CN102221876B

CN102221876B - Airflow-inductive computer cursor signal generation device and airflow-inductive mouse device

Info

Publication number: CN102221876B
Application number: CN2010101464819A
Authority: CN
Inventors: 蓝世杰
Original assignee: Primax Electronics Ltd
Current assignee: Primax Electronics Ltd
Priority date: 2010-04-13
Filing date: 2010-04-13
Publication date: 2013-07-24
Anticipated expiration: 2030-04-13
Also published as: CN102221876A

Abstract

The invention provides an airflow-inductive computer cursor signal generation device and an airflow-inductive mouse device. The airflow-inductive computer cursor signal generation device comprises a microprocessor and a plurality of airflow rate inductors, wherein the plurality of airflow rate inductors are used for inducing airflow rates generated in a plurality of directions by the movement behaviors of an inductive body to obtain a plurality of airflow rate signals belonging to the plurality of directions respectively; and the microprocessor is used for judging the movement direction and movement amount of the inductive body according to the plurality of airflow rate signals to generate computer cursor signals. The devices can effectively replace the directing functions of left and right keys of a conventional palm-held mouse device and enable a user to move a computer cursor by moving fingers, thereby avoiding the damages of long-term use of the palm-held mouse device to muscles.

Description

Airflow sensor formula computer cursor signal generation device and airflow sensor formula mouse apparatus

Technical field

The present invention relates to the computer cursor signal generation device, relate in particular to a kind of airflow sensor formula computer cursor signal generation device and airflow sensor formula mouse apparatus.

Background technology

Development in science and technology is maked rapid progress, the arriving of multimedia and computer age makes people increase day by day for the degree of dependence of computer equipment, therefore the peripheral input media between between computer system and user has been played the part of crucial role, those peripheral input medias comprise: mouse, keyboard and microphone etc., the mouse beacon cursor moves because mouse can be gripped with palm by the user, and by the motion track of computer screen end output cursor of mouse, so mode of operation is pressed close to human use habit, makes mouse become the most general peripheral input media.

Because the user is under the situation of long-time operation mouse, feel the discomfort of hand easily, the various in recent years Ergonomic mouses that design external form according to user's palm shape are released successively.But because different user's hand size difference, thereby the mouse size that is suitable for is also different, for example, one male sex user and a women user's hand size is different, therefore excessive or too small mouse volume all can cause bad hand-held posture, also easily causes user's muscle is injured for a long time; Moreover, if mice manufacturers at each user's hand and the mouse of special one suitable external form and volume obviously will improve manufacturing cost and elongate manufacturing time, also brings inconvenience concerning the user and bears.Therefore, propose the mouse that non-palm grips formula for the health of protecting user's hand and truly have its practicality and necessity.

Summary of the invention

The technical problem to be solved in the present invention is, at the prior art above shortcomings, a kind of airflow sensor formula computer cursor signal generation device and airflow sensor formula mouse apparatus are provided, make the user must not use palm to grip and to produce the computer cursor signal, guarantee user's hand health, and be suitable for all kinds of users' uses.

The technical solution adopted for the present invention to solve the technical problems provides a kind of airflow sensor formula computer cursor signal generation device, and it comprises a plurality of gas flow rate inductors and microprocessor; Wherein, the gas flow rate that these a plurality of gas flow rate inductors are produced on a plurality of directions in order to the mobile behavior of sensing one inductor, and obtain to belong to respectively a plurality of gas flow rate signals on these a plurality of directions; This microprocessor is in order to judge that according to these a plurality of gas flow rate signals the moving direction of this inductor and amount of movement produce the computer cursor signal.

This inductor is user's a finger.

These a plurality of gas flow rate inductors are arranged in the box-like body, and this box-like body has opening, stretch in this box-like body for this user's hand.

