A glass processing cleaning apparatus
By designing a glass processing cleaning device with double-sided synchronous cleaning, the problems of complex structure and low efficiency in the existing technology have been solved, realizing efficient and automated glass cleaning, adapting to the needs of glass of different thicknesses, and meeting the requirements of large-scale production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIANGYANG YIYUAN GLASS CO LTD
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-30
Smart Images

Figure CN224423772U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of glass processing and cleaning technology, and in particular to a glass processing and cleaning device. Background Technology
[0002] During glass processing, various stains, dust, and particles will adhere to the glass surface, requiring cleaning to achieve a high degree of cleanliness and meet the requirements of subsequent processing or use.
[0003] Currently, there are some shortcomings in glass cleaning devices on the market. For example, the utility model patent with authorization announcement number CN220215932U discloses a glass processing and cleaning device, including a base, a rotating seat on the base, a rotating mechanism on the base for driving the rotating seat to rotate, several vacuum pneumatic suction cups connected to the rotating seat, a limiting component on the base for limiting the glass, an operating frame connected to the base, a lifting plate on the operating frame, a lifting component on the operating frame for driving the lifting plate to rise and fall, a hot air fan connected to the lifting plate, an air duct connected to the lifting plate, the hot air fan and the air duct connected through a pipe, several air outlet nozzles connected to the air duct, a water pipe connected to the lifting plate, a water tank connected to the outside of the water pipe, several water outlet nozzles connected to the water pipe, and the air duct and water pipe are located on the same straight line and correspond to the diameter of the circle after the glass is rotated. While this application can improve the problem of secondary pollution caused by moisture adhering to the surface of glass after cleaning, and can effectively remove stains and dust from the glass surface, the device is not only complex in structure, but can also only clean one side of a piece of glass at a time, resulting in low efficiency and failing to meet the needs of large-scale production, and urgently needs improvement. Utility Model Content
[0004] The purpose of this invention is to provide a glass processing and cleaning device that can not only clean both sides of the glass simultaneously with high cleaning efficiency, but also adapt to the cleaning operation of glass of different thicknesses. It is highly versatile and flexible, greatly meeting the different needs of enterprises.
[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution:
[0006] A glass processing and cleaning apparatus includes a feeding conveying mechanism and a discharging conveying mechanism. A cleaning mechanism is provided between the feeding conveying mechanism and the discharging conveying mechanism. The cleaning mechanism includes an upper cleaning roller group and a lower cleaning roller group for synchronously cleaning both sides of the glass. Each of the upper and lower cleaning roller groups includes a cleaning roller and a wiping roller arranged horizontally and parallel in sequence. The cleaning roller and the wiping roller in the upper and lower cleaning roller groups correspond one-to-one. Both ends of the cleaning roller and the wiping roller in the upper and lower cleaning roller groups are connected to a fixed support frame through a spacing adjustment mechanism.
[0007] By adopting the above technical solution, the glass to be cleaned is conveyed to the cleaning mechanism via the feeding conveyor. The upper and lower cleaning roller groups in the cleaning mechanism operate simultaneously to ensure that both sides of the glass are cleaned synchronously. The cleaning rollers in the upper and lower cleaning roller groups are used to efficiently remove dirt from the glass surface, while the wiping rollers quickly remove residual water to prevent secondary pollution, effectively improving the glass cleaning effect and efficiency. The spacing adjustment mechanism can also flexibly adjust the roller spacing between the two opposing cleaning rollers and the wiping rollers in the upper and lower cleaning roller groups, enabling the upper and lower cleaning roller groups to adapt to the cleaning operation of glass of different thicknesses, effectively improving the versatility and flexibility of the device, and greatly meeting the different needs of enterprises.
[0008] A further feature of this invention is that both the feeding conveying mechanism and the discharging conveying mechanism include a horizontal conveyor belt, the horizontal conveyor belt is connected by a drive roller and a tension roller respectively, the drive roller and the tension roller are rotatably connected to the conveying bracket respectively, and one end of the drive roller is connected to a drive motor fixed on the conveying bracket.
[0009] By adopting the above technical solution, the drive motors in the feeding and discharging mechanisms drive the drive rollers connected to them to rotate. When the drive rollers rotate, they drive the horizontal conveyor belt to rotate in a cycle, thereby driving the glass into or out of the cleaning mechanism. This enables the glass cleaning operation to be carried out continuously and automatically, without the need for manual loading and unloading, which further improves production efficiency, reduces labor costs, and realizes an efficient and stable glass cleaning process.
