Summary of the invention
In view of the foregoing deficiencies of prior art, the present invention provides a kind of electronic equipment control device, and the device is not onlyCan size adjustable, also have self-locking function and by electronic equipment clamp position, so that solving existing game paddle size can notAdjust or can not clamp the technical problems such as electronic equipment.
To achieve the above object, the present invention provides a kind of electronic equipment control device, comprising: device noumenon and movable part;It is connected between described device ontology and movable part by bascule, it can be along first between described device ontology and movable part to enableDirection performs relative motion, to form the adjustable accommodation space for being used to load electronic equipment between the two;The activity knotStructure includes: at least one first extensible member, connects described device ontology and movable part, can be flexible along the first direction;It is one or moreA first positioning region, one or more second positioning regions, first positioning region and the second positioning connecting connection parts ontology and activityOne of part and another one;Second positioning region can in a second direction activity and close to combine or far to disengage in instituteThe first positioning region is stated, the movable part is positioned at or is detached from predeterminated position.
In one embodiment of the invention, the bascule includes: the first sliding part, fixed with described at least one secondPosition portion is slidably connected;First sliding part pushes second positioning region along third direction, to enable the second positioning region along describedSecond direction activity;Wherein, first sliding part is equipped with the first sliding path, slides on for the second positioning region;It is describedFirst sliding path includes first position and the second position, wherein second positioning region slides into first position with firstPositioning region combines, and it slides into the second position to disengage with the first positioning region.
In one embodiment of the invention, first sliding part includes one relative to the first direction inclined firstInclined surface, first sliding path are set to first inclined surface, to enable from the first position to the vertical of first directionDistance is less than the vertical range from the second position to first direction.
In one embodiment of the invention, first sliding part can push second positioning region along third direction,In, the third direction includes: the direction being in the same plane with the first direction, second direction, or with describedOne direction, second direction are located at the direction in Different Plane.
In one embodiment of the invention, the bascule further include: operation portion exposes to described device ontology;InstituteStating operation portion drives first sliding part to slide along the third direction.
In one embodiment of the invention, the bascule further include: the second extensible member, connection described device ontology andFirst sliding part;Second extensible member provides elasticity after the movable part reaches predeterminated position, for first sliding partPower, to drive the second positioning region to be incorporated into the first positioning region by first sliding part.
In one embodiment of the invention, the bascule further include: one or more limit shafts, along the first directionSetting;First extensible member is placed on limit shaft, to prevent movable part from deviateing first direction.
In one embodiment of the invention, the bascule further include: third positioning region, with first positioning region phaseIt is right;First positioning region and third positioning region are set to the movable part along first direction;4th positioning region, it is fixed with described secondPosition portion is opposite;Second positioning region and the 4th positioning region are set to described device ontology in a second direction, and are located at the first positioningIn the space that portion and third positioning region are formed;Second positioning region in a second direction activity and close to being incorporated into firstPositioning region, the 4th positioning region edge and second party are movable and close to third positioning region in the opposite direction, by the workMoving part is positioned at predeterminated position;Second positioning region along with second party in the opposite direction activity and far to disengaging in firstPositioning region, the 4th positioning region is along the second direction activity and far from extremely disengaging in third positioning region, by the activityPart is detached from predeterminated position.
In one embodiment of the invention, described device further include: the second sliding part is located at the first positioning region and third is fixedIn the space that position portion is formed, and it is slidably connected with second positioning region and the 4th positioning region;Second sliding part is setThere are trapezoidal hollow-out parts, for accommodating second positioning region and the 4th positioning region;Third extensible member is separately connected second positioningPortion and the 4th positioning region;Wherein, two waists of the trapezoidal hollow-out parts are respectively equipped with the second sliding path and third sliding path, pointIt Gong not the second positioning region and the sliding of the 4th positioning region;Second positioning region, the sliding of the 4th positioning region are close to extremely trapezoidal hollow-out partsWaist top when, the third extensible member is in compressive state, and second positioning region is disengaged in the first positioning region, the 4th positioningPortion is disengaged in third positioning region;It is described when second positioning region, the sliding of the 4th positioning region are close to the extremely waist bottom of trapezoidal hollow-out partsThird extensible member is in compression or nature, and second positioning region is incorporated into the first positioning region, the 4th positioning region knotTogether in third positioning region.
