CN111892004A

CN111892004A - Quantitative filling device is used in cosmetics production

Info

Publication number: CN111892004A
Application number: CN202010885452.8A
Authority: CN
Inventors: 李敏婕
Original assignee: Fengze District Chuangzhi Industrial Design Service Department
Current assignee: Shanghai Pibao Biotechnology Development Co ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2020-11-06
Anticipated expiration: 2040-08-28
Also published as: CN111892004B

Abstract

The invention discloses a quantitative filling device for cosmetic production, which belongs to the field of cosmetic production equipment and comprises a conveying mechanism and a filling mechanism, wherein the filling mechanism comprises a material storage cylinder and a filling head communicated with the material storage cylinder; the conveying mechanism comprises a fixed supporting table and a rotating table; three sides of the fixed supporting platform are sequentially provided with a feeding notch, a filling station and a discharging notch, the rotating platform is provided with a support plate at equal intervals, the bottom of the support plate is fixed with a lifting rod, and the lifting rod is connected with a rotating lifting driving mechanism; the filling head is aligned with the eccentric position of the bottle mouth of the filling bottle below the filling head; the material storage barrel is internally provided with a limiting rod, the limiting rod is fixedly provided with a screw rod penetrating through the material storage barrel, the position of the material storage barrel, through which the screw rod penetrates, is provided with an adjusting opening, and the screw rod is sleeved with a locking nut. The invention can avoid the insufficient filling quantity caused by foam accumulation in the filling bottle, and ensure the reliability of the filling process; the one-time filling amount of the filling mechanism is adjustable, and quantitative filling can be realized; and automatic feeding, filling and discharging can be realized.

Description

Quantitative filling device is used in cosmetics production

Technical Field

The invention relates to the field of cosmetic production equipment, in particular to a quantitative filling device for cosmetic production.

Background

Cosmetics are substances used to enhance beauty of human body in addition to simple cleansing products, and their use origin is very early and widespread, especially in women who have a certain economic basis, and cosmetics refer to chemical industrial products or fine chemical products for the purpose of correcting body odor and maintaining good condition, or spread on any part of the surface of human body such as skin, hair, nails, lips, and teeth, etc. by painting, spraying, or other similar methods, to clean, maintain, beautify, modify, and change the appearance.

Liquid cosmetics need to be filled during the production process of the cosmetics. However, the existing filling equipment for liquid cosmetics mainly drives the filling head to extend into a filling bottle of the liquid cosmetics for filling through a motor, so that a large amount of foam is easily generated, the foam in the filling bottle is accumulated, the foam easily overflows the filling bottle, the liquid level in the filling bottle cannot be accurately observed, the filling amount is insufficient, and the reliability of the filling process is greatly reduced; and the quantitative filling can not be realized, so that the effect of convenient quantitative filling can not be well realized.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to solve the technical problem of providing a quantitative filling device for cosmetic production, which can avoid a large amount of foam generated in a filling bottle, thereby avoiding insufficient filling amount caused by foam accumulation in the filling bottle and ensuring the reliability of a filling procedure; the one-time filling amount of the filling mechanism is adjustable, quantitative filling can be realized, and the application is convenient; automatic feeding, filling and discharging can be realized, and the working efficiency is high.

2. Technical scheme

In order to solve the problems, the invention adopts the following technical scheme:

a quantitative filling device for cosmetic production comprises a conveying mechanism for conveying filling bottles and a filling mechanism for filling liquid cosmetics, wherein the filling mechanism comprises a material storage cylinder and a filling head communicated with the material storage cylinder; the conveying mechanism comprises a fixed supporting table with supporting legs at the bottom and a rotating table which is rotatably positioned at the upper end of the fixed supporting table, the fixed supporting table is in a groove shape with a circular outline, a supporting cylinder body supported below the rotating table is fixed at the center of the inner side of the fixed supporting table, a central rotating shaft vertically penetrating through the inner side of the supporting cylinder body and extending to the lower part of the fixed supporting table is fixed at the center of the bottom surface of the rotating table, and the lower end of the central rotating shaft is connected with a rotation driving mechanism;

the two sides of the upper end of the fixed supporting table are respectively provided with a feeding notch and a discharging notch, the edge side of the peripheral side of the rotating table is recessed to be lower than the feeding notch and the discharging notch and forms an annular bearing plate which is horizontally arranged, the peripheral side of the bearing plate is completely attached to the inner side wall of the fixed supporting table, the bearing plate is provided with at least one through hole at equal intervals along the periphery, a rotatable lifting rod is vertically arranged in the through hole, a horizontally arranged carrier plate for bearing filling bottles is fixed at the upper end of the lifting rod, each lifting rod is connected with a rotating lifting driving mechanism, the rotating lifting driving mechanism comprises an electromagnet fixed on the bottom surface of the bearing plate, an iron block fixed at the lower end of the lifting rod, a first spring sleeved on the lifting rod and a spiral channel spirally arranged along the length direction of the lifting rod, and arc-shaped grooves are arranged on the two, a ball clamped with the spiral channel is embedded in the arc-shaped groove, and one side of the electromagnet back to the support cylinder is connected with a moving contact;

one side of the fixed supporting table is provided with a filling station, the filling head is fixedly connected with the outer wall of the fixed supporting table through a connecting frame plate, and the outlet end of the filling head is aligned with the eccentric position of the bottle mouth of a filling bottle positioned at the filling station; a fixed contact matched with the movable contact is embedded on the inner wall of the fixed support table at the filling station, and the fixed contact is electrically connected with an electrifying switch;

the storage barrel is fixed on the fixed support table, a piston plate with the periphery completely attached to the inner wall of the storage barrel is arranged in the storage barrel, the middle of the piston plate is connected with a telescopic rod extending to the outer side of the storage barrel, the outer side end of the telescopic rod is connected with a telescopic driving mechanism, the filling head is communicated with the storage barrel through a discharge pipe, the storage barrel is connected with a suction pipeline externally connected with a liquid cosmetic storage box, and the discharge pipe and the suction pipeline are both provided with one-way valves; the material storage barrel is provided with a limiting rod which is parallel to the telescopic rod and used for limiting the initial position of the piston plate, the screw rod which penetrates through the material storage barrel and extends to the outer side of the material storage barrel is fixed on one side of the limiting rod, an adjusting opening which is in a strip shape and is parallel to the limiting rod is formed in the position, through which the screw rod penetrates, of the material storage barrel, and a locking nut is sleeved on the part, located on the outer side of the adjusting opening, of the screw rod in a threaded manner.

