CN101681205A - Cruciform mouse apparatus - Google Patents

Abstract

This invention is a mouse which is used with a computer input device. A user can use it above computer keyboard and can operate it by a finger. So the user can use alternately the mouse and keyboard without a movement of arm and shoulder. In order to embodiment, the invention has comprising, A sensor body comprising an opening in one side, an opening in another side which is opposite to the one side and a plurality of sensor means in the sensor body, a x axis bar which supports the sensor body by surface of the x axis bar and guide the movement of the sensor body to x axial direction, and a yaxis bar lies at right angles to the x axis bar and is inserted in a opening of one side, whereby a part of the y axis bar comes out to an opening of another side.

Description

Cruciform mouse apparatus

Technical field

The present invention relates to a kind of electric mechanical mouse, it is the input equipment of computing machine.More specifically, described electric mechanical mouse provides the function of indicating some positions, fill order and reorientating by the cursor in the mobile display screen.

Background technology

The kind of mouse has roller type mouse, optical mouse or the like.Most of mouses must use with the planar mouse pad of placing described mouse.

Though the 3D mouse that utilizes gyrostatic principle is without any need for the plane, the user of 3D mouse must move his or her arm and shoulder so that alternately use mouse and computer keyboard.The user also must move his or her hand and wrist so that the cursor on the mobile display screen.

Usually, use existing computer mouse can make user's wrist pain, because the user must keep the same posture of crooked its wrist for a long time.

When alternately using the mouse be separated from each other and keyboard, the user can feel shoulder and arm pain.

When the user operated mouse and mouse button, the user can only take mouse with a hand, and can not take mouse with the another hand.

Summary of the invention

Technical matters

Therefore, the purpose of this invention is to provide a kind of system and product of avoiding the above-mentioned difficulties of prior art.

The user can use the present invention and can utilize finger to operate on it above computer keyboard.

Therefore, the user can alternately use mouse and keyboard, and need not to move his or her arm and shoulder.

Technical scheme

The invention provides a kind of system and product that solves the above-mentioned difficulties of prior art.

A kind of mouse comprises: sensor main body, x axostylus axostyle and y axostylus axostyle.

Because the y axostylus axostyle has finger insertion hole, when finger forward, backward, to the right and when being moved to the left, its with the finger mobile phase with direction control cursor.

User's a finger moves so that be arranged in the mouse button of sensor main body clicked along direction up and down, Shou Zhi the mobile effect of playing all functions of common mouse thus.

By the switch of operation in the mouse, computing machine moves and y axostylus axostyle mobile is identified as moving of x axle the mobile y of the being identified as axle of x axostylus axostyle.

Mouse can be attached at the top or the sidepiece of computer keyboard, thereby can use mouse under the situation that does not need the common mouse pad.

Can by finger move mouse beacon, use mouse thereby be provided under the situation that does not have arm and shoulder pain.

Beneficial effect

Y axostylus axostyle of the present invention is suspended in the air, and this y axostylus axostyle can along forward, backward, to the right, left, up and down direction moves.Therefore, only use a finger, just can realize the function of common mouse.

Because the y axostylus axostyle is porose on its main body, therefore, only use a finger, by moving up and down this y axostylus axostyle, cursor that just can the mobile computer display and substitute two buttons of click common mouse.

By use transaxle to switch, y axostylus axostyle of the present invention can be in the work of the optional position of computer keyboard.Therefore can not need that arm and shoulder are carried out the described mouse of use under the big situation about moving.

Description of drawings

Fig. 1 is the skeleton view according to cruciform mouse of the present invention;

Fig. 2 is the cut-open view according to the cruciform mouse of modification of the present invention;

Fig. 3 is the cut-open view according to cruciform mouse of the present invention;

Fig. 4 is a synoptic diagram of pushing the y axostylus axostyle of two buttons according to of the present invention;

Fig. 5 is the skeleton view according to use switch of the present invention.

Embodiment

A kind of cruciform mouse apparatus comprises: sensor main body, and it comprises the opening that is arranged in a side, the opening that is positioned at the opposite side relative with a described side and at a plurality of sensor devices of described sensor main body; The x axostylus axostyle, described x axostylus axostyle passes through the described sensor main body of its surface support, and guides described sensor main body to move at the x direction of principal axis; And the y axostylus axostyle, itself and described x axostylus axostyle meet at right angles and are inserted in the opening of a side, thereby make the part of described y axostylus axostyle expose from the opening of opposite side.

