CN215794884U - Automatic rotating bottle feeding mechanism for medicine bottle - Google Patents

Abstract

The utility model provides an automatic rotating bottle feeding mechanism for medicine bottles, and belongs to the technical field of automation equipment. The bottle conveying device comprises a base, wherein a conveying platform is arranged on the base in an inclined mode, a rotary feeding mechanism is further arranged on the base, and a bottle continuous conveying mechanism is further arranged between the conveying platform and the rotary feeding mechanism. The bottle lasts conveying mechanism and can carry the medicine bottle to lift material loading subassembly department, lift material loading subassembly snatchs after the medicine, the rotation driving subassembly can drive the roating seat whole rotate and go up and down material loading subassembly drive medicine bottle when the roating seat pivoted and rise, the roating seat rotates and can also move the lift material loading subassembly that presss from both sides and get the medicine bottle and press from both sides the lift material loading subassembly that has the medicine bottle and press from both sides the medicine bottle and get the position to the medicine bottle clamp, thereby cooperation bottle lasts conveying mechanism and can last the clamp that carries out the medicine bottle press from both sides and get and shift the effectual conveying efficiency who improves the medicine bottle.

Description

Automatic rotating bottle feeding mechanism for medicine bottle

Technical Field

The utility model belongs to the technical field of automation equipment, and relates to an automatic rotating bottle feeding mechanism for medicine bottles.

Background

In the process of packaging and producing medicines, the medicine bottles stacked in batches in the hopper are regularly separated and are conveyed to a packaging mechanism one by one to complete the whole packaging process. The storage mode is that the medicine bottles are horizontally placed, namely, the medicine bottles are stacked in a hopper in a downward and multilayer mode, the feeding mode is that the medicine bottles freely fall to a conveying mechanism by the weight of the ampoule bottles and are finally transmitted to other mechanisms to complete the packaging process, the storage and feeding mode usually needs manpower to lift and place the whole tray of the medicine bottles stacked in a transfer tray into the hopper, the labor intensity of the process is high, the operation is not easy, the phenomena of blockage, bottle breakage, irregular falling and support and the like of the medicine bottles in the feeding process of the freely falling bodies often occur, the integral operation of the packaging machine is unstable, and the packaging efficiency is influenced.

In order to overcome the defects of the prior art, people continuously explore and provide various solutions, for example, a Chinese patent discloses a medicine bottle cap feeding machine [ application number: 201920818080.X ], including air compressor, feed mechanism, automatically controlled cabinet, conveying mechanism, feed mechanism, support, nozzle and flow control valve, the utility model is through setting up nozzle and air compressor, the air compressor is switched on and operated, improve the stable air supply for the nozzle through the pipeline, only the bottle lid that leans against the conveyer belt rolls into the feed pipe under the situation that blows, the bottle lid that does not accord with the requirement blows down and falls into the feed box, avoid the bottle lid to appear the phenomenon of the inclined deviation; by providing the first baffle and the second baffle, the above-described problems also exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides an automatic rotary bottle feeding mechanism for medicine bottles.

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

the utility model provides an autogiration goes up bottled mechanism for medicine bottle, includes the frame, the frame on be equipped with the conveying platform that the slope set up, the frame on still be equipped with rotatory feed mechanism, conveying platform and rotatory feed mechanism between still be equipped with the bottle and last conveying mechanism, rotatory feed mechanism include that the cross-section is the circular shape roating seat and can drive roating seat pivoted rotary drive subassembly, the roating seat upside still link firmly the roof through the connecting rod, roof and roating seat between be provided with a plurality of side connecting plates along circumference, be equipped with between two adjacent side connecting plates and last the continuous lift material loading subassembly of conveying mechanism with the bottle.

In foretell autogiration for medicine bottle mechanism of going up, lift material loading subassembly including setting up the lift spout between two adjacent side connecting plates, the lift spout in have a lift seat through slip limit structure sliding connection, the roating seat on still be equipped with the lift drive assembly that can drive lift seat along vertical direction lift, the lift seat outside linked firmly bottle bearing structure.

