A liquid crystal display transfer device with a stabilizing mechanism

By designing a stable mechanism for the liquid crystal display transfer device, components such as hydraulic cylinders and hinge seats are used to achieve stable clamping and transfer of the liquid crystal display, solving the instability problem of the liquid crystal display during state transition and improving the safety and efficiency of the transfer process.

CN118323854BActive Publication Date: 2026-06-30SHENZHEN TXD TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHENZHEN TXD TECH CO LTD
Filing Date
2024-04-18
Publication Date
2026-06-30

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    Figure CN118323854B_ABST
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Abstract

This invention relates to the field of liquid crystal display (LCD) transfer technology and discloses an LCD transfer device with a stabilizing mechanism. The device includes a frame, with a short plate fixedly mounted on the top of the frame. A servo motor is fixedly mounted on the outer side of the short plate. Multiple sets of short plates are provided, and bottom drive rollers are rotatably mounted between these sets. To make the process of transferring a horizontal LCD body to a vertical position more stable, this LCD transfer device with a stabilizing mechanism incorporates stabilizing components. When the hydraulic cylinder is activated, these components, along with a hinge seat, swing rod, L-shaped block, hinge block, Z-shaped block, connecting rod, and limiting block, simultaneously clamp and fix the LCD body using receiving and pressing rubber clamps, thus improving the stability of the entire process and better protecting the LCD body.
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Description

Technical Field

[0001] This invention relates to the field of liquid crystal display screen transfer technology, specifically to a liquid crystal display screen transfer device with a stabilizing mechanism. Background Technology

[0002] LCD screens are a type of flat panel display used for television and computer screens. Their advantages include low power consumption, small size, and low radiation. An LCD screen consists of small modular panels used to display various information such as text, images, and video. It integrates microelectronics, computer technology, and information processing, and boasts advantages such as vibrant colors, wide dynamic range, and stable and reliable operation.

[0003] In the production process of LCD screens, transfer devices are used. Transfer devices are equipment or systems used to move goods, equipment or personnel between different locations or facilities. They can be applied in a variety of situations, such as material handling on industrial production lines, boarding and disembarking equipment at airports, bed transfer in medical facilities, and other environments that require moving goods or personnel from one place to another.

[0004] However, current transfer devices for LCD screens are inconvenient for simultaneously transferring the horizontal LCD screen body in the opposite direction and turning it into a vertical position for subsequent processes. Furthermore, the lack of an effective stabilizing mechanism during the transfer process can lead to unstable transfer of the LCD screen body, resulting in damage to the LCD screen body and reduced production efficiency. In view of this, we propose an LCD screen transfer device with a stabilizing mechanism. Summary of the Invention

[0005] The purpose of this invention is to provide a liquid crystal display screen transfer device with a stabilizing mechanism to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a liquid crystal display screen transfer device with a stabilizing mechanism, comprising a frame, a short plate fixedly mounted on the top of the frame, a servo motor fixedly mounted on the outer side of the short plate, multiple sets of short plates, bottom drive rollers rotatably mounted between the multiple sets of short plates, the output end of the servo motor fixedly connected to the outer side of the bottom drive rollers, a wide conveyor belt driven and mounted on the outer side of the bottom drive rollers, a servo linear module fixedly mounted inside the frame, a long plate fixedly mounted on the top of a sliding component inside the servo linear module, a servo motor fixedly mounted on the outer side of the long plate, multiple sets of long plates, top drive rollers rotatably mounted between the multiple sets of long plates, the output end of the servo motor fixedly connected to the outer side of the top drive rollers, a narrow conveyor belt driven and mounted on the outer side of the top drive rollers, and a liquid crystal display screen body disposed on the outer side of the top of both the wide and narrow conveyor belts, the top of the frame comprising a stabilizing component, a fixing component, and an auxiliary component, the stabilizing component comprising:

[0007] A hinged base is fixedly installed on the top of the frame. A swing rod is hingedly installed inside the top of the hinged base, and an L-shaped block is hingedly installed inside the swing rod.

