A pipelined display screen mounting structure

Abstract

The utility model relates to display screen assembly flow line technical field especially a kind of flow line display screen mounting structure, including the fixed on conveying belt several pairs of vertical plate, the top of each pair of vertical plate is placed with display screen, by fixed installation several pairs of vertical plate on the conveying belt of flow line make that display screen emptiness can be placed on vertical plate, it is convenient for worker to insert finger into display screen bottom and pick up display screen, by setting finger clamping component to the clamping of display screen, display screen is installed and fixed in vertical plate, effectively prevent display screen from slipping and vibrating due to movement in the process of moving, keep the stability of display, simultaneously, the process of worker's both hands without separating from display screen in the process of taking down and installing display screen, so that the installation of display screen is more stable, safe and convenient.

Description

Technical Field

[0001] This utility model relates to the field of display screen assembly line technology, and in particular to a display screen assembly line installation structure. Background Technology

[0002] Currently, the production lines for mobile phone display modules are all over 10 meters long, with more than a dozen positions on the entire line.

[0003] Existing technologies, such as the mobile phone display assembly line with multiple operators as disclosed in CN222347888U, include a horizontally arranged platform with a conveyor belt in the middle... The lower part of the platform has a main control panel, allowing operators at three workstations to control the drive motors at will, which is convenient, fast, and easy to operate.

[0004] In existing technologies, displays are typically placed directly on the conveyor belt of a production line and move with the belt. Displays that are not fixed are prone to slippage and shaking during movement due to sudden stops and starts of the conveyor belt, affecting the stability of incompletely fixed parts in an incompletely assembled display. Utility Model Content

[0005] The purpose of this utility model is to solve the shortcomings of existing technologies, such as the tendency of unfixed display screens to slip and shake during movement, affecting the stability of parts, and to propose a production line display screen installation structure.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] Design a production line display screen installation structure, including several pairs of upright plates fixed on a conveyor belt, with a display screen placed on the top of each pair of upright plates, and a clamping assembly installed on the top of each pair of upright plates, and the clamping assembly is used to clamp and fix the display screen.

[0008] The clamping assembly includes a pair of clamping plates slidably mounted on the top of each upright plate via a guide assembly, and a display screen is clamped between the pair of clamping plates. A driving assembly is provided between the pair of clamping plates, a positioning assembly is installed at the bottom of the pair of clamping plates, an anti-slip coating is provided on the end faces of the pair of clamping plates near each other, and a chamfer is provided on the upper end of the end faces of the pair of conveying clamping plates near each other.

[0009] Furthermore, the guide assembly includes a pair of sliders fixed to the bottom of the clamping plate and guide rails fixed to both sides of the upright plate. The pair of sliders are slidably disposed on both sides of the upright plate, and the end faces of the pair of sliders close to each other are provided with grooves, and guide rails are slidably disposed in the grooves.

[0010] Furthermore, the drive assembly includes a pair of fixed plates fixed to one side of the upright plate, and tension springs are fixed to the end faces of the pair of fixed plates away from each other. Movable plates are fixed to the ends of the pair of tension springs away from each other, and a pair of clamping plates are fixedly connected to the tops of the pair of movable plates respectively.

[0011] Furthermore, the positioning assembly includes a positioning plate slidably mounted on the outside of the upright plate and a positioning block fixed to the bottom of the clamping plate, and friction pads are bonded to the end faces of the positioning plate and the positioning block that are close to each other. The bottom of the positioning plate is equipped with an upward pushing structure for pushing the positioning plate upward.

[0012] Furthermore, the upward pushing structure includes a pair of base plates fixed to the outside of the upright plate, and the top of the base plates is fixed with columns. The upper ends of the pair of columns pass through and are slidably connected to the positioning plate. The outer walls of the pair of columns are fitted with springs, and the upper and lower ends of the springs abut against the positioning plate and the base plates, respectively.

[0013] The present invention proposes a production line display screen installation structure with the following advantages: by fixing several opposing plates on the conveyor belt of the production line, the display screen can be placed loosely on the plates, making it easy for workers to insert their fingers into the bottom of the display screen to pick it up. The display screen is then fixed to the plates by a finger gripping component, effectively preventing the display screen from slipping and vibrating during movement, thus maintaining the stability of the display screen. At the same time, workers do not need to remove their hands from the display screen during the removal and installation process, making the installation and fixation of the display screen more stable, safe, and convenient. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure after installation of this utility model;

[0015] Figure 2 This is a front view of the present invention;

[0016] Figure 3 This is a schematic diagram of the structure of this utility model;

[0017] Figure 4 This is an enlarged view of area A of this utility model.