Furthermore, the vertical part of the rotating platform is provided with through holes which are aligned with the support plates in the radial direction of the rotating platform at equal intervals around the circumference of the vertical part of the rotating platform, each through hole is internally provided with a pushing assembly used for pushing the filling bottles out of the fixed support platform, each pushing assembly comprises an inner push plate and an outer push plate connected with one side of the inner push plate, which is back to the central rotating shaft, the connecting ends of the outer push plate and the inner push plate are respectively provided with an insertion plate and an insertion groove which are matched with each other, a second spring connected with the insertion plate is fixed in the insertion groove, the inner push plate is sleeved with a third spring fixedly connected with the inner side of the vertical part of the rotating platform, a limiting block used for limiting the third spring is fixed on the inner push plate, one end of the inner push plate, which is back to the outer push plate, is embedded with a ball which is always in contact with the outer side surface of the support barrel, and an arc-shaped, the width of arc lug is gradually widened to the one end of ejection of compact breach place side by the one end towards the filling station, and the narrow end of arc lug and the lateral surface smooth linking of support barrel, the up end of support plate aligns with the bottom level of feeding breach and ejection of compact breach. After filling is finished (namely a piston rod of the hydraulic cylinder is completely extended), the rotating platform is reset and then continuously rotates, filling bottles filled with liquid cosmetics can be carried to move to the side of the discharging notch, meanwhile, the corresponding pushing assembly is driven to rotate to the side of the discharging notch around the axis of the central rotating shaft, in the process, the ball body rolls along the surface of the supporting cylinder and rolls along the arc-shaped bump, due to the fact that the width of the arc-shaped bump is gradually widened, the inner push plate drives the insertion plate to move towards the inner side of the outer push plate, the second spring and the third spring are compressed, when the pushing assembly is opposite to the discharging notch, under the reset action of the second spring, the outer push plate is pushed to move towards the outer side, the filling bottles filled with the liquid cosmetics can be pushed out of the discharging notch, and automatic discharging of the filling bottles is; then along with the continuation rotation of revolving stage, the spheroid contacts the surface that supports the barrel again, under the reset action of third spring, can drive the interior push pedal and reset and move, and it can stimulate the outer push pedal through the second spring and reset simultaneously.

Furthermore, the rotation driving mechanism comprises a gear sleeved at the lower end of the central rotating shaft, a rack arranged on one side of the gear in a meshing manner, and a hydraulic cylinder fixedly connected to one end of the rack, the hydraulic cylinder is fixedly connected with the bottom of the fixed supporting table through a connecting support plate, a one-way bearing is arranged between the central rotating shaft and the gear, and a bearing is arranged between the position, through which the central rotating shaft penetrates, of the bottom of the fixed supporting table and the central rotating shaft. After the hydraulic cylinder is started, a piston rod of the hydraulic cylinder extends out to drive the rack to translate and drive the gear to rotate, and at the moment, the unidirectional bearing fixes and locks the gear and the central rotating shaft, so that the central rotating shaft can be driven to rotate, and the rotating table can be driven to rotate to carry filling bottles to move; then the pneumatic cylinder resets, and its piston rod withdrawal can drive rack translation and reset, can drive gear antiport, and one-way bearing realizes that gear and central pivot's rotation are connected this moment, then central pivot keeps not changeing, rotates the platform stall promptly, can prevent to carry out reverse transport to the filling bottle.

Furthermore, the stock barrel is transversely installed in the bottom of fixed brace table and aligns with the pneumatic cylinder, flexible actuating mechanism includes pneumatic cylinder and rack, the rack is the one end and the telescopic link fixed connection of pneumatic cylinder dorsad, the piston plate separates with the telescopic link, and the piston plate is connected with the fourth spring of fixed connection to the corresponding distolateral side of stock barrel towards one side of telescopic link, the gear is for lacking the gear, under the initial condition, leave the clearance between telescopic link and the piston plate. When a piston rod of the hydraulic cylinder extends out of a driving rack to move horizontally, the rack pushes the telescopic rod to move towards the inner side of the material storage cylinder body, when the telescopic rod abuts against the piston plate, a toothed part on the gear is separated from the rack, a filling bottle at the feeding notch is moved to a filling station and ascends to the highest position, then the telescopic rod pushes the piston plate to move along with the continuous pushing of the hydraulic cylinder, under the directional action of the one-way valve, liquid cosmetics in the material storage cylinder body can be conveyed to a filling head through a discharge pipe and filled into the filling bottle from the filling head, and the fourth spring is stretched; in the resetting process of the hydraulic cylinder, the telescopic rod is directly driven by the rack to stretch out the stock cylinder body, and the piston plate resets under the elastic recovery effect of the fourth spring, so that negative pressure is generated in the liquid storage cavity, and the stock cylinder body can suck liquid cosmetics in the liquid cosmetic storage box through the suction pipeline by matching with the directional effect of the one-way valve. The invention can realize the driving of the conveying mechanism and the filling mechanism by using the hydraulic cylinder as the driving mechanism, and the application and the control are more convenient.

Furthermore, the power-on switch is arranged on one side, corresponding to the side where the telescopic rod is located, of the storage barrel in the containing cavity, an inclined plane for the telescopic rod to abut against is arranged on the power-on switch, and the power-on switch is located between the telescopic rod and the piston plate in an initial state. Before the telescopic rod moves to contact the piston plate, the telescopic rod firstly pushes against the inclined surface of the power switch, and then the power switch can be pressed along with the continuous movement of the telescopic rod so as to electrify the static contact; when the telescopic rod is reset and moved to be separated from the power-on switch, the power-on switch can be automatically reset. There is no need to additionally press the energizing switch to energize the stationary contact.

Further, the outside of feeding breach is equipped with feeding conveyer belt, the outside of ejection of compact breach is equipped with ejection of compact conveyer belt, and feeding conveyer belt and ejection of compact conveyer belt's up end all with the up end parallel and level of support plate, one side of support plate dorsad central pivot is attached on the inner wall of fixed supporting bench, feeding conveyer belt and ejection of compact conveyer belt's both sides all are equipped with the baffle. The automatic feeding of the filling bottles can be conveniently realized through the feeding conveyer belt, and the filling bottles pushed out of the fixed supporting table by the pushing assembly can be conveniently and automatically conveyed to the next process through the discharging conveyer belt; one side of the support plate, which is back to the central rotating shaft, is attached to the inner wall of the fixed support table, so that transitional movement of the filling bottles between the rotating table and the corresponding conveying belt is facilitated; the baffles can be protected on two sides of the conveying belt to prevent the filling bottles from rolling off the corresponding conveying belt.

