CN204328441U - The panel of energy fast folding and expansion - Google Patents

Abstract

The utility model provides the panel of a kind of energy fast folding and expansion, this panel comprises and is interconnected and can be folded relative to each other multiple cell board, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch, it is characterized in that, actuator is provided with between described cell board, described actuator is elastic device or magnetic devices, described actuator can apply elastic force or magnetic force to make it relative to each other launch or folding to adjacent cell board, to make described panel automatically launch to described deployed condition by three Pu folding modes or to fold to described folding state.

Description

The panel of energy fast folding and expansion

Technical field

The utility model relates to the panel of a kind of energy fast folding and expansion, and this panel can press three Pu folding modes fast folding and expansion between folding state and deployed condition.

Background technique

It is a kind of paper folding method making paper energy fast folding and expansion that three Pus fold.Such as make use of the rectangle paper that three Pus are folding, paper can be launched by pulling open two ends, diagonal angle, then only needing when folding two ends, diagonal angle oppositely to push.Thus, the simple motion by means of only the diagonal angle pulling open and push this rectangle paper can complete the expansion of entire paper and fold.More details can see the Western Hills of the economic university of such as Osaka, Japan rich " mathematics The ease む/ミ ウ ラ rolls over り " " reason is へ mathematics " in September, 2005 of delivering, Vol.38, No.9,48-51.

Such as when folding paper folding by three Pu folding modes, the folding line of paper can produce memory effect, that is, under the nature not applying external force, folding line can produce by the folding trend of former folding direction.Therefore, when folding, the described memory effect of paper crease can impel paper successfully to carry out folding by three Pu folding modes.

Japan Patent JP3644945B2 discloses the device that a kind of application three Pus fold folding flake material.This device utilizes specific mechanism that the sheeting material of such as paper is produced folding line by the mode that three Pus are folding, thus can launch by three Pu folding modes and fold in use.This device can be used for the folding of such as map.This folding device complex structure, folding process is more, and once can only fold a sheeting material, manufacturing efficiency is lower, and is only suitable for the sheeting material of folding such as paper.

When cannot directly fold when needing folding panel to be made up of the material with certain thickness or certain rigidity or form folding line, need folding line folding along three Pus for the material forming panel to be divided into some unit sheets, and arrange for folding articulated mounting between each unit sheet.Now, owing to not having above-mentioned folding line memory effect, whole panel is difficult to just successfully carry out Quick folding by three Pu folding modes by means of only simple racking.And, even if panel forms by the sheeting material of such as paper is folding, if the area that panel launches is comparatively large or increase folding times or folding line density in order to the volume reduced under folding state, then the memory effect of local folding line also likely cannot overcome the impact of gravity and fold in the opposite direction.In this case, whole panel is difficult to just successfully carry out Quick folding by three Pu folding modes by means of only simple racking equally.

Current many fields all need the panel using energy fast folding and expansion.In deployed condition, panel can have larger surface area, and at folding state, described panel folding can become volume little as far as possible, so that store and transport.But described panel be usually all have certain thickness, such as, when described panel is ground cushion on the ground.Therefore make described panel be difficult to carry out rapid deployment by three Pu folding modes and fold due to the problems referred to above of prior art.

Model utility content

The purpose of this utility model solves above-mentioned technical problem of the prior art at least in part.For this reason, the utility model provides the panel of a kind of energy fast folding and expansion, this panel comprises and is interconnected and can be folded relative to each other multiple cell board, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch, it is characterized in that, actuator is provided with between described cell board, described actuator is elastic device or magnetic devices, described actuator can apply elastic force or magnetic force to make it relative to each other launch or folding to adjacent cell board, to make described panel automatically launch to described deployed condition by three Pu folding modes or to fold to described folding state.

Preferably, described elastic device comprises and is arranged on torsion spring between adjacent cells plate or pushes or pulls to make it relative to each other launch or folding elastomer to adjacent cells plate, and described magnetic devices comprises permanent magnet or electromagnet.

Preferably, between adjacent cell board, be provided with retention device, to make described adjacent cell board can only fold facing one direction from the state launched each other, and can not fold in the opposite direction towards with a described side.

Preferably, described panel also comprises covering, and when described panel is in described deployed condition, described covering covers on the surface of described panel.

Preferably, described cell board is plate independent of each other and is connected to each other by the compliant member that can bend.

Preferably, described compliant member is flexible material layer, and described plate is fixed on described flexible material layer.

