CN204808241U - Collapsible mouse - Google Patents

Abstract

The utility model relates to a collapsible mouse, include: a base plate, a hull cell, a touch -control module, a signal processing module and a communication module set up in on the base plate, wherein, the base plate is a discoid structure, including a major structure, a first backup pad, a second backup pad and a third backup pad, first backup pad, second backup pad and third backup pad center on the major structure sets up, the major structure is a symmetrical structure, has a symmetry axis, first backup pad and second backup pad for the symmetry axis symmetry set up in the major structure both sides, first backup pad and second backup pad rotatable with the major structure is connected, the third backup pad set up in the major structure is along symmetry axis side ascending first end, and rotatable and the major structure is connected. The collapsible mouse structure is simpler, portable.

Description

Foldable mouse

Technical field

The utility model relates to a kind of Foldable mouse, particularly relates to a kind of optical-disk type Foldable mouse of integrated CD.

Background technology

Nineteen sixty-eight, first mouse is put on display in san francisco, usa city IEEE conference in the world, and original mouse profile is a heavy block plaid.After mouse is born, its profile and structure constantly change, these changes make mouse use more comfortable, more meet ergonomics, also more conveniently to carry.

Since entering 21 century, along with the progress of science and the development of technology, mouse spreads among daily life already.For meeting ergonomic designs, current main flow mouse is all designed to arcuate in shape, and floorage is generally between adult's half palm a to hand size, highly general between 3cm ~ 5cm.

But existing mouse still occupies larger volume, be not easy to directly put among pocket.If insert in the small package such as briefcase, computer package, again can due to arcuate in shape cause wrap local eminence, will bring carry inconvenience problem.

Utility model content

In view of this, necessaryly provide a kind of volume and weight less, structure is simple, Foldable mouse easy to use.

A kind of Foldable mouse, comprising: a substrate, a hull cell, a touch module, a signal transacting module and a communication module group are arranged on described substrate, described signal transacting module is electrically connected with described touch module and communication module group respectively, to drive described touch module, and processes the signal that touch module senses, and the data after process are transferred to communication module group, described hull cell is electrically connected respectively with described touch module, signal transacting module and communication module group, to provide the energy, wherein, described substrate is a disc-shaped structure, comprise an agent structure, one first back up pad, one second back up pad and one the 3rd back up pad, described first back up pad, second back up pad and the 3rd back up pad are arranged around described agent structure, described agent structure is an axially symmetric structure, there is an axis of symmetry, described first back up pad and the second back up pad are symmetricly set in described agent structure both sides relative to described axis of symmetry, described first back up pad and the rotatable and described agent structure of the second back up pad are connected, described 3rd back up pad is arranged at described agent structure along the first end on axis of symmetry direction, and rotatable and described agent structure is connected.

Compared with prior art, the Foldable mouse that the utility model provides, by arranging described agent structure, the first back up pad and the second back up pad, described Foldable mouse can be used as mouse collapsible, and schistose texture when launching, can be formed, can put into briefcase, computer package even trouser pocket easily, structure is simple and be convenient for carrying, and has wide application space.

Accompanying drawing explanation

The front elevation of the Foldable mouse that Fig. 1 provides for the utility model embodiment.

Fig. 2 is the rear view of the Foldable mouse shown in Fig. 1.

Fig. 3 is the decomposing schematic representation of the Foldable mouse shown in Fig. 1.

The structural representation of carbon nano-tube film in the touch module that Fig. 4 is the Foldable mouse shown in Fig. 1.

Fig. 5 is the structural representation in a folded configuration of the Foldable mouse shown in Fig. 1.

Main element symbol description

Foldable mouse	100，200，300
		Substrate	10
First back up pad	11
		Second back up pad	12
3rd back up pad	13
		Agent structure	14
Through hole	15
		Mini disc	20
Hull cell	30
		Touch module	40
First carbon nano-tube film	41
		Second carbon nano-tube film	42
3rd carbon nano-tube film	43
		Signal transacting module	50
Communication module group	60
		First cut-off rule	101
Second cut-off rule	103
		3rd cut-off rule	105
4th cut-off rule	107
		First sub-back up pad	111，121
Second sub-back up pad	112，122

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Below in conjunction with the accompanying drawings and the specific embodiments, the Foldable mouse that the utility model provides is described in further detail.