Further, two at least through-holes have been seted up along its border equidistant on the bearing board, two at least feeding breachs have been seted up to one side of fixed supporting bench, be equipped with the filling station with feeding breach one-to-one on the fixed supporting bench, and contained angle between two adjacent filling stations equals with the contained angle between two adjacent feeding breachs, every filling station department all is equipped with a filling head, and each filling head communicates through discharging pipe and same stock tube respectively, a ejection of compact breach has been seted up to fixed supporting bench's opposite side. The filling bottles can be fed at the plurality of feeding notches simultaneously, and the corresponding plurality of filling heads can be filled simultaneously, so that the working efficiency of the device can be improved; and each filled bottle after filling can be discharged through the same discharging notch, so that the filled bottles can be conveniently and uniformly conveyed to the processing position of the next procedure.

3. Advantageous effects

(1) According to the invention, the carrier plate for bearing the filling bottles is arranged, the lifting rod is fixed at the bottom of the carrier plate and is connected with the rotary lifting driving mechanism, the iron block at the bottom of the lifting rod can be adsorbed by the electromagnet in the rotary lifting driving mechanism, the lifting rod can be driven to ascend, and simultaneously, due to the matching limiting action of the spiral channel, the arc-shaped groove and the balls, the lifting rod can ascend while rotating, the filling bottles can be carried by the lifting rod while rotating, until the lifting rod is stressed in a balanced manner in the longitudinal direction, and at the moment, the sum of the gravity of the lifting rod, the filling bottles and the carrier plate and the elastic force of the first spring is equal to the magnetic attraction force borne by the; then the liquid cosmetic is filled, the downward force applied to the lifting rod is gradually increased along with the cosmetic filled into the filling bottle, the magnetic attraction force of the electromagnet broken through by the lifting rod begins to fall, and similarly, due to the matching and limiting action of the spiral channel, the arc-shaped groove and the ball, the lifting rod can rotate and descend at the same time, the filling head carries the filling bottle to rotate and descend at the same time, so that the filling uniformity can be improved, and the liquid cosmetics are uniformly filled into the filling bottle from the inner peripheral side of the filling bottle by aligning the outlet end of the filling head with the eccentric position of the bottle opening of the filling bottle positioned at a filling station in combination with the rotation of the filling bottle, can avoid the generation of a large amount of foam in the filling bottle, and the filling head gradually moves upwards in the filling bottle in the filling process to fill the filling bottle, thereby can avoid in the filling bottle because of the foam is piled up and lead to the filling volume not enough, ensure the reliability of filling process.

(2) According to the invention, the piston plate is arranged in the material storage barrel, the middle part of the piston plate is connected with the telescopic rod extending to the outer side of the material storage barrel, the side of the material storage barrel corresponding to the telescopic rod is provided with the limiting rod, one side of the limiting rod is fixedly provided with the screw rod penetrating through the material storage barrel, the position of the material storage barrel, through which the screw rod penetrates, is provided with the adjusting opening, and the part of the screw rod, which is positioned on the outer side of the adjusting opening, is in threaded sleeve connection with the. In application, after the locking nut is unscrewed, the screw rod moves transversely along the adjusting opening, the limiting rod moves along with the screw rod, the adjustment amount can be determined by setting scale marks on one side of the adjusting opening, after the locking nut is adjusted to a target position, the locking nut is screwed until the locking nut is tightly pressed on the material storage barrel, the screw rod and the limiting rod can basically keep the position unchanged, the position of the piston plate on one side back to the material storage barrel can be limited, the volume of the liquid storage cavity in the material storage barrel is limited, during filling, the amount of liquid cosmetics in the liquid storage cavity in the material storage barrel is the amount of one-time filling of the filling head, the volume of the liquid storage cavity in the material storage barrel is adjustable, namely the filling amount is adjustable, and quantitative filling can be realized.

(3) According to the invention, the fixed support platform and the rotating platform are arranged, the outline of the fixed support platform is circular, the support plates are arranged on the rotating platform at equal intervals, the feeding gap, the filling station and the discharging gap are sequentially arranged on three sides of the fixed support platform, filling bottles to be filled enter the inner side of the fixed support platform from the feeding gap and are placed on the rotating platform, and then the filling bottles can be conveyed to the filling station for filling through the rotation of the rotating platform; after the filling, can carry the filling bottle that is equipped with cosmetics to ejection of compact breach place side through the continuation rotation of rotating the platform, realized promptly to the smooth transport of filling bottle, and through being equipped with a plurality of support plates on rotating the platform equidistant for at every time a filling bottle that is equipped with cosmetics carries to ejection of compact breach place side from filling station department, has one to treat that the filling bottle of filling carries to filling station department from feeding breach place side, and it can realize the periodic continuous operation of device, can improve work efficiency.

(4) The rotary table is provided with pushing components which are in one-to-one correspondence with the support plates and are aligned with the support plates, each pushing component comprises an inner push plate and an outer push plate which are inserted together, a second spring is connected between the outer push plate and the inner push plate, a third spring fixedly connected with the inner side of the vertical part of the rotary table is sleeved on the inner push plate, one end, back to the outer push plate, of the inner push plate is embedded with a ball body which is always in contact with the outer side surface of the supporting cylinder, and an arc-shaped protruding block with gradually-widened width is fixed on the outer side surface of the supporting cylinder, facing. In the process that filling bottles filled with cosmetics are conveyed from a filling station to the side where the discharging gap is located, the ball rolls along the surface of the supporting cylinder and rolls along the arc-shaped bump, the width of the arc-shaped bump is gradually widened, so that the inner push plate drives the insertion plate to move towards the inner side of the outer push plate, the second spring and the third spring are compressed, when the pushing assembly is just opposite to the discharging gap, the outer push plate is pushed to move towards the outer side under the reset action of the second spring, the filling bottles filled with the liquid cosmetics can be pushed out of the discharging gap, the filling bottles can be automatically discharged out of the fixed supporting table, and the filling bottles can be automatically conveyed to the next working procedure processing position by arranging the discharging conveyer belt at the outer side of the discharging gap; and set up the feeding conveyer belt in the outside of feeding breach, can promote the filling bottle automatically and rotate the bench, realize the automatic feeding of filling bottle, can further promote work efficiency.