In foretell autogiration mechanism of going up for medicine bottle, bottle bearing structure include the bottle clamp splice of fixing on the lift seat through the bolt, the bottle clamp splice on be equipped with two cross-sections semicircular in shape and the vertical bottle clamp groove that sets up, the lift seat on still linked firmly the bottom plate, the bottom plate set up at bottle clamp groove downside just bottom plate outer end protrusion in the bottle clamp splice.

In foretell autogiration mechanism of going up for medicine bottle, lift drive assembly including fixing the lift driver on the roating seat, lift driver top rotate and be connected with the lifting screw of vertical setting, lifting screw on the spiro union have the lifting slide block, lifting slide block and lifting seat inner link firmly.

In the above automatic rotating bottle feeding mechanism for medicine bottles, the sliding limiting structure includes limiting sliding grooves which are arranged on two sides of the side connecting plate and are recessed inwards, and two ends of the lifting seat are inserted into the limiting sliding grooves and are in sliding connection with the limiting sliding grooves.

In foretell autogiration for medicine bottle goes up a bottle mechanism, the bottle last conveying mechanism rotation axis that includes the level setting, rotation axis one end link to each other with the circumference driver, the rotation axis on fixed cover be equipped with defeated material pole, defeated material pole both ends link to each other with conveying platform and lift material loading subassembly respectively, the circumference of defeated material pole on be equipped with the spiral material conveying groove with bottle looks adaptation, spiral material conveying groove extend to the other end from defeated material pole one end.

In foretell autogiration for medicine bottle goes up bottled mechanism, conveying platform and rotatory feed mechanism between still be equipped with a limiting plate and No. two limiting plates, a limiting plate and No. two limiting plates link firmly and parallel with defeated material pole, a limiting plate outer end link firmly and support with defeated material pole and lean on, No. two limiting plates be close to defeated material pole one side and be equipped with the ejection of compact inclined plane that the slope set up, ejection of compact inclined plane and defeated material pole between have one end ejection of compact clearance and ejection of compact clearance from No. two limiting plates be close to a limiting plate one side to being close to lift material loading subassembly one side and increase gradually.

In the above automatic rotary bottle feeding mechanism for medicine bottles, the material conveying rod and the bottle body clamping block are both made of plastics.

In the automatic rotating bottle feeding mechanism for the medicine bottles, a side baffle is further arranged on one side, close to the lifting feeding assembly, of the conveying platform, and the inner side of the side baffle is arc-shaped.

In the above automatic rotary bottle feeding mechanism for medicine bottles, the rotary driving assembly includes a rotary driver disposed in the base, the rotary driver has a rotatable output shaft, and an end of the output shaft of the rotary driver penetrates through a top of the base and is connected to the rotary base; the rotating seat is fixedly connected with a limiting seat with an annular cross section, and the rotating seat is arranged in the limiting seat, and the outer side wall of the rotating seat is abutted against the inner side wall of the limiting seat.

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

1. the conveying platform which is arranged obliquely can convey the medicine bottles to the bottle body continuous conveying mechanism, the bottle body continuous conveying mechanism can convey the medicine bottles to the lifting feeding assembly, after the lifting feeding assembly grabs the medicines, the rotary driving assembly can drive the rotary base to integrally rotate and lift the feeding assembly to drive the medicine bottle to ascend when the rotary base rotates, the rotary base rotates to clamp the lifting feeding assembly with the medicine bottle and transfers the lifting feeding assembly without clamping the medicine bottle, the lifting feeding assembly is moved to the medicine bottle clamping position, the cooperation bottle body continuous conveying mechanism can continuously clamp the medicine bottle and transfer the medicine bottle, therefore, the conveying efficiency of the medicine bottle is effectively improved, the rotary base can rotate the medicine bottle of the lifting feeding assembly to a next station and lift the feeding assembly to enable the medicine bottle to ascend to the position corresponding to the next station, and therefore automatic transfer of the medicine bottle can be achieved, and manual transfer is not needed.