[0010] A further feature of this invention is that the spacing adjustment mechanism includes a first connecting rod and a second connecting rod. The middle parts of the first connecting rod and the second connecting rod are rotatably connected to the fixed support frame via a connecting shaft to form an X-shaped structure. The upper ends of the first connecting rod and the second connecting rod are slidably engaged with the cleaning roller and the wiping roller in the upper cleaning roller group through an oblong hole, respectively. The lower ends of the second connecting rod and the first connecting rod are slidably engaged with the cleaning roller and the wiping roller in the lower cleaning roller group through an oblong hole, respectively.
[0011] A further feature of this invention is that: two longitudinally parallel sliding grooves, namely, groove one and groove two, are provided on both sides of the fixed support frame; two sliders are provided in each of the sliding grooves; the cleaning rollers in the upper cleaning roller group and the lower cleaning roller group are rotatably connected to the two sliders in the sliding groove one; and the wiping rollers in the upper cleaning roller group and the lower cleaning roller group are rotatably connected to the two sliders in the sliding groove two.
[0012] A further feature of this invention is that the spacing adjustment mechanism further includes a spacing adjustment drive mechanism for driving the upper cleaning roller group and the lower cleaning roller group to move in opposite directions or in reverse. The spacing adjustment drive mechanism includes a bidirectional lead screw threadedly connected to two sliders in slide groove one or slide groove two. The two ends of the bidirectional lead screw are respectively rotatably connected to the top and bottom of slide groove one or slide groove two. One end of the bidirectional lead screw is connected to a lead screw drive motor fixed on a fixed support frame.
[0013] By adopting the above technical solution, when cleaning glass of different thicknesses is required, the control screw drive motor is started. After the screw drive motor starts, it drives the bidirectional screw to rotate, causing the two sliders threadedly connected to the bidirectional screw to slide in opposite directions along slide groove one or slide groove two. When the two sliders connected to the bidirectional screw slide in opposite directions, they drive the two oppositely arranged cleaning rollers or two oppositely arranged wiping rollers rotatably connected to them to move in opposite directions. This causes the ends of connecting rod one and connecting rod two to move closer or further away from each other. When the other ends of connecting rod one and connecting rod two move closer or further away from each other synchronously, they drive the two sliders in another slide groove and the two oppositely arranged wiping rollers or cleaning rollers rotatably connected to the two sliders to move in opposite directions until the distance between the cleaning rollers and wiping rollers in the upper cleaning roller group and the cleaning rollers and wiping rollers in the lower cleaning roller group matches the thickness of the glass to be cleaned. This ensures that the glass is subjected to uniform force during the cleaning process and avoids incomplete cleaning or glass damage due to improper spacing. This effectively improves the cleaning effect and equipment adaptability, and the structure is simple and easy to operate.
[0014] A further feature of this invention is that two sliders in the first and second slides on one side of the fixed support frame are each fixed with a cleaning drive motor, and the output shaft of the cleaning drive motor is respectively connected to the cleaning roller or wiping roller rotatably connected to the slider it is located on.
[0015] By adopting the above technical solution, each cleaning drive motor is used to drive each cleaning roller or wiping roller to rotate independently, thereby generating relative motion with the glass to be cleaned, which is beneficial to improving cleaning efficiency and cleaning effect.
[0016] A further feature of this invention is that the upper and lower cleaning roller groups are provided with spray pipes near the cleaning rollers, and multiple nozzles are evenly distributed on the spray pipes.
[0017] By adopting the above technical solution, the spray pipe is used to uniformly spray cleaning liquid onto the glass surface during the cleaning process, thereby enhancing the cleaning effect.
[0018] A further feature of this invention is that the surface of the cleaning roller is evenly covered with elastic bristles, and the surface of the wiping roller is covered with a wiping cloth made of a highly elastic absorbent material.
[0019] By adopting the above technical solutions, the elastic bristles can effectively remove stains and impurities from the glass surface, further improving the cleaning effect, while the water-wiping cloth, made of highly elastic absorbent material, can quickly absorb residual moisture, ensuring that the glass surface is dry and clean, avoiding water stains, and improving the overall cleaning quality.
[0020] A further feature of this invention is that the wiping roller is provided with Velcro, and the wiping cloth is detachably connected to the wiping roller via Velcro.
[0021] By adopting the above technical solution, the wiping cloth is detachably connected to the wiping roller with Velcro, making the replacement of the wiping cloth convenient and efficient. It can be disassembled or installed simply by tearing or sticking, which greatly improves maintenance efficiency.
