CN108076602A - Flexible electronic device - Google Patents

Abstract

The present invention discloses a kind of flexible electronic device with excellent fit galassing weighing apparatus, comprising：One substrate, comprising an at least fold domain, at least the substrate is divided into multiple element installation region by a fold domain for this；And multiple element, it is respectively arranged at the plurality of component mount region, the center of gravity of the plurality of element is adjacent to the geometric center of the substrate.

Description

Flexible electronic device

Technical field

The present invention relates to a kind of electronic device, more particularly to a kind of flexible electronic device.

Background technology

With scientific and technological progress, bendable panel technology is gradually applied in the electronic devices such as mobile phone, tablet computer.At present The multiple element that common flexible electronic device generally comprises a substrate and is arranged on the substrate.However, due to multiple members Part weight is not quite similar, if multiple element is arbitrarily set, the one side that overall weight will be made to be partial to the flexible electronic device will User is caused to generate sense of imbalance when holding or even flexible electronic device is caused to be overturned in using dropping.

The content of the invention

The present invention provides a kind of flexible electronic device and its component mounting method, improves flexible electronic device whereby Counterweight balances.

Therefore, the component mounting method of the flexible electronic device includes：A substrate is provided, which includes an at least folding Folded region, at least the substrate is divided into multiple element installation region by a fold domain for this；And multiple element is respectively arranged in The plurality of component mount region, so that geometric center of the center of gravity of the plurality of element adjacent to the substrate.

In addition, the flexible electronic device includes：One substrate includes an at least fold domain, an at least fold domain The substrate is divided into multiple element installation region；And multiple element, the plurality of component mount region is respectively arranged at, it is the plurality of The center of gravity of element is adjacent to the geometric center of the substrate.

The flexible electronic device and its component mounting method of the present invention, the distribution of weight that can make flexible electronic device are equal Weighing apparatus avoids user from generating sense of imbalance when holding or overturned in using and drops, and then promotes making for flexible electronic device Use convenience.

Description of the drawings

Figure 1A is the unfolded state schematic diagram of the substrate of the flexible electronic device of the present invention；

Figure 1B is schematic diagram of the substrate through once folding of the flexible electronic device of the present invention；

Fig. 1 C are schematic diagram of the substrate through twice-folded of the flexible electronic device of the present invention；

Fig. 2A is the top view of the substrate in Figure 1A；

Fig. 2 B are the top view of the substrate in Figure 1B；

Fig. 2 C are the top view of the substrate in Fig. 1 C；

Fig. 3 is the element configuration schematic diagram of the flexible electronic device of the present invention；

Fig. 4 is the circuit module schematic diagram of the flexible electronic device of the present invention.

Reference sign：

110 substrates

110a, 110b fold domain

B_i(B₁、B₂、B₃) battery component

C circuits

D, d distances

E_i(E₁、E₂、E₃、E₄) element

G1, g2, g3 geometric center

W1, w2, w3 center of gravity

Z_i(Z₁、Z₂、Z₃、Z₄) component mount region

Specific embodiment

Subject description discloses a kind of flexible electronic device and the installation methods of its multiple element included.Pass through This installation method to determine installation site of the element in flexible electronic device, and can be obtained according to needed for designer Appropriate weight distribution, is operated with sharp user.

As shown in Figure 1A, substrate 110 is the elements for being used for carrying various required placements in flexible electronic device.To make reading Person is apparent to, and the various elements that substrate 110 is carried wouldn't mark in figure.Substrate 110 is by a bendable material in itself Material is formed, it is possible to be folded according to the needs of user.In figure 1A, the region 110a that dotted line is enclosed and 110b distinguishes Represent the fold domain that designer plans in advance.In certain embodiments, due to fold domain width opposing substrate 110 ruler It is smaller for very little, therefore can also single dotted line representative.

In actual product, the region 110a and 110b that dotted line is enclosed may be that naked eyes can be recognized or can not visually distinguished Recognize, and dotted line may be close to straight line line or be also likely to be curve or straight line and curve combination.The region that dotted line is enclosed 110a and 110b may be continuous line, it is also possible to discontinuous line segment.

In the present embodiment, substrate 110 is designed to can be folded into shown in once folding or Fig. 1 C as shown in Figure 1B The different embodiments folded twice.Fig. 2A -2C are respectively the top view corresponding to Figure 1A -1C, that is, Fig. 2 B are once to fold, Fig. 2 C are to fold twice.

As shown in Figure 1A, the element (not indicating) of placement can be distributed according to design by dashed region 110a and 110b institutes Four different component mount region Z of definition_i(Z₁,Z₂,Z₃,Z₄) in.Each region Z_iArea can be equal to each other or each other It is unequal.In certain embodiments, during the region 110a and 110b bendings by a dotted line of substrate 110, each region Z_iCompared with dotted line Region 110a and 110b is not bent.

