An AG glass cutting and cleaning device

By designing a combination of adsorption, clamping, moving, cutting, and vibration mechanisms, the problems of poor flexibility and inconvenient debris cleaning in AG glass cutting equipment have been solved, enabling multi-directional cutting and automatic cleaning, thus improving the equipment's applicability and work efficiency.

CN224426038UActive Publication Date: 2026-06-30SHENZHEN RUIGUAN PHOTOELECTRIC GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN RUIGUAN PHOTOELECTRIC GLASS CO LTD
Filing Date
2025-04-29
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing AG glass cutting equipment has poor flexibility during cutting and limited cutting edges, resulting in a narrow range of applications. Furthermore, the debris generated during the cutting process is difficult to clean, affecting work efficiency.

Method used

An AG glass cutting and cleaning device has been designed, comprising an adsorption unit, a clamping unit, a moving mechanism, a cutting unit, a linkage mechanism, and a vibration mechanism. The adsorption unit cleans up debris, the clamping unit fixes the glass, the moving mechanism and the linkage mechanism enable multi-directional cutting, and the vibration mechanism cleans up debris, thus achieving multi-directional cutting and automatic cleaning.

Benefits of technology

It enables flexible cutting of glass of different sizes and automatic debris removal, improving the equipment's applicability and work efficiency, and reducing the need for manual cleaning.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224426038U_ABST
    Figure CN224426038U_ABST
Patent Text Reader

Abstract

This utility model discloses an AG glass cutting and cleaning device, comprising: a worktable, symmetrically arranged material collection troughs on the worktable, an adsorption part in each of the material collection troughs, guide rails on the front and rear sides of the worktable, a movable frame movably inserted between the guide rails, a placement plate movably arranged within the movable frame, a clamping part on the movable frame, a slide rail on the front side of the worktable, a telescopic rod movably inserted on the slide rail, a horizontal plate fixedly fixed at the upper end of the telescopic rod, a cutting part movably arranged on the horizontal plate, a moving mechanism below the slide rail that can drive the telescopic rod to move along the slide rail, and a driving mechanism on the rear side of the worktable that can drive the movable frame to move laterally. Compared with the prior art, it can be used for cutting glass of different sizes and can adsorb and clean debris.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of glass cutting technology, and in particular to an AG glass cutting and cleaning device. Background Technology

[0002] AG anti-glare glass products are made through a special chemical process that transforms the original reflective surface of the glass into a matte, diffuse reflective surface. This blurs the reflective effect, prevents glare, reduces reflectivity, and minimizes shadows. The anti-glare product surface has strong anti-corrosion and scratch-resistant properties. Currently, AG anti-glare glass is widely used in touch screens, TV video walls, flat-panel TVs, rear-projection TVs, LCD monitors, touch screens, industrial instruments, and high-end picture frames.

[0003] In existing technologies, the cutting movement direction is relatively simple when cutting the edges and corners of AG glass, resulting in poor equipment flexibility. This limits the applicable range, and the cutting platform generates a lot of debris, which affects the placement and cutting of the glass. Therefore, it requires constant manual cleaning, which is very inconvenient and affects the work speed. Summary of the Invention

[0004] The purpose of this utility model is to provide an AG glass cutting and cleaning device that can solve at least one of the above-mentioned technical problems. The technical solution of this utility model is as follows:

[0005] An AG glass cutting and cleaning device includes: a worktable with symmetrically arranged material collection troughs on the worktable, an adsorption unit in each of the material collection troughs, guide rails on the front and rear sides of the worktable, a movable frame movably connected between the guide rails, a placement plate movably arranged within the movable frame, a clamping unit on the movable frame, a slide rail on the front side of the worktable, a telescopic rod movably connected to the slide rail, a horizontal plate fixedly fixed at the upper end of the telescopic rod, a cutting unit movably arranged on the horizontal plate, a moving mechanism below the slide rail that can drive the telescopic rod to move along the slide rail, a driving mechanism on the rear side of the worktable that can drive the movable frame to move laterally, a linkage mechanism on the telescopic rod that can drive the telescopic rod to extend and retract while simultaneously driving the cutting unit to move laterally, and vibration mechanisms on the left and right sides of the movable frame that can drive the placement plate to move up and down reciprocally.

