CN102841691A

CN102841691A - Induction type mouse

Info

Publication number: CN102841691A
Application number: CN2011101737149A
Authority: CN
Inventors: 何建明
Original assignee: Primax Electronics Ltd
Current assignee: Primax Electronics Ltd
Priority date: 2011-06-24
Filing date: 2011-06-24
Publication date: 2012-12-26

Abstract

The invention discloses an induction type mouse. The induction type mouse comprises a base with a curve surface, an upper cover covering the base, multiple touch elements and a control unit, wherein the multiple touch elements are arranged on the curve surface and connected with the control unit, when the touch elements on the curve surface contact with a working surface, the control unit determines the moving direction of a cursor according to the touch element which is contacted by the working surface, and determines the displacement of the cursor according to the contact area between the touch elements and the working surface. The induction type mouse provided by the invention can work on an uneven working surface, and can reduce and relieve the feeling of fatigue of a user when the user operates the mouse by the wrist.

Description

The induction type mouse

Technical field

The present invention is about a kind of mouse, especially about a kind of induction type mouse.

Background technology

Mouse, keyboard, trace ball and Contact plate etc. are computer inputses commonly used at present.Wherein, because mouse can the person of being used grip with palm and moving of mouse beacon cursor, meet most of users' operating habit, so mouse becomes the most general input media.

See also Fig. 1, it is connected in the structural representation of computer system for a kind of existing mouse.Computer system 2 comprises a host computer 21 and a computer screen 22, and host computer 21 is connected to an idler wheel mouse 1 and computer screen 22, and host computer 21 has connectivity port 221, and connectivity port 221 is in order to be connected in an idler wheel mouse 1.Computer screen 22 is in order to showing a window 221 and cursor 222, and idler wheel mouse 1 in order to control cursor 222 so that host computer 21 is carried out corresponding instruction.Mouse 1 comprises a housing 10, a left button 11, a right button 12 and a roller 13.Housing 10 is in order to supporting a user palm P (see figure 2), and housing 10 persons of being used move and produce displacement, makes host computer 21 according to this displacement and the cursor 222 in the removable computer screen 22.Left button 11 and right button 12 in order to export signal according to user's click so that host computer 21 is carried out corresponding instruction; And roller 13 is between left button 11 and right button 12; Stir and rotate in order to the person of being used, make host computer 21 carry out the scrolling of window 221 to export a scrolling signal.

Next see also Fig. 2, it is the existing operated structural representation of mouse.The user operates before the mouse 1, must its palm P be positioned on the housing 10, and its first finger F1 is positioned on the left button 11, and its second finger F2 is positioned over and just is able to operate mouse 1 on the right button 12.And mouse 1 must be placed on the smooth workplace, and user's rolling mouse 1 just is able to produce displacement, with the cursor in the removable computer screen 22 222.

Know according to above-mentioned; The user must grip mouse 1 and mouse 1 with gesture shown in Figure 2 and must be placed on the smooth workplace and just can be operated; So gesture makes user's wrist be in unsettled state; After long-time operation mouse 1, it is tired that user's wrist is felt quite easily, damages wrist muscles even.In addition, when lines uneven when the workplace of placing mouse 1 or its workplace was not obvious, its cursor 222 can't move according to moving of mouse 1 thereupon.Therefore, need a kind of mouse that wrist is tired and can on uneven workplace, operate of releiving.

Summary of the invention

The technical matters that the present invention will solve is, to the above-mentioned deficiency that prior art exists, a kind of tired induction type mouse of wrist of releiving is provided.

Another technical matters that the present invention will solve is that the above-mentioned deficiency to prior art exists provides a kind of induction type mouse that can on uneven workplace, operate.

The technical solution adopted for the present invention to solve the technical problems provides a kind of induction type mouse; Be connected in a computer system and moving in order to a cursor of controlling this computer system; This induction type mouse comprises base, loam cake, a plurality of touch control component and control module; This base has a curved surface, and this curved surface is in order to contact with a workplace; Wherein this curved surface has a bottom; This loam cake is covered in this base; These a plurality of touch control components are arranged on this curved surface and are surrounded on this bottom, produce corresponding touching signals in order to be pressed by this workplace; This control module is arranged in this base and is connected in this a plurality of touch control components, in order to determine the moving direction and the displacement of this cursor according to the touching signals that corresponding touch control component produced.