[0022] The beneficial effects of this utility model are:
[0023] 1. This utility model enables simultaneous cleaning of both sides of the glass by having the upper and lower cleaning roller groups in the cleaning mechanism operate simultaneously. The cleaning rollers in the upper and lower cleaning roller groups are used to efficiently remove dirt from the glass surface, while the water wiping rollers quickly remove residual moisture to prevent secondary pollution, thus effectively improving the glass cleaning effect and efficiency.
[0024] 2. This utility model can flexibly adjust the roller spacing between the two opposing cleaning rollers and the wiping roller in the upper and lower cleaning roller groups through the spacing adjustment mechanism, so that the upper and lower cleaning roller groups can adapt to the cleaning operation of glass of different thicknesses, effectively improving the versatility and flexibility of the device and greatly meeting the different needs of enterprises.
[0025] 3. In this utility model, the drive motors in the feeding and discharging mechanisms drive the drive rollers connected to them to rotate. When the drive rollers rotate, they drive the horizontal conveyor belt to rotate in a cycle, thereby driving the glass into or out of the cleaning mechanism. This enables the glass cleaning operation to be carried out continuously and automatically, without the need for manual loading and unloading, which further improves production efficiency, reduces labor costs, and realizes an efficient and stable glass cleaning process.
[0026] 4. In this utility model, the wiping cloth on the wiping roller is detachably connected to the wiping roller with Velcro, making the replacement of the wiping cloth convenient and efficient. It can be disassembled or installed simply by tearing or sticking, which greatly improves maintenance efficiency. Attached Figure Description
[0027] To more clearly illustrate the technical solutions in 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.
[0028] Figure 1 This is a schematic diagram of the overall structure of a glass processing and cleaning device according to this utility model.
[0029] Figure 2 yes Figure 1 A magnified view of part A in the diagram.
[0030] Figure 3 This is a partial structural diagram of the spacing adjustment mechanism and the spacing adjustment drive mechanism in a glass processing and cleaning device of this utility model.
[0031] Figure 4 A cross-sectional structural diagram of a glass processing and cleaning device according to this utility model.
[0032] In the diagram, 1. Feeding conveyor mechanism; 11. Horizontal conveyor belt; 12. Drive roller; 13. Tension roller; 14. Conveyor support; 15. Drive motor; 2. Discharge conveyor mechanism; 3. Cleaning mechanism; 31. Upper cleaning roller group; 311. Cleaning roller; 312. Wiping roller; 32. Lower cleaning roller group; 4. Spacing adjustment mechanism; 41. Connecting rod one; 42. Connecting rod two; 43. Connecting shaft; 44. Waist-shaped elongated hole; 45. Slide 1; 46. Slide 2; 47. Sliding block; 48. Cleaning drive motor; 5. Fixed support frame; 6. Spacing adjustment drive mechanism; 61. Bidirectional lead screw; 62. Lead screw drive motor; 7. Spray pipe; 8. Nozzle. Detailed Implementation
[0033] The technical solution of this utility model will now be clearly and completely described with reference to specific embodiments. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.
[0034] like Figures 1-4As shown, a glass processing and cleaning device includes a feeding conveying mechanism 1 and a discharging conveying mechanism 2. A cleaning mechanism 3 is provided between the feeding conveying mechanism 1 and the discharging conveying mechanism 2. The cleaning mechanism 3 includes an upper cleaning roller group 31 and a lower cleaning roller group 32 for synchronously cleaning both sides of the glass. Both the upper cleaning roller group 31 and the lower cleaning roller group 32 include a cleaning roller 311 and a wiping roller 312 arranged horizontally and parallel to each other in sequence. The cleaning roller 311 and the wiping roller 312 in the upper cleaning roller group 31 and the lower cleaning roller group 32 correspond one-to-one. Both ends of the cleaning roller 311 and the wiping roller 312 in the upper cleaning roller group 31 and the lower cleaning roller group 32 are connected to a fixed support frame 5 through a spacing adjustment mechanism 4.
[0035] Furthermore, both the feeding conveying mechanism 1 and the discharging conveying mechanism 2 include a horizontal conveyor belt 11, which is connected by a drive roller 12 and a tension roller 13. The drive roller 12 and the tension roller 13 are rotatably connected to the conveying bracket 14, and one end of the drive roller 12 is connected to a drive motor 15 fixed on the conveying bracket 14.
