CN205121415U - Bending structure and electronic equipment - Google Patents

Abstract

The utility model discloses a bending structure for electronic equipment, including first structural layer and second structural layer, the second structural layer overlaps the setting with first structural layer, bending structure has straight state and a curved curved attitude, first structural layer have can be crooked first bending section, the second structural layer have can be crooked the second bending section, first bending section overlaps with the second bending section and corresponds, when bending structure was curved curved attitude, the central angle that first bending section and second bending section corresponded was same angle for the both ends of the crooked end of the both ends of first bending section and second are the parallel and level respectively, thereby the both ends parallel and level respectively of two structural layers when ensureing that bending structure is curved curved attitude prevents that two structural layers and electronic equipment's casing from producing the relative slip, does benefit to two structural layers and be fixed in above -mentioned casing respectively. The utility model discloses still disclose an electronic equipment, this electronic equipment has used above -mentioned bending structure, and this bending structure is fixed convenient and reliable with the casing.

Description

Warp architecture and electronic equipment

Technical field

The utility model relates to Mechanical Industry Technology field, more particularly, relates to a kind of warp architecture, also relates to a kind of electronic equipment applying above-mentioned warp architecture.

Background technology

Along with the development of society, flexible electronic devices is more and more widely used in people's productive life.

Refer to Fig. 1-2, flexible electronic devices comprises the double-layer structure overlapped, and when flexible electronic devices is straightened condition, two structural sheet length are identical, as shown in Figure 1; When flexible electronic devices is case of bending, as shown in Figure 2, although the corresponding same center of circle of the structural sheet of two bowed state, but the radius that two structural sheets are corresponding is not identical, the central angle corresponding to two structural sheets causing arc length identical is different, the end of two structural sheets is not concordant, and the two ends of the inside structure layer 2 that the shell of flexible electronic devices must be given prominence to by end hold out against, cause the end of outboard structure layer 1 and above-mentioned shell generation relative sliding, be unfavorable for fixing, even affect the life-span of electronic equipment.

In sum, how to solve in prior art two stacked structural sheets and cause the end of outboard structure layer and housing to produce relative sliding because switching to case of bending rearward end not concordant, unfavorable fixing problem is those skilled in the art's problem demanding prompt solutions.

Utility model content

In view of this, the utility model provides a kind of warp architecture, when this warp architecture is case of bending, the central angle corresponding to first bending section of the first structural sheet and the central angle corresponding to the second bending section of the second structural sheet are same angle, namely the two ends of the first bending section and the two ends of the second curved end are distinguished concordant, thus ensure that two structural sheets and housing are all without relative sliding, are beneficial to two structural sheets and are individually fixed in housing.The utility model also provides a kind of electronic equipment, the above-mentioned warp architecture of this electronic apparatus application, this warp architecture and housing convenient fixing reliable.

For achieving the above object, the utility model provides following technical scheme:

A kind of warp architecture, for electronic equipment, comprising:

First structural sheet;

Second structural sheet, described second structural sheet and described first structural sheet overlap;

Wherein, described warp architecture has straightened condition and case of bending, and described first structural sheet has first bending section that can bend, and described second structural sheet has second bending section that can bend; Described first bending section is overlapping corresponding with described second bending section;

When described warp architecture is case of bending, the central angle corresponding to described first bending section and the central angle corresponding to described second bending section are same angle.

Preferably, in above-mentioned warp architecture, the length of described first bending section is constant, described second bending section deviates from the length on the limit of described first structural sheet is corresponding with the state of described warp architecture to be changed.

Preferably, in above-mentioned warp architecture, described second bending section comprises active section group, and described active section group comprises multiple active section connected successively.

Preferably, in above-mentioned warp architecture, described active section group comprises:

First active section, described first active section is provided with pin;

Second active section, described second active section is provided with deep-slotted chip breaker;

Intermediate active saves, and described intermediate active joint is provided with pin and deep-slotted chip breaker;

Described intermediate active joint is between described first active section and described second active section, and each described intermediate active joint is all by two active section snap-fit engagement that its pin and deep-slotted chip breaker are adjacent respectively.

