A press edge device for processing laminated glass

Abstract

The utility model relates to the field of laminated glass processing technology, concretely to a kind of laminated glass processing edge pressing device, including workbench, edge pressing mechanism and turnover clamping structure being arranged on workbench, edge pressing mechanism and turnover clamping structure are used in cooperation, turnover clamping structure includes first electric push rod, first U-shaped carriage, clamping assembly and turnover assembly;First electric push rod is vertically arranged in workbench bottom, first U-shaped carriage both sides vertical wall is connected with the vertical sliding of workbench both sides and is connected with first electric push rod output shaft, clamping assembly and turnover assembly are both provided with two and respectively symmetrically arranged on the both sides vertical wall upper end of first U-shaped carriage, turnover assembly and clamping assembly transmission connection drive clamping assembly overturning. It can be adjusted to the position parallel to workbench after once clamping, without multiple handling and positioning. Only need to repeat corresponding operation steps, laminated glass all edge edge pressing work can be completed, shorten production time, improve production progress.

Description

Technical Field

[0001] This utility model relates to the field of laminated glass processing technology, specifically to a laminated glass processing edge pressing device. Background Technology

[0002] In the processing of laminated glass, edge pressing is a crucial step that directly impacts the quality and performance of the laminated glass. However, existing edge pressing equipment typically only presses one side of the laminated glass before manually moving and repositioning the glass to press the next side. This method is time-consuming and labor-intensive when processing multiple sides, severely impacting production schedules. Utility Model Content

[0003] The purpose of this invention is to provide a laminar glass processing edge pressing device to solve the problem mentioned in the background art that existing edge pressing equipment can only press the next side after repositioning after pressing one side of the laminar glass.

[0004] To achieve the above objectives, this utility model provides the following technical solution: a laminated glass processing edge pressing device, comprising a worktable, an edge pressing mechanism disposed on the worktable, and a flipping clamping structure, wherein the edge pressing mechanism and the flipping clamping structure are used in conjunction, and the flipping clamping structure comprises a first electric push rod, a first U-shaped slide, a clamping assembly, and a flipping assembly; the first electric push rod is vertically disposed at the bottom of the worktable, and the two vertical walls of the first U-shaped slide are vertically slidably connected to the two sides of the worktable and connected to the output shaft of the first electric push rod; two clamping assemblies and two flipping assemblies are provided and symmetrically disposed on the upper ends of the two vertical walls of the first U-shaped slide; the flipping assembly and the clamping assembly are driven by a transmission connection to drive the clamping assembly to flip.

[0005] Furthermore, the clamping assembly includes a turntable rotatably connected to the upper end of the vertical wall of the first U-shaped carriage, a screw threadedly connected to the turntable, a limiting rod slidably connected to the turntable, and a clamping plate disposed at the end of the limiting rod; the clamping plate is rotatably connected to the end of the screw, and a suction cup is provided on the clamping plate.

[0006] Furthermore, the flipping assembly includes a first motor located at the upper end of the vertical wall of the first U-shaped carriage and below the turntable, and a drive gear connected to the output shaft of the first motor; a driven gear is provided on one side of the turntable, and the drive gear and the driven gear mesh with each other.

[0007] Furthermore, the pressing mechanism includes a second U-shaped carriage slidably disposed along the length of the worktable, two pressing components symmetrically disposed on the two vertical arms of the second U-shaped carriage, and a driving component disposed at the bottom of the worktable; the driving component is connected to the second U-shaped carriage in a transmission manner to drive the second U-shaped carriage to move along the length of the worktable.

[0008] Furthermore, the pressing assembly includes a second electric push rod horizontally disposed on the vertical wall of the second U-shaped carriage, a C-shaped frame located on one side of the vertical wall of the second U-shaped carriage and connected to the output shaft of the second electric push rod, and a pressure roller rotatably connected to the C-shaped frame.

[0009] Furthermore, the drive assembly includes a second motor located on one side of the worktable and a lead screw rotatably connected along the length of the worktable and located at the bottom of the worktable; the output shaft of the second motor is connected to the lead screw, and the lead screw is threadedly connected to the second U-shaped carriage.

[0010] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0011] 1. This utility model features a flip-clamping structure. Through the coordinated operation of the first electric push rod, the first U-shaped slide, the clamping assembly, and the flipping assembly, the clamping and flipping operations of laminated glass can be automatically completed. When it is necessary to press different sides of the laminated glass, there is no need for manual handling and repositioning of the glass, reducing the labor intensity of operators.

[0012] The drive component in the edge-pressing mechanism can move the edge-pressing component along the length of the worktable to automatically press the edges of the laminated glass. By controlling the forward and reverse rotation of the second motor, the pressure roller can move back and forth on the glass side, improving the edge-pressing effect while reducing manual intervention and increasing production efficiency.