Preferably, each touch control component in these a plurality of touch control components comprises conducting element, sensor and flexible member, and this conducting element is arranged in this base; This sensor is stacked and placed on this conducting element, in order to be pressed by this workplace and to contact and produce a capacity effect and export corresponding this touching signals with this conducting element; This flexible member is arranged between this conducting element and this sensor, in order to provide an elastic force to this sensor, this sensor is not contacted with this conducting element.

Preferably, this control module be according to should conducting element with this sensor between this capacity effect power of producing of contact area size determine the displacement of this cursor.

Preferably; This sensor is to be covered in flexible circuit board (Flexible Printed Circuit with Copper Foil; FPC) go up and form; And this Copper Foil forms a plurality of Copper Foil contacts on this flexible circuit board, and this control module is to judge the contact area size between this conducting element and this sensor according to the touched quantity of these a plurality of Copper Foil contacts.

Preferably, this control module is preset with a standby time, when this bottom of this curved surface contacts with this workplace, and time that this workplace does not press these a plurality of touch control components during greater than this standby time, this induction type mouse gets into a sleep pattern.

Preferably; Induction type mouse of the present invention also comprises switching key; This switching key is arranged at and covers and be connected in this control module on this; In order to touched and produce one and switch signal to this control module, make this control module that this induction type mouse is changed to a scroll bar control model or changed to this cursor control model by this scroll bar control model by a cursor control model.

Preferably; When this induction type mouse got into this cursor control model, this control module determined the moving direction of this cursor according to the touching signals that corresponding touch control component produced and determines the displacement of this cursor according to the contact area of this touch control component and this workplace; And when this induction type mouse gets into this scroll bar control model, this control module determine according to the touching signals that corresponding touch control component produced this computer system a scroll bar the scrolling direction and determine the displacement of this scroll bar according to the contact area of this touch control component and this workplace.

Preferably; Induction type mouse of the present invention also comprises wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged in this base; Include in order to output this cursor moving direction and displacement a cursor displacement signal or include the scrolling direction of this scroll bar and a scroll bar displacement signal of displacement; And this wireless signal receiver is connected in this computer system, in order to receive this cursor displacement signal and this scroll bar displacement signal, makes this computer system carry out moving of this cursor according to this cursor displacement signal or carries out the scrolling of scroll bar according to this scroll bar displacement signal.

Preferably; Induction type mouse of the present invention also comprises the scrolling sensing element; This scrolling sensing element is arranged at and covers and be connected in this control module on this; Point moving and produce a scrolling signal on this scrolling sensing element in order to detecting, make this control module determine the scrolling direction and the displacement of a scroll bar of this computer system according to this scrolling signal.

Preferably, this loam cake comprises first button and second button, and this first button is arranged on this and covers, in order to touched and produce one first push button signalling; This second button is arranged at a side that covers on this and be positioned at this first button, in order to touched and produce one second push button signalling; Wherein this loam cake has a planar shape.

Induction type mouse of the present invention has the base of curved surface and controls moving of cursor with whether contacting of workplace by touch control component, makes the induction type mouse on uneven workplace, still can be operated.In addition, because the base of induction type mouse has curved surface, so the user only needs tilt induction formula mouse slightly when operation induction type mouse, and its touch control component can be triggered and control moving of cursor.Induction type mouse of the present invention is operated with the mode that is different from existing mouse, can slow down the sense of fatigue that user's wrist is produced when the operation mouse.

Description of drawings

Fig. 1 is the structural representation that existing mouse is connected in computer system.

Fig. 2 is the existing operated structural representation of mouse.

Fig. 3 is induction type mouse of the present invention is connected in computer system in first preferred embodiment a schematic appearance.

Fig. 4 is the structure elevational schematic view of induction type mouse of the present invention in first preferred embodiment.

Fig. 5 is the structure schematic side view of induction type mouse of the present invention in first preferred embodiment.

Fig. 6 is induction type mouse of the present invention is connected in computer system in second preferred embodiment a schematic appearance.

Fig. 7 is the structure schematic side view of induction type mouse of the present invention in second preferred embodiment.

Embodiment

In view of the defective of existing mouse, the present invention provides a kind of induction type mouse.See also Fig. 3, it is connected in the schematic appearance of computer system in first preferred embodiment for induction type mouse of the present invention.Among Fig. 3, computer system 4 comprises a host computer 41 and a computer screen 42, and host computer 41 has connectivity port 411, and in this preferred embodiment, connectivity port 411 is USB slots.Computer screen 42 is connected in host computer 41, and in order to showing a window 421 and a cursor 422, and window 421 has a scroll bar 4211.And induction type mouse 3 sees through the connectivity port 411 that a connecting line 30 is connected in host computer 41, controls moving of cursor 422 by this.Fig. 3 has shown to have one first button 311, one second button 312 and a scrolling sensing element 313 on the loam cake 31 of induction type mouse 3; First button 311 is arranged on the loam cake 31, and in order to touched and produce one first push button signalling, second button 312 is arranged on the loam cake 31 and is positioned at a side of first button 311; In order to touched and produce one second push button signalling; And scrolling sensing element 313 is arranged on the loam cake 31 and be positioned at a side of loam cake 31, in order to detecting user's finger moving and produce a scrolling signal on scrolling sensing element 313, in this preferred embodiment; First button 311 is a left button, and second button 312 is a right button.

