CN115973776B - Air-assisted conveying line adjusting system for pop cans - Google Patents

Abstract

The application discloses a pop can air-assisted conveying line adjusting system relates to the technical field of pop can production equipment, and comprises a conveying plate, wherein a plurality of air holes are formed in the upper surface of the conveying plate, and an air cavity is formed in the conveying plate and communicated with a fan; the wind guiding shell is rotationally connected to the inner top wall of the wind cavity and is opposite to the wind hole, so that the wind hole is communicated with the wind cavity, and the wind guiding shell can guide the wind blown out from the wind hole in the direction; the first baffle plate is arranged at one side of the conveying plate; the adjusting plate is connected in the air cavity in a sliding way by the other side of the conveying plate and can drive the side-by-side air guide shells to rotate through self sliding; and the second baffle is arranged on the adjusting plate. This application has the efficiency that improves the regulation of air supply transfer chain reducing, and then saves the effect of the cost of labor and the time cost that the regulation of air supply transfer chain reducing consumed.

Description

Air-assisted conveying line adjusting system for pop cans

Technical Field

The application relates to the technical field of pop can production equipment, in particular to a pop can air-assisted conveying line adjusting system.

Background

The pop can is used as a common packaging product in life, and has wider application, in particular to a packaging container of carbonated beverage.

After the pop can is formed, the pop can is conveyed in each link through conveying equipment, and the formed can body can be canned and sealed only after the processes of paint spraying, cleaning and the like. The equipment for conveying empty pop can bodies is a pneumatic conveying mode besides a common conveying mode by using a conveyor belt.

The air conveying mode is that a plurality of upward inclined air holes are formed in the conveying plate along the conveying line, so that air in an air cavity at the bottom of the conveying plate is blown out from the air holes, and then empty pop cans on the conveying plate are blown forward, so that the empty pop cans are suspended to move forward, drainage is carried out through baffles on two sides of the conveying plate, and conveying efficiency is improved greatly compared with that of a conveying mode of a conveying belt.

On the air conveying line, when meeting the section that narrows from wide or widens from narrow, the baffle can carry out the inclination adjustment of adaptation, if the wind hole does not change, empty easy open can not move along the track or hit the baffle and produce the deformation because of high-speed removal. The wind holes therefore also need to be adapted, i.e. the angle of the wind holes is also adapted to the baffles at the positions where the paths of the baffles are changed during production of the conveyor plates.

However, since the wind holes are formed when the conveying plate leaves the factory, the corresponding widened or narrowed path cannot be changed after the equipment is installed, if the equipment path needs to be redesigned, the conveying plate and the baffle plate need to be replaced again, the use is extremely limited, and after the design of the conveying path is changed, the time cost and the labor cost are high when the reassembly is performed.

Disclosure of Invention

In order to overcome the defects of time cost and labor cost of the air conveying line for reinstalling conveying plates when the width of a conveying line changes, the application provides a pop can air conveying line adjusting system.

The utility model provides a pair of easy open can air supply transfer chain governing system adopts following technical scheme:

an air-assisted conveying line adjusting system for pop cans comprises

The upper surface of the conveying plate is provided with a plurality of air holes, and the inside of the conveying plate is provided with an air cavity and communicated with a fan;

the wind guiding shell is rotationally connected to the inner top wall of the wind cavity and is opposite to the wind hole, so that the wind hole is communicated with the wind cavity, and the wind guiding shell can guide the wind blown out from the wind hole in the direction;

the first baffle plate is arranged at one side of the conveying plate;

the adjusting plate is connected in the air cavity in a sliding way through the other side of the conveying plate;

the second baffle is arranged on the adjusting plate;

the circumferential outer wall of the air guide shell is fixedly provided with a toothed ring;

the adjusting plate is arranged at the position of aligning the toothed ring, and is meshed with the toothed ring;

a sliding groove is formed in the position, opposite to the toothed ring, of the adjusting plate;

the toothed plate is connected in the sliding groove in a sliding way and can be meshed with the toothed ring after extending out;

the inner wall of the sliding groove is fixedly provided with a tension spring, and the other end of the tension spring is fixedly connected with the toothed plate;

when the tension spring is in a natural state, the toothed plate is separated from the toothed ring;

the adjusting plate is provided with an adjusting groove communicated with the sliding groove;

the adjusting groove is slidably connected with a pushing plate which can enable the toothed plate at the corresponding position to extend out and be meshed with the corresponding toothed ring.

