CN113511621A

CN113511621A - Full-automatic batch loading mechanism for production line

Info

Publication number: CN113511621A
Application number: CN202110403347.0A
Authority: CN
Inventors: 吴春华
Original assignee: Faber Shanghai Automation Technology Co ltd
Current assignee: Faber Shanghai Automation Technology Co ltd
Priority date: 2021-04-15
Filing date: 2021-04-15
Publication date: 2021-10-19
Anticipated expiration: 2041-04-15
Also published as: CN113511621B

Abstract

The invention discloses a full-automatic batch loading mechanism for a production line, which comprises a first working platform, a second working platform and a third working platform which are sequentially arranged from high to low, wherein a filling bottle finishing device is arranged on the first working platform, and comprises a finishing disc and a filling bottle finishing part arranged in the finishing disc; a filling bottle feeding device is arranged on the second working platform and comprises a feeding plate, a plurality of rotary feeding frames arranged on the feeding plate and a bottle mouth cleaning part arranged on the rotary feeding frames; the third working platform is provided with a coordinated feeding device, the coordinated feeding device comprises a track disc, a sliding frame arranged on the side wall of the track disc, a feeding box arranged on the upper surface of the sliding frame, a discharging part arranged on the side wall of the feeding box, a placing hole arranged at the top of the feeding box and a bottle cleaning part arranged in the placing hole. The invention provides a feeding mechanism which is convenient for coordinated processing among processing devices and is convenient for cleaning the outer wall of a filling bottle.

Description

Full-automatic batch loading mechanism for production line

Technical Field

The invention mainly relates to the technical field of production line feeding, in particular to a full-automatic batch feeding mechanism for a production line.

Background

The feeding rate and the feeding uniformity of the filling bottles in the filling process can directly influence the filling efficiency and subsequent capping processes.

According to a filling bottle automatic feeding mechanism that patent document that application number is CN201921980090.X provided, this product includes two components of transport mechanism and rotary mechanism, wherein, transport mechanism includes conveying platform, has set up the supporting leg at conveying platform lower extreme, has set up the action wheel on conveying platform, and conveying motor A has been connected to the action wheel, and rotary mechanism adopts the star gear structure, and rotary mechanism includes the support workstation, has set up the work carousel on the support workstation. This product structural design is compact, and is rotatory steady, has reduced artifical intensity of labour, has avoided the dead phenomenon of bottle card simultaneously.

The dead phenomenon of bottle card can be avoided to the product in the above-mentioned patent, but the filling bottle of being not convenient for is quick neat material loading, and the processing of coordinating between each processingequipment of being not convenient for, and is not convenient for clean polishing the filling bottle outer wall.

Disclosure of Invention

The invention mainly provides a full-automatic batch feeding mechanism for a production line, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a full-automatic batch loading mechanism for a production line comprises a first working platform, a second working platform and a third working platform which are sequentially arranged from high to low, wherein a filling bottle arranging device is arranged on the first working platform, and comprises an arranging disc arranged at the top of the first working platform, a filling bottle arranging part arranged in the arranging disc and a guide pipe which is arranged at the discharge end of the arranging disc and extends obliquely downwards;

the second working platform is provided with a filling bottle feeding device, the filling bottle feeding device comprises a feeding plate arranged on the second working platform, a plurality of rotary feeding frames and a bottle mouth cleaning part, the rotary feeding frames are arranged on the feeding plate in a circumferential array mode and used for receiving filling bottles discharged out through a material guide pipe, and the bottle mouth cleaning part is arranged at the top of each rotary feeding frame;

be equipped with coordinated loading attachment on the third work platform, coordinate loading attachment including locating the track dish at third work platform top, sliding connection a plurality of carriages of track dish lateral wall, sliding connection carriage upper surface just are used for accepting the last workbin that the work or material rest unloaded the filling bottle through rotating, locate the part of unloading of last workbin lateral wall is located go up workbin top and downwardly extending's a plurality of holes of placing to and locate and place downthehole bottle cleaning element.

Preferably, the filling bottle arrangement part comprises a guide rail plate connected with the top of the side wall of the arrangement disc through a first connecting plate, a material shifting plate connected with the top of the side wall of the arrangement disc through a second connecting plate and used for shifting filling bottles into the space between the guide rail plate and the side wall of the arrangement disc, and a cleaning brush plate arranged on the guide rail plate and the side wall of the arrangement disc. In this preferred embodiment, be convenient for through filling bottle arrangement part with filling bottle leading-in passage in proper order to the filling bottle lateral wall can be cleaned to the clean brush board when filling bottle arrangement is arranged.

