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CN-224205383-U - Structure for increasing product drop resistance

CN224205383UCN 224205383 UCN224205383 UCN 224205383UCN-224205383-U

Abstract

The utility model provides a structure for increasing product anti-falling, which relates to the technical field of electronic products and comprises a product main body, wherein the top of the product main body is connected with an anti-falling structure, the anti-falling structure comprises a display screen, the top of the display screen is connected with a touch screen, the top of the touch screen is connected with a first glass panel, the surface of the first glass panel is connected with glue, the top of the glue is connected with a second glass panel, and the bottom of the product main body is connected with a dustproof heat dissipation assembly. In the utility model, the thickness scheme of the scheme can be more flexible. The selection can be comprehensively evaluated according to the client strength requirement and the client structure. The strength is close to that of glass with the same thickness. In addition, after the glass surface atress, the force is transmitted to another glass earlier, and finally is on transmitting touch-sensitive screen and display screen, and the force has been divided partly this moment, and the force of transmitting on touch-sensitive screen and the display screen is less, and this structural design can be better protection product when satisfying product strength.

Inventors

  • Mao Guofei
  • Hu Quanfeng
  • ZHOU WEIHAI

Assignees

  • 金龙机电(杭州)有限公司

Dates

Publication Date
20260505
Application Date
20250528

Claims (6)

  1. 1. The structure for increasing the anti-falling performance of the product comprises a product main body (1) and is characterized in that the top of the product main body (1) is connected with an anti-falling structure (2); Anti structure (2) that falls includes display screen (201), the top of display screen (201) is connected with touch-sensitive screen (202), the top of touch-sensitive screen (202) is connected with first glass panel (203), the surface connection of first glass panel (203) has glue (204), the top of gluing (204) is connected with second glass panel (205), the bottom of product main part (1) is connected with dustproof radiating component (3).
  2. 2. A structure for increasing the shatter resistance of a product according to claim 1, wherein the surface of said second glass panel (205) is provided with a frosted anti-slip layer.
  3. 3. The structure for increasing product drop resistance according to claim 1, wherein the bottom of the product main body (1) is connected with a dustproof heat dissipation component (3), the dustproof heat dissipation component (3) comprises a temperature control fan (301), and clamping grooves (302) are formed in the bottoms of two sides of the product main body (1).
  4. 4. The structure for increasing product drop resistance according to claim 3, wherein the front end of the bottom of the product main body (1) is slidably connected with a dust screen (303), the front end of the dust screen (303) is connected with a handle (304), and slots (305) are formed in two sides of the dust screen (303).
  5. 5. The structure for increasing product drop resistance according to claim 4, wherein a clamping plate (306) is inserted into the clamping groove (302), a magnetic block (307) is connected to the front end of the clamping plate (306), and a groove (308) is formed in the rear end of the clamping plate (306).
  6. 6. The structure for increasing product drop resistance according to claim 5, wherein folding feet (309) are connected to four corners of the bottom of the product main body (1), anti-slip pads (310) are connected to the bottoms of the folding feet (309), heat dissipation holes (311) are connected to the front and rear ends of the bottom of the product main body (1), and the clamping plates (306) drive the magnetic attraction blocks (307) to form magnetic attraction connection with the slots (305).

Description

Structure for increasing product drop resistance Technical Field The utility model relates to the technical field of electronic products, in particular to a structure for increasing the anti-falling performance of a product. Background With the increase of industry competitive pressure, the requirements of people on products are higher and higher, and the display/touch industry is increasingly beginning to meet the requirements on the strength of the products, wherein the strength is conventionally provided with anti-falling strength and anti-falling ball strength. The higher anti-drop/ball drop capability allows the product to be more dominant in market competition. Conventional method for improving product strength in the market at present 1) By improving the strengthening parameters of the panel glass, the strengthened glass molecules are more compact and firm, and the glass molecules are not easy to disperse and crack after the glass is impacted; 2) A panel glass having a relatively thick thickness is selected. The thicker the glass, the higher the impact resistance; 3) Other objects such as plastic polymer materials are added on the glass for protection. However, the conventional structure has the following problems 1) The prior equipment/technology can only improve the strengthening performance to a small extent, and the improved strength is limited. And the higher the glass strengthening performance, the higher the cost involved, and the greater the technical difficulty. The thicker the glass strengthening difficulty is. 2) The existing scheme adopts a plastic polymer material film which is arranged around a transparent glass plate in a framing manner for protection, and the scheme can prevent products from falling, but the scheme cannot meet the anti-falling ball requirement of a product center. The plastic polymer material cannot be protected to the middle position of the glass. 3) Thicker glass is selected to meet customer anti-fade/anti-ball drop requirements, but may not structurally meet customer requirements. The selection of thick glass has an effect on the overall mechanism. In addition, the thick glass scheme has a limitation in the process, the thick glass is better in shape cutting and printing compared with the thin glass, the thickness of the glass is too thick, CNC (computer numerical control) cutting is needed for cutting the shape, and in the multi-cutting process, the deviation of a bearing is easy to cause the size deviation of a product. The height of the lower table of the screen plate needs to be controlled to prevent the screen plate from sinking too much and the thick glass from top breaking the screen plate. 5) The conventional scheme is that the panel glass is directly attached to the rear touch film and the display screen, if the surface glass panel is impacted by force, the force can be directly transmitted to the upper surface of the touch film and the display screen, the rear function is easily affected, and touch-free and abnormal display can be possibly caused. 6) In the product maintenance/reworking aspect, the conventional aspect needs to detach the surface glass after the glass is broken, because the back surface of the surface glass is directly contacted with the screen, the touch control on the back surface is easy to influence in the maintenance process. Therefore, we propose a new structure to increase the product's resistance to falling. Disclosure of utility model The utility model aims to solve the problem of lower anti-falling performance of the existing product structure in the prior art. In order to achieve the above purpose, the anti-falling structure for the product comprises a product main body, wherein the top of the product main body is connected with the anti-falling structure, the anti-falling structure comprises a display screen, the top of the display screen is connected with a touch screen, the top of the touch screen is connected with a first glass panel, the surface of the first glass panel is connected with glue, the top of the glue is connected with a second glass panel, and the bottom of the product main body is connected with a dustproof heat dissipation assembly. Further, the surface of the second glass panel is provided with a frosted anti-slip layer, so that the second glass panel has the functions of wear resistance and slip resistance. Further, the bottom of product main part is connected with dustproof cooling module, dustproof cooling module includes the control by temperature change fan, the draw-in groove has all been seted up to the both sides bottom of product main part, can dispel the heat to the product main part automatically through the control by temperature change fan. Further, the bottom front end sliding connection of product main part has the dust screen, the front end of dust screen is connected with the handle, the slot has all been seted up to the both sides of dust screen, when carrying out heat dissipation, can also