CN215430701U

CN215430701U - Bottle cleaning device

Info

Publication number: CN215430701U
Application number: CN202122232220.5U
Authority: CN
Inventors: 王杰华
Original assignee: Foshan Gaominghua Alcohol Co ltd
Current assignee: Foshan Gaominghua Alcohol Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2022-01-07
Anticipated expiration: 2031-09-15

Abstract

A bottle cleaning device comprises a pressure feeding mechanism and a cleaning mechanism; the pressing and conveying mechanism comprises a pressing and conveying piece, and a piece body of the pressing and conveying piece is provided with a rotating shaft and a wedged bottle mouth matched with the bottle body of the bottle; the cleaning mechanism comprises a roller, and the roller can rotate around a roller rotating shaft; a plurality of bottle pressing plates are arranged on the surface of the roller in a surrounding mode at intervals, a bottle clamping gap is reserved between every two bottle pressing plates, and a bottle conveying channel is correspondingly arranged below the bottle clamping gap; the frame body is provided with a nozzle which is positioned below the roller; the pressing and feeding piece rotates through the rotating shaft to synchronously drive the bottle opening to rotate, so that the pressing and feeding piece feeds the bottle into the bottle conveying channel; the bottle clamping gap is used for clamping the bottle body so that the bottle opening of the bottle is exposed out of the surface of the roller; the bottle mouth is rotated to the water outlet direction facing the nozzle by the rotation of the roller. The automatic cleaning device is characterized in that a cleaning mechanism is arranged, the bottle is driven to rotate to the nozzle to be cleaned by the rotation of the roller, the automatic cleaning of the bottle is achieved, a pressing and conveying piece is arranged, the wedged bottle opening of the pressing and conveying piece is meshed with the bottle body, and the wedged bottle opening is rotated to achieve pressing and conveying of the bottle.

Description

Bottle cleaning device

Technical Field

The utility model relates to the technical field of bottle conveying, in particular to a bottle cleaning device.

Background

Most beer bottles and soda bottles in the market are made of glass with quartz sand as a raw material, the manufacturing process is roughly designed and determined, after a mold is manufactured, other auxiliary materials are added and dissolved into a liquid state at high temperature, then the liquid state is injected into the mold, and the glass bottle is formed through cooling, cutting and tempering, so that the manufacturing process is troublesome, the manufacturing cost is high, and partial manufacturers generally choose to recycle, clean and sterilize the glass bottle for use;

the existing bottle cleaning method mainly adopts manual cleaning, production personnel use a water gun to clean like water spraying in a bottle, residual water in the cleaned bottle is poured, the whole cleaning process is very troublesome, the cleaning efficiency is too low, the production efficiency is seriously influenced, and the production time is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bottle cleaning device aiming at the defects in the background technology, and the automatic cleaning of the interior of a bottle is realized by arranging a cleaning mechanism and utilizing the self-rotation of a roller to drive the bottle limited by a bottle pressing plate to rotate to a nozzle for cleaning; by arranging the pressing and conveying piece, the wedged bottle mouth of the pressing and conveying piece is engaged with the bottle body, the wedged bottle mouth is rotated to realize pressure conveying of the bottle, and the neatness of the bottle in the conveying process is guaranteed; the buffer end is arranged on the pressure feeding piece, so that the intermittent conveying of the bottles is realized by the buffer end, and the problem of repeated starting and stopping of the pressure feeding piece is solved; by arranging the bottle stabilizing bar, the conveying belt can accurately and neatly convey the bottles to the conveying path to wait for further pressure conveying of the pressure conveying piece.

