CN218172699U - Bottle tray filler - Google Patents

Abstract

The utility model discloses a bottle sabot machine, advance a bottle mechanism including the list, the section is established to pushing away the bottle section not of a bottle mechanism is advanced to the list, one side of pushing away the bottle section is equipped with into a set buffer memory area, the opposite side is equipped with permutation and pushes away a bottle mechanism, the end of pushing away the bottle section is equipped with the dislocation arrangement mechanism, the front end of pushing away the bottle section is equipped with the mechanism of putting that is used for hindering the bottle and putting the bottle, advance one side that the relative dish buffer memory area of set buffer memory area was advanced to the set buffer memory area and be equipped with the dish district, the sabot machine is still including the bottle mechanism that pushes away that is used for protecting the bottle when permutation pushes away a bottle mechanism and pushes away the bottle, a set that is used for pushing away the bottle mechanism that advances the whole dish buffer memory area and pushing away the bottle mechanism and be used for protecting the bottle when advancing a set and pushing away the bottle mechanism, the area of advancing the dish buffer memory area is bigger than the dish district. The bottle tray filler has the advantages of enabling the arrangement of bottles to be compact and tidy, avoiding bottle clamping and bottle falling, improving the production efficiency and the like.

Description

Bottle tray filler

Technical Field

The utility model relates to a food, pharmaceutical packaging mechanical equipment technical field especially relate to a bottle tray filler.

Background

After the penicillin bottles in a pharmaceutical factory are filled with the medicines and sealed, the medicines need to be palletized, palletized and sent into a sterilizer for sterilization, the palletizing process is usually completed through manual operation or completed through some simple equipment, palletizing efficiency is low, the quantity of palletized medicine bottles can be easily poured or underfilled, the quantity of palletized medicine bottles can not be accurately recorded, batch online tracking can not be realized, and the requirement of modern medicine production can not be met.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art, provide one kind can make the bottle arrange compact neat, avoid the card bottle and fall the bottle and improve production efficiency's bottle sabot machine.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a bottle tray filler, includes single row bottle feeding mechanism, single row bottle feeding mechanism does not establish to push away the bottle section, one side that pushes away the bottle section is equipped with into a dish buffer memory area, and the opposite side is equipped with the permutation bottle pushing mechanism who is used for pushing away the bottle permutation of bottle section to advancing a dish buffer memory area, the end that pushes away the bottle section is equipped with the dislocation arrangement mechanism that is used for injecing the stop position of bottle on the single row bottle feeding mechanism, the front end that pushes away the bottle section is equipped with the mechanism of putting that is used for hindering the bottle and putting, advance a dish buffer memory area and be equipped with the dress panel relative one side of advancing a dish buffer memory area, the tray filler still including the bottle mechanism that pushes away that is used for protecting the bottle when permutation bottle pushing away the bottle mechanism and pushes away the bottle, be used for pushing the whole dish buffer memory area to the dish of bottle feeding mechanism and be used for advancing a dish bottle protection mechanism that protects when advancing a dish bottle, the area of advancing a dish buffer memory area is bigger than the dress dish buffer memory area.

As a further improvement of the technical scheme:

and a lifting guide plate is arranged between the bottle pushing section and the disc feeding cache area.

The bottle arranging and pushing mechanism comprises a telescopic bottle pushing piece and an arranging and pushing plate, and the arranging and pushing plate is arranged at the telescopic end of the telescopic bottle pushing piece.

The bottle pushing and protecting mechanism comprises a bottle pushing and protecting plate and a bottle pushing and protecting driving assembly used for driving the bottle pushing and protecting plate to lift and translate.

The tray-feeding bottle-pushing mechanism comprises a tray-feeding bottle-pushing plate and a tray-feeding bottle-pushing driving assembly used for driving the tray-feeding bottle-pushing plate to lift and translate.

The bottle pushing and protecting plate and the tray pushing and bottle pushing plate are both positioned above the tray cache region, and the bottle pushing and protecting driving assembly and the tray pushing and bottle pushing driving assembly are respectively positioned above and below the tray cache region.

The dislocation arrangement mechanism comprises a dislocation telescopic piece and a bottle blocking plate, wherein the bottle blocking plate is arranged at the telescopic end of the dislocation telescopic piece and is located at the tail end of the bottle pushing section.

And the single-row bottle feeding mechanism is provided with a bottle falling detection mechanism, a waste removing mechanism and a counting mechanism for calculating the number of the fed bottles.