[0013] 2. The clamping assembly of this utility model is equipped with suction cups on the clamping plate, which can firmly clamp the laminated glass and prevent the glass from shifting during the pressing process. At the same time, the pressure roller in the pressing assembly, driven by the second electric push rod, can press against the side of the glass with stable pressure, ensuring uniform pressure during the pressing process. This makes the pressing of each side of the laminated glass tighter, effectively reducing the generation of air bubbles and other problems, and ensuring the quality and performance of the laminated glass.

[0014] 3. This utility model, through the flipping function of the flipping clamping structure, can adjust different sides of the laminated glass to a position parallel to the worktable after a single clamping, eliminating the need for multiple manual handling and positioning. Simply repeating the corresponding operation steps completes the edge pressing work on all edges of the laminated glass, shortening production time and improving production progress. Attached Figure Description

[0015] Figure 1 This is a structural diagram of the present invention;

[0016] Figure 2 This is a bottom view of the present invention.

[0017] In the picture:

[0018] 1. Worktable; 2. First electric actuator; 3. First U-shaped carriage; 4. Turntable; 5. Screw; 6. Clamping plate; 7. Suction cup; 8. First motor; 9. Drive gear; 10. Driven gear; 11. Second U-shaped carriage; 12. Second electric actuator; 13. C-shaped frame; 14. Pressure roller; 15. Second motor; 16. Lead screw; 17. Limiting rod. Detailed Implementation

[0019] Please see Figures 1 to 2 A laminated glass processing edge pressing device includes a worktable 1, an edge pressing mechanism disposed on the worktable 1, and a flipping clamping structure. The device is used in conjunction with the edge pressing mechanism and the flipping clamping structure to facilitate edge pressing of the laminated glass.

[0020] Specifically,

[0021] The flipping clamping structure includes a first electric actuator 2, a first U-shaped slide 3, a clamping assembly, and a flipping assembly. The first electric actuator 2 has a self-locking function and is vertically mounted on the bottom of the worktable 1. Sliding sleeves are provided on the upper ends of both sides of the worktable 1. The vertical walls of the first U-shaped slide 3 pass through the sides of the worktable 1 from below and are located inside the sliding sleeves. The vertical walls of the first U-shaped slide 3 are vertically slidably connected to the sides of the worktable 1 and the sliding sleeves. The output shaft of the first electric actuator 2 is connected to the bottom of the first U-shaped slide 3. The clamping assembly consists of a turntable 4, a screw 5, a limiting rod 17, and a clamping plate 6. There are two turntables 4, two screws 5, and two clamping plates 6. There are two sets (four) of limiting rods 17. The two turntables 4 are rotatably connected to the two vertical walls of the first U-shaped slide 3 through bearings. The two screws 5 are threadedly connected to the turntables 4 respectively. The two sets of limiting rods 17 are slidably connected to the two turntables 4 respectively. The two clamping plates 6 are fixedly connected to the ends of the sets of limiting rods 17 respectively, and the two clamping plates 6 are rotatably connected to the ends of the two screws 5 respectively through bearings. Suction cups 7 are provided on the clamping plates 6. The flipping assembly consists of a first motor 8 and a drive gear 9; there are two of each of the first motor 8 and drive gear 9; the first motor 8 is specifically a stepper motor with a self-locking function. The two first motors 8 are respectively installed on the two vertical walls of the first U-shaped slide 3 and located below the turntable 4. The output shafts of the two first motors 8 pass through the two vertical walls of the first U-shaped slide 3 and are connected to the two drive gears 9; the two drive gears 9 are arranged opposite each other, and a driven gear 10 is provided on one side of each of the two turntables 4. The drive gear 9 meshes with the driven gear 10, and when the drive gear 9 rotates, it drives the driven gear 10 to rotate together.

[0022] The pressing mechanism includes a second U-shaped carriage 11, a pressing assembly, and a drive assembly. Two grooves are formed along the length of the worktable 1. The two vertical walls of the second U-shaped carriage 11 are located within the two grooves and can slide within them. The pressing assembly consists of a second electric push rod 12, a C-shaped frame 13, and a pressure roller 14. Two of each of the second electric push rod 12, C-shaped frame 13, and pressure roller 14 are provided. The second electric push rod 12 has a self-locking function, and the two second electric push rods 12 are symmetrically and horizontally mounted on the two vertical walls of the second U-shaped carriage 11. The two C-shaped frames 13 are respectively connected to the output shafts of the two second electric push rods 12 and are arranged opposite each other. The two pressure rollers 14 are rotatably connected to the two C-shaped frames 13 via bearings. The drive assembly consists of a second motor 15 and a lead screw 16. The second motor 15 is a stepper motor with a self-locking function, and is horizontally connected to one side of the worktable 1. The lead screw 16 is rotatably connected to the worktable 1 along its length and located at the bottom of the worktable 1 through a bearing. The output shaft of the second motor 15 is connected to the lead screw 16, and the lead screw 16 is threadedly connected to the second U-shaped slide 11.

