CN215364844U - Filling machine - Google Patents

Abstract

The application discloses a filling machine, which comprises a base, wherein a feeding assembly, a material conveying assembly, a discharging assembly and a filling assembly are respectively arranged on the base; the feeding assembly comprises a feeding rotary disc, a feeding channel and a feeding bayonet; the material conveying assembly comprises a material conveying rotary disc, a material conveying channel and a material conveying bayonet; the rotating directions of the feeding turntable and the material conveying turntable are opposite, a feeding transfer port is formed at the position where the feeding turntable and the material conveying turntable are close to each other, and the feeding transfer port is butted to form a feeding material conveying groove; the filling subassembly is including being used for taking off the first spiral cover machine of reagent bottle lid, the filling head that is used for filling in to the reagent bottle and be used for installing the second spiral cover machine on the reagent bottle with the bottle lid, and first spiral cover machine, filling head and second spiral cover machine set gradually along the direction that the reagent bottle removed in passing the material passageway. This application is when the filling head is to the filling in the open-ended reagent bottle, and first spiral cover machine is uncapped a back reagent bottle, and second spiral cover machine has reduced the time of the static wait of every reagent bottle to preceding reagent bottle closing cap.

Description

Filling machine

Technical Field

The application relates to the field of filling and conveying, in particular to a filling machine.

Background

The reagent bottle is used for storing samples, is an indispensable consumable in a laboratory, and generally comprises a bottle body and a bottle cap in the structure, wherein the bottle cap is sleeved at the bottleneck of the bottle body, so that the diameter of the bottle cap is generally required to be larger than that of the bottle body.

When the reagent bottle is filled, the bottle cap of the reagent bottle needs to be opened firstly, then the reagent bottle is filled, and after the reagent bottle is filled, the bottle cap is covered. The conveyor assembly of the filling machine of the related art includes a capping machine, a conveyor belt, and a plurality of filling machines mounted side by side.

In view of the above-mentioned related technologies, the inventor found that, when in use, the conveyer belt conveys reagent bottles to the lower part of the cap screwing machine for cap loosening, then conveys the reagent bottles to the lower part of the filling machine, after the rows of reagent bottles stop at corresponding positions, the filling is started, and after the filling of the whole row of reagent bottles is completed, the whole row of reagent bottles is conveyed to the lower part of the cap screwing machine for cap tightening, so that the problem of low production efficiency exists.

SUMMERY OF THE UTILITY MODEL

In order to reduce the time that every reagent bottle is static to wait, improve whole production efficiency, this application provides a liquid filling machine.

The application provides a liquid filling machine adopts following technical scheme:

a filling machine comprises a base, wherein a feeding assembly, a material conveying assembly, a discharging assembly and a filling assembly are respectively arranged on the base; the feeding assembly comprises a feeding turntable rotatably mounted on the base and a feeding limiting arc-shaped plate fixed on the base, a feeding channel is formed between the feeding turntable and the feeding limiting arc-shaped plate, and a plurality of feeding bayonets are formed on the peripheral wall of the feeding turntable; the material conveying assembly comprises a material conveying turntable rotatably mounted on the base and a material conveying limiting arc-shaped plate fixed on the base, a material conveying channel is formed between the material conveying turntable and the material conveying limiting arc-shaped plate, and a plurality of material conveying bayonets are formed in the peripheral wall of the material conveying turntable; the rotation directions of the feeding turntable and the material conveying turntable are opposite, the feeding limiting arc plate and the material conveying limiting arc plate are arranged in an S shape, a feeding transfer port is formed between the end parts of the feeding limiting arc plate and the material conveying limiting arc plate which are close to each other, and the feeding bayonet and the material conveying bayonet are butted at the feeding transfer port to form a feeding material conveying groove; the filling subassembly is including setting up respectively on the base be used for taking off the first spiral cover machine of reagent bottle lid, be used for to the filling head of filling in the reagent bottle and be used for installing the second spiral cover machine on the reagent bottle with the bottle lid, first spiral cover machine the filling head and second spiral cover machine is in along the reagent bottle pass the direction that the material passageway removed and set gradually.

