A notebook computer shell shaping jig

By designing a notebook computer casing shaping fixture that includes a frame, a shaping mechanism, and a centering mechanism, precise centering alignment and efficient shaping of the casing are achieved, solving the shaping error problem caused by non-centering of the casing in the prior art.

CN224406264UActive Publication Date: 2026-06-26NANTONG JINHONGCHANG ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANTONG JINHONGCHANG ELECTRONIC TECH CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing technologies cannot ensure that the laptop casing is centered, which makes it easy for errors to occur during the reshaping process.

Method used

A notebook computer casing shaping fixture is used, including a frame, a shaping mechanism and a centering mechanism. A power component drives the force-bearing component and the sliding component to move, so that the centering component aligns the casing in the center, and the shaping and material picking components are combined to complete the shaping and material picking operations.

Benefits of technology

This effectively solves the problem of shaping errors caused by the shell not being centered, ensuring the accuracy and efficiency of the shaping operation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224406264U_ABST
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Abstract

The utility model relates to notebook computer casing processing technical field, especially notebook computer casing shaping fixture, including frame body, shaping mechanism and centering mechanism, shaping mechanism sets up on the frame body, and the centering mechanism includes power assembly, material taking subassembly, mounting assembly, force -receiving member, first sliding part, second sliding part, two round bars, two centering pieces and spring, and power assembly passes through mounting assembly and installs on the frame body, and material taking subassembly sets up on the frame body, and the frame body has the sliding slot, and force -receiving member, first sliding part and second sliding part all are connected with the sliding slot sliding, and two centering pieces are fixedly connected with first sliding part and second sliding part respectively, and one end of round bar is fixedly connected with force -receiving member, and the other end of round bar penetrates first sliding part, and in this way, the technical problem that the notebook computer casing is placed in the centering position in the prior art and is difficult to ensure, leading to the error of subsequent shaping operation on the casing is solved.
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Description

Technical Field

[0001] This utility model relates to the field of laptop shell processing technology, and in particular to a laptop shell shaping fixture. Background Technology

[0002] In today's digital age, laptops remain a vital tool for work, study, and entertainment, and market demand continues to be strong. Laptops not only need powerful performance, but their appearance quality and structural stability are also increasingly attracting consumer attention. The laptop casing, as a key component protecting the internal precision electronic components and shaping the product's appearance, directly impacts the overall quality and market competitiveness of the laptop. Metal laptop casings need to achieve a certain degree of flatness before leaving the factory. However, after injection molding, deformation of the metal parts can occur due to handling and storage. Current technology uses cold pressing to repair this flatness, but the results are relatively poor.

[0003] To address the aforementioned issues, the prior art patent application CN202122741662.2 discloses a metal laptop shell heat shaping machine. During use, the deformed metal laptop shell is placed on a lower pressure plate, and then a cylinder is activated. The cylinder drives the connected upper pressure plate to press down onto the lower pressure plate, and the deformed metal laptop shell is straightened and flattened under pressure.

[0004] However, in the above method, it is impossible to ensure that the laptop casing is centered, which makes it easy for errors to occur when reshaping the casing later. Utility Model Content

[0005] The purpose of this utility model is to provide a laptop casing shaping fixture, which aims to solve the technical problem in the prior art that the laptop casing cannot be centered, which leads to errors in subsequent casing shaping operations.

[0006] To achieve the above objectives, this utility model employs a laptop casing shaping fixture, comprising a frame, a shaping mechanism, and a centering mechanism. The shaping mechanism is mounted on the frame, and the centering mechanism includes a power component, a material-picking component, a mounting component, a force-bearing component, a first sliding component, a second sliding component, two round rods, two centering components, and a spring. The power component is mounted on the frame via the mounting component, and the material-picking component is mounted on the frame. The frame has a sliding groove, and the force-bearing component, the first sliding component, and the second sliding component are all slidably connected to the sliding groove. The two centering components are respectively fixedly connected to the first sliding component and the second sliding component. One end of each round rod is fixedly connected to the force-bearing component, and the other end of the round rod passes through the first sliding component and is fixedly connected to the second sliding component. Both ends of the spring are respectively fixedly connected to the first sliding component and the second sliding component.

[0007] The material handling assembly includes two electric slide rails, two sliding sleeves, a U-shaped plate, and a material handling plate. The frame has through holes. Both electric slide rails are installed on the frame. The two sliding sleeves are respectively adapted to the corresponding electric slide rails. The U-shaped plate is fixedly connected to the two sliding sleeves. The material handling plate is fixedly connected to the U-shaped plate.

[0008] The power assembly includes a motor and an elliptical plate. The motor is mounted on the frame via the mounting assembly. The output end of the motor is fixedly connected to the elliptical plate. The elliptical plate is in contact with the force-bearing component and the first sliding component.

[0009] The mounting assembly includes a bracket and two fasteners, one end of each of the two fasteners passing through the bracket and being tightened onto the frame. The motor is mounted on the bracket.

