JP2021079079A - Processing method of cosmetic glass bottle - Google Patents

Abstract

To provide a processing method of cosmetic glass bottles capable of saving water resources.SOLUTION: A processing method of cosmetic glass bottles includes: polishing quartz sand into prescribed particle size; polishing a glass bottle into prescribed particle size; mixing the polished quartz sand, polished cullet, borax, soda, and salt to acquire a stock; putting the molten stock in a melting furnace, heating the same and melting the same to acquire liquid glass; transferring the molding liquid glass to a molding module to acquire a cosmetic molding bottle; conveying the acquired cosmetic molding bottle to an annealing apparatus to anneal the glass bottle; cleaning contaminants on an inner surface of the glass bottle with a cleaning device; conveying the drying/conveying object glass bottle to a drying box; and drying the inside/outside surfaces of the cosmetic glass bottle with the drying box.SELECTED DRAWING: Figure 1

Description

The present invention relates to a cosmetic processing technique, and more particularly to a processing method of a cosmetic glass bottle.

In the production line of glass bottles for cosmetics, it is necessary to clean the glass bottles and remove dust and other debris in the bottles that entered during the production process. In the cleaning process, a lot of water is used directly for cleaning, but it is difficult to clean dust with strong adhesion. At the same time, it is necessary to pressurize the water through a pneumatic machine. The cost of equipment increases, and the amount of water cannot be controlled sufficiently when cleaning, resulting in waste of water resources.

The present invention can overcome the deficiencies of the prior art, can control the amount of water as appropriate, save water, and improve the cleaning result of the cosmetic glass bottle. Mechanical means can be used instead of pneumatic equipment to reduce the cost of the entire device.

In order to achieve the above object, the present invention adopts the following technical plan.

The cleaning device in step e includes a first water storage box, a second water storage box provided in the first water storage box, a cleaning unit, and a drive unit for rotating the cleaning unit. The drive unit is between a drive shaft, a transport plate fixedly provided at the upper end of the drive shaft for transporting a glass bottle for cosmetics, a rotary disc located directly under the transport disc, and the transport disc and the rotary disc. Includes a large gear located on the turntable and rotatably installed on the turntable, and a motor for rotationally driving the drive shaft. The drive shaft is rotationally driven by a motor. In conjunction with this, the turntable and the conveyor turn around at the same time. The transport board transports the cosmetic glass bottle. The cosmetic glass bottle is washed by the washing unit during the transportation process. In the present invention, the drive shaft is rotationally driven by a motor, and the rotary plate and the conveyor plate are fixedly provided on the drive shaft, so that the rotary plate and the conveyor plate can be rotated at the same time. Carry out the transfer operation of the glass bottle. The cleaning unit cleans the cosmetic glass bottle during the transport process. The amount of water can be appropriately controlled by the cleaning unit, which saves water and makes the cleaning result of the cosmetic glass bottle cleaner. Mechanical means can be used instead of pneumatic equipment to reduce the cost of the entire device. The washed sewage enters the first reservoir box, and after filtration, enters the second reservoir box. The water in the second reservoir box is provided for cleaning the cosmetic glass bottle.

The transport board includes a board, a plurality of arc-shaped grooves distributed equidistantly to the board, and a first roller rotatably installed in the board and located for each arc-shaped groove. And the second roller, the arc plate provided on the outside of the board, the first position limiting ring fixedly provided on the upper end of the first roller, and the first
2 Includes a second position limiting ring that is fixedly provided at the upper end of the roller and a rubber rolling groove that is fixedly provided inside the arcuate plate for rolling cosmetic glass bottles. A cosmetic glass bottle is engaged in the arc groove of the board. The cosmetic glass bottle is revolved around the board in conjunction with the rotation of the board. During the transportation process, the rubber rolling groove and the cosmetic glass bottle rub against each other, causing the cosmetic glass bottle to rotate. The cosmetic glass bottle is positioned by the first position limiting ring, the second position limiting ring, and the rubber rolling groove. Insert the cosmetic glass bottle into the arc groove of the board. In this way, the cosmetic glass bottle is revolved around the board in conjunction with the rotation of the board, and the rubber rolling groove and the cosmetic glass bottle rub against each other during the transport process to rotate the cosmetic glass bottle. By positioning the cosmetic glass bottle with the first position limiting ring, the second position limiting ring and the rubber rolling groove, the cosmetic glass bottle is held more stably during the process of rotation and washing. Thereby, the cleaning can be performed uniformly, and the cleaning result becomes more beautiful. The frictional force is increased by bringing the cosmetic glass bottle into contact with the rubber rolling groove. As a result, the cosmetic glass bottle rotates. By providing the first roller and the second roller, the friction between the cosmetic glass bottle and the arc-shaped groove is reduced, and the rotational effect of the cosmetic glass bottle is improved.

