A glass preform cleaning tank

By setting up partition plates and limiting plates in the glass preform cleaning tank, and combining this with a drive motor to rotate the stirring rod, the problems of uneven cleaning and damage to the preforms are solved, achieving stable clamping and efficient cleaning.

CN224443939UActive Publication Date: 2026-07-03YICHENG TRICOLOR OPTICAL GLASS TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YICHENG TRICOLOR OPTICAL GLASS TECH CO LTD
Filing Date
2025-06-03
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing glass precast component cleaning tanks suffer from uneven distribution of cleaning fluid and ultrasonic energy during the cleaning process, leading to incomplete cleaning or damage to the precast components. Furthermore, the glass precast components are prone to movement or collision due to water flow or vibration, increasing safety hazards.

Method used

A glass preform cleaning tank was designed. By setting partition plates and limiting plates on the inner wall of the machine, the preform is firmly clamped by handles and rotating columns. The stirring rod is driven by a drive motor to ensure that the cleaning solution is fully contacted and mixed.

Benefits of technology

It achieves stable clamping of prefabricated components of different specifications, avoiding displacement or collision during cleaning, and improving cleaning quality and effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of glass cleaning technology, and in particular to a glass preform cleaning tank, including a body with a cleaning chamber on its inner wall. A partition plate is fixedly connected to the inner wall of the cleaning chamber, and a rectangular plate is fixedly connected to the inner wall of the partition plate. Two mirror-distributed and horizontally movable limiting plates are slidably connected to the outer wall of the rectangular plate. A rotating column is slidably connected to the inner wall of the rectangular plate, and four handles arranged in a rectangular array are slidably connected to the outer wall of the body. A toothed ring is installed at the bottom of the rectangular plate, and a fixed cylinder is fixedly connected to the top of the toothed ring. According to the size of the preform, the handle drives the two rotating columns to squeeze the rubber block against each other. The rotating columns drive the limiting plates to limit the preform placed inside the cleaning chamber, thereby ensuring that preforms of various specifications can be firmly clamped and that the glass preforms remain stable during the cleaning process, without shifting or colliding due to water flow or ultrasonic vibration, thus improving the cleaning quality.
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Description

Technical Field

[0001] This utility model relates to the field of glass cleaning technology, and in particular to a glass preform cleaning tank. Background Technology

[0002] A glass precast component cleaning tank typically consists of a tank body, a water inlet system, a drainage system, an ultrasonic cleaner, and a control system. The tank body is generally made of corrosion-resistant, high-strength materials, such as fiberglass or stainless steel, to ensure stability and durability during long-term use. The water inlet and drainage systems are responsible for injecting and discharging cleaning fluid into the cleaning tank to meet the needs of the cleaning process.

[0003] Before using the cleaning tank, check the integrity of the equipment. Select a suitable cleaning solution based on the material and type of dirt on the glass precast components, and prepare it according to a certain ratio. Place the glass precast components to be cleaned in the designated position in the cleaning tank as required. Adjust the cleaning parameters of the cleaning tank, such as cleaning time, cleaning temperature, and cleaning solution concentration, according to the size, shape, and degree of dirt on the glass precast components. After confirming that all settings are correct, start the cleaning device in the cleaning tank. During the cleaning process, closely monitor the operating status of the equipment and the cleaning effect. After cleaning, drain the cleaning solution from the cleaning tank through the drainage system, remove the cleaned glass precast components, and dry them.

[0004] However, due to the varying sizes and shapes of existing glass prefabricated components, directly placing them into the cleaning tank may result in uneven distribution of cleaning fluid and ultrasonic energy. Smaller prefabricated components may be damaged due to over-cleaning, while larger components may not be thoroughly cleaned. Furthermore, during the cleaning process, glass prefabricated components may move or collide with each other due to water flow or ultrasonic vibrations, leading to uneven cleaning, damage to the prefabricated components or the cleaning tank, and increased safety hazards. Utility Model Content

[0005] In view of the above-mentioned problems with cleaning effect, this utility model is proposed.

[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a glass preform cleaning tank, comprising...

[0007] The machine body has a cleaning chamber on its inner wall and four handles arranged in a rectangular array that are slidably connected to its outer wall.

[0008] A partition plate is fixedly connected to the inner wall of the cleaning chamber;

[0009] A rectangular plate is fixedly connected to the inner wall of the partition.

[0010] The limiting plates are slidably connected to the outer wall of the rectangular plate. The two limiting plates are mirror-distributed and can move horizontally left and right.

[0011] The rotating column is slidably connected to the inner wall of the rectangular plate;

[0012] A toothed ring is installed at the bottom end of a rectangular plate;

[0013] The fixing sleeve is fixedly connected to the top of the toothed ring.

