A circulating cleaning device for glass

By combining a positioning mechanism with a roller brush, simultaneous cleaning of both sides of the glass is achieved, solving the problems of low efficiency and scratches in traditional cleaning devices, and improving cleaning efficiency and device lifespan.

CN224405863UActive Publication Date: 2026-06-26ANHUI ZHONGLING GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI ZHONGLING GLASS CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Traditional glass cleaning equipment is inefficient, requires flipping to clean only one side, and the brushes or sponge rollers are prone to sticking to impurities and scratching the glass surface.

Method used

The system employs a positioning mechanism to simultaneously clamp the glass at all four corners, combined with a roller brush and spray nozzle for double-sided cleaning. The filter frame quickly detaches from the wastewater, and the scraper brush removes impurities, minimizing manual intervention.

Benefits of technology

This technology enables simultaneous cleaning of both sides of the glass, avoiding wastewater residue, improving efficiency, preventing scratches, and extending the lifespan of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to glass production technical field, concretely is a kind of circulating cleaning device for glass, including installation box, the locating frame and moving frame are equipped in installation box, filter screen frame is equipped in installation box, filter screen frame is located below locating frame, bottom cover is threadedly connected in the bottom of installation box, locating mechanism for fixing glass is equipped on locating frame, cleaning mechanism for glass cleaning is equipped on moving frame;Locating mechanism includes the clamping block of four groups of symmetrical distribution in locating frame. Through the clamping plate of four groups of symmetrical distribution's clamping block cooperation bidirectional screw rod drive, the synchronous clamping of four corners of glass is realized, the accurate positioning of different size glass can be adapted in combination with the first, second adjusting rod and bidirectional screw rod structure of vertical distribution, glass is vertically fixed, the roller brush on moving frame is cooperated with spray head, through the transverse sliding of moving frame and extension rod and the longitudinal extension of fixed frame, the synchronous cleaning of glass double sides is realized.
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Description

Technical Field

[0001] This utility model relates to the field of glass production technology, specifically to a circulating cleaning device for glass. Background Technology

[0002] Glass is an amorphous solid that can maintain a certain shape. It is a substance obtained by gradually cooling molten glass and gradually increasing its temperature. In today's society, glass has become a part of people's lives. During the glass production process, it is necessary to clean the dirt remaining on the glass surface.

[0003] Traditional glass cleaning equipment mostly uses a horizontal conveying method, which uses water spraying in conjunction with brushes or sponge rollers for cleaning. When placed horizontally, sewage is easy to remain on the glass surface, and only one side can be cleaned at a time. After cleaning one side, the glass needs to be flipped over to clean the other side, resulting in low work efficiency. At the same time, impurities are easy to adhere to the brushes or sponge rollers during the cleaning process, which may scratch the glass surface after long-term use. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] To address the shortcomings of existing technologies, this invention provides a circulating cleaning device for glass, which solves the problems mentioned in the background section.

[0006] (II) Technical Solution

[0007] To achieve the above objectives, the present invention provides the following technical solution: a circulating cleaning device for glass, comprising an installation box, wherein a positioning frame and a movable frame are provided inside the installation box, a filter frame is provided inside the installation box, the filter frame is located below the positioning frame, a bottom cover is threaded onto the bottom of the installation box, a positioning mechanism for fixing the glass is provided on the positioning frame, and a cleaning mechanism for cleaning the glass is provided on the movable frame.

[0008] The positioning mechanism includes four sets of symmetrically distributed clamping blocks located within the positioning frame. Two sets of symmetrically distributed clamping plates are slidably mounted on each of the four sets of clamping blocks. A first bidirectional screw is rotatably mounted within each clamping block, with both ends of the first bidirectional screw passing through and threadedly connected to the two sets of clamping plates respectively. Two sets of symmetrically distributed first adjusting rods and two sets of symmetrically distributed second adjusting rods are slidably mounted within the positioning frame, with the two sets of first and second adjusting rods perpendicular to each other. The clamping blocks are slidably connected to one set of first adjusting rods and one set of second adjusting rods respectively. Two sets of perpendicularly distributed second bidirectional screws are rotatably mounted within the positioning frame, with both ends of the second bidirectional screws passing through and threadedly connected to the corresponding two sets of first or second adjusting rods respectively. The cleaning mechanism includes two sets of symmetrically distributed mounting rods slidably mounted within a movable frame. A telescopic rod is slidably mounted within each mounting rod, and a fixed frame is slidably mounted on the telescopic rod. A roller brush is rotatably mounted within the fixed frame, and a spray head is fixedly mounted on the fixed frame.