Describe the present invention below with reference to accompanying drawings in detail.

Fig. 1 is the skeleton view according to cruciform mouse of the present invention.

Sensor main body 100 comprises at least one sensor, is used for moving at inner perception bar.Sensor main body comprises the opening 101 that is positioned at a side and is positioned at opening 102 with opening 101 opposite side point-blank of this side, therefore, makes the part that can comprise y axostylus axostyle 300 in sensor main body 100.

Y axostylus axostyle 300 comprises finger insertion hole, and this finger insertion hole is in the edge 301 of y axostylus axostyle 300.By moving of finger, can be so that the y direction of principal axis move forward and backward, the x direction of principal axis moves to the right, left and up and down.

Because the upper surface 201 of x axostylus axostyle 200 supports sensor main bodies 100, when y axostylus axostyle 300 moves from right to left, or when mobile from left to right, sensor main body 100 moves along the x direction of principal axis.

Therefore, when the edge 301 of y axostylus axostyle 300 is mobile forward or backward, detect moving of y axle as the movable sensor of the part of sensor main body 100.

When the edge 301 of y axostylus axostyle 300 to the right and when being moved to the left, detect moving of x axle as the movable sensor of the part of sensor main body 100.

Forward, backward, to the right and be moved to the left y axostylus axostyle 300, it calculates the coordinate of x axle and y axle, thus the cursor in the mobile computer indicator screen.

The hole 302 of y axostylus axostyle 300 allows all fingers alternately to be inserted in this hole, and can freely mobile y axostylus axostyle 300.Even the present invention is fixed to a place, also can utilize two hands alternately to use the present invention.

Fig. 2 is the example according to modification of the present invention.

As shown in Figure 2, when y axostylus axostyle 300 is mobile forward or backward, first spinner 111 of sensor main body inside with counterclockwise or clockwise direction rotate, this rotation makes movable sensor 115,116 rotations with the first perception spinner 112 of winning be identified as the y axle to move thus.

Similar with top description, when y axostylus axostyle 300 is mobile to the left or to the right, second spinner 113 of sensor main body inside rotates with counter clockwise direction or clockwise direction, and this rotation makes 117,118 rotations with the second perception spinner 114 of second movable sensor be identified as moving of x axle thus.

First movable sensor 115,116 and second movable sensor 117,118 comprise light-emitting device 116,118 and optical sensor 115 and 117.When the light of light-emitting device 116,118 was stopped by the first perception spinner 112 and the second perception spinner 114, the light of light-emitting device 116,118 was sent to optical sensor 115,117.

But as another example of the present invention, mouse moving transmits according to two steps, and these two steps are to be sent to spinner 111,113 and to be sent to perception spinner 112,114.

For above-mentioned reasons, the perception that moves reduces, and is restricted aspect a plurality of parts with mouse are installed in the finite space in the sensor main body 100.

Therefore, as shown in figures 1 and 3, mouse is provided with point-blank on the sidepiece of y axostylus axostyle 300 and is used for the first object moving sensing device 310 that sensing moves, the y axostylus axostyle 300 that is inserted in the opening 101 of a side exposes at the opening 102 of opposite side, so the part of y axostylus axostyle 300 is arranged in sensor main body 100.

The first object moving sensing device 310 can be the reflection of light device, and still being more suitable for is with the isolated aperture of fixed intervals along straight line.

Moving of first movable sensor, 115,116 sensing y axostylus axostyles 300, first movable sensor 115,116 can comprise light-emitting device 115 and optical sensor 116.

By between light-emitting device 115 and optical sensor 116, inserting the first object moving sensing device, 310, the first object moving sensing devices, 310 sensings moving forward and backward.

That is, if y axostylus axostyle 300 with forward and direction backward move, then the light of launching from light-emitting device 115 is stopped by the aperture 310 of y axostylus axostyle 300, is passed to optical sensor 116 subsequently, at last light is become pulse signal.