In order to solve the problems, the utility model is realized according to the following technical scheme:

the utility model relates to a bottle cleaning device, which comprises a pressure feeding mechanism and a cleaning mechanism, wherein the pressure feeding mechanism is arranged on the bottom of the pressure feeding mechanism;

the pressing and conveying mechanism comprises a pressing and conveying piece arranged on the conveying platform, and a piece body of the pressing and conveying piece is provided with a rotating shaft and a bottle mouth matched with the bottle body of the bottle;

the cleaning mechanism comprises a roller arranged on the frame body, and the roller can rotate around a roller rotating shaft;

a plurality of bottle pressing plates are arranged on the surface of the roller in a surrounding mode at intervals, a bottle clamping gap is reserved between every two bottle pressing plates, and a bottle conveying channel is correspondingly arranged below the bottle clamping gap;

the frame body is provided with a nozzle which is positioned below the roller;

the pressing and feeding piece rotates through a rotating shaft to synchronously drive the bottle opening to rotate, so that the pressing and feeding piece feeds the bottle into the bottle conveying channel;

the bottle clamping gap is used for clamping the bottle body so that the bottle opening of the bottle is exposed out of the surface of the roller;

and rotating the bottle mouth to a water outlet direction facing the nozzle through the self rotation of the roller.

Preferably, baffles are arranged on two sides of the frame body and connected with the side frame plates of the roller through a buffer assembly;

the baffle is provided with a notch, and when the roller rotates at each time, the bottle conveying channel is communicated with the notch.

Preferably, the buffer assembly comprises a connecting rod and an elastic piece;

one end of the connecting rod is connected with the baffle, the other end of the connecting rod is connected with the side frame plate, and the connecting rod is provided with an elastic part abutting against a stop block;

the elastic piece is sleeved on the rod body of the connecting rod, one end of the elastic piece is abutted to the side frame plate, and the other end of the elastic piece is abutted to the stop block.

Preferably, the frame body is provided with water spraying pipelines, the nozzles are arranged at intervals of the water spraying pipelines, and the water outlet direction of the nozzles faces to the roller;

the frame body is further provided with a water baffle support, and the water baffle support is provided with a water baffle.

Preferably, the pressure feeding piece comprises a first pressure feeding part, a second pressure feeding part and a rotating shaft, the first pressure feeding part and the second pressure feeding part are respectively installed at two ends of the rotating shaft, and the rotating shaft is used for driving the first pressure feeding part and the second pressure feeding part to synchronously rotate in the same direction;

the first pressure feeding part and the second pressure feeding part are respectively provided with a plurality of wedge bottle openings which are mutually meshed with the bottle body of the bottle, and each wedge bottle opening is connected end to end;

when the first pressure feeding part and the second pressure feeding part rotate, the wedge bottle mouth is driven to rotate around the axis of the rotating shaft, so that the wedge bottle mouth can apply a thrust force to the bottle, the direction of which is consistent with the rotating direction of the wedge bottle mouth, and the bottle is displaced.

Preferably, the first pressure feeding part and the second pressure feeding part are both provided with buffer ends, and the buffer ends are arranged between the first wedge bottleneck and the last wedge bottleneck;

the buffer end is relatively protruded out of the fit surface of the fit bottle mouth;

when the first pressure feeding part and the second pressure feeding part rotate, the buffering end is driven to rotate around the axis of the rotating shaft, so that the buffering end is abutted against the bottle to block the bottle from displacing.

Preferably, the first pressure feeding part and the second pressure feeding part are both circular plates, the plurality of wedge mouths are arranged on the peripheries of the circular plates in a surrounding mode, the wedge mouths are sunken towards the center direction of the plate surfaces of the circular plates to form tooth grooves, and the tooth grooves can be meshed with the bottle bodies of the bottles.

Preferably, the buffer end is disposed at the outer circumference of the circular plate in an arc structure.

Preferably, the conveying platform is provided with a conveying path;

the conveying belt is used for feeding the bottles into the conveying path;

the pressure feeding piece is arranged on the side edge of the conveying path and drives the bottles to displace on the conveying path.

Preferably, the conveying platform is provided with bottle stabilizing bars which are erected on two sides of the bottle to form the conveying path.

