopper shake, raw materials in the hopper can be better along the hopper slip to in the cell body. When the mounting plate moves in the direction away from the groove body, the mounting plate drives the rack to move, so that the gear drives the knocking rod to rotate towards the initial position, and the knocking rod is reset.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the efficiency of cleaning raw materials of the bubble cleaning machine is improved by arranging the groove body, the conveyor belt, the poking plate, the mounting plate, the push rod and the driving component;

2. The driving plate, the limiting spring, the pull rope and the roller are arranged, so that the mounting plate can be driven to reciprocate along the length direction of the groove body;

3. Through setting up rack, gear and strike the pole, make the hopper take place to shake to make the raw materials that dials out can be better remove outside the hopper, reduce the condition emergence that the hopper blockked up.

Drawings

FIG. 1 is a schematic view showing the overall structure of a bubble washing machine according to an embodiment of the present application.

Fig. 2 is a cross-sectional view showing the structure of a bubble washer according to an embodiment of the present application.

FIG. 3 is a cross-sectional view of an embodiment of the application showing the connection of the driving member to the tank.

Fig. 4 is a cross-sectional view showing the overall structure of a vibration assembly according to an embodiment of the present application.

Reference numerals illustrate: 1. a tank body; 11. a guide plate; 12. a connecting groove; 2. a conveyor belt; 21. a poking plate; 3. a hopper; 31. a bar-shaped hole; 4. a cross plate; 41. a chute; 5. a mounting plate; 51. a slide block; 6. a push rod; 7. a drive assembly; 71. a driving plate; 711. a connecting block; 72. a return spring; 73. a support plate; 74. a roller; 75. a pull rope; 76. a limit spring; 8. a vibration assembly; 81. a rack; 82. a gear; 83. a fixing plate; 84. the rod is knocked.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a bubble cleaning machine for can production. Referring to fig. 1 and 2, the apparatus includes a tank 1 and a conveyor belt 2 installed in the tank 1, and the length direction of the tank 1 coincides with the length direction of the conveyor belt 2; the conveying start point of the conveying belt 2 is positioned at the bottom of the tank body 1, a gap exists between the conveying start point of the conveying belt 2 and the corresponding inner side wall of the tank body 1, and the conveying end point of the conveying belt 2 gradually inclines upwards and extends out of the tank body 1.

A plurality of poking plates 21 are fixedly connected to the belt body of the conveyor belt 2, the length direction of the poking plates 21 is along the width direction of the groove body 1, and the poking plates 21 are arranged at intervals; the groove body 1 is fixedly connected with a guide plate 11 on the inner side wall close to the conveying starting point of the conveying belt 2, the guide plate 11 gradually inclines downwards along the conveying direction of the conveying belt 2, and the lower side of the guide plate 11 is positioned right above the conveying belt 2.

Referring to fig. 2 and 3, a hopper 3 is fixedly connected to the outer side wall of the tank body 1, which is close to the conveying start point of the conveyor belt 2, the hopper 3 is communicated with the tank body 1, and one side of the hopper 3, which is far away from the tank body 1, is higher than one side of the hopper 3, which is close to the tank body 1; the lateral wall of the tank body 1, which is close to the hopper 3, is vertically and fixedly connected with a transverse plate 4, and the transverse plate 4 is positioned below the hopper 3.

Referring to fig. 3 and 4, a sliding groove 41 is formed in the upper surface of the transverse plate 4, the length direction of the sliding groove 41 is along the length direction of the groove body 1, a sliding block 51 is inserted in the sliding groove 41 in a sliding manner, the sliding block 51 is fixedly connected with a mounting plate 5, and the length direction of the mounting plate 5 is along the width direction of the groove body 1.

The upper surface of the mounting plate 5 is fixedly connected with a plurality of push rods 6, the length direction of the push rods 6 is arranged along the height direction of the groove body 1, in the embodiment, the number of the push rods 6 is three, and the three push rods 6 are distributed along the length direction of the mounting plate 5; the lower surface of the hopper 3 is provided with strip-shaped holes 31 which are in one-to-one correspondence with the push rods 6, the strip-shaped holes 31 penetrate through the lower surface of the hopper 3, the length direction of the strip-shaped holes 31 is set along the length direction of the tank body 1, and each push rod 6 is in sliding connection with the corresponding strip-shaped hole 31.