(5) According to the invention, the rotating table can be driven to rotate by arranging the rotation driving mechanism, the telescopic rod fixedly connected with the rotation driving mechanism and inserted into the storage cylinder body is arranged, and the telescopic rod can push the liquid cosmetics in the storage cylinder body to the filling head by abutting against the piston plate through the telescopic rod in the process of driving the rotating table to rotate by the rotation driving mechanism, so that automatic filling is realized, the arrangement of a power source can be reduced, and the cost is saved.

In conclusion, the invention can avoid the generation of a large amount of foam in the filling bottle, thereby avoiding the insufficient filling amount caused by the accumulation of the foam in the filling bottle and ensuring the reliability of the filling process; the one-time filling amount of the filling mechanism is adjustable, quantitative filling can be realized, and the application is convenient; automatic feeding, filling and discharging can be realized, the working efficiency is high, and the cost can be saved.

Drawings

FIG. 1 is a schematic top view of the structure of the present invention;

FIG. 2 is a schematic structural view of section A-A of FIG. 1;

FIG. 3 is an enlarged view of the structure of region A in FIG. 2;

FIG. 4 is a schematic structural view of section B-B of FIG. 1;

FIG. 5 is an enlarged view of the structure of the area B in FIG. 4;

fig. 6 is an enlarged schematic view of the cartridge 20 of fig. 4.

Reference numerals: 1. fixing the support table; 2. a lifting rod; 3. a discharge conveyer belt; 4. a baffle plate; 5. a sphere; 6. an arc-shaped bump; 7. a rotating table; 71. a support plate; 8. connecting the frame plate; 9. a discharge pipe; 10. a filling head; 11. a support cylinder; 12. a pushing assembly; 121. an inner push plate; 122. an outer pushing plate; 13. a feed conveyor belt; 14. filling bottles; 15. a bearing; 16. a gear; 17. a central rotating shaft; 18. a one-way bearing; 19. a rack; 20. a material storage cylinder; 21. a first spring; 22. a moving contact; 23. an electromagnet; 24. a ball bearing; 25. a carrier plate; 26. a through hole; 27. a spiral channel; 28. a hydraulic cylinder; 29. connecting the support plate; 30. a second spring; 31. a plugboard; 32. a limiting block; 33. a third spring; 34. a power-on switch; 35. a suction duct; 36. a piston plate; 37. a fourth spring; 38. a telescopic rod; 39. static contact; 40. an adjustment port; 41. locking the nut; 42. a screw; 43. a limiting rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, 2 and 4, a quantitative filling device for cosmetic production comprises a conveying mechanism for conveying filling bottles 14 and a filling mechanism for filling liquid cosmetics, wherein the filling mechanism comprises a material storage cylinder 20 and a filling head 10 communicated with the material storage cylinder; the conveying mechanism comprises a fixed supporting table 1 with supporting legs at the bottom and a rotating table 7 which is rotatably positioned at the upper end of the fixed supporting table 1, the fixed supporting table 1 is in a groove shape with a circular outline, a supporting cylinder 11 supported below the rotating table 7 is fixed at the center of the inner side of the fixed supporting table 1, a central rotating shaft 17 vertically penetrating through the inner side of the supporting cylinder 11 and extending to the lower part of the fixed supporting table 1 is fixed at the center of the bottom surface of the rotating table 7, and the lower end of the central rotating shaft 17 is connected with a rotation driving mechanism;

the two sides of the upper end of the fixed supporting table 1 are respectively provided with a feeding notch and a discharging notch, the edge side of the peripheral side of the rotating table 7 is recessed to be lower than the feeding notch and the discharging notch and form an annular bearing plate 71 which is horizontally arranged, the peripheral side of the bearing plate 71 is completely attached to the inner side wall of the fixed supporting table 1, the bearing plate 71 is provided with at least one through hole 26 (eight through holes 26 are arranged in the embodiment) at equal intervals along the peripheral ring, a rotatable lifting rod 2 is vertically arranged in the through hole 26, the upper end of the lifting rod 2 is fixedly provided with a horizontally arranged bearing plate 25 for bearing filling bottles 14, each lifting rod 2 is connected with a rotating lifting driving mechanism, as shown in fig. 3 and 5, the rotating lifting driving mechanism comprises an electromagnet 23 fixed on the bottom surface of the bearing plate 71 and an iron block fixed at the lower end of the, the first spring 21 is sleeved on the lifting rod 2, the spiral channel 27 is spirally arranged along the length direction of the lifting rod 2, arc-shaped grooves are formed in two sides of the through hole 26, balls 24 clamped with the spiral channel 27 are embedded in the arc-shaped grooves, and one side of the electromagnet 23, which is back to the supporting cylinder 11, is connected with a moving contact 22;

one side of the fixed supporting platform 1 is provided with a filling station, as shown in fig. 1 and 2, the filling head 10 is fixedly connected with the outer wall of the fixed supporting platform 1 through a connecting frame plate 8, and the outlet end of the filling head 10 is aligned with the eccentric position of the bottle mouth of a filling bottle 14 positioned at the filling station; as shown in fig. 5, a fixed contact 39 adapted to the movable contact 22 is embedded on the inner wall of the fixed support table 1 at the filling station, and the fixed contact 39 is electrically connected to the power-on switch 34;

as shown in fig. 2, 4 and 6, the storage cylinder 20 is fixed on the fixed support table 1, a piston plate 36 with a periphery completely attached to the inner wall of the storage cylinder 20 is arranged in the storage cylinder 20, the middle part of the piston plate 36 is connected with an expansion link 38 extending to the outer side of the storage cylinder 20, the outer side end of the expansion link 38 is connected with a telescopic driving mechanism, the filling head 10 is communicated with the storage cylinder 20 through a discharge pipe 9, the storage cylinder 20 is connected with a suction pipeline 35 externally connected with a liquid cosmetic storage tank (not shown), and the discharge pipe 9 and the suction pipeline 35 are both provided with a one-way valve; the side of the material storage barrel 20 corresponding to the telescopic rod 38 is provided with a limiting rod 43 which is parallel to the telescopic rod 38 and used for limiting the initial position of the piston plate 36, one side of the limiting rod 43 is fixed with a screw rod 42 which penetrates through the material storage barrel 20 and extends to the outer side of the material storage barrel, a strip-shaped adjusting opening 40 which is parallel to the limiting rod 43 is formed in the position of the material storage barrel 20 where the screw rod 42 penetrates, and a locking nut 41 is sleeved on the part of the screw rod 42 which is located on the outer side of the adjusting opening 40 in a threaded manner.

