CN219905742U - Bottle separating and sorting device capable of automatically adjusting direction of bottle mouth - Google Patents

Abstract

The utility model discloses a bottle separating and sorting device capable of automatically adjusting the direction of a bottle opening, and belongs to the technical field of automation. The bottle collecting and sorting machine comprises a feeding conveying belt, an equally-dividing plate bottle sorting mechanism and a discharging conveying belt, wherein the equally-dividing plate bottle sorting mechanism comprises an equally-dividing plate, a bottle collecting track plate below the equally-dividing plate and a guardrail plate outside the equally-dividing plate, the equally-dividing plate is uniformly provided with a plurality of open slots along the circumferential direction of the equally-dividing plate, bottle blocking pins are arranged in the open slots, and the rear end of the feeding conveying belt is right opposite to one open slot at the front end of the equally-dividing plate; the rear end of the feeding conveyer belt is provided with a sliding plate, the sliding plate is positioned in the adjacent front of the dividing plate, the middle part of the rear side of the sliding plate extends backwards to form a shielding plate matched with the open slot, the outer edge of the dividing plate is coaxially provided with an annular gap for the shielding plate to be inserted, the open slot is a stepped slot which is stepped from inside to outside, the inner end of the bottle blocking pin is fixed on the second step surface of the stepped slot, the outer end of the bottle blocking pin is flush with the first step surface of the stepped slot, and the shielding plate is positioned in the annular gap and is positioned above the adjacent horizontal step surface of the stepped slot.

Description

Bottle separating and sorting device capable of automatically adjusting direction of bottle mouth

Technical Field

The utility model belongs to the technical field of automation, and particularly relates to a bottle separating and sorting device capable of automatically adjusting the direction of a bottle opening, which is used for producing disinfection spray.

Background

The disinfection spray generally comprises a bottle body, disinfection liquid in the bottle body, a spray pump head at the bottle mouth of the bottle body, a cover body sleeved on the spray pump head and the like. On the filling production line of disinfection spraying, its front portion is equipped with feed tray and divides bottle reason material device from front to back in proper order, and the feed tray lets single bottle fall and carries to divide bottle reason material device in proper order, divides bottle reason material device to let the bottle stand (bottleneck upwards) and separate.

The patent of application number CN201020549011.2 discloses a penicillin bottle arranging machine, including conveying mechanism, partition dish bottle mechanism and power transmission mechanism, conveying mechanism constitute by conveyer belt, penicillin bottle and sensor, the sensor establish in the top of conveyer belt, partition dish bottle arranging mechanism constitute by partition dish, fender bottle round pin, receipts bottle track board, receipts bottle layer board and mesa, the center of partition dish is connected on power transmission mechanism's rotation axis, partition dish open along the circumferencial direction and have a plurality of evenly arranged open slots, receive bottle track board insert the open slot and receive bottle layer board together and fix on the mesa, the rotation axis drives the partition dish and rotates for the clearance. The bottle holding chassis is arranged below the equal dividing plate, the guardrail plate is arranged on the outer side of the equal dividing plate and fixedly arranged on the bottle holding chassis, the width and the depth of the opening groove of the equal dividing plate are slightly larger than those of the penicillin bottle, and a bottle blocking pin is connected to the notch of each opening.