Preferably, described compliant member comprises two flexible material layers, described plate is stacked between described two flexible material layers, and described two flexible material layers are connected to each other around each plate, to be encapsulated in by described plate in the pocket formed by described flexible material layer.

Preferably, described flexible material layer is connected to each other by stitching, welding, bonding or buckle.

Preferably, described cell board is independent of each other and is connected to each other by articulated mounting.

Preferably, described articulated mounting comprises: be arranged on the axis hole in the protuberance of the edge of described cell board, and when adjacent cell board is stitched together, the axis hole of described adjacent cells plate is aligned with each other; With the axle be plugged in the axis hole aligned with each other of adjacent cells plate, wherein, the shape of each cell board is identical.

In addition, the utility model provides the panel of a kind of energy fast folding and expansion, this panel is comprised and to be interconnected by joint and can be folded relative to each other multiple cell board, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch, it is characterized in that, actuator is provided with between described cell board, described actuator comprises drawing part, the two ends of described drawing part are separately fixed on adjacent cell board or are separately fixed on adjacent joint, when described in tractive during drawing part, described drawing part can apply pulling force to described adjacent cell board or described adjacent joint and be folded relative to each other to make adjacent cell board, to make described panel can fold to described folding state by three Pu folding modes.

The panel of fast folding and expansion can be used for many purposes, the wallboard of such as solar panel, tent, simple building, ground cushion, curtain, screen, building mould, automotive sunshade shield, automobile snow board, car clothing and need can the other field of panel of fast folding and expansion according to of the present utility model.

Accompanying drawing explanation

Hereafter by means of only the mode of non-limiting example, specific embodiment of the utility model is described with reference to the accompanying drawings, wherein:

Figure 1A schematically shows the example planimetric map in the deployed state of the rectangular panel that can fold by three Pu jackknife methods;

Figure 1B is the perspective schematic view of panel under folding state in Fig. 1;

Fig. 1 C is the perspective schematic view under panel in Fig. 1 intermediateness between folding state and deployed condition;

Fig. 2 A schematically shows the example planimetric map in the deployed state of the panel that can fold by three Pu jackknife methods, and wherein each cell board is parallelogram;

Fig. 2 B schematically shows the example planimetric map in the deployed state of the round panel that can fold by three Pu jackknife methods;

Fig. 3 schematically show according to two blocks of adjacent cells plates of panel of the present utility model and between an embodiment of elastic device;

Fig. 4 A, 4B and 4C schematically show according to two blocks of adjacent cells plates of panel of the present utility model and between another embodiment of elastic device, wherein Fig. 4 A illustrate two blocks of adjacent cells plates and between the perspective view of elastic device, Fig. 4 B and 4C illustrates the sectional view under folded state and deployed condition respectively;

Fig. 5 A and 5B schematically show according to two blocks of adjacent cells plates of panel of the present utility model and between another embodiment of elastic device, wherein Fig. 5 A illustrates the perspective view of the intermediateness be between folded state and deployed condition, and Fig. 5 B illustrates the sectional view obtained along the groove for holding elastic device being in deployed condition;

Fig. 5 C schematically shows the embodiment of the drawing part according to panel of the present utility model;

Fig. 6 schematically shows the perspective view being provided with two blocks of adjacent cells plates of magnetic devices according to panel of the present utility model;

Fig. 7 A and 7B schematically show according to two blocks of adjacent cells plates of panel of the present utility model and between an embodiment of retention device, wherein Fig. 7 A illustrates the side view of the intermediateness be between folded state and deployed condition, and Fig. 7 B illustrates the side view being in deployed condition;

Fig. 8 A and 8B schematically show according to two blocks of adjacent cells plates of panel of the present utility model and between an embodiment of retention device, wherein Fig. 8 A illustrates the side view of the intermediateness be between folded state and deployed condition, and Fig. 8 B illustrates the side view being in deployed condition;

Fig. 9 A and 9B schematically shows according to the planimetric map under the panel being provided with cable of an embodiment of the present utility model perspective view in a folded configuration and deployed condition respectively;

Figure 10 A and 10B schematically shows according to perspective view under described intermediateness of the panel being provided with cable of another embodiment of the present utility model and sectional view respectively;

Figure 11 schematically shows the sectional view of the panel being provided with cable under described intermediateness according to another embodiment of the present utility model;

Figure 12 A and 12B schematically shows perspective exploded view according to an embodiment of panel of the present utility model and planimetric map respectively;

Figure 13 A, 13B and 13C schematically show another embodiment according to panel of the present utility model, this panel is made up of the identical cell board of shape, wherein Figure 13 A illustrates the perspective view of described cell board, Figure 13 B illustrates the details of the encircled portion in Figure 13 A, and Figure 13 C illustrates the planimetric map of the 4 module unit plates that split is good.