[0010] Each of the centering components includes an L-plate and a centering plate. The two L-plates are fixedly connected to the first sliding component and the second sliding component, respectively, and the two centering plates are fixedly connected to the corresponding L-plates.

[0011] This utility model discloses a laptop casing shaping fixture. In practical use, the laptop casing to be shaped is placed on the shaping mechanism, and the power component is activated. The power component drives the force-receiving component and the first sliding component to move relative to each other. Simultaneously, the force-receiving component moves the second sliding component through two round rods, thereby causing the first and second sliding components to move relative to each other. At the same time, the relative movement of the first and second sliding components drives the relative movement of two centering components. The relative movement of the two centering components simultaneously centers and aligns the laptop casing on the shaping mechanism, which is then shaped. After the shaping process is completed, the material-retrieving component retrieves the casing. This method solves the technical problem in the prior art where it is impossible to ensure that the placed laptop casing is in a centered position, which easily leads to errors in subsequent casing shaping operations. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0013] Figure 1 This is a schematic diagram of the structure of the laptop shell shaping fixture of this utility model.

[0014] Figure 2 This is the front view of the laptop shell shaping fixture of this utility model.

[0015] Figure 3 This is the utility model Figure 1 Enlarged view of the local structure at point A.

[0016] Figure 4 This is the utility model Figure 2 BB line structural cross-sectional view.

[0017] 101-Frame, 102-Shaping mechanism, 103-Force-bearing component, 104-First sliding component, 105-Second sliding component, 106-Round rod, 107-Spring, 108-Electric slide rail, 109-Sliding sleeve, 110-U-shaped plate, 111-Material picking plate, 112-Motor, 113-Oval plate, 114-Bracket, 115-Fastener, 116-L-plate, 117-Center plate, 118-Slide groove, 120-Through hole. Detailed Implementation

[0018] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.

[0019] Please see Figures 1-4 ,in Figure 1 This is a schematic diagram of the structure of the laptop shell shaping fixture of this utility model. Figure 2 This is the front view of the laptop shell shaping fixture of this utility model. Figure 3 This is the utility model Figure 1 Enlarged view of the local structure at point A. Figure 4 This is the utility model Figure 2 BB line structural cross-sectional view.

[0020] This utility model provides a laptop casing shaping fixture, including a frame 101, a shaping mechanism 102, and a centering mechanism. The centering mechanism includes a power component, a material picking component, a mounting component, a force-bearing component 103, a first sliding component 104, a second sliding component 105, two round rods 106, two centering components, and a spring 107. The material picking component includes two electric slide rails 108, two sliding sleeves 109, a U-shaped plate 110, and a material picking plate 111. The power component includes a motor 112 and an elliptical plate 113. The mounting component includes a bracket 114 and two fasteners 115. Each centering component includes an L-plate 116 and a centering plate 117. The aforementioned solution solves the technical problem in the prior art where it is impossible to ensure that the placed laptop casing is in a centered position, which leads to errors during subsequent casing shaping operations.

[0021] In this specific embodiment, the shaping mechanism 102 is disposed on the frame 101. By placing the laptop shell to be shaped on the shaping mechanism 102, the shaping mechanism 102 is used to perform shaping processing on the shell.

[0022] The power assembly is mounted on the frame 101 via the mounting assembly. The material handling assembly is disposed on the frame 101. The frame 101 has a sliding groove 118. The force-bearing component 103, the first sliding component 104, and the second sliding component 105 are all slidably connected to the sliding groove 118. The two centering components are fixedly connected to the first sliding component 104 and the second sliding component 105, respectively. One end of the round rod 106 is fixedly connected to the force-bearing component 103, and the other end of the round rod 106 passes through the first sliding component 104 and is fixedly connected to the second sliding component 105. Both ends of the spring 107 are fixedly connected to the first sliding component 104 and the second sliding component 105, respectively. In practical use, the laptop shell to be shaped is placed on the shaping mechanism 102, and the mechanism is activated. The power assembly drives the force-receiving component 103 and the first sliding component 104 to move relative to each other. While the force-receiving component 103 moves, it drives the second sliding component 105 to move via the two round rods 106, thereby causing the first sliding component 104 and the second sliding component 105 to move relative to each other. At the same time, the relative movement of the first sliding component 104 and the second sliding component 105 drives the two centering components to move relative to each other. While the two centering components move relative to each other, they center and align the laptop casing on the shaping mechanism 102, and then perform shaping processing. After the shaping processing is completed, the material picking component picks up the casing. This method solves the technical problem in the prior art that the laptop casing cannot be guaranteed to be in a centered position, which leads to errors in the subsequent shaping operation of the casing.