[0006] Furthermore, the adsorption unit is fixedly installed in the partitions of each of the collection troughs, and multiple troughs are provided at intervals on each of the partitions. A funnel is installed under each of the partitions and a connecting pipe is provided in the middle of the lower part of each funnel.

[0007] Furthermore, the clamping part includes through slots spaced apart on the placement plate, guide rods symmetrically fixed on the left side of the placement plate, a support plate connected and fixed above each guide rod, a lower pressure plate movably inserted between each guide rod, pressure adhesive fixed below the lower pressure plate, and a lowering mechanism that can drive the lower pressure plate to move downward on the rear side of the support plate.

[0008] Furthermore, the cutting section includes an insertion rail disposed below the horizontal plate, a slider movably inserted into the insertion rail, a glass cutter fixed below the slider, and a clearance groove provided in the middle of the horizontal plate.

[0009] Furthermore, the moving mechanism includes a rack fixed to one side below the telescopic rod, a long groove provided below the slide rail, a first motor fixed to the front side of the worktable, and a first spur gear that can mesh with the rack fixed at the output end of the first motor and through the long groove. The rack passes through the slide rail.

[0010] Furthermore, the drive mechanism includes a second motor fixed to the rear side of the worktable, a first screw fixed to the output end of the second motor, and a first threaded sleeve that can be threadedly engaged with the first screw fixed in the middle of the rear side of the movable frame.

[0011] Furthermore, the linkage mechanism includes a second threaded sleeve fixed to the telescopic end of the telescopic rod, a third motor fixed to the front side of the slide rail, a second screw that can be threadedly engaged with the second threaded sleeve fixed to the output end of the third motor, a fourth motor fixed to the front side above the horizontal plate, a third screw fixed to the output end of the fourth motor, and a third threaded sleeve that can be threadedly engaged with the third screw fixed above the slider and through the clearance groove.

[0012] Furthermore, the vibration mechanism includes a waist-shaped groove that runs through the left and right sides of the movable frame, and insert shafts that are movably disposed in the waist-shaped grooves are fixed on the left and right sides of the placement plate. Each insert shaft has a guide groove fixed at its end. A fifth motor is fixed on the left and right sides of each movable frame, and a rotating disk is fixed at the output end of each fifth motor. An eccentric shaft that can be disposed in the guide groove is fixed on one side of the periphery of each rotating disk.

[0013] Furthermore, the pressing mechanism includes a support plate with a central groove in the middle of the support plate, an obliquely spaced long groove above the pressing plate, the long groove being disposed within the central groove, symmetrically arranged guide rails above the support plate, U-shaped sliding blocks being movably inserted between each guide rail, a threaded hole being provided on the right side of the U-shaped sliding block, a sixth motor being fixed on the rear side of the support plate, a fourth screw being fixed at the output end of the sixth motor that can threadedly engage with the threaded hole, and a shaft being provided on the left side of the U-shaped sliding block, the shaft being movably disposed within the long groove.

[0014] In summary, the advantages of this utility model over the prior art are:

[0015] This invention provides an AG glass cutting and cleaning device. In use, the adsorption unit first adsorbs and removes dust and debris from the placement plate. Then, the user places the AG glass on the placement plate, and the clamping unit holds the AG glass in place. At this time, a drive mechanism moves the moving frame laterally, causing it to move along the guide rail to below the cutting unit. During cutting, a linkage mechanism moves the cutting unit downwards onto the AG glass. Simultaneously, the linkage mechanism can also move the cutting unit back and forth for cutting. The moving mechanism drives the telescopic rod to move along the slide rail, causing the cutting unit to move left and right for cutting. After cutting, the user removes the cut AG glass. Simultaneously, a vibration mechanism moves the placement plate up and down repeatedly, causing the debris on the placement plate to fall onto the adsorption unit. Compared with existing technologies, this device is suitable for cutting glass of different sizes and can effectively adsorb and clean debris. Attached Figure Description

[0016] Figure 1 This is one of the three-dimensional schematic diagrams of this utility model.