Through adopting above-mentioned technical scheme, a liquid filling machine has included feeding subassembly, biography material subassembly, ejection of compact subassembly and filling subassembly, and the during operation, the reagent bottle gets into the feeding bayonet socket, and the outside wall joint of feeding bayonet socket and reagent bottle makes the reagent bottle remove along feedstock channel under the drive of feeding carousel. When the feeding transfer mouth is transported to the reagent bottle, the reagent bottle breaks away from the spacing arc of feeding, in the twinkling of an eye that breaks away from, the feeding bayonet socket forms feeding biography material groove with passing the butt joint of material bayonet socket, drives the reagent bottle at the feeding bayonet socket and passes the centre gripping of material bayonet socket and remove this moment, and when removing to the port of passing the material passageway, the reagent bottle breaks away from the feeding bayonet socket, and the reagent bottle enters into and passes the material passageway along passing the material bayonet socket, and the reagent bottle removes along passing the material passageway under passing the drive of material carousel. Reagent bottle removes in passing the material passageway, utilize the first spiral cover machine that sets gradually along the direction that reagent bottle removed, filling head and second spiral cover machine carry out the operation to reagent bottle, when filling head to open-ended reagent bottle in filling reagent, first spiral cover machine is opened the bottle lid of next reagent bottle, the second spiral cover machine is covered the bottle lid of preceding reagent bottle, the time of the static wait of every reagent bottle has been reduced, the production efficiency is improved.

Optionally, the discharging assembly comprises a first discharging turntable and a second discharging turntable which are rotatably mounted on the base, and a first discharging limiting arc plate and a second discharging limiting arc plate which are fixed on the base, wherein a first discharging channel is formed between the first discharging limiting arc plate and the first discharging turntable, the rotating directions of the first discharging turntable and the material conveying turntable are opposite, the first discharging limiting arc plate and the material conveying limiting arc plate are arranged in an S-shaped manner, the end parts of the first discharging limiting arc plate and the material conveying limiting arc plate, which are close to each other, form a first discharging transfer port, a first discharging bayonet is formed on the outer peripheral wall of the first discharging turntable, and the first discharging bayonet and the material conveying bayonet are butted at the first discharging transfer port to form a first discharging storage tank; the spacing arc of second ejection of compact with form second discharging channel between the second ejection of compact carousel, second ejection of compact carousel with the rotation opposite direction of first ejection of compact carousel, first ejection of compact spacing arc with the spacing arc of second ejection of compact is the S-shaped setting, and the tip that both are close to each other forms second ejection of compact transmission mouth, be formed with a plurality of second ejection of compact bayonets on the periphery wall of second ejection of compact carousel, first ejection of compact bayonet socket with second ejection of compact bayonet socket is in second ejection of compact transmission mouth department butt joint forms second ejection of compact storage vat.

Through adopting above-mentioned technical scheme, utilize ejection of compact subassembly, make the reagent bottle after uncap, filling, dress lid operation are accomplished, leave biography material subassembly and filling subassembly in order fast, further improve production efficiency. When the reagent bottle transports first ejection of compact transmission mouth, the reagent bottle breaks away from the spacing arc of first ejection of compact, in the twinkling of an eye that breaks away from, first ejection of compact bayonet socket forms first ejection of compact stock chest with passing the butt joint of material bayonet socket, drive the reagent bottle removal under the centre gripping of first ejection of compact bayonet socket and passing the material bayonet socket this moment, when removing to first discharging channel's port, the reagent bottle breaks away from passing the material bayonet socket, the reagent bottle enters into first discharging channel along with first ejection of compact bayonet socket, the reagent bottle removes along first discharging channel under the drive of first ejection of compact carousel. When the reagent bottle transports second ejection of compact transfer port, the reagent bottle breaks away from the spacing arc of second ejection of compact, in the twinkling of an eye that breaks away from, second ejection of compact bayonet socket and first ejection of compact bayonet socket butt joint form second ejection of compact stock chest, drive the reagent bottle removal under the centre gripping of second ejection of compact bayonet socket and first ejection of compact bayonet socket this moment, when removing to second discharging channel's port, the reagent bottle breaks away from first ejection of compact bayonet socket, the reagent bottle enters into second discharging channel along with second ejection of compact bayonet socket, the reagent bottle removes along second discharging channel under the drive of second ejection of compact carousel. The connection mode of the first discharging turntable and the material transferring turntable, the connection mode of the second discharging turntable and the first discharging turntable and the connection mode of the material transferring turntable and the feeding turntable are the same, so that the running continuity of the device is improved, and the design is more reasonable.