The operating principle of the penicillin bottle arranging machine is as follows: when the equipment is electrified, the conveyor belt is driven to rotate by the motor, penicillin bottles on the conveyor belt move towards the direction of the equal dividing disc, when the sensor on the conveyor belt detects the penicillin bottles, the sensor sends signals to the frequency converter of the motor, the motor is started after receiving the starting signals to drive the main shaft to do 360-degree rotation, the main shaft rotates to drive the cam to rotate, the spiral groove of the cam is contacted with the rotor of the dividing disc, the rotor of the dividing disc moves along the spiral groove of the cam, the dividing disc rotates along with the rotation of the cam to do clearance type rotation, the rotating shaft connected with the dividing disc rotates, and the equal dividing disc connected with the rotating shaft also rotates at the same clearance type. Each time the dividing plate rotates by 30 degrees, the opening of the dividing plate corresponds to the position of the conveying belt each time. When the motor is started to rotate once, penicillin bottles on the conveyor belt can just enter the openings of the equal dividing plate corresponding to the conveyor belt, and subsequent bottle tidying actions are to be performed. When bottles enter the equal dividing disc, and after the motor receives a starting signal of the sensor, the motor is started to drive the equal dividing disc to rotate, so that the penicillin bottles entering the equal dividing disc rotate to the next station of the equal dividing disc. If the bottle mouth of the penicillin bottle is directly corresponding to the bottle blocking pin, the bottle bottom is just at the inner side of the guardrail plate, the penicillin bottle falls onto the bottle supporting base plate firstly due to the fact that the bottle blocking pin blocks the bottle mouth under the effect of self gravity, the bottle bottom of the penicillin bottle faces upwards, the penicillin bottle stands or obliquely stands on the bottle supporting base plate, the penicillin bottle sensor continuously receives and sends a starting signal to the frequency converter of the motor along with the continuous conveying of the conveying belt, the motor is started to indirectly drive the equally-divided plate to do intermittent rotation, the bottle mouth upwards stands or the penicillin bottle obliquely stands on the bottle supporting base plate to do circular motion around the rotating shaft, and the distance between the cambered surface of the bottle receiving track plate and the guardrail plate is smaller and smaller until the diameter of the penicillin bottle is smaller, so that the penicillin bottle slowly moves out of the bottle supporting plate and stands completely, and along with the accumulation of the penicillin bottle, the penicillin bottle is mutually pushed onto the bottle supporting plate, and the penicillin bottle is finished.

The bottle body in the bottle unscrambler begins to topple at the open slot at the front end of the equal dividing disc to adjust the direction, and the open slot at the front end is the feeding end of the equal dividing disc; the vials (horizontally disposed) are typically fed with their orderly held against each other. The feeding and the direction adjustment are simultaneously carried out in the same open slot, the two processes can interfere with each other, and the results of unsmooth feeding or poor direction adjustment effect can occur.

Disclosure of Invention

In order to solve the problems, the embodiment of the utility model provides the bottle separating and arranging device capable of automatically adjusting the direction of the bottle opening, through the arrangement of the slide plate and the special structure of the equally dividing disc, the open slot at the front end is only used for feeding, and the second station is used for starting dumping and reversing, so that the mutual interference of the two processes is avoided, and the bottle arranging effect is ensured. The technical scheme is as follows:

the embodiment of the utility model provides a bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening, which comprises a feeding conveying belt 1, an equal-dividing-plate bottle arranging mechanism and a discharging conveying belt 2 which are sequentially arranged from front to back, wherein the equal-dividing-plate bottle arranging mechanism comprises an equal-dividing plate 3 capable of dividing and rotating, a bottle collecting track plate 4 below the equal-dividing plate 3 and a guardrail plate 5 outside the equal-dividing plate 3, a plurality of open slots 6 are uniformly arranged on the equal-dividing plate 3 along the circumferential direction of the equal-dividing plate 3, bottle blocking pins 7 are arranged in the open slots 6, and the rear end of the feeding conveying belt 1 is opposite to one open slot 6 at the front end of the equal-dividing plate 3; the rear end of the feeding conveyer belt 1 is provided with a sliding plate 16 which is flush with the sliding plate, the sliding plate 16 is positioned in the adjacent front of the dividing plate 3, the middle part of the rear side of the sliding plate extends backwards to form a shielding plate 8 matched with the open slot 6, the outer edge of the dividing plate 3 is coaxially provided with an annular gap 9 for the shielding plate 8 to be inserted, the open slot 6 is a stepped slot which is stepped from inside to outside, the inner end of the bottle blocking pin 7 is fixed on the second step surface of the stepped slot, the outer end of the bottle blocking pin is flush with the first step surface of the stepped slot, and the shielding plate 8 is positioned in the annular gap 9 and is positioned above the adjacent horizontal step surface of the stepped slot.