[0017] Figure 2 This is the second three-dimensional schematic diagram of the present invention.

[0018] Figure 3 This is a half-sectional schematic diagram of the present invention.

[0019] Figure 4 This is one of the exploded schematic diagrams of this utility model.

[0020] Figure 5 This is the second exploded view of the present invention.

[0021] Figure 6 This utility model Figure 4 Enlarged schematic diagram at point A-1.

[0022] Explanation of reference numerals in the attached drawings: 1. Workbench; 2. Collection trough; 3. Adsorption section; 4. Guide rail; 5. Moving frame; 6. Placement plate; 7. Clamping section; 8. Slide rail; 9. Telescopic rod; 10. Horizontal plate; 11. Cutting section; 100. Moving mechanism; 200. Drive mechanism; 300. Linkage mechanism; 400. Vibration mechanism; 31. Partition plate; 32. Slot; 33. Funnel; 34. Connecting pipe; 71. Through slot; 72. Guide rod; 73. Support plate; 74. Lower pressure plate; 75. Pressing adhesive; 76. Lower pressure mechanism; 111. Insertion rail; 112. Slider; 113. Glass cutter; 114. Clearance slot; 101. Rack; 102. Long slot; 103, First motor; 104, First spur gear; 201, Second motor; 202, First screw; 203, First threaded sleeve; 301, Second threaded sleeve; 302, Third motor; 303, Second screw; 304, Fourth motor; 305, Third screw; 306, Third threaded sleeve; 401, Waist-shaped slot; 402, Insert shaft; 403, Guide slot; 404, Fifth motor; 405, Rotating disk; 406, Eccentric shaft; 761, Middle slot; 762, Long slot sleeve; 763, Guide rail; 764, U-shaped sliding block; 765, Threaded hole; 766, Sixth motor; 767, Fourth screw; 768, Shaft body. Detailed Implementation

[0023] The present invention will be further described below with reference to the accompanying drawings and specific embodiments:

[0024] like Figures 1 to 6 An AG glass cutting and cleaning device is shown, characterized in that it includes: a worktable 1, on which symmetrically arranged material collection troughs 2 are provided, each of the material collection troughs 2 is provided with an adsorption part 3, guide rails 4 are provided on the front and rear sides of the worktable 1, a movable frame 5 is movably inserted between each of the guide rails 4, a placement plate 6 is movably arranged within the movable frame 5, a clamping part 7 is provided on the movable frame 5, a slide rail 8 is provided on the front side of the worktable 1, a telescopic rod 9 is movably inserted on the slide rail, a horizontal plate 10 is fixedly fixed at the upper end of the telescopic rod 9, a cutting part 11 is movably arranged on the horizontal plate 10, a moving mechanism 100 is provided below the slide rail 8 to drive the telescopic rod 9 to move along the slide rail 8, a driving mechanism 200 is provided on the rear side of the worktable 1 to drive the movable frame 5 to move laterally, a linkage mechanism 300 is provided on the telescopic rod 9 to drive the telescopic rod 9 to extend and retract while simultaneously driving the cutting part 11 to move laterally, and a vibration mechanism 400 is provided on the left and right sides of the movable frame 5 to drive the placement plate 6 to move up and down reciprocally.

[0025] The above-described AG glass cutting and cleaning device, in its use, first uses the adsorption unit 3 to adsorb and remove dust and debris from the placement plate 6. Then, the user places the AG glass on the placement plate 6, and the clamping unit 7 clamps the AG glass onto the placement plate 6. At this time, the drive mechanism 200 drives the moving frame 5 to move laterally, so that the moving frame 5 moves along the guide rail 4 to below the cutting unit 11. During cutting, the linkage mechanism 300 drives the cutting unit 11 to move downward onto the AG glass. The linkage mechanism 300 can also drive the cutting unit 11 to move back and forth to cut. The moving mechanism 100 drives the telescopic rod 9 to move along the slide rail 8, so that the cutting unit 11 moves left and right to cut. After cutting, the user takes out the cut AG glass. At the same time, the vibration mechanism 400 drives the placement plate 6 to move up and down repeatedly, so that the debris on the placement plate 6 is shaken off onto the adsorption unit 3. Compared with the prior art, it can be used for cutting glass of different sizes and can adsorb and clean debris.