These a plurality of gas flow rate inductors comprise the first gas flow rate inductor, the second gas flow rate inductor, the 3rd gas flow rate inductor and the 4th gas flow rate inductor; Wherein, the first gas flow rate inductor is arranged on the first orientation in the gas sensing space, first gas flow rate that is produced on this first orientation in order to this mobile behavior of this inductor of sensing and obtain the first gas flow rate signal; The second gas flow rate inductor is arranged on the second orientation in this gas sensing space, second gas flow rate that is produced on this second orientation in order to this mobile behavior of this inductor of sensing and obtain the second gas flow rate signal; The 3rd gas flow rate inductor is arranged on the third party position in this gas sensing space, the 3rd gas flow rate that is produced on this third party position in order to this mobile behavior of this inductor of sensing and obtain the 3rd gas flow rate signal; The 4th gas flow rate inductor is arranged on the position, four directions, the in this gas sensing space, the 4th gas flow rate that is produced on this position, four directions in order to this mobile behavior of this inductor of sensing and obtain the 4th gas flow rate signal.

The arrangement that assumes diamond in shape of this first, second, third and the 4th gas flow rate inductor.

When this first gas flow rate signal of the very first time is different from this first gas flow rate signal of second time, this inductor of this microprocessor judges moves on this first orientation, and judges the amount of movement of this inductor on this first orientation according to the variable quantity of this first gas flow rate signal between this very first time and this second time.

When this second gas flow rate signal of the very first time is different from this second gas flow rate signal of second time, this inductor of this microprocessor judges moves on this second orientation, and judges the amount of movement of this inductor on this second orientation according to the variable quantity of this second gas flow rate signal between this very first time and this second time.

When the 3rd gas flow rate signal of the very first time is different from the 3rd gas flow rate signal of second time, this inductor of this microprocessor judges moves on this third party position, and judges the amount of movement of this inductor on this third party position according to the variable quantity of the 3rd gas flow rate signal between this very first time and this second time.

When the 4th gas flow rate signal of the very first time is different from the 4th gas flow rate signal of second time, this inductor of this microprocessor judges is gone up in this position, four directions and is moved, and judges the amount of movement of this inductor on this position, four directions according to the 4th gas flow rate signal in the variable quantity between this very first time and this second time.

The present invention also provides a kind of airflow sensor formula mouse apparatus, and it comprises housing, a plurality of gas flow rate inductor and microprocessor; Wherein, this housing has an opening, uses for an inductor and inserts in this housing; A plurality of gas flow rate inductors are arranged on a plurality of orientation of this housing, the gas flow rate that on a plurality of directions, is produced in order to the mobile behavior of this inductor of sensing, and obtain to belong to respectively a plurality of gas flow rate signals on these a plurality of directions; This microprocessor is in order to judge that according to these a plurality of gas flow rate signals the moving direction of this inductor and amount of movement produce the computer cursor signal.

This inductor is user's a finger.

These a plurality of gas flow rate inductors comprise the first gas flow rate inductor, the second gas flow rate inductor, the 3rd gas flow rate inductor and the 4th gas flow rate inductor; Wherein, the first gas flow rate inductor is arranged on the first orientation of this housing, first gas flow rate that is produced on this first orientation in order to this mobile behavior of this inductor of sensing and obtain the first gas flow rate signal; The second gas flow rate inductor is arranged on the second orientation of this housing, second gas flow rate that is produced on this second orientation in order to this mobile behavior of this inductor of sensing and obtain the second gas flow rate signal; The 3rd gas flow rate inductor is arranged on the third party position of this housing, the 3rd gas flow rate that is produced on this third party position in order to this mobile behavior of this inductor of sensing and obtain the 3rd gas flow rate signal; The 4th gas flow rate inductor is arranged on the position, the four directions of this housing, the 4th gas flow rate that is produced on this position, four directions in order to this mobile behavior of this inductor of sensing and obtain the 4th gas flow rate signal.