Refer to Fig. 1 to Fig. 3, the utility model first embodiment provides a kind of Foldable mouse 100, comprises substrate 10, hull cell 30, touch module 40, signal transacting module 50 and a communication module group 60 and is arranged at described substrate 10 1 surface.

The material of described substrate 10 can be a transparent material or opaque material, and concrete described substrate 10 is an insulated substrate.Further, the material of described substrate 10 has certain physical strength, thinks that other elements provide support, and can support own wt and can keep own form after it is folding.The material of described substrate 10 can be the polyester materials such as polycarbonate (PC), polymethylmethacrylate (PMMA), tygon (PE), polyimide (PI) or polyethylene terephthalate (PET), or the material such as polyethersulfone (PES), cellulose esters, Polyvinylchloride (PVC), benzocyclobutene (BCB) or acryl resin.Be appreciated that the material forming described substrate 10 is not limited to the above-mentioned material enumerated.In the present embodiment, the material of described substrate 10 is PET.

Described substrate 10 is a schistose texture, in order to support described hull cell 30, touch module 40, signal transacting module 50 and communication module group 60.Concrete, the shape of described substrate 10 can be an axially symmetric structure, has at least one axis of symmetry, and further, described substrate 10 is a centrosymmetric structure, as rhombus, rectangle, square, ellipse or circular.The thickness of described substrate 10 can be 1 millimeter to 3 millimeters, can select as required.The area of described substrate 10 can be selected as required.Preferably, the shape of described substrate 10 is a circle, forms a disc-shaped.The diameter of described disc-shaped structure can be less than or equal to 12 centimetres, therefore, it is possible in the CD-ROM drive of the electronic equipments such as income computing machine, be convenient to storage.In the present embodiment, the shape of described substrate 10 is a circle, and diameter is 12 centimetres, and thickness is 2 millimeters.

Described substrate 10 can be a disc shaped structure, and namely described substrate 10 has a through hole 15, and described through hole 15 runs through described substrate 10 along the thickness direction of described substrate 10.Described through hole 15 can be an axially symmetric structure or centrosymmetric structure, also can be other geometric configuratioies.When described substrate 10 is an axially symmetric structure, described through hole 15 is positioned on the axis of symmetry of described axially symmetric structure, and namely the axis of symmetry of described through hole 15 overlaps with the axis of symmetry of described substrate 10; Centered by described substrate 10 during symmetrical structure, described through hole 15 is positioned at the center of described substrate 10, and namely the axis of symmetry of described through hole 15 overlaps with the symcenter of described substrate 10.Preferably, described through hole 15 is a circle.The aperture of described through hole 15 can be selected according to the size of described substrate 10, to make described substrate 10 that enough spaces can be had to carry described hull cell 30, touch module 40, and signal transacting module 50 and communication module group 60.The aperture of described through hole 15 can be 5 millimeters-25 millimeters.In the present embodiment, described substrate 10 is a disc shaped structure, and described through hole 15 is a circle, and the center of described through hole 15 and the center superposition of described substrate 10, diameter is 15 millimeters.

Described substrate 10 is a folding structure, and described substrate 10 can be divided into four parts by one first cut-off rule 101,1 second cut-off rule 103 and one the 3rd cut-off rule 105.Concrete, the shape of described substrate 10 is circular, and described first cut-off rule 101 and the second cut-off rule 103 distribute relative to a symmetrical rotational symmetry of described substrate 10.Described first cut-off rule 101 and described second cut-off rule 103 interval are arranged, namely described first cut-off rule 101 and the second cut-off rule 103 non-intersect in the scope that described substrate covers.The direction defining this axis of symmetry is Y direction, then the direction perpendicular to Y-axis is X-direction.Described first cut-off rule 101 and the second cut-off rule 103 can extend along Y direction.Be appreciated that described extension along Y week refers to that described first cut-off rule 101 and the second cut-off rule 103 can be parallel to axis of symmetry direction, also can form an angle with axis of symmetry shape, but its overall bearing of trend be along Y direction.Described first cut-off rule 101 and the second cut-off rule 103 can be straight line, curve or broken line.Described first cut-off rule 101 and the second cut-off rule 103 can be arranged in parallel, also can not parallelly arrange, namely the bearing of trend of described first cut-off rule 101 and the second cut-off rule 103 can at an angle, and the extended line of described first cut-off rule 101 and the second cut-off rule 103 intersects.Spacing between described first cut-off rule 101 and the second cut-off rule 103 can be selected as required, to be applicable to different hand-types and requirement for height.In the present embodiment, described first cut-off rule 101 and the second cut-off rule 103 are symmetrical arranged relative to described Y-axis, and are broken line, and described broken line all bends to the axis of symmetry direction of described substrate 10.