Preferably, in above-mentioned warp architecture, when described warp architecture is switched to case of bending by straightened condition, in described active section group, each active section rotates successively.

Preferably, in above-mentioned warp architecture, described active section group comprises link gear; When described warp architecture carries out state switching, described link gear makes all active sections in described active section group rotate simultaneously.

Preferably, in above-mentioned warp architecture, the center of circle corresponding to deep-slotted chip breaker of described second active section and described intermediate active joint lays respectively at described first structural sheet.

Preferably, in above-mentioned warp architecture, when described warp architecture is case of bending, the center of circle of described second bending section is positioned at the side that described second structural sheet deviates from described first structural sheet.

A kind of electronic equipment, comprise warp architecture, described warp architecture is the warp architecture in technique scheme described in any one, and described first structural sheet is screen assembly layer.

The utility model provides a kind of warp architecture, and for electronic equipment, this warp architecture comprises the first structural sheet and the second structural sheet; Second structural sheet and the first structural sheet overlap; Wherein, warp architecture has straightened condition and case of bending, and the first structural sheet has first bending section that can bend, and the second structural sheet has second bending section that can bend; First bending section is overlapping corresponding with the second bending section; When warp architecture is case of bending, the first bending section and the central angle corresponding to the second bending section are same angle.

When the warp architecture that the utility model provides is case of bending, the central angle corresponding to first bending section of the first structural sheet and the central angle corresponding to the second bending section of the second structural sheet are same angle, even if the two ends of the first bending section are concordant respectively with the two ends of the second curved end, thus the two ends of two structural sheets are concordant respectively when guaranteeing that warp architecture is case of bending, prevent the housing of two structural sheets and electronic equipment from producing relative sliding, be beneficial to two structural sheets and be individually fixed in above-mentioned housing.

The utility model also provides a kind of electronic equipment, the above-mentioned warp architecture of this electronic apparatus application, this warp architecture and housing convenient fixing reliable.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the warp architecture of straightened condition in prior art;

Fig. 2 is the structural representation of the warp architecture of case of bending in prior art;

Fig. 3 is the structural representation of active section group when case of bending that the utility model embodiment provides is straightened condition;

Fig. 4 is the detailed structure schematic diagram of intermediate active joint in active section group in Fig. 3;

The structural representation of the intermediate active joint that Fig. 5 provides for the utility model embodiment;

The main TV structure schematic diagram of the second structural sheet that Fig. 6 provides for the utility model embodiment;

The side-looking structural representation of the second structural sheet that Fig. 7 provides for the utility model embodiment;

Wherein, in Fig. 3-Fig. 7:

Second structural sheet 200; Second bending section 210; First active section 211; Second active section 212; Intermediate active joint 213; Guiding control part 2131; Chute main part 2132; First mounting blocks 221; Second mounting blocks 222; Middle mounting blocks 223.

Embodiment

The utility model embodiment discloses a kind of warp architecture, when this warp architecture is case of bending, the central angle corresponding to first bending section of the first structural sheet and the central angle corresponding to the second bending section of the second structural sheet are same angle, namely the two ends of the first bending section and the two ends of the second curved end are distinguished concordant, thus ensure that two structural sheets and housing are all without relative sliding, are beneficial to two structural sheets and are individually fixed in housing.The invention also discloses a kind of electronic equipment, the above-mentioned warp architecture of this electronic apparatus application, this warp architecture and housing convenient fixing reliable.

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 3-Fig. 7, the utility model embodiment provides a kind of warp architecture, and this warp architecture is used for electronic equipment, comprises the first structural sheet and the second structural sheet 200; Second structural sheet 200 and the first structural sheet overlap; Wherein, warp architecture has straightened condition and case of bending; First structural sheet has first bending section that can bend, and the second structural sheet 200 has second bending section 210 that can bend; First bending section and the overlapping correspondence of the second bending section 210; When warp architecture is straightened condition, the length of the first bending section and second bending section 210 overlapping corresponding with this first bending section is identical, and both ends are concordant; When warp architecture is case of bending, the first bending section and the central angle corresponding to the second bending section 210 overlapping corresponding with this first bending section are same angle, and namely the two ends of the first bending section and the two ends of the second bending section 210 are distinguished concordant.