Through adopting above-mentioned technical scheme, when need adjusting the position of second baffle, pulling regulating plate, the regulating plate drives the second baffle and removes and drive the wind-guiding shell that corresponds and rotate, the direction of movement of second baffle is the same with the needs direction of rotation of wind-guiding shell, and then realize the corresponding change of wind-guiding shell position after the second baffle position adjustment for the direction of the wind that the wind hole blown out and the position adaptation after the second baffle is adjusted, the empty easy open can that makes to remove this position can be stable remove along the second baffle, reduce the striking that produces with the second baffle, and then improve the quality that empty easy open can was transported, also improved the air supply transfer chain's adjustability.

When the adjusting plate is moved, the wind-guiding shell is driven to rotate along with the movement of the adjusting plate through the meshing relationship of the toothed plate and the toothed ring, so that the stability of driving the wind-guiding shell to rotate and adjust is effectively improved. The pushing plate is pushed into the adjusting groove, and the pushing plate pushes the contacted toothed plate outwards, so that the corresponding toothed plate is meshed with the toothed ring, and further, the selective adjustment of the wind guiding shell is realized.

Optionally, a connecting rod is hung on the second baffle;

the other end of the connecting rod is fixedly provided with a mounting rod;

the mounting rod is rotatably sleeved with a third baffle;

the space below the connecting rod is enough for the empty pop can to pass through.

Through adopting above-mentioned technical scheme, when needs merge a route more, install the connecting rod on the second baffle, shunt the empty easy open can between first baffle and the second baffle through the third baffle, further improved the adjustability of air supply transfer chain.

Optionally, the adjusting groove is positioned at the top of the sliding groove;

the upper surface of the toothed plate is provided with a propelling groove;

the lower surface of the pushing plate is fixedly provided with a pushing slat;

the pushing slat is curved and is abutted with the inner wall of the pushing groove;

after the pushing strip plate is abutted with the inner wall of the pushing groove, the corresponding toothed plate extends out of the sliding groove to be meshed with the toothed ring.

Through adopting above-mentioned technical scheme, after the pushing plate stretches into the adjustment tank, advance the slat and stretch into the propulsion inslot of corresponding pinion rack, along with the removal of pushing plate for advance inslot wall and advance the slat butt and drive the pinion rack and stretch out with the ring gear meshing, effectually improved the stability of control pinion rack and ring gear meshing.

Optionally, scales are carved on the surface of the pushing plate;

the distance between the scales is the same as the distance between the wind holes.

Through adopting above-mentioned technical scheme, the scale can intuitively reflect the position that the pushing plate is located in the adjustment tank, and then judges the ring gear position that meshes.

Optionally, an initial line is marked on the upper surface of the air guide shell;

the starting line is also marked on the top of the circumferential inner wall of the wind hole;

the starting line of wind-guiding shell and the starting line of wind hole are right to each other, and the empty easy open can that passes through corresponding wind hole is along being on a parallel with the direction of first baffle.

Through adopting above-mentioned technical scheme, the setting of initiating line can be convenient judges the position of wind-guiding shell, also can be convenient observe the position state that the wind-guiding shell is located.

Optionally, an adjusting groove is formed in the upper surface of the air guide shell.

Through adopting above-mentioned technical scheme, can carry out manual regulation through the adjustment tank to the position of wind-guiding shell, and then improve the accuracy of wind-guiding shell position adjustment.

