阅读说明：本技术 一种化妆品瓶体自动上垫片装置 (Automatic gasket device of going up of cosmetic bottle ) 是由 陈双健 斯蒂芬诺.格鲁扎 杨伟 于 2020-07-02 设计创作，主要内容包括：本发明一种化妆品瓶体自动上垫片装置,包括输送机构、检测机构、定位机构、垫片上料机构、控制器和机架,所述输送机构的一侧设置有定位机构,所述输送机构的另一侧设置有检测机构,所述输送机构的上方设置有垫片上料机构,所述控制器分别与输送机构、检测机构、定位机构以及垫片上料机构电性连接,以控制输送机构、检测机构、定位机构和垫片上料机构工作；本发明结构简单,设计合理,机械性能稳定,工作效率高,能够保证垫片摆放准确性,从而节约了人工,降低了劳动强度。(The invention relates to an automatic gasket feeding device for cosmetic bottles, which comprises a conveying mechanism, a detection mechanism, a positioning mechanism, a gasket feeding mechanism, a controller and a rack, wherein the positioning mechanism is arranged on one side of the conveying mechanism, the detection mechanism is arranged on the other side of the conveying mechanism, the gasket feeding mechanism is arranged above the conveying mechanism, and the controller is respectively electrically connected with the conveying mechanism, the detection mechanism, the positioning mechanism and the gasket feeding mechanism so as to control the conveying mechanism, the detection mechanism, the positioning mechanism and the gasket feeding mechanism to work; the gasket placing device is simple in structure, reasonable in design, stable in mechanical performance and high in working efficiency, and can ensure the accuracy of placing gaskets, so that the labor is saved, and the labor intensity is reduced.)

1. The utility model provides an automatic gasket device of going up of cosmetic bottle, includes conveying mechanism (1), detection mechanism (2), positioning mechanism (3), gasket feed mechanism (4), controller and frame, its characterized in that: one side of conveying mechanism (1) is provided with positioning mechanism (3), the opposite side of conveying mechanism (1) is provided with detection mechanism (2), the top of conveying mechanism (1) is provided with gasket feed mechanism (4), the controller respectively with conveying mechanism (1), detection mechanism (2), positioning mechanism (3) and gasket feed mechanism (4) electric connection to control conveying mechanism (1), detection mechanism (2), positioning mechanism (3) and gasket feed mechanism (4) work.

2. An automatic gasket device for cosmetic bottle according to claim 1, wherein: the conveying mechanism (1) comprises a rack (5), a driving pulley shaft and a transmission pulley shaft are arranged at two ends of the rack (5) respectively, the driving pulley shaft is connected with an output end of a driving motor, the driving motor is fixed on the rack (5), a driving pulley (6) is arranged on the driving pulley shaft, a transmission pulley (7) is arranged on the transmission pulley shaft, a conveying belt (8) is wound between the driving pulley (6) and the transmission pulley (7), guide plates (9) are arranged on two sides of the conveying belt (8), a front side plate (12) and a rear side plate (13) are arranged on two sides of the rack (5) respectively, the front side plate (12) and the rear side plate (13) are both L-shaped structures, a rack is fixed on the front side plate (12) and the rear side plate (13), and a buzzer is arranged on the rack and connected with a controller.

3. An automatic gasket device for cosmetic bottle according to claim 1, wherein: positioning mechanism (3) block cylinder (11) including first cylinder (10) and the second of blockking, first cylinder (10) of blockking are installed on first cylinder mount pad (14), the second blocks cylinder (11) and installs on second cylinder mount pad (15), and first cylinder mount pad (14) and second cylinder mount pad (15) interval set up on posterior lateral plate (13).

4. An automatic gasket device for cosmetic bottle according to claim 3, wherein: positioning mechanism (3) still include the third and block cylinder (54), the third blocks cylinder (54) and is located the below of lower silica gel suction head (38), the third blocks cylinder (54) and fixes on second cylinder mounting panel (55), second cylinder mounting panel (55) are fixed between left branch dagger (24) and right branch dagger (25), the third blocks the piston rod end connection of cylinder (54) and has push pedal (56), two arc openings (57) have been seted up to the one end of push pedal (56).