Object sensory rod 220 is connected to the upper surface 201 of x axostylus axostyle 200, and object sensory rod 220 and x axostylus axostyle 200 is combined to form inverted T-shaped 230 subsequently.

Object sensory rod 220 comprises a plurality of second object moving sensing devices 210.

Sensor main body 100 comprises the groove that passes sidepiece 103, bottom 104 and opposite side portion 105, and described groove and opening meet at right angles, and makes x axostylus axostyle 200 be inserted in the sensor main body 100.

Similar with the first object moving sensing device 310, the second object moving sensing device 210 can be the reflection of light device, and still being more suitable for is with the isolated aperture of fixed intervals along straight line.

X axostylus axostyle 200 can be incorporated into such degree with sensor main body 100, that is, make object sensory rod 220 between second light-emitting device 117 and second optical sensor 118.

Second movable sensor 117,118 can comprise light-emitting device 117 and optical sensor 118.

If y axostylus axostyle 300 with to the right and direction left move, the light of launching from light-emitting device 117 is stopped by aperture 210, is sent to optical sensor 118 subsequently, thereby makes y axostylus axostyle moving on the x direction of principal axis to be identified.

Moving in first movable sensor and second movable sensor of y axostylus axostyle directly transmits, and improved the recognition accuracy of moving.

Light-emitting device the 115, the 117th, LED (light emitting diode, light emitting diode), LD (Laserdiode, laser diode) or the like, optical sensor is phototransistor, laser sensor or the like.

Comprise a plurality of elastic devices 121 and whirligig 122,123 in the sensor main body 100, whirligig 122,123 is near each top and the bottom of two openings 101,102 in the sensor main body.

Therefore, whirligig 122 is supported by elastic device 121, and whirligig 122,123 allows y axostylus axostyle 300 to move forward and backward smoothly.

As shown in Figure 3 and Figure 4, y axostylus axostyle 300 is between two whirligigs 122,123 that supported by elastic device 121, thus the feasible edge 301 that allows to push or lift y axostylus axostyle 300.

Sensor main body comprises a plurality of buttons.

When the user moved up the edge 301 of y axostylus axostyle 300, the y axostylus axostyle promoted to be included in first button 131 in the sensor main body 100.

According to identical mode, when the user moved down the edge 301 of y axostylus axostyle 300, the y axostylus axostyle promoted to be included in second button 132 in the sensor main body 100.

Two buttons 131,132 send different signals respectively, thereby can play the effect of the button of clicking conventional mouse.

Spring, elastic metallic etc. can be used as elastic device.Ball, right cylinder etc. can be used as spinner.

As shown in Figure 5, sensor main body 100 also comprises switch 400.Switch 400 works to change axially identification, and switch 400 can be installed in sidepiece or the sidepiece of x axostylus axostyle 200 or the sidepiece of y axostylus axostyle 300 of sensor main body 100.

When use was of the present invention above keyboard 1C, x axostylus axostyle 200 and y axostylus axostyle 300 were positioned on the initial point axle (axial of origin).

But when using at the side of keyboard 2C when of the present invention, computing machine is by operating switch 400 moving and y axostylus axostyle 300 mobile is identified as moving of x axle the mobile y of the being identified as axle of x axostylus axostyle 200.

More specifically, when using above keyboard 1C when of the present invention, the transmission line 401 of the perception that the x axostylus axostyle is moved contacts in the inside of switch with the reception line 402 of x axial coordinate.

When use was of the present invention above keyboard 2C, the user was with 45 degree rotating switches 400.

According to identical mode, the transmission line 411 of the perception that the y axostylus axostyle is moved contacts in the inside of switch 400 with the reception line 412 of y axial coordinate.Therefore, computing machine moving and y axostylus axostyle 300 mobile be identified as moving of y axle with the mobile x of the being identified as axle of x axostylus axostyle 200.

In addition, the edge 301 of y axostylus axostyle 300 can be crooked, so that the direction of finger insertion hole 302 can optionally be used.

Industrial applicability

The present invention relates to the mouse as computer entry device.

Using in the situation of desktop computer, can be above keyboard or sidepiece use the present invention, this The sample user can alternately use mouse and keyboard and need not significantly mobile arm and shoulder, therefore should Mouse can not cause shoulder pain and arm pain.