[0026] like Figure 3 and 4 As shown, in some embodiments of this utility model, the adsorption part 3 is fixedly installed in the partition 31 of each of the collection tanks 2. Multiple slots 32 are provided at intervals on each of the partitions 31. A funnel 33 is installed under each of the partitions 31. A connecting pipe 34 is provided in the middle of the lower part of each of the funnels 33. The connecting pipe 34 is connected to an external vacuum pump, so that the connecting pipe 34 adsorbs dust and debris on the partition 31 through the funnel 33. The slots 32 on the partition 31 allow dust and debris to pass through.

[0027] like Figure 1 , 4 As shown in Figure 5, in some embodiments of this utility model, the clamping part 7 includes through slots 71 spaced apart on the placement plate 6, guide rods 72 are symmetrically fixed on the left side of the placement plate 6, support plates 73 are connected and fixed above each guide rod 72, a lower pressure plate 74 is movably inserted between each guide rod 72, a pressure adhesive 75 is fixed below the lower pressure plate 74, and a lowering mechanism 76 is provided on the rear side of the support plate 73 to drive the lower pressure plate 74 to move downward. The lower pressure plate 74 is driven to move downward by the lower pressure mechanism 76, so that the lower pressure plate 74 moves downward. When the lower pressure plate 74 moves downward, it drives the pressure adhesive 75 to move towards the glass and clamps the glass on the placement plate 6.

[0028] like Figure 4As shown, in some embodiments of this utility model, the cutting part 11 includes an insertion rail 111 disposed below the horizontal plate 10, a slider 112 is movably inserted into the insertion rail 111, a glass cutter 113 is fixed below the slider 112, and a clearance groove 114 is provided in the middle of the horizontal plate 10. When the linkage mechanism 300 is driven, the slider 112 is driven to move along the insertion rail 111, so that the glass cutter 113 cuts the glass. When the moving mechanism 100 is driven, the glass cutter moves to the required cutting gap distance.

[0029] like Figure 4 As shown, in some embodiments of this utility model, the moving mechanism 100 includes a rack 101 fixed to one side below the telescopic rod 9, a long groove 102 provided below the slide rail 8, a first motor 103 fixed to the front side of the worktable 1, and a first spur gear 104 that can mesh with the rack 101 fixed at the output end of the first motor 103 and through the long groove 102. The rack 101 is disposed through the slide rail 8, and the first motor 103 drives the first spur gear 104 to rotate, so that the first spur gear 104 passes through the long groove 102 and drives the rack 101 to move. At the same time as the rack 101 moves, it drives the telescopic rod 9 to move along the slide rail 8.

[0030] like Figure 4 As shown, in some embodiments of this utility model, the driving mechanism 200 includes a second motor 201 fixed to the rear side of the worktable 1, a first screw 202 fixed to the output end of the second motor 201, and a first threaded sleeve 203 that can be threadedly engaged with the first screw 202 fixed to the middle of the rear side of the movable frame 5. The second motor 201 drives the first screw 202 to rotate, so that the first screw 202 drives the movable frame 5 to move along the guide rail 4 through the first threaded sleeve 203.

[0031] like Figure 4 As shown, in some embodiments of this utility model, the linkage mechanism 300 includes a second threaded sleeve 301 fixed to the telescopic end of the telescopic rod 9, a third motor 302 fixed to the front side of the slide rail 8, a second screw 303 that can be threadedly engaged with the second threaded sleeve 301 fixed to the output end of the third motor 302, a fourth motor 304 fixed to the front side above the horizontal plate 10, a third screw 305 fixed to the output end of the fourth motor 304, and a third threaded sleeve 306 that can be threadedly engaged with the third screw 305 fixed above the slider 112 and passing through the clearance groove 114. The second screw 303 is driven to rotate by the third motor 302, so that the second screw 303 drives the telescopic rod 9 to telescopically move through the second threaded sleeve 301. At the same time, the third screw 305 is driven to rotate by the fourth motor 304, and the third screw 305 drives the slider 112 to move along the insertion rail 111 through the third threaded sleeve 306.