In this embodiment, as shown in fig. 1, the vertical portion of the rotating platform 7 is provided with through holes aligned with the support plates 25 in the radial direction of the rotating platform 7 at equal intervals around the circumference thereof, and each through hole is internally provided with a pushing assembly 12 for pushing the filling bottles 14 out of the fixed support platform 1, as shown in fig. 2 and 4, the pushing assembly 12 includes an inner pushing plate 121 and an outer pushing plate 122 connected to the side of the inner pushing plate 121 facing away from the central rotating shaft 17, the connecting ends of the outer pushing plate 122 and the inner pushing plate 121 are respectively provided with an insertion plate 31 and a slot which are matched with each other, a second spring 30 connected with the insertion plate 31 is fixed in the slot, the inner pushing plate 121 is sleeved with a third spring 33 fixedly connected with the inner side of the vertical portion of the rotating platform 7, the inner pushing plate 121 is fixed with a limiting block 32 for limiting the third spring 33, one end of the inner pushing plate 121 facing away from the outer pushing plate 122 is embedded with a sphere 5 which always contacts the outer side surface of, as shown in fig. 1, the outer side surface of the support cylinder 11 is fixed with an arc-shaped bump 6 located in the same horizontal plane with the ball 5 toward the position between the filling station and the discharging notch, the width of the arc-shaped bump 6 is gradually widened from one end toward the filling station to one end on the side of the discharging notch, the narrow end of the arc-shaped bump 6 is smoothly connected with the outer side surface of the support cylinder 11, and the upper end surface of the support plate 25 is horizontally aligned with the bottoms of the feeding notch and the discharging notch. After filling is finished (namely, a piston rod of the hydraulic cylinder 28 is completely extended), the rotating table 7 is reset and then continuously rotates, the filling bottle 14 filled with liquid cosmetics can be moved to the side of the discharging gap, meanwhile, the corresponding pushing assembly 12 is driven to rotate around the axis of the central rotating shaft 17 to the side of the discharging gap, in the process, the ball 5 rolls along the surface of the supporting cylinder 11 and rolls along the arc-shaped bump 6, due to the gradually-widened width of the arc-shaped bump 6, the inner pushing plate 121 drives the inserting plate 31 to move towards the inner side of the outer pushing plate 122, the second spring 30 and the third spring 33 are compressed, when the pushing assembly 12 is opposite to the discharging gap, under the reset action of the second spring 30, the outer pushing plate 122 is pushed to move towards the outer side, the filling bottle 14 filled with the liquid cosmetics can be pushed out of the discharging gap, and automatic discharging of the filling bottle 14 is realized; then, as the rotating table 7 continues to rotate, the ball 5 contacts the surface of the support cylinder 11 again, and under the reset action of the third spring 33, the inner push plate 121 can be driven to move in a reset manner, and simultaneously, the outer push plate 122 can be pulled to reset by the second spring 30.

In this embodiment, as shown in fig. 2 and 4, the rotation driving mechanism includes a gear 16 sleeved at the lower end of the central rotating shaft 17, a rack 19 engaged with one side of the gear 16, and a hydraulic cylinder 28 fixedly connected to one end of the rack 19, the hydraulic cylinder 28 is fixedly connected to the bottom of the fixed supporting table 1 through a connecting support plate 29, a one-way bearing 18 is disposed between the central rotating shaft 17 and the gear 16, and a bearing 15 is disposed between the central rotating shaft 17 and a position at the bottom of the fixed supporting table 1 through which the central rotating shaft 17 passes. After the hydraulic cylinder 28 is started, a piston rod of the hydraulic cylinder extends out to drive the rack 19 to translate and drive the gear 16 to rotate, and at the moment, the unidirectional bearing 18 fixes and locks the gear 16 and the central rotating shaft 17, so that the central rotating shaft 17 can be driven to rotate, and the rotating table 7 can be driven to rotate so as to carry the filling bottles 14 to move; then the hydraulic cylinder 28 is reset, the piston rod of the hydraulic cylinder retracts to drive the rack 19 to move back, the gear 16 can be driven to rotate reversely, the one-way bearing 18 realizes the rotary connection between the gear 16 and the central rotating shaft 17, the central rotating shaft 17 keeps not rotating, namely the rotating platform 7 stops rotating, and the filling bottles 14 can be prevented from being conveyed reversely.

In this embodiment, as shown in fig. 2, 4 and 6, the material storage barrel 20 is transversely installed at the bottom of the fixed support platform 1 and aligned with the hydraulic cylinder 28, the telescopic driving mechanism includes the hydraulic cylinder 28 and the rack 19, one end of the rack 19 opposite to the hydraulic cylinder 28 is fixedly connected with the telescopic rod 38, the piston plate 36 is separated from the telescopic rod 38, one side of the piston plate 36 facing the telescopic rod 38 is connected with the fourth spring 37 fixedly connected to the corresponding end side of the material storage barrel 20, the gear 16 is a gear-lacking gear, and in an initial state, a gap is left between the telescopic rod 38 and the piston plate 36. When a piston rod of the hydraulic cylinder 28 extends out to drive the rack 19 to translate, the rack 19 pushes the telescopic rod 38 to move towards the inner side of the material storage cylinder body 20, when the telescopic rod 38 abuts against the piston plate 36, a toothed part on the gear 16 is separated from the rack 19, the filling bottle 14 at the feeding gap position is moved to the filling station position and ascends to the highest position, then, along with the continuous pushing of the hydraulic cylinder 28, the telescopic rod 38 pushes the piston plate 36 to move, under the orientation action of the one-way valve, the liquid cosmetic in the material storage cylinder body 20 can be sent to the filling head 10 through the discharge pipe 9 and filled into the filling bottle 14 from the filling head 10, and the fourth spring 37 is stretched; in the resetting process of the hydraulic cylinder 28, the telescopic rod 38 is directly driven by the rack 19 to extend out of the storage cylinder body 20, the piston plate 36 is reset under the elastic recovery action of the fourth spring 37, negative pressure is generated in the liquid storage cavity, and the storage cylinder body 20 can suck liquid cosmetics in the liquid cosmetic storage box through the suction pipeline 35 by matching with the directional action of the one-way valve. The invention can realize the driving of the conveying mechanism and the filling mechanism by using the hydraulic cylinder 28 as the driving mechanism, and the application and the control are more convenient.