[0008] A hinge block is fixedly installed on the top of the frame. One end of a hydraulic cylinder is hingedly installed inside the hinge block. The piston end of the hydraulic cylinder away from the hinge block is hingedly installed inside the L-shaped block. A Z-shaped block is hingedly installed inside the swing rod away from the hinge seat. A connecting rod is hingedly installed inside one end of the Z-shaped block. The connecting rod away from the Z-shaped block is hingedly installed inside the L-shaped block.

[0009] A receiving rubber clamp is fixedly installed on the outer wall of the swing rod near the Z-shaped block, and a pressing rubber clamp is fixedly installed on the inner wall of the Z-shaped block. A limit block is fixedly installed on the outer wall of the swing rod away from the Z-shaped block. The limit block can prevent the swing rod from rotating excessively.

[0010] Preferably, the hinge seat is located on the left side of the hinge block, and the movement trajectories of the swing rod and the hydraulic cylinder do not intersect, thus preventing motion interference.

[0011] Preferably, the fixing component includes a U-shaped frame, the outer wall of the Z-shaped block is fixedly mounted with the U-shaped frame, the inner wall of the U-shaped frame is fixedly mounted with a rectangular plate, a slide rod is slidably mounted inside the rectangular plate, the slide rod passes through the U-shaped frame, an L-shaped plate is fixedly mounted on the outer side of one end of the slide rod, a semi-circular airbag is fixedly mounted on the outer side of the L-shaped plate, a disc block is fixedly mounted on the outer side of the end of the slide rod away from the L-shaped plate, and a retaining spring is sleeved on the outer side of the slide rod.

[0012] Preferably, one end of the clamping spring is fixedly connected to the outer wall of the rectangular plate, and the other end of the clamping spring is fixedly connected to the outer wall of the disc block.

[0013] Preferably, the rectangular plate, slide bar, L-shaped plate, semi-circular airbag, disc block, and clamping spring are provided in two sets.

[0014] Preferably, the auxiliary component includes a thin rod, on which the thin rod is fixedly installed on the outer wall of the end of the disc block away from the rectangular plate, and on which a piston plate is fixedly installed at the end of the thin rod away from the disc block. The piston plate has a through hole, and the thin rod and the through hole are in the same vertical plane.

[0015] Preferably, the thin rod, piston plate, and through hole are provided in two sets, and the thin rod in one set passes through the through hole in the other set.

[0016] Preferably, a piston cylinder is fixedly installed at the center of the inner wall of the U-shaped frame, the arc-shaped outer wall of the piston plate slides against the arc-shaped inner wall of the piston cylinder, the arc-shaped outer wall of the thin rod slides against the inside of the circular side wall of the piston cylinder, a flexible hose is fixedly installed on the outside of the piston cylinder, and a conical airbag is fixedly installed at the end of the flexible hose away from the piston cylinder. The conical airbag is located between the receiving rubber clamp and the pressing rubber clamp. The piston cylinder, the flexible hose, and the conical airbag are internally connected, so that the conical airbag can deform smoothly.

[0017] Preferably, an anti-tipping component is provided on the outer side of the wide conveyor belt, an arc-shaped strip is fixedly installed on the outer side of the wide conveyor belt, an arc-shaped long cylindrical airbag is fixedly installed on the outer side of the arc-shaped strip, a small airbag is fixedly installed on the arc-shaped long cylindrical airbag, the arc-shaped long cylindrical airbag and the small airbag are internally connected, and a return spring is fixedly installed inside the small airbag, so that the small airbag can deform better.

[0018] Preferably, there are two sets of the arc-shaped strip and the arc-shaped long cylindrical airbag, and multiple sets of small airbags and return springs are provided on each set of the arc-shaped long cylindrical airbag. A sponge rod is rotatably installed between the outer walls of the two sets of small airbags at the front and rear ends.

[0019] Compared with the prior art, the present invention provides a liquid crystal display screen transfer device with a stabilizing mechanism, which has the following beneficial effects:

[0020] 1. This LCD screen transfer device with a stabilizing mechanism is designed to make the process of transferring the horizontal LCD screen body to a vertical position more stable. By setting up a stabilizing component, when the hydraulic cylinder is activated, it works in conjunction with the hinge seat, swing rod, L-shaped block, hinge block, Z-shaped block, connecting rod, and limit block to simultaneously clamp and fix the LCD screen body with the receiving rubber clamp and the pressing rubber clamp, making the entire process more stable and thus better protecting the LCD screen body.