Next further specify the structure of induction type mouse; Please consult Fig. 4 and Fig. 5 simultaneously; Fig. 4 is the structure elevational schematic view of induction type mouse of the present invention in first preferred embodiment, and Fig. 5 then is the structure schematic side view of induction type mouse of the present invention in first preferred embodiment.Induction type mouse 3 more comprises a base 32, one first touch control component 33, one second touch control component 34, one the 3rd touch control component 35, one the 4th touch control component 36 and a control module 37 except loam cake 31.Base 32 has a curved surface 321, and curved surface 321 is in order to contacting with a workplace T, and curved surface 321 has a bottom 3211.Loam cake 31 is covered in base 32, and loam cake 31 has a planar shape.First touch control component 33 is arranged on the curved surface 321 and is positioned at first side of its bottom 3211, produces corresponding first touching signals in order to be pressed by workplace T.Similarly second touch control component 34 is arranged on the curved surface 321 and is positioned at its bottom second side of 3211; Produce corresponding second touching signals in order to be pressed by workplace T; The 3rd touch control component 35 is arranged on the curved surface 321 and is positioned at the 3rd side of its bottom 3211; Produce corresponding the 3rd touching signals in order to be pressed by workplace T; And the 4th touch control component 36 is arranged on the curved surface 321 and be positioned at its bottom the 4th side of 3211, produces corresponding the 4th touching signals in order to be pressed by workplace T.That is first touch control component 33, second touch control component 34, the 3rd touch control component 35 and the 4th touch control component 36 be surrounded on bottom 3211, and be as shown in Figure 4.

Among Fig. 5; Control module 37 is arranged in the base 32 and is connected in first touch control component 33, second touch control component 34, the 3rd touch control component 35, the 4th touch control component 36 and scrolling sensing element 313; In order to determining the moving direction and the displacement of cursor 422 according to the touching signals that corresponding touch control component produced, and can determine to be shown in the computer system 4 the scrolling direction and the displacement of the scroll bar 4211 in the window 421 according to the scrolling signal.Wherein, when control module 37 received first touching signals from first touch control component 33, its cursor 422 moved toward the top of computer screens 42; When control module 37 received second touching signals from second touch control component 34, its cursor 422 moved toward the left of computer screens 42; When control module 37 received the 3rd touching signals from the 3rd touch control component 35, its cursor 422 moved toward the below of computer screens 42; And when control module 37 received the 4th touching signals from the 4th touch control component 36, its cursor 422 moved toward the right-hand of computer screens 42.

Structure about touch control component; The structure of first touch control component 33 and second touch control component 34, the 3rd touch control component 35 and the 4th touch control component 36 is identical; So with first touch control component 33 is the example explanation, the operation logic of other touch control component and operation situation are then in like manner.Please continue to consult Fig. 5; First touch control component 33 comprises one first conducting element 331, one first sensor 332 and one first flexible member 333; First conducting element 331 is arranged in the base 32; And first sensor 332 is stacked and placed on first conducting element 331, in order to be pressed and to contact with first conducting element 331 by workplace T, makes to produce a capacity effect between first conducting element 331 and first sensor 332 and export corresponding touching signals.First flexible member 333 is arranged between first conducting element 331 and first sensor 332, in order to elastic force to the first sensor 332 to be provided, first sensor 332 is not contacted with first conducting element 331.The control module 37 that is connected in first touch control component 33 is according to the strong and weak displacement that determines this cursor of big or small this capacity effect that produces of contact area of answering between first conducting element 331 and first sensor 332; In this preferred embodiment; First sensor 332 is to be covered in a flexible circuit board (not being shown among the figure) with a Copper Foil (not being shown among the figure) to go up and form; And Copper Foil forms a plurality of Copper Foil contacts (not being shown among the figure) on flexible circuit board 3321, have faint capacitance between wherein a plurality of Copper Foil contacts.That is to say that control module 37 according to which touch control component is triggered is judged the moving direction of cursor 422, and judge the displacement of cursor 422 according to the size of the contact area between conducting element and the sensor.