In the warp architecture that the present embodiment provides, the first bending section and the second bending section 210 overlap, and when warp architecture is straightened condition, first bending section is identical with the second corresponding with it bending section 210 length, end is concordant, makes the two ends of the first structural sheet concordant respectively with the two ends of the second structural sheet 200; When warp architecture is case of bending, the central angle of the central angle corresponding to the first bending section and the second bending section 210 correspondence is same angle, ensure that both ends are concordant, namely guarantee that the two ends of the first structural sheet are concordant respectively with the two ends of the second structural sheet 200, make the housing of the end of two structural sheets and electronic equipment without relative sliding, be convenient to the housing that two structural sheets are individually fixed in electronic equipment.

In above-mentioned warp architecture, the length of the first bending section is constant, the second bending section 210 deviates from the length on the limit of the first structural sheet is corresponding with the state of warp architecture to be changed.When warp architecture is straightened condition, the length second bending section 210 deviating from the limit of the first structural sheet is the longest, when warp architecture is case of bending, the length second bending section 210 deviating from the limit of the first structural sheet is the shortest, and switch in the process of case of bending at warp architecture by straightened condition, the length second bending section 210 deviating from the limit of the first structural sheet shortens gradually, and the two ends of the two ends of the second bending section 210 all the time with the first corresponding with it bending section are concordant.

Above-mentioned second bending section 210 can be set to adopt the material that can elongate to make, or according to the rigidity needs of electronic equipment, make the second bending section 210 be set to comprise the composition section that only can be deformed into arc and enough elongate and carry out the composition section (as rubber composition section) of arc-shaped deformation simultaneously.Certainly, in order to meet the Rigidity and strength needs of electronic equipment, above-mentioned second bending section 210 is set to comprise active section group, and active section group comprises multiple active section connected successively.

Above-mentioned active section group can be set to the arc telescopic joint of more piece mutual sheathing, is preferably set to comprise:

First active section 211, first active section 211 is provided with pin;

Second active section 212, second active section 212 is provided with deep-slotted chip breaker;

Intermediate active joint 213, intermediate active joint 213 is provided with pin and deep-slotted chip breaker;

Intermediate active joint 213 is between the first active section 211 and the second active section 212, and each intermediate active joint 213 is all by two active section snap-fit engagement that its pin and deep-slotted chip breaker are adjacent respectively, wherein, pin only can slide along this deep-slotted chip breaker in the deep-slotted chip breaker coordinated with it;

Concrete, if intermediate active joint 213 is 1, then the pin of the first active section 211 is installed in the deep-slotted chip breaker of intermediate active joint 213, and the pin of intermediate active joint 213 is installed in the deep-slotted chip breaker of the second active section 212;

If intermediate active joint 213 is multiple, then adjacent intermediate active joint 213 to be connected successively with the cooperation of deep-slotted chip breaker by pin and to form intermediate active joint group, the pin of the first active section 211 snaps in the deep-slotted chip breaker of the first end of intermediate active joint group, and the pin of the second end of intermediate active joint group snaps in the deep-slotted chip breaker of the second active section 212.

In above-described embodiment, when warp architecture is in straightened condition, pin is against the first end of deep-slotted chip breaker, warp architecture switches to case of bending by straightened condition, then the second bending section 210 is stressed and bend by end, each active section in active section group is rotated successively, and concrete rotation process has following three kinds of situations:

1. the first end of active section is subject to bending driving force, then the first active section 211 first rotates, until the second end that the intermediate active that the pin of the first active section 211 is adjacent saves the deep-slotted chip breaker of 213 offsets, first active section 211 and this intermediate active saves 213 and jointly rotate afterwards, until the pin that this intermediate active saves 213 is against the second end place of the deep-slotted chip breaker coordinated with it; Repetition like this, until the second end that the intermediate active adjacent with the second active section 212 saves the pin of 213 and the deep-slotted chip breaker of the second active section 212 offsets;