[0032] like Figure 4 and 6 As shown, in some embodiments of this utility model, the vibration mechanism 400 includes a waist-shaped groove 401 that runs through the left and right sides of the movable frame 5. Insert shafts 402, movably disposed within the waist-shaped grooves 401, are fixed on the left and right sides of the placement plate 6. Each insert shaft 402 has a guide groove 403 fixed at its end. A fifth motor 404 is fixed on each of the left and right sides of the movable frame 5. A rotating disk 405 is fixed at the output end of each of the fifth motors 404. An eccentric shaft 406, which can be disposed within the guide groove 403, is fixed on one side of the periphery of each rotating disk 405. The fifth motor 404 drives the rotating disk 405 to rotate, causing the rotating disk 405 to drive the guide groove 403 to swing up and down reciprocally via the eccentric shaft 406. Then, the guide groove 403 drives the insert shafts 402 to move reciprocally along the waist-shaped grooves 401, while the insert shafts 402 simultaneously drive the placement plate 6 to move up and down reciprocally.

[0033] like Figure 4 and 5 As shown, in some embodiments of this utility model, the pressing mechanism 76 includes a support plate 73 with a central groove 761 in the middle of the support plate 73, an obliquely spaced elongated groove 762 above the pressing plate 74, the elongated groove 762 being disposed within the central groove 761, symmetrically arranged guide rails 763 above the support plate 73, and U-shaped sliding blocks 764 being movably inserted between each guide rail 763. A threaded hole 765 is provided on the right side of the U-shaped sliding block 764, and a sixth motor 766 is fixed to the rear side of the support plate 73. A threaded hole 765 is fixed to the output end of the sixth motor 766 and can be threaded to the threaded hole 765. The fourth screw 767 is connected to the U-shaped sliding block 764 and has a shaft 768 on the left side. The shaft 768 is movably disposed in the sleeved long groove 762. The sixth motor 766 drives the fourth screw 767 to rotate, so that the fourth screw 767 drives the U-shaped sliding block 764 to move through the threaded hole 765. When the U-shaped sliding block 764 moves, the shaft 768 on it moves along the sleeved long groove 762. When the sleeved long groove 762 is displaced, the empty slot on the U-shaped sliding block 764 and the sleeved long groove 762 are separated, so that the sleeved long groove 762 moves downward, and at the same time, the lower pressure plate 74 is driven to move downward within the sleeved long groove 762.

[0034] The foregoing has shown and described the basic principles and main features of this utility model, as well as its advantages. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are only illustrative of the principles of this utility model. Various changes and modifications may be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of this utility model as claimed.

Claims

1. An AG glass cutting and cleaning device, characterized in that, include: A workbench (1) is provided with symmetrically arranged material collection troughs (2), each material collection trough (2) is provided with an adsorption part (3), guide rails (4) are provided on the front and rear sides of the workbench (1), a movable frame (5) is movably inserted between each guide rail (4), a placement plate (6) is movably arranged in the movable frame (5), a clamping part (7) is provided on the movable frame (5), a slide rail (8) is provided on the front side of the workbench (1), a telescopic rod (9) is movably inserted on the slide rail, and a horizontal plate is fixedly fixed at the upper end of the telescopic rod (9). 10), a cutting part (11) is movably provided on the horizontal plate (10), a moving mechanism (100) is provided below the slide rail (8) to drive the telescopic rod (9) to move along the slide rail (8), a driving mechanism (200) is provided on the rear side of the worktable (1) to drive the moving frame (5) to move laterally, a linkage mechanism (300) is provided on the telescopic rod (9) to drive the telescopic rod (9) to move in extension and retraction and drive the cutting part (11) to move laterally, and a vibration mechanism (400) is provided on the left and right sides of the moving frame (5) to drive the placement plate (6) to move up and down reciprocally.