When operation induction type mouse 3; The user is positioned over its palm (not being shown among the figure) on its smooth loam cake 31 and grips induction type mouse 3; And the bottom 3211 of the curved surface 321 of base 32 is contacted with workplace T; Do not contact with workplace T and be surrounded on bottom it 3211 first touch control component 33, second touch control component 34, the 3rd touch control component 35 and the 4th touch control component 36, this moment, the induction type mouse 3 still was in a sleep pattern.When user's desire moves cursor 422 toward the top of computer screen 42; With the induction type mouse 3 past lopsidedness that are provided with first button 311; Make the zone that contacts with workplace T on the curved surface 321 change to first touch control component 33 by its bottom 3211; That is first touch control component 33 pressed by workplace T, make first sensor 332 press first flexible member 333, and first conducting element 331 contacts and produces capacity effect with first sensor 332; Capacitance between a plurality of Copper Foil contacts on the flexible circuit board is changed; Wherein its capacity effect is strong more, and its capacitance variation size is big more, and its capacitance variation size be with flexible circuit board on a plurality of Copper Foil contacts proportional with the quantity number that first conducting element 331 contacts.37 powers according to capacity effect of control module that are connected in first touch control component 33 determine the displacement of cursor 422, and this displacement is transferred to host computer 41 with signal form by connecting line 30, with moving cursor 422.As for cursor 422 on other direction move then with foregoing in like manner, so no longer add explanation.

What need special instruction is; Be preset with a standby time in the control module 37; When the bottom 3211 of curved surface 321 contacts with workplace T; And the time that workplace T does not press arbitrary touch control component, control module 37 control induction type mouses 3 got into a sleep pattern, to save electric power during greater than this standby time.

In addition; The present invention more provides one second preferred embodiment; Please consult Fig. 6 and Fig. 7 simultaneously; Fig. 6 is induction type mouse of the present invention is connected in computer system in second preferred embodiment a schematic appearance, and Fig. 7 then is the structure schematic side view of induction type mouse of the present invention in second preferred embodiment.Induction type mouse 5 comprises that a loam cake 51, a base 52, one first touch control component 53, one second touch control component 54, one the 3rd touch control component 55, one the 4th touch control component (not being shown among the figure), a control module 56, switch button 57, a wireless signal transmitter 58 and a wireless signal receiver 59; Wherein loam cake 51 includes one first button 511 and one second button 512, and first touch control component 53 comprises one first conducting element 531, one first sensor 532 and one first flexible member 533.The structure of the loam cake 51 in this preferred embodiment, base 52, first touch control component 53, second touch control component 54, the 3rd touch control component 55 and the 4th touch control component is all identical with first preferred embodiment; So repeat no more; And this preferred embodiment has 2 points with the first preferred embodiment difference, and it is described below.

First; The wireless signal transmitter 58 of induction type mouse 5 is arranged in the base 52, include in order to output cursor 422 moving direction and displacement a cursor displacement signal and include the scrolling direction of scroll bar 4211 and a scroll bar displacement signal of displacement.Can know that by Fig. 6 wireless signal receiver 59 is plugged on the connectivity port 411 of host computer 41, in order to receive cursor displacement signal and scroll bar displacement signal from wireless signal transmitter 58.

The second, induction type mouse 5 is not provided with the scrolling sensing element, and the scrolling of its scroll bar 4211 is that its operation logic is identical with the principle of moving cursor 422 by first

touch control component

53 and 55 controls of the 3rd touch control component.In order to make moving and the scrolling of scroll bar 4211 of first touch control component 53, second touch control component 54, the 3rd touch control component 55 and the 4th touch control component controllable cursor 422; The loam cake 51 of induction type mouse 5 is provided with switching key 57; It is connected in control module 56; In order to touched and produce one and switch signal to control module 56, make control module 56 that induction type mouse 5 is changed to a scroll bar control model or changed to the cursor control model by the scroll bar control model by a cursor control model.As its name suggests; When induction type mouse 5 is in the cursor control model; The function of first touch control component 53, second touch control component 54, the 3rd touch control component 55 and the 4th touch control component is moving in order to control cursor 422; And when induction type mouse 5 was in the scroll bar control model, the function of first touch control component 53 and the 3rd touch control component 55 is moving in order to control scroll bar 4211 then.

