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Manufacturing method of liquid bottled cosmetic filling machine

发布日期:2020-01-18 04:48 Document serial number: 19738260 Release date: 2020-01-18 04:48
Manufacturing method of liquid bottled cosmetic filling machine

The invention relates to a filling machine, in particular to a liquid bottled cosmetic filling machine.



Background technique:

Cosmetics are substances that are used to enhance the beauty of the human body in addition to simple cleaning products. The origin of the use of cosmetics is quite early and widespread, especially in women who have a certain economic foundation will often use it. Bottled cosmetics need to be canned so that they can be sold.

At present, when canning liquid cosmetics, the canned bottles need to be placed under the discharge port of the canning machine, and then the cosmetics in the filling machine are poured into the bottles. Although this method can be used for canning of cosmetics However, the continuity of canned cosmetics is low, the canning speed is slow, and at the same time, the cosmetics are easy to spill when canned.



Technical realization elements:

In order to overcome the disadvantages of the low continuity, slow canning speed, and easy splashing of cosmetics, the object of the present invention is to provide a liquid bottled cosmetic bottle with strong continuity, fast canning speed, and no splashing of cosmetics. Installed.

The technical solution is: a liquid bottle cosmetic filling machine, including: a mounting base; mounted on the mounting base, and canned cosmetics can be slid; a canned component, mounted on the mounting base, and canned cosmetics can be slid The liquid storage hopper is installed above the canned component; the feeding component is installed at the bottom of the liquid storage hopper, and the cosmetics are unloaded by a sliding method.

As an improvement to the above solution, the canned component includes a sliding block, a placing plate, and a first elastic member, the sliding block is mounted on a mounting base, the placing plate is slidingly mounted on the sliding block, and the sliding block is Each side is provided with a first elastic member, and the tail end of the first elastic member is connected to the placing plate.

As an improvement of the above solution, the feeding component includes an isolation cylinder, an arc-shaped sliding baffle, a second elastic member, a liquid outlet pipe, and a blocking plate. The isolation cylinder is installed at the bottom of the liquid storage bucket, and the isolation cylinder is provided with An arc-shaped sliding groove, an arc-shaped sliding baffle is slidably connected in the arc-shaped sliding groove, and a second elastic member is connected between the bottom end of the arc-shaped sliding baffle and the isolation cylinder, and the arc-shaped sliding baffle The left and right sides of the lower part are provided with liquid outlet pipes. The top, bottom of the isolating cylinder and the upper part of the arc-shaped sliding baffle are provided with through holes. The bottom of the isolating cylinder is provided with an arc-shaped chute, and the liquid outlet pipe passes through The arc-shaped chute is provided with a blocking plate on the liquid outlet pipe.

As an improvement of the above solution, it further includes a stopper, a rotary rocker and a torsion spring. The stopper is two sets, which are installed on the left and right sides of the top of the mounting base. There are two parts on the left and right of the plate, and a torsion spring is connected to the rotary connection of the rotary rocker.

As an improvement of the above solution, it also includes a hard air pipe, a two-way cylinder, a first piston, a moving rod, a sliding sleeve, a sealing cylinder, a sealing ring, a tie rod, and a second piston. Mass gas pipe, the inner end of the rigid gas pipe is connected with a two-way cylinder block, and the left and right parts of the two-way cylinder block are sealed and slidingly connected with a sliding sleeve. A moving rod is connected to the outside of the first piston, an outer end of the moving rod is connected to a sliding sleeve, the sealed cylinder is installed on an isolation cylinder, and a second piston is slidably connected to the sealed cylinder, The tie rod penetrates the sealing cylinder, the inner end of the tie rod is connected to the second piston, and a sealing ring is installed at the sliding connection between the tie rod and the sealing cylinder.

The invention can quantify cosmetics by using an isolation cylinder. Only when the liquid outlet pipe moves below the through hole, the cosmetics can be filled, so that the cosmetics will not splash, and the position of the bottle can be fixed. When the bottle on one side is canned, the bottle on the other side can be replaced, making the device more convenient to use. By adjusting the size of the isolation cylinder, the space of the isolation cylinder can be adjusted, so that the device can perform different size bottles. Canned.

BRIEF DESCRIPTION OF THE DRAWINGS

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

FIG. 2 is a schematic view of a front view structure of the invention a.