Airflow sensor formula computer cursor signal generation device of the present invention and airflow sensor formula mouse apparatus, utilization is arranged at the change of the finger gas flow rate that mobile behavior causes of a plurality of gas flow rate inductor detecting users in the gas sensing space, thereby obtain the moving direction of finger and amount of movement and produce the computer cursor signal, can effectively substitute the direction-pointing function that traditional palm grips the left and right press key of formula mouse apparatus, make the user pass through moveable finger and the removable computer cursor, thereby avoid the muscular injuries that mouse apparatus brought of the formula that grips because of long-time use palm, guarantee user's hand health, and be suitable for all kinds of users' uses.In addition, the inductor among the present invention is not limited to user's finger, and any object that makes a plurality of gas flow rate inductors detect mobile behavior all can reach effect of the present invention.

Description of drawings

Fig. 1 is the device synoptic diagram of airflow sensor formula computer cursor signal generation device of the present invention preferred embodiment.

Fig. 2 in the airflow sensor formula computer cursor signal generation device of the present invention preferred embodiment to quantitative analysis with calculate synoptic diagram.

Fig. 3 is the device synoptic diagram of airflow sensor formula mouse apparatus of the present invention preferred embodiment.

Fig. 4 is applied to the synoptic diagram of a computer system for airflow sensor formula mouse apparatus shown in Figure 3.

Embodiment

See also Fig. 1, it is for the device synoptic diagram of airflow sensor formula computer cursor signal generation device of the present invention preferred embodiment.Airflow sensor formula computer cursor signal generation device 1 comprises the first gas flow rate inductor 11, the second gas flow rate inductor 12, the 3rd gas flow rate inductor 13, the 4th gas flow rate inductor 14 and microprocessor 15, first, second, the the 3rd and the 4th gas flow rate inductor 11～14 is arranged at the first orientation (direction D1) in a gas sensing space 16 respectively, second orientation (direction D2), on third party position (direction D3) and the position, four directions (direction D4), this gas sensing space 16 can be one and be not easy to be subjected to the open space that external environment condition is disturbed, and can also be present in the middle of the closed box-like body that blocks the interference in air flow that external environment condition causes.Wherein, if gas sensing space 16 open spaces, the first, second, third and the 4th gas flow rate inductor 11～14 is arranged at respectively on separately the stand (indicating among the figure); And gas sensing space 16 is if be present in the middle of the closed box-like body, and 11～14 of the first, second, third and the 4th gas flow rate inductors are arranged at respectively on the peripheral plane of box-like body.

The finger 17 that utilizes the user in this preferred embodiment is as inductor, and position, first, second, third and the four directions is in the place ahead in gas sensing space, right-hand, rear and left respectively, make the arrangement that assumes diamond in shape of the first, second, third and the 4th gas flow rate inductor 11～14, wherein, when user's finger 17 is mobile in gas sensing space 16, but first gas flow rate that the mobile behavior of the first gas flow rate inductor, 11 sensing fingers 17 is produced on first orientation and obtain the first gas flow rate signal; In like manner, but second gas flow rate that the mobile behavior of the second gas flow rate inductor, 12 sensing fingers 17 is produced on second orientation and obtain the second gas flow rate signal; But the 3rd gas flow rate that the mobile behavior of the 3rd gas flow rate inductor 13 sensing fingers 17 is produced on the third party position and obtain the 3rd gas flow rate signal; But and the 4th gas flow rate that on position, the four directions, produced of the mobile behavior of the 4th gas flow rate inductor 14 sensing fingers 17 and obtain the 4th gas flow rate signal.

Moreover, microprocessor 15 is in order to receive the first, second, third and the 4th gas flow rate signal, and judge that according to those gas flow rate signals moving direction and the amount of movement of users' finger 17 produce a computer cursor signal, make a computer cursor (indicating among the figure) go up mobile at a computer screen (indicating among the figure).In other words, microprocessor 15 according to the variable quantity of those gas flow rate signals in the fixed time period with the finger 17 of judging the user respectively forwardly, the amount of movement of right-hand, rear and left, and utilize moving direction and the amount of movement that obtains user's finger 17 to quantitative analysis and calculating.