The sliding plate 16 in the embodiment of the present utility model is a T-shaped plate, and the upper surface thereof is smooth.

Specifically, the shielding plate 8 in the embodiment of the present utility model is a rectangular plate disposed in the front-rear direction, and the left and right sides thereof are respectively located adjacent inner sides of the left and right sides of the open slot 6 at the front end of the dividing plate 3.

The equally-dividing disc 3 in the embodiment of the utility model comprises a rotating shaft which is vertically arranged, and an upper rotary disc 10 and a lower rotary disc 11 which are vertically arranged side by side, wherein an annular gap 9 is formed by a gap between the upper rotary disc 10 and the lower rotary disc 11, and the shielding plate 8 is positioned between the upper rotary disc 10 and the lower rotary disc 11; the outer edges of the upper turntable 10 and the lower turntable 11 are flush, and a plurality of upper rectangular openings 12 and a plurality of lower rectangular openings 13 are respectively arranged on the upper turntable and the lower turntable; the plurality of upper rectangular openings 12 are uniformly distributed around the upper turntable 10 and are all arranged along the radial direction of the upper turntable 10, the plurality of lower rectangular openings 13 are uniformly distributed around the lower turntable 11 and are all arranged along the radial direction of the lower turntable 11, and the upper rectangular openings 12 are arranged in one-to-one correspondence with the lower rectangular openings 13; the upper rectangular opening 12 is flush with the left side and the right side of the corresponding lower rectangular opening 13, and the inner side edge of the upper rectangular opening is positioned at the inner side of the inner side edge of the corresponding lower rectangular opening 13 to form a stepped groove; the bottle blocking pin 7 is arranged in the middle of the inner side edge of the upper rectangular opening 12.

The bottle blocking pin 7 in the embodiment of the utility model is arranged along the radial direction of the upper rotary disk 10, is a round rod, and the outer end of the round rod is flush with the inner side edge of the lower rectangular opening 13.

The feeding conveyer belt 1 and the discharging conveyer belt 2 in the embodiment of the utility model are arranged along the front-back direction, and the front end of the discharging conveyer belt 2 is positioned under the open slot 6 at the rear end of the dividing plate 3.

The guardrail plate 5 in the embodiment of the utility model is an arc-shaped plate, is perpendicular to the bisecting disc 3, is positioned between the feeding conveyor belt 1 and the discharging conveyor belt 2, gradually approaches the bisecting disc 3 from front to back, gradually rises from front to back on the upper side of the front part, and is positioned on the adjacent outer side of the bisecting disc 3 on the rear part.

Preferably, the front end of the guardrail plate 5 in the embodiment of the present utility model is provided with a buffer sleeve 14.

The bottle collecting track plate 4 in the embodiment of the utility model is an arc-shaped plate which is vertical to the dividing plate 3, is positioned between the feeding conveying belt 1 and the discharging conveying belt 2, and gradually reduces the distance between the bottle collecting track plate and the outer edge of the dividing plate 3 from front to back to be parallel to the guardrail plate 5; the rear ends of the guardrail plates 5 and the rear ends of the bottle collecting track plates 4 are respectively positioned at the adjacent outer side and the adjacent inner side of the bottle body 15.

The technical scheme provided by the embodiment of the utility model has the beneficial effects that: the embodiment of the utility model provides a bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening, which is characterized in that through the arrangement of a sliding plate (the transition between a feeding conveyer belt and an equal dividing plate is realized, a shielding plate is prevented from toppling) and the equal dividing plate (an opening groove is a stepped groove, a bottle blocking pin is arranged at the upper part of the stepped groove, an annular gap is arranged on the equal dividing plate, and the like), the opening groove at the front end only feeds, and topples and changes direction only at a second station, so that the mutual interference of two processes is avoided, and the bottle arranging effect is ensured.