The technical scheme of the utility model has the following beneficial effects:

1. according to the automatic bottle cleaning device, the cleaning mechanism is arranged, and the bottle limited by the bottle pressing plate is driven to rotate to the nozzle by the self-rotation of the roller to be cleaned, so that the automatic cleaning of the interior of the bottle is realized;

2. according to the utility model, the pressing and conveying piece is arranged, the wedge opening of the pressing and conveying piece is engaged with the bottle body, the wedge opening is rotated to realize pressure conveying of the bottle, and the neatness of the bottle in the conveying process is ensured;

3. according to the utility model, the buffer end is arranged on the pressure feeding piece, and the buffer end is utilized to realize the intermittent conveying of the bottle, so that the problem of repeated starting and stopping of the pressure feeding piece is solved;

4. according to the utility model, the bottle stabilizing bar is arranged, so that the conveying belt can accurately and neatly convey the bottles to the conveying path to wait for further pressure conveying of the pressure conveying piece.

Drawings

FIG. 1 is a schematic view of a press of one embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure of the conveyor belt, the conveying path and the steady bar of one embodiment of the present invention;

FIG. 3 is a schematic structural view of a cleaning mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic mechanical diagram of a damping assembly according to an embodiment of the present invention.

Wherein: the bottle conveying device comprises a pressing and conveying piece 11, a first pressing and conveying part 12, a second pressing and conveying part 13, a rotating shaft 14, a bottle mouth 15, a buffering end 16, a conveying belt 17, a conveying path 18, a bottle stabilizing bar 19, a frame body 2, a baffle 21, a notch 22, a connecting rod 23, an elastic piece 24, an elastic piece abutting block 25, a roller 3, a bottle pressing plate 31, a bottle clamping gap 32, a bottle conveying channel 33, a side frame plate 34, a water spraying pipeline 4, a nozzle 41, a water baffle bracket 5 and a water baffle 51.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation only and are not to be construed as limitations of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The existing bottle cleaning method mainly adopts manual cleaning, production personnel use a water gun to clean like water spraying in a bottle, residual water in the cleaned bottle is poured, the whole cleaning process is very troublesome, the cleaning efficiency is too low, the production efficiency is seriously influenced, and the production time is wasted. In order to solve the problem, the application provides a bottle belt cleaning device, realizes automatic bottle feeding and automatic bottle washing, and the concrete structure is as follows:

comprises a pressure feeding mechanism and a cleaning mechanism;

the cleaning mechanism comprises a roller 3 arranged on the frame body 2, and the roller 3 can rotate around the rotating shaft of the roller 3;

a plurality of bottle pressing plates 31 are arranged on the surface of the roller 3 in a surrounding mode at intervals, a bottle clamping gap 32 is reserved between every two bottle pressing plates 31, and a bottle conveying channel 33 is correspondingly arranged below the bottle clamping gap 32;

the frame body 2 is provided with a nozzle 41, and the nozzle 41 is positioned below the roller 3;

the pressing and feeding piece rotates through a rotating shaft to synchronously drive the bottle opening to rotate, so that the pressing and feeding piece feeds the bottle into the bottle conveying channel 33;

the bottle clamping gap 32 is used for clamping the bottle body so that the bottle mouth of the bottle is exposed on the surface of the roller 3;

the bottle mouth is rotated to the water outlet direction of the nozzle 41 by the rotation of the roller 3.

In this embodiment, as shown in fig. 3, the body of the pressure-feeding piece is provided with the wedge opening, the body of the pressure-feeding piece is driven to rotate by the rotating shaft, the wedge opening is synchronously driven to rotate, and the wedge opening is matched with the body of the bottle, so that when the body rotates, a pushing force is applied to the body, and the bottle is fed into the cleaning mechanism by the pushing force, thereby achieving an effect of automatically feeding the bottle;

further, the bottle washing mechanism comprises a roller 3 mounted on the frame body 2, in this embodiment, two end faces of the roller 3 are respectively connected with the frame body 2, the roller 3 is provided with a rotating shaft of the roller 3, and the rotating shaft of the roller 3 can rotate when power is supplied by an external driving mechanism (the external driving mechanism can be a component capable of providing power support such as a driving motor, and not described in the application), so as to synchronously drive the roller 3 to rotate;