[0021] 2. The LCD screen transfer device with a stabilizing mechanism is equipped with a fixing component to make the transfer process more stable. When the Z-shaped block moves, it works with the U-shaped frame, rectangular plate, sliding rod, L-shaped plate, disc block and clamping spring to fix the front and rear ends of the LCD screen body with two sets of semi-circular airbags, thereby making the transfer process more stable and thus better protecting the LCD screen body.

[0022] 3. In order to further improve the stability of the transfer process, the LCD screen transfer device with a stabilizing mechanism is equipped with auxiliary components. When the two sets of disc blocks move away from each other and move towards each other, they work with the thin rod, piston plate, through hole, piston cylinder and hose to generate an airflow to the conical airbag, thereby causing the conical airbag to expand, making the LCD screen body more stable and thus further improving the stability of the transfer process.

[0023] 4. The LCD screen transfer device with a stabilizing mechanism is equipped with an anti-tipping component to ensure greater stability after the LCD screen body is transferred to a vertical position. This component, along with an arc-shaped strip, an arc-shaped long cylindrical airbag, a small airbag, and a return spring, makes the vertical LCD screen body more stable. In addition, the sponge rod helps the LCD screen body to be better placed between two adjacent sets of small airbags. Attached Figure Description

[0024] Figure 1 This is a top-left view of the overall structure of the present invention;

[0025] Figure 2 This is a top-right view of the overall structure of the present invention;

[0026] Figure 3 For the present invention Figure 2 Enlarged structural diagram of region A in the middle;

[0027] Figure 4 This is a top view of the swing arm of the present invention;

[0028] Figure 5 This is a schematic diagram of the connection between the hydraulic cylinder and the outer part of the present invention;

[0029] Figure 6This is a schematic cross-sectional view of the long plate of the present invention;

[0030] Figure 7 For the present invention Figure 6 Enlarged structural diagram of region B in the middle;

[0031] Figure 8 This is a schematic cross-sectional view of the small airbag of the present invention;

[0032] Figure 9 This is a top view of the hinge seat of the present invention;

[0033] Figure 10 For the present invention Figure 9 Enlarged structural diagram of region C in the middle;

[0034] Figure 11 This is a bottom view of the swing arm of the present invention;

[0035] Figure 12 This is an exploded view of part of the structure of the present invention.

[0036] In the diagram: 1. Frame; 21. Short board; 22. Servo motor; 23. Bottom drive roller; 24. Wide conveyor belt; 31. Servo linear module; 32. Long board; 33. Servo motor; 34. Top drive roller; 35. Narrow conveyor belt; 4. LCD screen body; 5. Stabilizing component; 51. Hinge seat; 52. Swing rod; 53. L-block; 54. Hinge block; 55. Hydraulic cylinder; 56. Z-block; 57. Connecting rod; 58. Receiving rubber clamp; 59. Pressing rubber 510. Clamping plate; 6. Limiting block; 7. Fixing component; 8. U-shaped frame; 9. Rectangular plate; 10. Slide rod; 11. L-shaped plate; 12. Semi-circular airbag; 13. Disc block; 24. Clamping spring; 35. Auxiliary component; 46. Thin rod; 57. Piston plate; 68. Through hole; 79. Piston cylinder; 80. Hose; 10. Conical airbag; 11. Anti-tipping component; 22. Arc-shaped long airbag; 33. Small airbag; 44. Return spring; 55. Sponge rod. Detailed Implementation