During the heating process of the melting furnace in step b, the outside air is injected into the melting furnace, and at the same time, the gas in the melting furnace is repeatedly infused and inhaled so as to be discharged. By replenishing the glass solution with oxygen gas, the air pressure in the melting furnace changes constantly. By allowing the outside air to enter the heating furnace due to the difference in atmospheric pressure, oxygen gas can be replenished in a timely manner, oxygenation of the glass solution becomes possible, which is advantageous for the melting effect of the glass.

The cleaning unit includes a plurality of cleaning members provided on the turntable corresponding to the arcuate groove. The cleaning member is provided at the launching pipe provided on the rotating disk, the rotating pipe rotatably provided at the upper end of the launching pipe, the pinion gear fixedly mounted on the rotating pipe, and the upper end of the rotating pipe2. A group of telescopic water pipes, a first cleaning brush provided on one telescopic water pipe group, a second cleaning brush provided on the other telescopic water pipe, and one end rotatably provided on the first cleaning brush.
It includes a third cleaning brush whose other end is movably connected to a rotating pipe, and an inner rack provided in the second reservoir box. The first cleaning brush and the third cleaning brush communicate with each other via a relay site. The second cleaning brush and the first cleaning brush communicate with the rotating tube. A plurality of outlets are provided in the first cleaning brush, the second cleaning brush, and the third cleaning brush. A plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk. At the same time, when the cleaning unit rises and the first cleaning brush, the second cleaning brush, and the third cleaning brush rise into the cosmetic glass bottle, the pinion gear and the inner rack mesh with each other to rotate the pinion gear. By fixing the pinion gear to the rotating tube, the rotating tube rotates in conjunction with each other. That is, in conjunction with this, the first cleaning brush, the second cleaning brush, and the second cleaning brush.
3 The cleaning brush rotates to clean the inner surface of the cosmetic glass bottle. At the same time, flush cleaning is performed with a plurality of outlets. A plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and when the cleaning unit is rotated to a predetermined position, the cleaning unit is raised to perform the first cleaning brush, the second cleaning brush, and the third cleaning. When the brush rises into the glass bottle for cosmetics, the pinion gear and the inner rack are engaged to rotate the pinion gear. When the rotating pipe is rotated by fixing the pinion gear to the rotating pipe, the receiving force is applied during the rotating process of the pinion gear by the meshing of the large gear and the pinion gear and the meshing of the pinion gear and the inner rack. It is uniform and the rotating tube rotates stably in conjunction with the pinion gear. When the rotary tube rotates, the first cleaning brush, the second cleaning brush, and the third cleaning brush rotate in conjunction with the rotation to brush-clean the inner surface of the cosmetic glass bottle. Since the rotating tube rotates stably, the first cleaning brush, the second cleaning brush sum, and the third cleaning brush are more uniform in brush cleaning the cosmetic glass bottle, and the brush cleaning effect is improved.
In addition, by flush cleaning with multiple outlets, it is possible to avoid secondary contamination due to contaminants adhering to the first cleaning brush, the second cleaning brush, and the third cleaning brush.
Improves cleaning effect. Since the direction in which the rotating tube rotates in conjunction with the pinion gear is opposite to the rotation direction of the cosmetic glass bottle itself, the cleaning efficiency is greatly improved. By providing the first cleaning brush, the second cleaning brush, and the third cleaning brush, the entire inside of the cosmetic glass bottle can be brush-cleaned, and insufficient cleaning can be avoided. By providing two groups of telescopic water pipes, it is possible to automatically adapt when the inner wall of the cosmetic glass bottle changes, and by providing a third cleaning brush and performing automatic adjustment, the inner wall of the cosmetic glass bottle is provided. The entire inner wall of the cosmetic glass bottle can be sufficiently washed.