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

when the air conveying line is required to be subjected to reducing adjustment, the pushing plate is inserted into the adjusting groove, the toothed plate along the path is pushed out, the corresponding toothed plate is meshed with the toothed ring, and the adjusting plate is moved, so that the corresponding air guiding shell rotates in a moving fit with the second baffle, the air guiding shell and the second baffle are adjusted together, the direction of air blown out by the air holes on the air conveying line is adjusted, the replacement of the air conveying line is reduced, and the time and labor cost required by the replacement of the air conveying line during reducing are reduced;

through the mode that the pushing plate inserted the adjustment tank for advance the slat and stretch into the propulsion inslot that needs ejecting pinion rack, through the butt with advancing the slat, make the pinion rack that corresponds stretch out with the ring gear meshing, advance the position setting of slat can drive the pinion rack and remove, can also not cause the influence to the position of extension spring, the effectual rationality that has improved the structure.

Drawings

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

FIG. 2 is a schematic view of the structure after the second shutter position adjustment;

FIG. 3 is a partial schematic diagram showing an adjustment tank;

FIG. 4 is a partial schematic view showing a tooth plate extended state;

FIG. 5 is a partial cross-sectional view showing a pusher slat;

FIG. 6 is a partial schematic view showing a securing assembly;

fig. 7 is a schematic structural view showing a third barrier mounting state.

In the figure, 1, a conveying plate; 11. a first baffle; 12. a wind hole; 13. a wind chamber; 2. an air guiding shell; 21. a start line; 22. an adjustment groove; 3. an adjusting plate; 31. a second baffle; 311. a connecting rod; 312. a mounting rod; 313. a third baffle; 32. an adjustment tank; 33. a slip groove; 4. an adjustment assembly; 41. a toothed plate; 411. a tension spring; 412. a propulsion groove; 42. a toothed ring; 43. a pushing plate; 431. advancing the flight; 432. a scale; 5. a fixing assembly; 51. a fixing plate; 52. a fixing bolt; 6. locking the clamping plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses a pop can air-assisted conveying line adjusting system.

Referring to fig. 1 and 2, the can air-feed conveyor line adjusting system includes a conveyor plate 1, a first baffle 11, and an adjusting plate 3. The air cavity 13 has been seted up to the inside of delivery board 1, air cavity 13 and fan intercommunication, the air hole 12 with air cavity 13 intercommunication has been seted up to delivery board 1 upper surface, air hole 12 is the counter bore down, air hole 12 circumference inner wall rotates and is connected with wind-guiding shell 2, wind-guiding shell 2 both ends respectively with air cavity 13 and air hole 12 intercommunication and lie in air cavity 13 to can make the gas slope that passes through wind-guiding shell 2 blow out upwards, air hole 12 is at delivery board 1 upper surface array distribution. The first baffle 11 is installed on the upper surface side of the conveying plate 1 in parallel to the extending direction of the conveying plate 1. The regulating plate 3 is stretched into the wind chamber 13 by the lateral wall that the first baffle 11 was kept away from to conveying plate 1 and is connected with conveying plate 1 sliding, and the regulating plate 3 level sets up and is located a plurality of wind scoopers 2 of same row and moves the one side of direction towards empty easy open can. An adjusting component 4 which enables the air guiding shell 2 to rotate along with the movement of the adjusting plate 3 is arranged between the adjusting plate 3 and the air guiding shell 2. The adjusting plate 3 is arranged in an upward extending manner and is provided with a second baffle plate 31, and the second baffle plate 31 is positioned right above the conveying plate 1.