[0037] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0038] Please see Figure 1-12This invention provides a technical solution: a liquid crystal display screen transfer device with a stable mechanism, comprising a frame 1, a short plate 21 fixedly installed on the top of the frame 1, a servo motor 22 fixedly installed on the outer side of the short plate 21, four sets of short plates 21, a bottom drive roller 23 rotatably installed between the front and rear sets of short plates 21, the output end of the servo motor 22 fixedly connected to the outer side of the bottom drive roller 23, a wide conveyor belt 24 driven by the bottom drive roller 23, when the servo motor 22 is started, the bottom drive roller 23 rotates counterclockwise between the short plates 21, thereby causing the wide conveyor belt 24 to rotate counterclockwise, thus transporting the liquid crystal display screen body 4 from the right end to the left end of the frame 1. A servo linear module 31 is fixedly installed inside the frame 1, two sets of the servo linear module 31, a long plate 32 fixedly installed on the top of the sliding part inside the servo linear module 31, and a long plate 32 fixedly installed on the outer side of the long plate 32. The frame 1 has a servo motor 33 and four sets of long plates 32. A top drive roller 34 is rotatably mounted between the front and rear sets of long plates 32. The center of the top drive roller 34 at the right end of the frame 1 is broken to facilitate the subsequent clamping of the LCD screen body 4. The output end of the servo motor 33 is fixedly connected to the outside of the top drive roller 34. A narrow conveyor belt 35 is installed on the outside of the top drive roller 34. The LCD screen body 4 is set on the outside of the top of both the wide conveyor belt 24 and the narrow conveyor belt 35. The LCD screen body 4 on the outside of the narrow conveyor belt 35 is placed horizontally, and the LCD screen body 4 on the outside of the wide conveyor belt 24 is placed vertically. It is worth noting that the distance between the short plates 21 at the left and right ends of the frame 1 and the long plates 32 at the left and right ends can be adjusted according to actual needs. In the example diagram of this application, the distance is relatively short for the sake of illustration. The top of the frame 1 is provided with a stabilizing component 5, a fixing component 6 and an auxiliary component 7.

[0039] In one embodiment of the present invention, the stabilizing component 5 includes a hinge seat 51. The hinge seat 51 is fixedly mounted on the top of the frame 1. A swing rod 52 is hingedly mounted inside the top of the hinge seat 51. An L-shaped block 53 is hingedly mounted inside the swing rod 52. A hinge block 54 is fixedly mounted on the top of the frame 1. One end of a hydraulic cylinder 55 is hingedly mounted inside the hinge block 54. The piston end of the hydraulic cylinder 55, away from the hinge block 54, is hingedly mounted inside the L-shaped block 53. Furthermore, the hinge seat 51 is located to the left of the hinge block 54, and the movement trajectories of the swing rod 52 and the hydraulic cylinder 55 do not intersect, preventing motion interference. Furthermore, when the hinge seat 51 and the swing rod 52 remain parallel... In the current state, the hydraulic cylinder 55 inside the hinge block 54 is activated, causing the piston end inside the hydraulic cylinder 55 to extend. A Z-shaped block 56 is hinged to the end of the swing rod 52 away from the hinge seat 51. A connecting rod 57 is hinged to one end of the Z-shaped block 56. The end of the connecting rod 57 away from the Z-shaped block 56 is hinged to the inside of the L-shaped block 53. A receiving rubber clamp 58 is fixedly installed on the outer wall of the end of the swing rod 52 near the Z-shaped block 56. A pressing rubber clamp 59 is fixedly installed on the inner wall of the Z-shaped block 56. A limit block 510 is fixedly installed on the outer wall of the end of the swing rod 52 away from the Z-shaped block 56. The limit block 510, in conjunction with the limit block, prevents the swing rod 52 from rotating excessively, thereby allowing it to pass through the L-shaped block... The transmission of 53 and connecting rod 57 causes Z-block 56 to move the pressing rubber clamp 59 towards the receiving rubber clamp 58, thereby clamping and fixing the horizontal LCD screen body 4 on the outside of the narrow conveyor belt 35. Then, the servo linear module 31 is activated, allowing the long plate 32 to move towards the left end of the frame 1, thus avoiding motion interference with the parts in the stabilizing assembly 5. When the hydraulic cylinder 55 continues to operate, the swing arm 52 will continue to swing counterclockwise until the hinge seat 51 and the swing arm 52 are perpendicular, thereby vertically placing the horizontal LCD screen body 4 on the outside of the wide conveyor belt 24. When the servo motor 33 is activated, it causes... The top drive roller 34 rotates clockwise between the long plates 32, thereby causing the narrow conveyor belt 35 to rotate clockwise. This allows the LCD screen body 4 on its outer side to be transported from the left end to the right end of the frame 1, thus completing the transfer in the opposite direction and making the whole process more stable. It also better protects the LCD screen body 4. It is worth noting that the servo motor 22, servo motor 33, servo linear module 31 and hydraulic cylinder 55 are all electrically connected to the PLC controller to control the start and stop of the servo motor 22, servo motor 33, servo linear module 31 and hydraulic cylinder 55. Since this electrical connection method is existing technology of existing equipment, it will not be described in detail here.