In one embodiment of the invention, first positioning region, the second positioning region, third positioning region, the 4th positioning regionIncluding teeth portion.
As described above, electronic equipment control device of the present invention, has the advantages that the control device is logicalCross its movable part, with device noumenon formed a size adjustable accommodation space, can flexible transformation accommodate size, thus load profileThe electronic equipment of varying dimensions expands the application range of control device and the Experience Degree of user is substantially improved;In addition, the present invention mentionsThe electronic equipment control device of confession, not only can size adjustable, also have self-locking function and by electronic equipment clamp position, to haveEffect overcomes various shortcoming in the prior art and has high industrial utilization value.
Detailed description of the invention
Fig. 1 is shown as the schematic diagram of electronic equipment control device in one embodiment of the invention.
Fig. 2 is shown as the explosive view of electronic equipment control device in one embodiment of the invention.
Fig. 3 a is shown as the part-structure figure of electronic equipment control device in one embodiment of the invention.
Fig. 3 b is shown as the part-structure figure of electronic equipment control device in one embodiment of the invention.
Fig. 4 is shown as the schematic diagram of electronic equipment control device part-structure in one embodiment of the invention.
Fig. 5 is shown as the schematic diagram of electronic equipment control device part-structure in one embodiment of the invention.
Component label instructions
1 electronic equipment control device
101 device noumenons
1011 through-holes
102 movable parts
103 first extensible members
104 first positioning regions
105 second positioning regions
106 third positioning regions
107 the 4th positioning regions
108 sliding parts
109 third extensible members
110 operation portions
111 second extensible members
112 limit shafts
51 first positioning regions
52 second positioning regions
53 sliding paths
The direction A~E
Specific embodiment
Embodiments of the present invention are illustrated by particular specific embodiment below, those skilled in the art can be by this explanationContent disclosed by book is understood other advantages and efficacy of the present invention easily.
It should be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., only to cooperate specification to be taken offThe content shown is not intended to limit the invention enforceable qualifications so that those skilled in the art understands and reads, thereforeDo not have technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size are not influencing the present inventionUnder the effect of can be generated and the purpose that can reach, it should all still fall in disclosed technology contents and obtain the model that can coverIn enclosing.Meanwhile in this specification cited such as "upper", "lower", "left", "right", " centre " term, be merely convenient to chatThat states is illustrated, rather than to limit the scope of the invention, relativeness is altered or modified, and is changing skill without essenceIt is held in art, when being also considered as the enforceable scope of the present invention.
As shown in Figure 1, showing the schematic diagram of electronic equipment control device in one embodiment of the invention.Electricity of the present inventionSub- equipment is a kind of equipment for realizing human-computer interaction by touch technology, such as: the terminals such as mobile phone, tablet computer;The manipulationDevice is a kind of device that manipulation virtual role is realized by manipulation electronic equipment, such as: game paddle.The electronic equipment withIt can be communicated to connect by way of wired connection between control device, it can also be by way of the wireless connections such as bluetooth or WifiCommunication connection, this is not limited by the present invention.
The electronic equipment control device 1 includes device noumenon 101, movable part 102 and bascule (not shown).It is connected between described device ontology 101 and movable part 102 by the bascule, to enable described device ontology 101 and activityIt can be performed relative motion along first direction between part 102, to form the adjustable appearance for being used to load electronic equipment between the twoReceive space.In this present embodiment, the first direction is that device is longitudinal, adopts and is indicated by the arrow A in figure, but the first directionIt is not limited to the direction of arrow A.
It should be noted that the electronic equipment control device that Fig. 1 is shown is single handle game paddle, and 102 edge of movable partHandle longitudinally-moving, but the scope of the present invention is not limited to the embodiment.For example: electronic equipment control device can also be withIt is double handle game paddle, movable part 102 can also be set to the side of device noumenon 101 and movable along the direction of handle transverse direction,This is not limited by the present invention.
As shown in Fig. 2, showing the explosive view of electronic equipment control device in one embodiment of the invention.The bascule packetIt includes: at least one first extensible member 103, one or more first positioning regions 104 and one or more second positioning regions 105;DescribedOne extensible member 103 connects described device ontology 101 and movable part 102, can be flexible along the first direction;Described first is fixedPosition portion 104 and one of 105 attachment device ontology 101 of the second positioning region and movable part 102 and another one.In the present embodimentIn, first positioning region 104 connects movable part 102,105 attachment device ontology 101 of the second positioning region.
