Multifunctional glass raw material pretreatment equipment

The design of the multi-functional glass raw material pretreatment equipment integrates screening and washing, solving the problems of inconvenient material transfer and non-recyclable washing water in existing technologies, thereby improving operating efficiency and screening effect.

CN224321946UActive Publication Date: 2026-06-05JIANGYOU ORIENTAL GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGYOU ORIENTAL GLASS CO LTD
Filing Date
2025-07-07
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In the existing glass raw material pretreatment process, screening and washing are carried out by separate equipment. The back-and-forth transfer of materials is inconvenient and inefficient. Furthermore, materials are prone to accumulating and getting stuck during screening, and the washing water cannot be recycled, resulting in low screening and washing efficiency.

Method used

Design a multifunctional glass raw material pretreatment device. It adopts a detachable screening screen body in the installation frame to achieve multi-stage screening, and uses a water pump to draw water from the water tank for cleaning. Combined with the horizontal reciprocating motion of the screening screen body driven by the motor and the filtration of the filter frame, the screening and cleaning are integrated to prevent jamming and recycle the rinsing water.

Benefits of technology

It improves ease of operation and work efficiency, prevents raw material jamming, ensures the recycling of cleaning water, and improves screening and cleaning efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224321946U_ABST
    Figure CN224321946U_ABST
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Abstract

The utility model discloses a multifunctional glass raw material pretreatment equipment belongs to glass raw material processing technical field, including the pretreatment box, the upper surface of pretreatment box has the opening and is buckled to install the pretreatment box cover at the opening position, is installed to the feeding hopper on the pretreatment box cover, and the movable setting of pretreatment box body has the mounting frame, and the front and rear two side surfaces of mounting frame all are fixedly installed with mounting socket, and the mounting socket is inserted and is installed with mounting plug -in board, and the side surface fixed mounting of mounting plug -in board has a plurality of sliding columns, and sliding column sliding penetrates pretreatment box body and is fixedly installed with sliding plate, and is used in cooperation water tank through setting mounting frame, and a plurality of screening net bodies are detachably installed in mounting frame and realize multistage screening, and cooperate water pump to draw water in water tank, and clean through the spray head and spray, can clean in the screening process, and screening and cleaning are integrated to one equipment, and need not to transfer material back and forth, and improve operation efficiency and operation degree of convenience.
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Description

Technical Field

[0001] This utility model belongs to the field of glass raw material processing technology, specifically relating to a multifunctional glass raw material pretreatment equipment. Background Technology

[0002] Glass is an amorphous inorganic non-metallic material, generally made from a variety of inorganic minerals such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash, etc., as the main raw materials, with the addition of a small amount of auxiliary raw materials.

[0003] In the glass processing process, glass raw materials need to be pre-treated, including screening and cleaning. However, in existing pre-treatment systems, screening and cleaning are performed in separate equipment, which is inconvenient and inefficient due to the back-and-forth transfer of materials. Furthermore, materials tend to accumulate and jam the screening screen during screening, and the rinsing water cannot be recycled during cleaning, thus reducing screening and cleaning efficiency. Therefore, we propose a multi-functional glass raw material pre-treatment device. Utility Model Content