Referring to fig. 2 and 3, the bubble cleaning machine further comprises a driving assembly 7 for driving the mounting plate 5 and the push rod 6 to reciprocate along the length direction of the tank body 1, wherein the driving assembly 7 comprises a driving plate 71, and the driving plate 71 is positioned between the conveyor belt 2 and the side wall of the tank body 1 close to the hopper 3; the connecting block 711 that is T-shaped is fixedly connected with on the lateral wall that the drive plate 71 is close to hopper 3, offer on the inside wall that cell body 1 is close to hopper 3 with connecting groove 12 of connecting block 711 adaptation, the length direction of connecting groove 12 sets up along the direction of height of cell body 1, and connecting block 711 slides and peg graft in connecting groove 12, and connecting block 711 cooperates with connecting groove 12 and makes drive plate 71 and cell body 1 sliding connection.

A reset spring 72 is fixedly connected to the lower surface of the connecting block 711, the lower end of the reset spring 72 is fixedly connected with the groove wall at the lower end of the connecting groove 12, and when the reset spring 72 is not subjected to external force, the reset spring 72 enables the driving plate 71 to be positioned at the bottom of the connecting groove 12; the driving assembly 7 further comprises two support plates 73 which are parallel to each other, the support plates 73 are vertically and fixedly connected to the inner side walls of the groove body 1, which are close to the hopper 3, the support plates 73 are located above the mounting plate 5, rollers 74 are arranged between the two support plates 73, the axial direction of the rollers 74 is along the width direction of the groove body 1, and two ends of the rotating shaft of the rollers 74 are rotationally connected to the corresponding support plates 73.

The upper surface of the connecting block 711 is fixedly connected with a pull rope 75, the pull rope 75 is lapped on the roller 74, one end of the pull rope 75 away from the connecting block 711 penetrates through the side wall of the tank body 1 close to the hopper 3 and extends out of the tank body 1, and one end of the pull rope 75 positioned outside the tank body 1 is fixed with the side wall of the mounting plate 5 close to the tank body 1; a limiting spring 76 is arranged between the mounting plate 5 and the groove body 1, the limiting spring 76 is sleeved on the pull rope 75, one end of the limiting spring 76 is fixed with the mounting plate 5, and the other end of the limiting spring 76 is fixed with the corresponding side wall of the groove body 1.

When the pulling plate 21 is not in contact with the driving plate 71, the reset spring 72 limits the connecting block 711 and the driving plate 71, at this time, the mounting plate 5 and the sliding block 51 are located at one end of the sliding groove 41 close to the groove body 1, the push rod 6 is located at one end of the bar-shaped hole 31 close to the groove body 1, at this time, the upper end face of the push rod 6 is located above the inner bottom wall of the hopper 3, and the limit spring 76 is in a compressed state.

As the conveyor belt 2 operates, the pulling plate 21 located below the belt body of the conveyor belt 2 gradually moves upward with the conveyor belt 2, the pulling plate 21 contacts with the driving plate 71 and pushes the driving plate 71 and the connection block 711 to move upward, and the driving plate 71 moves to stretch the return spring 72.

When the driving plate 71 moves upwards, the limit spring 76 recovers deformation and pushes the mounting plate 5 and one end corresponding to the pull rope 75 to move in a direction away from the groove body 1, and the movement of the mounting plate 5 drives the push rod 6 to move; when the connecting block 711 moves to the upper end of the connecting groove 12, the mounting plate 5 drives the push rod 6 to move to one end of the bar-shaped hole 31 far away from the groove body 1, and at this time, the upper end surface of the push rod 6 is lower than the inner bottom wall of the hopper 3, so that the raw materials in the hopper 3 can slide in the hopper 3 smoothly.

When the pulling plate 21 rotates to be out of contact with the driving plate 71, the reset spring 72 recovers deformation and pulls one ends corresponding to the connecting block 711, the driving plate 71 and the pull rope 75 to move downwards, the pull rope 75 moves and pulls the mounting plate 5 and the push rod 6 to move towards the direction approaching the groove body 1, and the mounting plate 5 moves to compress the limit spring 76; meanwhile, the upper end of the push rod 6 gradually protrudes out of the inner bottom wall of the hopper 3, so that the push rod 6 can be inserted into raw materials, and the raw materials stacked in the hopper 3 can be dispersed.