further, bottle pressing plates 31 are installed on the surface of the drum 3 at intervals, it should be noted that the bottle pressing plates 31 in this embodiment are rectangular structures with radian and installed along the length direction of the drum 3, and the bottle pressing plates 31 are installed to protrude from the surface of the drum 3, so that a certain installation space is formed between the surface of the drum 3 and the bottle pressing plates 31 for installing bottle conveying channels 33; the bottle pressing plates 31 are arranged on the surface of the roller 3 in a surrounding mode at intervals, every two bottle pressing plates 31 are not completely spliced, but a bottle clamping gap 32 is reserved, the bottle conveying channel 33 is correspondingly arranged below the bottle clamping gap 32, so that a bottle enters the bottle conveying channel 33 under the pushing of the pressing mechanism, after the bottle enters the bottle conveying channel 33, the bottle body is arranged in an installation space between the surface of the roller 3 and the bottle pressing plates 31, and the bottle neck and the bottle mouth are exposed out of the bottle clamping gap 32, so that when the roller 3 rotates and the bottle mouth of the bottle rotates from the upward direction to the downward direction, the bottle clamping gap 32 can clamp the bottle body, and the bottle cannot fall off the roller 3;

when the bottle mouth is rotated to the direction towards the nozzle 41, the nozzle 41 sprays cleaning liquid into the bottle, then the roller 3 continuously rotates, the bottle mouth continuously faces downwards, so that the residual cleaning liquid can flow out of the bottle body, the roller 3 continuously rotates, the bottle mouth slowly rotates from downwards to upwards, and one-time cleaning is completed.

Preferably, baffles 21 are arranged on two sides of the frame body 2, and the baffles 21 are connected with the side frame plates 34 of the roller 3 through a buffer assembly;

the baffle 21 is provided with a gap 22, and the bottle conveying passage 33 is communicated with the gap 22 when the roller 3 rotates at each time.

In this embodiment, since the bottle conveying channel 33 is arranged along the length direction of the drum body of the drum 3, the arrangement of the bottles on the drum 3 is convenient, and a large amount of cleaning is realized, so that the bottles enter from one end face of the drum 3 and exit from the other end face; the baffle plates 21 are arranged on two sides of the frame body 2, the baffle plates 21 are fixed with the side frame plates 34 positioned on two end faces of the roller 3, the baffle plates 21 are provided with the notches 22, the pressure feeding mechanism can feed the bottles into the bottle feeding channel 33 through the notches 22, and the baffle plates 21 are used for preventing the bottles from falling off from the two end faces of the roller 3 in the rotating process of the roller 3.

Preferably, as shown in fig. 4, the buffering assembly includes a connecting rod 23 and an elastic member 24;

one end of the connecting rod 23 is connected with the baffle 21, the other end of the connecting rod is connected with the side frame plate 34, and the connecting rod 23 is provided with an elastic part abutting block 25;

the elastic member 24 is sleeved on the rod body of the connecting rod 23, one end of the elastic member 24 abuts against the side frame plate 34, and the other end abuts against the elastic member abutting block 25.

In this embodiment, the baffle 21 is non-rotatable, the drum 3 is continuously rotatable, and the drum 3 generates a certain acting force in the rotating process, which causes the vibration of other fixed structures connected with the drum 3, in order to solve this problem, the present application installs a buffer assembly between the baffle 21 and the side frame plate 34 of the drum 3, and the acting force generated when the drum 3 rotates is offset by the elastic force of the elastic member 24.

Preferably, the frame body 2 is provided with water spraying pipes 4, the nozzles 41 are arranged at intervals on the water spraying pipes 4, and the water outlet direction of the nozzles 41 faces the drum 3;

the frame body 2 is further provided with a water baffle bracket 5, and the water baffle bracket 5 is provided with a water baffle 51.