[0018] In the diagram: 1. Conveyor belt; 2. Vertical plate; 3. Display screen; 4. Clamping assembly; 41. Clamping plate; 5. Guide assembly; 51. Slider; 52. Guide rail; 6. Drive assembly; 61. Fixed plate; 62. Tension spring; 63. Moving plate; 7. Positioning assembly; 71. Positioning plate; 72. Positioning block; 73. Friction plate; 8. Push-up structure; 81. Base plate; 82. Column; 83. Spring. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0020] Reference Figure 1-4 As an embodiment of this utility model, a production line display screen installation structure is disclosed, including a plurality of opposing plates 2 fixed on a conveyor belt 1, a display screen 3 is placed on the top of each pair of plates 2, and a clamping component 4 is installed on the top of each pair of plates 2, and the clamping component 4 is used to clamp and fix the display screen 3.

[0021] Several display screens 3 are placed on several opposing plates 2 and clamped and fixed to each pair of plates 2 by clamping components 4. The plates 2 make the display screens 3 suspended in the air, so that fingers can be inserted into the bottom of the display screens 3 to pick them up. The conveyor belt 1 drives the plates 2 and the display screens 3 on them to move, so that workers at different workstations can assemble different parts of the display screens 3. At the same time, the clamping components 4 fix the display screens 3 to prevent them from slipping relative to the conveyor belt 1 during movement, which would interfere with parts that are not fully fixed.

[0022] The clamping assembly 4 includes a pair of clamping plates 41 slidably mounted on the top of each upright plate 2 via a guide assembly 5, and the display screen 3 is clamped between the pair of clamping plates 41. A driving assembly 6 is provided between the pair of clamping plates 41, a positioning assembly 7 is installed at the bottom of the pair of clamping plates 41, an anti-slip coating is provided on the end faces of the pair of clamping plates 41 near each other, and a chamfer is provided on the upper end of the end faces of the pair of conveying clamping plates 41 near each other.

[0023] A pair of clamping plates 41 approach and contact the front and rear surfaces of the display screen 3 under the action of the driving component 6, clamping and limiting the display screen 3 in the front and rear directions. At the same time, the anti-slip coating increases the friction between the display screen 3 and the display screen 3, and the friction prevents the display screen 3 from moving left and right and vibrating up and down.

[0024] In some embodiments, the guide assembly 5 includes a pair of sliders 51 fixed to the bottom of the clamping plate 41 and guide rails 52 fixed to both sides of the upright plate 2. The pair of sliders 51 are slidably disposed on both sides of the upright plate 2. The end faces of the pair of sliders 51 close to each other are provided with grooves, and the guide rails 52 are slidably disposed in the grooves.

[0025] The guide rail 52, in conjunction with the slider 51, prevents the clamping plate 41 from detaching from the vertical plate 2, while ensuring that the clamping plate 41 can only slide back and forth along the guide rail 52 on the top of the vertical plate 2.

[0026] Specifically, the drive assembly 6 includes a pair of fixed plates 61 fixed to one side of the upright plate 2, and tension springs 62 are fixed to the end faces of the pair of fixed plates 61 away from each other. Movable plates 63 are fixed to the end faces of the pair of tension springs away from each other, and a pair of clamping plates 41 are fixedly connected to the top of the pair of movable plates 63 respectively.

[0027] The moving plate 63 is pulled inward toward the fixed plate 61 by the tension spring 62, thereby applying a pulling force to each pair of clamping plates 41 by the moving plate 63, causing each pair of clamping plates 41 to move toward each other, thereby adapting to display screens 3 of different widths.

[0028] Furthermore, the positioning component 7 includes a positioning plate 71 slidably mounted on the outside of the upright plate 2 and a positioning block 72 fixed to the bottom of the clamping plate 41. Friction pads 73 are bonded to the end faces of the positioning plate 71 and the positioning block 72 that are close to each other. A push-up structure 8 for pushing the positioning plate 71 is installed at the bottom of the positioning plate 71.

[0029] The upward pushing structure 8 applies an upward pushing force to the positioning plate 71, causing the positioning plate 71 to press the positioning block 72 upward. This prevents the positioning block 72 from sliding left or right through the friction between the friction pieces 73 on the end faces of the positioning plate 71 and the positioning block 72 that are close to each other. This positions the clamping plate 41 and prevents it from sliding due to vibration and movement.