[0009] Preferably, a threaded rod is rotatably installed inside the mounting rod, and a threaded tube is rotatably installed inside the telescopic rod. The upper end of the threaded rod passes through the telescopic rod and is threadedly connected to the telescopic rod, and the upper end of the threaded tube passes through the fixing frame and is threadedly connected to the fixing frame.

[0010] Preferably, the threaded rod has two sets of symmetrically distributed keyways, and the threaded tube has two sets of symmetrically distributed key blocks. The key blocks are correspondingly arranged with the keyways, and the threaded tube is slidably sleeved with the threaded rod through the key blocks and keyways.

[0011] Preferably, a third bidirectional screw is rotatably installed inside the movable frame, with both ends of the third bidirectional screw passing through two sets of mounting rods and threadedly connected to the two sets of mounting rods respectively.

[0012] Preferably, a scraper brush is rotatably mounted on the fixed frame, and a gear is sleeved on the scraper brush. A rack is slidably mounted inside the fixed frame, and a cylinder is fixedly mounted inside the fixed frame. The rack is meshed with the gear, and the rack is fixedly connected to the output end of the cylinder piston rod.

[0013] Preferably, two sets of movable seats are slidably installed inside the fixed frame, and the two sets of movable seats are respectively arranged corresponding to the two sides of the scraper brush. Two sets of lead screws are rotatably installed inside the fixed frame, and the two sets of lead screws pass through the corresponding movable seats and are threadedly connected to the corresponding movable seats.

[0014] Preferably, a scraper block is slidably installed inside the movable seat, and the scraper block is slidably sleeved with the corresponding scraper brush. A slide rod is fixedly installed inside the movable seat, and the scraper block is slidably sleeved with the slide rod. Two sets of symmetrically distributed springs are sleeved on the slide rod, and the two ends of the two sets of springs are fixedly connected to the scraper block and the movable seat respectively. A cam is rotatably installed inside the movable seat, and the cam is fitted with the scraper block.

[0015] (III) Beneficial Effects

[0016] Compared with the prior art, the present invention provides a circulating cleaning device for glass, which has the following advantages:

[0017] Four sets of symmetrically distributed clamping blocks, combined with a bidirectional screw-driven clamping plate, achieve synchronous clamping of the glass at all four corners. Combined with the vertically distributed first and second adjusting rods and the bidirectional screw structure, it can accurately position glass of different sizes, vertically fixing the glass. The roller brush on the moving frame works in conjunction with the spray nozzle. Through the lateral sliding and telescopic rods of the moving frame and the longitudinal extension and retraction of the fixed frame, simultaneous cleaning of both sides of the glass is achieved. The vertically installed glass, along with the bottom filter frame and removable bottom cover, allows wastewater to quickly detach from the surface and be centrally filtered and recycled, avoiding secondary pollution. The scraper brush is in close contact with the roller brush, cleaning impurities adhering to the roller brush during its rotation. The moving seat drives the scraper to slide within the fixed frame, removing impurities from the scraper brush in real time, preventing impurities adhering to the roller brush from scratching the glass surface during cleaning, while also reducing manual intervention and improving work efficiency. Attached Figure Description

[0018] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a schematic diagram of a partially disassembled structure of the present invention;

[0021] Figure 3 This is a schematic diagram of the positioning mechanism of this utility model;

[0022] Figure 4 This is a schematic diagram of the cleaning mechanism of this utility model;

[0023] Figure 5 This utility model Figure 4 A magnified schematic diagram of the structure at point A in the diagram.

[0024] In the diagram: 1. Mounting box; 2. Positioning frame; 3. Moving frame; 4. Filter screen frame; 5. Bottom cover; 6. Positioning mechanism; 601. Clamping block; 602. Clamping plate; 603. First double-direction screw; 604. First adjusting rod; 605. Second adjusting rod; 606. Second double-direction screw; 7. Cleaning mechanism; 701. Mounting rod; 702. Telescopic rod; 703. Fixing frame; 704. Roller brush; 705. Nozzle; 706. Threaded rod; 707. Keyway; 708. Threaded tube; 709. Key block; 710. Third double-direction screw; 711. Scraper brush; 712. Gear; 713. Rack; 714. Cylinder; 715. Moving seat; 716. Lead screw; 717. Scraper; 718. Slide rod; 719. Spring; 720. Cam. Detailed Implementation

[0025] The following will describe in detail the implementation of this application with reference to the accompanying drawings and embodiments, so that the implementation process of how this application uses technical means to solve technical problems and achieve technical effects can be fully understood and implemented accordingly.