Geometric center of different shapes in g1~g3 difference representative graphs 2A-2C, the definition of geometric center is technical staff institute Know, can be obtained by geometry calculation, for example, the center of circle is a round geometric center, the diagonal of a square or rectangle Intersection point be its geometric center.

In w1~w3 difference representative graphs 2A-2C, under different folded states, center of gravity (the center of of multiple element gravity).Weight and installation position according to multiple element, and with reference to the folded state of substrate 110, can calculate multiple The common center of gravity of element.

One feature of the disclosure is, by a method, the element of required placement can be placed on substrate 110, and Under with use state of different shapes, center of gravity and geometric center can aligned with each other or overlappings or can be such as Fig. 2A -2C institutes Show and be maintained in a certain distance d.

Under use state, when the center of gravity of multiple element is closer to the geometric center of substrate, flexible electronic device can To provide preferred weight distribution.That is, user only needs to hold the geometric center position of substrate, you can fills bendable electronics Maintenance balance is put, it will not be in middle overturned due to distribution of weight is uneven be used to drop.

When disposing multiple element, the use form of flexible electronic device can be considered in advance.For example, above-mentioned base The form of plate 110 includes secondary shown in unfolded state as shown in Figure 1A, a folded state as shown in Figure 1B and Fig. 1 C Folded state.If flexible electronic device only uses under unfolded state, and once fold and twice-folded state be only coordinate Needed for storage, then when the position of multiple element is designed, it is only necessary to make its center of gravity w1 under unfolded state close to geometric center g1 .If however, flexible electronic device in once fold or twice-folded state under can also be operated, in design when, In addition to considering to make center of gravity w1 close to geometric center g1, it must separately make center of gravity w2 close to geometric center g2, center of gravity w3 close in geometry Heart g3.

With reference to shown in Fig. 2A, the center of gravity w1 of plurality of element is not accurately be overlapped with geometric center g1, but fall with At a few conjunction center g1 d at a distance.Since the weight of most of elements of flexible electronic device is fixed, and consider setting face The factors such as product, interelement relative position and connection relation, construction error when installing in addition, are generally difficult to the weight for making multiple element The heart is accurately Chong Die with a few conjunction centers.In general, when multiple element is disposed, if its center of gravity is not overlapped in geometry accurately The heart, if so for its center of gravity only with one distance d of geometric center distance, flexible electronic device still can maintain equilibrium state, no Influence ease of use.In order to maintain to balance, the actual numerical value of distance d would generally be subject to the shape of substrate, bendable electronics dress The factors such as the gross weight put influence, if for the maximum range D at the interval of opposite geometric center g1 and substrate edges, distance d is excellent Choosing is preferably no greater than 0.05D no more than 0.1D.

Multiple element can be photographing element, the element that amplifies, battery and button etc..Multiple element is not substantially flexible, Therefore each element is mainly disposed therein a region Z_iAmong, without Chong Die with 110b with for the dashed region 110a of folding.In When designing the installation site of multiple element, the modes such as computer simulation can be used to aid in, and can be according to design requirement, such as by body The element that product is maximum or weight is most heavy is sequentially installed etc., is not added with repeating herein.

In some embodiments, each region Z_iArea match, it is such as equal or roughly equal, and its folding mode is also Substantially it is in symmetrical fold.Therefore, the weight of multiple element can be made to be distributed evenly in each region Z_iAmong (that is, will be multiple The gross weight of element divided by region Z_iQuantity, be as arranged at each region Z_iElement weight), thereby under unfolded state, make more The center of gravity w1 of a element is close to the geometric center g1 of substrate.For example, any region Z_iAmong set element gross weight with Another region Z_iAmong the difference of set element gross weight be preferably no greater than 3%.That is, if region Z₁Among set member Part gross weight is m1, region Z₂Among set element gross weight be m2, then should meet following relationship：

Furthermore due to each region Z_iWeight match, such as impartial or approximate equality, in once fold, twice-folded Embodiment, center of gravity w2, w3 of multiple element remains to maintain close to geometric center g2, g3.Alternatively, in some embodiments, Each region Z can further be made_iAmong set element center of gravity close to region Z_iGeometric center.

In some embodiments, each region Z_iAlthough area it is unequal each other, the above method is can also refer to, according to each Region Z_iArea ratio setting member, make each region Z_iArea it is all equal with the ratio of element gross weight set in it, and The distribution of weight for making bendable electronic component is more uniform.Furthermore the above method is also can refer to, makes each region Z_iAmong it is set Element center of gravity close to region Z_iGeometric center.