5. An automatic gasket device for cosmetic bottle according to claim 1, wherein: detection mechanism (2) are including mould sensor (16) and gasket sensor (17), mould sensor (16) are fixed on first sensor support (18), first sensor support (18) set up the one end at preceding curb plate (12), the other end of preceding curb plate (12) is provided with second sensor support (19), installs gasket sensor (17) on second sensor support (19).

6. An automatic gasket device for cosmetic bottle according to claim 5, wherein: detection mechanism (2) still include first bottle sensor (20) and second bottle sensor (21), and first bottle sensor (20) and second bottle sensor (21) are the setting side by side to fix on sensor backup pad (22), sensor backup pad (22) are fixed on two right support posts (25).

7. An automatic gasket device for cosmetic bottle according to claim 1, wherein: gasket feed mechanism (4) are including support frame (23), support frame (23) are including left branch dagger (24), right branch dagger (25), left support board (26), right support board (27), left connecting plate (28) and right connecting plate (29), left branch dagger (24) are provided with two, two the interval is provided with left connecting plate (28) and left support board (26) from top to bottom between left branch dagger (24), is provided with first cylinder mounting panel (30) between left connecting plate (28) and left support board (26), install revolving cylinder (31) on first cylinder mounting panel (30), the output of revolving cylinder (31) is connected with the one end of pivot (32), and the bearing is installed to the other end of pivot (32), and the bearing is fixed on right support board (27).

8. An automatic gasket device for cosmetic bottle according to claim 7, wherein: two fixed blocks (33) are installed at the middle part interval of pivot (32), two be provided with rotor plate (34) on fixed block (33), telescopic cylinder (35) are gone up to two, two are installed at the upper end interval of rotor plate (34) the tailpiece of the piston rod portion of going up telescopic cylinder (35) all installs last silica gel suction head (36), goes up silica gel suction head (36) and is connected with vacuum generator through the trachea, goes up the solenoid valve on going up being equipped with in the trachea between silica gel suction head (36) and vacuum generator, and telescopic cylinder (37) are down installed at the lower extreme interval of rotor plate (34), two lower silica gel suction head (38) are all installed down to the tailpiece of the piston rod portion of telescopic cylinder (37), and lower silica gel suction head (38) are connected with vacuum generator through the trachea, are equipped with down the solenoid valve on the trachea between lower silica gel suction head.

9. An automatic gasket device for cosmetic bottle according to claim 7, wherein: two left branch dagger (24) and two be provided with preceding connecting plate (39), back connecting plate (40) between right branch dagger (25) respectively, install two third sensor support (41) on back connecting plate (40), install gasket sensor (42) on third sensor support (41), gasket sensor (42) are used for detecting gasket (48) in material loading chamber (49).

10. An automatic gasket device for cosmetic bottle according to claim 7, wherein: a feeding support plate (43) is arranged between the left connecting plate (28) and the right connecting plate (29), two hollowed holes are formed in the feeding support plate (43), two material blocking rings (44) are arranged on the feeding support plate (43) at intervals, a first through hole (45) is formed in the middle of each material blocking ring (44), the radius of each first through hole (45) is the same as that of each hollowed hole, each first through hole (45) is vertically communicated with each hollowed hole, four accommodating holes (46) are formed in each material blocking ring (44), the four accommodating holes (46) are communicated with the first through holes (45), material blocking rods (47) are fixed in the four accommodating holes (46), a feeding cavity (49) for accommodating a gasket (48) is formed between the four material blocking rods (47), and a balancing weight (50) is arranged in the feeding cavity (49), the top of striker rod (47) is provided with striker plate (51), and second through-hole (52) have been seted up in striker plate (51) middle part, still seted up opening (53) on striker plate (51), opening (53) are linked together with second through-hole (52).

Technical Field

The invention relates to the technical field of cosmetics, in particular to an automatic gasket feeding device for a cosmetic bottle.