In this embodiment, the length of the water spraying pipe 4 is equivalent to the length of the bottle running channel 33, but only the first half section of the water spraying pipe 4 is provided with the nozzle 41, that is, the bottles that can be washed by the nozzle 41 are only the bottles in the first half section of the bottle running channel 33, and the bottles in the second half section of the bottle running channel 33 are not washed;

specifically, each bottle conveying channel 33 is not filled with bottles at the beginning, but half of the bottles are filled, that is, the length of each bottle conveying channel 33 is equivalent to the length of the drum 3, if each bottle conveying channel 33 can carry 110 bottles at most, only 15 bottles are initially loaded, as shown in the following example, after 15 bottles are loaded in the first channel, the drum 3 rotates, the first channel rotates towards the nozzle 41, the second channel continues to load 15 bottles, the drum 3 rotates again, the first channel and the second channel continue to rotate towards the nozzle 41, the third channel continues to load 15 bottles, and so on, when the first channel loads 15 bottles to the nozzle 41 and receives cleaning, the first channel continues to rotate, the second channel also loads 15 bottles to the nozzle 41, cleaning is carried out in the same way until the first channel is loaded with 15 cleaned bottles and returns to the original position after rotating for a circle, then the bottles are continuously conveyed to the first channel, the 15 cleaned bottles in the first channel can move to the rear half section of the first channel under the thrust of the continuously conveyed bottles, so that the 15 uncleaned bottles are reloaded in the front half section of the first channel, the cleaning operation is repeated again, the 15 uncleaned bottles loaded in the front half section of the first channel are rotated to the nozzle 41 for cleaning, and the nozzle 41 can only clean the bottles in the front half section, so that the 15 cleaned bottles loaded in the rear half section of the first channel have a chance, the bottle mouth faces downwards, and the residual water in the bottles drops; in summary, a completely cleaned bottle needs to rotate a circle in the first half of the bottle conveying passage 33, the nozzle 41 is flushed once in the circle, then the bottle is moved to the second half of the bottle conveying passage 33, the bottle rotates a circle again, the residual water in the bottle is dripped off in the circle, and finally the bottle is sent out of the cleaning mechanism.

Further, the water guard plate 51 may be used to prevent water splash when the nozzle 41 washes the bottle.

Preferably, the pressing and conveying mechanism comprises a conveying platform;

the conveying platform is provided with a pressure conveying piece 11, the pressure conveying piece 11 comprises a first pressure conveying part 12, a second pressure conveying part 13 and a rotating shaft 14, the first pressure conveying part 12 and the second pressure conveying part 13 are respectively installed at two ends of the rotating shaft 14, and the rotating shaft 14 is used for driving the first pressure conveying part 12 and the second pressure conveying part 13 to synchronously rotate in the same direction;

the first pressure feeding part 12 and the second pressure feeding part 13 are respectively provided with a plurality of wedge bottle openings 15 which are mutually meshed with the bottle body of the bottle, and each wedge bottle opening 15 is connected end to end;

when the first pressure feeding unit 12 and the second pressure feeding unit 13 rotate, the wedge 15 is driven to rotate around the axis of the rotating shaft 14, so that the wedge 15 applies a pushing force to the bottle in accordance with the rotating direction of the bottle to displace the bottle.

In this embodiment, the pressing and feeding members 11 are preferably provided with two groups, and the bottles are pushed to displace by using the two groups of pressing and feeding members 11; specifically, the pressing and conveying piece 11 comprises a first pressing and conveying part 12, a second pressing and conveying part 13 and a rotating shaft 14, the first pressing and conveying part 12 is mounted at the top end of the rotating shaft 14, the second pressing and conveying part 13 is mounted at the bottom end of the rotating shaft 14, the rotating shaft 14 is powered by a motor to rotate, and then the first pressing and conveying part 12 and the second pressing and conveying part 13 are driven to synchronously rotate in the same direction;

a plurality of wedge mouths 15 are arranged on the first pressure feeding part 12 and the second pressure feeding part 13, the wedge mouths 15 are arranged around the peripheries of the first pressure feeding part 12 and the second pressure feeding part 13, and when the first pressure feeding part 12 and the second pressure feeding part 13 rotate, each wedge mouth 15 synchronously rotates;