Can know that according to above-mentioned two preferred embodiments induction type mouse of the present invention has the base of curved surface and controls moving of cursor with whether contacting of workplace by touch control component, makes the induction type mouse on uneven workplace, still can be operated.In addition, because the base of induction type mouse has curved surface, so the user only needs tilt induction formula mouse slightly when operation induction type mouse, and its touch control component can be triggered and control moving of cursor.Induction type mouse of the present invention is operated with the mode that is different from existing mouse, can slow down the sense of fatigue that user's wrist is produced when the operation mouse.

The above is merely preferred embodiment of the present invention, is not in order to limiting claim scope of the present invention, and therefore all other do not break away from the equivalence of being accomplished under the disclosed spirit and change or modify, and all should be contained in the scope of the present invention.

Claims

1. induction type mouse is connected in a computer system and in order to the moving an of cursor of controlling this computer system, it is characterized in that this induction type mouse comprises:

Base has a curved surface, and this curved surface is in order to contact with a workplace; Wherein this curved surface has a bottom;

Loam cake is covered in this base;

A plurality of touch control components are arranged on this curved surface and are surrounded on this bottom, produce corresponding touching signals in order to be pressed by this workplace; And

Control module is arranged in this base and is connected in this a plurality of touch control components, in order to determine the moving direction and the displacement of this cursor according to the touching signals that corresponding touch control component produced.

2. induction type mouse as claimed in claim 1 is characterized in that, each touch control component in these a plurality of touch control components comprises:

Conducting element is arranged in this base;

Sensor is stacked and placed on this conducting element, in order to be pressed by this workplace and to contact and produce a capacity effect and export corresponding this touching signals with this conducting element; And

Flexible member is arranged between this conducting element and this sensor, in order to provide an elastic force to this sensor, this sensor is not contacted with this conducting element.

3. induction type mouse as claimed in claim 2 is characterized in that, this control module be according to should conducting element with this sensor between this capacity effect power of producing of contact area size determine the displacement of this cursor.

4. induction type mouse as claimed in claim 3; It is characterized in that; This sensor is to be covered on the flexible circuit board with Copper Foil and to form; And this Copper Foil forms a plurality of Copper Foil contacts on this flexible circuit board, and this control module is to judge the contact area size between this conducting element and this sensor according to the touched quantity of these a plurality of Copper Foil contacts.

5. induction type mouse as claimed in claim 1; It is characterized in that; This control module is preset with a standby time; When this bottom of this curved surface contacts with this workplace, and time that this workplace does not press these a plurality of touch control components during greater than this standby time, this induction type mouse gets into a sleep pattern.

6. induction type mouse as claimed in claim 1; It is characterized in that; Also comprise switching key; This switching key is arranged at and covers and be connected in this control module on this, in order to touched and produce one and switch signal to this control module, makes this control module that this induction type mouse is changed to a scroll bar control model or changed to this cursor control model by this scroll bar control model by a cursor control model.

7. induction type mouse as claimed in claim 6; It is characterized in that; When this induction type mouse got into this cursor control model, this control module determined the moving direction of this cursor according to the touching signals that corresponding touch control component produced and determines the displacement of this cursor according to the contact area of this touch control component and this workplace; And when this induction type mouse gets into this scroll bar control model, this control module determine according to the touching signals that corresponding touch control component produced this computer system a scroll bar the scrolling direction and determine the displacement of this scroll bar according to the contact area of this touch control component and this workplace.

8. induction type mouse as claimed in claim 7; It is characterized in that; Also comprise wireless signal transmitter and wireless signal receiver; This wireless signal transmitter is arranged in this base, include in order to output this cursor moving direction and displacement a cursor displacement signal or include the scrolling direction of this scroll bar and a scroll bar displacement signal of displacement, and this wireless signal receiver is connected in this computer system; In order to receive this cursor displacement signal and this scroll bar displacement signal, make this computer system carry out moving of this cursor or carry out the scrolling of scroll bar according to this scroll bar displacement signal according to this cursor displacement signal.

9. induction type mouse as claimed in claim 1; It is characterized in that; Also comprise the scrolling sensing element; This scrolling sensing element is arranged at and covers and be connected in this control module on this, points moving and produce a scrolling signal on this scrolling sensing element in order to detecting, makes this control module determine the scrolling direction and the displacement of a scroll bar of this computer system according to this scrolling signal.

10. induction type mouse as claimed in claim 1 is characterized in that, this loam cake comprises:

First button is arranged on this and covers, in order to touched and produce one first push button signalling; And

Second button is arranged at a side that covers on this and be positioned at this first button, in order to touched and produce one second push button signalling; Wherein this loam cake has a planar shape.