When the air conveying line is required to be subjected to reducing adjustment, the adjusting plate 3 is moved, the second baffle plate 31 at the corresponding position moves along with the movement of the adjusting plate 3, the corresponding air guide shell 2 required to be adjusted is enabled to be also subjected to adaptive rotation through the adjusting component 4, after adjustment is completed, the second baffle plate 31 is obliquely arranged, the air guide shell 2 close to the second baffle plate 31 can be stably blown along the direction of the second baffle plate 31 after rotating, the probability that the air pop can is damaged due to collision to the second baffle plate 31 is further reduced, the quality of the air pop can transportation is improved, the efficiency of reducing adjustment of the air conveying line is improved, and the labor cost and the time cost consumed during reducing adjustment are reduced.

Referring to fig. 3 and 4, the adjustment assembly 4 includes a toothed ring 42, a toothed plate 41, and a pusher plate 43. The toothed ring 42 is fixedly arranged on the circumferential side wall of the wind-guiding shell 2, the position, opposite to the toothed ring 42, of the adjusting plate 3, which faces the wind-guiding shell 2, is provided with a sliding groove 33, the toothed plate 41 is connected in the sliding groove 33 in a sliding way, and the toothed plate 41 can be meshed with the toothed ring 42 after extending out of the sliding groove 33. The inner wall of the sliding groove 33 is fixedly provided with a tension spring 411, the other end of the tension spring 411 is fixedly connected with the toothed plate 41, and when the tension spring 411 is in a natural state, the toothed plate 41 is positioned in the sliding groove 33 and separated from the toothed ring 42.

Referring to fig. 5, an adjusting groove 32 is formed in one side of the adjusting plate 3 away from the first baffle 11, the adjusting groove 32 is located above the sliding groove 33 and is communicated with the sliding groove 33, and a pushing plate 43 is slidably connected in the adjusting groove 32. The upper surface of the toothed plate 41 is provided with a pushing groove 412, the lower surface of the pushing slat is fixedly provided with a pushing slat 431, the pushing slat 431 is positioned at one side close to the tension spring 411 for the part close to the first baffle 11, the part of the pushing slat 431 far away from the first baffle 11 is positioned at one side far away from the tension spring 411, and two parts of the pushing slat 431 are in arc transition arrangement. When the tension spring 411 is in a natural state, the pushing groove 412 of the toothed plate 41 is opposite to the portion of the pushing slat 431 close to the first baffle 11, and the pushing slat 431 passes through the pushing slot. The edge position of the pushing groove 412 is in arc transition. When the inner wall of the pushing groove 412 abuts against the portion of the pushing strip 431 away from the first baffle 11, the toothed plate 41 is engaged with the toothed ring 42. The upper surface of the pushing plate 43 is provided with a plurality of scales 432 at intervals of the wind holes 12, and the distance between the cambered surface transition parts of the pushing lath 431 is the same as the distance between the scales 432. The adjusting plate 3 is provided with a fixing assembly 5 for fixing the position of the pusher plate 43.

Referring to fig. 3 and 5, a locking clamp plate 6 is rotatably connected to one side of a toothed plate 41 at a position where the inner top wall of the wind cavity 13 faces the toothed plate 42, the locking clamp plate 6 is provided with a torsion spring which enables the locking clamp plate 6 to tightly prop against the toothed plate 42, only the middle part of the locking clamp plate 6 tightly props against the toothed plate 42, the part of the locking clamp plate 6 facing the toothed plate 41 is inclined upwards, and the lower surface of the toothed plate 41 and the tooth surface are in arc transition arrangement and can prop up the locking clamp plate 6 when extending. The circumferential inner wall of the air hole 12 is carved with an initial line 21, the initial line 21 is further arranged on the upper surface of the air guiding shell 2, and when the initial line 21 of the air guiding shell 2 is opposite to the initial line 21 of the air hole 12, the moving direction of the empty pop can passing over the air guiding shell 2 is the same as the extending direction of the first baffle 11. The upper surface of the air guiding shell 2 is also provided with an adjusting groove 22.