The cleaning unit further includes an upper position limiting block and a lower position limiting block provided on the launching pipe, a moving plate movably provided in the launching pipe, and a plurality of first units provided on the moving plate.
A through hole, a first sealing member for sealing a plurality of first through holes, a first spring for connecting the first sealing member and the moving plate, and a fixedly provided on the moving plate. Seal the pressing rod, the fixing plate that is cloaked by the pressing rod and fixedly provided at the lower end of the launch pipe, the plurality of second through holes provided in the fixing plate, and the plurality of second through holes. A second sealing member for the purpose, a base provided above the second sealing member, two second springs for connecting the base and the second sealing member, a first chamber, and a first chamber.
Includes 2 chambers and a circular sliding groove provided in the 2nd reservoir box. The first chamber
Surrounded by moving plates, launch pipes and rotating pipes. The second chamber is surrounded by a moving plate, a launch pipe and a fixing plate. One step in the sliding groove protrudes upward to form an arch step. A plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk.
Further, since the pressing rod is provided in the sliding groove, the cleaning unit moves in conjunction with the sliding groove. The cleaning unit rises as the rod moves to the arch. Then, when the lower position limiting block of the launching pipe conflicts with the turntable, the insertion rod pushes the moving plate and moves it upward into the launching pipe. The first sealing member seals the first through hole of the moving plate. Water in the first chamber is ejected from the first wash brush, the second wash brush and the third wash brush. Vacuum occurs in the second chamber. The second sealing member moves upward so that the second through hole and the second reservoir box communicate with each other. The water in the second reservoir enters the second chamber, the insertion rod moves downward, and the moving plate moves downward. The second sealing member seals the second through hole by the second spring. The internal pressure of the second chamber increases. When the direction of the first sealing member moves upward, the first through hole is opened and the first chamber and the second chamber communicate with each other. As a result, the water in the second chamber enters the first chamber through the first through hole of the moving plate, the water injection operation of the first chamber is performed, and the above operation is repeated to raise a plurality of cleaning units. And perform the fountain operation. In this way, a plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and since the pressing rod is provided in the sliding groove, the cleaning units are interlocked in the sliding groove. Moving along, as the insert rod moves to the arch, the cleaning unit rises, and when the lower position limiting block of the launch tube hits the turntable, the insert rod pushes the moving plate into the launch tube. Move upwards to the first
The sealing member seals the first through hole of the moving plate, and the water in the first chamber is the first cleaning brush.
A vacuum is generated in the second chamber by ejecting from the second cleaning brush and the third cleaning brush, so that the second sealing member moves upward and the second through hole and the second reservoir box communicate with each other. 2 The water in the reservoir box enters the second chamber. The insertion rod moves downward and the moving plate moves downward, and the second sealing member seals the second through hole by the second spring. The internal pressure of the second chamber increases. When the first sealing member moves upward, the first through hole is opened and the first chamber and the second chamber communicate with each other. As a result, the water in the second chamber enters the first chamber through the first through hole of the moving plate, and the water injection operation of the first chamber is performed. By repeating the above operation, the purification unit for multiple washings rises to perform the fountain operation. With this configuration, the amount of fountain can be controlled, the amount of water can be saved, the glass bottle for cosmetics can be cleaned with the least amount of water, and the configuration is simpler than the conventional air pump. It is practical, reduces costs and brings more benefits.

The present invention has the following advantages. It is driven by a motor so as to rotate the drive shaft. By fixedly providing the rotary disk and the transfer disk on the drive shaft, the rotary disk and the transfer disk can rotate at the same time. The operation of transporting the cosmetic glass bottle is performed during the rotation process of the transport plate. The cleaning unit cleans the cosmetic glass bottles during the transport process. The amount of water can be appropriately controlled by the cleaning unit, which saves water and makes the cleaning result of the cosmetic glass bottle cleaner.
Mechanical means can be used instead of pneumatic equipment to reduce the cost of the entire device. The washed sewage enters the first reservoir box, and after filtration, enters the second reservoir box. The water in the second reservoir box is provided for cleaning the cosmetic glass bottle.