The tray loading area is provided with a tray feeding mechanism below, a tray pressing mechanism above and a tray discharging mechanism on one side.

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

the bottle tray filling machine of the utility model has reasonable overall structure, and the single-row bottle feeding mechanism feeds bottles in a single row, so that the bottles are arranged orderly, and the bottles can be pushed in a row from one side in the follow-up process; after the front-row bottle bodies enter the bottle pushing section, the blocking mechanism blocks the rear-row bottle bodies from entering, so that the front-row bottle bodies and the rear-row bottle bodies are prevented from interfering in the bottle pushing process of the bottle arranging and pushing mechanism; the staggered arrangement mechanism enables front and rear single-row bottles to stop at staggered positions on the bottle pushing section, two adjacent rows of bottle sets on the tray entering cache region are arranged in a staggered mode, the bottles are arranged more compactly, no gap caused by few bottles exists, and the tray entering bottle pushing mechanism is prevented from blocking bottles in the process of pushing the bottle sets and pouring the bottles in the moving process of the tray body in the later period. A tray entering cache region is arranged between the tray loading region and the single-row bottle feeding mechanism, and the bottles form a bottle set in the tray entering cache region and are integrally pushed into the tray body, so that the bottles are compactly and tidily arranged, and the bottles are prevented from being clamped and inverted; and the area of the tray-feeding cache area is larger than that of the tray-loading area, namely, the tray-feeding cache area is longer than the length of a bottle set capable of filling a tray in the pushing direction, so that the single-row bottle-feeding mechanism can push bottles to the tray-feeding cache area simultaneously while the tray-feeding bottle-pushing mechanism pushes the bottle set, and the production efficiency is improved. The bottle tray filler can enable the arrangement of bottles to be compact and neat, avoid bottle clamping and bottle dumping and improve the production efficiency.

The utility model discloses a bottle tray filler advances to pushing away a bottle section before the bottle, and the lift baffle rises to protecting in the high level that pushes away bottle section one side, and permutation bottle pushing mechanism protects in the opposite side that pushes away a bottle section, prevents that the bottle from empting from both sides. After the whole row of bottle bodies are kept in place by the dislocation arrangement mechanism, the blocking mechanism stops feeding the bottle, the lifting guide plate descends to a low position which is flush with the buffer area of the feeding disc, and the whole row of bottle pushing mechanism pushes the single row of bottle bodies on the bottle pushing section to the buffer area of the feeding disc. The lifting guide plate has the functions of guiding and preventing bottles from falling when being lifted to a high position, and has the functions of abutting against a cache region of the access disc and a bottle pushing section when being lowered to a low position.

Drawings

Fig. 1 is a schematic view of a first perspective three-dimensional structure of the bottle tray filler of the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic view of a second perspective three-dimensional structure of the bottle tray filler of the present invention.

Fig. 4 is an enlarged view at B in fig. 3.

The reference numerals in the figures denote:

1. a single-row bottle feeding mechanism; 11. pushing the bottle section; 12. a bottle inverting detection mechanism; 13. a waste removing mechanism; 14. a counting mechanism; 2. a disk-entering cache region; 3. an arraying and bottle pushing mechanism; 31. a telescopic bottle pushing member; 32. arranging bottle pushing plates; 4. a staggered arrangement mechanism; 41. a staggered telescopic part; 42. a bottle blocking plate; 5. a release mechanism; 6. loading a disc area; 61. a tray feeding mechanism; 62. a platen mechanism; 63. a disc discharging mechanism; 7. a bottle pushing and protecting mechanism; 71. pushing the bottle to protect the bottle board; 72. a bottle pushing and protecting driving component; 8. a tray-feeding bottle-pushing mechanism; 81. a tray feeding and bottle pushing plate; 82. a tray pushing bottle driving component; 9. a tray feeding and bottle protecting mechanism; 91. a lifting guide plate.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific embodiments.