Specifically, when the first gas flow rate signal of a very first time is different from the first gas flow rate signal of one second time, microprocessor 15 judges that user's finger 17 has mobile behavior on first orientation, and judges user's the amount of movement of finger 17 on first orientation according to the variable quantity of the first gas flow rate signal between the very first time and second time; In like manner, when the second gas flow rate signal of the very first time is different from the second gas flow rate signal of second time, microprocessor 15 judges that user's finger 17 has mobile behavior on second orientation, and judges user's the amount of movement of finger 17 on second orientation according to the variable quantity of the second gas flow rate signal between the very first time and second time; When the 3rd gas flow rate signal of the very first time is different from the 3rd gas flow rate signal of second time, microprocessor 15 judges that user's finger 17 has mobile behavior on the third party position, and judges user's the amount of movement of finger 17 on the third party position according to the variable quantity of the 3rd gas flow rate signal between the very first time and second time; And when the 4th gas flow rate signal of the very first time is different from the 4th gas flow rate signal of second time, microprocessor 15 judges that user's finger 17 has mobile behavior on the position, four directions, and judges user's the amount of movement of finger 17 on the position, four directions in the variable quantity between the very first time and second time according to the 4th gas flow rate signal.

Moreover, the amount of movement X of computer cursor on computer screen and the relation equation as described below of user's finger 17 amount of movements:

X＝[V/(V _max-V _min)]×P；

Wherein, P is total pixel of computer screen, V _MaxWith V _MinBe respectively these gas flow rate inductor 11～14 producible maximum gas flow rate signal and minimum gas flow rate signals, and V is the variable quantity of these gas flow rate signals in the fixed time period, so V/ (V _Max-V _Min) be the amount of movement of user's finger 17.Certainly, this equation is only for obtaining a preferred mode of the amount of movement of computer cursor on computer screen, and other utilizes the gas flow rate signal and the mode that obtains the amount of movement of computer cursor does not also break away from category of the present invention.

See also Fig. 2, its for airflow sensor formula computer cursor signal generation device of the present invention one preferred embodiment to quantitative analysis with calculate synoptic diagram, the finger 17 of judging the user when microprocessor 15 moves 0.4 unit length toward first orientation (the place ahead), and move 0.3 unit length toward second orientation (right-hand), the finger 17 that can obtain the user moves 0.5 unit length toward direction D5, what remark additionally is, should be familiar with for those of ordinary skills to quantitative analysis and computing method, therefore only slightly explain, promptly no longer given unnecessary details at this with Fig. 2.

See also Fig. 3 and Fig. 4, Fig. 3 is the device synoptic diagram of airflow sensor formula mouse apparatus of the present invention preferred embodiment, and Fig. 4 is applied to the synoptic diagram of a computer system for airflow sensor formula mouse apparatus shown in Figure 3.Airflow sensor formula mouse apparatus 2 comprises microprocessor 15, and has a housing 21, housing 21 has opening 211 makes the user finger 17 can be stretched into wherein, the place ahead of its middle shell 21, right-hand, rear and left are respectively arranged with the first, second, third and the 4th gas flow rate inductor 11～14, so microprocessor 15 can produce the computer cursor signal by aforesaid mode.

Moreover, computer system 3 comprises screen 31, host computer 32, keyboard 33 and airflow sensor formula mouse apparatus 2, wherein, has central processing unit 321 in the host computer 32, it is connected with microprocessor 15 signals of airflow sensor formula mouse apparatus 2, when microprocessor 15 produces the computer cursor signal, the computer cursor signal is sent to central processing unit 321, computer system 3 can be carried out the action of removable computer cursor 311 according to the computer cursor signal, and by screen 31 outputs.In addition, except having button 331, also comprise first key area 332 and second key area 333 on the keyboard 33, in order to the use of the left-right key that replaces conventional mouse respectively with secondary air induction type mouse apparatus 2 for user's input characters or symbol.