Embodiment

Describe embodiment of the present utility model below with reference to accompanying drawings in detail.It should be noted that for the sake of clarity, each accompanying drawing may not be drawn in proportion.And, in order to clearly give prominence to important technology feature to be expressed, can omit or schematically show only other technologies feature in some accompanying drawing, such as, eliminate the details of articulated mounting and the thickness etc. of cell board, but specific embodiment be not limited thereto.

Figure 1A schematically shows the example planimetric map in the deployed state of the rectangular panel that entirety by reference number 1 indicates, and this panel can the folding and expansion by three Pu jackknife methods.Under described deployed condition, described panel can flatten completely.Fig. 2 illustrates the perspective view of panel under folding state in Figure 1A, and under this folding state, described panel is folded into block volume little as far as possible.Fig. 1 C illustrates the perspective view of the intermediateness of panel between folding state and deployed condition in Figure 1A.

First see Figure 1A, described panel 1 comprises multiple cell board.Although Figure 1A shows the panel be made up of 4 × 5 module unit plates, one of ordinary skill in the art will appreciate that, described panel can require according to embody rule and be made up of any polylith cell board.In the example of the rectangular panel shown in Figure 1A, described multiple cell board comprises the cell board 11 of almost parallel quadrilateral and roughly trapezoidal cell board 12.Adjacent cell board is interconnected and can be folded relative to each other, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch.In the example shown in Figure 1A, when panel 1 folds, will roughly be folded each other according to the broken line shown in Figure 1A between adjacent cells plate, wherein dotted line represents that dot and dash line represents the broken line relative to drawing projection by the broken line recessed relative to drawing.As shown in Figure 1A, transverse crease lines is straight, and longitudinal broken line then forms mild zigzag broken line.It should be noted that " longitudinal direction " used herein and " transverse direction " are only with reference to the direction in Figure 1A for the ease of understanding.When folding from deployed condition, described panel 1 will first mainly fold along flexuose longitudinal broken line, then folds along straight transverse crease lines.According to the principle that three Pus are folding, at panel first along after zigzag folding line, just automatically can produce the trend along straight folding line, thus can successfully continue to fold into folding state.

Those of ordinary skill in the art can be expressly understood, the shape of shown panel is not limited to rectangle, but can adopt arbitrary shape according to embody rule, such as shape as shown in Figure 2 A and 2B.In fig. 2, all cell boards are all parallelogram.In fig. 2b, the overall shape of panel is circular.The utility model is applicable to the panel of the arbitrary shape comprising above-mentioned shape.

According to the utility model, actuator is provided with between adjacent cell board, this actuator is elastic device or magnetic devices, and can the adjacent cell board of bias voltage to make it relative to each other launch or folding, to make described panel automatically launch to described deployed condition by three Pu folding modes or to fold to described folding state.Specifically, described actuator can apply power to adjacent cell board, described power drives adjacent cell board towards expansion direction or folding direction, thus make described panel become deployed condition from folding state, become folding state from deployed condition, or become the intermediateness be between deployed condition and folding state from deployed condition and/or folding state.

An embodiment of the elastic device between Fig. 3 schematically shows according to two module unit trigger devices of panel of the present utility model.In the embodiment shown in fig. 3, described elastic device can be arranged on the torsion spring 3 between adjacent cells plate 311 and 312.Two supporting legs 31 and 32 of described torsion spring 3 are resisted against on described adjacent cells plate 311 and 312 respectively, with towards the direction making described adjacent cells plate be folded each other or towards cell board 311 and 312 adjacent described in the direction bias voltage making described adjacent cells plate launch each other.Described torsion spring 3 can be enclosed within the supporting element between described adjacent cells plate to be held in place.

Or described elastic device can be arranged on leaf spring between adjacent cells plate or reed.The two ends of described reed are resisted against on adjacent cell board respectively, with towards the direction making described adjacent cells plate be folded each other or towards cell board adjacent described in the direction bias voltage making described adjacent cells plate launch each other.