[0026] Figures 1-5In one embodiment of this utility model, a circulating cleaning device for glass includes a mounting box 1. The mounting box 1 contains a positioning frame 2 and a movable frame 3. A filter frame 4 is located below the positioning frame 2 inside the mounting box 1. A bottom cover 5 is threaded onto the bottom of the mounting box 1. The positioning frame 2 is equipped with a positioning mechanism 6 for fixing the glass, and the movable frame 3 is equipped with a cleaning mechanism 7 for cleaning the glass. The positioning mechanism 6 includes four sets of symmetrically distributed clamping blocks 601 located within the positioning frame 2. Two sets of symmetrically distributed clamping plates 602 are slidably mounted on each of the four sets of clamping blocks 601. A first bidirectional screw 603 is rotatably mounted inside the positioning frame 2. The two ends of the first bidirectional screw 603 pass through two sets of clamping plates 602 and are threadedly connected to the two sets of clamping plates 602 respectively. Two sets of symmetrically distributed first adjusting rods 604 and two sets of symmetrically distributed second adjusting rods 605 are slidably mounted inside the positioning frame 2. The two sets of first adjusting rods 604 and second adjusting rods 605 are perpendicularly distributed. The clamping block 601 is slidably connected to one set of first adjusting rods 604 and one set of second adjusting rods 605 respectively. Two sets of vertically distributed second bidirectional screws 606 are rotatably mounted inside the positioning frame 2. The two ends of the screw 606 pass through the corresponding two sets of first adjusting rods 604 or two sets of second adjusting rods 605 respectively and are threadedly connected to the corresponding two sets of first adjusting rods 604 or two sets of second adjusting rods 605 respectively. The cleaning mechanism 7 includes two sets of symmetrically distributed mounting rods 701 that are slidably installed in the movable frame 3. A telescopic rod 702 is slidably installed in the mounting rod 701. A fixed frame 703 is slidably installed on the telescopic rod 702, and a roller brush 704 is rotatably installed in the fixed frame 703. A nozzle 705 is fixedly installed on the fixed frame 703. The cleaning mechanism is connected by four sets of symmetrically distributed clamping blocks. The clamping plate 602, driven by a bidirectional screw, is used to simultaneously clamp the glass at all four corners. Combined with the vertically distributed first and second adjusting rods 605 and the bidirectional screw structure, it can accurately position glass of different sizes and fix the glass vertically. The roller brush 704 on the moving frame 3 works with the spray head 705. Through the lateral sliding of the moving frame 3 and the longitudinal extension and retraction of the telescopic rod 702 and the fixed frame 703, the glass is cleaned simultaneously on both sides. The vertically installed glass, together with the bottom filter frame 4 and the detachable bottom cover 5, allows the wastewater to quickly leave the surface and be centrally filtered and recycled, avoiding secondary pollution.

[0027] In this embodiment, reference Figure 2As shown, a threaded rod 706 is rotatably installed inside the mounting rod 701, and a threaded tube 708 is rotatably installed inside the telescopic rod 702. The upper end of the threaded rod 706 passes through the telescopic rod 702 and is threadedly connected to it. The upper end of the threaded tube 708 passes through the fixing frame 703 and is threadedly connected to it. Two sets of symmetrically distributed keyways 707 are provided on the threaded rod 706, and two sets of symmetrically distributed key blocks 709 are provided inside the threaded tube 708. The key blocks 709 are correspondingly arranged with the keyways 707, and the threaded tube 708 is slidably sleeved with the threaded rod 706 through the key blocks 709 and the keyways 707. A third bidirectional screw 710 is rotatably installed inside the movable frame 3. The two ends of the third bidirectional screw 710 pass through the two sets of mounting rods 701 respectively and are threadedly connected to the two sets of mounting rods 701 respectively. The positioning mechanism 6 inside the mounting box 1 cooperates with the first bidirectional screw through four sets of symmetrically distributed clamping blocks 601. The screw 603 drives the clamping plate 602 to clamp the four corners of the glass synchronously. The clamping distance between the four sets of clamping blocks 601 is adjusted by the vertically distributed first and second adjusting rods 605 and the bidirectional screw structure to accommodate the vertical fixation of glass of different sizes. During cleaning, the moving frame 3 drives the roller brush 704 to slide laterally, while the motor in the mounting rod 701 drives the threaded rod 706 to rotate. With the cooperation of the key block 709 and the keyway 707, the threaded tube 708 rotates synchronously. Therefore, under the limiting action of the mounting rod 701 and the telescopic rod 702, the longitudinal extension and retraction of the fixing frame 703 is achieved, so that the roller brush 704 and the nozzle 705 cooperate to simultaneously brush both sides of the glass. After the cleaning liquid sprayed by the nozzle 705 washes the glass surface, the sewage flows downward under the action of gravity. After being filtered by the filter frame 4, it flows into the bottom of the mounting box 1. The detachable bottom cover 5 reuses the filtered clean water.