[0040] In one embodiment of the present invention, the fixing component 6 includes a U-shaped frame 61, with the U-shaped frame 61 fixedly installed on the outer wall of the Z-shaped block 56. A rectangular plate 62 is fixedly installed on the inner wall of the U-shaped frame 61, and a slide rod 63 is slidably installed inside the rectangular plate 62, passing through the U-shaped frame 61. An L-shaped plate 64 is fixedly installed on the outer side of one end of the slide rod 63, and a semi-circular airbag 65 is fixedly installed on the outer side of the L-shaped plate 64. A disc block 66 is fixedly installed on the outer side of the end of the slide rod 63 away from the L-shaped plate 64, and a retaining spring 67 is sleeved on the outer side of the slide rod 63. Further, one end of the retaining spring 67 is fixedly connected to the outer wall of the rectangular plate 62, and the other end of the retaining spring 67 is fixedly connected to the outer wall of the disc block 66. In addition, two sets of rectangular plates 62, slide rods 63, L-shaped plates 64, semi-circular airbags 65, disc blocks 66, and retaining springs 67 are provided, and the two sets of rectangular plates 62, slide rods 63, L-shaped plates 64, and retaining springs 65 are provided. 4. The semi-circular airbags 65, the disc blocks 66, and the clamping springs 67 are all mirror images of the vertical centerline of the U-shaped frame 61 in the left-right direction, and are mirror images of the front and rear ends of the U-shaped frame 61. Furthermore, when the Z-shaped block 56 moves counterclockwise, it will drive the U-shaped frame 61 to move synchronously in the same direction. This, in conjunction with the L-shaped plate 64, allows the two sets of semi-circular airbags 65 to slide at the front and rear ends of the LCD screen body 4. This causes the two sets of sliding rods 63 to slide away from each other inside the rectangular plate 62. This, in conjunction with the disc blocks 66, causes the clamping springs 67 to undergo compression deformation. When the semi-circular airbags 65 leave the LCD screen body 4, the clamping springs 67 restore their deformation energy to reset the sliding rods 63. Thus, the two sets of semi-circular airbags 65 can fix the front and rear ends of the LCD screen body 4, making the transfer process more stable and thus better protecting the LCD screen body 4.

[0041] In one embodiment of the present invention, the auxiliary component 7 includes a thin rod 71. The thin rod 71 is fixedly installed on the outer wall of the disc block 66 away from the rectangular plate 62. A piston plate 72 is fixedly installed on the end of the thin rod 71 away from the disc block 66. A through hole 73 is provided on the piston plate 72. The thin rod 71 and the through hole 73 are in the same vertical plane. Further, two sets of thin rod 71, piston plate 72 and through hole 73 are provided, and the thin rod 71 in one set passes through the through hole 73 in the other set. In addition, a piston cylinder 74 is fixedly installed at the center of the inner wall of the U-shaped frame 61. The arc-shaped outer wall of the piston plate 72 slides against the arc-shaped inner wall of the piston cylinder 74, and the arc-shaped outer wall of the thin rod 71 slides against the inside of the circular side wall of the piston cylinder 74. Further, when the two sets of disc blocks 66 are in the same vertical plane, the piston plate 71 is fixedly installed on the outer wall of the disc block 66 away from the rectangular plate 62. When the piston plates 72 move away from each other and towards each other, they work in conjunction with the thin rod 71 and the through hole 73 to make the two sets of piston plates 72 move synchronously closer to each other inside the piston cylinder 74. A hose 75 is fixedly installed on the outside of the piston cylinder 74. A conical airbag 76 is fixedly installed at the end of the hose 75 away from the piston cylinder 74. The conical airbag 76 is located between the receiving rubber clamp 58 and the pressing rubber clamp 59. The piston cylinder 74, the hose 75 and the conical airbag 76 are internally connected, so that the conical airbag 76 can deform smoothly. A stream of air generated is then sent to the inside of the conical airbag 76 through the hose 75, causing the conical airbag 76 to expand. This makes the LCD screen body 4 more stable and further improves the stability of the transfer process.