Described 3rd cut-off rule 105 is between the first cut-off rule 101 and the second cut-off rule 103, and the bearing of trend of described 3rd cut-off rule 105 is perpendicular to the axis of symmetry of described substrate 10, and namely described 3rd cut-off rule 105 extends in X direction.Described 3rd cut-off rule 105 has relative two ends, crossing with described first cut-off rule 101 and the second cut-off rule 103 respectively.Distance between described 3rd cut-off rule 105 and the symcenter o of described substrate 10 can be selected as required, and in the present embodiment, the distance between described 3rd cut-off rule 105 and symcenter is 1/2nd of described substrate 10 radius.In addition, because described first cut-off rule 101 and the second cut-off rule 103 are broken line, the two ends that therefore described 3rd cut-off rule 105 is relative are crossing with the flex point of described first cut-off rule and the second cut-off rule 103 respectively, thus substrate 10 is divided into four parts.

Concrete, described substrate 10 is divided into an agent structure 14 by described first cut-off rule 101, second cut-off rule 103 and the 3rd cut-off rule 105, one first back up pad 11,1 second back up pad 12 and one the 3rd back up pad 13 according to functional structure difference.Described through hole 15 is positioned at described agent structure 14, and described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 all and described through hole 15 interval arrange.Described substrate 10 has relative first surface and second surface, and described first surface is after folding as the outside surface of described Foldable mouse 100, and described second surface is after folding as the inside surface of described Foldable mouse 100.Described first cut-off rule 101 and the second cut-off rule 103 can run through described substrate 10 along the thickness direction of described substrate 10, thus by described agent structure 14, first back up pad 11, second back up pad 12 and the 3rd back up pad 13 is isolated opens, spaced setting each other; Described first cut-off rule 101 and the second cut-off rule 103 also only can go deep into described substrate 10 certain depth along the thickness direction of described substrate 10, but described agent structure 14, first back up pad 11, second back up pad 12 and the 3rd back up pad 13 are not completely cut off completely and open, and described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 can relative to described agent structure 14 respectively with described first cut-off rule 101, second cut-off rule 103 and the 3rd cut-off rule 105 for axle rotates, to form foldable structure.

In the present embodiment, described agent structure 14, first back up pad 11, second back up pad 12 and the spaced setting of the 3rd back up pad 13, and spliced profile is circular, thus form the substrate 10 of described disc shaped.Described agent structure 14 is between the first back up pad 11, second back up pad 12 and the 3rd back up pad 13, and described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 are arranged around described agent structure 14.Further, described agent structure 14 is an axially symmetric structure, and the axis of symmetry of described agent structure 14 can through the symcenter of described substrate 10.Described first back up pad 11 and the second back up pad 12 are symmetrically distributed in the both sides of described agent structure 14 relative to the axis of symmetry of described agent structure 14, and described 3rd back up pad 13 is arranged at one end of described agent structure 14 along described axis of symmetry direction.The shape of described first back up pad 11 and the second back up pad 12 can be identical, and have identical area, is beneficial to the folding rear stable described agent structure 14 of support.

The shape of described agent structure 14 can be selected according to described touch module 40, to ensure that described agent structure 14 can hold described element, and has good feel.Described agent structure 14 has relative first end and the second end along Y direction, and described first end can be less than the width of described second end in X-direction at the width of X-direction, thus makes the shape approximation of described agent structure 14 in inverted trapezoidal structure.Described 3rd back up pad 13 is connected with the first end of described agent structure 14.The concrete width of described first end and the second end can be selected as required, and in the present embodiment, the width of described first end is 4 centimetres, and the width (i.e. the span of camber line) of described second end is 8 centimetres.

Described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 can fold to the direction of second surface, thus support described agent structure 14.Described touch module 40 can be arranged at the second relatively large end of described agent structure 14 area, and concrete, described touch module 40 is arranged between described through hole 15 and the edge of described agent structure 14.