[0036] Furthermore, the spacing adjustment mechanism 4 includes a first connecting rod 41 and a second connecting rod 42. The middle parts of the first connecting rod 41 and the second connecting rod 42 are rotatably connected to the fixed support frame 5 through a connecting shaft 43 to form an X-shaped structure. The upper ends of the first connecting rod 41 and the second connecting rod 42 are slidably engaged with the cleaning roller 311 and the wiping roller 312 in the upper cleaning roller group 31 through the waist-shaped elongated hole 44, respectively. The lower ends of the second connecting rod 42 and the first connecting rod 41 are slidably engaged with the cleaning roller 311 and the wiping roller 312 in the lower cleaning roller group 32 through the waist-shaped elongated hole 44, respectively.
[0037] Furthermore, the fixed support frame 5 is provided with two longitudinally parallel sliding grooves 45 and 46 on both sides. Each of the sliding grooves 45 and 46 is provided with two sliders 47. The cleaning rollers 311 in the upper cleaning roller group 31 and the lower cleaning roller group 32 are rotatably connected to the two sliders 47 in the sliding groove 45. The wiping rollers 312 in the upper cleaning roller group 31 and the lower cleaning roller group 32 are rotatably connected to the two sliders 47 in the sliding groove 46.
[0038] Furthermore, a cleaning drive motor 48 is fixedly installed on each of the two sliders 47 in the first slide groove 45 and the second slide groove 46 on one side of the fixed support frame 5. The output shaft of the cleaning drive motor 48 is connected to the cleaning roller 311 or the wiping roller 312 that is rotatably connected to the slider 47 on which it is located.
[0039] Furthermore, the spacing adjustment mechanism 4 also includes a spacing adjustment drive mechanism 6 for driving the upper cleaning roller group 31 and the lower cleaning roller group 32 to move in opposite directions or in reverse. The spacing adjustment drive mechanism 6 includes a bidirectional lead screw 61 that is threadedly connected to two sliders 47 in the first slide 45 or the second slide 46. The two ends of the bidirectional lead screw 61 are rotatably connected to the top and bottom of the first slide 45 or the second slide 46, respectively. One end of the bidirectional lead screw 61 is connected to a lead screw drive motor 62 fixed on the fixed support frame 5.
[0040] Furthermore, the upper cleaning roller group 31 and the lower cleaning roller group 32 are provided with a spray pipe 7 at the upper end of the cleaning roller 311 near the cleaning roller 311, and a plurality of nozzles 8 are evenly distributed on the spray pipe 7.
[0041] Furthermore, the surface of the cleaning roller 311 is evenly covered with elastic bristles, and the surface of the wiping roller 312 is covered with a wiping cloth made of highly elastic absorbent material.
[0042] Furthermore, the wiping roller 312 is provided with Velcro, and the wiping cloth is detachably connected to the wiping roller 312 via Velcro.
[0043] The working principle of this utility model is as follows: The glass to be cleaned is conveyed to the cleaning mechanism 3 through the feeding conveyor 1. The cleaning roller 311 and the water wiping roller 312 in the upper cleaning roller group 31 and the lower cleaning roller group 32 of the cleaning mechanism 3 rotate under the drive of the cleaning drive motor 48. At the same time, the cleaning liquid sprayed from the spray pipe 7 evenly covers the glass surface. The cleaning roller 311 effectively removes stains with its elastic bristles, and the water wiping roller 312 quickly absorbs moisture with its water wiping cloth to ensure that the glass surface is clean and dry. After the glass has completely passed through the cleaning mechanism 3, it is smoothly delivered out by the discharge conveyor 2. The entire cleaning process is efficient and automated, which greatly improves the quality and efficiency of glass cleaning.
[0044] When cleaning glass of different thicknesses is required, the control screw drive motor 62 is started. After starting, the screw drive motor 62 drives the bidirectional screw 61 to rotate, causing the two sliders 47, which are threaded to the bidirectional screw 61, to slide in opposite directions along the first slide groove 45 or the second slide groove 46. When the two sliders 47 connected to the bidirectional screw 61 slide in opposite directions, they drive the two oppositely arranged cleaning rollers 311 or two oppositely arranged wiping rollers 312, which are rotatably connected to them, to move in opposite directions. This causes the connecting rods 41 and 42 to move closer to or further away from their rotatably connected ends. When the other end of the connecting rod 42 moves closer or further away from each other, it drives the two sliders 47 in the other slide groove and the two oppositely arranged wiping rollers 312 or cleaning rollers 311 that are rotatably connected to the two sliders 47 to move towards or in opposite directions until the distance between the cleaning rollers 311 and wiping rollers 312 in the upper cleaning roller group 31 and the cleaning rollers 311 and wiping rollers 312 in the lower cleaning roller group 32 matches the thickness of the glass to be cleaned. This ensures that the glass is subjected to uniform force during the cleaning process and avoids incomplete cleaning or glass damage due to improper spacing. This effectively improves the cleaning effect and equipment adaptability, and the structure is simple and easy to operate.