In notebook computer, use in the situation of Trackpad mouse, be difficult to operate. Therefore, touch-control The plate mouse does not just use when laptop carrying or user have common mouse, this means notes The usually preferred common mouse of this computer rather than Trackpad mouse.

When the present invention was attached at the sidepiece of notebook computer, when mobile, the present invention can be as touching Control plate mouse equally uses. Overcome like this shortcoming of cursor movement scarce capacity.

Just, the present invention can not cause shoulder pain and arm pain, and can be used as when mobile The Trackpad mouse. And the present invention has the cursor movement ability identical with conventional mouse.

Described mouse has remedied the deficiency of conventional mouse and Trackpad mouse. The present invention has alternative above-mentioned The industrial applicability of two kinds of mouses.

Claims (according to the modification of the 19th of treaty)

1. cruciform mouse comprises:

Sensor main body, it comprises the opening that is arranged in a side, the opening that is positioned at the opposite side relative with a described side and at a plurality of sensor devices of described sensor main body;

The x axostylus axostyle, described x axostylus axostyle passes through the described sensor main body of its surface support, and guides described sensor main body to move at the x direction of principal axis, and just in the surface combination of sensed bar and described x axostylus axostyle, described just have sensed mobile device at sensed bar; And

The y axostylus axostyle, described y axostylus axostyle and described x axostylus axostyle meet at right angles and are inserted in the described opening of a described side, thereby a part that makes described y axostylus axostyle is exposed from the described opening of described opposite side, and is used for the side that object moving sensing device that sensing moves is positioned at described y axostylus axostyle.

2. cruciform mouse as claimed in claim 1, wherein, described y axostylus axostyle comprises the finger insertion hole that is positioned at its edge.

3. cruciform mouse as claimed in claim 1, wherein, described x axostylus axostyle is an inverted T-shaped.

4. as claim 1 or 3 described cruciform mouses, wherein, described sensor main body comprises the groove that passes sidepiece, bottom and another sidepiece, and described groove and described opening meet at right angles, thereby makes the part of described x axostylus axostyle be inserted in the described sensor main body.

5. cruciform mouse as claimed in claim 1 also comprises switch, and described switch works to change axially identification.

Claims (7)

1. cruciform mouse comprises:

Sensor main body, it comprises the opening that is arranged in a side, the opening that is positioned at the opposite side relative with a described side and at a plurality of sensor devices of described sensor main body;

The x axostylus axostyle, described x axostylus axostyle passes through the described sensor main body of its surface support, and guides described sensor main body to move at the x direction of principal axis; And

The y axostylus axostyle, described y axostylus axostyle and described x axostylus axostyle meet at right angles and are inserted in the described opening of a described side, thus a part that makes described y axostylus axostyle is exposed from the described opening of described opposite side.

2. cruciform mouse as claimed in claim 1, wherein, described y axostylus axostyle comprises the finger insertion hole that is positioned at its edge and is used for the object moving sensing device that sensing moves that described object moving sensing device is positioned at a side of described y axostylus axostyle.

3. cruciform mouse as claimed in claim 1, wherein, described x axostylus axostyle is an inverted T-shaped, just is combined with in described inverted T-shaped on the surface of sensed bar and described x axostylus axostyle, described just have sensed mobile device at sensed bar.

4. as claim 1 or 3 described cruciform mouses, wherein, described sensor main body comprises the groove that passes sidepiece, bottom and another sidepiece, and described groove and described opening meet at right angles, thereby makes the part of described x axostylus axostyle be inserted in the described sensor main body.

5. cruciform mouse as claimed in claim 1, wherein, described sensor main body comprises a plurality of buttons in described sensor main body, when promoting the edge of described y axostylus axostyle up or down, clicks each described button thus, thereby sends the signal of appointment.

6. cruciform mouse as claimed in claim 1, wherein, described sensor main body comprises:

A plurality of elastic devices in described sensor main body; And

Whirligig, each top and bottom that it is placed as near described two openings in the described sensor main body make described spinner be supported by described elastic device.

7. cruciform mouse as claimed in claim 1 also comprises switch, and described switch works to change axially identification.

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