Optionally, one end of the second discharging limiting arc plate, which is far away from the first discharging limiting arc plate, is provided with a discharging guide plate, and a discharging guide groove communicated with the second discharging channel is formed in the discharging guide plate along the vertical direction.

Through adopting above-mentioned technical scheme, utilize ejection of compact guide way to accept the reagent bottle that flows out second discharging channel, can be orderly accomodate reagent bottle, lay good basis for the next process of reagent bottle.

Optionally, a counter is arranged on one side of the base close to the discharging assembly.

Through adopting above-mentioned technical scheme, when the reagent bottle was through ejection of compact subassembly, the counter can make statistics of the reagent bottle number, makes things convenient for the accurate production progress of holding of workman.

Optionally, a cover placing plate is fixedly arranged on the material conveying turntable, the cover placing plate and the material conveying bayonet are sequentially and alternately arranged on the material conveying turntable, and a cover placing groove is formed in the cover placing plate.

By adopting the technical scheme, the reagent bottles rotate along with the material conveying turntable, so that the cover placing plate is arranged on the material conveying turntable, the bottle covers are placed on the cover placing plate and rotate along with the material conveying turntable, and the bottle covers can be conveniently placed, taken and screwed by a cap screwing machine; set up on putting the cover plate and put the lid groove, put the lid groove and can carry on spacingly to the bottle lid, when passing the material carousel rotational speed great, the prevention bottle lid drops from putting the cover plate.

Optionally, the height of the bottom surface of the feeding turntable is higher than the height of the top surface of the cover placing plate.

Through adopting above-mentioned technical scheme, can rotate when driving and put the cover plate and rotate at the biography material carousel, prevent to pass the material carousel and feed the carousel rotation in-process, put the cover plate and produce the interference to feed the rotation of carousel. The distance between the cover placing groove and the cover screwing machine can be reduced as much as possible, and the running efficiency of the device is improved.

Optionally, the vertical stand of installing on the base, the cover is equipped with fixed rubber slab on the stand, the first joint of filling is in on the lateral wall of fixed rubber slab.

Through adopting above-mentioned technical scheme, fixed rubber slab can slide on the stand, is convenient for adjust the filling height of filling head, has improved the adaptability of device.

Optionally, a plurality of weight-reducing round holes are formed in the material conveying turntable.

By adopting the technical scheme, the weight of the material conveying turntable is reduced, and meanwhile, materials are saved, so that the design is more environment-friendly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the reagent bottle is operated by utilizing the first cap screwing machine, the filling head and the second cap screwing machine which are sequentially arranged along the moving direction of the reagent bottle, when the filling head fills the reagent into the opened reagent bottle, the first cap screwing machine opens the bottle cap of the next reagent bottle, and the second cap screwing machine covers the bottle cap of the previous reagent bottle, so that the time for each reagent bottle to stand and wait is reduced, and the production efficiency is improved;

2. by utilizing the counter arranged on one side of the discharging assembly, when reagent bottles pass through the discharging assembly, the counter can count the number of the reagent bottles, so that workers can conveniently and accurately master the production progress;

3. the cover placing plate is arranged on the material conveying rotary plate, and the bottle caps are placed on the cover placing plate and rotate along with the material conveying rotary plate, so that the bottle caps can be placed, taken and screwed by the cap screwing machine conveniently; set up on putting the cover plate and put the lid groove, put the lid groove and can carry on spacingly to the bottle lid, when passing the material carousel rotational speed great, the prevention bottle lid drops from putting the cover plate.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic diagram showing the structures of the feeding assembly, the material conveying assembly, the filling assembly and the discharging assembly in the embodiment of the present application.

Fig. 3 is a schematic top view of the overall structure of an embodiment of the present application.

Fig. 4 is a schematic diagram for showing the structure of the connection part of the discharging assembly and the discharging guide plate in the embodiment of the application.