In this embodiment, as shown in fig. 1 and fig. 2, the outside of feeding breach is equipped with feeding conveyer belt 13, the outside of ejection of compact breach is equipped with ejection of compact conveyer belt 3, and feeding conveyer belt 13 and ejection of compact conveyer belt 3's up end all with the up end parallel and level of support plate 25, one side of support plate 25 dorsad central pivot 17 is attached on the inner wall of fixed supporting bench 1, feeding conveyer belt 13 and ejection of compact conveyer belt 3's both sides all are equipped with baffle 4. The automatic feeding of the filling bottles 14 can be conveniently realized through the feeding conveyer belt 13, and the filling bottles 14 pushed out of the fixed supporting table 1 by the pushing assembly 12 can be conveniently and automatically conveyed to the next process through the discharging conveyer belt 3; one side of the support plate 25, which is back to the central rotating shaft 17, is attached to the inner wall of the fixed support table 1, so that the filling bottles 14 can move in a transition manner between the rotating table 7 and the corresponding conveying belt; the baffles 4 may shield both sides of the conveyor belt and prevent the filling bottles 14 from rolling off the respective conveyor belt.

The specific action principle of the quantitative filling device for cosmetic production is as follows:

in the initial state, two pushing assemblies 12 face the feeding gap and the discharging gap respectively, and the two corresponding support plates 25 are located on opposite sides of the feeding gap and the discharging gap respectively;

when the filling device is used, the first filling quantity of the filling structure is adjusted according to the target filling quantity of the filling bottle 14, and the filling device is specifically operated as follows: after the locking nut 41 is unscrewed, the screw rod 42 is transversely moved along the adjusting opening 40, the limiting rod 43 moves along with the screw rod, and the adjusting amount can be determined by arranging scale marks on one side of the adjusting opening 40; after the target position is adjusted, the locking nut 41 is screwed to be tightly pressed on the material storage cylinder body 20, the screw rod 42 and the limiting rod 43 can basically keep the positions fixed, and the piston plate 36 can be abutted against the limiting rod 43 under the action of the elastic force of the fourth spring 37, so that the volume of the cavity (namely the volume of the liquid storage cavity) on the side, opposite to the telescopic rod 38, of the piston plate 36 in the material storage cylinder body 20 is limited;

then the power switch 34, the hydraulic cylinder 28, the driving motors of the feeding conveyer belt 13 and the discharging conveyer belt 3 are started, the piston rod of the hydraulic cylinder 28 extends out to drive the rack 19 to move towards the side where the material storage cylinder 20 is located, the rack 19 drives the gear 16 to rotate, at the moment, the one-way bearing 18 fixes and locks the gear 16 and the central rotating shaft 17, the central rotating shaft 17 can be driven to rotate, the rotating table 7 can be driven to rotate, the moving speed of the hydraulic cylinder 28 and the conveyer belt is adjusted, each time a filling bottle 14 moves to the feeding gap, exactly one carrier plate 25 is located at the feeding gap, the filling bottle 14 on the feeding conveyer belt 13 can accurately move to the corresponding carrier plate 25 through the feeding gap, then the filling bottle 14 is carried by the rotating table 7 to move to the filling station, at the moment, the movable contact 22 is attached to the static contact 39, and the power energy sequentially passes through the static contact 39, The moving contact 22 is transmitted to the electromagnet 23, the electromagnet 23 is electrified to generate attraction force on an iron block at the bottom of the lifting rod 2, so that the lifting rod 2 moves upwards, the first spring 21 is compressed, and the ball 24 is limited in the arc-shaped groove, so that the lifting rod 2 cannot directly move up and down, under the cooperation of the ball 24, the arc-shaped groove and the spiral channel 27, the lifting rod 2 rotates and ascends at the same time, the corresponding carrier plate 25 is driven to rotate and move upwards at the same time, the corresponding filling bottle 14 is driven to rotate and move upwards at the same time, so that the filling head 10 extends into the filling bottle 14 until the filling bottle 14 ascends to the highest position, and at the moment, the sum of the gravity of the lifting rod 2, the filling bottle 14 and the carrier plate 25 and the elastic force of the first spring 21 is equal to the magnetic attraction force borne; meanwhile, when the piston rod of the hydraulic cylinder 28 extends out of the driving rack 19 to drive the rack 19 to translate, the rack 19 pushes the telescopic rod 38 to move towards the inner side of the storage cylinder body 20, when the telescopic rod 38 abuts against the piston plate 36, the toothed part on the gear 16 is separated from the rack 19, then, the gear 16 cannot continue to rotate along with the continuous pushing of the hydraulic cylinder 28, the rotating table 7 cannot continue to rotate, the filling bottle 14 can be ensured to be stably positioned at a filling station so as to be filled with cosmetics, the telescopic rod 38 pushes the piston plate 36 to move, the fourth spring 37 is stretched, under the orientation action of the one-way valve, the liquid cosmetics in the storage cylinder body 20 can be conveyed to the filling head 10 through the discharge pipe 9 and can be filled into the filling bottle 14 from the filling head 10, the amount of the liquid cosmetics in the storage cavity in the storage cylinder body 20 is the amount of the filling head 10 filled at one time, and the volume of the storage cavity in the storage cylinder body 20, the filling quantity is adjustable, and quantitative filling can be realized;

along with the cosmetic is poured into the filling bottle 14, the pressure borne by the lifting rod 2 is gradually increased, the magnetic attraction of the electromagnet 23 can be broken through, the lifting rod 2 moves downwards, similarly, under the matching action of the ball 24, the arc-shaped groove and the spiral channel 27, the lifting rod 2 descends while rotating, the filling bottle 14 descends while rotating, and the liquid cosmetic is uniformly poured into the filling bottle 14 from the inner peripheral side of the filling bottle 14 because the outlet end of the filling head 10 is aligned with the eccentric position of the bottle opening of the filling bottle 14 positioned at the filling station, and in the filling process, the filling head 10 moves upwards in the filling bottle 14 gradually, so that the generation of a large amount of foam in the filling bottle 14 can be avoided, the shortage of filling amount caused by foam accumulation in the filling bottle 14 can be avoided, and the reliability of the filling process is guaranteed;