Drawings

FIG. 1 is a schematic diagram of a bottle separating and sorting device capable of automatically adjusting the direction of a bottle opening according to an embodiment of the utility model;

FIG. 2 is an operational state diagram of FIG. 1;

fig. 3 is a schematic view of the combination of the dividing plate and the slide plate.

In the figure: 1 feeding conveyer belt, 2 discharging conveyer belt, 3 dividing plate, 4 receipts bottle track board, 5 guardrail board, 6 open slot, 7 keep off bottle round pin, 8 shielding plate, 9 annular gap, 10 upper turntable, 11 lower turntable, 12 upper rectangular mouth, 13 lower rectangular mouth, 14 buffer cover, 15 bottle, 16 slide.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent.

Example 1

Referring to fig. 1-3, an embodiment of the utility model provides a bottle separating and sorting device capable of automatically adjusting the direction of a bottle opening, which comprises a feeding conveyer belt 1, an equal-dividing-disc bottle sorting mechanism, a discharging conveyer belt 2 and the like which are sequentially arranged from front to back. The bottle bodies 15 on the feeding conveyer belt 1 are horizontally arranged and sequentially propped together, and the bottle bodies 15 on the discharging conveyer belt 2 are vertically arranged and are arranged at intervals. The bottle arranging mechanism of the dividing disc comprises a table top (not shown), the dividing disc 3 capable of dividing and rotating, a bottle collecting track plate 4 below the dividing disc 3, a guardrail plate 5 outside the dividing disc 3 and the like; the table top is horizontally arranged, and the surface of the table top is smooth (the bottle bottom is easy to slide); the rotary shaft of the aliquoting disk 3 is rotationally arranged on the table top and driven to rotate in an indexing way by a driving structure below the table top, and the bottle collecting track plate 4 and the guardrail plate 5 are fixed on the table top and matched with the table top for guiding the bottle body 15 to the discharging conveying belt 2. The equally dividing disc 3 is uniformly provided with a plurality of open slots 6 along the circumferential direction; the open slot 6 is arranged in the radial direction of the dividing plate 3 and has a width slightly larger than the diameter of the bottle body 15. The open slot 6 is internally provided with a bottle blocking pin 7, and the rear end of the feeding conveyer belt 1 is opposite to one open slot 6 at the front end of the equal dividing disc 3. The structure is basically the same as that of the existing bottle separating and arranging device, and the difference is that:

the rear end of the feeding conveyer belt 1 in the embodiment is provided with a sliding plate 16 which is flush with the rear end; a slide plate 16 is provided in the front-rear direction for effecting sliding of the bottle body 15 by the feed conveyor 1 into the open groove 6 (pushed by the bottle body 15 in front). The length of the slide plate 16 is short, and its length (plus the length of the shielding plate 8) is smaller than the height of the bottle body 15 (when it is vertical). The sliding plate 16 is positioned adjacent to the front of the dividing plate 3, and the middle part of the rear side thereof extends backwards to form a shielding plate 8 matched with the open slot 6. The shielding plate 8 shields the open slot 6 at the front end, and prevents the bottle body 15 in the open slot 6 at the front end from turning over. The outer edge of the equally dividing disc 3 is coaxially provided with an annular gap 9 for inserting a shielding plate 8; the annular gap 9 is arranged horizontally, which ensures that the dividing plate 3 can be rotated in an indexing manner. The open slot 6 is a stepped slot (including a first step surface at the lower part, a second step surface at the upper part, and a horizontal step surface between the first step surface and the second step surface, the first step surface and the second step surface are vertically arranged, and the horizontal step surface is horizontally arranged) which is stepped from inside to outside. The inner end of the bottle blocking pin 7 is fixed on the second step surface of the step groove, and the outer end of the bottle blocking pin is level with the first step surface of the step groove. The size setting of the step groove is to guarantee: when the bottle mouth of the bottle body 15 is backward, in the subsequent open groove 6, the bottle bottom of the bottle body 15 can be turned down and the bottle mouth can be separated from the bottle blocking pin 7. The shielding plate 8 is located in the annular gap 9 and it is located adjacent above the horizontal step surface of the step groove. The stepped groove is provided to guide the bottle body 15 to be poured (with the bottle mouth being directed rearward).