2. the second end of active section is subject to bending driving force, then the second activity connects and first rotates, until the pin that the second end of the deep-slotted chip breaker of the second active section 212 and the intermediate active coordinated with the second active section 212 save 213 offsets, second active section 212 and this intermediate active save 213 and jointly rotate afterwards, repetition like this, until the pin of the intermediate active adjacent with the first active section 211 the second end and the first active section 211 that save the deep-slotted chip breaker of 213 offsets;

3. the first end of active section and the second end are subject to bending driving force simultaneously, then as above-mentioned the 1., 2. in situation, the active section at active section group two ends rotates respectively successively, until the pin of another active section that the second end of the deep-slotted chip breaker of active section that the pin of the active section of centre is adjacent offsets, the second end of the deep-slotted chip breaker of this intermediate active joint 213 is adjacent offsets.

Concrete, in the warp architecture that above-described embodiment provides, active section group can also be set to comprise link gear, and when warp architecture carries out state switching, link gear makes active sections all in active section group rotate simultaneously.Link gear can be set to comprise first brace, tail brace and middle brace, first brace is fixed on the first active section 211, tail brace is fixed on the second active section 212, middle brace is fixed on intermediate active joint 213, and each intermediate active joint 213 is all fixed with middle brace; First brace is provided with snap fit, and tail brace is provided with chute, and middle brace is provided with snap fit and chute, and first brace, middle brace are connected with the snap fit of chute by snap fit successively with tail brace; When warp architecture carries out state switching, first active section 211 rotates relative to the second active section 212, first active section 211 drives first brace to rotate, make the snap fit of first brace along the slide of the middle brace coordinated with it, and drive this middle brace to rotate, this middle brace drives another brace coordinated with it to rotate simultaneously when rotating, thus each brace is rotated simultaneously, even if all active sections rotate simultaneously.

Obviously, the mode of motion that in active section group, each active section carries out in stateful switchover process at warp architecture is varied, and the present embodiment does not limit it, and it only needs to guarantee that the second bending section is concordant respectively all the time with the two ends of the first corresponding with it bending section.

In the warp architecture that above-described embodiment provides, in active section group, the center of circle corresponding to deep-slotted chip breaker of each active section is all positioned at the first structural sheet, when warp architecture carries out state switching, all rotate around the center of circle corresponding to deep-slotted chip breaker in the process that each active section rotates, namely each active section is all the some rotations on the first structural sheet, can guarantee that the end of warp architecture second bending section 210 in stateful switchover process is concordant with the end of the first bending section all the time.Concrete, on each active section, the shape and size of deep-slotted chip breaker are all identical.

In above-mentioned warp architecture, the structure of intermediate active joint 213 as shown in Figure 5, comprises guiding control part 2131 and chute main part 2132; Guiding control part 2131 is sector structure, and it is fixedly connected with chute main part 2132; Pin is arranged at the free end of guiding control part 2131; Chute main part 2132 is provided with the arc guide barrel matched with the guiding control part 2131 of other active section, and the deep-slotted chip breaker of intermediate active joint 213 is communicated with this arc guide barrel; Accordingly, the first active section 211 is provided with and saves 213 identical guiding control part 2131, second active sections 212 with intermediate active and be provided with and save 213 identical chute main parts 2132 with intermediate active.After each active section is assembled into active section group; guiding control part 2131 snaps in arc guide barrel; pin snaps in deep-slotted chip breaker; corresponding active section can only the bearing of trend of arcuately groove be relatively rotated; guarantee that in active section group, each active section rotates along desired guiding trajectory, thus prevent the second bending section 210 to be separated with the first bending section when warp architecture switching state.When warp architecture is case of bending, the guiding end of control part 2131 and the end of arc guide barrel offset.

Concrete, when the warp architecture that above-described embodiment provides is case of bending, the center of circle of the second bending section 210 is positioned at the side that the second structural sheet 200 deviates from the first structural sheet.

In addition, in above-mentioned warp architecture, first bending section can be set to one section, also can be set to multistage according to the actual needs of electronic equipment, accordingly, second bending section 210 is set to identical with the first bending section hop count, and first bending section of each second bending section 210 respectively from different is overlapping corresponding.