As shown in Figure 3a, the part-structure figure of electronic equipment control device in one embodiment of the invention is shown.The activityStructure includes: third positioning region 106, the 4th positioning region 107;The third positioning region 106 is opposite with first positioning region 104Setting, and be set on the movable part 102 along first direction;4th positioning region 107 and 105 phase of the second positioning regionIt to setting, is set on described device ontology 101 in a second direction, and is located at 106 shape of the first positioning region 104 and third positioning regionAt space in.In this present embodiment, the second direction is device lateral, adopts and is indicated by the arrow B in figure, but is describedSecond direction is not limited to the direction of arrow B.
As shown in Fig. 2 or Fig. 3 a, the bascule further includes sliding part 108, third extensible member 109.The sliding part108 are located in the space that the first positioning region 104 and third positioning region 106 are formed, and are equipped with trapezoidal hollow-out parts, for accommodatingSecond positioning region 105 and the 4th positioning region 107;The third extensible member 109 is separately connected 105 He of the second positioning region4th positioning region 107.
Two waists of the trapezoidal hollow-out parts are respectively equipped with the second sliding path and third sliding path (not shown), supply respectivelySecond positioning region 105 and the sliding of the 4th positioning region 107.Second positioning region 105, the 4th positioning region 107 are slided close to extremely ladderWhen the waist top of shape hollow-out parts, the third extensible member 109 is in compressive state, and second positioning region 105 is disengaged in firstPositioning region 104, the 4th positioning region 107 are disengaged in third positioning region 106;Second positioning region 105, the 4th positioning region 107 are slidingWhen the dynamic close extremely waist bottom of trapezoidal hollow-out parts, the third extensible member 109 is in compression or nature, and described second is fixedPosition portion 105 is incorporated into the first positioning region 104, and the 4th positioning region 107 is incorporated into third positioning region 106.
Optionally, the bascule includes operation portion 110, and the operation portion 110 exposes to described device ontology 101.Specifically as shown in Fig. 2, described device ontology 101 is equipped with the inside and outside through-hole 1011 of communication apparatus ontology 101, and it is described logicalThe size in hole 1011 is matched with operation portion 110, and the operation portion 110 passes through the operating area that the through-hole 1011 is exposed to userIn.
As shown in Figure 3b, the part-structure figure of electronic equipment control device in one embodiment of the invention is shown.This figure is shownSecond positioning region 105 is disengaged in first positioning region 104, and the 4th positioning region 107 is disengaged in the schematic diagram of third positioning region 106.Those skilled in the art are according to Fig. 3 a and Fig. 3 b: using Fig. 3 a as original state, described second is fixed under the original statePosition portion 105 and the 4th positioning region 107 are located at the waist bottom of trapezoidal hollow-out parts, and second positioning region 105 and the first positioning region 104In conjunction with the 4th positioning region 107 is combined with third positioning region 106, and the third extensible member 109 is in compression or natureSo that in state that is mutually exclusive or neither repelling nor attract between the second positioning region 105 and the 4th positioning region 107.WithFamily can drive 108 slide downward of sliding part by the operation portion 110, so that the second positioning region 105 and the 4th positioning region107 slide into trapezoidal hollow-out parts waist top shown in Fig. 3 b relatively, and the second positioning region 105 is disengaged in the first positioning region under the state104, the 4th positioning region 107 is disengaged in third positioning region 106, and the movable part 102 is under free state and reaches default positionIt sets.After the movable part 102 reaches predeterminated position, user can drive the sliding part 108 upwards by the operation portion 110Sliding, so that the opposite waist bottom for sliding back into trapezoidal hollow-out parts in the second positioning region 105 and the 4th positioning region 107, the second positioning region105 are incorporated into the first positioning region 104 and the 4th positioning region 107 is incorporated into third positioning region 106, and then by the movable part 102It is positioned at predeterminated position.
It should be noted that the shape of the hollow-out parts is not limited to trapezoidal in above-described embodiment, phase is in fact only neededIt slides for the second positioning region 105, the 4th positioning region 107, and realizes combination or disengagement in inclined-plane inclined for first directionFirst positioning region 104, third positioning region 106.In addition, the trapezoidal trapezoid being also not necessarily limited in above-described embodiment, at otherEmbodiment in, trapezoidal inverted trapezoidal or the centre symmetry line of being also possible to is nonparallel trapezoidal with the first direction, thisInvention is not construed as limiting this.
