CN201181435Y

CN201181435Y - Shock-proof structure providing buffer shock-proof effect for display panel and display device thereof

Info

Publication number: CN201181435Y
Application number: CNU2008201112979U
Authority: CN
Inventors: 王日祥
Original assignee: Wistron Corp
Current assignee: Wistron Corp
Priority date: 2008-04-28
Filing date: 2008-04-28
Publication date: 2009-01-14
Anticipated expiration: 2018-04-28

Abstract

The utility model relates to a shock absorber structure and display device of effect of moving away to avoid possible earthquakes of display panel buffering. The utility model discloses a shock-absorbing structure, which comprises a shell, wherein the shell comprises a bottom plate and a side wall connected with the bottom plate; the elastic sheet component is used for clamping the side wall and comprises a first end and a second end; a supporting piece connected to a display panel, the supporting piece being used for pressing down the first end of the elastic sheet component; and the frame is arranged on one side of the display panel and covers the display panel together with the shell, and the frame is used for pressing down the second end of the elastic sheet component so as to enable the elastic sheet component to elastically support the display panel in the shell.

Description

The anti-vibration structure and the display device thereof of display panel buffering and shock-proof effect are provided

Technical field

The utility model provides a kind of anti-vibration structure and display device thereof that the display panel buffering and shock-proof effect is provided, especially a kind of anti-vibration structure and display device thereof of utilizing the shell fragment assembly that the display panel buffering and shock-proof effect is provided.

Background technology

In the past, the user is all at home or uses in the office desktop PC to finish when carrying out data processing, when the user goes out, because desktop PC can't carry, causes the user can't handle any documentation when going out.Yet, prosperity day by day along with Information technology, existing many portable computers are developed, as notebook computer and personal digital assistant (personal data assistant, PDA) just be very general example, product that these make things convenient for the user to carry, having solved the user only can be at home or the problem of fixed location deal with data such as office.; because portable computer allows the user be convenient for carrying, to use conveniently; put reposefully on table as desktop PC; also usually be used under the environment of vibration; more can accidentally portable computer be clashed into because of user's use; as by being dropped in ground, or the LCD Panel of portable computer be everlasting close or the unlatching situation under, because of user's application of force excessive or other improperly external force cause LCD Panel to damage.Especially set LCD Panel in the portable computer is generally and uses frangible material made, can't bear bigger impulsive force, but be the important interface of portable computer display operation; Therefore, in order to make portable computer more durable, effectively the buffer gear of the impulsive force of absorption liquid crystal display screen also becomes the emphasis that the information dealer makes great efforts to research and develop.

For the LCD Panel that makes portable computer is difficult for producing when being impacted or vibrate destroying, the inner regular meeting of known portable computer is provided with by the made elastic body of plastics or sponge elastomeric material as Buffer Unit, so when LCD Panel is subjected to impacting, elastic body can absorb a part of impulsive force, so that display is difficult for being damaged, yet, elastic body with plastics or sponge material manufacturing, its impulsive force that can effectively absorb is limited, therefore when LCD Panel is subjected to impacting, most impulsive force is still born by LCD Panel itself, and have only the impulsive force of little part to share by elastic body, though elastomeric thickness thickened helps to increase the absorbent impulsive force of elastic body, but relatively also can increase elastomeric volume, thereby take the inner space of portable computer, the elastic body of plastics or sponge its characteristic under hot and humid environment can change in addition, further influence the scope that it can absorb impulsive force, moreover in different types of portable computer, display panels, the material of printed circuit board (PCB) etc., weight, physical strength is all different, the elastic body of different physical characteristicss (for example elasticity coefficient) of also will arranging in pairs or groups, effective shock absorbing power, if with plastics, sponge is as elastic body, then must to change its material composition or processing procedure, just can obtain the elastic body of different physical characteristicss; In addition, if replace plastics or the made elastic body of sponge elastomeric material, then have the cushion effect skewness, lock screw increase man-hour and cost, assemble the more high shortcoming of difficulty with spring.This also makes the design of known buffering and shock preventing system lack dirigibility (flexibility) and the nargin in the design, can increase time and cost that design is produced again.

The utility model content

The utility model provides a kind of anti-vibration structure and display device thereof of utilizing the shell fragment assembly that the display panel buffering and shock-proof effect is provided, to solve the above problems.