It is a block diagram of this invention. It is a figure which shows the cross-sectional structure of a drive unit. It is an enlarged view of the part A of FIG. It is an enlarged view of the B portion of FIG. It is a figure which shows a part of a cleaning unit. It is an enlarged view of the C portion of FIG. It is a block diagram of a cleaning unit. It is an enlarged view of the D portion of FIG. It is a block diagram of the 2nd reservoir box.

In order to better understand the substantive embodiments of the present invention, the technical embodiments of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is clear that the embodiments described are not all embodiments, but only some embodiments of the present invention. Based on the embodiments of the present invention, those skilled in the art should have all other embodiments obtained on the premise that no creative labor has been done belong to the scope of protection of the present invention.

How to process a glass bottle for cosmetics, the following steps:
a Stock preparation Polishing quartz sand to a predetermined particle size, polishing a glass bottle to a predetermined particle size, mixing polished quartz sand, polished cullet, broom sand, soda, and salt to obtain stock,
b Put the molten stock in a melting furnace and heat it to melt it to obtain liquid glass.
c Transfer the molded liquid glass into the molding module to obtain a cosmetic molding bottle,
d Annealing The obtained cosmetic molding bottle is transported to an annealing device to anneal the glass bottle.
e Cleaning Cleaning of contaminants on the inner surface of the glass bottle with a cleaning device,
f Dry transport Transport the glass bottle to the drying box and dry the inner and outer surfaces of the cosmetic glass bottle with the drying box.
including.

As shown in FIGS. 1 to 9, the cleaning device in step e rotates the first reservoir box 1, the second reservoir box 2 provided in the first reservoir box, the cleaning unit 3, and the cleaning unit. Drive unit for 4
And include. The drive unit 4 includes a drive shaft 41, a transport plate 42 fixedly provided at the upper end of the drive shaft for transporting a glass bottle for cosmetics, a rotary plate 43 located directly below the transport plate, and a transport plate. It includes a large gear 44 located between the turntables and rotatably installed on the turntable, and a motor 45 for rotationally driving the drive shaft. The drive shaft is rotationally driven by a motor. In conjunction with this, the turntable and the conveyor turn around at the same time. The transport board transports the cosmetic glass bottle. The cosmetic glass bottle is washed by the washing unit during the transportation process. In the present invention, the drive shaft is rotationally driven by a motor, and the rotary plate and the conveyor plate are fixedly provided on the drive shaft, so that the rotary plate and the conveyor plate can be rotated at the same time. Carry out the transfer operation of the glass bottle. The cleaning unit cleans the cosmetic glass bottle during the transport process. The amount of water can be appropriately controlled by the cleaning unit, which saves water and makes the cleaning result of the cosmetic glass bottle cleaner. Mechanical means can be used instead of pneumatic equipment to reduce the cost of the entire device. The washed sewage enters the first reservoir box, and after filtration, enters the second reservoir box.
The water in the second reservoir box is provided for cleaning the cosmetic glass bottle.

The transport board 42 includes a board body 421, a plurality of arc-shaped grooves 422 distributed in a ring shape at equal distances to the board body, and a plurality of arc-shaped grooves 422.
1st roller 423 and 2nd roller 424 rotatably installed on the board and located in each arc groove
The arc-shaped plate 425 provided on the outside of the board, the first position limiting ring 426 fixedly provided on the upper end of the first roller, and the second position limiting ring fixedly provided on the upper end of the second roller. Includes 427 and a rubber rolling groove 428 for rolling cosmetic glass bottles that is fixedly provided inside the arc plate.
A cosmetic glass bottle is engaged in the arc groove of the board. The cosmetic glass bottle is revolved around the board in conjunction with the rotation of the board. During the transportation process, the rubber rolling groove and the cosmetic glass bottle rub against each other, causing the cosmetic glass bottle to rotate. The cosmetic glass bottle is positioned by the first position limiting ring, the second position limiting ring, and the rubber rolling groove. Insert the cosmetic glass bottle into the arc groove of the board. In this way, the cosmetic glass bottle is revolved around the board in conjunction with the rotation of the board, and the rubber rolling groove and the cosmetic glass bottle rub against each other during the transport process to rotate the cosmetic glass bottle. By positioning the cosmetic glass bottle with the first position limiting ring, the second position limiting ring and the rubber rolling groove, the cosmetic glass bottle is held more stably during the process of rotation and washing. Thereby, the cleaning can be performed uniformly, and the cleaning result becomes more beautiful. The frictional force is increased by bringing the cosmetic glass bottle into contact with the rubber rolling groove. As a result, the cosmetic glass bottle rotates. By providing the first roller and the second roller, the friction between the cosmetic glass bottle and the arc-shaped groove is reduced, and the rotational effect of the cosmetic glass bottle is improved.