Refer to Fig. 6, the present embodiment provides a kind of embodiment of the second structural sheet 200, comprise the first mounting blocks 221, second mounting blocks 222 and middle mounting blocks 223, wherein, middle mounting blocks 223 is connected with the first mounting blocks 221 by second bending section 210, and the first active section 211 of this second bending section 210 is fixedly connected with middle mounting blocks 223, the second active section 212 is fixedly connected with the first mounting blocks 221; Middle mounting blocks 223 is fixedly connected with the second mounting blocks 222 by another second bending section 210, and the first active section 211 of this second bending section 210 is fixedly connected with the second mounting blocks 222, the second active section 212 is fixedly connected with middle mounting blocks 223.First mounting blocks 221 and the second mounting blocks 222 are respectively used to be fixedly connected with the housing of electronic equipment.

It will be understood by those skilled in the art that, the warp architecture that above-described embodiment provides is when case of bending, first bending section can be the arcuate structure of non-circular arc, accordingly, first bending section and the second flexibility without the round angle of correspondence, only need to make the two ends of the two ends of the first bending section and the second bending section 210 respectively concordant can solve the first structural sheet end and the housing friction of electronic equipment, the problem of fixing inconvenience.Further, carry out in the process of state switching at warp architecture, the two ends of above-mentioned first bending section are concordant respectively with the two ends of the second bending section 210 all the time.

The utility model embodiment also provides a kind of electronic equipment, and this electronic equipment comprises warp architecture, the warp architecture that warp architecture provides for above-described embodiment, and the first structural sheet is screen assembly layer.

The above-mentioned warp architecture of this electronic apparatus application, makes screen assembly layer all can be fixedly connected with the housing of electronic equipment with the second structural sheet 200 two ends.Certainly, the electronic equipment that the present embodiment provides also has other effect of the warp architecture that above-described embodiment provides, and does not repeat them here.

Concrete, in above-mentioned electronic equipment, warp architecture also comprises screen support structure layer, and this screen support structure layer is clipped between screen assembly layer and the second structural sheet 200.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (9)

1. a warp architecture, for electronic equipment, is characterized in that, comprising:

First structural sheet;

Second structural sheet, described second structural sheet and described first structural sheet overlap;

Wherein, described warp architecture has straightened condition and case of bending, and described first structural sheet has first bending section that can bend, and described second structural sheet has second bending section that can bend; Described first bending section is overlapping corresponding with described second bending section;

When described warp architecture is case of bending, the central angle corresponding to described first bending section and the central angle corresponding to described second bending section are same angle.

2. warp architecture according to claim 1, is characterized in that, the length of described first bending section is constant, described second bending section deviates from the length on the limit of described first structural sheet is corresponding with the state of described warp architecture to be changed.

3. warp architecture according to claim 2, is characterized in that, described second bending section comprises active section group, and described active section group comprises multiple active section connected successively.

4. warp architecture according to claim 3, is characterized in that, described active section group comprises:

First active section, described first active section is provided with pin;

Second active section, described second active section is provided with deep-slotted chip breaker;

Intermediate active saves, and described intermediate active joint is provided with pin and deep-slotted chip breaker;

Described intermediate active joint is between described first active section and described second active section, and each described intermediate active joint is all by two active section snap-fit engagement that its pin and deep-slotted chip breaker are adjacent respectively.

5. warp architecture according to claim 4, is characterized in that, when described warp architecture is switched to case of bending by straightened condition, in described active section group, each active section rotates successively.

6. warp architecture according to claim 4, is characterized in that, described active section group comprises link gear; When described warp architecture carries out state switching, described link gear makes all active sections in described active section group rotate simultaneously.

7. warp architecture according to claim 4, is characterized in that, the center of circle corresponding to deep-slotted chip breaker of described second active section and described intermediate active joint lays respectively at described first structural sheet.

8. the warp architecture according to claim 1-7 any one, is characterized in that, when described warp architecture is case of bending, the center of circle of described second bending section is positioned at the side that described second structural sheet deviates from described first structural sheet.

9. an electronic equipment, is characterized in that, comprises warp architecture, described warp architecture for the warp architecture described in claim 1-8 any one, described first structural sheet be screen assembly layer.