Claim scope of the present utility model discloses a kind of anti-vibration structure that is used to provide a display panel buffering and shock-proof effect, and described anti-vibration structure includes a housing, and described housing includes a base plate, and a sidewall, is connected in this base plate; One shell fragment assembly, it is used for being sticked in this sidewall, and this shell fragment assembly includes one first end and one second end; One support member, it is connected in this display panel, and this support member is used for pressing down this first end of this shell fragment assembly; And a framework, being installed on a side of this display panel and coating this display panel jointly with this housing, this framework is used for pressing down this second end of this shell fragment assembly, so that this shell fragment assembly flexibly is supported in this display panel in this housing.

Claim scope of the present utility model also discloses a kind of display device that a display panel buffering and shock-proof effect is provided that has, and described display device includes a housing, and described housing includes a base plate, and a sidewall, is connected in this base plate; One display panel is installed in this housing; One shell fragment assembly, it is used for being sticked in this sidewall, and this shell fragment assembly includes one first end and one second end; One support member, it is connected in this display panel, and this support member is used for pressing down this first end of this shell fragment assembly; And a framework, being installed on a side of this display panel and coating this display panel jointly with this housing, this framework is used for pressing down this second end of this shell fragment assembly, so that this shell fragment assembly flexibly is supported in this display panel in this housing.

Description of drawings

Fig. 1 is the assembly exploded view of the display device of the utility model preferred embodiment.

Fig. 2 is the still unassembled diagrammatic cross-section of display device on display panel time of framework of the present utility model.

Fig. 3 is the local enlarged diagram of Fig. 2.

The diagrammatic cross-section of display device when Fig. 4 has been assembled on the display panel for framework of the present utility model.

Fig. 5 is the local enlarged diagram of Fig. 4.

The primary clustering symbol description:

50 display device, 52 housings

54 base plates, 56 sidewalls

58 trips, 60 rod members

62 display panels, 64 shell fragment assemblies

641 ring parts, 642 first kinks

643 second kinks, 66 support members

661 connecting portions, 662 retaining parts

68 keepers, 70 frameworks

72 prodgers

Embodiment

See also Fig. 1, Fig. 1 is the assembly exploded view of a display device 50 of the utility model preferred embodiment, and display device 50 can be a liquid crystal indicator, and it can be applicable in the portable computer.Display device 50 comprises a housing 52, it includes a base plate 54, at least one sidewall 56, be connected to the both sides of base plate 54, and at least one trip 58, be arranged on the base plate 54, wherein base plate 54 can be formed in one with trip 58 with sidewall 56 and base plate 54, and sidewall 56 is provided with at least one rod member 60, and rod member 60 can integrated mode be connected in sidewall 56.Sidewall 56, trip 58, and rod member 60 the position is set and number is not limited to the disclosed structure of present embodiment.Display device 50 also includes a display panel 62, is installed in the housing 52, and display panel 62 can be a display panels.

Display device 50 also includes at least one shell fragment assembly 64, it is used for engaging and is articulated in the rod member 60 on the sidewall 56 respectively, meaning is the quantity of the quantity of shell fragment assembly 64 corresponding to rod member 60, shell fragment assembly 64 is made up of elastic material, as metal or plastic material etc., in addition based on different types of display device, display panel, the material of printed circuit board (PCB) etc., weight, physical strength is all different, so can be by the shell fragment assembly 64 of the different elasticity coefficient of collocation, at diverse location shell fragment assembly 64 is set, or the shell fragment assembly 64 of varying number is set, use the scheme of the effective shock absorbing power that reaches optimization and customization.Display device 50 also includes at least one support member 66, and it is connected to the both sides of display panel 62, and support member 66 includes a junction 661, and it is used for being connected in display panel 62, and a retaining part 662, and it is vertically connected at connecting portion 661.And support member 66 can be locked in display panel 62 by connecting portion 661, or support member 66 can be formed in one with display panel 62, and support member 66 can be a brandreth or a plastic processing frame in addition.Display device 50 also includes at least one keeper 68, and it is connected to the both sides of display panel 62 and is arranged at position with respect to trip 58, and the trip 58 on the base plate 54 can be used to insert keeper 68, uses moving of restriction display panel 62.Wherein keeper 68 can be locked in display panel 62, or keeper 68 can be formed in one with display panel 62.Display device 50 also includes a framework 70, is installed on the top of display panel 62 and coats display panels 62 jointly with housing 52.