The operation of the device is similar to that of application number CN201020549011.2, except that the bottle 15 does not topple over in the open slot 6 at the front end, but rather at the second station (the second open slot 6 in the direction of rotation of the dividing plate 3).

Referring to fig. 1-3, the sliding plate 16 in the embodiment of the present utility model is a T-shaped plate, and the upper surface thereof is smooth, which may be a stainless steel plate.

Specifically, referring to fig. 1 to 3, the shielding plate 8 in the embodiment of the present utility model is a rectangular plate disposed in the front-rear direction, with its left and right sides respectively located adjacent inner sides of the left and right sides of the open slot 6 at the front end of the dividing plate 3, and its rear side located in front of the first step surface.

Referring to fig. 3, the dividing disc 3 in the embodiment of the present utility model includes a vertically arranged rotating shaft, and an upper rotating disc 10 and a lower rotating disc 11 which are arranged side by side up and down, where the lower part of the rotating shaft is rotatably arranged on the table top. The upper turntable 10 and the lower turntable 11 are horizontally arranged and have the same size. The gap between the upper turntable 10 and the lower turntable 11 forms an annular gap 9, and the shielding plate 8 is located between the upper turntable 10 and the lower turntable 11. Specifically, the shielding plate 8 is located adjacently above the lower turntable 11, and is located adjacently below the upper turntable 10. The outer edges of the upper rotary disk 10 and the lower rotary disk 11 are flush, and a plurality of upper rectangular openings 12 and a plurality of lower rectangular openings 13 are respectively arranged on the upper rotary disk and the lower rotary disk. The number of upper rectangular openings 12 and lower rectangular openings 13 are equal. The plurality of upper rectangular openings 12 are uniformly distributed around the upper turntable 10 and are all arranged along the radial direction of the upper turntable 10, the plurality of lower rectangular openings 13 are uniformly distributed around the lower turntable 11 and are all arranged along the radial direction of the lower turntable 11, and the upper rectangular openings 12 are arranged in one-to-one correspondence with the lower rectangular openings 13. The upper rectangular opening 12 is flush with the left and right sides of the corresponding lower rectangular opening 13 (for example, the rectangular opening is along the front and rear directions); the inner side edge (as a second step surface) of the upper rectangular opening 12 is located inside the inner side edge (as a first step surface) of the corresponding lower rectangular opening 13 to form a step groove. The bottle blocking pin 7 is arranged in the middle of the inner side edge of the upper rectangular opening 12. The stepped groove formed by the double-layer turnplate can be suitable for a higher bottle body, the lower turnplate 11 is positioned at the lower part of the bottle body 15, and the upper turnplate 10 is positioned at the upper part of the bottle body.

1-3, the bottle blocking pin 7 in the embodiment of the utility model is arranged along the radial direction of the upper rotary disc 10 and is a round rod, the outer end of the round rod is flush with the inner side edge of the lower rectangular opening 13, and the outer end of the round rod is an arc-shaped end.

Referring to fig. 1-2, in the embodiment of the present utility model, the feeding conveyor belt 1 and the discharging conveyor belt 2 are both disposed along the front-back direction, the front end of the discharging conveyor belt 2 is located under the open slot 6 at the rear end of the dividing plate 3, the speed of the feeding conveyor belt 1, the discharging conveyor belt 2 and the dividing plate 3 are matched, and when the open slot 6 at the front end is opposite to the feeding conveyor belt 1, the open slot 6 at the rear end is located just above the front end of the discharging conveyor belt 2.