Description of reference numerals: 1. a base; 2. a feed assembly; 21. a feed turntable; 22. feeding arc limiting plates; 23. a feed channel; 24. a feeding bayonet; 3. a material conveying component; 31. a material conveying turntable; 32. a material conveying limit arc-shaped plate; 33. a material conveying channel; 34. a material conveying bayonet; 4. a discharge assembly; 41. a first discharge turntable; 42. a second discharge turntable; 43. a first discharge limiting arc plate; 44. a second discharge limiting arc plate; 45. a first discharge channel; 46. a second discharge channel; 47. a first discharge bayonet; 48. a second discharge bayonet; 5. a filling assembly; 51. a first cap screwing machine; 52. a filling head; 53. a second filling machine; 6. a feed transfer port; 7. a feed transfer chute; 8. a first discharge transfer port; 9. a first discharging storage tank; 10. a second discharge transfer port; 11. a second discharging storage tank; 12. a discharge guide plate; 13. a discharge guide groove; 14. a counter; 15. placing a cover plate; 16. a cover placing groove; 17. a column; 18. fixing the rubber plate; 19. and a weight-reducing round hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a filling machine.

Referring to fig. 1, a filling machine includes a base 1, and a feeding assembly 2, a material conveying assembly 3, a filling assembly 5, and a discharging assembly 4 are respectively installed on the base 1. When utilizing the liquid filling machine to fill the reagent bottle, at first the reagent bottle gets into by feeding subassembly 2, then through passing material subassembly 3, when passing material subassembly 3, utilize filling subassembly 5 to realize actions such as uncapping, filling, closing cap to the reagent bottle, finally discharge assembly 4 discharges again.

Referring to fig. 2 and 3, the feeding assembly 2 includes a feeding turntable 21 rotatably installed on the base 1 and a feeding limiting arc 22 fixedly placed on the base 1, a feeding channel 23 is formed between the feeding turntable 21 and the feeding limiting arc 22, and the feeding channel 23 is composed of a side wall where the feeding turntable 21 and the feeding limiting arc 22 are close to each other and an upper surface of the base 1. A plurality of feeding bayonets 24 are uniformly arranged on the peripheral wall of the feeding turntable 21, optionally, the number of the feeding bayonets 24 is 4, and the feeding turntable 21 rotates clockwise.

When the reagent bottle enters the feeding channel 23, the reagent bottle is firstly placed at the end part of the feeding channel 23, in the rotating process of the feeding turntable 21, when the feeding bayonet 24 rotates to the position of the reagent bottle, the feeding bayonet 24 is clamped on the outer wall of the bottle cap of the reagent bottle, and the reagent bottle enters the feeding channel 23 under the driving of the feeding bayonet 24, so that the reagent bottle moves along the feeding channel 23.

Pass material subassembly 3 including rotating the material carousel 31 of passing of installing on base 1 and fixing the spacing arc 32 of passing the material on base 1, pass and form between material carousel 31 and the spacing arc 32 of passing the material and pass material passageway 33, pass material passageway 32 and constitute by the lateral wall that passes material carousel 31 and the spacing arc 32 of passing the material and be close to each other and the upper surface of base 1, evenly seted up a plurality of material conveying bayonets 34 on the perisporium of passing material carousel 31. Feeding carousel 21 and biography material carousel 31 rotation opposite direction, the spacing arc 22 of feeding is the S-shaped setting with passing the spacing arc 32 of material, and forms feeding transmission mouth 6 between the tip that both are close to each other, and feeding bayonet socket 24 and biography material bayonet socket 34 form feeding transmission groove 7 in the butt joint of feeding transmission mouth 6 department.

When the reagent bottle transports feeding transfer port 6, the reagent bottle breaks away from feeding spacing arc 22, in the twinkling of an eye that breaks away from, feeding bayonet 24 and biography material bayonet 34 dock and form feeding and pass silo 7, drive the reagent bottle removal under feeding bayonet 24 and the centre gripping that passes material bayonet 34 this moment, when removing to the port that passes material passageway 33, the reagent bottle breaks away from feeding bayonet 24, the reagent bottle enters into and passes material passageway 33 along passing material bayonet 34, the reagent bottle moves along passing material passageway 33 under passing material carousel 31's drive.

A plurality of weight-reducing round holes 19 are uniformly formed in the material transferring turntable 31 along the circumferential direction in the vertical direction, and the weight-reducing round holes 19 are used for reducing weight and saving materials. The material conveying turntable 31 is fixed with a cover plate 15 through bolts, the cover plate 15 and the material conveying bayonet 34 are sequentially and alternately arranged on the material conveying turntable 31, the cover plate 15 is provided with a cover placing groove 16, the size of the cover placing groove 16 is matched with the size of a reagent bottle cover, and the cover placing groove 16 can play a role in preventing the bottle cover from falling off from the cover plate 15. The bottom surface height of the installation of feeding carousel 21 is higher than the top surface height of putting the installation of cover plate 15, prevents to pass material carousel 31 and feeding carousel 21 rotation in-process, puts cover plate 15 and produces the interference to the rotation of feeding carousel 21.