[0004] The purpose of this utility model is to provide a multifunctional glass raw material pretreatment equipment to solve the problems mentioned in the background art, which are that screening and washing are carried out by separate equipment in the existing pretreatment, which is inconvenient to transfer materials back and forth, has low efficiency, and that materials are prone to accumulate and jam the screening screen during screening, and the rinsing water cannot be recycled during washing, thus reducing screening efficiency and washing efficiency.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a multifunctional glass raw material pretreatment equipment, comprising a pretreatment chamber, the upper surface of which has an opening and a pretreatment chamber cover is fastened to the opening, a feeding hopper is installed on the pretreatment chamber cover, an installation frame is movably arranged inside the pretreatment chamber, installation sockets are fixedly installed on both the front and rear sides of the installation frame, installation plates are inserted into the installation sockets, a plurality of sliding columns are fixedly installed on the sides of the installation plates, the sliding columns slide through the pretreatment chamber and are fixedly installed with sliding plates, a spring is fixedly installed between the sliding plates and the pretreatment chamber, and anti-fouling devices are fixedly installed on both the front and rear sides of the pretreatment chamber. A protective cover, one of which has a motor fixedly mounted on its surface, the output shaft of which has a rotating shaft fixedly mounted on it, a disc fixedly mounted on the outer surface of the rotating shaft and eccentrically positioned between the disc and the rotating shaft, the disc being fitted against the side of a sliding plate at the same side position, several screening screens being detachably mounted inside the mounting frame, a water tank being mounted on the lower surface of the pretreatment box, a filter screen frame being detachably mounted inside the water tank, a water pump being fixedly mounted on the side of the pretreatment box, the inlet and outlet of the water pump being connected to an inlet pipe and an outlet pipe respectively, the inlet pipe being connected to the water tank, the outlet pipe extending into the pretreatment box and connected to a water supply pipe, and several nozzles being mounted on the water supply pipe.

[0006] Using the above solution, an installation frame is used in conjunction with a water tank. Several detachable screening screens are installed inside the installation frame to achieve multi-stage screening. Water is drawn from the water tank by a water pump and sprayed out through nozzles for cleaning. Cleaning can be performed during the screening process, integrating screening and cleaning into one device. There is no need to transfer materials back and forth, improving work efficiency and ease of operation. By setting up a motor in conjunction with a rotating shaft, an eccentrically mounted disc, a sliding column, and a sliding plate, the installation frame can drive the screening screens to move horizontally back and forth continuously, realizing the vibration of glass raw materials and effectively preventing raw materials from getting stuck in the screening screens. At the same time, a filter frame is used in conjunction to filter the cleaning water, ensuring the recycling of the rinsing water.

[0007] In the above scheme, it should be noted that both the motor and the water pump are electrically connected to an external power source.

[0008] In a preferred embodiment, a limit socket is fixedly installed on the outer surface of the screening mesh, and a limit slot is provided on the inner wall of the mounting frame for the limit socket to be inserted.

[0009] By adopting the above solution, the position of the screening mesh installed in the installation frame can be limited by setting a limit socket inserted into the limit slot, which can prevent the screening mesh from moving up and down or shaking, and improve the stability of use.

[0010] In a preferred embodiment, a plurality of clamping plates are rotatably mounted on the side of the mounting frame. Each clamping plate has a locking slot. A clamping rod is fixedly mounted on the side of the screening mesh. The clamping rod is locked in the locking slot. The surface of the clamping rod has threads and a nut is threaded onto the threads. The nut is fitted and arranged on the side of the clamping plate.

[0011] The above solution utilizes the rotating plate to engage the locking rod in the slot, and the locking rod is tightened with a nut to achieve the compression and locking of the plate. This enables convenient disassembly and assembly of the screening screen. The locking structure is simple and easy to operate.

[0012] In a preferred embodiment, an assembly plate is fixedly installed on the side of the filter frame, and a number of assembly bolts are threaded between the assembly plate and the water tank.

[0013] The above solution utilizes assembly plates and bolts to enable quick assembly and disassembly of the filter frame, facilitating subsequent disassembly, cleaning, and use. The threaded connection offers good stability and is less prone to loosening.

[0014] In a preferred embodiment, a plurality of mounting bolts are threaded between the mounting socket and the mounting plate.

[0015] Using the above solution, and with the help of mounting bolts, the mounting plate and the mounting socket can be locked in position after the mounting plate is inserted into the mounting socket. The locking structure is simple.

[0016] In one preferred embodiment, the mesh size of the plurality of screening meshes decreases sequentially from top to bottom.

[0017] By adopting the above scheme, multi-stage screening of glass raw materials can be achieved, ensuring good glass processing accuracy in subsequent processing.