2. After the roating seat rotates bottle bearing structure to last conveying mechanism with the bottle and links to each other the position, the bottle that the bottle lasts output among the conveying mechanism can fall on bottle bearing structure, thereby the lift drive assembly can drive the structural bottle upward movement of lift seat and bottle bearing can rise the medicine bottle to and correspond high position department with next station.

3. The bottle that the bottle lasts among the conveying mechanism can block into the bottle clamp inslot to on the bottle clamp splice, sets up two bottle clamp grooves on the bottle clamp splice and can press from both sides two bottles simultaneously, improves the transfer efficiency, and the bottom plate can carry out the bearing to the bottle bottom, prevents that the frictional force between bottle and the bottle clamp groove is not enough to lead to the bottle to drop.

4. The first limiting plate and the second limiting plate can prevent the bottle body from sliding out of the spiral conveying groove, the medicine bottle in the spiral conveying groove can gradually slide out of the spiral discharging groove due to the discharging gap formed between the discharging inclined plane and the conveying rod, and the medicine bottle can be clamped into the medicine bottle clamping groove on the medicine bottle clamping block when the medicine bottle is separated from the discharging gap.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic view of a partial structure provided by the present invention;

FIG. 2 is a schematic view of the internal structure of the rotary feed mechanism;

fig. 3 is an enlarged schematic view at a in fig. 1.

In the figure: the automatic bottle conveying device comprises a machine base 1, a conveying platform 2, a rotary feeding mechanism 3, a bottle continuous conveying mechanism 4, a rotary seat 5, a rotary driving assembly 6, a top plate 7, a side connecting plate 8, a lifting feeding assembly 9, a lifting chute 10, a sliding limiting structure 11, a lifting seat 12, a lifting driving assembly 13, a bottle supporting structure 14, a bottle clamping block 15, a bottle clamping groove 16, a lower supporting plate 17, a lifting driver 18, a lifting screw rod 19, a lifting slide block 20, a limiting chute 21, a rotary shaft 22, a conveying rod 23, a spiral conveying groove 24, a first limiting plate 25, a second limiting plate 26, a discharging inclined plane 27, a side baffle 28, a rotary driver 29 and a limiting seat 30.

Detailed Description

As shown in fig. 1-3, an autogiration goes up bottled mechanism for medicine bottle, includes frame 1, frame 1 on be equipped with conveying platform 2 that the slope set up, frame 1 on still be equipped with rotatory feed mechanism 3, conveying platform 2 and rotatory feed mechanism 3 between still be equipped with bottle and last conveying mechanism 4, rotatory feed mechanism 3 include that the cross-section is circular shape roating seat 5 and can drive roating seat 5 pivoted rotation driving subassembly 6, 5 upsides of roating seat have still linked firmly roof 7 through the connecting rod, roof 7 and roating seat 5 between be provided with a plurality of side connection boards 8 along circumference, be equipped with between two adjacent side connection boards 8 and can last conveying mechanism 4 continuous lift material loading subassembly 9 with the bottle.

In this embodiment, the conveying platform 2 disposed obliquely can convey the medicine bottles to the bottle body continuous conveying mechanism 4, the bottle body continuous conveying mechanism 4 can convey the medicine bottles to the lifting feeding assembly 9, after the lifting feeding assembly grabs the medicine, the rotary driving assembly 6 can drive the rotary base 5 to rotate integrally and drive the medicine bottles to ascend while the rotary base 5 rotates, the rotary base 5 can also rotate to transfer the lifting feeding assembly with the medicine bottles clamped and move the lifting feeding assembly without clamping the medicine bottles to the medicine bottle clamping position, the rotary base 5 can rotate the medicine bottles at the lifting feeding assembly to the next station and the lifting feeding assembly can lift the medicine bottles to the position corresponding to the next station in height in cooperation with the bottle body continuous conveying mechanism 4 to clamp and transfer the medicine bottles, thereby effectively improving the conveying efficiency of the medicine bottles, manual transfer is not required.