[0042] In one embodiment of the present invention, an anti-tipping component 8 is provided on the outer side of the wide conveyor belt 24, an arc-shaped strip 81 is fixedly installed on the outer side of the wide conveyor belt 24, an arc-shaped long cylindrical airbag 82 is fixedly installed on the outer side of the arc-shaped strip 81, and a small airbag 83 is fixedly installed on the arc-shaped long cylindrical airbag 82. The arc-shaped long cylindrical airbag 82 and the small airbag 83 are internally connected. Furthermore, when the horizontal liquid crystal display body 4 is placed vertically on the outer side of the wide conveyor belt 24, the sponge rod 85 can help the liquid crystal display body 4 to be better placed between two adjacent sets of small airbags 83. Thus, in conjunction with the arc-shaped strip 81 and the arc-shaped long cylindrical airbag 82, the small airbag 83 deforms. A return spring 84 is fixedly installed inside the small airbag 83, so that the small airbag 83 can deform better, and the return spring 84 is synchronously compressed and deformed, thereby making the vertical liquid crystal display body 83 deform. The display body 4 is placed more stably, and the recovery deformation of the reset spring 84 makes the reset effect of the small airbag 83 better. In addition, there are two sets of arc-shaped strips 81 and arc-shaped long airbags 82. Both sets of arc-shaped strips 81 and arc-shaped long airbags 82 are mirrored with the vertical center line of the wide conveyor belt 24 in the left and right directions as the mirror axis. They are mirrored at the front and rear ends of the wide conveyor belt 24. There are multiple sets of small airbags 83 and reset springs 84 on each set of arc-shaped long airbags 82. The multiple sets of small airbags 83 and reset springs 84 are arrayed with equally spaced curves with the arc trajectory of the vertical section of the arc-shaped strip 81 as the array curve. A sponge rod 85 is rotatably installed between the outer walls of the two sets of small airbags 83 at the front and rear ends. The sponge rod 85 consists of a round rod and a sponge block wrapped around the outside of the round rod. The outer wall of the sponge block inside the sponge rod 85 slides against the bottom outer wall of the LCD display body 4.