When the diameter-changing adjustment is required on the conveying plate 1, the pushing plate 43 is inserted into the adjusting groove 32, the position of the pushing plate 43 inserted into the adjusting groove 32 is observed through the scales 432, the pushing slat 431 stretches into the pushing groove 412 in the moving process of the pushing plate 43, the toothed plate 41 stretches out of the sliding groove 33 and pushes the locking clamping plate 6 open through the arc part of the pushing slat 431, the locking clamping plate 6 is separated from the toothed ring 42, the toothed ring 42 is unlocked, the toothed ring 42 is meshed with the pushing slat 43, and the rotating adjustment is carried out on a plurality of wind guiding shells 2 by controlling the stretching distance of the pushing plate 43. The position of the pushing plate 43 is fixed through the fixing component 5, then the adjusting plate 3 is moved, and the adjusting plate 3 drives the toothed ring 42 meshed with the second baffle plate 31 and the toothed plate 41 to rotate in the same direction, so that the gas blown out by the air hole 12 is adjusted together during reducing adjustment of the conveying plate 1.

When the required movement distance of the second baffle 31 is larger and is not matched with the movement range of the wind guiding shell 2, the pushing plate 43 can be selectively pulled out to adjust the position of the second baffle 31 after the rotation range of the wind guiding shell 2 is reached. The position of each wind-guiding shell 2 is judged by the position of the starting line 21, if the wind-guiding shell 2 does not rotate to the required position and needs to be adjusted, the pushing plate 43 is inserted into the adjusting groove 32 and extends to the corresponding position, if the graduation 432 for enabling the toothed plate 41 to be meshed with the toothed ring 42 of the wind-guiding shell 2 is N, when the toothed plate 41 moves to the middle position of the graduation 432 between N-1 and N, the toothed plate 41 moves to the position for enabling the locking clamping plate 6 to prop up and not be meshed with the toothed ring 42, and the wind-guiding shell 2 is rotated by the adjusting groove 22, so that the position adjustment of the wind-guiding shell 2 is realized. The stability of the air guide shell 2 after position adjustment can be effectively improved through the arrangement of the locking clamping plates 6, and the probability that gas passes through the air guide shell 2 to rotate is reduced.

Referring to fig. 6, the fixing assembly 5 includes a fixing plate 51 and a fixing bolt 52. The fixed plate 51 is fixedly arranged on the side wall of the adjusting plate 3, which is far away from the first baffle plate 11, and the fixed bolt 52 is in threaded connection with the fixed plate 51 and is tightly propped against the pushing plate 43. When the position of the pusher plate 43 needs to be fixed, the fixing bolt 52 is turned, so that the fixing bolt 52 and the pusher plate 43 are tightly propped against each other, and further the position of the pusher plate 43 is fixed.

Referring to fig. 7, the second baffle 31 is optionally hinged with a connecting rod 311, the connecting rod 311 has various sizes, a rotating rod is fixedly arranged at the bottom of one end of the connecting rod 311, which is close to the first baffle 11, a third baffle 313 is rotatably sleeved on the rotating rod, and the distance between the bottom of the connecting rod 311 and the upper surface of the conveying plate 1 is enough to allow the empty pop cans to pass through. After the second baffle 31 is subjected to reducing adjustment, if two paths of empty cans are required to be conveyed separately, the third baffle 313 is arranged in a manner that the connecting rod 311 is mounted on the second baffle 31, and then the empty cans are conveyed in a split manner.