Being connected with described agent structure 14 of described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 rotatable folding.Concrete, described first back up pad 11, second back up pad 12 and described 3rd back up pad 13 upon deployment can be coplanar with described agent structure 14, and can be combined to form a spatial structure with described agent structure 14 after folding.Described first back up pad 11 can the first cut-off rule 101 be turning axle rotary folding, and described second back up pad 12 can described second cut-off rule 103 be turning axle rotary folding, and described 3rd back up pad 13 can the 3rd cut-off rule 105 be axle rotary folding.After folding, the surface of described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 can form an angle theta with the surface of described agent structure 14, and described angle theta can be greater than 0 degree and be less than or equal to 90 degree, can select as required.In the present embodiment, the angle formed with described agent structure 14 after described first back up pad 11, second back up pad 12 is folding is 90 degree, and namely the surface of described first back up pad 11 and the second back up pad 12 is perpendicular to the surface of described agent structure 14.

Described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 are for supporting described agent structure 14.When described first back up pad 11, second back up pad 12, the 3rd back up pad 13 and described agent structure 14 are spaced, described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 equal described agent structure 14 connect by rotating shaft, spring, screw, hinges.In the present embodiment, described first back up pad 11 is connected with described agent structure 14 by a miniature hinge 70; Described second back up pad 12 is also connected with described agent structure 14 by a miniature hinge 70; Described 3rd back up pad 13 is connected with described agent structure 14 by another miniature hinge 70 equally.Described three miniature hinges 70 are arranged along described first cut-off rule 101, second cut-off rule 103 and the 3rd cut-off rule 105 respectively, and can be symmetrical relative to the axis of symmetry of described agent structure 14.

Further, described first back up pad 11 and the second back up pad 12 comprise two parts respectively.Because the first back up pad 11 and the second back up pad 12 are symmetrical structure relative to described agent structure 14, therefore for the second back up pad 12, concrete, described second back up pad 12 comprises one first sub-back up pad 121 and the second sub-back up pad 122 interval is arranged.Described first sub-back up pad 121 and the second sub-back up pad 122 connect by miniature hinge 70 equally, and described second sub-back up pad 122 can fold to the direction of second surface further.Form a supporting surface after described second sub-back up pad 122 is folding, thus make described Foldable mouse 100 can be positioned over other planes stably, thus be more conducive to operation.The area of described second sub-back up pad 122 can be less than the area of described first sub-back up pad 121, has enough height after folding, to improve feel with the described Foldable mouse 100 made.The area of described second sub-back up pad 122 can be 1/10 to 1/5 of described first sub-back up pad 121 area.Described first sub-back up pad 121 and the second sub-back up pad 122 are split by one the 4th cut-off rule 107, described 4th cut-off rule 107 can extend along the direction being parallel to described substrate 10 axis of symmetry, thus described second back up pad 12 is divided into first sub-back up pad 121 and second sub-back up pad 122 two parts.Similar, described first back up pad 11 comprises one first sub-back up pad 111 and the second sub-back up pad 113 equally.

Described touch module 40 can be a capacitance touching control module, also can be an electric resistance touch-control module.In the present embodiment, described touch module 40 is a capacitance touching control module.Described touch module 40 can comprise the second surface that one first carbon nano-tube film 41, second carbon nano-tube film 42 and the 3rd carbon nano-tube film 43 are arranged at intervals at described agent structure 14, in order to sense the input of control signal, to be respectively used to the right button of described Foldable mouse 100, middle key and left button.Concrete, described second carbon nano-tube film 42 can be arranged along the axis of symmetry of described agent structure 14, first carbon nano-tube film 41 and the 3rd carbon nano-tube film 43 can be symmetrically distributed in the both sides of described second carbon nano-tube film 42, and can be symmetrical relative to the axis of symmetry of described agent structure 14.Shape, the area of described first carbon nano-tube film 41, second carbon nano-tube film 42 and the 3rd carbon nano-tube film 43 can (as the size of different mouse and the size of people's palm) be selected, to facilitate manipulation according to actual needs.

Further, described first carbon nano-tube film 41, second carbon nano-tube film 42 and the 3rd carbon nano-tube film 43 also can be interconnected to form integrative-structure, that is described first carbon nano-tube film 41 and the second carbon nano-tube film 42 and the 3rd carbon nano-tube film 43 are the zones of different of same carbon nano-tube film, according to the difference of zones of different function as the right button of Foldable mouse 100, middle key and left button.In the present embodiment, described first carbon nano-tube film 41, second carbon nano-tube film 42 and the 3rd carbon nano-tube film 43 are the zones of different of same carbon nano-tube film.