after filling is finished (namely, the piston rod of the hydraulic cylinder 28 is completely extended), the hydraulic cylinder 28 is driven to reset, the piston rod retracts to drive the rack 19 to translate and reset, the telescopic rod 38 is driven to reset and move for a section, under the resetting action of the fourth spring 37, the piston plate 36 resets and moves to the initial position, negative pressure is generated in the storage cylinder body 20, and under the directional action of the one-way valve, the storage cylinder body 20 sucks the liquid cosmetics in the liquid cosmetics storage box through the suction pipeline 35 to prepare for next filling; meanwhile, the gear 16 is meshed with the rack 19, and then, the gear 16 can be driven to rotate reversely along with the continuous translation and resetting of the rack 19, at the moment, the unidirectional bearing 18 realizes the rotary connection of the gear 16 and the central rotating shaft 17, the central rotating shaft 17 keeps not rotating, namely, the rotating platform 7 stops rotating, the reverse conveying of the filling bottles 14 can be prevented, and finally, the hydraulic cylinder 28, the rack 19 and the telescopic rod 38 are all reset; then, the hydraulic cylinder 28 is started again, the rotating platform 7 can be driven to rotate continuously, the filling bottles 14 filled with liquid cosmetics can be carried to move to the side of the discharging gap, meanwhile, the corresponding pushing assemblies 12 are driven to rotate around the axis of the central rotating shaft 17 to the side of the discharging gap, in the process, the ball 5 rolls along the surface of the supporting cylinder 11 and rolls along the arc-shaped bump 6, due to the fact that the width of the arc-shaped bump 6 is gradually increased, the inner pushing plate 121 drives the inserting plate 31 to move towards the inner side of the outer pushing plate 122, the second spring 30 and the third spring 33 are compressed, when the pushing assemblies 12 are opposite to the discharging gap, under the reset action of the second spring 30, the outer pushing plate 122 is pushed to move towards the outer side, the filling bottles 14 filled with the liquid cosmetics can be pushed out of the discharging gap and are located on the discharging conveying belt 3, and automatic discharging of the filling bottles 14 is; then, as the rotating table 7 continues to rotate, the ball 5 contacts the surface of the support cylinder 11 again, and under the reset action of the third spring 33, the inner push plate 121 can be driven to move in a reset manner, and simultaneously, the outer push plate 122 can be pulled to reset by the second spring 30.

Example 2

The present embodiment is different from embodiment 1 in that:

in this embodiment, as shown in fig. 6, the power switch 34 is disposed on one side of the storage barrel 20 corresponding to the receiving cavity of the telescopic rod 38, and the power switch 34 is provided with an inclined surface for the telescopic rod 38 to abut against, and in an initial state, the power switch 34 is located between the telescopic rod 38 and the piston plate 36. Before the telescopic rod 38 moves to contact the piston plate 36, it will first abut against the inclined surface of the power switch 34, and then with the continued movement of the telescopic rod 38, the power switch 34 can be pressed to energize the stationary contact 39; when the telescopic rod 38 is reset and moved to be separated from the power switch 34, the power switch 34 can be automatically reset. There is no need to additionally press the energizing switch 34 to energize the stationary contact 39.

In this embodiment, as shown in fig. 1, two feeding breachs have been seted up to one side of fixed supporting bench 1, be equipped with the filling station with feeding breach one-to-one on the fixed supporting bench 1, and contained angle between two adjacent filling stations equals with the contained angle between two adjacent feeding breachs, every filling station department all is equipped with a filling head 10, and each filling head 10 communicates with same stock barrel 20 through discharging pipe 9 respectively, a ejection of compact breach has been seted up to fixed supporting bench 1's opposite side. The two feeding notches can simultaneously feed the filling bottles 14, and the corresponding two filling heads 10 can simultaneously fill, so that the working efficiency of the device can be improved; and each filled bottle 14 can be discharged through the same discharging notch after being filled, so that the bottles can be conveniently and uniformly conveyed to the processing position of the next procedure.

Otherwise, the same procedure as in example 1 was repeated.

According to the invention, a large amount of foam can be prevented from being generated in the filling bottle, so that the insufficient filling amount caused by foam accumulation in the filling bottle can be avoided, and the reliability of the filling process is ensured; the one-time filling amount of the filling mechanism is adjustable, quantitative filling can be realized, and the application is convenient; automatic feeding, filling and discharging can be realized, the working efficiency is high, and the cost can be saved.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that changes and modifications to the above embodiments are within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims

1. The quantitative filling device for the production of cosmetics is characterized by comprising a conveying mechanism for conveying filling bottles (14) and a filling mechanism for filling liquid cosmetics, wherein the filling mechanism comprises a material storage cylinder (20) and a filling head (10) communicated with the material storage cylinder; the conveying mechanism is characterized by comprising a fixed supporting table (1) with supporting legs at the bottom and a rotating table (7) which can be rotatably positioned at the upper end of the fixed supporting table (1), wherein the fixed supporting table (1) is in a groove shape with a circular outline, a supporting cylinder (11) supported below the rotating table (7) is fixed at the center of the inner side of the fixed supporting table (1), a central rotating shaft (17) vertically penetrating through the inner side of the supporting cylinder (11) and extending to the lower side of the fixed supporting table (1) is fixed at the center of the bottom surface of the rotating table (7), and the lower end of the central rotating shaft (17) is connected with a rotation driving mechanism;

the filling machine is characterized in that a feeding notch and a discharging notch are respectively arranged on two sides of the upper end of the fixed supporting table (1), the edge side of the peripheral side of the rotating table (7) is downward recessed to be lower than the feeding notch and the discharging notch and form an annular bearing plate (71) horizontally arranged, the peripheral side of the bearing plate (71) is completely attached to the inner side wall of the fixed supporting table (1), at least one through hole (26) is arranged on the bearing plate (71) at equal intervals along the periphery of the bearing plate, a rotatable lifting rod (2) is vertically arranged in the through hole (26), a horizontally arranged bearing plate (25) used for bearing filling bottles (14) is fixed at the upper end of the lifting rod (2), each lifting rod (2) is connected with a rotating lifting driving mechanism, the rotating lifting driving mechanism comprises an electromagnet (23) fixed on the bottom surface of the bearing plate (71), and an iron block fixed at the lower end, the lifting device comprises a first spring (21) sleeved on a lifting rod (2) and a spiral channel (27) spirally arranged along the length direction of the lifting rod (2), arc-shaped grooves are formed in two sides in a through hole (26), balls (24) clamped with the spiral channel (27) are embedded in the arc-shaped grooves, and a moving contact (22) is connected to one side, back to the supporting cylinder (11), of an electromagnet (23);