Background

With the continuous improvement of the living standard of people, the requirements of people on the quality of life are higher and higher, and both men and women pay attention to maintenance, so that the current cosmetic industry is well-sold, which greatly promotes various industries related to the cosmetic industry, the cosmetic packaging bottle is a necessary product in the cosmetic industry, and most cosmetics are stored and filled through the cosmetic packaging bottle. When the cosmetic packaging bottle is filled, a gasket is required to be placed on the mouth of the filled packaging bottle, and then the cover is screwed on. At present, a gasket is placed on a cosmetic bottle body generally by a manual mode, and then a cover is screwed on a packaging bottle. The gasket feeding mode is high in labor cost and low in efficiency, the gaskets are easily placed in a leakage mode and a partial mode in a manual mode, the production quality is unstable, the production cost is high, the requirement of mass production cannot be met, and the production speed cannot be improved. In view of the above disadvantages, there is a need for an automatic gasket mounting device for cosmetic bottle.

Disclosure of Invention

The invention aims to provide an automatic gasket feeding device for a cosmetic bottle, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automatic gasket device of going up of cosmetic bottle, includes conveying mechanism, detection mechanism, positioning mechanism, gasket feed mechanism, controller and frame, one side of conveying mechanism is provided with positioning mechanism, conveying mechanism's opposite side is provided with detection mechanism, conveying mechanism's top is provided with gasket feed mechanism, the controller respectively with conveying mechanism, detection mechanism, positioning mechanism and gasket feed mechanism electric connection to control conveying mechanism, detection mechanism, positioning mechanism and gasket feed mechanism work.

Preferably, the conveying mechanism comprises a frame, a driving pulley shaft and a transmission pulley shaft are respectively arranged at two ends of the frame, the driving pulley shaft is connected with an output end of a driving motor, the driving motor is fixed on the frame, a driving pulley is arranged on the driving pulley shaft, a transmission pulley is arranged on the transmission pulley shaft, a conveying belt is wound between the driving pulley and the transmission pulley, guide plates are arranged at two sides of the conveying belt, a front side plate and a rear side plate are respectively arranged at two sides of the frame, the front side plate and the rear side plate are both in an L-shaped structure, the frame is fixed on the front side plate and the rear side plate, a buzzer is arranged on the frame, and the buzzer is connected with the controller.

Preferably, the positioning mechanism comprises a first blocking cylinder and a second blocking cylinder, the first blocking cylinder is installed on the first cylinder installation seat, the second blocking cylinder is installed on the second cylinder installation seat, and the first cylinder installation seat and the second cylinder installation seat are arranged on the rear side plate at intervals.

Preferably, positioning mechanism still includes that the third stops the cylinder, the third stops the cylinder and is located the below of lower silica gel suction head, the third stops the cylinder and fixes on second cylinder mounting panel, second cylinder mounting panel is fixed between left branch dagger and right branch dagger, the piston rod end connection that the third stopped the cylinder has the push pedal, the one end of push pedal is seted up and is put two arc openings.

Preferably, the detection mechanism comprises a mold sensor and a gasket sensor, the mold sensor is fixed on a first sensor support, the first sensor support is arranged at one end of the front side plate, a second sensor support is arranged at the other end of the front side plate, and the gasket sensor is arranged on the second sensor support.

Preferably, detection mechanism still includes first bottle sensor and second bottle sensor, and first bottle sensor and second bottle sensor are the setting side by side to fix in the sensor backup pad, the sensor backup pad is fixed on two right branch daggers.

Preferably, gasket feed mechanism includes the support frame, the support frame includes left branch dagger, right branch dagger, left connecting plate and right connecting plate, the left branch dagger is provided with two, two the interval is provided with left connecting plate and left branch dagger from top to bottom between the left branch dagger, is provided with first cylinder mounting panel between left connecting plate and the left branch dagger, install revolving cylinder on the first cylinder mounting panel, revolving cylinder's output is connected with the one end of pivot, and the bearing is installed to the other end of pivot, and the bearing is fixed in the right branch dagger.

Preferably, two fixed blocks are installed at the middle part interval of pivot, two be provided with the rotor plate on the fixed block, telescopic cylinder on two, two are installed at the upper end interval of rotor plate the piston rod tip of going up telescopic cylinder all installs last silica gel suction head, goes up the silica gel suction head and is connected with vacuum generator through the trachea, goes up to be equipped with on the solenoid valve on the trachea between silica gel suction head and vacuum generator, two telescopic cylinder down, two are installed at the lower extreme interval of rotor plate the lower silica gel suction head is all installed down to telescopic cylinder's piston rod tip, and lower silica gel suction head passes through the trachea and is connected with vacuum generator, is equipped with down the solenoid valve on the trachea between lower silica gel suction head and vacuum generator.