Described carbon nano-tube film is a carbon nano-tube film with electrical impedance anisotropy.See also Fig. 4, described carbon nano-tube film is the self supporting structure be made up of some carbon nano-tube (CarbonNanoTube, CNT).Described some carbon nano-tube extend along a fixed-direction preferred orientation.In this carbon nano-tube film, the overall bearing of trend of most of carbon nano-tube substantially in the same direction.And the overall bearing of trend of described most of carbon nano-tube is basically parallel to the surface of carbon nano-tube film.Further, in described carbon nano-tube film, most carbon nano-tube is joined end to end by Van der Waals (VanDerWaals) power.Particularly, in the most of carbon nano-tube extended substantially in the same direction in described carbon nano-tube film, each carbon nano-tube and carbon nano-tube adjacent are in the direction of extension joined end to end by Van der Waals force.Certainly, there is the carbon nano-tube of minority random alignment in described carbon nano-tube film, these carbon nano-tube can not form obviously impact to the overall orientation arrangement of carbon nano-tube most of in carbon nano-tube film.Described carbon nano-tube film does not need large-area carrier supported, as long as and relatively both sides provide support power can be unsettled on the whole and keep self membranaceous state, when being placed on spaced two supporters by this carbon nano-tube film, the carbon nano-tube film between two supporters can the membranaceous state of unsettled maintenance self.

Particularly, the most carbon nano-tube extended substantially in the same direction in described carbon nano-tube film, and nisi linearity, can be suitable bend; Or and non-fully arranges according on bearing of trend, can be suitable depart from bearing of trend.Therefore, can not get rid of between carbon nano-tube arranged side by side in the most carbon nano-tube extended substantially in the same direction of carbon nano-tube film and may there is part contact.

Particularly, described carbon nano-tube film comprise multiple continuously and the carbon nano-tube fragment aligned.The plurality of carbon nano-tube fragment is joined end to end by Van der Waals force.Each carbon nano-tube fragment comprises multiple carbon nano-tube be parallel to each other, and the plurality of carbon nano-tube be parallel to each other is combined closely by Van der Waals force.This carbon nano-tube fragment has arbitrary length, thickness, homogeneity and shape.Carbon nano-tube in this carbon nano-tube film is arranged of preferred orient in the same direction.

Described carbon nano-tube film obtains by directly pulling from carbon nano pipe array.Particularly, first on the substrate of quartz or wafer or other material, grow carbon nano pipe array, such as, use long-pending (ChemicalVaporDeposition, the CVD) method in chemical gaseous phase Shen; Then, with stretching technique, carbon nano-tube pulled out from carbon nano pipe array and formed.These carbon nano-tube are joined end to end by Fan get Wa Li, form tool certain orientation and the conductive elongate structure of almost parallel arrangement.The minimum electrical impedance of direction tool that the carbon nano-tube film formed can stretch, and perpendicular to the maximum electrical impedance of draw direction tool, thus possess electrical impedance anisotropy.Further, this carbon nano-tube film of lasser cutting can also be adopted.When carbon nano-tube film through lasser cutting, carbon nano-tube film will have multiple laser cut line, and such process not only can not affect the electrical impedance anisotropy that carbon nano-tube film originally just had, and can also increase the light transmission of this carbon nano-tube film.

Further, an adhesive-layer (not shown) can be set, described carbon nano-tube film to be adhered to better the second surface of described agent structure 14 between described carbon nano-tube film and agent structure 14.The thickness of described adhesive-layer is 10 nanometer ~ 50 micron; Preferably, the thickness of described adhesive-layer is 1 micron ~ 2 microns.Described adhesive-layer can be transparent or opaque.The material of this adhesive-layer can for having thermoplastic or the UV(UltravioletRays of low melting point) glue, as Polyvinylchloride (PVC) or PMMA etc.In the present embodiment, described adhesive-layer is UV glue, and its thickness is about 1.5 microns.

Described signal transacting module 50 is arranged at the second surface of described substrate 10, concrete, and described signal transacting module 50 is arranged at the surface of described 3rd back up pad 13.Described signal transacting module 50 is electrically connected with described touch module 40, to go forward side by side row relax, and be transferred to communication module group 60, then and communication control module 60 passes to other electronic equipments in order to drive and to receive control signal that touch module 40 senses.Further, described signal transacting module 50 is in order to detect the movement of Foldable mouse 100.Described signal transacting module 50 can comprise an optical sensor (not shown), in order to detect the motion track of Foldable mouse 100, and the result of detection is transferred to signal transacting module 50.Described signal transacting module 50 by photosensor senses to signal process, obtain the motion track of Foldable mouse 100, and be converted into electrical signal transfer to communication module group 60.Described signal transacting module 50 can be a printed-wiring board (PWB) (PCB), and this printed-wiring board (PWB) is integrated with various chip and circuit.