Referring to fig. 1-2, the guardrail plate 5 in the embodiment of the utility model is an arc-shaped plate, which is perpendicular to the dividing disc 3, is positioned on the left side or the right side of the dividing disc 3, is positioned between the feeding conveyor belt 1 and the discharging conveyor belt 2, gradually approaches the dividing disc 3 from front to back, is lower on the upper side of the front end than the sliding plate 16, gradually rises from front to back to form an inclined plane on the upper side of the front end, and is positioned on the adjacent outer side of the dividing disc 3 on the rear side. In the second station, if the bottle opening of the bottle body 15 is forward, the bottle bottom of the bottle body 15 is inclined downwards due to the weight, the bottle body 15 is arranged downwards from inside to outside, the bottle opening of the bottle body 15 is separated from the bottle blocking pin 7, and the bottle bottom of the bottle body 15 is positioned at the inner side of the guardrail plate 5. If the bottle mouth of the bottle body 15 is backward, the bottle bottom of the bottle body 15 is propped against the bottle blocking pin 7 and the first-step surface, the bottle body 15 is obliquely upwards arranged from inside to outside, and the bottle mouth of the bottle body 15 is slidably arranged on the upper side of the guardrail plate 5 to be righted.

Preferably, referring to fig. 1-2, the front end of the guardrail plate 5 in the embodiment of the present utility model is provided with a buffer sleeve 14 (specifically, a rubber sleeve) to avoid the collision of the bottle mouth of the bottle body 15.

Referring to fig. 1-2, the bottle receiving track plate 4 in the embodiment of the present utility model is an arc plate, which is perpendicular to the dividing tray 3, is located on the left side or the right side of the dividing tray 3, is located on the same side as the guardrail plate 5, is located between the feeding conveyor 1 and the discharging conveyor 2, is located at the front end of the feeding conveyor and the third station or the fourth station (where the bottle body 15 is already erected), is located at the rear end of the feeding conveyor and the fourth station (where the bottle body 15 is already erected), and is located at the penultimate station (where the opening groove 6 at the rear end is adjacent to the opening groove 6 at the front), and the distance between the feeding conveyor and the guardrail plate is gradually reduced from front to rear to be parallel to the guardrail plate 5. The rear ends of the guardrail plates 5 and the rear ends of the bottle receiving track plates 4 are respectively positioned at the adjacent outer side and the adjacent inner side of the bottle body 15 so as to position the bottle body 15.

Example 2

Embodiment 2 provides a bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening, and the structure of the bottle separating and arranging device is basically the same as that of embodiment 1, and the difference is that: the number of the open grooves 6 in the embodiment is 18, and the included angle between two adjacent open grooves 6 is 20 degrees; correspondingly, the number of the upper rectangular opening 12, the lower rectangular opening 13 and the bottle blocking pins 7 is 18, and the indexing angle of the bisecting disc 3 is 20 degrees. The dividing plate 3 rotates rightwards, the guardrail plate 5 and the bottle collecting track plate 4 are both positioned on the right side of the rotating shaft of the dividing plate 3, and the bottle collecting track plate 4 is from a fourth station to a penultimate station.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (9)

1. The bottle sorting and arranging device capable of automatically adjusting the bottle opening direction comprises a feeding conveying belt (1), an equal-dividing-plate bottle sorting mechanism and a discharging conveying belt (2) which are sequentially arranged from front to back, wherein the equal-dividing-plate bottle sorting mechanism comprises an equal dividing plate (3) capable of rotating in an indexing mode, a bottle collecting track plate (4) below the equal dividing plate (3) and a guardrail plate (5) on the outer side of the equal dividing plate (3), a plurality of open slots (6) are uniformly formed in the equal dividing plate (3) along the circumferential direction of the equal dividing plate, bottle blocking pins (7) are arranged in the open slots (6), and the rear end of the feeding conveying belt (1) is opposite to one open slot (6) on the front end of the equal dividing plate (3); the feeding conveyor belt is characterized in that a sliding plate (16) flush with the feeding conveyor belt is arranged at the rear end of the feeding conveyor belt (1), the sliding plate (16) is positioned adjacent to the front part of the dividing plate (3) and the middle part of the rear side of the dividing plate extends backwards to form a shielding plate (8) matched with the opening groove (6), an annular gap (9) for the shielding plate (8) to be inserted is coaxially arranged at the outer edge of the dividing plate (3), the opening groove (6) is a stepped groove for descending from inside to outside, the inner end of the bottle blocking pin (7) is fixed on the second step surface of the stepped groove and the outer end of the bottle blocking pin is flush with the first step surface of the stepped groove, and the shielding plate (8) is positioned in the annular gap (9) and is positioned adjacent above the horizontal step surface of the stepped groove.