one side of the fixed supporting platform (1) is provided with a filling station, the filling head (10) is fixedly connected with the outer wall of the fixed supporting platform (1) through a connecting frame plate (8), and the outlet end of the filling head (10) is aligned with the eccentric position of the bottle mouth of a filling bottle (14) positioned at the filling station; a static contact (39) matched with the movable contact (22) is embedded on the inner wall of the fixed support table (1) at the filling station, and the static contact (39) is electrically connected with an electrifying switch (34);

the storage barrel (20) is fixed on the fixed support table (1), a piston plate (36) with the periphery completely attached to the inner wall of the storage barrel is arranged in the storage barrel (20), the middle of the piston plate (36) is connected with an expansion link (38) extending to the outer side of the storage barrel (20), the outer side end of the expansion link (38) is connected with a telescopic driving mechanism, the filling head (10) is communicated with the storage barrel (20) through a discharge pipe (9), the storage barrel (20) is connected with a suction pipeline (35) externally connected with a liquid cosmetic storage box, and the discharge pipe (9) and the suction pipeline (35) are both provided with one-way valves; the material storage barrel body (20) is provided with a limiting rod (43) which is parallel to the telescopic rod (38) and used for limiting the initial position of the piston plate (36) on the side where the telescopic rod (38) is located, a screw rod (42) which penetrates through the material storage barrel body (20) and extends to the outer side of the material storage barrel body is fixed on one side of the limiting rod (43), an adjusting opening (40) which is in a strip shape and parallel to the limiting rod (43) is formed in the position where the screw rod (42) penetrates through the material storage barrel body (20), and a locking nut (41) is sleeved on the part, located on the outer side of the adjusting opening (40), of the screw rod (42) in.

2. The quantitative filling device for the cosmetic production according to claim 1, wherein the vertical part of the rotating platform (7) is provided with through holes which are aligned with the support plate (25) and are positioned on the radial direction of the rotating platform (7) at equal intervals around the circumference, each through hole is internally provided with a pushing component (12) used for pushing the filling bottle (14) out of the fixed support platform (1), each pushing component (12) comprises an inner pushing plate (121) and an outer pushing plate (122) connected with one side of the inner pushing plate (121) opposite to the central rotating shaft (17), the connecting ends of the outer pushing plate (122) and the inner pushing plate (121) are respectively provided with a plug-in plate (31) and a slot which are matched with each other, a second spring (30) connected with the plug-in plate (31) is fixed in the slot, the inner pushing plate (121) is sleeved with a third spring (33) fixedly connected with the inner side of the vertical part of the rotating platform (7), and be fixed with on interior push pedal (121) and be used for spacing stopper (32) to third spring (33), the one end of interior push pedal (121) outside push pedal (122) dorsad is inlayed and is equipped with spheroid (5) that contact all the time supports barrel (11) lateral surface, the position fixation between support barrel (11) lateral surface orientation filling station and the ejection of compact breach has arc lug (6) that are located same horizontal plane with spheroid (5), the width of arc lug (6) is gradually widened to the one end of ejection of compact breach place side by the one end towards the filling station, and the narrow end of arc lug (6) and the lateral surface smooth linking of support barrel (11), the up end of support plate (25) aligns with the bottom level of feeding breach and ejection of compact breach.

3. The quantitative filling device for the cosmetic production according to claim 1, wherein the rotation driving mechanism comprises a gear (16) sleeved at the lower end of the central rotating shaft (17), a rack (19) arranged at one side of the gear (16) in a meshing manner, and a hydraulic cylinder (28) fixedly connected to one end of the rack (19), the hydraulic cylinder (28) is fixedly connected with the bottom of the fixed supporting platform (1) through a connecting support plate (29), a one-way bearing (18) is arranged between the central rotating shaft (17) and the gear (16), and a bearing (15) is arranged between the position, through which the central rotating shaft (17) passes, of the bottom of the fixed supporting platform (1) and the central rotating shaft (17).

4. A cosmetic product quantitative filling device according to claim 3, wherein the storage cylinder (20) is transversely installed at the bottom of the fixed support platform (1) and aligned with the hydraulic cylinder (28), the telescopic driving mechanism comprises the hydraulic cylinder (28) and a rack (19), one end of the rack (19) facing away from the hydraulic cylinder (28) is fixedly connected with the telescopic rod (38), the piston plate (36) is separated from the telescopic rod (38), one side of the piston plate (36) facing the telescopic rod (38) is connected with a fourth spring (37) fixedly connected to the corresponding end side of the storage cylinder (20), the gear (16) is a gear-lacking, and a gap is left between the telescopic rod (38) and the piston plate (36) in an initial state.

5. The quantitative filling device for the cosmetic production according to claim 4, wherein the power switch (34) is arranged on one side of the storage cylinder (20) in the cavity corresponding to the side of the telescopic rod (38), the power switch (34) is provided with an inclined surface against which the telescopic rod (38) abuts, and in an initial state, the power switch (34) is positioned between the telescopic rod (38) and the piston plate (36).

6. The filling device for producing cosmetics according to claim 1, wherein a feeding conveyer belt (13) is arranged outside the feeding notch, a discharging conveyer belt (3) is arranged outside the discharging notch, the upper end surfaces of the feeding conveyer belt (13) and the discharging conveyer belt (3) are flush with the upper end surface of the support plate (25), one side of the support plate (25) back to the central rotating shaft (17) is attached to the inner wall of the fixed support table (1), and baffles (4) are arranged on the two sides of the feeding conveyer belt (13) and the discharging conveyer belt (3).

7. The filling device for producing cosmetics according to any one of claims 1 to 6, wherein at least two through holes (26) are formed in the supporting plate (71) at equal intervals along the circumference of the supporting plate, at least two feeding notches are formed in one side of the fixed supporting table (1), filling stations which correspond to the feeding notches one to one are arranged on the fixed supporting table (1), included angles between two adjacent filling stations are equal to included angles between two adjacent feeding notches, each filling station is provided with a filling head (10), each filling head (10) is communicated with the same material storage barrel (20) through a discharging pipe (9), and a discharging notch is formed in the other side of the fixed supporting table (1).