According to as can be known above-mentioned, the present invention utilizes the change of a plurality of gas flow rate inductors detecting users' gas flow rate that the finger mobile behavior causes to produce the computer cursor signal with the moving direction that obtains to point and amount of movement, effectively substitute the direction-pointing function of conventional mouse devices, and can avoid the user to grip the muscular injuries that the formula mouse apparatus is brought because of the long-time palm that uses.Supplementary notes be, inductor is not limited to user's finger, any object that makes a plurality of gas flow rate inductors detect mobile behavior all can reach effect of the present invention.

The above is preferred embodiment of the present invention only, 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 finished under the disclosed spirit and change or modify, and all should be contained in the scope of the present invention.

Claims

1. an airflow sensor formula computer cursor signal generation device is characterized in that, comprising:

A plurality of gas flow rate inductors, the gas flow rate that on a plurality of directions, is produced in order to the mobile behavior of sensing inductor, and obtain to belong to respectively a plurality of gas flow rate signals on these a plurality of directions; Wherein, this inductor is centered on by these a plurality of gas flow rate inductors so that the mobile behavior of this inductor is performed between these a plurality of gas flow rate inductors, and the mobile behavior of this inductor when being performed these a plurality of gas flow rate inductors be maintained fixed motionless; And

Microprocessor in order to according to the variable quantity that belongs to this gas flow rate signal on each this direction in the fixed time period, and is judged the amount of movement of this inductor respectively at each this direction, and then produces the computer cursor signal.

2. airflow sensor formula computer cursor signal generation device as claimed in claim 1 is characterized in that: this inductor is user's finger.

3. airflow sensor formula computer cursor signal generation device as claimed in claim 2 is characterized in that: these a plurality of gas flow rate inductors are arranged in the box-like body, and this box-like body has opening, stretch in this box-like body for this user's hand.

4. airflow sensor formula computer cursor signal generation device as claimed in claim 1 is characterized in that: these a plurality of gas flow rate inductors comprise:

The first gas flow rate inductor is arranged on the first orientation in the gas sensing space, first gas flow rate that is produced on this first orientation in order to this mobile behavior of this inductor of sensing and obtain the first gas flow rate signal;

The second gas flow rate inductor is arranged on the second orientation in this gas sensing space, second gas flow rate that is produced on this second orientation in order to this mobile behavior of this inductor of sensing and obtain the second gas flow rate signal;

The 3rd gas flow rate inductor is arranged on the third party position in this gas sensing space, the 3rd gas flow rate that is produced on this third party position in order to this mobile behavior of this inductor of sensing and obtain the 3rd gas flow rate signal; And

The 4th gas flow rate inductor is arranged on the position, four directions, the in this gas sensing space, the 4th gas flow rate that is produced on this position, four directions in order to this mobile behavior of this inductor of sensing and obtain the 4th gas flow rate signal.

5. airflow sensor formula computer cursor signal generation device as claimed in claim 4 is characterized in that: the arrangement that assumes diamond in shape of this first, second, third and the 4th gas flow rate inductor.

6. airflow sensor formula computer cursor signal generation device as claimed in claim 4, it is characterized in that: when this first gas flow rate signal of the very first time is different from this first gas flow rate signal of second time, this inductor of this microprocessor judges moves on this first orientation, and judges the amount of movement of this inductor on this first orientation according to the variable quantity of this first gas flow rate signal between this very first time and this second time.

7. airflow sensor formula computer cursor signal generation device as claimed in claim 4, it is characterized in that: when this second gas flow rate signal of the very first time is different from this second gas flow rate signal of second time, this inductor of this microprocessor judges moves on this second orientation, and judges the amount of movement of this inductor on this second orientation according to the variable quantity of this second gas flow rate signal between this very first time and this second time.

8. airflow sensor formula computer cursor signal generation device as claimed in claim 4, it is characterized in that: when the 3rd gas flow rate signal of the very first time is different from the 3rd gas flow rate signal of second time, this inductor of this microprocessor judges moves on this third party position, and judges the amount of movement of this inductor on this third party position according to the variable quantity of the 3rd gas flow rate signal between this very first time and this second time.