The filling assembly 5 comprises a first cap screwing machine 51 for taking off the reagent bottle caps, a filling head 52 for filling the reagent bottles, and a second cap screwing machine 53 for mounting the caps on the reagent bottles, wherein the first cap screwing machine 51, the filling head 52 and the second cap screwing machine 53 are sequentially arranged along the direction of the reagent bottles moving in the material conveying channel 33. First spiral cover machine 51 and second spiral cover machine 53 all are through bolt fixed mounting on base 1, welded fastening stand 17 on the base 1, the cover is equipped with fixed rubber slab 18 on the stand 17, fixed rubber slab 18 has been close to and has been seted up the joint mouth on passing the lateral wall of material passageway 33, filling head 52 joint is in the joint mouth to fix in the top of passing material passageway 33, fixed rubber slab 18 can slide on stand 17, is convenient for adjust the filling height of filling head 52.

When the reagent bottle moves in the material conveying channel 33, the first cap screwing machine 51 is utilized to open the bottle cap of the reagent bottle and place the reagent bottle into the cap placing groove 16, when the reagent bottle moves to the position below the filling head 52, the material conveying rotary disc 31 stops rotating for a period of time, after the filling head 52 fills the reagent bottle with the reagent, the material conveying rotary disc 31 drives the reagent bottle to move in the material conveying channel 33, and when the reagent bottle moves to the second cap screwing machine 53, the second cap screwing machine 53 takes out the bottle cap in the cap placing groove 16 and screws the bottle cap onto the reagent bottle. When the filling head 52 fills the reagent into the opened reagent bottle, the first cap screwing machine 51 opens the bottle cap of the next reagent bottle, and the second cap screwing machine 53 caps the bottle cap of the previous reagent bottle, so that the static waiting time of each reagent bottle is reduced, and the production efficiency is improved.

Referring to fig. 2 and 4, the discharging assembly 4 includes a first discharging turntable 41 and a second discharging turntable 42 rotatably mounted on the base 1, a first discharging limiting arc 43 and a second discharging limiting arc 44 fixedly disposed on the base 1, a first discharging channel 45 is formed between the first discharging limiting arc 43 and the first discharging turntable 41, the first discharging channel 45 is composed of a side wall of the first discharging limiting arc 43 and the first discharging turntable 41 close to each other and an upper surface of the base 1, the rotating directions of the first discharging turntable 41 and the material transferring turntable 41 are opposite, the first discharging turntable 41 rotates clockwise, the first discharging limiting arc 43 and the material transferring limiting arc 32 are arranged in an S shape, and the tip that both are close to each other forms first ejection of compact transfer port 8, has seted up first ejection of compact bayonet 47 on the periphery wall of first ejection of compact carousel 41, and first ejection of compact bayonet 47 docks with passing material bayonet 34 in first ejection of compact transfer port 8 department and forms first ejection of compact silo 9.

The reagent bottles are transferred between the first discharging turntable 41 and the material transferring turntable 31 in the same way as the material transferring turntable 31 and the feeding turntable 21. When reagent bottle transports first ejection of compact transfer port 8, reagent bottle breaks away from first ejection of compact spacing arc 43, in the twinkling of an eye that breaks away from, first ejection of compact bayonet 47 and the butt joint of passing material bayonet 34 form first ejection of compact stock chest 9, drive reagent bottle removal under the centre gripping of first ejection of compact bayonet 47 and passing material bayonet 34 this moment, when removing to first discharging channel 45's port, reagent bottle breaks away from passing material bayonet 34, reagent bottle enters into first discharging channel 45 along with first ejection of compact bayonet 47, reagent bottle removes along first discharging channel 45 under first ejection of compact carousel 41's drive.

Form second discharging channel 46 between spacing arc 44 of second ejection of compact and the second ejection of compact carousel 42, second discharging channel 46 comprises the lateral wall that spacing arc 44 of second ejection of compact and second ejection of compact carousel 42 are close to each other and the upper surface of base 1, second ejection of compact carousel 42 is opposite with the rotation direction of first ejection of compact carousel 41, second ejection of compact carousel 42 anticlockwise rotation, spacing arc 43 of first ejection of compact is the S-shaped setting with the spacing arc 44 of second ejection of compact, and the tip that both are close to each other forms second ejection of compact transmission mouth 10, a plurality of second ejection of compact bayonet sockets 48 have been seted up on the periphery wall of second ejection of compact carousel 42, first ejection of compact bayonet socket 47 and second ejection of compact bayonet socket 48 form second ejection of compact silo 11 in second ejection of compact transmission mouth 10 department butt joint.