In some embodiments, folding mode folds to be asymmetric, still can be as described above, meeting the center of gravity w1 of multiple element The geometric center g1 of nearly substrate, and in once folding, in the embodiment of twice-folded, can separately make multiple element center of gravity w2, W3 remains to maintain close to geometric center g2, g3.Thus, even if folding mode folds to be asymmetric, can also maintain bendable The counterweight balance of electronic component, avoids user from generating sense of imbalance when holding.

In some embodiments, due to the weight and non-uniform Distribution of substrate, so when installing the plurality of element, it can examine Measure different zones Z_iSubstrate weight, and make the total centre of gravity of multiple element and substrate close to the geometric center of substrate.Similarly, examine Use situation is measured, can also make the total centre of gravity of multiple element and substrate after once folding, twice-folded still close to substrate in once It folds, the geometric center of twice-folded embodiment.Furthermore similar to the above method, it can also make any region Z_iIt is interior set Element and substrate weight summation and another region Z_iThe weight summation of interior set element and substrate matches, such as phase It is same or roughly the same or make its difference be not more than 3%.

Multiple element can be further discriminated between as setting element and non-locating element.Setting element refers to according to use demand Or the limitation of hardware setting, and the element in precalculated position on the substrate must be set in, for example, photographing element, amplify element or by Button etc.；Rather than setting element refers to that position can arbitrarily change, and ease of use or hardware setting degree of difficulty person are less influenced, example Such as battery.Therefore, the precalculated position that can be first arranged at setting element on substrate continues and sets non-locating element, more to adjust The position of centre of gravity of a element.

On the other hand, the subelement of flexible electronic device can separately be split.For example, battery can be split For the impartial or unequal battery component of several weight, and it is respectively arranged at region Z different on substrate 110_iAmong, then It is connected to each other via circuit.Thus, which position of centre of gravity can be adjusted further, preferred weight balancing is realized；It simultaneously can be with Expand the setting area of battery, reduce cell thickness, and contribute to the ultrathin of flexible electronic device.

In detail, it refer to shown in Fig. 3, be that battery is divided into several battery component B in an embodiment_i, in Fig. 3 The four battery component B shown₁、B₂、B₃、B₄, in fact, battery component B_iSum can be adjusted according to demand, and each electricity Pond component B_iSize, electricity, weight etc. also can be with equal or respective difference.By several battery component B_i(B₁,B₂,B₃,B₄) and Element E beyond several batteries_i(E₁,E₂,E₃) it is arranged at the region Z on substrate 110_iIn, and make its total centre of gravity close to positioned at base At the geometric center of plate 110.Each region Z_iOne or more elements E can be respectively equipped with_iAnd battery component B_iOr it is not provided with member Part E_iOr battery component B_i.Three element E shown herein_iAnd four battery component B_iIt is respectively arranged on different Z_iAmong, without As limit.

It, can be first by the element E beyond several batteries in some embodiments_iThe region Z being arranged on substrate 110_iIn, The region Z several battery component B being arranged at again on substrate 110_iIn, and make its center of gravity close in the geometry of substrate 110 At the heart.

In some embodiments, each region Z_iArea it is roughly equal, therefore each region Z can be precalculated_iIn should set Element gross weight, continuous distribution accordingly are arranged at each region Z_iIn battery component B_iWeight, and make any region Z_iIn it is set Element gross weight all with another region Z_iIn set element gross weight it is roughly equal, and then make the center of gravity of all elements (containing battery) Close at the geometric center of substrate 110.For the embodiment in Fig. 3, in Z₁B in area₁With E₁Gross weight, in Z₂Area In B₂With E₂Gross weight, in Z₃B in area₃With E₃Gross weight and in Z₄B in area₄Gross weight it is all roughly equal.

In some embodiments, each region Z_iThe center of gravity of interior all elements (containing battery) and each region Z_iGeometric center Also substantially it is overlapped.Or such as similar, each region Z in Fig. 2A to Fig. 2 C_iThe center of gravity and geometric center of interior all elements (containing battery) With distance a d, each region Z_iGeometric center and the area in the maximum range of substrate boundaries be defined as D, then distance d is preferred No more than 0.1D, 0.05D is preferably no greater than.Thus, under any folded state, can there is flexible electronic device Preferred weight balancing.

It, can be such as battery B between the battery in each region₁With battery B₂Between be connected with circuit C.Circuit can be designed as by Battery B₁With battery B₂Between interconnect in series or in parallel.Circuit C can include several modules such as Fig. 4.

Circuit C can have a detection module and a switch module.In certain embodiments, each region Z_iThe power supply of middle element Battery B that can first by each being possessed_iPriority of supply, the battery in different zones, such as battery B₁With battery B₂Between circuit C Switch module can forbid battery B with an off state₁With battery B₂Between have current flowing.Simultaneously, battery B₁With battery B₂ Between the detection module of circuit C can detect battery B₁With battery B₂Electricity, when any of which battery electricity less than one setting It is worth (such as less than 20%), such as battery B₁Electricity be less than 20% when, then make switch module with a channel status connect electricity Pond B₁With battery B₂, so that battery B₂It can be to region Z₁In element be powered.