As used in this disclosure and in the claims, the terms "a," "an," "the," and/or "the" are not intended to be inclusive in the singular, but rather are inclusive in the plural unless the context clearly dictates otherwise. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Similarly, the word "comprising" or "comprises", and the like, means that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

The first embodiment is as follows:

fig. 1 to 4 show an embodiment of the bottle tray filler of the present invention, the bottle tray filler includes a single-row bottle feeding mechanism 1, the single-row bottle feeding mechanism 1 is not set as a bottle pushing section 11, one side of the bottle pushing section 11 is provided with a tray buffer area 2, the other side is provided with an aligned bottle pushing mechanism 3 for pushing the bottle of the bottle pushing section 11 to the tray buffer area 2, the end of the bottle pushing section 11 is provided with a dislocation arrangement mechanism 4 for limiting the stop position of the bottle on the single-row bottle feeding mechanism 1, the front end of the bottle pushing section 11 is provided with a bottle blocking mechanism 5 for blocking and releasing the bottle, the tray buffer area 2 is provided with a bottle holding area 6 relative to one side of the tray buffer area 2, the tray filler further includes a bottle protecting mechanism 7 for protecting the bottle when the bottle pushing mechanism 3 pushes the bottle, the tray feeder for pushing buffer area 2 is pushed to the tray bottle pushing mechanism 8 of the tray buffer area 6 and a bottle protecting tray mechanism 9 for protecting the bottle when the bottle is pushed by the tray bottle pushing mechanism 8, and the tray filler area of the tray bottle holding area of the tray buffer area 2 is larger than that of the bottle protecting tray bottle pushing mechanism 6.

The working process of the bottle tray filler comprises the following steps: firstly, a tray body is arranged in a tray containing area 6; secondly, the single-row bottle feeding mechanism 1 conveys the single-row bottles to the bottle pushing section 11, the staggered arrangement mechanism 4 stops the front and rear single-row bottles at staggered positions, and the blocking mechanism 5 enables the front and rear single-row bottles to enter the bottle pushing section 11 at intervals; then, the bottle pushing and protecting mechanism 7 is used for protecting one side of the single-row bottles, the whole-row bottle pushing mechanism 3 is used for pushing the single-row bottles to the disc-entering cache region 2 by pushing the single-row bottles to the other side of the single-row bottles until a bottle set capable of being filled in a disc is formed in the disc-entering cache region 2; and finally, protecting one side of the bottle set by a tray feeding bottle protecting mechanism 9, pushing the other side of the bottle set by a tray feeding bottle pushing mechanism 8, pushing the bottle set in the tray feeding cache region 2 into the tray body of the tray loading region 6, and completing tray loading.

The bottle tray filler has reasonable overall structure, and bottles are fed in a single row by the single-row bottle feeding mechanism 1, so that the bottles are arranged orderly, and the bottles are convenient to be subsequently pushed in a row from one side; after the front row of bottle bodies enter the bottle pushing section 11, the blocking mechanism 5 blocks the rear row of bottle bodies from entering, so that the front row of bottle bodies and the rear row of bottle bodies are prevented from interfering in the bottle pushing process of the bottle arranging and pushing mechanism 3; the staggered arrangement mechanism 4 enables front and rear single-row bottles to stop at staggered positions on the bottle pushing section 11, two adjacent rows of bottle sets on the tray entering cache region 2 are arranged in a staggered mode, the bottles are arranged more compactly, no gap caused by few bottles exists, and the tray entering bottle pushing mechanism 8 is prevented from blocking bottles in the process of bottle pushing sets and pouring bottles in the moving process of the tray body in the later period. A tray inlet cache region 2 is arranged between the tray loading region 6 and the single-row bottle inlet mechanism 1, the bottles form a bottle set in the tray inlet cache region 2, and then are integrally pushed into the tray body, so that the bottles are arranged compactly and neatly, and bottle clamping and bottle falling are avoided; and the area of the tray-feeding cache region 2 is larger than that of the tray-loading region 6, that is, the tray-feeding cache region 2 is longer than the length of a bottle set capable of filling a tray in the pushing direction, so that the single-row bottle-feeding mechanism 1 can push bottles to the tray-feeding cache region 2 simultaneously while the tray-feeding bottle-pushing mechanism 8 pushes the bottle set, and the production efficiency is improved. The bottle tray filler can enable the arrangement of bottles to be compact and neat, avoid bottle clamping and bottle dumping and improve the production efficiency.