Along with the movement of the mounting plate 5 and the push rod 6 to the direction approaching the groove body 1, the push rod 6 can stir the raw materials in the hopper 3 to move into the groove body 1, and the raw materials moving outside the hopper 3 fall onto the conveyor belt 2 along the guide plate 11; the occurrence of the situation that the raw materials fall into the gap between the conveyor belt 2 and the groove body 1 is reduced, so that the conveyor belt 2 can better convey the raw materials.

When the driving plate 71 and the connection block 711 are moved to the lower end of the connection groove 12, the push rod 6 is moved to the end of the bar-shaped hole 31 near the groove body 1; along with the work of the conveyor belt 2, each push rod 6 can push the driving plate 71 to move, so that the push rods 6 continuously move along the hopper 3, thereby enabling the push rods 6 to dredge the raw materials accumulated in the hopper 3, reducing the situations that operators need to pour the raw materials and dredge the raw materials, enabling the operators to continuously pour the raw materials into the hopper 3, and improving the efficiency of cleaning the raw materials by the bubble cleaning machine.

Referring to fig. 2 and 4, in order to enable the raw materials in the hopper 3 to better move into the tank body 1, a vibration assembly 8 for knocking the hopper 3 to vibrate the hopper 3 is further arranged on the transverse plate 4; the vibration assembly 8 comprises two racks 81 fixedly connected to the upper surface of the mounting plate 5, the length direction of the racks 81 is set along the length direction of the tank body 1, each push rod 6 is located between the two racks 81, and the racks 81 are located under the hopper 3.

The vibration assembly 8 further comprises gears 82 corresponding to the racks 81 and meshed with the racks 81, the axial direction of the gears 82 is arranged along the width direction of the groove body 1, the outer bottom wall of the hopper 3 is fixedly connected with fixing plates 83 corresponding to the racks 81 one by one, and each gear 82 is rotationally connected to the corresponding fixing plate 83; the side wall that gear 82 and fixed plate 83 are close to each other has the clearance, and gear 82 is close to fixed plate 83's terminal surface on fixedly connected with and strikes pole 84, and the length direction of striking pole 84 sets up along the axial of gear 82, and the distance between the one end that strikes pole 84 kept away from the gear 82 axis and the gear 82 axis is d1, and the distance between gear 82 axis and the outer bottom wall of hopper 3 is less than d1, and gear 82 and striking pole 84 all are located one side of push rod 6.

When the mounting plate 5 moves along the sliding groove 41 towards the direction close to the groove body 1, the mounting plate 5 drives the rack 81 to move, the rack 81 moves to enable the gear 82 to drive the knocking rod 84 to rotate, when the push rod 6 moves to one end of the bar-shaped hole 31 close to the groove body 1, the knocking rod 84 contacts with the lower surface of the hopper 3, so that the hopper 3 is knocked, and the hopper 3 vibrates to enable materials in the hopper 3 to move out of the hopper 3 more smoothly; when the mounting plate 5 moves along the sliding groove 41 in a direction away from the groove body 1, the rotation direction of the gear 82 is opposite to that of the gear 82 when the mounting plate 5 moves close to the groove body 1, the gear 82 drives the knocking rod 84 to rotate, and when the push rod 6 moves to one end of the bar-shaped hole 31 away from the groove body 1, the knocking rod 84 is reset.

The embodiment of the application provides a bubble cleaning machine for can production, which comprises the following implementation principles: when the bubble cleaning machine works, the belt body of the conveyor belt 2 drives the shifting plate 21 to move, when the shifting plate 21 is separated from the driving plate 71, the reset spring 72 is restored to deform and enables the driving plate 71 to move downwards, meanwhile, the pull rope 75 drives the mounting plate 5 and the push rod 6 to move towards the direction close to the groove body 1, the push rod 6 is inserted into raw materials piled on the hopper 3, and the push rod 6 spreads the piled raw materials along with the movement of the push rod 6.