Preferably, arrangement dish inner wall bottom is equipped with filling bottle moving part, filling bottle moving part is including locating the first motor of arrangement dish bottom, the first motor output runs through the arrangement dish and connects the drive carousel, guide rail board and switch plate below are located to the drive carousel. In the preferred embodiment, the filling bottles are driven to rotate in the arranging disc by the filling bottle moving part, so that the filling bottles are pushed into the space between the guide rail plate and the side wall of the arranging disc by the poking plate.

Preferably, the feed guide discharge end is equipped with filling bottle stop part, filling bottle stop part is located including locating the second motor of feed guide lateral wall the spacing shelves pole in second motor output just extends to the feed guide. In the preferred embodiment, the discharging of the guide tubes is controllable through the filling bottle limiting part.

Preferably, the rotary feeding frame comprises a disc, a plurality of feeding pipes are arranged on the disc in an annular array mode, a third motor is arranged at the bottom of the feeding plate, and an output end of the third motor penetrates through the feeding plate to be connected with the bottom of the disc. In the preferred embodiment, the filling bottles discharged through the material guide pipe are conveniently loaded into the material loading box one by one through the material loading frame.

Preferably, the bottleneck cleaning part comprises extension plates symmetrically arranged at the tops of the feeding pipes, telescopic cylinders arranged on the side walls of the extension plates, bottleneck cleaning brushes arranged at the output ends of the telescopic cylinders, a fourth motor arranged on the circular disc, and a tank rotating disc arranged at the output end of the fourth motor and with a side wall penetrating through each feeding pipe side wall. In the preferred embodiment, the bottleneck cleaning component is used for cleaning the bottleneck of the filling bottle in the feeding pipe, so that the subsequent filling and capping are facilitated.

Preferably, the top of the sliding frame is provided with a plurality of driving motors, the output end of each driving motor penetrates through the sliding frame and extends to the inner connecting roller, and the rollers contact with the side wall of the track disc. In the preferred embodiment, the driving motor and the roller are matched to facilitate the sliding of the sliding frame on the side wall of the track disc.

Preferably, the bottom of the upper material box is provided with a displacement component, the displacement component comprises linear guide rails symmetrically arranged on the upper surface of the sliding frame, and the execution ends of the linear guide rails are connected with the bottom of the upper material box. In the preferred embodiment, the horizontal movement of the feeding box is realized by the displacement component, so that the feeding, filling and capping processing are facilitated.

Preferably, the unloading part comprises an L-shaped material baffle plate and an air cylinder, wherein one end of the L-shaped material baffle plate penetrates through the side wall of the upper material box and extends to the inside of the upper material box, and the air cylinder is arranged on the outer wall of the upper material box and used for driving the L-shaped material baffle plate to move. In the preferred embodiment, the discharging part is used for facilitating the discharging of the finished filling bottles.

Preferably, the bottle cleaning component comprises a cleaning barrel connected with the inner wall of the placing hole in a rotating manner, each cleaning barrel is arranged on the outer wall of the cleaning barrel, the gear disks are adjacent to each other, gears between the gear disks are connected in a matched manner, the transmission motors are arranged on the outer wall of the feeding box, the output ends of the transmission motors are connected with a driving gear, and the driving gear is used for driving one of the gear disks to rotate. In the preferred embodiment, the bottle cleaning component is used for facilitating the cleaning of the bottles filled in the loading bin.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, filling bottles are conveniently led into the material guide pipes in sequence through the filling bottle arranging part, the side walls of the filling bottles can be cleaned by the cleaning brush plate while the filling bottles are arranged, the filling bottles are driven to rotate in the arranging disc through the filling bottle moving part, so that the filling bottles are pushed into the space between the guide rail plate and the side walls of the arranging disc through the material pushing plate, the discharging of the material guide pipes is controllable through the filling bottle limiting part, the filling bottles unloaded from the material guide pipes are conveniently loaded into the material loading box one by one through the material loading frame, the bottle openings of the filling bottles in the material loading pipe are conveniently cleaned through the bottle opening cleaning part, the subsequent filling and capping are convenient, the sliding frame can conveniently slide on the side walls of the track disc through the matching of the driving motor and the rollers, a plurality of sliding frames can independently and circularly move, and the plurality of sliding frames can continuously move among the processing devices through adjusting the quantity proportion of the processing devices such as a filling machine and a cover screwing machine, each processingequipment all exerts maximum work efficiency, realizes the horizontal migration of material loading case through displacement part, and the material loading of being convenient for, filling and gland processing are convenient for clean the bottle of filling bottle in the material loading case through the clean part of bottle, are convenient for unload the filling bottle after the processing is accomplished through the part of unloading.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is an isometric view of the overall construction of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