See also Fig. 2 to Fig. 5, Fig. 2 is the still unassembled diagrammatic cross-section of display device 50 on display panel 62 time of framework 70 of the present utility model, Fig. 3 is the local enlarged diagram of Fig. 2, the diagrammatic cross-section of display device 50 when Fig. 4 has been assembled on the display panel 62 for framework 70 of the present utility model, Fig. 5 is the local enlarged diagram of Fig. 4.Be formed with a prodger 72 on the both sides of framework 70 respectively, it is arranged at the position of corresponding shell fragment assembly 64 and rod member 60, shell fragment assembly 64 includes a ring part 641, be used for being sticked in rod member 60, one first kink 642 (with respect to one first end of elastic parts 64), be connected in an end of ring part 641, and one second kink 643 (with respect to one second end of elastic parts 64), be connected in the other end of ring part 641.See also Fig. 1, Fig. 2, and Fig. 3, the assembling sequence of display device 50 of the present utility model can be the rod member 60 on the sidewall 56 that earlier each shell fragment assembly 64 is snapped in housing 52, again display panel 62 is inserted in the housing 52 afterwards, the retaining part 662 that is connected in the support member 66 of display panel 62 this moment just can press down first kink 642 of shell fragment assembly 64, the ring part 641 of shell fragment assembly 64 can be axle center rotation with rod member 60 just thus, and makes second kink 643 of shell fragment assembly 64 as the seesaw perk.See also Fig. 4 and Fig. 5, next framework 70 can be installed on the top of display panel 62, the prodger 72 of framework 70 just can press down second kink 643 of shell fragment assembly 64 at this moment, (constrain) all suffers restraints with this second end (second kink 643) and make this first end (first kink 642) of shell fragment assembly 64, because shell fragment assembly 64 is an elastic construction thing, so the time first kink 642 and second kink 643 produce elastic deformation respectively, so display panel 62 and framework 70 elastic forces can be provided respectively, with as Buffer Unit.By having additional the shell fragment assembly 64 that helps display panel 62 shock-absorbings or damping in display panel 62 fixed sturcture positions, can make display device 50 when being impacted or vibrate, absorb impulsive force partly, so that display panel 62 is difficult for being damaged by shell fragment assembly 64.

Compared to prior art, the utility model utilizes the shell fragment assembly that the effect of display panel buffering and shock preventing is provided, because elastic piece structure has wide, the simple and convenient assembly, with low cost of scope that cushion effect was evenly distributed, effectively absorbed impulsive force, and have design and go up dirigibility and nargin (the shell fragment assembly of the different elasticity coefficient of alternative collocation, at diverse location the shell fragment assembly is set, or shell fragment assembly of varying number etc. is set), use the scheme of the effective shock absorbing power that reaches optimization and customization, so that display panel is difficult for causing damage when being impacted or clash into.

The above only is preferred embodiment of the present utility model, and all equivalent variations and modifications of being done according to the utility model claim scope all should belong to the covering scope of the utility model patent.

Claims

1. an anti-vibration structure that is used to provide a display panel buffering and shock-proof effect is characterized in that, described anti-vibration structure comprises:

One housing, it comprises a base plate, and a sidewall, is connected in described base plate;

One shell fragment assembly, it is used for being sticked in described sidewall, and described shell fragment assembly comprises one first end and one second end;

One support member, it is connected in described display panel, and described support member is used for pressing down described first end of described shell fragment assembly; And

One framework is installed on a side of described display panel and coats described display panel jointly with described housing, and described framework is used for pressing down described second end of described shell fragment assembly, so that described shell fragment assembly flexibly is supported in described display panel in the described housing.

2. anti-vibration structure as claimed in claim 1 is characterized in that, wherein said base plate and described sidewall are formed in one.

3. anti-vibration structure as claimed in claim 1 is characterized in that wherein said sidewall is provided with a rod member, and described shell fragment assembly is articulated in described rod member.

4. anti-vibration structure as claimed in claim 3 is characterized in that, wherein said shell fragment assembly comprises a ring part, is used for being sticked in described rod member.