During the heating process of the melting furnace in step b, the outside air is injected into the melting furnace, and at the same time, the gas in the melting furnace is repeatedly infused and inhaled so as to be discharged. By replenishing the glass solution with oxygen gas, the air pressure in the melting furnace changes constantly. By allowing the outside air to enter the heating furnace due to the difference in atmospheric pressure, oxygen gas can be replenished in a timely manner, oxygenation of the glass solution becomes possible, which is advantageous for the melting effect of the glass.

The cleaning unit 3 includes a plurality of cleaning members 31 provided on the turntable corresponding to the arcuate groove. The cleaning member includes a launch pipe 311 provided on the rotary plate, a rotary pipe 312 rotatably provided at the upper end of the launch pipe, a pinion gear 313 fixedly mounted on the rotary pipe, and the upper end of the rotary pipe. Two groups of telescopic water pipes 314 and one of the telescopic water pipes are provided with the first cleaning brush 3
15, the second cleaning brush 316 provided on the other telescopic water pipe, and the third cleaning brush 317, one end of which is rotatably provided on the first cleaning brush and the other end of which is movably connected to the rotating pipe.
Includes the inner rack 318 provided in the second reservoir box. The first cleaning brush and the third cleaning brush communicate with each other via a relay site. The second cleaning brush and the first cleaning brush communicate with the rotating tube. A plurality of outlets 319 are provided in the first cleaning brush, the second cleaning brush, and the third cleaning brush. A plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk. At the same time, the cleaning unit rises, and the first cleaning brush,
When the second cleaning brush and the third cleaning brush rise into the cosmetic glass bottle, the pinion gear and the inner rack mesh with each other to rotate the pinion gear. By fixing the pinion gear to the rotating tube, the rotating tube rotates in conjunction with each other. That is, in conjunction with this, the first cleaning brush, the second cleaning brush, and the third cleaning brush rotate to brush-clean the inner surface of the cosmetic glass bottle. At the same time, flush cleaning is performed with a plurality of outlets. When a plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk and rotated to a predetermined position, the cleaning unit rises, and the first cleaning brush, the second cleaning brush, and the third cleaning unit are raised.
When the cleaning brush rises into the cosmetic glass bottle, the pinion gear and the inner rack engage to rotate the pinion gear. When the rotating pipe is rotated by fixing the pinion gear to the rotating pipe, the receiving force is applied during the rotating process of the pinion gear by the meshing of the large gear and the pinion gear and the meshing of the pinion gear and the inner rack. It is uniform and the rotating tube rotates stably in conjunction with the pinion gear. When the rotary tube rotates, the first cleaning brush, the second cleaning brush, and the third cleaning brush rotate in conjunction with the rotation to brush-clean the inner surface of the cosmetic glass bottle. Since the rotating tube rotates stably, the first cleaning brush, the second cleaning brush sum, and the third cleaning brush are more uniform in brush cleaning the cosmetic glass bottle, and the brush cleaning effect is improved. Further, by flush cleaning with a plurality of outlets, it is possible to avoid secondary contamination due to the adhesion of contaminants to the first cleaning brush, the second cleaning brush and the third cleaning brush, and the cleaning effect is improved. Since the direction in which the rotating tube rotates in conjunction with the pinion gear is opposite to the rotation direction of the cosmetic glass bottle itself, the cleaning efficiency is greatly improved. By providing the first cleaning brush, the second cleaning brush, and the third cleaning brush, the entire inside of the cosmetic glass bottle can be brush-cleaned, and insufficient cleaning can be avoided. By providing two groups of telescopic water pipes, it is possible to automatically adapt when the inner wall of the cosmetic glass bottle changes, and by providing a third cleaning brush and performing automatic adjustment, the inner wall of the cosmetic glass bottle is provided. The entire inner wall of the cosmetic glass bottle can be sufficiently washed.