It is further to note that the sliding part 108 can push the second positioning region 105 and the 4th positioning along third directionPortion 107, wherein the third direction includes: the direction being in the same plane with the first direction, second direction, orIt is located at the direction in Different Plane with the first direction, second direction.By taking Fig. 3 a or Fig. 3 b as an example, user can stir describedOperation portion 110 slides upward or downward, to drive the second positioning region 105 living towards the direction of arrow B by sliding part 108It is dynamic, and drive the 4th positioning region 107 towards the direction activity opposite with arrow B;Wherein, the side that the operation portion 110 is struckIt is located in identical plane to first direction and second direction.In other examples, the operation portion 110 is struckDirection can also be located in different planes from first direction and second direction, will hereafter be equipped with schematic diagram and be explained.
As shown in figure 4, showing the schematic diagram of the part-structure of electronic equipment control device in one embodiment of the invention.In Fig. 4The direction of arrow C represents the short transverse of device, the i.e. direction perpendicular with the horizontal and vertical place plane of device.In the realityIt applies in example, the operation portion 110 is flexibly connected with sliding part 108, when user presses down on the operation along the direction of arrow CPortion 110 is to press down on sliding part 108, and the sliding part 108 drives the second positioning region 105 towards the activity of the direction of arrow ETo be combined with the first positioning region 104, and drive the 4th positioning region 107 towards arrow D direction activity with third positioning region 106In conjunction with to lock movable part (not shown).And when user stirs the operation portion 110 along the opposite direction arrow C, it canRealization discharges movable part, and details are not described herein again.
Optionally, the bascule further includes the second extensible member 11, and second extensible member 11 connects described device sheetBody 101 and sliding part 108.Second extensible member 11 is the sliding part after the movable part 102 reaches predeterminated position108 provide elastic force, drive the second positioning region 105 to be incorporated into the first positioning region 104 by the sliding part 108 and drive the 4thPositioning region 107 is incorporated into third positioning region 106, so that movable part 102 is locked in predeterminated position automatically by elastic force, not onlyEfficiency that is convenient for the user to operate and promoting locking movable part 102.
Optionally, the bascule further includes one or more limit shafts 112, and the limit shaft 112 is set along first directionIt sets.First extensible member 103 is placed on limit shaft 112, thus prevent movable part 102 from deviateing first direction in active procedure,It is not only convenient for the precision that user's operation also promotes locking movable part 102.
Extensible member described in above content refers to flexible telescopic component, such as spring;Each positioningPortion refers to the component with positioning function, and the combination between each positioning region can be realized by the engagement of teeth portion, can also pass through receivingThe insertion in hole and insertion section is implemented in combination with, and can also be realized by being connected together, the present invention repeats no more this.
As shown in figure 5, showing the schematic diagram of the part-structure of electronic equipment control device in another embodiment of the present invention.Yu BenIn embodiment, the positioning and release of the movable part are only realized by a pair of of positioning region.The control device includes the first positioningPortion 51, the second positioning region 52 and sliding path 53, the path sliding 53 are preset with first position (not shown) and secondSet, second positioning region 52 slides into first position to be combined with the first positioning region 51, and its slide into the second position withFirst positioning region 51 disengages.Wherein, the vertical range from the first position to the first positioning region 51 is less than from the secondSet the vertical range to the first positioning region 51.
In conclusion electronic equipment control device provided by the invention, not only can size adjustable, also there is self-locking function andElectronic equipment is clamped and is positioned, so that it is non-adjustable or can not clamp the technologies such as electronic equipment to solve existing game paddle sizeProblem.The present invention effectively overcomes various shortcoming in the prior art and has high industrial utilization value.
The above-described embodiments merely illustrate the principles and effects of the present invention, and is not intended to limit the present invention.It is any ripeThe personage for knowing this technology all without departing from the spirit and scope of the present invention, carries out modifications and changes to above-described embodiment.CauseThis, institute is complete without departing from the spirit and technical ideas disclosed in the present invention by those of ordinary skill in the art such asAt all equivalent modifications or change, should be covered by the claims of the present invention.