fig. 3 is an exploded view of the filling bottle arranging device of the present invention;

fig. 4 is an exploded view of the filling bottle feeding device structure of the present invention;

FIG. 5 is an exploded view of the coordinated loading device of the present invention;

FIG. 6 is a top view of the overall structure of the present invention;

FIG. 7 is a cross-sectional view of the overall construction of the present invention;

FIG. 8 is a sectional view showing the structure of the bottle cleaning part of the present invention.

Description of the drawings: 10. a first work platform; 11. a second work platform; 12. a third working platform; 20. a filling bottle arranging device; 21. arranging a plate; 22. a filling bottle arranging part; 221. a first connecting plate; 222. a guide rail plate; 223. a second connecting plate; 224. a kick-out plate; 225. cleaning the brush plate; 23. a material guide pipe; 24. a filling bottle moving member; 241. a first motor; 242. driving the turntable; 25. a filling bottle limiting part; 251. a second motor; 252. a limiting stop lever; 30. a filling bottle feeding device; 31. feeding plates; 32. a feeding frame; 321. a disc; 322. feeding pipes; 323. a third motor; 33. a bottleneck cleaning component; 331. an extension plate; 332. a telescopic cylinder; 333. a bottle mouth cleaning brush; 334. a fourth motor; 335. a tank rotating disc; 40. coordinating a feeding device; 41. a track disk; 42. a carriage; 421. a drive motor; 422. a roller; 43. feeding a material box; 44. a discharge member; 441. an L-shaped striker plate; 442. a cylinder; 45. placing holes; 46. a bottle cleaning member; 461. a cleaning cartridge; 462. a gear plate; 463. a drive motor; 464. a drive gear; 47. a displacement member; 471. a linear guide rail.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1, 2, 3, and 6, in a preferred embodiment of the present invention, a full-automatic batch loading mechanism for a production line includes a first working platform 10, a second working platform 11, and a third working platform 12 sequentially arranged from high to low, wherein a filling bottle arranging device 20 is disposed on the first working platform 10, the filling bottle arranging device 20 includes an arranging tray 21 disposed on the top of the first working platform 10, a filling bottle arranging member 22 disposed in the arranging tray 21, and a material guiding tube 23 disposed at a discharge end of the arranging tray 21 and extending obliquely downward; the filling bottle organizing member 22 includes a rail plate 222 connected to the top of the sidewall of the organizing tray 21 by a first connecting plate 221, a kick-out plate 224 connected to the top of the side wall of the organizing tray 21 through a second connecting plate 223 and used for kicking out the filling bottles between the rail plate 222 and the side wall of the organizing tray 21, and a cleaning brush plate 225 arranged on the guide rail plate 222 and the side wall of the arranging disc 21, a filling bottle moving part 24 is arranged at the bottom of the inner wall of the arranging disc 21, the filling bottle moving means 24 includes a first motor 241 provided at the bottom of the organizing tray 21, the output end of the first motor 241 penetrates through the tidying disc 21 and is connected with a driving turntable 242, the driving turntable 242 is arranged below the guide rail plate 222 and the material shifting plate 224, the discharge end of the material guiding pipe 23 is provided with a filling bottle limiting part 25, the filling bottle limiting part 25 comprises a second motor 251 arranged on the side wall of the material guiding pipe 23, and a limiting stopper rod 252 arranged at the output end of the second motor 251 and extending into the material guiding pipe 23.

It should be noted that, in this embodiment, filling bottles may be vertically placed in the arranging tray 21, at this time, the driving turntable 242 is driven by the first motor 241 to rotate, the filling bottles on the driving turntable 242 are pulled out by the material-shifting plate 224 and then enter between the guide rail plate 222 and the side wall of the arranging tray 21 one by one, and then are discharged through the material-guiding pipe 23;

further, the cleaning brush plate 225 can clean the outer wall of the filling bottle when the filling bottle moves between the guide rail plate 222 and the side wall of the tidying disc 21;

furthermore, when the second motor 251 is turned on, the output end of the second motor 251 drives the limiting stopper rod 252 to rotate into the material guiding pipe 23, so as to limit and block the filling bottles in the material guiding pipe 23.