Specifically, as shown in fig. 1 to 3, the lifting and feeding assembly 9 includes a lifting chute 10 disposed between two adjacent side connection plates 8, the lifting chute 10 is connected with a lifting seat 12 through a sliding limiting structure 11, the sliding limiting structure 11 can limit the lifting seat, the rotary seat 5 is further provided with a lifting driving assembly 13 capable of driving the lifting seat 12 to lift along a vertical direction, and the outer side of the lifting seat 12 is fixedly connected with a bottle body supporting structure 14. After the rotary seat rotates bottle bearing structure 14 to the position that links to each other with the bottle lasts conveying mechanism 4, the bottle that the bottle lasts the output in conveying mechanism 4 can fall on bottle bearing structure, thereby lift drive assembly 13 can drive the bottle upward movement on lift seat 12 and the bottle bearing structure 14 can rise the medicine bottle to and correspond high position department with next station.

Specifically, as shown in fig. 1 to 3, the bottle supporting structure 14 includes a bottle clamping block 15 fixed on the lifting seat 12 by bolts, two bottle clamping grooves 16 with semicircular cross sections and arranged vertically are formed on the bottle clamping block 15, the lifting seat 12 is further fixedly connected with a lower supporting plate 17, the lower supporting plate 17 is arranged at the lower side of the bottle clamping grooves 16, and the outer end of the lower supporting plate 17 protrudes out of the bottle clamping block 15. The bottle that the bottle lasts output among conveying mechanism 4 can block into the bottle clamp inslot to on the bottle clamp splice, sets up two bottles that two bottle clamp splice grooves can press from both sides simultaneously on the bottle clamp splice, improves the transfer efficiency, and the bottom plate can carry out the bearing to the bottle bottom, prevents that the frictional force between bottle and the bottle clamp splice 16 is not enough to lead to the bottle to drop.

Specifically, as shown in fig. 1 to fig. 3, the lifting driving assembly 13 includes a lifting driver 18 fixed on the rotating base 5, a vertically arranged lifting screw 19 is rotatably connected to the top of the lifting driver 18, a lifting slider 20 is screwed on the lifting screw 19, and the lifting slider 20 is fixedly connected to the inner end of the lifting base 12. The lifting driver 18 can drive the lifting screw to rotate, the lifting screw can drive the lifting slide block to lift along the vertical direction through rotation, and the lifting slide block can drive the lifting seat to lift along the vertical direction through movement.

It will be appreciated by those skilled in the art that the lift drive may be a rotary cylinder or motor, or the like.

Specifically, as shown in fig. 1 to fig. 3, the sliding limiting structure 11 includes limiting sliding grooves 21 disposed at two sides of the side connecting plate 8 and recessed inwards, and two ends of the lifting seat 12 are inserted into the limiting sliding grooves 21 and slidably connected with the limiting sliding grooves 21. The limiting sliding groove on the side connecting plate can limit the lifting seat.

Specifically, as shown in fig. 1 to fig. 3, the continuous bottle conveying mechanism 4 includes a horizontally disposed rotating shaft 22, one end of the rotating shaft 22 is connected to a circumferential driver (not shown), a conveying rod 23 is fixedly sleeved on the rotating shaft 22, two ends of the conveying rod 23 are respectively connected to the conveying platform 2 and the lifting/loading assembly 9, a spiral conveying groove 24 adapted to the bottle is disposed on the circumferential surface of the conveying rod 23, and the spiral conveying groove 24 extends from one end of the conveying rod 23 to the other end. The circumferential driver can drive the rotating shaft 22 to rotate, the rotating seat can drive the material conveying rod to rotate, and the material conveying rod can rotate to clamp the vertical card into the spiral material conveying groove to be horizontally conveyed to the bottle body clamping block.

Those skilled in the art will appreciate that the circumferential drive may be a rotary cylinder or motor, or the like.