[0018] Compared with the prior art, the beneficial effects of this utility model are:

[0019] This multi-functional glass raw material pretreatment equipment uses a mounting frame in conjunction with a water tank. Several screens can be detachably installed inside the mounting frame to achieve multi-stage screening. Water is drawn from the water tank by a water pump and sprayed out through nozzles for cleaning. Cleaning can be carried out during the screening process. Screening and cleaning are integrated into one equipment, eliminating the need to transfer materials back and forth, thus improving work efficiency and ease of operation.

[0020] This multi-functional glass raw material pretreatment equipment uses a motor, a rotating shaft, an eccentrically mounted disc, a sliding column, and a sliding plate to drive the mounting frame to continuously move the screening screen horizontally back and forth, thus oscillating the glass raw material and effectively preventing the raw material from getting stuck in the screening screen. At the same time, it is used in conjunction with a filter frame to filter the washing water, ensuring the recycling of the rinsing water. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a structural schematic diagram of the present invention from another angle;

[0023] Figure 3 This is a schematic diagram of a partial cross-section of the present invention;

[0024] Figure 4 This is a schematic diagram of the pretreatment box of this utility model;

[0025] Figure 5 This is a schematic diagram of the mounting frame of this utility model;

[0026] Figure 6 This is a schematic diagram of the exploded structure of the mounting frame and screening mesh of this utility model;

[0027] Figure 7 This is a schematic diagram of the structure of the water tank and filter frame of this utility model after an explosion.

[0028] In the diagram: 1. Pretreatment box; 2. Pretreatment box cover; 3. Feed hopper; 4. Mounting frame; 5. Mounting socket; 6. Spring; 7. Mounting plate; 8. Mounting bolt; 9. Sliding column; 10. Protective cover; 11. Motor; 12. Rotating shaft; 13. Disc; 14. Screening mesh; 15. Water tank; 16. Filter frame; 17. Water pump; 18. Water outlet pipe; 19. Water inlet pipe; 20. Water supply pipe; 21. Nozzle; 22. Limit socket; 23. Clamping plate; 24. Clamping rod; 25. Nut; 26. Assembly plate; 27. Assembly bolt; 28. Sliding plate. Detailed Implementation

[0029] Please see Figure 1-7This utility model provides a multifunctional glass raw material pretreatment equipment, including a pretreatment box 1. The upper surface of the pretreatment box 1 has an opening, and a pretreatment box cover 2 is fastened and installed at the opening. A feeding hopper 3 is installed on the pretreatment box cover 2. An installation frame 4 is movably arranged inside the pretreatment box 1. Installation sockets 5 are fixedly installed on both the front and rear sides of the installation frame 4. Installation plates 7 are inserted into the installation sockets 5. Several sliding columns 9 are fixedly installed on the sides of the installation plates 7. The sliding columns 9 slide through the pretreatment box 1 and are fixedly installed with sliding plates 28. A spring 6 is fixedly installed between the sliding plates 28 and the pretreatment box 1. Protective covers 10 are fixedly installed on both the front and rear sides of the pretreatment box 1. One of the protective covers 10 is fixedly mounted on its surface. There is a motor 11, and a rotating shaft 12 is fixedly installed on the output shaft of the motor 11. A disc 13 is fixedly installed on the outer surface of the rotating shaft 12 and the disc 13 is eccentrically arranged with the rotating shaft 12. The disc 13 is attached to the side of the sliding plate 28 at the same side position. Several screening screens 14 are detachably installed in the mounting frame 4. A water tank 15 is installed on the lower surface of the pretreatment box 1. A filter frame 16 is detachably installed in the water tank 15. A water pump 17 is fixedly installed on the side of the pretreatment box 1. The inlet and outlet of the water pump 17 are respectively connected to an inlet pipe 19 and an outlet pipe 18. The inlet pipe 19 is connected to the water tank 15. The outlet pipe 18 extends into the pretreatment box 1 and is connected to a water supply pipe 20. Several nozzles 21 are installed on the water supply pipe 20.