Described communication module group 60 can be arranged at the surface of described substrate 10, concrete, and described communication module group 60 can be arranged at the surface of described second back up pad 12.Described communication module group 60 is electrically connected with described signal transacting module 50, passes to other electronic equipments in order to the control signal after being processed by signal transacting module 50, to realize the control to other electronic equipments.Communication module group 60 can be a wire communication module or wireless telecommunications module.Described wire communication module can be a USB communication module group.Described wireless telecommunications module 60 can be one or more in infrared transmitter, bluetooth transmitters, Wifi transmitter or 2.4G transmitter.Communication module group 60 processes the wireless signal of module 50 output to electronic equipments such as computing machines for transmitting, to control this electronic device works.In the present embodiment, communication module group 60 is a 2.4G transmitter.

Described hull cell 30 is arranged at the surface of described substrate 10, concrete, and described hull cell 30 can arrange the surface of described agent structure 14, also can be arranged at the surface of the first back up pad 11 and the second back up pad 12.Further, described hull cell 30 is at least attached at the surface of described first back up pad 11, also can be arranged at the surface of described first back up pad 11 and the second back up pad 12 simultaneously.Concrete, described hull cell 30 can be attached at the surface of described first sub-back up pad 111 and the first sub-back up pad 121.In the present embodiment, described first back up pad 11 and the second back up pad 12 are pasted with described hull cell 30 simultaneously.Described hull cell 30 and described touch module 40, signal transacting module 50 and communication module group 60 are electrically connected, in order to provide the energy to each element.Described hull cell 30 can be a thin-film solar cells, also can be a film lithium ion battery, also can be the hull cell of other types.In the present embodiment, described hull cell 30 is a film lithium ion battery.

See also Fig. 5, when described Foldable mouse 100 is in folded state, described first back up pad 11, second back up pad 12 and the 3rd back up pad 13 provide support for described agent structure 14, by the surface of described agent structure 14 frame from described Foldable mouse 100 place, form a spatial structure, so that grasp.Further, after folding, described hull cell 30, touch module 40, signal transacting module 50 and communication module group 60 are all positioned at the inside surface of described Foldable mouse 100, and outside surface is used for grasping and touch-control.Meanwhile, the surface at described Foldable mouse 100 place is parallel to after described second sub-back up pad 112 and the second sub-back up pad 122 fold, for described Foldable mouse 100 provides more stable support further.In addition, by the first cut-off rule 101, second cut-off rule 103 and the 3rd cut-off rule 105 described in appropriate design, the Foldable mouse 100 after described folding can be made to form an incline structure, improve the feel of Foldable mouse 100.By mobile described Foldable mouse 100, and touch described touch module 40, realize the control to other electronic equipments such as computing machines.When described Foldable mouse 100 does not use, can be launched, make it present flat state, thus can bag, pocket be put into easily, easily or sandwich book, be received easily.Further, because Foldable mouse 100 described in the present embodiment is in expansion structure in the form of annular discs, therefore described Foldable mouse 100 is not the used time directly can put into CD-ROM drive or the hard-disk cartridge of the electronic equipments such as computing machine yet, be convenient to carry with, save space greatly, can take out easily at any time and put into described Foldable mouse, improve the portability of Foldable mouse.

Be appreciated that, described hull cell 30, touch module 40, the surface that signal transacting module 50 and communication module group 60 are arranged at described substrate 10 is only specific embodiment, due to described hull cell 30, touch module 40, signal transacting module 50 and communication module group 60 all very thin, therefore meeting under the above prerequisite required as portability etc., described hull cell 30, touch module 40, signal transacting module 50 and communication module group 60 also accessible site in the inside of described substrate 10.In addition, under the prerequisite of major function not affecting described Foldable mouse 100, described hull cell 30, touch module 40, signal transacting module 50 and communication module group 60 also can be arranged at the different surface of described substrate 10, can select according to actual needs.

In addition, those skilled in the art can also do other changes in the utility model spirit, and these changes done according to the utility model spirit all should be included in the utility model scope required for protection.