Specifically speaking, combine and show in fig. 1-fig. 3, still be equipped with a limiting plate 25 and No. two limiting plates 26 between conveying platform 2 and the rotatory feed mechanism 3, a limiting plate 25 and No. two limiting plates 26 link firmly and are parallel with defeated material pole 23, a limiting plate 25 outer end link firmly and support with defeated material pole 23 with conveying platform 2 and lean on, No. two limiting plates 26 be close to defeated material pole 23 one side and be equipped with the ejection of compact inclined plane 27 that the slope set up, ejection of compact inclined plane 27 and defeated material pole 23 between have one end ejection of compact clearance and the width in ejection of compact clearance from No. two limiting plates 26 be close to a limiting plate 25 one side to being close to lift material loading subassembly 9 one side and increase gradually. The first limiting plate 25 and the second limiting plate 26 can prevent the bottle body from sliding out of the spiral conveying groove, the medicine bottle in the spiral conveying groove can gradually slide out of the spiral conveying groove due to the discharging gap formed between the discharging inclined plane 27 and the conveying rod, and the medicine bottle can be clamped into the medicine bottle clamping groove on the medicine bottle clamping block when the medicine bottle is separated from the discharging gap.

Specifically, as shown in FIGS. 1-3, the feed bar 23 and the vial clamp block 15 are made of plastic.

Specifically, as shown in fig. 1 to fig. 3, a side baffle 28 is further disposed on one side of the conveying platform 2 close to the lifting and loading assembly 9, and the inner side of the side baffle 28 is arc-shaped. The side baffles can prevent the medicine bottles from falling from the side part of the conveying platform and can guide the medicine bottles to the conveying rod.

Specifically, as shown in fig. 1 to fig. 3, the rotary driving assembly 6 includes a rotary driver 29 disposed in the base 1, the rotary driver 29 has a rotatable output shaft, an end of the output shaft of the rotary driver 29 penetrates through a top of the base 1 and is connected to the rotary base 5, the rotary driver 29 can drive the rotary base to rotate, the rotation of the rotary base can transfer the medicine bottle clamping blocks clamping the medicine bottles and move the medicine bottle clamping blocks not clamping the medicine bottles to an outer side of the discharge gap, and the medicine bottles can be continuously clamped and transferred by matching with the material conveying rod, thereby effectively improving the conveying efficiency of the medicine bottles; the rotating seat 5 is fixedly connected with a limiting seat 30 with an annular cross section, the rotating seat 5 is arranged in the limiting seat 30, and the outer side wall of the rotating seat 5 is abutted against the inner side wall of the limiting seat 30. The limiting seat can limit the rotating seat.

It will be appreciated by those skilled in the art that the rotary drive 29 may be a rotary cylinder or motor, or the like.

The working principle of the utility model is as follows: the conveying platform 2 which is obliquely arranged can convey the medicine bottles to the bottle body continuous conveying mechanism 4, the bottle body continuous conveying mechanism 4 can convey the medicine bottles to the lifting feeding assembly 9, after the lifting feeding assembly grabs the medicine, the rotary driving assembly 6 can drive the rotary base 5 to integrally rotate, the lifting feeding assembly drives the medicine bottles to ascend while the rotary base 5 rotates, the rotary base 5 can also transfer the lifting feeding assembly which clamps the medicine bottles and move the lifting feeding assembly which does not clamp the medicine bottles to a medicine bottle clamping position by rotating, the medicine bottles can be continuously clamped and transferred by matching with the bottle body continuous conveying mechanism 4, so that the conveying efficiency of the medicine bottles is effectively improved, the rotary base 5 can rotate the medicine bottles at the lifting feeding assembly to the next station and the lifting feeding assembly can ascend the medicine bottles to the height position corresponding to the next station, so that the automatic transfer of the medicine bottles can be realized, manual transfer is not needed;