When the push rod 6 dials the raw materials, the mounting plate 5 drives the rack 81 to move, so that the rack 81 drives the knocking rod 84 to rotate, and when the push rod 6 moves to one end of the strip-shaped hole 31 close to the tank body 1, the knocking rod 84 knocks the hopper 3; when the driving plate 71 is pushed by the pulling plate 21 to move upwards, the reset spring 72 is stretched by the driving plate 71, and meanwhile, the limiting spring 76 recovers deformation and pulls the mounting plate 5, the pull rope 75, the push rod 6 and the rack 81 to move; when the push rod 6 moves to the end of the bar-shaped hole 31 away from the tank body 1, the upper end surface of the push rod 6 is lower than the inner bottom wall of the hopper 3, and the knocking rod 84 is reset.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. The utility model provides a bubble cleaning machine is used in can production, includes cell body (1) and installs conveyer belt (2) in cell body (1), the interval is provided with a plurality of boards (21) of dialling on the area body of conveyer belt (2), fixedly connected with hopper (3) with cell body (1) intercommunication on the lateral wall that cell body (1) is close to conveyer belt (2) conveying origin, and the direction of delivery of hopper (3) along conveyer belt (2) is decurrent gradually, its characterized in that: a transverse plate (4) positioned below the hopper (3) is fixedly connected to the side wall, close to the hopper (3), of the groove body (1), and the distance between the transverse plate (4) and the inner bottom wall of the hopper (3) is gradually reduced along the direction close to the groove body (1);

the transverse plate (4) is connected with the mounting plate (5) in a sliding manner, the mounting plate (5) slides along the length direction of the conveyor belt (2), the mounting plate (5) is fixedly connected with a plurality of push rods (6), and the push rods (6) penetrate through the lower surface of the hopper (3) and slide along the length direction of the conveyor belt (2);

A driving assembly (7) for driving the mounting plate (5) to move is further arranged in the groove body (1), and when the mounting plate (5) is far away from the groove body (1), the upper end face of the push rod (6) is not higher than the inner bottom wall of the hopper (3);

The driving assembly (7) comprises a driving plate (71) which is in sliding connection with the groove body (1), the driving plate (71) is positioned between the conveying belt (2) and the side wall of the groove body (1) close to the hopper (3), and a poking plate (21) positioned below the driving plate (71) is positioned right below the driving plate (71);

a roller (74) is rotationally connected to the groove body (1), and the roller (74) is positioned above the driving plate (71);

A pull rope (75) is fixedly connected to the driving plate (71), the pull rope (75) is lapped on the roller (74), and one end of the pull rope (75) away from the driving plate (71) penetrates through the groove body (1) and is fixed with the mounting plate (5);

A limit spring (76) is arranged between the mounting plate (5) and the groove body (1), one end of the limit spring (76) is fixed with the mounting plate (5), and the other end of the limit spring (76) is fixed with the groove body (1);

When the upper end surface of the push rod (6) is not higher than the inner bottom wall of the hopper (3), the poking plate (21) enables the driving plate (71) to be positioned at the upper part of the groove body (1);

A connecting groove (12) is formed in the side wall, close to the hopper (3), of the groove body (1), the length direction of the connecting groove (12) is arranged along the height direction of the groove body (1), a connecting block (711) matched with the connecting groove (12) is fixedly connected to the driving plate (71), and the connecting block (711) is in sliding insertion connection with the connecting groove (12);

The mounting plate (5) is provided with a vibration assembly (8) for knocking the lower surface of the hopper (3) to vibrate the hopper (3);

the vibration assembly (8) comprises a plurality of racks (81) fixedly connected to the mounting plate (5), the length direction of the racks (81) is set along the length direction of the conveying belt (2), gears (82) meshed with the racks (81) are rotationally connected to the lower surface of the hopper (3), the racks (81) and the gears (82) are located on one side of the push rod (6), a knocking rod (84) is fixedly connected to one end face of the gears (82), and the distance between the end face of the knocking rod (84) far away from the axis of the gears (82) and the axis of the gears (82) is larger than the distance between the axis of the gears (82) and the lower surface of the hopper (3).

2. The bubble washing machine for can production according to claim 1, wherein: the utility model discloses a conveyer belt, including mounting panel (5) and fixed connection, fixed connection has slider (51) on mounting panel (5), offered on diaphragm (4) with spout (41) of slider (51) adaptation, the length direction of spout (41) sets up along the length direction of conveyer belt (2), and slider (51) slip grafting is in spout (41).

3. The bubble washing machine for can production according to claim 1, wherein: and a reset spring (72) is fixedly connected to the driving plate (71), the length direction of the reset spring (72) is arranged along the height direction of the groove body (1), and one end, far away from the driving plate (71), of the reset spring (72) is fixed with the groove body (1).

4. The bubble washing machine for can production according to claim 1, wherein: the chute body (1) is close to the inside wall fixedly connected with deflector (11) of hopper (3), deflector (11) are along the direction of delivery of conveyer belt (2) declivity gradually, one side that deflector (11) kept away from hopper (3) is located conveyer belt (2) directly over.