Referring to fig. 2, 4 and 7, in another preferred embodiment of the present invention, a filling bottle feeding device 30 is disposed on the second working platform 11, the filling bottle feeding device 30 includes a feeding plate 31 disposed on the second working platform 11, a plurality of rotating feeding frames 32 disposed on the feeding plate 31 in a circumferential array manner and used for receiving filling bottles discharged from the feeding tubes 23, and a bottle mouth cleaning component 33 disposed on top of the rotating feeding frames 32; the rotary feeding frame 32 comprises a disc 321 and a plurality of feeding pipes 322 arranged on the disc 321 in an annular array manner, a third motor 323 is arranged at the bottom of the feeding plate 31, an output end of the third motor 323 penetrates through the feeding plate 31 to be connected with the bottom of the disc 321, the bottleneck cleaning component 33 comprises extension plates 331 symmetrically arranged at the tops of the feeding pipes 322, telescopic cylinders 332 arranged on the side walls of the extension plates 331, bottleneck cleaning brushes 333 arranged at the output ends of the telescopic cylinders 332, a fourth motor 334 arranged on the disc 321, and tank rotating discs 335 arranged at the output ends of the fourth motor 334 and having side walls penetrating through the side walls of the feeding pipes 322.

It should be noted that, in this embodiment, the third motor 323 is turned on, the output end of the third motor 323 drives the disc 321 to rotate, when the top of one of the feeding pipes 322 coincides with the bottom of the material guiding pipe 23, the filling bottles enter the feeding pipes 322, and after the bottom of one of the feeding pipes 322 coincides with the feeding port of the feeding plate 31, the filling bottles fall into the placing hole 45 through the feeding port;

further, the fourth motor 334 is turned on, the output end of the fourth motor 334 drives the tank rotating disc 335 to rotate, the tank rotating disc 335 drives the filling bottles in the feeding pipe 322 to rotate, and the telescopic cylinder 332 drives the bottle opening cleaning brush 333 to contact with the bottle openings, so that the bottle openings can be cleaned.

Referring to fig. 2, 5 and 8, in another preferred embodiment of the present invention, a coordinated loading device 40 is disposed on the third work platform 12, the coordinated loading device 40 includes a rail plate 41 disposed on the top of the third work platform 12, a plurality of sliding frames 42 slidably connected to the side walls of the rail plate 41, a loading bin 43 slidably connected to the upper surface of the sliding frame 42 and receiving the filled bottles discharged by rotating the loading bin 32, a discharging member 44 disposed on the side walls of the loading bin 43, a plurality of placing holes 45 disposed on the top of the loading bin 43 and extending downward, and bottle cleaning members 46 disposed in the placing holes 45, a plurality of driving motors 421 are disposed on the top of the sliding frame 42, the output end of each driving motor 421 penetrates through the sliding frame 42 and extends to an inner connecting roller 422, the roller 422 contacts the side walls of the rail plate 41, a displacement member 47 is disposed at the bottom of the loading bin 43, the displacement component 47 comprises linear guide rails 471 symmetrically arranged on the upper surface of the sliding frame 42, the execution end of each linear guide rail 471 is connected with the bottom of the upper feeding box 43, the discharging component 44 comprises an L-shaped material baffle 441 with one end penetrating through the side wall of the upper feeding box 43 and extending to the inside, and an air cylinder 442 arranged on the outer wall of the upper feeding box 43 and used for driving the L-shaped material baffle 441 to move, the bottle cleaning component 46 comprises cleaning cylinders 461 rotatably connected with the inner wall of the placing hole 45, gear discs 462 arranged on the outer wall of each cleaning cylinder 461, gear wheels connected between adjacent gear discs 462, and a transmission motor 463 arranged on the outer wall of the upper feeding box 43, the output end of the transmission motor 463 is connected with a driving gear 464, and the driving gear 464 is used for driving one of the gear discs 462 to rotate.