when the rotary seat rotates the bottle body bearing structure 14 to a position connected with the bottle body continuous conveying mechanism 4, the bottle body output from the bottle body continuous conveying mechanism 4 can fall on the bottle body bearing structure, the lifting driving component 13 can drive the lifting seat 12 and the bottle body on the bottle body bearing structure 14 to move upwards so as to lift the bottle body to a position corresponding to the next station, the bottle body output from the bottle body continuous conveying mechanism 4 can be clamped into the bottle body clamping groove on the bottle body clamping block, the two bottle body clamping grooves arranged on the bottle body clamping block can simultaneously clamp two bottle bodies, the transfer efficiency is improved, the lower supporting plate can support the bottom of the bottle body, the bottle body is prevented from falling due to insufficient friction force between the bottle body and the bottle body clamping groove 16, the lifting driver 18 can drive the lifting screw rod to rotate, the lifting screw rod can drive the lifting slide block to lift along the vertical direction, the lifting slide block can drive the lifting seat to lift along the vertical direction, the limiting sliding groove on the side connecting plate can limit the lifting seat;

the circumferential driver can drive the rotating shaft 22 to rotate, the rotating seat can drive the material conveying rod to rotate, the material conveying rod can rotate to convey the translation vertically clamped into the spiral material conveying groove to the bottle body clamping block, the first limiting plate 25 and the second limiting plate 26 can prevent the bottle body from sliding out of the spiral material conveying groove, the discharging gap formed between the discharging inclined plane 27 and the material conveying rod can enable the medicine bottle in the spiral material conveying groove to gradually slide out of the spiral material conveying groove, the medicine bottle can block into the medicine bottle clamp inslot to on the medicine bottle clamp splice when the medicine bottle breaks away from discharge gap, the side shield can prevent that the medicine bottle from dropping and can guide the medicine bottle to material conveying pole department from the conveying platform lateral part, rotary actuator 29 can drive the roating seat and rotate, the roating seat rotates and can will press from both sides the medicine bottle clamp splice that gets the medicine bottle and shift and will not press from both sides the medicine bottle clamp splice that gets the medicine bottle and remove to the discharge gap outside, thereby cooperation material conveying pole can continuously carry out the clamp of medicine bottle and get and shift the effectual conveying efficiency who improves the medicine bottle.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the base 1, the conveying platform 2, the rotary feeding mechanism 3, the continuous bottle conveying mechanism 4, the rotary base 5, the rotary driving assembly 6, the top plate 7, the side connecting plates 8, the lifting and feeding assembly 9, the lifting and lowering chutes 10, the sliding limiting structures 11, the lifting and lowering bases 12, the lifting and lowering driving assembly 13, the bottle supporting structures 14, the bottle clamping blocks 15, the bottle clamping grooves 16, the lower supporting plate 17, the lifting and lowering drivers 18, the lifting and lowering screws 19, the lifting and lowering sliders 20, the limiting chutes 21, the rotating shafts 22, the conveying rods 23, the spiral conveying grooves 24, the first limiting plate 25, the second limiting plate 26, the discharging inclined plane 27, the side baffle 28, the rotating drivers 29, the limiting bases 30, etc., are more used herein, these terms are merely used to more conveniently describe and explain the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. An automatic rotating bottle feeding mechanism for medicine bottles comprises a machine base (1) and is characterized in that, the machine base (1) is provided with a conveying platform (2) which is obliquely arranged, the machine base (1) is also provided with a rotary feeding mechanism (3), a bottle body continuous conveying mechanism (4) is also arranged between the conveying platform (2) and the rotary feeding mechanism (3), the rotary feeding mechanism (3) comprises a rotary seat (5) with a circular section and a rotary driving component (6) capable of driving the rotary seat (5) to rotate, the upper side of the rotating seat (5) is fixedly connected with a top plate (7) through a connecting rod, a plurality of side connecting plates (8) are arranged between the top plate (7) and the rotating seat (5) along the circumferential direction, and a lifting feeding assembly (9) which can be connected with the bottle body continuous conveying mechanism (4) is arranged between two adjacent side connecting plates (8).

2. The automatic rotary bottle feeding mechanism for the medicine bottles of claim 1, wherein the lifting and feeding assembly (9) comprises a lifting chute (10) arranged between two adjacent side connecting plates (8), a lifting seat (12) is connected in the lifting chute (10) in a sliding manner through a sliding limiting structure (11), a lifting driving assembly (13) capable of driving the lifting seat (12) to lift along a vertical direction is further arranged on the rotating seat (5), and a bottle body supporting structure (14) is fixedly connected to the outer side of the lifting seat (12).

