CN210137343U - Glass apron with resistant structure that falls - Google Patents

Abstract

The utility model relates to a glass apron with resistant structure that falls, it is mainly when the lateral margin of glass substrate collides the ground, a plurality of buffer space carry out elastic deformation on it through the accessible, it says to absorb the impact of touchhing ground, and simultaneously usable backstop piece and the elastic component of below absorb the impact again effectively and say, and make the glass substrate do not have the impact or under the effect that minimum impact was said, reduce the impaired probability of glass substrate fracture by a wide margin, and then can improve the anti cracked intensity of glass substrate, and can reduce the cost of maintenance change by a wide margin.

Description

Glass apron with resistant structure that falls

Technical Field

The utility model relates to a glass apron of smart mobile phone especially indicates a glass apron with resistant structure that falls.

Background

As is well known, in addition to the function of communication, the current smart phone also has an independent operation space and an independent operating system like a personal computer, so that a user can provide various computer Applications (APP) by a manufacturer or a service provider to install software, games, navigation and the like by himself, and can connect to a wireless network through a mobile communication network; therefore, in the modern times with advanced technology, the smart phone becomes one of the necessities of people's life, and many people can bring the smart phone wherever they go, and even if no phone call or short message exists, people can play a game on the smart phone, play a QQ or a WeChat, and even swipe a microblog.

However, with the increase of the use frequency of the smart phone by people, the smart phone is operated and used by people on hands, the appearance of the smart phone is smooth, and other factors, so that the smart phone is smelled when being used and is damaged due to the fact that the smart phone accidentally slides down and collides with the ground, and in fact, most of the smart phone is damaged by the screen once the smart phone slides down to the ground; however, at present, there is no structural design for preventing falling set on the outermost glass cover plate of the smart phone screen, and it is impossible to provide any protection function for the touch screen and the display panel thereunder, so when the glass cover plate is damaged by colliding with the ground, the probability of damage to the touch screen and/or the display panel thereunder is very high, and the cost of maintenance and replacement is greatly increased, which is a major disadvantage of the conventional technology.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical scheme who adopts does: a glass cover plate with a falling-resistant structure comprises a glass substrate, wherein the glass substrate is at least provided with a side edge, a plurality of combining holes are arranged on the side edge at intervals, a first elastic absorption pad is arranged on the side edge, a plurality of first concave parts and a plurality of combining convex columns embedded into the combining holes are arranged at the position, corresponding to the outer edge of the combining holes, of the first elastic absorption pad, a concave groove communicated with the combining convex columns is arranged in the combining convex columns towards the direction of the first concave parts, an elastic piece is connected with the groove bottom of the concave groove, a stopping piece is arranged at the other end of the elastic piece, the stopping piece protrudes out of the groove opening of the concave groove for a certain distance, a second elastic absorption pad is arranged on the first elastic absorption pad, a second concave part is arranged at the position, corresponding to the first concave part of the first elastic absorption pad, and a buffer space is formed between the second concave part and the first concave part, and a plurality of connecting parts are arranged between the first elastic absorption pad and the second elastic absorption pad, the connecting parts are at least provided with a clamping hook and a clamping groove, and the clamping hook and the clamping groove are respectively arranged on the first elastic absorption pad and the second elastic absorption pad.

In one embodiment, the resilient member is a compression spring.

In a specific implementation, the first elastic absorption pad and the second elastic absorption pad of the glass substrate are made of rubber.

In specific implementation, a protective coating is arranged on the lower surface of the glass substrate, and the protective coating is made of transparent materials, so that the arrangement of the protective coating does not influence the emission of images and colors on a display panel below the glass substrate.

The utility model has the advantages that: through the above structure, when the glass substrate of the present invention is dropped carelessly and collides with the ground during the use process, the impact force can be absorbed effectively through the elastic deformation of the plurality of buffer spaces, and then the impact force is reduced to the minimum, however, when the impact force is too large and the inner wall of the buffer space abuts against the stop piece, the elastic member below the stop piece can also absorb the impact force again, so that the glass substrate can greatly reduce the probability of breakage and damage of the glass substrate under the effect of no impact force or extremely small impact force, and further can improve the strength of breakage resistance of the glass substrate, furthermore, the present invention can also effectively increase the toughness of the lower surface of the glass substrate through the protective coating on the lower surface of the glass substrate, so that after the impact force is absorbed through the buffer spaces, if part of the impact force acts on the glass substrate, the glass substrate can prevent the impact force from acting on the touch screen below by the protective coating on the lower surface, so that the touch screen has no problem of damage and breakage when the glass substrate collides with the ground, and the cost of maintenance and replacement is greatly reduced.