2. The AG glass cutting and cleaning equipment according to claim 1, characterized in that... The adsorption unit (3) is fixedly installed in the partition (31) of each of the collection tanks (2). Multiple slots (32) are provided at intervals on each of the partitions (31). A funnel (33) is installed under each of the partitions (31). A connecting pipe (34) is provided in the middle of the lower part of each funnel (33).

3. The AG glass cutting and cleaning equipment according to claim 1, characterized in that... The clamping part (7) includes through slots (71) spaced apart on the placement plate (6), guide rods (72) are symmetrically fixed on the left side of the placement plate (6), support plates (73) are connected and fixed above each guide rod (72), lower pressure plates (74) are movably inserted between each guide rod (72), pressure adhesive (75) is fixed below the lower pressure plate (74), and a pressing mechanism (76) that can drive the lower pressure plate (74) to move downward is provided on the rear side of the support plate (73).

4. The AG glass cutting and cleaning equipment according to claim 1, characterized in that... The cutting section (11) includes a connecting rail (111) located below the horizontal plate (10), a slider (112) is movably connected to the connecting rail (111), a glass cutter (113) is fixed below the slider (112), and a clearance groove (114) is provided in the middle of the horizontal plate (10).

5. An AG glass cutting and cleaning device according to claim 1, characterized in that... The moving mechanism (100) includes a rack (101) fixed on one side below the telescopic rod (9), a long groove (102) provided below the slide rail (8), a first motor (103) fixed on the front side of the worktable (1), and a first spur gear (104) that can mesh with the rack (101) fixed at the output end of the first motor (103) and through the long groove (102). The rack (101) is set through the slide rail (8).

6. The AG glass cutting and cleaning equipment according to claim 1, characterized in that... The drive mechanism (200) includes a second motor (201) fixed on the rear side of the worktable (1), a first screw (202) fixed at the output end of the second motor (201), and a first threaded sleeve (203) that can be threadedly engaged with the first screw (202) fixed in the middle of the rear side of the moving frame (5).

7. An AG glass cutting and cleaning device according to claim 4, characterized in that... The linkage mechanism (300) includes a second threaded sleeve (301) fixed to the telescopic end of the telescopic rod (9), a third motor (302) fixed to the front side of the slide rail (8), a second screw (303) that can be threadedly engaged with the second threaded sleeve (301) fixed to the output end of the third motor (302), a fourth motor (304) fixed to the front side above the horizontal plate (10), a third screw (305) fixed to the output end of the fourth motor (304), and a third threaded sleeve (306) that can be threadedly engaged with the third screw (305) fixed above the slider (112) and through the clearance groove (114).

8. An AG glass cutting and cleaning device according to claim 1, characterized in that... The vibration mechanism (400) includes a waist-shaped groove (401) that runs through the left and right sides of the movable frame (5). Insert shafts (402) that are movably disposed in the waist-shaped grooves (401) are fixed on the left and right sides of the placement plate (6). A guide groove (403) is fixed at the end of each insert shaft (402). A fifth motor (404) is fixed on the left and right sides of each movable frame (5). A rotating disk (405) is fixed at the output end of each fifth motor (404). An eccentric shaft (406) that can be disposed in the guide groove (403) is fixed on one side of the periphery of each rotating disk (405).

9. An AG glass cutting and cleaning device according to claim 3, characterized in that... The pressing mechanism (76) includes a support plate (73) with a central groove (761) in the middle of the support plate (73), a long slot (762) obliquely provided above the pressing plate (74), the long slot (762) being located in the central groove (761), guide rails (763) symmetrically provided above the support plate (73), U-shaped sliding blocks (764) movably inserted between each of the guide rails (763), a threaded hole (765) provided on the right side of the U-shaped sliding block (764), a sixth motor (766) fixed on the rear side of the support plate (73), a fourth screw (767) fixed at the output end of the sixth motor (766) that can thread with the threaded hole (765), and a shaft (768) provided on the left side of the U-shaped sliding block (764), the shaft (768) being movably located in the long slot (762).