[0043] Working principle: When the servo motor 22 is started, the bottom transmission roller 23 rotates counterclockwise between the short plates 21, causing the wide conveyor belt 24 to rotate counterclockwise, thus conveying the LCD screen body 4 from the right end to the left end of the frame 1. Further, when the hinge seat 51 and the swing rod 52 are parallel, the hydraulic cylinder 55 inside the hinge block 54 is activated, causing the piston end inside the hydraulic cylinder 55 to extend. Through the transmission of the L-shaped block 53 and the connecting rod 57, the Z-shaped block 56 drives the pressing rubber clamp 59 to move closer to the receiving rubber clamp 58, thereby clamping and fixing the horizontally positioned LCD screen body 4 on the outside of the narrow conveyor belt 35. Then, the servo linear module 31 is activated, allowing the long plate 32 to... Moving to the left end of frame 1 avoids motion interference with the parts in the stabilizing assembly 5. As hydraulic cylinder 55 continues to operate, the swing arm 52 continues to swing counterclockwise until the hinge seat 51 and the swing arm 52 are perpendicular, thus vertically placing the horizontal LCD screen body 4 outside the wide conveyor belt 24. When the servo motor 33 is started, the top drive roller 34 rotates clockwise between the long plates 32, causing the narrow conveyor belt 35 to rotate clockwise, thus transporting the LCD screen body 4 from the left end to the right end of frame 1. This completes the reverse direction transfer while making the entire process more stable and better protecting the LCD screen body 4. Furthermore, when the Z-shaped block 56 moves counterclockwise, it will... The U-shaped frame 61 moves synchronously in the same direction, thereby cooperating with the L-shaped plate 64 to allow the two sets of semi-circular airbags 65 to slide at the front and rear ends of the LCD screen body 4. This causes the two sets of sliding rods 63 to slide away from each other inside the rectangular plate 62, thereby cooperating with the disc block 66 to compress the clamping spring 67. When the semi-circular airbags 65 leave the LCD screen body 4, the clamping spring 67 restores its deformation energy to reset the sliding rods 63. Thus, the two sets of semi-circular airbags 65 can fix the front and rear ends of the LCD screen body 4, making the transfer process more stable and thus better protecting the LCD screen body 4. Furthermore, when the two sets of disc blocks 66 move away from each other and towards each other, they cooperate with the thin rod 71 and the through hole 73 to allow the two... The piston plates 72 move synchronously closer to each other inside the piston cylinder 74, thereby channeling a stream of air through the hose 75 into the conical airbag 76. This causes the conical airbag 76 to inflate, making the LCD screen body 4 more stably clamped and further improving the stability of the transfer process. Furthermore, when the horizontally positioned LCD screen body 4 is placed vertically outside the wide conveyor belt 24, the sponge rod 85 helps the LCD screen body 4 to be better placed between two adjacent sets of small airbags 83. Combined with the arc-shaped strip 81 and the arc-shaped long cylindrical airbag 82, the small airbags 83 deform, causing the return spring 84 to compress synchronously, thus making the vertically positioned LCD screen body 4 more stable.Simultaneously, the restoring deformation of the return spring 84 improves the reset effect of the small airbag 83.

[0044] The present invention has been described in detail above. However, modifications or improvements can be made to it, which will be obvious to those skilled in the art. Therefore, any modifications or improvements that do not depart from the spirit of the present invention are within the scope of protection of the present invention.

Claims

1. A liquid crystal display screen transfer device with a stabilizing mechanism, comprising a frame (1), a short plate (21) fixedly installed on the top of the frame (1), a servo motor (22) fixedly installed on the outside of the short plate (21), multiple sets of short plates (21) are provided, and bottom drive rollers (23) are rotatably installed between the multiple sets of short plates (21), the output end of the servo motor (22) is fixedly connected to the outside of the bottom drive roller (23), a wide conveyor belt (24) is driven and installed on the outside of the bottom drive roller (23), and a servo linear module (31) is fixedly installed inside the frame (1). The servo linear module (31) has a long plate (32) fixedly installed on the top of the internal sliding component. A servo motor (33) is fixedly installed on the outside of the long plate (32). The long plate (32) is provided in multiple sets, and a top drive roller (34) is rotatably installed between the multiple sets of long plates (32). The output end of the servo motor (33) is fixedly connected to the outside of the top drive roller (34). A narrow conveyor belt (35) is driven and installed on the outside of the top drive roller (34). A liquid crystal display body (4) is provided on the outside of the top of both the wide conveyor belt (24) and the narrow conveyor belt (35). The feature is that: The top of the frame (1) is provided with a stabilizing component (5), a fixing component (6), and an auxiliary component (7), wherein the stabilizing component (5) includes: Hinged seat (51), the top of the frame (1) is fixedly installed with a hinged seat (51), a swing rod (52) is hingedly installed inside the top of the hinged seat (51), and an L-shaped block (53) is hingedly installed inside the swing rod (52). A hinge block (54) is fixedly installed on the top of the frame (1). One end of a hydraulic cylinder (55) is hinged inside the hinge block (54). The piston end of the hydraulic cylinder (55) away from the hinge block (54) is hinged inside the L-shaped block (53). A Z-shaped block (56) is hinged inside the swing rod (52) away from the hinge seat (51). A connecting rod (57) is hinged inside one end of the Z-shaped block (56). The connecting rod (57) away from the Z-shaped block (56) is hinged inside the L-shaped block (53). A receiving rubber clamp (58) is fixedly installed on the outer wall of the swing rod (52) near the Z-shaped block (56), a pressing rubber clamp (59) is fixedly installed on the inner wall of the Z-shaped block (56), and a limit block (510) is fixedly installed on the outer wall of the swing rod (52) away from the Z-shaped block (56). The fixing component (6) includes two sets of rectangular plates (62), a slide bar (63), an L-shaped plate (64), a semi-circular airbag (65), a disc block (66), and a clamping spring (67). The auxiliary component (7) includes a thin rod (71). The thin rod (71) is fixedly installed on the outer wall of the disc block (66) away from the rectangular plate (62). A piston plate (72) is fixedly installed on the end of the thin rod (71) away from the disc block (66). A through hole (73) is provided on the piston plate (72). The thin rod (71) and the through hole (73) are in the same vertical plane. There are two sets of thin rod (71), piston plate (72) and through hole (73), and the thin rod (71) in one set passes through the through hole (73) in the other set.