The second material-discharging rotary disc 42 is connected with the first material-discharging rotary disc 41 in the same way as the material-transferring rotary disc 31 is connected with the material-feeding rotary disc 21. When reagent bottle transports second ejection of compact transfer port 10, reagent bottle breaks away from the spacing arc 44 of second ejection of compact, in the twinkling of an eye that breaks away from, second ejection of compact bayonet socket 48 and the butt joint of first ejection of compact bayonet socket 47 form second ejection of compact silo 11, drive reagent bottle this moment under the centre gripping of second ejection of compact bayonet socket 48 and first ejection of compact bayonet socket 47 and remove, when removing to second discharging channel 46's port, reagent bottle breaks away from first ejection of compact bayonet socket 47, reagent bottle enters into second discharging channel 46 along with second ejection of compact bayonet socket 48, reagent bottle removes along second discharging channel 46 under the drive of second ejection of compact carousel 42.

Utilize ejection of compact subassembly 4, make the reagent bottle after uncapping, filling, dress lid operation are accomplished, leave biography material subassembly 3 and filling subassembly 5 in order fast, further improve production efficiency.

Referring to fig. 4, the end of the second discharging limiting arc plate 44 far away from the first discharging limiting arc plate 43 is provided with a discharging guide plate 12, the discharging guide plate 12 is fixedly arranged on the base 1, and the discharging guide plate 12 is provided with a discharging guide groove 13 communicated with the second discharging channel 46 along the vertical direction. The reagent bottles flowing out of the second discharging channel 42 are received by the discharging guide groove 13, so that the reagent bottles can be orderly stored, and a good foundation is laid for the next procedure of the reagent bottles. One side that is close to ejection of compact subassembly 4 on ejection of compact deflector 12 is provided with counter 14, can count the quantity of the reagent bottle of process, makes things convenient for the accurate production progress of holding of workman.

The implementation principle of a filling machine in the embodiment of the application is as follows: during operation, reagent bottle gets into feedstock channel 23 by feeding bayonet 24, and feeding bayonet 24 and reagent bottle's lateral wall joint make reagent bottle move along feedstock channel 23 under the drive of feeding carousel 21. When the reagent bottle was transported feeding transfer port 6, the reagent bottle breaks away from feeding spacing arc 22, enters into feeding and passes silo 7, passes the outside wall joint of material bayonet 34 and reagent bottle, and the reagent bottle enters into and passes material passageway 33 along with passing material bayonet 34, and the reagent bottle moves along passing material passageway 33 under passing the drive of material carousel 31. When reagent bottles move in the material conveying channel 33, the bottle caps of the reagent bottles are opened by the first cap screwing machine 51 and are placed in the cap placing groove 16, when the reagent bottles move to the position below the filling head 52, the material conveying rotary disc 31 stops rotating for a period of time, after the reagent bottles are filled by the filling head 52, the material conveying rotary disc 31 drives the reagent bottles to move in the material conveying channel 33, when the reagent bottles move to the second cap screwing machine 53, the second cap screwing machine 53 takes out the bottle caps in the cap placing groove 16 and screws the bottle caps onto the reagent bottles, when the filling head 52 fills reagents into the opened reagent bottles, the first cap screwing machine 51 covers the bottle caps of the previous reagent bottles, and the second cap screwing machine 53 opens the bottle caps of the next reagent bottles, so that the static waiting time of each reagent bottle is reduced, and the production efficiency is improved. Utilize ejection of compact subassembly 4, make the reagent bottle after uncapping, filling, dress lid operation are accomplished, leave biography material subassembly 3 and filling subassembly 5 in order fast, further improve production efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A filling machine, its characterized in that: the automatic feeding device comprises a base (1), wherein a feeding assembly (2), a material conveying assembly (3), a discharging assembly (4) and a filling assembly (5) are respectively arranged on the base (1); the feeding assembly (2) comprises a feeding rotary disc (21) rotatably mounted on the base (1) and a feeding limiting arc-shaped plate (22) fixed on the base (1), a feeding channel (23) is formed between the feeding rotary disc (21) and the feeding limiting arc-shaped plate (22), and a plurality of feeding bayonets (24) are formed on the peripheral wall of the feeding rotary disc (21); the material conveying assembly (3) comprises a material conveying turntable (31) rotatably mounted on the base (1) and a material conveying limiting arc-shaped plate (32) fixed on the base (1), a material conveying channel (33) is formed between the material conveying turntable (31) and the material conveying limiting arc-shaped plate (32), and a plurality of material conveying bayonets (34) are formed in the peripheral wall of the material conveying turntable (31); the rotating directions of the feeding turntable (21) and the material conveying turntable (31) are opposite, the feeding limiting arc plate (22) and the material conveying limiting arc plate (32) are arranged in an S shape, a feeding transfer port (6) is formed between the end parts of the feeding limiting arc plate and the material conveying limiting arc plate close to each other, and the feeding bayonet (24) and the material conveying bayonet (34) are butted at the feeding transfer port (6) to form a feeding material conveying groove (7); filling subassembly (5) are including setting up respectively be used for taking off first spiral cover machine (51) of reagent bottle lid on base (1), be used for to filling head (52) of filling in the reagent bottle and be used for installing second spiral cover machine (53) on the reagent bottle with the bottle lid, first spiral cover machine (51) filling head (52) and second spiral cover machine (53) are in along the reagent bottle pass the direction that removes in material passageway (33) and set gradually.