further, the wedged bottle opening 15 can be meshed with the bottle body of the bottle, namely the wedged bottle opening 15 can be used for half-wrapping the bottle body, the wedged bottle opening 15 of the first pressure feeding part 12 is used for half-wrapping the upper part of the bottle body, the second pressure feeding part 13 is used for half-wrapping the lower part of the bottle, and the two groups of pressure feeding pieces 11 positioned on two sides of the bottle are arranged, so that the bottle body of the bottle can be fully wrapped; when agreeing with bottleneck 15 and taking place to rotate, can exert the effort that gos forward to the bottle of being lived the body by the parcel for the bottle is promoted forward, takes place the displacement, after the bottle is promoted to certain displacement, agree with bottleneck 15 and leave the body, no longer wrap up the body, the body is sent into wiper mechanism just so, leave agreeing with bottleneck 15 of body and continue to revolve the axle center rotation of axis of rotation 14, rotate and get back to the original point again after a week, wrap up the body of other bottles again, rotate again and carry this time wrapped bottle, accomplish the transport to the bottle.

Through agreeing with bottleneck 15 parcel body, rotate and agree with bottleneck 15 and then drive the mode that the bottle takes place the displacement, not only solved the problem of bottle transportation power, can guarantee the bottle simultaneously at the regularity of transportation process, make the bottle keep a straight line to take place the displacement.

Preferably, the first pressure feeding part 12 and the second pressure feeding part 13 are both provided with a buffer end 16, and the buffer end 16 is arranged between the first wedge mouth 15 and the last wedge mouth 15;

the buffer end 16 protrudes out of the fitting surface of the fitting bottle opening 15;

when the first pressure feeding unit 12 and the second pressure feeding unit 13 rotate, the buffer end 16 is driven to rotate around the axis of the rotating shaft 14, so that the buffer end 16 interferes with the bottle, and the bottle is prevented from displacing.

Furthermore, in the prior art, in the process of conveying bottles by using a conveyor belt, after a cleaning mechanism is required to finish cleaning a batch of bottles, the current bottles are conveyed into the cleaning mechanism, and then the next batch of bottles are conveyed to continue to wait for the current bottles to finish cleaning, so that the conveyor belt is continuously started and stopped, and the conveyor belt is greatly damaged; in order to solve the problem, the first pressure feeding part 12 and the second pressure feeding part 13 are provided with the buffer ends 16, the wedge mouths 15 are arranged on the peripheries of the first pressure feeding part 12 and the second pressure feeding part 13 in an end-to-end connection manner, and rotate by taking the rotating shaft 14 as an axis, if the peripheries of the first pressure feeding part 12 and the second pressure feeding part 13 are all fully distributed on the wedge mouths 15, the bottles are continuously pushed and conveyed, after a batch of bottles are fed into the cleaning mechanism, the next batch of bottles cannot be stopped, if the batch of bottles are stopped, the pressure feeding piece 11 can only be stopped, but the continuous starting and stopping damage the pressure feeding piece 11, so the buffer ends 16 are arranged between the first wedge mouths 15 and the last wedge mouths 15, and the buffer ends 16 are protruded on the wedge faces of the wedge mouths 15 compared with the wedge mouths 15, so that the buffer ends 16 are abutted against the bottles and the bottles are prevented from being displaced, that is, in a period, after the last wedge mouth 15 leaves the bottle, there is no wedge mouth 15 to contact with the bottle, but the head end of the buffer end 16 is abutted against the bottle, in the process of abutting, the buffer end 16 continuously rotates, after the tail end of the buffer end 16 leaves the bottle, the wedge mouth 15 contacts with the bottle to continuously convey the bottle, and in the period that the head end of the buffer end 16 and the tail end are abutted against the bottle, the bottle is stopped in place and is motionless, through the design of the buffer end 16, not only can the intermittent conveying of the bottle be realized, but also the problem that the pressure conveying piece 11 is continuously started and stopped can be solved.

Preferably, the first pressure feeding unit 12 and the second pressure feeding unit 13 are both circular plates, the plurality of wedge necks 15 are arranged around the peripheries of the circular plates, the wedge necks 15 are recessed towards the center of the plate surface of the circular plates to form tooth grooves, and the tooth grooves can be engaged with the body of the bottle.