[0028] In this embodiment, reference Figure 3 and Figure 4As shown, a scraper brush 711 is rotatably mounted on the fixed frame 703, and a gear 712 is sleeved on the scraper brush 711. A rack 713 is slidably mounted inside the fixed frame 703, and a cylinder 714 is fixedly mounted inside the fixed frame 703. The rack 713 meshes with the gear 712, and the rack 713 is fixedly connected to the output end of the piston rod of the cylinder 714. Two sets of movable seats 715 are slidably mounted inside the fixed frame 703, and the two sets of movable seats 715 are respectively connected to the scraper brush. Two sets of lead screws 716 are rotatably installed inside the fixing frame 703 on both sides of the brush 711. The two sets of lead screws 716 pass through the corresponding moving seats 715 and are threadedly connected to the corresponding moving seats 715. A scraper block 717 is slidably installed inside the moving seat 715 and is slidably sleeved with the corresponding scraper brush 711. A slide rod 718 is fixedly installed inside the moving seat 715, and the scraper block 717 is slidably sleeved with the slide rod 718. There are two sets of symmetrically distributed springs 719. The two ends of the two sets of springs 719 are fixedly connected to the scraper 717 and the movable seat 715, respectively. A cam 720 is rotatably installed inside the movable seat 715, and the cam 720 is set in contact with the scraper 717. During the cleaning process, the scraper brush 711 is in contact with the roller brush 704. When the roller brush 704 rotates, it automatically scrapes off the impurities adhering to its surface. At the same time, the movable seat 715 drives the scraper 717 to slide along the scraper brush 711 under the drive of the lead screw 716, further removing residual dirt. The cam 720 mechanism, together with the springs 719, ensures that the scraper 717 and the brush body maintain appropriate pressure and makes the scraper 717 vibrate continuously, which effectively cleans the brush body and avoids excessive wear. The impurities cleaned from the scraper brush 711 are automatically shaken off. The whole system achieves efficient double-sided cleaning of glass, while maintaining the cleanliness of the brush body through a self-cleaning mechanism, ensuring cleaning quality and extending the service life of the device.

[0029] In this embodiment, during operation, the positioning mechanism 6 inside the mounting box 1 uses four symmetrically distributed clamping blocks 601 in conjunction with the clamping plates 602 driven by the first bidirectional screw 603 to synchronously clamp the four corners of the glass. The clamping distance between the four sets of clamping blocks 601 is adjusted by the vertically distributed first and second adjusting rods 605 and the bidirectional screw structure to accommodate the vertical fixation of glass of different sizes. During cleaning, the moving frame 3 drives the roller brush 704 to slide laterally, while the motor inside the mounting rod 701 drives the threaded rod 706 to rotate. In conjunction with the key block 709 and the keyway 707, the threaded tube 708 rotates synchronously. Therefore, under the limiting action of the mounting rod 701 and the telescopic rod 702, the longitudinal extension and retraction of the fixing frame 703 allows the roller brush 704 and the nozzle 705 to work together to synchronously brush both sides of the glass. The cleaning fluid sprayed by the nozzle 705 washes the glass. After cleaning the glass surface, the wastewater flows downwards under gravity, is filtered by the filter frame 4, and flows into the bottom of the installation box 1. The removable bottom cover 5 reuses the filtered clean water. During the cleaning process, the scraper brush 711 is in contact with the roller brush 704. When the roller brush 704 rotates, it automatically scrapes off the impurities adhering to its surface. At the same time, the moving seat 715, driven by the lead screw 716, drives the scraper block 717 to slide along the scraper brush 711 to further remove residual dirt. The cam 720 mechanism, in conjunction with the spring 719, ensures that the scraper block 717 and the brush body maintain appropriate pressure and makes the scraper block 717 continuously vibrate, which effectively cleans the brush body and avoids excessive wear. The impurities cleaned from the scraper brush 711 are automatically shaken off. The whole system achieves efficient double-sided cleaning of glass while maintaining the cleanliness of the brush body through a self-cleaning mechanism, ensuring cleaning quality and extending the service life of the device.

[0030] The control method of this utility model is automatic control through a controller. The control circuit of the controller can be implemented by simple programming by those skilled in the art. The power supply is also common knowledge in the field. Since this utility model is mainly used to protect mechanical devices, the control method and circuit connection will not be explained in detail.