Another embodiment of elastic device between Fig. 4 A, 4B and 4C schematically show according to two module unit trigger devices of panel of the present utility model, wherein Fig. 4 A illustrates the perspective view of described two module unit plates, Fig. 4 B illustrates the sectional view of described two module unit plates under folding state, and Fig. 4 C illustrates described two module unit plates sectional view in the deployed state.In this embodiment, the two ends 41 and 42 being arranged on the reed 4 between adjacent cells plate 411 and 412 are resisted against on adjacent cell board 411 and 412 respectively.An end 42 of described reed 4 can by such as riveting, bonding, welding, grafting or any other suitable mode be fixed on the cell board 412 that is in contact with it.Adjacent cell board 411 and 412 can be biased into deployed condition towards the direction making described adjacent cells plate launch each other by described reed 4, even if therefore the other end 41 of reed 4 is not fixed on another module unit plate 111 of being in contact with it, also can be resisted against all the time on this cell board 411.In replacement scheme, the middle part of described reed 4 can be fixed on the supporting element (not shown) between described adjacent cells plate.

According to another embodiment of the present utility model, described elastic device can be push or pull to make it relative to each other launch or folding elastomer to adjacent cells plate.Such as in the embodiment shown in Fig. 5 A and 5B, the two ends of elastomer 5 are separately fixed on adjacent two cell boards 511 and 512.When panel is in the state of expansion, described elastomer 5 is stretched, thus applies to order about its power folded toward each other to described adjacent cell board 511 and 512.Or when being in folding state according to panel of the present utility model, described elastomer 5 is compressed, thus apply to order about its power launched away from each other to described adjacent cell board 511 and 512.In addition, as shown in Figure 5A, adjacent cell board 511 and 512 is respectively equipped with groove 513 and 514.As shown in Figure 5 B, when described panel is in deployed condition, described elastomer 5 can be contained in described groove 513 and 514, to make described panel have the surface of general planar.

In addition, as shown in Figure 5 C, described actuator can comprise drawing part.The two ends of described drawing part can be separately fixed on adjacent cell board or be separately fixed on adjacent joint, respectively see the drawing part 515 and 516 in Fig. 5 C.When described in tractive during drawing part, described drawing part can apply pulling force to described adjacent cell board or described adjacent joint and be folded relative to each other to make adjacent cell board, to make described panel can fold to described folding state by three Pu folding modes.The length of described drawing part allows described panel to be deployed into described deployed condition.Preferably, described drawing part is flexible cable or band.

And, it may occur to persons skilled in the art that, as the replacement scheme of described elastic device, the magnetic force that magnetic devices can be used to produce is folded each other to drive adjacent cell board or launches, thus enables whole panel fast and or expansion folding by the mode of three Pu jackknife methods swimmingly.Such as, as shown in Figure 6, two adjacent module unit plates are respectively equipped with magnetic devices 61 and 62.Described magnetic devices can be permanent magnet or electromagnet.When described magnetic devices is electromagnet, can the electric current of electromagnet be supplied to by control and controls its magnetic force produced.In addition, those skilled in the art easily expect, one in described magnetic devices 61 and 62 can be permanent magnet or electromagnet, and another can be the parts that can be attracted, such as iron plate or analog.

In addition, described elastic device also can be made up of memory alloy, so that the elastic device be made up of memory alloy when such as temperature change deforms, thus drives adjacent cell board relative to each other to launch or folds.

According to preferred embodiment of the present utility model, retention device can be provided with between adjacent cell board, to make described adjacent cell board can only fold facing one direction from the deployed condition flushed each other, and can not fold in the opposite direction towards with a described side.Such as, as shown in Figure 7 A, adjacent cell board is respectively equipped with the jut 701 and 702 as retention device.As shown in Figure 7 B, when adjacent cell board launches to flush each other, described jut 701 together with 702 abut against each other, thus stops adjacent cell board relative to each other further pivotable.Therefore, adjacent cell board can only fold towards a direction expected from the state flattened each other, and and cannot fold in the opposite direction towards the side with described expectation, thus guarantee that whole panel successfully can carry out Quick folding by three Pu folding modes.Or as shown in Figure 8 A, described retention device can be the projection 801 be arranged on a cell board in adjacent cells plate and the groove 802 be arranged on another cell board.As shown in Figure 8 B, when described adjacent cells plate flattens each other, described protruding 801 are resisted against in described groove 802, thus make described two pieces of adjacent cell boards jointly form smooth surface, make the two sides of whole panel all form planar surface thus.