Claims
1. A glass processing cleaning apparatus, characterized by: The system includes a feeding conveyor (1) and a discharging conveyor (2). A cleaning mechanism (3) is provided between the feeding conveyor (1) and the discharging conveyor (2). The cleaning mechanism (3) includes an upper cleaning roller group (31) and a lower cleaning roller group (32) for synchronously cleaning both sides of the glass. Both the upper cleaning roller group (31) and the lower cleaning roller group (32) include a cleaning roller (311) and a wiping roller (312) arranged horizontally and parallel in sequence. The cleaning roller (311) and the wiping roller (312) in the upper cleaning roller group (31) and the lower cleaning roller group (32) correspond one-to-one. Both ends of the cleaning roller (311) and the wiping roller (312) in the upper cleaning roller group (31) and the lower cleaning roller group (32) are connected to a fixed support frame (5) through a spacing adjustment mechanism (4).
2. A glass processing cleaning apparatus as in claim 1, wherein: Both the feeding conveyor (1) and the discharging conveyor (2) include a horizontal conveyor belt (11). The horizontal conveyor belt (11) is connected by a drive roller (12) and a tension roller (13). The drive roller (12) and the tension roller (13) are rotatably connected to the conveying bracket (14). One end of the drive roller (12) is connected to a drive motor (15) fixed on the conveying bracket (14).
3. The glass processing cleaning apparatus of claim 1, wherein: The spacing adjustment mechanism (4) includes a first connecting rod (41) and a second connecting rod (42). The middle part of the first connecting rod (41) and the second connecting rod (42) are rotatably connected to the fixed support frame (5) through a connecting shaft (43) to form an X-shaped structure. The upper ends of the first connecting rod (41) and the second connecting rod (42) are respectively slidably engaged with the cleaning roller (311) and the wiping roller (312) in the upper cleaning roller group (31) through the waist-shaped elongated hole (44). The lower ends of the second connecting rod (42) and the first connecting rod (41) are respectively slidably engaged with the cleaning roller (311) and the wiping roller (312) in the lower cleaning roller group (32) through the waist-shaped elongated hole (44).
4. A glass processing washing apparatus as claimed in claim 3, characterized in that: The fixed support frame (5) is provided with two longitudinally parallel sliding grooves 1 (45) and 2 (46) on both sides. Each of the sliding grooves 1 (45) and 2 (46) is provided with two sliders (47). The cleaning rollers (311) in the upper cleaning roller group (31) and the lower cleaning roller group (32) are rotatably connected to the two sliders (47) in the sliding groove 1 (45). The wiping rollers (312) in the upper cleaning roller group (31) and the lower cleaning roller group (32) are rotatably connected to the two sliders (47) in the sliding groove 2 (46).
5. A glass processing washing apparatus as claimed in claim 4, wherein: The spacing adjustment mechanism (4) further includes a spacing adjustment drive mechanism (6) for driving the upper cleaning roller group (31) and the lower cleaning roller group (32) to move in opposite directions or in the opposite direction. The spacing adjustment drive mechanism (6) includes a bidirectional lead screw (61) threadedly connected to two sliders (47) in the first slide (45) or the second slide (46). The two ends of the bidirectional lead screw (61) are rotatably connected to the top and bottom of the first slide (45) or the second slide (46), respectively. One end of the bidirectional lead screw (61) is connected to a lead screw drive motor (62) fixed on the fixed support frame (5).
6. A glass processing washing apparatus as claimed in claim 5, wherein: Cleaning drive motors (48) are fixedly installed on the two sliders (47) in the first slide (45) and the second slide (46) on one side of the fixed support frame (5). The output shaft of the cleaning drive motor (48) is connected to the cleaning roller (311) or the wiping roller (312) that is rotatably connected to the slider (47) where it is located.
7. The glass processing washing apparatus of claim 1, wherein: The upper cleaning roller group (31) and the lower cleaning roller group (32) are located near the cleaning roller (311). The upper end of the cleaning roller (311) is also provided with a spray pipe (7), and multiple nozzles (8) are evenly distributed on the spray pipe (7).
8. The glass processing washing apparatus of claim 1, wherein: The surface of the cleaning roller (311) is evenly covered with elastic bristles, and the surface of the wiping roller (312) is covered with a wiping cloth made of highly elastic absorbent material.
9. A glass processing washing apparatus as claimed in claim 8, wherein: The wiping roller (312) is provided with Velcro, and the wiping cloth is detachably connected to the wiping roller (312) via Velcro.