The cleaning unit 3 further includes an upper position limiting block 51 and a lower position limiting block 52 provided in the launching pipe, a moving plate 53 movably provided in the launching pipe, and a plurality of first units provided in the moving plate. A through hole 54, a first sealing member 55 for sealing a plurality of first through holes, a first spring 56 for connecting the first sealing member and the moving plate, and fixed to the moving plate. 57, a fixing plate 58 provided on the pressing rod and fixedly provided at the lower end of the launching pipe, a plurality of second through holes 59 provided in the fixing plate, and a plurality of second holes. A second sealing member 510 for sealing the through hole and a second
A base 520 provided above the sealing member and two second springs for connecting the base and the second sealing member.
530, 1st chamber 540, 2nd chamber 550, and a circular sliding groove provided in the 2nd reservoir box.
Includes 560 and. The first chamber is surrounded by a moving plate, a launch pipe and a rotating pipe. The second chamber is surrounded by a moving plate, a launch pipe and a fixing plate. One step in the sliding groove protrudes upward to form an arch step 570. A plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and since the pressing rod is provided in the sliding groove, the cleaning units are interlocked and move along the sliding groove. .. The cleaning unit rises as the rod moves to the arch. Then, when the lower position limiting block of the launching pipe conflicts with the turntable, the insertion rod pushes the moving plate and moves it upward into the launching pipe. The first sealing member seals the first through hole of the moving plate. Water in the first chamber is ejected from the first wash brush, the second wash brush and the third wash brush. Vacuum occurs in the second chamber. The second sealing member moves upward so that the second through hole and the second reservoir box communicate with each other. The water in the second reservoir enters the second chamber, the insertion rod moves downward, and the moving plate moves downward. The second sealing member seals the second through hole by the second spring. The internal pressure of the second chamber increases. When the direction of the first sealing member moves upward, the first through hole is opened and the first chamber and the second chamber communicate with each other. As a result, the water in the second chamber enters the first chamber through the first through hole of the moving plate, the water injection operation of the first chamber is performed, and the above operation is repeated to raise a plurality of cleaning units. And perform the fountain operation. In this way, a plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and since the pressing rod is provided in the sliding groove, the cleaning units are interlocked in the sliding groove. As you move along and the rod moves to the arch, the cleaning unit rises and
Then, when the lower position limiting block of the launch tube conflicts with the turntable, the insertion rod pushes the moving plate upward and moves it upward into the launch tube, and the first sealing member seals the first through hole of the moving plate. When stopped, the water in the first chamber is ejected from the first cleaning brush, the second cleaning brush and the third cleaning brush, and the vacuum is generated in the second chamber, so that the second sealing member moves upward. The second through hole and the second reservoir box communicate with each other, and the water in the second reservoir box enters the second chamber. The insertion rod moves downward and the moving plate moves downward, and the second sealing member seals the second through hole by the second spring. The internal pressure of the second chamber increases. When the first sealing member moves upward, the first
1 Through hole is opened and the 1st chamber and the 2nd chamber communicate with each other. As a result, the water in the second chamber enters the first chamber through the first through hole of the moving plate, and the water injection operation of the first chamber is performed. By repeating the above operation, the purification unit for multiple washings rises to perform the fountain operation. With this configuration, the amount of fountain can be controlled, the amount of water can be saved, the glass bottle for cosmetics can be cleaned with the least amount of water, and compared to conventional air pumps.
It is simple to configure, practical, reduces costs and brings more benefits.

In the production line of glass bottles for cosmetics, it is necessary to clean the glass bottles and remove dust and other debris in the bottles that entered during the production process. In the cleaning process, a lot of water is used directly for cleaning, but it is difficult to clean dust with strong adhesion. At the same time, it is necessary to pressurize the water through a pneumatic machine. The cost of equipment increases, and the amount of water cannot be controlled sufficiently when cleaning, resulting in waste of water resources. For example, a liquid beverage is a beverage in a transparent container filled in a transparent container.
A transparent container characterized by containing at least a brown liquid and vitamins having poor light resistance.
Beverages containing are disclosed. Light-unstable vitamins in beverages filled in transparent containers
Transparency that can improve the stability of its vitamins in an inexpensive way when blended
It has the effect of providing beverages in bowls (see Patent Document 1). Glass as a packaging container
Using the bottle 1, put the oxygen scavenger 5 into the bottle, put an inner seal 3 on the mouth of the bottle, and chlorite.
La Food 4 constitutes a storage container. The container is made of aluminum foil and polyethylene film.
Chlorella food packaging container that seals the inside of the bottle with an inner seal made of fat film opens
It is shown. Add oxygen scavenger to the glass bottle and use the inner seal to wrap the bottle.
The effect of providing a packaging container for chlorella foods that can prevent the flavor and discoloration of lorella foods.
There is a fruit (see Patent Document 2).
[Prior art literature]
[Patent Document]
[Patent Document 1] Japanese Unexamined Patent Publication No. 2006-262735
[Patent Document 2] Registered Utility Model No. 3147280