2. The liquid crystal display screen transfer device with a stabilizing mechanism according to claim 1, characterized in that: The hinge seat (51) is located on the left side of the hinge block (54), and the movement trajectories of the swing rod (52) and the hydraulic cylinder (55) do not intersect.

3. The liquid crystal display screen transfer device with a stabilizing mechanism according to claim 1, characterized in that: The fixing component (6) also includes a U-shaped frame (61). The U-shaped frame (61) is fixedly installed on the outer wall of the Z-shaped block (56). A rectangular plate (62) is fixedly installed on the inner wall of the U-shaped frame (61). A slide rod (63) is slidably installed inside the rectangular plate (62). The slide rod (63) passes through the U-shaped frame (61). An L-shaped plate (64) is fixedly installed on the outer side of one end of the slide rod (63). A semi-circular airbag (65) is fixedly installed on the outer side of the L-shaped plate (64). A disc block (66) is fixedly installed on the outer side of the end of the slide rod (63) away from the L-shaped plate (64). A retaining spring (67) is sleeved on the outer side of the slide rod (63).

4. A liquid crystal display screen transfer device with a stabilizing mechanism according to claim 3, characterized in that: One end of the clamping spring (67) is fixedly connected to the outer wall of the rectangular plate (62), and the other end of the clamping spring (67) is fixedly connected to the outer wall of the disc block (66).

5. A liquid crystal display screen transfer device with a stabilizing mechanism according to claim 3, characterized in that: A piston cylinder (74) is fixedly installed at the center of the inner wall of the U-shaped frame (61). The arc-shaped outer wall of the piston plate (72) slides against the arc-shaped inner wall of the piston cylinder (74). The arc-shaped outer wall of the thin rod (71) slides against the inside of the circular side wall of the piston cylinder (74). A hose (75) is fixedly installed on the outside of the piston cylinder (74). A conical airbag (76) is fixedly installed at one end of the hose (75) away from the piston cylinder (74). The conical airbag (76) is located between the receiving rubber clamp (58) and the pressing rubber clamp (59). The piston cylinder (74), the hose (75) and the conical airbag (76) are internally connected.

6. A liquid crystal display screen transfer device with a stabilizing mechanism according to claim 1, characterized in that: An anti-tipping component (8) is provided on the outside of the wide conveyor belt (24). An arc-shaped strip (81) is fixedly installed on the outside of the wide conveyor belt (24). An arc-shaped long cylindrical airbag (82) is fixedly installed on the outside of the arc-shaped strip (81). A small airbag (83) is fixedly installed on the arc-shaped long cylindrical airbag (82). The arc-shaped long cylindrical airbag (82) and the small airbag (83) are internally connected. A reset spring (84) is fixedly installed inside the small airbag (83).

7. A liquid crystal display screen transfer device with a stabilizing mechanism according to claim 6, characterized in that: The arc-shaped strip (81) and the arc-shaped long cylindrical airbag (82) are provided in two sets, and the small airbag (83) and the return spring (84) on each set of the arc-shaped long cylindrical airbag (82) are provided in multiple sets, and a sponge rod (85) is rotatably installed between the outer walls of the two sets of small airbags (83) at the front and rear ends.