[0030] By using the mounting frame 4 in conjunction with the water tank 15, several screens 14 can be detachably installed inside the mounting frame 4 to achieve multi-stage screening. Water is drawn from the water tank 15 by the water pump 17 and sprayed out through the nozzle 21 for cleaning. Cleaning can be carried out during the screening process. Screening and cleaning are integrated into one device, eliminating the need to transfer materials back and forth, thus improving work efficiency and ease of operation. By using the motor 11 in conjunction with the rotating shaft 12, the eccentrically mounted disc 13, the sliding column 9, and the sliding plate 28, the mounting frame 4 can drive the screens 14 to move horizontally back and forth continuously, realizing the vibration of glass raw materials and effectively preventing the phenomenon of raw materials getting stuck in the screens 14. At the same time, the filter frame 16 is used in conjunction to filter the cleaning water, ensuring the circulation and use of the rinsing water.

[0031] A limit socket 22 is fixedly installed on the outer surface of the screening mesh 14. A limit slot for the limit socket 22 to be inserted is provided on the inner wall of the mounting frame 4. By setting the limit socket 22 to be inserted into the limit slot, the position of the screening mesh 14 installed in the mounting frame 4 can be limited, so as to avoid the screening mesh 14 from moving up and down and shaking, thus improving the stability of use.

[0032] Several clamping plates 23 are rotatably mounted on the side of the mounting frame 4. Each clamping plate 23 has a locking slot. A clamping rod 24 is fixedly mounted on the side of the screening mesh body 14. The clamping rod 24 is locked in the locking slot. The surface of the clamping rod 24 has threads and a nut 25 is installed on the threads. The nut 25 is attached to the side of the clamping plate 23. When the clamping plate 23 rotates, the clamping rod 24 is locked into the locking slot. With the nut 25, the clamping rod 24 is screwed on, realizing the compression and locking of the clamping plate 23. This enables convenient disassembly and assembly of the screening mesh body 14. The locking structure is simple and easy to operate.

[0033] An assembly plate 26 is fixedly installed on the side of the filter screen frame 16. Several assembly bolts 27 are threaded between the assembly plate 26 and the water tank 15. The assembly plate 26 and the assembly bolts 27 are used together to realize the quick assembly and disassembly of the filter screen frame 16, which facilitates the subsequent disassembly and cleaning of the filter screen frame 16. The threaded connection has good stability and is not prone to loosening.

[0034] Several mounting bolts 8 are threaded between the mounting socket 5 and the mounting plate 7. By using the mounting bolts 8 together, the positions of the mounting plate 7 and the mounting socket 5 can be locked after the mounting plate 7 is inserted into the mounting socket 5. The locking structure is simple.

[0035] The mesh size of several screening meshes 14 decreases from top to bottom, which can realize multi-stage screening of glass raw materials and ensure good glass processing accuracy in subsequent processing.

[0036] During use, glass raw materials are injected into the pretreatment box 1 through the feeding hopper 3 and undergo multi-stage screening through multiple screening screens 14. Simultaneously, the motor 11 and water pump 17 are activated during screening. The motor 11 drives the rotating shaft 12 to rotate the disc 13. The eccentrically mounted disc 13, in conjunction with the spring force of the spring 6, drives the sliding plate 28 to continuously reciprocate horizontally with the sliding column 9. This, in turn, drives the mounting frame 4 through the mounting plate 7 and mounting socket 5 to continuously reciprocate horizontally with the screening screens 14, achieving the vibration of the glass raw materials and preventing them from becoming stuck and clogging the screening screens 14. At the same time, the water pump 17 draws water from the water tank 15 and transmits it through the inlet pipe 19, outlet pipe 18, and water delivery pipe 2. The water is fed to the nozzle 21 and sprayed onto the glass raw material for cleaning. The cleaning water flows down to the filter frame 16. After the filter frame 16 filters out the residue, it can ensure that the water can be repeatedly extracted and reused. After the operation is completed, open the pretreatment box cover 2 and remove it. Unscrew the mounting bolt 8 to unlock the mounting plate 7 and the mounting socket 5. Then, pull it upward and take out the mounting frame 4. Unscrew the nut 25 to unlock the locking plate 23. Rotate the locking plate 23 to separate the locking plate 23 from the locking rod 24. Then, unlock the screening screen 14. Then, slide the screening screen 14 horizontally and pull it out. Then, take out the screened glass raw material. Unscrew the assembly bolt 27 to unlock the assembly plate 26 and the water tank 15. Pull it upward and take out the filter frame 16 for cleaning.