[0030] Furthermore, the upward pushing structure 8 includes a pair of base plates 81 fixed to the outside of the upright plate 2, and a column 82 is fixed to the top of the base plate 81. The upper ends of the pair of columns 82 pass through and are slidably connected to the positioning plate 71. A spring 83 is sleeved on the outer wall of the pair of columns 82, and the upper and lower ends of the spring 83 abut against the positioning plate 71 and the base plate 81 respectively.

[0031] The spring 83, which is in a compressed state, applies an upward pushing force to the positioning plate 71, causing its upper end to abut against the positioning block 72.

[0032] Working method: During assembly, workers at both ends of the assembly line insert their fingers into the gap between the display screen 3 and the positioning plate 71 and press the positioning plate 71 downward to make it descend and separate from the positioning block 72. Then, they hold the display screen 3 and push it forward or backward to make one side of the display screen 3 separate from the clamping plate 41 on the same side, thereby moving this side upward. Then, they move the display screen 3 in the opposite direction to make the other side of the display screen 3 separate from the clamping plate 41 on the other side, thereby removing the display screen 3 for parts assembly.

[0033] After assembly, first hold the display screen 3 and use the fingers holding the display screen 3 to press the positioning plate 71 downwards, so that it descends and disengages from the positioning block 72. Then tilt the display screen 3 downwards on one side, so that the display screen 3 abuts against and presses the clamping plate 41 on the same side until the display screen 3 is between the two clamping plates 41. Then move the display screen 3 down and release it, so that each pair of clamping plates 41 moves inwards under the action of the tension spring 62 and clamps the display screen 3.

[0034] After the finger is released from the display screen, the compressed spring 83 applies an upward pushing force to the positioning plate 71, causing its upper end to abut against the positioning block 72, thereby positioning the clamping plate 41.

[0035] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A production line display screen mounting structure, comprising a plurality of opposing plates (2) fixed on a conveyor belt (1), characterized in that: Each pair of upright plates (2) has a display screen (3) placed on its top, and each pair of upright plates (2) has a clamping assembly (4) installed on its top, and the clamping assembly (4) is used to clamp and fix the display screen (3). The clamping assembly (4) includes a pair of clamping plates (41) slidably mounted on the top of each upright plate (2) via a guide assembly (5), and the display screen (3) is clamped between the pair of clamping plates (41). A driving assembly (6) is provided between the pair of clamping plates (41). A positioning assembly (7) is installed at the bottom of the pair of clamping plates (41). The end faces of the pair of clamping plates (41) near each other are provided with an anti-slip coating. The end faces of the pair of conveying clamping plates (41) near each other are provided with a chamfer at the upper end.

2. The assembly line display screen mounting structure according to claim 1, characterized in that: The guide assembly (5) includes a pair of sliders (51) fixed to the bottom of the clamping plate (41) and guide rails (52) fixed to both sides of the upright plate (2). The pair of sliders (51) are slidably disposed on both sides of the upright plate (2). The end faces of the pair of sliders (51) close to each other are provided with grooves, and the guide rails (52) are slidably disposed in the grooves.

3. The assembly line display screen mounting structure according to claim 1, characterized in that: The drive assembly (6) includes a pair of fixed plates (61) fixed to one side of the upright plate (2), and tension springs (62) are fixed to the end faces of the pair of fixed plates (61) away from each other. Movable plates (63) are fixed to the end faces of the pair of tension springs away from each other, and a pair of clamping plates (41) are fixedly connected to the top of the pair of movable plates (63).

4. The assembly line display screen mounting structure according to claim 1, characterized in that: The positioning assembly (7) includes a positioning plate (71) slidably mounted on the outside of the upright plate (2) and a positioning block (72) fixed to the bottom of the clamping plate (41). Friction pads (73) are bonded to the end faces of the positioning plate (71) and the positioning block (72) close to each other. An upward pushing structure (8) for pushing the positioning plate (71) is installed at the bottom of the positioning plate (71).

5. The assembly line display screen mounting structure according to claim 4, characterized in that: The push-up structure (8) includes a pair of base plates (81) fixed to the outside of the upright plate (2), and a column (82) is fixed to the top of the base plate (81). The upper ends of the pair of columns (82) pass through and slide to connect the positioning plate (71). A spring (83) is sleeved on the outer wall of the pair of columns (82), and the upper and lower ends of the spring (83) abut against the positioning plate (71) and the base plate (81) respectively.

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