In addition, the plurality of element can separately include one or several counterweight, the counterweight refers to be only used for realizing weight Balance, and substantially do not have other function persons.Since counterweight does not have other functions in itself, without the phase considered with other elements To position and connection relation, weight can also be set on demand, it might even be possible to be selected and be made with flexible material, set There is higher degree of freedom in seated position, and be able to the center of gravity of balance multiple element, realize preferred counterweight balance.

Above-described embodiment is only to illustrate the principle of the present invention and its technique effect, is not intended to limit the present invention.Belonging to the present invention Have modification and variation that usual skill makes above-described embodiment in technical field still without prejudice to the design of the present invention.The present invention Claim should be as be described hereinafter claim listed by.

Claims (18)

1. a kind of component mounting method of flexible electronic device, comprising：

A substrate is provided, which includes an at least fold domain, and at least the substrate is divided into multiple members by a fold domain for this Part installation region；And

Multiple element is respectively arranged in the plurality of component mount region, so that the center of gravity of the plurality of element is adjacent to the several of the substrate What center.

2. the component mounting method of flexible electronic device as described in claim 1, wherein the center of gravity of the plurality of element and the base The geometric center d at a distance of plate, the geometric center of the substrate and the one maximum range D of edge interval of the substrate, and d≤ 0.1D。

3. the component mounting method of flexible electronic device as described in claim 1, wherein the plurality of element can divide into positioning Element and non-locating element；It multiple element is respectively arranged in the plurality of component mount region includes and first the setting element is installed The plurality of component mount region is installed in the plurality of component mount region, then by the non-locating element.

4. the component mounting method of flexible electronic device as described in claim 1, wherein the plurality of element includes a battery, it should The component mounting method of flexible electronic device is additionally comprised is split as multiple battery components by the battery, continues the plurality of battery pack Part is respectively arranged in the plurality of component mount region, and connects the plurality of battery component with a circuit.

5. the component mounting method of flexible electronic device as described in claim 1, wherein the plurality of element includes a counterweight, The component mounting method of the flexible electronic device is included is installed on the plurality of component mount region by the counterweight.

6. the component mounting method of flexible electronic device as described in claim 1, the wherein substrate can be rolled over along the fold domain Folded to form a folding embodiment, which has one second geometric center, the bendable electronics under the folding embodiment The component mounting method of device, which additionally comprises, makes center of gravity of the plurality of element under the folding embodiment be located at the second of the substrate Geometric center.

7. the component mounting method of flexible electronic device as described in claim 1, wherein the respectively area of the component mount region Match, and the component mounting method of the flexible electronic device additionally comprises the element set by making in the respectively component mount region Gross weight matches.

8. the component mounting method of flexible electronic device as claimed in claim 7, additionally comprising makes in any element installation region The difference of set element gross weight and element gross weight set in another component mount region is not more than 3%.

9. the component mounting method of flexible electronic device as claimed in claim 7, additionally comprising makes in any element installation region The center of gravity of set element is adjacent to the geometric center of the component mount region.

10. a kind of flexible electronic device, comprising：

One substrate, comprising an at least fold domain, at least the substrate is divided into multiple element installation region by a fold domain for this； And

Multiple element is respectively arranged at the plurality of component mount region, and the center of gravity of the plurality of element is in the geometry of the substrate The heart.

11. flexible electronic device as claimed in claim 10, wherein in the geometry of the center of gravity of the plurality of element and the substrate One distance d of heart septum, the geometric center of the substrate and the one maximum range D of edge interval of the substrate, and d≤0.1D.

12. flexible electronic device as claimed in claim 10, wherein respectively the area of the component mount region matches, and it is each Set element gross weight matches in the component mount region.

13. flexible electronic device as claimed in claim 12, set element is total in any of which component mount region Weight and the difference of element gross weight set in another component mount region are not more than 3%.

14. flexible electronic device as claimed in claim 12, set element in any of which component mount region Center of gravity is adjacent to the geometric center of the component mount region.

15. the flexible electronic device described in claim 10, the wherein substrate can fold to form a folding along the fold domain Embodiment, the substrate have one second geometric center under the folding embodiment, and the plurality of element is in folding embodiment party Center of gravity under formula is located at the second geometric center of the substrate.

16. flexible electronic device as claimed in claim 10, wherein the plurality of element includes a counterweight.

17. flexible electronic device as claimed in claim 10, wherein the plurality of element includes multiple battery components and an electricity Road, the circuit connect the plurality of battery component.

18. flexible electronic device as claimed in claim 17, the wherein circuit include a detection module and a switch module.