Claims (10)

1. a Foldable mouse, comprising: a substrate, and a hull cell, a touch module, a signal transacting module and a communication module group are arranged on described substrate, described signal transacting module is electrically connected with described touch module and communication module group respectively, to drive described touch module, and processes the signal that touch module senses, and the data after process are transferred to communication module group, described hull cell is electrically connected respectively with described touch module, signal transacting module and communication module group, to provide the energy, it is characterized in that, described substrate is a disc-shaped structure, comprise an agent structure, one first back up pad, one second back up pad and one the 3rd back up pad, described first back up pad, second back up pad and the 3rd back up pad are arranged around described agent structure, described agent structure is an axially symmetric structure, there is an axis of symmetry, described first back up pad and the second back up pad are symmetricly set in described agent structure both sides relative to described axis of symmetry, described first back up pad and the rotatable and described agent structure of the second back up pad are connected, described 3rd back up pad is arranged at described agent structure along the first end on axis of symmetry direction, and rotatable and described agent structure is connected.

2. Foldable mouse as claimed in claim 1, it is characterized in that, described substrate forms described agent structure, the first back up pad, the second back up pad and the 3rd back up pad by the segmentation of one first cut-off rule, one second cut-off rule and one the 3rd cut-off rule, described first cut-off rule and the second cut-off rule interval are arranged and direction along axis of symmetry extends, and be symmetrically distributed in described axis of symmetry both sides, the two ends of described 3rd cut-off rule are crossing with described first cut-off rule and the second cut-off rule respectively.

3. Foldable mouse as claimed in claim 2, it is characterized in that, the shape of described substrate is circular, and described first back up pad, the second back up pad and the 3rd back up pad are arranged around described agent structure, and combines with described agent structure and form described disc-shaped structure.

4. Foldable mouse as claimed in claim 3, it is characterized in that, described first back up pad is connected with described agent structure by one first miniature hinge, described second back up pad is connected with described agent structure by one second miniature hinge, described 3rd back up pad is connected with described agent structure by one the 3rd miniature hinge, described first miniature hinge, second miniature hinge, 3rd miniature hinge is corresponding to described first cut-off rule, second cut-off rule and the 3rd cut-off rule are arranged, described first back up pad, second back up pad and the 3rd back up pad are respectively with the first cut-off rule, second cut-off rule and the 3rd cut-off rule are that turning axle rotates relative to described agent structure.

5. Foldable mouse as claimed in claim 4, it is characterized in that, described first back up pad, the second back up pad and the 3rd back up pad are coplanar with described agent structure upon deployment, when folding after rotation and the surface of described agent structure forms an angle theta, and described angle theta is greater than 0 degree and is less than or equal to 90 degree.

6. Foldable mouse as claimed in claim 1, it is characterized in that, described agent structure has the through hole running through described substrate along described substrate thickness direction, described first back up pad, the second back up pad and the 3rd back up pad all and described through hole interval arrange.

7. Foldable mouse as claimed in claim 1, it is characterized in that, described agent structure is along the direction of axis of symmetry having relative first end and the second end, described first end is connected with described 3rd back up pad, described touch module is arranged at the second end of described agent structure, described touch module comprises one first carbon nano-tube film, one second carbon nano-tube film and one the 3rd carbon nano-tube film and is attached at described agent structure surface, forms left button, middle key and right button.

8. Foldable mouse as claimed in claim 1, it is characterized in that, described signal transacting module and communication module group are arranged at the surface of described 3rd back up pad, and described hull cell is arranged at the surface of described first back up pad and the second back up pad.

9. Foldable mouse as claimed in claim 1, it is characterized in that, described first back up pad, the second back up pad and the 3rd back up pad form a spatial structure relative to after described agent structure rotary folding, described agent structure is supported by described first back up pad, the second back up pad and the 3rd back up pad, described spatial structure has an inside surface and an outside surface, and described hull cell, touch module, signal transacting module and communication module group are all arranged at the inside surface of described spatial structure.

10. Foldable mouse as claimed in claim 1, it is characterized in that, described first back up pad and the second back up pad comprise one first sub-back up pad and the second sub-back up pad respectively, described first sub-back up pad is connected with described agent structure is rotatable by miniature hinge, described second sub-back up pad is connected with described first sub-back up pad is rotatable by miniature hinge, described second sub-back up pad forms a plane, in order to support described second sub-back up pad after rotating relative to described first sub-back up pad.