[0014] Optionally, a drive motor is fixedly installed at the bottom of the machine body, and a drive gear is fixedly connected to the output end of the drive motor. Four driven gears arranged in a circular array mesh on the outer wall of the drive gear, and a rotating rod that is slidably connected to the inner wall of the gear ring is fixedly connected to the top of the driven gear.

[0015] Optionally, a rotating gear is fixedly connected to the outer wall of the rotating rod. Two connecting gears arranged in a circular array mesh with the outer wall of the rotating gear. A rotating gear meshes with the outer wall of the connecting gear. A connecting column that is fixedly connected to the bottom end of the rotating column is fixedly connected to the top of the rotating gear. An anti-slip pad is fixedly connected to the outer wall of the limiting plate.

[0016] Optionally, the outer wall of the rotating column is slidably connected to a slider that is slidably connected to the inner wall of the rectangular plate, the inner walls of the two sliders are fixedly connected to a rubber pad that is slidably connected to the inner wall of the rectangular plate, a folded bag is fixedly connected between the outer wall of the slider and the inner wall of the partition plate, and a connecting rod that is fixedly connected to the outer wall of the limiting plate is slidably connected to the inner wall of the rotating column.

[0017] Optionally, the outer wall of the limiting plate is fixedly connected to two evenly distributed cylinders, the inner wall of the cylinders is slidably connected to a cylinder fixedly connected to the outer wall of the partition plate, the outer wall of the rotating column is fixedly connected to four stirring rods arranged in a circular array, and the outer wall of the handle is fixedly connected to a screw that meshes with the outer wall of the toothed ring.

[0018] Optionally, the inner wall of the connecting gear is fixedly connected to a fixed column that is slidably connected to the inner wall of the fixed cylinder, the outer wall of the rotating rod is slidably connected to a connecting cylinder that is slidably connected to the outer wall of the fixed column, the outer wall of the fixed column is slidably connected to a rotating cylinder that is slidably connected to the outer wall of the connecting column, the inner wall of the handle is provided with multiple evenly distributed limiting columns, and the inner wall of the machine body is fixedly connected with multiple rectangular cylinders corresponding to the limiting columns.

[0019] The beneficial effects of this utility model are:

[0020] 1. Place the prefabricated parts into the inner wall of the cleaning chamber separated by the partition plate. According to the size of the prefabricated parts, drive the two rotating columns with the handle to squeeze the rubber blocks against each other. The rotating columns drive the limiting plate to limit the prefabricated parts placed inside the cleaning chamber, thereby ensuring that prefabricated parts of various specifications can be firmly clamped. The outer wall of the limiting plate is equipped with anti-slip pads to prevent the prefabricated parts from sliding during clamping. This ensures that the glass prefabricated parts remain stable during the cleaning process and will not shift or collide with each other due to water flow or ultrasonic vibration, thereby improving the cleaning quality.

[0021] 2. The rotating column is driven by a drive motor, which in turn drives multiple stirring rods to rotate. The stirring rods agitate the cleaning liquid that has settled at the bottom of the cleaning chamber. This not only clamps and fixes the preform but also increases the contact frequency between the preform and the cleaning liquid, thereby improving the cleaning effect. Attached Figure Description

[0022] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Wherein:

[0023] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0024] Figure 2 This is a schematic diagram of the mounting structure of the drive gear of this utility model.

[0025] Figure 3 This is a schematic diagram of the rectangular plate installation structure of this utility model.

[0026] Figure 4 This is a schematic diagram of the rotating gear mounting structure of this utility model.

[0027] Figure 5 This is a schematic diagram of the folding bag structure of this utility model.

[0028] Explanation of reference numerals in the attached drawings: 1. Body; 2. Handle; 3. Limiting post; 4. Divider plate; 5. Driving gear; 6. Driven gear; 7. Rectangular plate; 8. Rubber pad; 9. Limiting plate; 10. Cylinder; 11. Column; 12. Rotating post; 13. Connecting rod; 14. Anti-slip pad; 15. Stirring rod; 16. Connecting post; 17. Rotating gear; 18. Rotating rod; 19. Connecting cylinder; 20. Rotating cylinder; 21. Connecting gear; 22. Rotating gear; 23. Gear ring; 24. Fixed cylinder; 25. Screw; 26. Folding bag; 27. Rectangular cylinder. Detailed Implementation