Claims

1. A multifunctional glass raw material pretreatment device, characterized in that: The pretreatment box (1) includes an opening on its upper surface and a pretreatment box cover (2) fastened to the opening. A feeding hopper (3) is installed on the pretreatment box cover (2). An installation frame (4) is movably arranged inside the pretreatment box (1). Installation sockets (5) are fixedly installed on both the front and rear sides of the installation frame (4). An installation plate (7) is inserted into the installation socket (5). Several sliding columns (9) are fixedly installed on the side of the installation plate (7). The sliding columns (9) slide through the pretreatment box (1) and are fixedly installed with a sliding plate (28). A spring (6) is fixedly installed between the sliding plate (28) and the pretreatment box (1). Protective covers (10) are fixedly installed on both the front and rear sides of the pretreatment box (1). A motor (11) is fixedly installed on the surface of one of the protective covers (10). The motor (11) outputs... A rotating shaft (12) is fixedly installed on the output shaft. A disc (13) is fixedly installed on the outer surface of the rotating shaft (12), and the disc (13) is eccentrically arranged with respect to the rotating shaft (12). The disc (13) is attached to the side of the sliding plate (28) at the same side position. Several screening screens (14) are detachably installed inside the mounting frame (4). A water tank (15) is installed on the lower surface of the pretreatment box (1). A detachable screen is installed inside the water tank (15). There is a filter screen frame (16), and a water pump (17) is fixedly installed on the side of the pretreatment box (1). The inlet and outlet of the water pump (17) are respectively connected to an inlet pipe (19) and an outlet pipe (18). The inlet pipe (19) is connected to a water tank (15). The outlet pipe (18) extends into the pretreatment box (1) and is connected to a water supply pipe (20). Several nozzles (21) are installed on the water supply pipe (20).

2. The multifunctional glass raw material pretreatment equipment according to claim 1, characterized in that: The outer surface of the screening mesh (14) is fixedly installed with a limit socket (22), and the inner wall of the mounting frame (4) is provided with a limit slot for the limit socket (22) to be inserted.

3. The multifunctional glass raw material pretreatment equipment according to claim 1, characterized in that: A number of clamping plates (23) are rotatably mounted on the side of the mounting frame (4). The clamping plates (23) have slots. The side of the screening mesh body (14) is fixedly mounted with clamping rods (24). The clamping rods (24) are clamped in the slots. The surface of the clamping rods (24) has threads and nuts (25) are threaded on them. The nuts (25) are attached to the side of the clamping plates (23).

4. The multifunctional glass raw material pretreatment equipment according to claim 1, characterized in that: An assembly plate (26) is fixedly installed on the side of the filter frame (16), and several assembly bolts (27) are threaded between the assembly plate (26) and the water tank (15).

5. The multifunctional glass raw material pretreatment equipment according to claim 1, characterized in that: A number of mounting bolts (8) are threaded between the mounting socket (5) and the mounting plate (7).

6. The multifunctional glass raw material pretreatment equipment according to claim 1, characterized in that: The mesh size of several of the screening meshes (14) decreases sequentially from top to bottom.