[0031] It should be noted that the terms “comprising,” “including,” or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A circulating cleaning device for glass, comprising a mounting box (1), characterized in that: The mounting box (1) is provided with a positioning frame (2) and a moving frame (3). The mounting box (1) is provided with a filter frame (4). The filter frame (4) is located below the positioning frame (2). The bottom of the mounting box (1) is threaded with a bottom cover (5). The positioning frame (2) is provided with a positioning mechanism (6) for fixing the glass. The moving frame (3) is provided with a cleaning mechanism (7) for cleaning the glass. The positioning mechanism (6) includes four sets of symmetrically distributed clamping blocks (601) located within the positioning frame (2). Two sets of symmetrically distributed clamping plates (602) are slidably mounted on each of the four sets of clamping blocks (601). A first bidirectional screw (603) is rotatably mounted inside the clamping block (601). The two ends of the first bidirectional screw (603) pass through the two sets of clamping plates (602) respectively and are threadedly connected to the two sets of clamping plates (602). Two sets of symmetrically distributed first adjusting rods (604) and two sets of symmetrically distributed second adjusting rods (605) are slidably mounted inside the positioning frame (2). The two sets of first adjusting rods (604) and second adjusting rods (605) are perpendicular to each other. The clamping blocks (601) are connected to one set of first adjusting rods (604) and one set of second adjusting rods (605) respectively. The sliding connection is provided. Two sets of vertically distributed second bidirectional screws (606) are rotatably installed inside the positioning frame (2). The two ends of the second bidirectional screws (606) pass through the corresponding two sets of first adjusting rods (604) or two sets of second adjusting rods (605) respectively and are threadedly connected to the corresponding two sets of first adjusting rods (604) or two sets of second adjusting rods (605). The cleaning mechanism (7) includes two sets of symmetrically distributed mounting rods (701) that are slidably installed inside the movable frame (3). A telescopic rod (702) is slidably installed inside the mounting rod (701). A fixed frame (703) is slidably installed on the telescopic rod (702). A roller brush (704) is rotatably installed inside the fixed frame (703). A nozzle (705) is fixedly installed on the fixed frame (703).

2. The circulating cleaning device for glass according to claim 1, characterized in that: A threaded rod (706) is rotatably installed inside the mounting rod (701), and a threaded tube (708) is rotatably installed inside the telescopic rod (702). The upper end of the threaded rod (706) passes through the telescopic rod (702) and is threadedly connected to the telescopic rod (702). The upper end of the threaded tube (708) passes through the fixing frame (703) and is threadedly connected to the fixing frame (703).

3. A circulating cleaning device for glass according to claim 2, characterized in that: The threaded rod (706) has two sets of symmetrically distributed keyways (707), and the threaded tube (708) has two sets of symmetrically distributed key blocks (709). The key blocks (709) are correspondingly arranged with the keyways (707), and the threaded tube (708) is slidably sleeved with the threaded rod (706) through the key blocks (709) and the keyways (707).

4. The circulating cleaning device for glass according to claim 1, characterized in that: The movable frame (3) is rotatably installed with a third bidirectional screw (710). The two ends of the third bidirectional screw (710) pass through two sets of mounting rods (701) and are threadedly connected to the two sets of mounting rods (701) respectively.

5. A circulating cleaning device for glass according to claim 1, characterized in that: A scraper brush (711) is rotatably mounted on the fixed frame (703), and a gear (712) is sleeved on the scraper brush (711). A rack (713) is slidably mounted inside the fixed frame (703), and a cylinder (714) is fixedly mounted inside the fixed frame (703). The rack (713) is meshed with the gear (712), and the rack (713) is fixedly connected to the output end of the piston rod of the cylinder (714).

6. A circulating cleaning device for glass according to claim 1, characterized in that: Two sets of movable seats (715) are slidably installed inside the fixed frame (703). The two sets of movable seats (715) are respectively arranged on both sides of the scraper brush (711). Two sets of lead screws (716) are rotatably installed inside the fixed frame (703). The two sets of lead screws (716) pass through the corresponding movable seats (715) and are threadedly connected to the corresponding movable seats (715).

7. A circulating cleaning device for glass according to claim 6, characterized in that: A scraper block (717) is slidably installed inside the movable seat (715). The scraper block (717) is slidably sleeved with the corresponding scraper brush (711). A slide rod (718) is fixedly installed inside the movable seat (715). The scraper block (717) is slidably sleeved with the slide rod (718). Two sets of symmetrically distributed springs (719) are sleeved on the slide rod (718). The two ends of the two sets of springs (719) are fixedly connected to the scraper block (717) and the movable seat (715) respectively. A cam (720) is rotatably installed inside the movable seat (715), and the cam (720) is fitted with the scraper block (717).