Preferably, two be provided with preceding connecting plate, back connecting plate between the left branch dagger and the two right branch dagger respectively, install two third sensor support on the back connecting plate, install the gasket sensor on the third sensor support, the gasket sensor is used for detecting the gasket of material loading intracavity.

Preferably, a feeding support plate is arranged between the left connecting plate and the right connecting plate, two hollowed holes are formed in the feeding support plate, two material blocking rings are arranged on the feeding support plate at intervals, a first through hole is formed in the middle of each material blocking ring, the radius of each first through hole is the same as that of each hollowed hole, the first through holes and the hollowed holes are communicated up and down, two four containing holes are formed in each material blocking ring and communicated with the first through holes, four material blocking rods are fixed in the containing holes, a feeding cavity used for containing a gasket is formed between the four material blocking rods, balancing weights are arranged in the feeding cavities, material blocking plates are arranged at the tops of the material blocking rods, second through holes are formed in the middle of the material blocking plates, openings are formed in the material blocking plates, and the openings are communicated with the second through holes.

Compared with the prior art, the automatic cosmetic bottle body gasket feeding device has the advantages that when the automatic cosmetic bottle body gasket feeding device is used, a pad stack is manually placed in the feeding cavity, the balancing weight is placed on the pad stack, then a bottle body is placed on the bottle body mold, the driving motor works to drive the driving pulley shaft and the driving pulley to rotate, the conveying belt is wound between the driving pulley and the driving pulley to drive the conveying belt to move to convey the bottle body mold placed on the conveying belt, when the mold sensor senses the bottle body mold, the mold sensor sends a sensing signal to the controller, the controller controls the first blocking cylinder to act, the piston rod of the first blocking cylinder extends out to block the bottle body mold, the conveying belt continues to drive the next bottle body mold to move to block two bottle body molds which are in front and behind under the action of the first blocking cylinder, and the first bottle body sensor and the second bottle body sensor respectively detect the two bottle body molds which are in front and behind, when the first bottle body sensor and the second bottle body sensor sense the bottles in the two bottle body molds, the first bottle body sensor and the second bottle body sensor send sensing signals to the controller, the controller controls the piston rod of the second blocking cylinder to extend out and controls the piston rod of the first blocking cylinder to retract, the two bottle body molds continue to move under the driving of the conveyer belt, the second blocking cylinder blocks the two bottle body molds, the third blocking cylinder pushes the push plate to move to enable the arc-shaped opening on the push plate to be in contact with the bottles and position the bottles, after the bottles are positioned, the rotary cylinder works to drive the rotary shaft and the rotary plate to rotate, the upper telescopic cylinder and the lower telescopic cylinder also rotate along with the rotation, so that the upper silica gel suction head is positioned under the gasket, the upper telescopic cylinder pushes the upper silica gel suction head to move upwards to enable the upper silica gel suction head to be in contact with the gasket, the vacuum generator works, the upper electromagnetic valve is opened, air between the upper silica gel suction head and the air pipe can be pumped to be dry, the gasket can be firmly adsorbed on the surface of the upper silica gel suction head, the upper telescopic cylinder acts to drive the upper silica gel suction head to move downwards, the upper silica gel suction head can suck one gasket in the material retaining ring, the rotary cylinder works to drive the rotating shaft and the rotating plate to rotate, the upper telescopic cylinder and the lower telescopic cylinder also rotate along with the rotation, the upper silica gel suction head with the gasket adsorbed thereon is positioned right above the bottle body, the empty lower silica gel suction head is positioned right below the other gasket, the lower telescopic cylinder acts to push the lower silica gel suction head to move upwards, the lower silica gel suction head is contacted with the gasket, the lower electromagnetic valve is opened, air between the lower silica gel suction head and the air pipe is pumped to be dry, the lower silica gel suction head can be firmly adsorbed on the surface of the gasket, the, the lower silica gel suction head sucks the other gasket in the material blocking ring, and the upper telescopic cylinder moves to push the upper silica gel suction head to move downwards at the same time, so that the gasket is in contact with the bottle body, the upper electromagnetic valve is closed, and the gasket on the upper silica gel suction head falls into the bottle opening of the bottle body, thereby realizing the operation of the upper gasket of the cosmetic bottle body; the gasket placing device is simple in structure, reasonable in design, stable in mechanical performance and high in working efficiency, and can ensure the accuracy of placing gaskets, so that the labor is saved, and the labor intensity is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention without limiting the invention in which:

FIG. 1 is a perspective view of an automatic gasket mounting device for cosmetic bottles according to the present invention;

FIG. 2 is a front view of an automatic gasket mounting apparatus for cosmetic bottles according to the present invention;

fig. 3 is a rear view of an automatic gasket mounting apparatus for cosmetic bottles according to the present invention.

In the drawings:

1. a conveying mechanism; 2. a detection mechanism; 3. a positioning mechanism; 4. a gasket feeding mechanism; 5. a frame; 6. a driving pulley; 7. a drive pulley; 8. a conveyor belt; 9. a guide plate; 10. a first barrier cylinder; 11. a second barrier cylinder; 12. a front side plate; 13. a rear side plate; 14. a first cylinder mount; 15. a second cylinder mount; 16. a mold sensor; 17. a pad sensor; 18. a first sensor mount; 19. a second sensor support; 20. a first vial sensor; 21. a second vial sensor; 22. a sensor support plate; 23. a support frame; 24. a left support column; 25. a right support column; 26. a left support plate; 27. a right support plate; 28. a left connecting plate; 29. a right connecting plate; 30. a first cylinder mounting plate; 31. a rotating cylinder; 32. a rotating shaft; 33. a fixed block; 34. a rotating plate; 35. an upper telescopic cylinder; 36. putting a silica gel sucker; 37. a lower telescopic cylinder; 38. a lower silica gel sucker; 39. a front connecting plate; 40. a rear connecting plate; 41. a third sensor mount; 42. a pad sensor; 43. a feeding support plate; 44. a material blocking ring; 45. a first through hole; 46. an accommodation hole; 47. a material blocking rod; 48. a gasket; 49. a feeding cavity; 50. a balancing weight; 51. a striker plate; 52. a second through hole; 53. an opening; 54. a third barrier cylinder; 55. a second cylinder mounting plate; 56. pushing the plate; 57. an arc-shaped opening; 58. a bottle body mould.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides an automatic gasket device of going up of cosmetic bottle, includes conveying mechanism 1, detection mechanism 2, positioning mechanism 3, gasket feed mechanism 4, controller and frame, one side of conveying mechanism 1 is provided with positioning mechanism 3, the opposite side of conveying mechanism 1 is provided with detection mechanism 2, the top of conveying mechanism 1 is provided with gasket feed mechanism 4, the controller respectively with conveying mechanism 1, detection mechanism 2, positioning mechanism 3 and 4 electric connection of gasket feed mechanism to control conveying mechanism 1, detection mechanism 2, positioning mechanism 3 and 4 works of gasket feed mechanism.

The conveying mechanism 1 in this embodiment includes a frame 5, a driving pulley shaft and a transmission pulley shaft are respectively arranged at two ends of the frame 5, the driving pulley shaft is connected with an output end of a driving motor, the driving motor is fixed on the frame 5, a driving pulley 6 is arranged on the driving pulley shaft, a transmission pulley 7 is arranged on the transmission pulley shaft, a conveying belt 8 is wound between the driving pulley 6 and the transmission pulley 7, guide plates 9 are arranged at two sides of the conveying belt 8, a front side plate 12 and a rear side plate 13 are respectively arranged at two sides of the frame 5, the front side plate 12 and the rear side plate 13 are both in an L-shaped structure, a frame is fixed on the front side plate 12 and the rear side plate 13, a buzzer is arranged on the frame, and the buzzer is connected with a controller.

In this embodiment, a plurality of bottle body molds 58 are placed on the conveyor belt 8, and a plurality of bottle body molds 58 are provided with a contour groove for placing cosmetic bottles.

The positioning mechanism 3 in this embodiment includes a first blocking cylinder 10 and a second blocking cylinder 11, the first blocking cylinder 10 is mounted on a first cylinder mounting seat 14, the second blocking cylinder 11 is mounted on a second cylinder mounting seat 15, and the first cylinder mounting seat 14 and the second cylinder mounting seat 15 are arranged on the rear side plate 13 at intervals.