3. The automatic rotating bottle feeding mechanism for medicine bottles of claim 2, wherein the bottle body supporting structure (14) comprises bottle body clamping blocks (15) fixed on the lifting seat (12) through bolts, two bottle body clamping grooves (16) with semicircular cross sections and arranged vertically are arranged on the bottle body clamping blocks (15), a lower supporting plate (17) is further fixedly connected on the lifting seat (12), the lower supporting plate (17) is arranged at the lower side of the bottle body clamping grooves (16), and the outer ends of the lower supporting plate (17) protrude out of the bottle body clamping blocks (15).

4. The automatic rotary bottle feeding mechanism for the medicine bottles of claim 2, wherein the lifting driving assembly (13) comprises a lifting driver (18) fixed on the rotary base (5), the top of the lifting driver (18) is rotatably connected with a vertically arranged lifting screw (19), a lifting slider (20) is screwed on the lifting screw (19), and the lifting slider (20) is fixedly connected with the inner end of the lifting base (12).

5. The automatic rotating bottle feeding mechanism for medicine bottles of claim 2, wherein the sliding limiting structure (11) comprises limiting sliding grooves (21) which are arranged at two sides of the side connecting plate (8) and are recessed inwards, and two ends of the lifting seat (12) are inserted into the limiting sliding grooves (21) and are connected with the limiting sliding grooves (21) in a sliding manner.

6. The automatic rotary bottle feeding mechanism for medicine bottles of claim 3, wherein said bottle body continuous conveying mechanism (4) comprises a horizontally arranged rotating shaft (22), one end of said rotating shaft (22) is connected with a circumferential driver, said rotating shaft (22) is fixedly sleeved with a conveying rod (23), two ends of said conveying rod (23) are respectively connected with the conveying platform (2) and the lifting feeding assembly (9), a spiral conveying groove (24) matched with the bottle body is arranged on the circumferential surface of said conveying rod (23), and said spiral conveying groove (24) extends from one end of the conveying rod (23) to the other end.

7. The automatic rotary bottle feeding mechanism for medicine bottles of claim 6, characterized in that a first limiting plate (25) and a second limiting plate (26) are further arranged between the conveying platform (2) and the rotary feeding mechanism (3), the first limiting plate (25) and the second limiting plate (26) are fixedly connected and parallel to the material conveying rod (23), the outer end of the first limiting plate (25) is fixedly connected with the conveying platform (2) and abutted to the material conveying rod (23), one side, close to the material conveying rod (23), of the second limiting plate (26) is provided with an inclined discharging slope (27) which is obliquely arranged, and the width of the inclined discharging slope (27) and the material conveying rod (23) with one end discharging gap is gradually increased from one side, close to the first limiting plate (25), of the second limiting plate (26) to one side, close to the lifting feeding assembly (9).

8. The automatic rotary bottle feeding mechanism for medicine bottles of claim 6, wherein said feeding rod (23) and said bottle body clamping block (15) are made of plastic.

9. The automatic rotary bottle feeding mechanism for the medicine bottles of any one of claims 1 to 8, wherein a side baffle (28) is further arranged on one side of the conveying platform (2) close to the lifting feeding assembly (9), and the inner side of the side baffle (28) is arc-shaped.

10. The automatic rotary bottle feeding mechanism for medicine bottles of any one of claims 1 to 8, wherein said rotary driving assembly (6) comprises a rotary driver (29) disposed in said housing (1), said rotary driver (29) having a rotatable output shaft, the end of said output shaft of said rotary driver (29) penetrating the top of said housing (1) and being connected to said rotary base (5); the rotating seat (5) is fixedly connected with a limiting seat (30) with an annular cross section, the rotating seat (5) is arranged in the limiting seat (30), and the outer side wall of the rotating seat (5) is abutted against the inner side wall of the limiting seat (30).

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