In this embodiment, the first pressure feeding unit 12 and the second pressure feeding unit 13 are designed as circular plates, the two circular plates are respectively installed at two ends of the rotating shaft 14 and rotate around the axis of the rotating shaft 14, the bottle mouth 15 is distributed around the circular plates and is recessed inwards, so that the circular plates form a gear structure, the bottle body can be well half-wrapped by the tooth grooves of the bottle mouth 15, and the bottle mouth 15 can continuously and repeatedly wrap the bottle, convey the bottle and leave the bottle along with the continuous rotation of the circular plates.

Preferably, the buffer end 16 is disposed at the outer periphery of the circular plate in an arc-shaped configuration.

In this embodiment, since the buffering end 16 does not need to wrap the bottle body of the bottle and plays a role of blocking, only a part of the area is left on the periphery of the circular plate, and the part of the area is not provided with the bottle opening 15, so that the part of the area forms an arc-shaped structure, the bottle can be blocked from advancing in the rotating process, and the bottle cannot be damaged due to excessive friction with the bottle body due to the arc-shaped structure.

Preferably, the conveying platform is provided with a conveying path 18;

a conveyor belt 17 for feeding bottles into the conveying path 18;

the press-sending piece 11 is arranged at the side of the conveying path 18, and the press-sending piece 11 drives the bottles to displace on the conveying path 18.

Preferably, the conveying platform is provided with bottle stabilizing bars 19, and the bottle stabilizing bars 19 are erected on two sides of the bottles to form the conveying path 18.

In the embodiment, the staff only need to place the bottles to be cleaned on the conveying belt 17, the conveying belt 17 feeds the bottles into the conveying path 18 formed by the bottle stabilizing bar 19, and then the bottles are fed into the cleaning mechanism by the pressure feeding pieces 11 on two sides of the conveying path 18;

the bottle stabilizing bar 19 can ensure that the conveying belt 17 can convey the bottles into the conveying path 18 orderly, ensure that the bottle mouth 15 can be engaged with the bottle body, simultaneously ensure that the bottles cannot deviate in the process of pressing and conveying the bottles by the bottle mouth 15, and ensure that the bottles can be conveyed into the cleaning mechanism.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims

1. A bottle cleaning device characterized by:

comprises a pressure feeding mechanism and a cleaning mechanism;

the frame body is provided with a nozzle which is positioned below the roller;

2. The bottle cleaning apparatus of claim 1, wherein:

the two sides of the frame body are provided with baffle plates, and the baffle plates are connected with the side frame plate of the roller through a buffer assembly;

3. The bottle cleaning apparatus according to claim 2, wherein:

the buffer assembly comprises a connecting rod and an elastic piece;

4. The bottle cleaning apparatus of claim 1, wherein:

the frame body is provided with water spraying pipelines, the nozzles are arranged at intervals of the water spraying pipelines, and the water outlet direction of the nozzles faces to the roller;

5. The bottle cleaning apparatus of claim 1, wherein:

the pressure feeding piece comprises a first pressure feeding part, a second pressure feeding part and a rotating shaft, the first pressure feeding part and the second pressure feeding part are respectively installed at two ends of the rotating shaft, and the rotating shaft is used for driving the first pressure feeding part and the second pressure feeding part to synchronously rotate in the same direction;

6. The bottle cleaning apparatus of claim 5, wherein:

the first pressure conveying part and the second pressure conveying part are both provided with buffer ends, and the buffer ends are arranged between the first wedge bottle opening and the last wedge bottle opening;

7. The bottle cleaning apparatus of claim 6, wherein:

the first pressure conveying part and the second pressure conveying part are both circular plates, the wedge bottle mouths are arranged on the peripheries of the circular plates in a surrounding mode, the wedge bottle mouths are sunken towards the center direction of the plate surfaces of the circular plates to form tooth grooves, and the tooth grooves can be meshed with the bottle bodies of the bottles.

8. The bottle cleaning apparatus of claim 7, wherein:

the buffer end is of an arc-shaped structure and is arranged on the periphery of the circular plate.

9. The bottle cleaning apparatus of claim 5, wherein:

the conveying platform is provided with a conveying path;

the conveying belt is used for feeding the bottles into the conveying path;

10. The bottle cleaning apparatus of claim 9, wherein:

the conveying platform is provided with bottle stabilizing bars which are erected on two sides of the bottles to form the conveying path.