In this embodiment, as shown in fig. 2, a lifting guide plate 91 is disposed between the bottle pushing section 11 and the tray entering buffer 2. Before the bottle body enters the bottle pushing section 11, the lifting guide plate 91 is lifted to a high position protected at one side of the bottle pushing section 11, and the bottle aligning mechanism 3 is protected at the other side of the bottle pushing section 11 to prevent the bottle body from falling from two sides. After the whole row of bottles are stopped by the dislocation arrangement mechanism 4, the stopping mechanism 5 stops feeding the bottles, the lifting guide plate 91 descends to a low position which is flush with the disc feeding cache region 2, and the whole row of bottles on the bottle pushing section 11 is pushed to the disc feeding cache region 2 by the bottle pushing mechanism 3. The lifting guide plate 91 has a guiding and bottle-falling preventing function when being lifted to a high position, and has a function of abutting on the buffer area 2 of the access tray and the bottle pushing section 11 when being lowered to a low position. Specifically, the lifting guide 91 is connected to a lifting driving member, such as a lifting cylinder, a lifting electric cylinder or a lifting air cylinder, and the lifting guide 91 is driven to lift by the lifting driving member.

In this embodiment, the bottle pushing mechanism 3 includes a telescopic bottle pushing member 31 and a bottle pushing plate 32, and the bottle pushing plate 32 is disposed at the telescopic end of the telescopic bottle pushing member 31. The bottle pushing plate 32 is parallel to the bottle pushing section 11, and under the driving action of the telescopic bottle pushing member 31, the single-row bottles on the bottle pushing section 11 are pushed to the buffer area 2 of the feeding tray in an aligned manner.

In this embodiment, as shown in fig. 1 and fig. 2, the bottle pushing and protecting mechanism 7 includes a bottle pushing and protecting plate 71 and a bottle pushing and protecting driving assembly 72 for driving the bottle pushing and protecting plate 71 to move up and down and move horizontally. In the process of pushing the bottles by the bottle pushing plate 32 from the rear side of the single row of bottles (the side back to the tray cache area 2), the bottle pushing protecting plate 71 is protected at the front side of the single row of bottles, and the bottle pushing protecting plate 71 is synchronously displaced along with the bottle pushing plate 32 under the driving action of the bottle pushing protecting driving component 72 until the single row of bottles is displaced to the designated position of the tray cache area 2, and then the bottle pushing protecting plate 71 is driven by the bottle pushing protecting driving component 72 to ascend, retreat and descend again until the bottle pushing protecting plate returns to the initial position close to the bottle pushing section 11 for bottle re-protection.

In this embodiment, the tray-pushing mechanism 8 includes a tray-pushing board 81 and a tray-pushing driving assembly 82 for driving the tray-pushing board 81 to move up and down and move horizontally. A tray feeding and bottle pushing process: firstly, the tray-entering bottle-pushing plate 81 descends to the rear side (the side facing the bottle-pushing section 11) of the bottle set on the tray-entering cache region 2 from the initial position (above the rear side of the bottle set on the tray-entering cache region 2), and the tray-entering bottle-protecting mechanism 9 protects the front side of the bottle set; then, the tray-feeding bottle-pushing plate 81 is driven by the tray-feeding bottle-pushing driving component 82 to move forwards in a translation mode, bottles are pushed into the tray body of the tray-loading area 6 in a gathering mode, and in the bottle-pushing process, the tray-feeding bottle-protecting mechanism 9 moves synchronously along with the tray-feeding bottle-pushing plate 81, and bottle protection is achieved; then, the bottle pushing plate 81 is driven by the bottle pushing driving assembly 82 to move up and back to the original position for pushing bottles again.

In this embodiment, the bottle pushing and protecting plate 71 and the tray pushing and bottle pushing plate 81 are both located above the tray entering cache region 2, and the bottle pushing and protecting driving assembly 72 and the tray pushing and bottle driving assembly 82 are respectively located above and below the tray entering cache region 2. The position is set, so that the bottle pushing protection plate 71 and the bottle pushing plate 81 can not interfere in the lifting and translation processes. Specifically, the tray pushing and bottle driving assembly 82 is located above the tray cache region 2, so that bottles can be conveniently pushed into the tray body of the tray loading region 6, and the tray pushing and bottle driving assembly 82 is prevented from interfering with components of the tray cache region 2 in the process of pushing bottles into the tray.