FIG. 3 is a schematic front view structure diagram of b of the present invention.

Names of symbols in the figure: 1. Mounting base, 2. Slide block, 3. Placement plate, 4. First elastic member, 5. Liquid storage bucket, 6. Isolation tube, 7. Arc sliding groove, 8. Arc sliding Baffle, 9. Second elastic member, 10. Liquid outlet pipe, 11. Stop plate, 12. Through hole, 13. Arc chute, 14. Stopper, 15. Rotating rocker, 16. Torsion spring, 17 Rigid air pipe, 18. Two-way cylinder, 19. First piston, 20. Moving rod, 21. Sliding sleeve, 22. Sealing cylinder, 23. Sealing ring, 24. Tie rod, 25. Second piston.

detailed description

The above solution is further described below with reference to specific embodiments. It should be understood that these examples are used to illustrate the application and are not limited to the scope of the application. The implementation conditions used in the examples can be further adjusted according to the conditions of the specific manufacturer. The implementation conditions that are not specified are generally the conditions in conventional experiments.

Example 1

A liquid bottled cosmetic filling machine, as shown in Figs. 1-3, includes a mounting base 1, a canned part, a feeding part, and a liquid storage hopper 5, and the mounting base 1 is provided with a cosmetic tank in a sliding manner. The liquid storage hopper 5 is above the canned components, and the bottom of the liquid storage hopper 5 is provided with a blanking component that is used for blanking cosmetics. Specifically, when the device is used for canning of cosmetics, liquid cosmetics need to be poured into the liquid storage hopper 5, and then the user places the bottles on the left and right sides of the canned part, and then the user triggers the unloading through the canned part. The component allows the cosmetics in the liquid storage hopper 5 to enter the bottle, and then the user removes the bottle containing the cosmetics. At this time, the material is closed and the new bottle is replaced, and the above steps are repeated to continue canning the cosmetics.

As shown in FIG. 2, the canned component includes a sliding block 2, a placing plate 3, and a first elastic member 4. The sliding block 2 is installed on the mounting base 1, and the placing plate 3 is slidingly installed on the sliding block 2. The left and right sides of the sliding block 2 are provided with first elastic members 4, and the tail ends of the first elastic members 4 are connected to the placing plate 3. Specifically, when canning cosmetics, the bottles are placed on the left and right sides of the placing plate 3. After the bottles are placed, the bottle on one side is pushed inward by the placing plate 3, and the first elastic member 4 on the pushing side is stretched. The other side is compressed. At this time, the bottle on the pushing side triggers the blanking part, so that the cosmetics in the liquid storage hopper 5 enter the bottle on the pushing side. When the bottle on the pushing side is filled with cosmetics, the bottle is pushed by the placing plate 3. Reset, then the user can push the bottle on the other side by placing the plate 3, repeat the above steps, canning the cosmetics on the bottle on the other side, when the bottle is filled with cosmetics, remove the bottle with the cosmetics and replace it with a new one Repeat the above steps to continue filling the bottle.

As shown in FIG. 3, the blanking part includes an isolation cylinder 6, an arc-shaped sliding baffle 8, a second elastic member 9, a liquid outlet pipe 10, and a blocking plate 11. The isolation cylinder 6 is fixed to the liquid storage bucket by screws. 5 at the bottom, an arc-shaped sliding groove 7 is opened in the isolating cylinder 6, and an arc-shaped sliding baffle 8 is slidably connected in the arc-shaped sliding groove 7, and the bottom end of the arc-shaped sliding baffle 8 and the isolating cylinder 6 A second elastic member 9 is connected between them. The left and right sides of the curved sliding baffle 8 are provided with liquid outlet pipes 10, and the top and bottom of the isolation cylinder 6 and the upper part of the curved sliding baffle 8 are open. A hole 12 is formed with an arc-shaped chute 13 at the bottom of the isolation cylinder 6, the liquid outlet pipe 10 passes through the arc-shaped chute 13, and a blocking plate 11 is fixed to the liquid outlet pipe 10 by screws. Specifically, after the cosmetics enter the liquid storage hopper 5, the cosmetics enter the isolation cylinder 6 through the through hole 12, and when the bottle is moved inward, the bottle contacts the barrier plate 11, pushing the barrier plate 11 to rotate inward, and further Drive the liquid outlet pipe 10 to move inward, so that the arc-shaped sliding baffle 8 slides to close the upper through hole 12. At this time, the second elastic member 9 is compressed or stretched, and the liquid outlet pipe 10 moves to the through hole 12. When it is lowered, the cosmetics in the isolation cylinder 6 enter the bottle through the liquid discharge tube 10. After the bottle is filled with the cosmetics, and the bottle is moved outward, the second elastic member 9 is reset, and the arc-shaped sliding baffle 8 is reset to reset the The lower through-hole 12 is blocked, and the upper through-hole 12 is closed. In this way, the isolation tube 6 can quantify the cosmetics. Only when the liquid outlet pipe 10 moves below the through-hole 12 can the cosmetics be canned, so that the cosmetics are not Will splatter.