2. The bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening according to claim 1, wherein the sliding plate (16) is a T-shaped plate, and the upper surface of the sliding plate is smooth.

3. The bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening according to claim 2, wherein the shielding plate (8) is a rectangular plate arranged along the front-back direction, and the left side and the right side of the shielding plate are respectively positioned at the adjacent inner sides of the left side and the right side of the open slot (6) at the front end of the dividing plate (3).

4. The bottle separating and arranging device capable of automatically adjusting the bottle opening direction according to claim 1, wherein the equally dividing plate (3) comprises a rotating shaft which is vertically arranged, an upper rotating plate (10) and a lower rotating plate (11) which are arranged side by side up and down, a gap between the upper rotating plate (10) and the lower rotating plate (11) forms an annular gap (9), and the shielding plate (8) is positioned between the upper rotating plate (10) and the lower rotating plate (11); the outer edges of the upper rotary table (10) and the lower rotary table (11) are flush, and a plurality of upper rectangular openings (12) and a plurality of lower rectangular openings (13) are respectively arranged on the upper rotary table and the lower rotary table; the plurality of upper rectangular openings (12) are uniformly distributed around the upper turntable (10) and are all arranged along the radial direction of the upper turntable (10), the plurality of lower rectangular openings (13) are uniformly distributed around the lower turntable (11) and are all arranged along the radial direction of the lower turntable (11), and the upper rectangular openings (12) and the lower rectangular openings (13) are arranged in one-to-one correspondence; the upper rectangular opening (12) is flush with the left side edge and the right side edge of the corresponding lower rectangular opening (13), and the inner side edge of the upper rectangular opening is positioned at the inner side of the inner side edge of the corresponding lower rectangular opening (13) to form a stepped groove; the bottle blocking pin (7) is arranged in the middle of the inner side edge of the upper rectangular opening (12).

5. The bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening according to claim 4, wherein the bottle blocking pin (7) is arranged along the radial direction of the upper rotary disc (10) and is a round rod, and the outer end of the round rod is flush with the inner side edge of the lower rectangular opening (13).

6. The bottle separating and arranging device capable of automatically adjusting the bottle opening direction according to claim 1, wherein the feeding conveying belt (1) and the discharging conveying belt (2) are arranged in the front-back direction, and the front end of the discharging conveying belt (2) is positioned under an open slot (6) at the rear end of the equally dividing disc (3).

7. The bottle separating and arranging device capable of automatically adjusting the bottle opening direction according to claim 1, wherein the guardrail plate (5) is an arc-shaped plate which is perpendicular to the dividing plate (3), is positioned between the feeding conveyor belt (1) and the discharging conveyor belt (2), gradually approaches the dividing plate (3) from front to back, gradually rises from front to back on the upper side of the front, and is positioned on the adjacent outer side of the dividing plate (3) on the rear.

8. The bottle separating and arranging device capable of automatically adjusting the direction of a bottle opening according to claim 7, wherein a buffer sleeve (14) is arranged at the front end of the guardrail plate (5).

9. The bottle separating and arranging device capable of automatically adjusting the bottle opening direction according to claim 7, wherein the bottle collecting track plate (4) is an arc plate which is perpendicular to the dividing plate (3), is positioned between the feeding conveyor belt (1) and the discharging conveyor belt (2), and gradually reduces the distance between the bottle collecting track plate and the outer edge of the dividing plate (3) from front to back to be parallel to the guardrail plate (5); the rear ends of the guardrail plates (5) and the rear ends of the bottle collecting track plates (4) are respectively positioned at the adjacent outer sides and the adjacent inner sides of the bottle bodies (15).