[0023] Secondly, the frame 101 has a through hole 119, and two electric slide rails 108 are installed on the frame 101. Two sliding sleeves 109 are respectively adapted to the corresponding electric slide rails 108. The U-shaped plate 110 is fixedly connected to the two sliding sleeves 109, and the material picking plate 111 is fixedly connected to the U-shaped plate 110. After the shaping is completed, the two electric slide rails 108 are activated, and the two electric slide rails 108 drive the two sliding sleeves 109 to move. The two sliding sleeves 109 drive the U-shaped plate 110 to move. The U-shaped plate 110 drives the material picking plate 111 to move. The material picking plate 111 pushes the shaped shell out from the through hole 119.

[0024] Meanwhile, the motor 112 is mounted on the frame 101 via the mounting assembly. The output end of the motor 112 is fixedly connected to the elliptical plate 113. The elliptical plate 113 is in contact with the force-bearing member 103 and the first sliding member 104. By starting the motor 112, the output end of the motor 112 drives the elliptical plate 113 to rotate, and the elliptical plate 113 drives the force-bearing member 103 and the first sliding member 104 to move relative to each other.

[0025] In addition, one end of each of the two fasteners 115 passes through the bracket 114 and is tightened onto the frame 101. The motor 112 is mounted on the bracket 114. By passing one end of each of the two fasteners 115 through the bracket 114 and tightening them onto the frame 101, the bracket 114 can be installed, and the motor 112 can also be installed. Conversely, disassembly is convenient.

[0026] Furthermore, the two L-plates 116 are fixedly connected to the first sliding member 104 and the second sliding member 105 respectively, and the two centering plates 117 are fixedly connected to the corresponding L-plates 116 respectively. When the first sliding member 104 and the second sliding member 105 move, they drive the two L-plates 116 to move towards each other. The two L-plates 116 drive the two centering plates 117 to move towards each other to center and align the shell.

[0027] In practical use, the laptop casing shaping fixture of this utility model involves placing the laptop casing to be shaped on the shaping mechanism 102, activating the power assembly, which drives the force-receiving component 103 and the first sliding component 104 to move relative to each other. Simultaneously, the force-receiving component 103 moves, driving the second sliding component 105 to move via two round rods 106, thus causing the first sliding component 104 and the second sliding component 105 to move relative to each other. This relative movement of the first sliding component 104 and the second sliding component 105 also drives the two centering components to move relative to each other. Simultaneously, the relative movement of the two centering components aligns the laptop casing on the shaping mechanism 102, allowing for shaping. After shaping, the material-retrieving component retrieves the casing. This method solves the technical problem in existing technologies where the inability to ensure the laptop casing is centered leads to errors during subsequent shaping operations.

[0028] The above-disclosed embodiments are merely preferred embodiments of the present utility model and should not be construed as limiting the scope of the present utility model. Those skilled in the art can understand that implementing all or part of the above-described embodiments and making equivalent changes in accordance with the claims of the present utility model are still within the scope of the utility model.

Claims

1. A laptop computer casing shaping fixture, comprising a frame and a shaping mechanism, wherein the shaping mechanism is disposed on the frame, characterized in that, It also includes intermediary institutions; The centering mechanism includes a power component, a material-picking component, a mounting component, a force-bearing component, a first sliding component, a second sliding component, two round rods, two centering components, and a spring. The power component is mounted on the frame via the mounting component. The material-picking component is disposed on the frame. The frame has a sliding groove. The force-bearing component, the first sliding component, and the second sliding component are all slidably connected to the sliding groove. The two centering components are fixedly connected to the first sliding component and the second sliding component, respectively. One end of each round rod is fixedly connected to the force-bearing component, and the other end of each round rod passes through the first sliding component and is fixedly connected to the second sliding component. Both ends of the spring are fixedly connected to the first sliding component and the second sliding component, respectively.

2. The laptop casing shaping fixture as described in claim 1, characterized in that, The material handling assembly includes two electric slide rails, two sliding sleeves, a U-shaped plate, and a material handling plate. The frame has through holes. Both electric slide rails are installed on the frame. The two sliding sleeves are respectively adapted to the corresponding electric slide rails. The U-shaped plate is fixedly connected to the two sliding sleeves. The material handling plate is fixedly connected to the U-shaped plate.

3. The laptop casing shaping fixture as described in claim 2, characterized in that, The power assembly includes a motor and an elliptical plate. The motor is mounted on the frame via the mounting assembly. The output end of the motor is fixedly connected to the elliptical plate. The elliptical plate is in contact with the force-bearing component and the first sliding component.

4. The laptop casing shaping fixture as described in claim 3, characterized in that, The mounting assembly includes a bracket and two fasteners, one end of each of the two fasteners passing through the bracket and being tightened onto the frame. The motor is mounted on the bracket.

5. The laptop casing shaping fixture as described in claim 4, characterized in that, Each of the centering components includes an L-plate and a centering plate. The two L-plates are fixedly connected to the first sliding component and the second sliding component, respectively, and the two centering plates are fixedly connected to the corresponding L-plates.