In this embodiment, the misalignment arrangement mechanism 4 includes a misalignment telescopic member 41 and a bottle blocking plate 42, and the bottle blocking plate 42 is disposed at the telescopic end of the misalignment telescopic member 41 and located at the end of the bottle pushing section 11. When the first row of bottles are conveyed to the bottle pushing section 11 by the single row bottle feeding mechanism 1 and abut against the bottle blocking plate 42, the dislocation telescopic part 41 is in a contraction state, and the whole row of bottle pushing plates 32 push the first row of bottles towards the bottle feeding tray cache region 2 by the distance of one bottle; when the second row of bottles enters the bottle pushing section 11 and abuts against the bottle blocking plate 42, the staggered expansion part 41 is in an extended state, at this time, the bottle blocking plate 42 is located at a position where one bottle is horizontally moved in the direction of the bottles, even if the second row of bottles and the first row of bottles are staggered by the distance of one bottle, and then the second row of bottles and the first row of bottles are integrally pushed by the whole row of bottle pushing plates 32 towards the cache region 2 of the feed tray by the distance of one bottle. From this analogize, finally, the bottle parallel and level of odd-numbered row, the bottle parallel and level of even-numbered row, whole bottle are odd-even dislocation and draw close for inseparabler between the bottle, the whole steady removal of the bottle of being convenient for. The offset extension 41 may be a pneumatic cylinder, a hydraulic cylinder, or an electric cylinder.

In this embodiment, the single-row bottle feeding mechanism 1 is provided with a bottle inverting detection mechanism 12, a waste removing mechanism 13 and a counting mechanism 14 for counting the number of bottles fed. The bottle-pouring detection mechanism 12 is used for detecting whether the bottle body is poured. The reject mechanism 13 is used for rejecting unqualified products. The counting mechanism 14 is used for counting the number of the bottles on the bottle pushing section 11, and ensuring that the number of the bottles in each row is the same. The counting mechanism 14 is combined with the single-row bottle feeding mechanism 1, so that the bottles can be accurately counted conveniently.

In this embodiment, a tray feeding mechanism 61 is arranged below the tray loading area 6, a platen mechanism 62 is arranged above the tray loading area, and a tray discharging mechanism 63 is arranged on one side of the tray loading area. The tray body is input to the tray loading area 6 from the tray feeding mechanism 61, the pressure plate mechanism 62 is used for pressing the tray body when the tray is loaded, after the tray loading is finished, the pressure plate mechanism 62 is lifted, the constraint effect on the tray body below is relieved, and the tray body filled with the bottles is output from the tray discharging mechanism 63.

Specifically, a tray jacking mechanism is arranged between the tray feeding mechanism 61 and the tray loading area 6 and used for jacking the tray body on the tray feeding mechanism 61 to the tray loading area 6.

And an electronic tag reading-writing sensor is arranged on one side of the tray-mountable area 6 and used for writing information such as bottle specification, quantity, time, tray symbol and the like into the electronic tag on the tray body after tray mounting is finished. By adopting the electronic tag and the electronic tag read-write sensor, the specification, the quantity, the time, the dish sign and other information of each dish bottle body can be input into the dish body, so that the dish body can quickly acquire data through the electronic tag read-write sensor before and after sterilization, and the automatic intelligent management can be conveniently realized.

Example two:

a bottle tray filling method is carried out by adopting a bottle tray filling machine, and comprises the following steps:

s1, placing a tray body in a tray containing area 6;

s2, single-row bottle feeding: the single-row bottle feeding mechanism 1 conveys single-row bottles to the bottle pushing section 11, the staggered arrangement mechanism 4 stops the front and rear single-row bottles at staggered positions, and the blocking mechanism 5 enables the front and rear single-row bottles to enter the bottle pushing section 11 at intervals;

s3, single-row bottle pushing: the bottle pushing and protecting mechanism 7 is protected on one side of the single-row bottles, the arraying bottle pushing mechanism 3 is pushed on the other side of the single-row bottles, and the single-row bottles are pushed to the disc entering cache region 2 until a bottle set capable of being filled with a disc is formed in the disc entering cache region 2;

s4: loading a plate: the tray feeding bottle protecting mechanism 9 is protected on one side of the bottle set, the tray feeding bottle pushing mechanism 8 is pushed on the other side of the bottle set, and the bottle set in the tray feeding cache area 2 is pushed into the tray body of the tray loading area 6.