9. airflow sensor formula computer cursor signal generation device as claimed in claim 4, it is characterized in that: when the 4th gas flow rate signal of the very first time is different from the 4th gas flow rate signal of second time, this inductor of this microprocessor judges is gone up in this position, four directions and is moved, and judges the amount of movement of this inductor on this position, four directions according to the 4th gas flow rate signal in the variable quantity between this very first time and this second time.

10. an airflow sensor formula mouse apparatus is characterized in that, comprising:

Housing has opening, uses for inductor and inserts in this housing;

A plurality of gas flow rate inductors are arranged on a plurality of orientation of this housing, the gas flow rate that on a plurality of directions, is produced in order to the mobile behavior of this inductor of sensing, and obtain to belong to respectively a plurality of gas flow rate signals on these a plurality of directions; Wherein, this inductor is centered on by these a plurality of gas flow rate inductors so that the mobile behavior of this inductor is performed between these a plurality of gas flow rate inductors, and the mobile behavior of this inductor when being performed this housing be maintained fixed motionless; And

11. airflow sensor formula mouse apparatus as claimed in claim 10 is characterized in that: this inductor is user's finger.

12. airflow sensor formula mouse apparatus as claimed in claim 10 is characterized in that; These a plurality of gas flow rate inductors comprise:

The first gas flow rate inductor is arranged on the first orientation of this housing, first gas flow rate that is produced on this first orientation in order to this mobile behavior of this inductor of sensing and obtain the first gas flow rate signal;

The second gas flow rate inductor is arranged on the second orientation of this housing, second gas flow rate that is produced on this second orientation in order to this mobile behavior of this inductor of sensing and obtain the second gas flow rate signal;

The 3rd gas flow rate inductor is arranged on the third party position of this housing, the 3rd gas flow rate that is produced on this third party position in order to this mobile behavior of this inductor of sensing and obtain the 3rd gas flow rate signal; And

The 4th gas flow rate inductor is arranged on the position, the four directions of this housing, the 4th gas flow rate that is produced on this position, four directions in order to this mobile behavior of this inductor of sensing and obtain the 4th gas flow rate signal.

13. airflow sensor formula mouse apparatus as claimed in claim 12 is characterized in that: the arrangement that assumes diamond in shape of this first, second, third and the 4th gas flow rate inductor.

14. airflow sensor formula mouse apparatus as claimed in claim 12, it is characterized in that: when this first gas flow rate signal of the very first time is different from this first gas flow rate signal of second time, this inductor of this microprocessor judges moves on this first orientation, and judges the amount of movement of this inductor on this first orientation according to the variable quantity of this first gas flow rate signal between this very first time and this second time.

15. airflow sensor formula mouse apparatus as claimed in claim 12, it is characterized in that: when this second gas flow rate signal of the very first time is different from this second gas flow rate signal of second time, this inductor of this microprocessor judges moves on this second orientation, and judges the amount of movement of this inductor on this second orientation according to the variable quantity of this second gas flow rate signal between this very first time and this second time.

16. airflow sensor formula mouse apparatus as claimed in claim 12, it is characterized in that: when the 3rd gas flow rate signal of the very first time is different from the 3rd gas flow rate signal of second time, this inductor of this microprocessor judges moves on this third party position, and judges the amount of movement of this inductor on this third party position according to the variable quantity of the 3rd gas flow rate signal between this very first time and this second time.

17. airflow sensor formula mouse apparatus as claimed in claim 12, it is characterized in that: when the 4th gas flow rate signal of the very first time is different from the 4th gas flow rate signal of second time, this inductor of this microprocessor judges is gone up in this position, four directions and is moved, and judges the amount of movement of this inductor on this position, four directions according to the 4th gas flow rate signal in the variable quantity between this very first time and this second time.