In the production line of glass bottles for cosmetics, it is necessary to clean the glass bottles and remove dust and other debris in the bottles that entered during the production process. In the cleaning process, a lot of water is used directly for cleaning, but it is difficult to clean dust with strong adhesion. At the same time, it is necessary to pressurize the water through a pneumatic machine. The cost of equipment increases, and the amount of water cannot be controlled sufficiently when cleaning, resulting in waste of water resources. For example, a liquid beverage is a beverage in a transparent container filled in a transparent container.
A transparent container characterized by containing at least a brown liquid and vitamins having poor light resistance.
Beverages containing are disclosed. Light-unstable vitamins in beverages filled in transparent containers
Transparency that can improve the stability of its vitamins in an inexpensive way when blended
It has the effect of providing beverages in bowls (see Patent Document 1). Glass as a packaging container
Using the bottle 1, put the oxygen scavenger 5 into the bottle, put an inner seal 3 on the mouth of the bottle, and chlorite.
La Food 4 constitutes a storage container. The container is made of aluminum foil and polyethylene film.
Chlorella food packaging container that seals the inside of the bottle with an inner seal made of fat film opens
It is shown. Add oxygen scavenger to the glass bottle and use the inner seal to wrap the bottle.
The effect of providing a packaging container for chlorella foods that can prevent the flavor and discoloration of lorella foods.
There is a fruit (see Patent Document 2).
[Prior art literature]
[Patent Document]
[Patent Document 1] Japanese Unexamined Patent Publication No. 2006-262735
[Patent Document 2] Registered Utility Model No. 3147280

Claims (1)