The implementation principle of the pop can air-assisted conveying line adjusting system provided by the embodiment of the application is as follows: when the air conveying line is required to be subjected to reducing adjustment, the pushing plate 43 is inserted into the adjusting groove 32 and moved to the corresponding position, in the process, the pushing slat 431 stretches into the pushing groove 412 of the toothed plate 41, so that the toothed plate 41 stretches out of the sliding groove 33 and is meshed with the toothed ring 42 after the locking clamping plate 6 is jacked up, after the pushing plate 43 is fixed through the fixing bolt 52, the adjusting plate 3 is moved to adjust the position of the second baffle 31, and then the air guiding shell 2 required to be adjusted is rotated in the same direction as the moving direction of the second baffle 31 through the meshing relationship, so that the air direction blown by the second baffle 31 and the air holes 12 is adjusted together when the air conveying line is subjected to reducing, the adjusting efficiency is effectively improved, and the time cost and the labor cost required for adjustment are saved.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. An easy open can air delivery transfer chain governing system, its characterized in that: comprising

The upper surface of the conveying plate (1) is provided with a plurality of air holes (12), and an air cavity (13) is arranged in the conveying plate and communicated with a fan;

the wind guiding shell (2) is rotationally connected to the inner top wall of the wind cavity (13) and is opposite to the position of the wind hole (12), so that the wind hole (12) is communicated with the wind cavity (13), and the wind guiding shell (2) can guide the wind blown out from the wind hole (12) in the direction;

a first baffle (11) arranged on one side of the conveying plate (1);

the adjusting plate (3) is connected in the air cavity (13) by sliding on the other side of the conveying plate (1);

a second baffle (31) mounted on the adjusting plate (3);

a toothed ring (42) is fixedly arranged on the circumferential outer wall of the air guide shell (2);

the adjusting plate (3) is provided with a toothed plate (41) which can be meshed with the toothed ring (42) at a position opposite to the toothed ring (42);

a sliding groove (33) is formed in the position, opposite to the toothed ring (42), of the adjusting plate (3);

the toothed plate (41) is connected in the sliding groove (33) in a sliding way and can be meshed with the toothed ring (42) after extending out;

a tension spring (411) is fixedly arranged on the inner wall of the sliding groove (33), and the other end of the tension spring (411) is fixedly connected with the toothed plate (41);

when the tension spring (411) is in a natural state, the toothed plate (41) is separated from the toothed ring (42);

an adjusting groove (32) communicated with the sliding groove (33) is formed in the adjusting plate (3);

a pushing plate (43) which can extend the toothed plate (41) at the corresponding position and is meshed with the corresponding toothed ring (42) is slidably connected in the adjusting groove (32).

2. The pop can air delivery conveyor line adjustment system of claim 1, wherein:

a connecting rod (311) is hung on the second baffle (31);

a mounting rod (312) is fixedly arranged at the other end of the connecting rod (311);

the mounting rod (312) is rotatably sleeved with a third baffle (313);

the space below the connecting rod (311) is enough for the empty pop can to pass through.

3. The pop can air delivery conveyor line adjustment system of claim 1, wherein: the adjusting groove (32) is positioned at the top of the sliding groove (33);

the upper surface of the toothed plate (41) is provided with a pushing groove (412);

the lower surface of the pushing plate (43) is fixedly provided with a pushing slat (431);

the pushing slat (431) is curved and is abutted against the inner wall of the pushing groove (412);

the pushing strip plates (431) are abutted with the inner walls of the pushing grooves (412) to enable the corresponding toothed plates (41) to extend out of the sliding grooves (33) to be meshed with the toothed rings (42).

4. A pop can air delivery conveyor line adjustment system according to claim 3, wherein: scales (432) are carved on the surface of the pushing plate (43);

the distance between the graduations (432) is the same as the distance between the wind holes (12).

5. A pop can air delivery conveyor line adjustment system according to claim 3, wherein: an initial line (21) is marked on the upper surface of the air guide shell (2);

the starting line (21) is also marked on the top of the circumferential inner wall of the wind hole (12);

when the starting line (21) of the air guide shell (2) is aligned with the starting line (21) of the air hole (12), the empty pop can passing through the corresponding air hole (12) moves along the direction parallel to the first baffle plate (11).

6. The pop can air delivery conveyor line adjustment system of claim 5, wherein: an adjusting groove (22) is formed in the upper surface of the air guide shell (2).

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