According to another embodiment of the present utility model, also comprise multiple hole and the cable through described hole according to panel of the present utility model.When described panel is in folding state, described hole each other rough alignment to form through passage, and described cable with roughly linear fashion through this passage.

Such as, in the embodiment shown in Fig. 9 A and 9B, every module unit plate is all provided with described hole, thus when described panel is in described folding state, rough alignment is to form through passage each other in the hole of each cell board, and cable 93 passes described passage in roughly straight mode.The two ends of described cable 93 are respectively equipped with retainer 91 and 92, and the size of described retainer is greater than the size in described hole, deviate from from described hole to avoid described cable 93.

Fig. 9 B illustrates the schematic diagram after the panel expansion shown in Fig. 9 A.The length long enough of described cable 93, to make that described panel can be deployed into deployed condition completely and described cable 93 can not be deviate from from described hole.When from deployed condition as shown in Figure 9 B relative to cable 93 described in panel tractive so that when making length of cable between described hole reduce, described panel can be made successfully to fold into folding state as shown in Figure 9 A by three Pu folding modes by the simple motion relative to panel tractive cable 93.

As illustrated in figures 9a and 9b, described hole is arranged on the approximate centre position of cell board.It will be understood by those skilled in the art that described hole also can be arranged on other positions of cell board, also can be arranged in the joint between adjacent cells plate, or can be made up of the extra ring be arranged on panel.And it will be understood by those skilled in the art that and need not be provided with described hole by each cell board, described hole can only be arranged in a part of cell board of the polylith cell board forming panel of the present utility model.Such as, as illustrated in figs. 10 a and 10b, described hole is formed by multiple rings 101 of the convex fold line being arranged on described panel.Two ends are provided with the cable 102 of retainer continuously across described ring 101.Or as shown in figure 11, described hole is arranged in the joint between adjacent cells plate.In the example shown in Figure 10 A, 10B and 11, when from the deployed condition of panel relative to cable 102 described in panel tractive so that when making length of cable between described hole reduce, can described panel be made first successfully to fold along mild zigzag broken line (see Figure 1A) by the simple motion relative to panel tractive cable 102.According to the principle that three Pus are folding, after described panel is first by zigzag folding line, just can produces the trend continuing to fold into folding state by three Pu folding modes, thus make whole panel successfully can fold into folding state from deployed condition.

And, slit (not shown) can be provided with on cell board.When described panel is in deployed condition, described cable can be contained in described slit, to make described panel have the surface of general planar.

In addition, the cell board forming panel of the present utility model can be plate independent of each other and be connected to each other by the compliant member that can bend, so as to make described panel can along the broken line formed by described compliant member between cell board partially folded and launch.Described compliant member can comprise flexible material layer, and described plate is fixed on described flexible material layer.And described compliant member can comprise two flexible material layers.Specifically can see the such as embodiment shown in Figure 12 A and 12B, wherein each plate is stacked between two flexible material layers 121 and 122, described two flexible material layers 121 and 122 can be connected to each other around each plate, to be encapsulated in by described plate in the pocket formed by described two flexible material layers.As shown in Figure 12 B, described two flexible material layers are stitched together along the broken line between each cell board by suture 123.Although shown in Figure 12 B is single file suture, also can sew up along broken line with the double row of stitches of predetermined spacing, to control the relative position of distance also further between each cell board of constraint between adjacent cells plate.Except the mode sewed up, described two flexible material layers also can be connected to each other by welding, bonding or buckle.

Or the cell board forming panel of the present utility model can be independent of each other and be connected to each other by articulated mounting.Described elastic device can be arranged in described articulated mounting.For example, see Figure 13 A, be respectively equipped with protuberance 131,132,133 and 134 in each edge of cell board.The axis hole almost parallel with the edge of cell board is provided with in each protuberance.Such as, as shown in Figure 13 B, axis hole 139 is provided with in described protuberance 131.Described axis hole can hold pivot pin (not shown).As shown in fig. 13 c, when adjacent cell board is stitched together, the axis hole of adjacent cells plate can rough alignment each other, and is inserted with pivot pin in the axis hole of the rough alignment each other of adjacent cells plate, thus forms described articulated mounting.And as shown in fig. 13 c, as elastic device mentioned above, torsion spring 1310 is sleeved on described pivot pin, and two leg two module unit plates that bias voltage is adjacent respectively.In this embodiment, by suitably arranging the position of described protuberance on the edge of cell board, the shape forming each cell board of panel can be identical.Such as, as shown in FIG. 13A, protuberance 131 and 132 is separately positioned on the edge 135 and 136 of the straight broken line along panel of cell board, and protuberance 133 and 134 is separately positioned on the edge 137 and 138 of the zigzag broken line along panel of cell board.Relative to the central point C of cell board, described protuberance 131 and 132 is all arranged on and keeps to the side on the side of 138.On the contrary, relative to the central point C of cell board, described protuberance 133 and 134 be separately positioned on keep to the side 136 side and keep to the side on the side of 135.By this location of described protuberance, can piece together according to panel of the present utility model by suitably overturning by the identical cell board of shape, as shown in fig. 13 c, can reduce costs further thus.Although Figure 13 C only illustrates one of ordinary skill in the art will readily recognize that the cell board that can continue split greater number by the mode of Figure 13 C by the 4 module unit plates that split is good, thus form more large-area panel.