[0029] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0030] Example 1

[0031] Reference Figure 1 , Figure 3 , Figure 4 and Figure 5 This is the first embodiment of the present invention, which provides a glass preform cleaning tank, including a body 1. The inner wall of the body 1 has a cleaning chamber. A partition plate 4 is fixedly connected to the inner wall of the cleaning chamber, which is used to divide the cleaning chamber into four parts. A rectangular plate 7 is fixedly connected to the inner wall of the partition plate 4. Two limiting plates 9, which are mirror-distributed and move horizontally left and right, are slidably connected to the outer wall of the rectangular plate 7. The limiting plates 9 are used to fix the preform. A rotating column 12 is slidably connected to the inner wall of the rectangular plate 7, which is used to drive the stirring rod 15 to rotate. Four handles 2, which are distributed in a rectangular array, are slidably connected to the outer wall of the body 1, which are used to drive the toothed ring 23 to rotate. A toothed ring 23 is installed at the bottom end of the rectangular plate 7. A fixed cylinder 24 is fixedly connected to the top end of the toothed ring 23, which is used to drive the connecting gear 21 to move.

[0032] The outer wall of the rotating column 12 is slidably connected to a slider that is slidably connected to the inner wall of the rectangular plate 7. The inner walls of the two sliders are fixedly connected to rubber pads that are slidably connected to the inner wall of the rectangular plate 7. The rubber pads 8 are used to push the sliders at both ends. A folded bag 26 is fixedly connected between the outer wall of the slider and the inner wall of the partition plate 4. The folded bag 26 prevents water from flowing out of the rectangular plate 7. The inner wall of the rotating column 12 is slidably connected to a connecting rod 13 that is fixedly connected to the outer wall of the limiting plate 9.

[0033] Two evenly distributed cylinders 11 are fixedly connected to the outer wall of the limiting plate 9. The cylinders 11 are used to move the limiting plate 9 horizontally along the cylinder 10. The inner wall of the cylinder 11 is slidably connected to the cylinder 10 which is fixedly connected to the outer wall of the partition plate 4. Four stirring rods 15 arranged in a circular array are fixedly connected to the outer wall of the rotating column 12. The stirring rods 15 are used to fully mix the cleaning liquid. The outer wall of the handle 2 is fixedly connected to a screw 25 that meshes with the outer wall of the toothed ring 23. The screw 25 is used to drive the toothed ring 23 to rotate.

[0034] The inner wall of the connecting gear 21 is fixedly connected to a fixed column that is slidably connected to the inner wall of the fixed cylinder 24. The outer wall of the rotating rod 18 is slidably connected to a connecting cylinder 19 that is slidably connected to the outer wall of the fixed column. The outer wall of the fixed column is slidably connected to a rotating cylinder 20 that is slidably connected to the outer wall of the connecting column 16. The inner wall of the handle 2 is provided with a plurality of evenly distributed limiting columns 3, which are used to limit the rotation of the handle 2. The inner wall of the body 1 is fixedly connected to a plurality of rectangular cylinders 27 corresponding to the limiting columns 3.

[0035] During use, the precast component is placed into the cleaning chamber divided by the partition plate 4. Turning the handle drives the screw 25 to rotate. The screw 25 drives the fixed cylinder 24 to rotate through the gear ring 23. The fixed cylinder 24 drives the two connecting gears 21 to rotate around the gear ring 23. The connecting gears 21 drive the rotating cylinder 20 to rotate through the fixed column. The rotating cylinder 20 drives the rotating column 12 to move through the connecting column 16. The rotating column 12 is subjected to force and squeezes the rubber pad 8 through the slider. The rotating column 12 also drives the limiting plate 9 to move through the connecting rod 13. The limiting plate 9 drives the cylinder 11 to move horizontally along the cylinder 10. At the same time, the slider drives the folding bag 26 to move horizontally along the rubber pad 8 until the precast component is clamped. Then, push the handle 2 to drive the limiting column 3 to insert into the inner wall of the rectangular cylinder 27. After cleaning, pull the handle 2 to disengage the limiting column 3 from the rectangular cylinder 27. The rubber pad 8 is released and pushes the limiting plate 9 to reset, ready for the next precast component to be placed.

[0036] Example 2

[0037] Reference Figure 1-4 This is the second embodiment of the present invention. The difference between this embodiment and the first embodiment is that: a drive motor is fixedly installed at the bottom of the body 1, and a drive gear 5 is fixedly connected to the output end of the drive motor. Four driven gears 6 arranged in a circular array mesh with the outer wall of the drive gear 5. A rotating rod 18 that is slidably connected to the inner wall of the gear ring 23 is fixedly connected to the top of the driven gear 6. The rotating rod 18 is used to drive the rotating gear 22 to rotate.