It should be noted that, in this embodiment, the linear guide 471 can drive the upper material box 43 to move horizontally, so that the upper material box 43 can receive filling bottles that leak through the upper material pipe 322, the driving motor 421 can be turned on after the filling bottles are received by the placing holes 45 on the upper material box 43, the driving motor 421 drives the roller 422 to rotate so as to make the sliding frame 42 slide on the side wall of the track disc 41, the plurality of sliding frames 42 can move independently and annularly, a plurality of processing devices can be installed on the track disc 41, and the plurality of sliding frames 42 can move uninterruptedly among the processing devices by adjusting the number ratio of the processing devices, such as the filling machine and the cap screwing machine, and each processing device can exert the maximum working efficiency;

further, the transmission motor 463 is started, the transmission motor 463 can drive the plurality of cleaning cylinders 461 to rotate simultaneously, and the cleaning cylinders 461 can clean the side walls of the filling bottles;

further, when the material needs to be unloaded, the air cylinder 442 can drive the L-shaped material baffle plate 441 to move outwards, and the filled bottles processed after the L-shaped material baffle plate 441 moves outwards are directly unloaded.

The specific process of the invention is as follows:

filling bottles can be vertically placed in the arrangement disc 21, at this time, the drive turntable 242 is driven by the first motor 241 to rotate, the filling bottles on the drive turntable 242 are pulled out by the material-shifting plate 224 and then enter between the guide rail plate 222 and the side wall of the arrangement disc 21 one by one, and then are discharged through the material guide pipe 23;

the cleaning brush plate 225 can clean the outer wall of the filling bottle when the filling bottle moves between the guide rail plate 222 and the side wall of the arranging disc 21;

the second motor 251 is started, the output end of the second motor 251 drives the limit stop rod 252 to rotate into the material guide pipe 23, and the filling bottles in the material guide pipe 23 can be limited and stopped;

the third motor 323 is started, the output end of the third motor 323 drives the disc 321 to rotate, when the top of one of the feeding pipes 322 coincides with the bottom of the material guiding pipe 23, the filling bottles enter the feeding pipes 322, and after the bottom of one of the feeding pipes 322 coincides with the feeding port of the feeding plate 31, the filling bottles fall into the placing hole 45 through the feeding port;

the fourth motor 334 is started, the output end of the fourth motor 334 drives the tank rotating disc 335 to rotate, the tank rotating disc 335 drives the filling bottles in the feeding pipe 322 to rotate, and at the moment, the telescopic cylinder 332 drives the bottle opening cleaning brush 333 to contact with the bottle openings, so that the bottle openings can be cleaned;

the linear guide rails 471 can drive the feeding box 43 to move horizontally, so that the feeding box 43 can conveniently receive filling bottles leaking downwards through the feeding pipe 322, the driving motor 421 can be started after the filling bottles are received by the placing holes 45 in the feeding box 43, the driving motor 421 drives the rollers 422 to rotate so that the sliding frames 42 slide on the side walls of the track disc 41, the plurality of sliding frames 42 can independently move in a circular manner, a plurality of processing devices can be mounted on the track disc 41, the plurality of sliding frames 42 can continuously move among the processing devices by adjusting the quantity proportion of the processing devices such as a filling machine and a cover screwing machine, and each processing device can exert the maximum working efficiency;

the transmission motor 463 is started, the transmission motor 463 can drive the plurality of cleaning cylinders 461 to rotate simultaneously, and the cleaning cylinders 461 can clean the side walls of the filling bottles;

when the material needs to be unloaded, the air cylinder 442 can drive the L-shaped material baffle 441 to move outwards, and the filled bottles processed after the L-shaped material baffle 441 moves outwards are directly unloaded.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. The mechanism for the full-automatic batch feeding of the production line comprises a first working platform (10), a second working platform (11) and a third working platform (12) which are sequentially arranged from high to low, and is characterized in that a filling bottle arranging device (20) is arranged on the first working platform (10), and the filling bottle arranging device (20) comprises an arranging disc (21) arranged at the top of the first working platform (10), a filling bottle arranging part (22) arranged in the arranging disc (21), and a material guide pipe (23) which is arranged at the discharge end of the arranging disc (21) and extends obliquely downwards;

a filling bottle feeding device (30) is arranged on the second working platform (11), the filling bottle feeding device (30) comprises a feeding plate (31) arranged on the second working platform (11), a plurality of rotary feeding frames (32) which are arranged on the feeding plate (31) in a circumferential array mode and used for bearing filling bottles discharged from the feeding pipes (23), and a bottle mouth cleaning part (33) arranged at the top of each rotary feeding frame (32);

be equipped with on third work platform (12) and coordinate loading attachment (40), coordinate loading attachment (40) including locating the track dish (41) at third work platform (12) top, sliding connection a plurality of carriage (42) of track dish (41) lateral wall, sliding connection carriage (42) upper surface just is used for accepting through rotating last work or material rest (32) and unloads out last workbin (43) of filling bottle, locates go up the part of unloading (44) of workbin (43) lateral wall, locate go up a plurality of holes of placing (45) of workbin (43) top and downwardly extending to and locate the clean part of bottle (46) in placing hole (45).