2. A filling machine as defined in claim 1 wherein: the discharging component (4) comprises a first discharging turntable (41) and a second discharging turntable (42) which are rotatably arranged on the base (1), and a first discharging limiting arc-shaped plate (43) and a second discharging limiting arc-shaped plate (44) which are fixed on the base (1), a first discharging channel (45) is formed between the first discharging limiting arc-shaped plate (43) and the first discharging turntable (41), the first discharging rotary disc (41) and the material conveying rotary disc (31) have opposite rotating directions, the first discharging limit arc-shaped plate (43) and the material conveying limit arc-shaped plate (32) are arranged in an S shape, and the end parts of the two adjacent to each other form a first discharging transfer opening (8), a first discharging bayonet (47) is formed on the peripheral wall of the first discharging turntable (41), the first discharging bayonet (47) and the material conveying bayonet (34) are butted at the first discharging transfer port (8) to form a first discharging storage tank (9); spacing arc (44) of second ejection of compact with form second discharging channel (46) between second ejection of compact carousel (42), second ejection of compact carousel (42) with the rotation opposite direction of first ejection of compact carousel (41), spacing arc (43) of first ejection of compact with spacing arc (44) of second ejection of compact is the S-shaped setting, and both tip that are close to each other forms second ejection of compact transmission mouth (10), be formed with a plurality of second ejection of compact bayonet sockets (48) on the periphery wall of second ejection of compact carousel (42), first ejection of compact bayonet socket (47) with second ejection of compact bayonet socket (48) are in second ejection of compact transmission mouth (10) department butt joint forms second ejection of compact silo (11).

3. A filling machine as defined in claim 2 wherein: one end, far away from the first discharging limiting arc-shaped plate (43), of the second discharging limiting arc-shaped plate (44) is provided with a discharging guide plate (12), and a discharging guide groove (13) communicated with the second discharging channel (46) is formed in the discharging guide plate (12) in the vertical direction.

4. A filling machine as defined in claim 1 wherein: and a counter (14) is arranged on one side of the base (1) close to the discharging component (4).

5. A filling machine as defined in claim 1 wherein: the material conveying turntable (31) is fixedly provided with a cover placing plate (15), the cover placing plate (15) and the material conveying bayonet (34) are sequentially and alternately arranged on the material conveying turntable (31), and a cover placing groove (16) is formed in the cover placing plate (15).

6. A filling machine as defined in claim 5 wherein: the height of the bottom surface of the feeding turntable (21) is higher than that of the top surface of the cover placing plate (15).

7. A filling machine as defined in claim 1 wherein: vertical stand (17) of installing on base (1), the cover is equipped with fixed rubber slab (18) on stand (17), filling head (52) joint is in on the lateral wall of fixed rubber slab (18).

8. A filling machine as defined in claim 1 wherein: the material conveying turntable (31) is provided with a plurality of weight reducing round holes (19).

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