5. anti-vibration structure as claimed in claim 4 is characterized in that, wherein said shell fragment assembly comprises:

One first kink is connected in an end of described ring part, and wherein said support member is used for pressing down described first kink of described shell fragment assembly; And

One second kink is connected in the other end of described ring part, and wherein said framework is used for pressing down described second kink of described shell fragment assembly.

6. anti-vibration structure as claimed in claim 5 is characterized in that, is formed with a prodger on the wherein said framework, and it is used for pressing down described second kink of described shell fragment assembly.

7. anti-vibration structure as claimed in claim 1 is characterized in that, wherein said support member comprises:

A junction, it is used for being connected in described display panel; And

One retaining part, it is connected in described connecting portion, and described retaining part is used for pressing down described first end of described shell fragment assembly.

8. anti-vibration structure as claimed in claim 1 is characterized in that wherein said support member is locked in described display panel.

9. anti-vibration structure as claimed in claim 1 is characterized in that, wherein said support member and described display panel are formed in one.

10. anti-vibration structure as claimed in claim 1 is characterized in that, wherein said support member is a brandreth or a plastic processing frame.

11. anti-vibration structure as claimed in claim 1 is characterized in that, described anti-vibration structure also comprises positioning piece, it is connected in described display panel, the described base plate of described housing is provided with a trip, is used for inserting described keeper, uses moving of the described display panel of restriction.

12. anti-vibration structure as claimed in claim 11 is characterized in that, wherein said keeper is locked in described display panel.

13. anti-vibration structure as claimed in claim 11 is characterized in that, wherein said keeper and described display panel are formed in one.

14. anti-vibration structure as claimed in claim 1 is characterized in that, wherein said shell fragment assembly comprises a ring part, is used for being sticked in described sidewall.

15. anti-vibration structure as claimed in claim 14 is characterized in that, wherein said shell fragment assembly comprises:

16. anti-vibration structure as claimed in claim 15 is characterized in that, is formed with a prodger on the wherein said framework, it is used for pressing down described second kink of described shell fragment assembly.

17. one kind has the display device that a display panel buffering and shock-proof effect is provided, and it is characterized in that, described display device comprises:

One display panel is installed in the described housing;

One framework is installed on a side of described display panel and coats described display panel jointly with described housing, and described framework is used for pressing down described second end of described shell fragment assembly, so that described shell fragment assembly flexibly supports described display panel in described housing.

18. display device as claimed in claim 17 is characterized in that, wherein said base plate and described sidewall are formed in one.

19. display device as claimed in claim 17 is characterized in that, wherein said sidewall is provided with a rod member, and described shell fragment assembly is articulated in described rod member.

20. display device as claimed in claim 19 is characterized in that, wherein said shell fragment assembly comprises a ring part, is used for being sticked in described rod member.

21. display device as claimed in claim 20 is characterized in that, wherein said shell fragment assembly comprises:

22. display device as claimed in claim 21 is characterized in that, is formed with a prodger on the wherein said framework, it is used for pressing down described second kink of described shell fragment assembly.

23. display device as claimed in claim 17 is characterized in that, wherein said support member comprises:

A junction, it is used for being connected in described display panel; And

24. display device as claimed in claim 17 is characterized in that, wherein said support member is locked in described display panel.

25. display device as claimed in claim 17 is characterized in that, wherein said support member and described display panel are formed in one.

26. display device as claimed in claim 17 is characterized in that, wherein said support member is a brandreth or a plastic processing frame.

27. display device as claimed in claim 17 is characterized in that, described display device also comprises positioning piece, it is connected in described display panel, the described base plate of described housing is provided with a trip, is used for inserting described keeper, uses moving of the described display panel of restriction.

28. display device as claimed in claim 27 is characterized in that, wherein said keeper is locked in described display panel.

29. display device as claimed in claim 27 is characterized in that, wherein said keeper and described display panel are formed in one.

30. display device as claimed in claim 17 is characterized in that, wherein said shell fragment assembly comprises a ring part, is used for being sticked in described sidewall.

31. display device as claimed in claim 30 is characterized in that, wherein said shell fragment assembly comprises:

32. display device as claimed in claim 32 is characterized in that, is formed with a prodger on the wherein said framework, it is used for pressing down described second kink of described shell fragment assembly.

33. display device as claimed in claim 17 is characterized in that, wherein said display panel is a display panels.