[0023] The two second electric actuators 12 mentioned above have the same model and parameters. During use, they are controlled by the same driver, sharing power and clock signals to ensure synchronous operation. The two first motors 8 mentioned above are the same model motors driven by the same power supply. By using a pulse divider, the main motor pulses are equally distributed to the slave motors, and the two first motors 8 receive the same voltage / pulse signal, achieving synchronous operation.

[0024] Working principle of this utility model:

[0025] Initially, the output shaft of the first electric actuator 2 is in a retracted state, and the clamping plates 6 of the two clamping components are far apart. When edge pressing is required for the laminated glass, the operator places the laminated glass on the workbench 1, so that one side of the laminated glass is parallel to the workbench 1. Then, the first electric actuator 2 is activated, and the output shaft of the first electric actuator 2 extends, driving the first U-shaped slide 3 to move upward, which in turn drives the two clamping components to move upward, stopping when they reach the center position of the laminated glass. Then, the two screws 5 are rotated, causing the two clamping plates 6 to move closer together, and the laminated glass is clamped and fixed by the suction cups 7 provided on the clamping plates 6. By activating the two second electric actuators 12, the two pressure rollers 14 are brought closer together and abut against the side of the laminated glass that is parallel to the workbench 1. Finally, the second motor 15 is activated, driving the lead screw 16 to rotate, which in turn drives the two pressure rollers 14 to move on the side of the laminated glass to perform edge pressing. By controlling the forward and reverse rotation of the second motor 15, the two pressure rollers 14 can be moved back and forth to improve the edge pressing effect.

[0026] After one side of the laminated glass is edged, the output shaft of the first electric actuator 2 extends further, causing the laminated glass to move upwards. When it reaches a certain position, the movement stops. Then, the two first motors 8 are activated, driving the turntable 4 to rotate, which in turn rotates the laminated glass. When the other side of the laminated glass is parallel to the worktable 1, the rotation stops, and the output shaft of the first electric actuator 2 retracts, so that the other side of the laminated glass is parallel to and abuts against the worktable 1. The above steps are repeated to edge the other side of the laminated glass.

[0027] This device can complete the clamping of all edges of laminated glass by repeating the above steps, thereby improving the clamping efficiency and thus increasing the production efficiency of laminated glass.

Claims

1. A laminar glass processing edge pressing device, comprising a worktable (1), an edge pressing mechanism disposed on the worktable (1), and a flipping clamping structure, wherein the edge pressing mechanism and the flipping clamping structure are used in conjunction, characterized in that, The flipping clamping structure includes a first electric push rod (2), a first U-shaped slide (3), a clamping assembly, and a flipping assembly; the first electric push rod (2) is vertically disposed at the bottom of the worktable (1), the two vertical walls of the first U-shaped slide (3) are vertically slidably connected to the two sides of the worktable (1) and connected to the output shaft of the first electric push rod (2), and the clamping assembly and the flipping assembly are provided in two and symmetrically disposed on the upper ends of the two vertical walls of the first U-shaped slide (3), and the flipping assembly and the clamping assembly are connected by a transmission to drive the clamping assembly to flip.

2. The pressing device as described in claim 1, characterized in that, The clamping assembly includes a turntable (4) rotatably connected to the upper end of the vertical wall of the first U-shaped slide (3), a screw (5) threadedly connected to the turntable (4), a limiting rod (17) slidably connected to the turntable (4), and a clamping plate (6) provided at the end of the limiting rod (17); the clamping plate (6) is rotatably connected to the end of the screw (5), and a suction cup (7) is provided on the clamping plate (6).

3. The pressing device as described in claim 2, characterized in that, The flipping assembly includes a first motor (8) located on the upper end of the vertical wall of the first U-shaped carriage (3) and below the turntable (4) and a drive gear (9) connected to the output shaft of the first motor (8); a driven gear (10) is provided on one side of the turntable (4), and the drive gear (9) and the driven gear (10) mesh with each other.

4. The pressing device as described in claim 1, characterized in that, The pressing mechanism includes a second U-shaped slide (11) slidably disposed along the length of the worktable (1), two pressing components symmetrically disposed on the two vertical arms of the second U-shaped slide (11), and a driving component disposed at the bottom of the worktable (1); the driving component is connected to the second U-shaped slide (11) in a transmission to drive the second U-shaped slide (11) to move along the length of the worktable (1).

5. The pressing device as described in claim 4, characterized in that, The pressing assembly includes a second electric push rod (12) horizontally disposed on the vertical wall of the second U-shaped slide (11), a C-shaped frame (13) located on one side of the vertical wall of the second U-shaped slide (11) and connected to the output shaft of the second electric push rod (12), and a pressing roller (14) rotatably connected to the C-shaped frame (13).

6. The pressing device as described in claim 5, characterized in that, The drive assembly includes a second motor (15) located on one side of the worktable (1) and a lead screw (16) rotatably connected in the length direction of the worktable (1) and located at the bottom of the worktable (1); the output shaft of the second motor (15) is connected to the lead screw (16), and the lead screw (16) is threadedly connected to the second U-shaped carriage (11).

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