It is a processing method for cosmetic glass bottles.
Step a Stock preparation Polishing quartz sand to a predetermined particle size, polishing a glass bottle to a predetermined particle size, and mixing polished quartz sand, polished cullet, borosand, soda, and salt to obtain stock. thing,
Step b Put the molten stock in a melting furnace and heat it to melt it to obtain a liquid glass.
Step c Transfer the molded liquid glass into the molding module to obtain a cosmetic molding bottle,
Step d Annealing The obtained cosmetic molding bottle is transferred to an annealing device to anneal the glass bottle.
Step e Cleaning of contaminants on the inner surface of the glass bottle with a cleaning device,
Step f Dry transport Containing to transport the glass bottle to the drying box and drying the inner and outer surfaces of the cosmetic glass bottle with the drying box.
The cleaning device in step e includes a first water storage box 1, a second water storage box 2 provided in the first water storage box, a cleaning unit 3, and a drive unit 4 for rotating the cleaning unit. The drive unit 4 includes a drive shaft 41, a transport plate 42 fixedly provided at the upper end of the drive shaft for transporting a glass bottle for cosmetics, a rotary plate 43 located directly under the transport plate, and a transport plate and rotation. A large gear 44 located between the discs and rotatably installed on the rotary disc and a motor 45 for rotationally driving the drive shaft are included. The rotating disk and the transfer board rotate at the same time, the transfer board conveys the cosmetic glass bottle, and the cosmetic glass bottle is washed by the washing unit during the transfer process.
The transport board 42 is rotatably installed in the board body 421, a plurality of arc-shaped grooves 422 distributed in a ring shape at equal distances to the board body, and is positioned for each arc-shaped groove. The first roller 423 and the second roller 424, the arc plate 425 provided on the outside of the panel, the first position limiting ring 426 fixedly provided on the upper end of the first roller, and fixed to the upper end of the second roller. A second position limiting ring 427 provided on the surface and a rubber rolling groove 428 for rolling the cosmetic glass bottle fixedly provided inside the arc plate, and the cosmetic glass bottle is formed in the arc groove of the board. It is engaged, and the cosmetic glass bottle is revolved around the board in conjunction with the rotation of the board, and during the transport process, the rubber rolling groove and the cosmetic glass bottle rub against each other and the cosmetic glass bottle rotates. The position of the cosmetic glass bottle is limited by the first position limiting ring, the second position limiting ring and the rubber rolling groove.
The cleaning unit 3 includes a plurality of cleaning members 31 provided on the rotating disk corresponding to the arcuate groove, and the cleaning member can rotate to the launch pipe 311 provided on the rotating disk and the upper end of the launch pipe. The rotary pipe 312 provided in the rotary pipe, the pinion gear 313 fixedly mounted on the rotary pipe, the two groups of telescopic water pipe group 314 provided at the upper end of the rotary pipe, and the first cleaning brush provided in one of the telescopic water pipe groups. 315 and the second cleaning brush 316 provided on the other telescopic water pipe,
A third cleaning brush 317, one end of which is rotatably provided on the first cleaning brush and the other end of which is movably connected to a rotating pipe, and an inner rack 318 provided on the second water storage box are included. The 1st cleaning brush and the 3rd cleaning brush communicate with each other via the relay site, the 2nd cleaning brush and the 1st cleaning brush communicate with the rotary tube, and the first cleaning brush, the second cleaning brush, and the third cleaning brush are connected to each other. Each water outlet 319 is provided, and a plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and at the same time, the cleaning unit is raised to perform the first cleaning brush and the second cleaning. When the brush and the third cleaning brush rise to the inside of the glass bottle for cosmetics, the pinion gear and the inner rack mesh with each other to rotate the pinion gear, and the pinion gear is fixed to the rotating tube, so that the rotating tube rotates in conjunction with each other. Move,
That is, in conjunction with this, the first cleaning brush, the second cleaning brush, and the third cleaning brush rotate to brush-clean the inner surface of the cosmetic glass bottle.
The cleaning unit 3 further includes an upper position limiting block 51 and a lower position limiting block 52 provided in the launching pipe, a moving plate 53 movably provided in the launching pipe, and a plurality of first penetrations provided in the moving plate. The hole 54 and the first sealing member 55 for sealing the plurality of first through holes
The first spring 56 for connecting the first sealing member and the moving plate, the pressing rod 57 fixedly provided on the moving plate, and the pressing rod cloaked and fixedly provided at the lower end of the launch pipe. Above the fixing plate 58, a plurality of second through holes 59 provided in the fixing plate, a second sealing member 510 for sealing the plurality of second through holes, and the second sealing member. The base 520 to be provided, the base and the second
The first chamber includes two second springs 530 for connecting the sealing member, a first chamber 540, a second chamber 550, and a circumferential sliding groove 560 provided in the second water storage box. , The second chamber is surrounded by a moving plate, a launching pipe and a rotating pipe, and one step in the sliding groove is raised upward and an arch step 57.
0 is formed, and a plurality of cleaning units are revolved around the rotating disk in conjunction with the rotation of the rotating disk, and since the pressing rod is provided in the sliding groove, the cleaning units are interlocked and the sliding groove is formed. The cleaning unit rises as the rod moves to the arch stage, and when the lower position limiting block of the launch tube hits the turntable, the rod moves upward into the launch tube while pushing the moving plate. The first sealing member seals the first through hole of the moving plate, and the water in the first chamber is first.
Erupted from the cleaning brush, the second cleaning brush and the third cleaning brush, a vacuum is generated in the second chamber, the second sealing member moves upward, the second through hole and the second reservoir box communicate with each other, and the second chamber is used. 2 The water in the reservoir box enters the second chamber, the insertion rod moves downward, the moving plate moves downward, and the second sealing member seals the second through hole by the second spring. When the internal pressure of the second chamber increases and the direction of the first sealing member moves upward, the first through hole is opened and the first chamber and the second chamber communicate with each other, whereby the water in the second chamber flows. Entering the first chamber through the first through hole of the moving plate, the water injection operation of the first chamber is performed, and the above operation is repeated to raise the plurality of cleaning units to perform the water injection operation.
A method of processing glass bottles for cosmetics, which is characterized by this.

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