The single-row bottle feeding mechanism 1 feeds bottles in a single row, so that the bottles are arranged orderly, and the bottles are pushed in a row from one side in sequence; after the front row of bottle bodies enter the bottle pushing section 11, the blocking mechanism 5 blocks the rear row of bottle bodies from entering, so that the front row of bottle bodies and the rear row of bottle bodies are prevented from interfering in the bottle pushing process of the bottle arranging and pushing mechanism 3; the staggered arrangement mechanism 4 enables front and rear single-row bottles to stop at staggered positions on the bottle pushing section 11, two adjacent rows of bottle sets on the tray entering cache region 2 are arranged in a staggered mode, the bottles are arranged more compactly, no gap caused by few bottles exists, and the tray entering bottle pushing mechanism 8 is prevented from blocking bottles in the process of bottle pushing sets and pouring bottles in the moving process of the tray body in the later period. The bottle bodies form a bottle set in the tray entering cache region 2, and then are integrally pushed into the tray body, so that the bottle bodies are compactly and tidily arranged, and the bottle clamping and bottle falling are avoided; when the tray pushing mechanism 8 pushes the bottle collection, the single-row bottle pushing mechanism 1 can push the bottles to the tray cache region 2 at the same time, so that the production efficiency is improved. The bottle body tray filling method can enable the bottle bodies to be arranged compactly and tidily, avoid bottle clamping and bottle falling and improve the production efficiency.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the present invention, using the technical content disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical essence of the present invention should fall within the protection scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a bottle tray filler which characterized in that: the bottle pushing and arranging machine comprises a single-row bottle pushing mechanism (1), wherein a bottle pushing section (11) is arranged at the non-section of the single-row bottle pushing mechanism (1), a tray cache area (2) is arranged at one side of the bottle pushing section (11), a staggered bottle pushing mechanism (3) used for pushing bottles of the bottle pushing section (11) to the tray cache area (2) in an aligned mode is arranged at the other side of the bottle pushing section (11), a staggered arrangement mechanism (4) used for limiting the stop position of the bottles on the single-row bottle pushing mechanism (1) is arranged at the non-end of the bottle pushing section (11), a bottle blocking and arranging mechanism (5) used for blocking and arranging the bottles is arranged at the front end of the bottle pushing section (11), a bottle loading area (6) is arranged at one side, relative to the tray cache area (2), of the tray cache area (2) relative to the tray cache area (2), the tray pushing and bottle protecting mechanism (7) used for protecting the bottles when the bottles are pushed by the bottle pushing mechanism (3) in an aligned bottle pushing mechanism (3), a tray buffer area (8) used for pushing the bottles of the tray cache area (2) to the tray cache area (6) of the bottle protecting mechanism (8) and a bottle pushing mechanism used for protecting the bottles when the bottles of the bottle pushing tray mechanism (8), and the bottles are larger bottle loading area of the bottle protecting tray mechanism (2), and the bottle loading mechanism (9) than the bottle loading area of the bottle loading tray.

2. The bottle tray filler of claim 1, wherein: and a lifting guide plate (91) is arranged between the bottle pushing section (11) and the disc entering cache region (2).

3. The bottle tray filler of claim 1, wherein: the bottle arranging and pushing mechanism (3) comprises a telescopic bottle pushing piece (31) and an arranging and pushing plate (32), and the arranging and pushing plate (32) is arranged at the telescopic end of the telescopic bottle pushing piece (31).

4. The bottle tray filler of claim 1, wherein: the bottle pushing and protecting mechanism (7) comprises a bottle pushing and protecting plate (71) and a bottle pushing and protecting driving component (72) used for driving the bottle pushing and protecting plate (71) to ascend, descend and translate.

5. The bottle tray filler of claim 4, wherein: the tray-advancing bottle-pushing mechanism (8) comprises a tray-advancing bottle-pushing plate (81) and a tray-advancing bottle-pushing driving component (82) for driving the tray-advancing bottle-pushing plate (81) to ascend, descend and translate.

6. The bottle tray filler of claim 5, wherein: the bottle pushing and protecting plate (71) and the tray pushing and bottle pushing plate (81) are both positioned above the tray entering cache region (2), and the bottle pushing and protecting driving assembly (72) and the tray pushing and bottle driving assembly (82) are respectively positioned above and below the tray entering cache region (2).

7. The bottle tray filler of claim 1, wherein: dislocation arrangement mechanism (4) are including dislocation extensible member (41) and fender bottle board (42), keep off bottle board (42) and locate the flexible end of dislocation extensible member (41) to be located the end that pushes away bottle section (11).

8. The bottle tray filler of any one of claims 1 to 6, wherein: the single-row bottle feeding mechanism (1) is provided with a bottle falling detection mechanism (12), a waste removing mechanism (13) and a counting mechanism (14) for counting the number of bottles fed.

9. The bottle tray filler of any one of claims 1 to 6, wherein: a tray feeding mechanism (61) is arranged below the tray loading area (6), a tray pressing mechanism (62) is arranged above the tray loading area, and a tray discharging mechanism (63) is arranged on one side of the tray loading area.

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