In order to alleviate the weight of panel, described cell board can be hollow out or only be formed by quadrilateral frame.And can also comprise covering (not shown) according to panel of the present utility model, when described panel is in described deployed condition, described covering covers on the surface of described panel.Described covering may be used for sealing, attractive in appearance or similar object.

In addition, although hereinbefore in order to clear and mainly specifically have references to two pieces of adjacent cell boards and be described the utility model, but should be understood that and forming between any two blocks of adjacent cells plates according to panel of the present utility model or between all adjacent cells plates, same structure can be set.

Although describe the utility model with reference to preferred embodiment of the present utility model and example, but it will be understood by those skilled in the art that, various features in above-described embodiment of the present utility model suitably can combine and form flexible program, and those skilled in the art can make other variants and modifications various to above-described embodiment, make equivalent technical solutions, and be applied to various field, and do not depart from scope of the present utility model.

Claims (10)

1. the panel of an energy fast folding and expansion, this panel comprises and is interconnected and can be folded relative to each other multiple cell board, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch, it is characterized in that, actuator is provided with between described cell board, described actuator is elastic device or magnetic devices, described actuator can apply elastic force or magnetic force to make it relative to each other launch or folding to adjacent cell board, to make described panel automatically launch to described deployed condition by three Pu folding modes or to fold to described folding state.

2. panel according to claim 1, it is characterized in that, described elastic device comprises and is arranged on torsion spring between adjacent cells plate or pushes or pulls to make it relative to each other launch or folding elastomer to adjacent cells plate, and described magnetic devices comprises permanent magnet or electromagnet.

3. panel according to claim 1 and 2, it is characterized in that, between adjacent cell board, be provided with retention device, to make described adjacent cell board can only fold facing one direction from the state launched each other, and can not fold in the opposite direction towards with a described side.

4. panel according to claim 1, is characterized in that, described cell board is plate independent of each other and is connected to each other by the compliant member that can bend.

5. panel according to claim 4, is characterized in that, described compliant member is flexible material layer, and described plate is fixed on described flexible material layer.

6. panel according to claim 4, it is characterized in that, described compliant member comprises two flexible material layers, described plate is stacked between described two flexible material layers, described two flexible material layers are connected to each other around each plate, to be encapsulated in by described plate in the pocket formed by described flexible material layer.

7. panel according to claim 6, is characterized in that, described flexible material layer is connected to each other by stitching, welding, bonding or buckle.

8. panel according to claim 1, is characterized in that, described cell board is independent of each other and is connected to each other by articulated mounting.

9. panel according to claim 8, is characterized in that, described articulated mounting comprises:

Be arranged on the axis hole in the protuberance of the edge of described cell board, when adjacent cell board is stitched together, the axis hole of described adjacent cells plate is aligned with each other; With

Be plugged on the axle in the axis hole aligned with each other of adjacent cells plate,

Wherein, the shape of each cell board is identical.

10. the panel of an energy fast folding and expansion, this panel is comprised and to be interconnected by joint and can be folded relative to each other multiple cell board, to make described panel fold between folding state and deployed condition by three Pu folding modes and to launch, it is characterized in that, actuator is provided with between described cell board, described actuator comprises drawing part, the two ends of described drawing part are separately fixed on adjacent cell board or are separately fixed on adjacent joint, when described in tractive during drawing part, described drawing part can apply pulling force to described adjacent cell board or described adjacent joint and be folded relative to each other to make adjacent cell board, to make described panel can fold to described folding state by three Pu folding modes.