[0038] A rotating gear 22 is fixedly connected to the outer wall of the rotating rod 18. Two connecting gears 21 arranged in a circular array mesh with the outer wall of the rotating gear 22. A rotating gear 17 meshes with the outer wall of the connecting gear 21. The rotating gear 17 is used to drive the rotating column 12 to rotate. A connecting column 16, which is fixedly connected to the bottom end of the rotating column 12, is fixedly connected to the top end of the rotating gear 17. An anti-slip pad 14 is fixedly connected to the outer wall of the limiting plate 9. The anti-slip pad 14 is used to improve the stability of the clamping.

[0039] During use, after the prefabricated parts are clamped and fixed, the ultrasonic generator and ultrasonic transducer are installed inside the machine body 1. The ultrasonic generator and ultrasonic transducer inside the machine body 1 are started by pressing the button. The ultrasonic generator converts the mechanical vibration generated by the piezoelectric device into ultrasonic waves through voltage. The ultrasonic transducer converts the input electrical power into mechanical power and then transmits it out. The ultrasonic transducer is a piezoelectric ceramic that resonates at the ultrasonic frequency. The piezoelectric effect of the material converts the electrical signal into mechanical vibration.

[0040] The machine body 1 begins to clean the prefabricated parts and starts the drive motor to drive the drive gear 5 to rotate. The drive gear 5 drives the rotating rod 18 to rotate through the driven gear 6. The rotating rod 18 drives the two connecting gears 21 to rotate through the rotating gear 22. The connecting gears 21 drive the rotating gear 17 to rotate. The rotating gear 17 drives the rotating column 12 to rotate through the connecting column 16. The rotating column 12 drives multiple stirring rods 15 to rotate to fully mix the cleaning solution. After cleaning is completed, the drive motor is stopped, and the operation is completed.

[0041] The remaining structure is the same as that in Example 1.

[0042] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A glass preform cleaning tank characterized by: include The machine body has a cleaning chamber on its inner wall and four handles arranged in a rectangular array slidably connected to its outer wall. A partition plate is fixedly connected to the inner wall of the cleaning chamber; A rectangular plate is fixedly connected to the inner wall of the partition plate; A limiting plate is slidably connected to the outer wall of the rectangular plate. The two limiting plates are mirror-distributed and can move horizontally left and right. The rotating column is slidably connected to the inner wall of the rectangular plate; A toothed ring is installed at the bottom end of the rectangular plate; A fixed cylinder is fixedly connected to the top end of the toothed ring.

2. The glass preform wash tank of claim 1, wherein: A drive motor is fixedly installed at the bottom of the machine body. A drive gear is fixedly connected to the output end of the drive motor. Four driven gears arranged in a circular array mesh on the outer wall of the drive gear. A rotating rod that is slidably connected to the inner wall of the gear ring is fixedly connected to the top of the driven gear.

3. The glass preform wash tank of claim 2, wherein: A rotating gear is fixedly connected to the outer wall of the rotating rod. Two connecting gears arranged in a circular array mesh with the outer wall of the rotating gear. A rotating gear meshes with the outer wall of the connecting gear. A connecting column is fixedly connected to the top of the rotating gear and to the bottom of the rotating column. An anti-slip pad is fixedly connected to the outer wall of the limiting plate.

4. The glass preform wash tank of claim 1, wherein: The outer wall of the rotating column is slidably connected to a slider that is slidably connected to the inner wall of the rectangular plate. The inner walls of the two sliders are fixedly connected to rubber pads that are slidably connected to the inner wall of the rectangular plate. A folded bag is fixedly connected between the outer wall of the slider and the inner wall of the partition plate. The inner wall of the rotating column is slidably connected to a connecting rod that is fixedly connected to the outer wall of the limiting plate.

5. The glass preform wash tank of claim 1, wherein: The outer wall of the limiting plate is fixedly connected to two evenly distributed cylinders, the inner wall of the cylinders is slidably connected to a cylinder fixedly connected to the outer wall of the partition plate, the outer wall of the rotating column is fixedly connected to four stirring rods arranged in a circular array, and the outer wall of the handle is fixedly connected to a screw that meshes with the outer wall of the toothed ring.

6. The glass preform wash tank of claim 3, wherein: The inner wall of the connecting gear is fixedly connected to a fixed column that is slidably connected to the inner wall of the fixed cylinder. The outer wall of the rotating rod is slidably connected to a connecting cylinder that is slidably connected to the outer wall of the fixed column. The outer wall of the fixed column is slidably connected to a rotating cylinder that is slidably connected to the outer wall of the connecting column. The inner wall of the handle is provided with a plurality of evenly distributed limiting columns. The inner wall of the body is fixedly connected with a plurality of rectangular cylinders corresponding to the limiting columns.