Drawings

Fig. 1 is a schematic structural section view of the present invention.

Fig. 2 is a schematic sectional view of the structure of the second elastic absorbent pad of the present invention not bonded to the first elastic absorbent pad.

Detailed Description

As shown in fig. 1 and 2, a glass cover plate with a shatter-resistant structure includes: a glass substrate 10, wherein the glass substrate 10 at least has a side edge 11, and the side edge 11 is spaced with a plurality of combining holes 12, and the side edge 11 is provided with a first elastic absorption pad 20, and the outer edge of the first elastic absorption pad 20 corresponding to the combining holes 12 is provided with a plurality of first concave portions 21 and a plurality of combining convex columns 22 embedded into the combining holes 12, and the combining convex columns 22 are provided with communicated concave grooves 23 towards the first concave portions 21, the bottom of the concave grooves 23 is connected with an elastic member 24, and the other end of the elastic member 24 is provided with a stopping sheet 25, and the stopping sheet 25 protrudes out of the notch of the concave grooves 23 by a distance, the first elastic absorption pad 20 is provided with a second elastic absorption pad 30, and the second elastic absorption pad 30 is provided with a second concave portion 31 corresponding to the first concave portion 21 of the first elastic absorption pad 20, a buffer space 32 is formed between the second concave portion 31 and the first concave portion 21, a plurality of connecting portions 40 are disposed between the first elastic absorption pad 20 and the second elastic absorption pad 30, the connecting portions 40 at least have a fastening hook 41 and a fastening slot 42, and the fastening hook 41 and the fastening slot 42 are respectively disposed on the first elastic absorption pad 20 and the second elastic absorption pad 30.

In one embodiment, the resilient member 24 is a compression spring.

In practical implementation, the first elastic absorption pad 20 and the second elastic absorption pad 30 of the glass substrate 10 are made of rubber.

In practical implementation, a protective coating 15 is disposed on the lower surface of the glass substrate 10, and the protective coating 15 is made of a transparent material, so that the arrangement of the protective coating 15 does not affect the emission of images and colors on the display panel below the glass substrate 10.

Through the above structure, when the glass substrate 10 is dropped carelessly and collides with the ground during the use process, the impact force can be absorbed effectively by the elastic deformation of the plurality of buffer spaces 32, and the impact force is reduced to the minimum, however, when the impact force is too large and the inner wall of the buffer space 32 abuts against the stopper piece 25, the elastic member 24 under the stopper piece 25 can also absorb the impact force again, so that the glass substrate 10 can greatly reduce the probability of breakage and damage of the glass substrate 10 under the effect of no impact force or extremely small impact force, and further the anti-breakage strength of the glass substrate 10 can be improved, furthermore, the utility model can effectively increase the toughness of the lower surface of the glass substrate 10 through the protective coating 15 on the lower surface of the glass substrate 10, so that the impact force is absorbed through the buffer spaces 32, if there is some impact force acting on the glass substrate 10, the glass substrate 10 can be blocked by the protective coating 15 on the lower surface from acting on the touch screen below, so that the touch screen has no problem of damage and breakage when the glass substrate 10 impacts the ground, thereby greatly reducing the cost of maintenance and replacement.

Claims (3)

1. The utility model provides a glass apron with resistant structure that falls which characterized in that: comprises a glass substrate at least having a side edge, a plurality of combining holes spaced on the side edge, a first elastic absorbing pad disposed on the side edge, a plurality of first concave portions and a plurality of combining convex columns embedded in the combining holes disposed on the outer edge of the first elastic absorbing pad opposite to the combining holes, a concave groove disposed in the combining convex column and communicated with the first concave portion, an elastic member connected to the bottom of the concave groove, a stop piece disposed at the other end of the elastic member and protruding out of the notch of the concave groove by a distance, a second elastic absorbing pad disposed on the first elastic absorbing pad and having a second concave portion opposite to the first concave portion, a buffer space formed between the second concave portion and the first concave portion, and a plurality of connecting parts are arranged between the first elastic absorption pad and the second elastic absorption pad, the connecting parts are at least provided with a clamping hook and a clamping groove, and the clamping hook and the clamping groove are respectively arranged on the first elastic absorption pad and the second elastic absorption pad.

2. The fall-resistant glass cover plate of claim 1, wherein: the elastic member is a compression spring.

3. The fall-resistant glass cover plate of claim 1, wherein: the lower surface of the glass substrate is provided with a transparent protective coating.

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