The positioning mechanism 3 in this embodiment further includes a third blocking cylinder 54, the third blocking cylinder 54 is located below the lower silica gel suction head 38, the third blocking cylinder 54 is fixed on a second cylinder mounting plate 55, the second cylinder mounting plate 55 is fixed between the left support column 24 and the right support column 25, a push plate 56 is connected to an end of a piston rod of the third blocking cylinder 54, and two arc-shaped openings 57 are provided at one end of the push plate 56.

The detection mechanism 2 in this embodiment includes a mold sensor 16 and a gasket sensor 17, the mold sensor 16 is fixed on a first sensor support 18, the first sensor support 18 is disposed at one end of the front side plate 12, a second sensor support 19 is disposed at the other end of the front side plate 12, and the gasket sensor 17 is mounted on the second sensor support 19.

The detection mechanism 2 in this embodiment further includes a first bottle sensor 20 and a second bottle sensor 21, the first bottle sensor 20 and the second bottle sensor 21 are arranged side by side and fixed on a sensor support plate 22, and the sensor support plate 22 is fixed on two right support posts 25.

Gasket feed mechanism 4 in this embodiment includes support frame 23, support frame 23 includes left branch dagger 24, right branch dagger 25, left support plate 26, right support plate 27, left connecting plate 28 and right connecting plate 29, left branch dagger 24 is provided with two, two the interval is provided with left connecting plate 28 and left support plate 26 from top to bottom between the left branch dagger 24, is provided with first cylinder mounting panel 30 between left connecting plate 28 and the left support plate 26, install revolving cylinder 31 on the first cylinder mounting panel 30, revolving cylinder 31's output and the one end of pivot 32 are connected, and the bearing is installed to the other end of pivot 32, and the bearing is fixed on right support plate 27.

In this embodiment, two right support columns 25 are provided, and a right connecting plate 29 and a right support plate 27 are provided between the two right support columns 25 at an interval from top to bottom.

In this embodiment two fixed blocks 33 are installed at the middle part interval of pivot 32, two be provided with rotor plate 34 on the fixed block 33, telescopic cylinder 35 on two, two are installed at the upper end interval of rotor plate 34 go up telescopic cylinder 35's tailpiece of the piston rod portion and all install last silica gel suction head 36, go up silica gel suction head 36 and be connected with vacuum generator through the trachea, go up and be equipped with the solenoid valve on the trachea between silica gel suction head 36 and vacuum generator, two telescopic cylinder 37 under two are installed at the lower extreme interval of rotor plate 34 the tailpiece of the piston rod portion of telescopic cylinder 37 all installs down silica gel suction head 38 down, and lower silica gel suction head 38 passes through the trachea and is connected with vacuum generator, is equipped with down the solenoid valve on the trachea between lower silica gel suction head 38 and.

Two in this embodiment left branch dagger 24 with two be provided with preceding connecting plate 39, back connecting plate 40 between the right branch dagger 25 respectively, install two third sensor support 41 on the back connecting plate 40, install gasket sensor 42 on the third sensor support 41, gasket sensor 42 is used for detecting the gasket 48 in the material loading chamber 49, and when gasket sensor 42 did not sense the gasket 48 in the material loading chamber 49, gasket sensor 42 sends sensing signal to the controller, and controller buzzer work reminds the staff to add gasket 48.

In this embodiment, a feeding support plate 43 is disposed between the left connecting plate 28 and the right connecting plate 29, two hollowed holes are disposed on the feeding support plate 43, two material blocking rings 44 are disposed on the feeding support plate 43 at intervals, a first through hole 45 is disposed in the middle of each of the two material blocking rings 44, the radius of the first through hole 45 is the same as that of the hollowed holes, the first through hole 45 is vertically communicated with the hollowed holes, four receiving holes 46 are disposed on the two material blocking rings 44, the four receiving holes 46 are communicated with the first through hole 45, material blocking rods 47 are fixed in the four receiving holes 46, a feeding cavity 49 for receiving a gasket 48 is formed between the four material blocking rods 47, a balancing weight 50 is disposed in the feeding cavity 49, a material blocking plate 51 is disposed on the top of the material blocking rod 47, a second through hole 52 is disposed in the middle of the material blocking plate 51, and an opening 53 is further disposed on the material blocking plate 51, the opening 53 communicates with the second through hole 52.