2. The mechanism of the fully automatic batch loading of the production line as claimed in claim 1, wherein the filling bottle arranging part (22) comprises a guide rail plate (222) connected with the top of the side wall of the arranging tray (21) through a first connecting plate (221), a material shifting plate (224) connected with the top of the side wall of the arranging tray (21) through a second connecting plate (223) and used for shifting the filling bottles into the space between the guide rail plate (222) and the side wall of the arranging tray (21), and a cleaning brush plate (225) arranged on the side wall of the guide rail plate (222) and the side wall of the arranging tray (21).

3. The mechanism of the fully automatic batch feeding in production line of claim 1, wherein the bottom of the inner wall of the arranging tray (21) is provided with a filling bottle moving part (24), the filling bottle moving part (24) comprises a first motor (241) arranged at the bottom of the arranging tray (21), the output end of the first motor (241) penetrates through the arranging tray (21) to be connected with a driving turntable (242), and the driving turntable (242) is arranged below the guide rail plate (222) and the material shifting plate (224).

4. The mechanism for full-automatic batch loading on production line according to claim 1, wherein the discharge end of the material guiding pipe (23) is provided with a filling bottle limiting component (25), the filling bottle limiting component (25) comprises a second motor (251) arranged on the side wall of the material guiding pipe (23), and a limiting stopper rod (252) arranged at the output end of the second motor (251) and extending into the material guiding pipe (23).

5. The full-automatic batch loading mechanism for the production line according to claim 1, wherein the rotary loading frame (32) comprises a disc (321), a plurality of loading pipes (322) are arranged on the disc (321) in an annular array manner, a third motor (323) is arranged at the bottom of the loading plate (31), and an output end of the third motor (323) penetrates through the loading plate (31) and is connected with the bottom of the disc (321).

6. The full-automatic batch loading mechanism for the production line according to claim 5, wherein the bottleneck cleaning component (33) comprises an extension plate (331) symmetrically arranged at the top of each feeding pipe (322), a telescopic cylinder (332) arranged on the side wall of the extension plate (331), a bottleneck cleaning brush (333) arranged at the output end of the telescopic cylinder (332), a fourth motor (334) arranged on the circular disc (321), and a tank rotating disc (335) arranged at the output end of the fourth motor (334) and having a side wall penetrating through the side wall of each feeding pipe (322).

7. The full-automatic batch production line feeding mechanism as claimed in claim 1, wherein a plurality of driving motors (421) are arranged on the top of the sliding frame (42), the output end of each driving motor (421) penetrates through the sliding frame (42) and extends to the internal connecting roller (422), and the rollers (422) contact the side wall of the track plate (41).

8. The full-automatic batch loading mechanism for production line according to claim 1, wherein the bottom of the loading box (43) is provided with a displacement member (47), the displacement member (47) comprises linear guide rails (471) symmetrically arranged on the upper surface of the sliding frame (42), and the execution ends of the linear guide rails (471) are connected with the bottom of the loading box (43).

9. The full-automatic batch production line feeding mechanism of claim 1, wherein the discharging component (44) comprises an L-shaped baffle plate (441) with one end penetrating through the side wall of the feeding box (43) and extending to the inside, and an air cylinder (442) arranged on the outer wall of the feeding box (43) and used for driving the L-shaped baffle plate (441) to move.

10. The automatic batch loading mechanism of the production line as claimed in claim 1, wherein the bottle cleaning component (46) comprises a cleaning cylinder (461) rotatably connected with the inner wall of the placing hole (45), a gear plate (462) arranged on the outer wall of each cleaning cylinder (461), a gear fit connection between adjacent gear plates (462), and a transmission motor (463) arranged on the outer wall of the loading box (43), the output end of the transmission motor (463) is connected with a driving gear (464), and the driving gear (464) is used for driving one gear plate (462) to rotate.