Example 2

As shown in FIG. 2, on the basis of Embodiment 1, in order to better use the equipment to improve working efficiency, it further includes a stopper 14, a rotating rocker 15 and a torsion spring 16. The stoppers 14 are two groups. The rotary rocker 15 is installed on the left and right sides of the top of the mounting base 1. The rotary rocker 15 is two. The rotary rocker 15 is installed on the left and right sides of the placing plate 3. The torsion spring 16 is connected to the rotary joint of the rotary rocker 15. Specifically, when the bottle is moved inward by placing the plate 3, the rotary rocker 15 is pressed down first, so that the outer side of the rotary rocker 15 is rotated downward, the inner side of the rotary rocker 15 is rotated upward, the torsion spring 16 is stretched, and then That is, the bottle can be moved inward by placing the plate 3, and when the inside of the rotating rocker 15 moves inward to the inside of the stopper 14, the rotating rocker 15 is released and the torsion spring 16 is reset, so that the rotating rocker 15 is caught inside the stopper 14. , So that the position of the bottle is fixed, so that when the bottle on one side can be filled, the bottle on the other side can be replaced, making the device more convenient to use, when you need to loosen the position of the bottle, repeat again The rocking plate 15 is swung downward from the outside, and then the bottle is reset by placing the plate 3, and then the rocking plate 15 is released.

As shown in FIG. 3, in order to improve the practicability of the device, it also includes a hard air pipe 17, a two-way cylinder 18, a first piston 19, a moving rod 20, a sliding sleeve 21, a sealing cylinder 22, a sealing ring 23, A tie rod 24 and a second piston 25. A rigid gas pipe 17 is installed on the isolation cylinder 6. A two-way cylinder 18 is connected to the inner end of the rigid gas pipe 17, and the hard gas pipe 17 and the two-way cylinder 18 are connected. The left and right parts of the through-cylinder block 18 are both sealed and slidably connected with a sliding sleeve 21. The left and right parts of the double-pass block 18 are provided with a first piston 19, and a moving rod 20 is connected to the outside of the first piston 19. The outer end of the moving rod 20 is connected to a sliding sleeve 21, the sealing cylinder 22 is mounted on the isolation cylinder 6 by bolts, the second piston 25 is slidingly connected to the sealing cylinder 22, and the tie rod 24 Through the sealing cylinder 22, the inner end of the tie rod 24 is connected to the second piston 25, and a sealing ring 23 is installed at the sliding connection between the tie rod 24 and the sealing cylinder 22. Specifically, when the capacity of the isolation cylinder 6 needs to be adjusted to fit the size of the bottle, the pull rod 24 is pushed up or down so that the second piston 25 moves upward or downward, and when the second piston 25 moves upward, it passes through the rigid gas pipe 17 The gas in the two-way cylinder 18 is sucked into the sealed cylinder 22, so that the sliding sleeve 21 moves inward, so that the capacity of the isolation cylinder 6 increases, and when the second piston 25 moves downward, the hard gas pipe 17 will The gas in the sealed cylinder block 22 is pressed into the two-way cylinder block 18 so that the sliding sleeve 21 moves to the outside, so that the capacity of the isolation cylinder 6 is reduced. In this way, the space of the isolation cylinder 6 can be adjusted by adjusting the size of the isolation cylinder 6, so that the device can fill bottles of different sizes.

The above are only specific embodiments of the present invention, but the scope of protection of the present invention is not limited to this. Any person skilled in the art can easily think of changes or replacements within the technical scope disclosed by the present invention. It should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

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