In this embodiment, the bottom of the material blocking rod 47 is a cylinder with a small top and a large bottom, and a plurality of snap rings are uniformly distributed on the outer peripheral wall of the cylinder. Through the setting of cylinder, can play and prevent that gasket 48 and balancing weight 50 from dropping.

When the invention is used, a pad stack 48 is manually placed in the feeding cavity 49, a balancing weight 50 is placed on the pad stack 48, then the bottle body is placed on the bottle body mold 58, the driving motor works to drive the driving belt wheel shaft and the driving belt wheel 6 to rotate, the conveying belt 8 is wound between the driving belt wheel 6 and the driving belt wheel 7 to drive the conveying belt 8 to move, the bottle body mold 58 placed on the conveying belt 8 is conveyed, when the mold sensor 16 senses the bottle body mold 58, the mold sensor 16 sends a sensing signal to the controller, the controller controls the action of the first blocking cylinder 10, the piston rod of the first blocking cylinder 10 extends out to block the bottle body mold 58, the conveying belt 8 continues to drive the next bottle body mold 58 to move, under the action of the first blocking cylinder 10, the two bottle body molds 58 which are in front and back, the first bottle body sensor 20 and the second bottle body sensor 21 respectively block the two bottle body molds 58 which are in front and back, when the first bottle sensor 20 and the second bottle sensor 21 both sense the bottles in the two bottle molds 58, the first bottle sensor 20 and the second bottle sensor 21 send sensing signals to the controller, the controller controls the piston rod of the second block cylinder 11 to extend out and controls the piston rod of the first block cylinder 10 to retract, the two bottle molds 58 continue to move under the driving of the conveyer belt 8, the second block cylinder 11 blocks the two bottle molds 58, the third block cylinder 54 acts to push the push plate 56 to move, so that the arc-shaped opening 57 on the push plate 56 contacts with the bottles and positions the bottles, after the bottles are positioned, the rotating cylinder 31 operates to drive the rotating shaft 32 and the rotating plate 34 to rotate, the upper telescopic cylinder 35 and the lower telescopic cylinder 37 also rotate along with the rotation, so that the upper silica gel suction head 36 is positioned under the gasket 48, the upper telescopic cylinder 35 acts to push the upper silica gel suction head 36 to move upwards, the upper silica gel suction head 36 is contacted with a gasket 48, the vacuum generator works, the upper electromagnetic valve is opened, air between the upper silica gel suction head 36 and the air pipe can be pumped to be dry, the gasket 48 can be firmly adsorbed on the surface of the upper silica gel suction head 36, the upper telescopic cylinder 35 acts to drive the upper silica gel suction head 36 to move downwards, the upper silica gel suction head 36 sucks one gasket 48 in a material retaining ring 44, the rotary cylinder 31 works to drive the rotary shaft 32 and the rotary plate 34 to rotate, the upper telescopic cylinder 35 and the lower telescopic cylinder 37 also rotate along with the rotation, the upper silica gel suction head 36 adsorbed with the gasket 48 is positioned right above a bottle body, the empty lower silica gel suction head 38 is positioned right below the other gasket 48, the lower telescopic cylinder 37 acts to push the lower silica gel suction head 38 to move upwards, the lower silica gel suction head 38 is contacted with the gasket 48, the lower electromagnetic valve is opened, air between the lower silica gel suction head 38 and the air pipe is pumped to, the lower silica gel suction head 38 can be firmly adsorbed on the surface of the gasket 48, the lower telescopic cylinder 37 acts to drive the lower silica gel suction head 38 to move downwards, so that the lower silica gel suction head 38 sucks the other gasket 48 in the material blocking ring 44, meanwhile, the upper telescopic cylinder 35 acts to push the upper silica gel suction head 36 to move downwards, so that the gasket 48 is in contact with the bottle body, the upper electromagnetic valve is closed, the gasket 48 on the upper silica gel suction head 36 falls into the bottle mouth of the bottle body, and therefore the upper gasket operation of the cosmetic bottle body is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.