CN205353956U - Disconnect -type mouse - Google Patents

Abstract

The utility model provides a disconnect -type mouse, this disconnect -type mouse includes first mouse for input positional information and roll screen information, second mouse for input button information, second mouse is connected with first mouse electricity, is used for receiving the positional information of first mouse input and rolling screen information, second mouse still is used for and calculates electromechanical the connection, and the computer is used for receiving positional information, rolls screen information and button information. This disconnect -type mouse mutually supports through first mouse and second mouse, has realized that two hands are respectively to first mouse and second mouse operation for two arms and two hands are done exercises simultaneously, have alleviateed the fatigue of arm and hand effectively, have alleviated the discomfort that long time operated mouse was brought, and the arm can be placed wantonly, need not to confine to the desktop, have reached the effect of relaxing the arm, in addition, this disconnect -type mouse simple structure, it is small and exquisite light, use in a flexible way.

Description

Separated mouse

Technical Field

The utility model relates to a computer technology field particularly, relates to a disconnect-type mouse.

Background

A Mouse (Mouse), which is called a display system vertical and horizontal position indicator, is one of indispensable components for people to use computers as an input device of the computers.

The mouse can be divided into a mechanical mouse, an optical mouse, a multi-key mouse and the like according to different structures. Although there are many kinds of mouse, the mouse has the same appearance, that is, the mouse is an integrated structure, the bottom surface of the mouse is a plane, which is convenient for moving on a table, the left button and the right button are respectively arranged on the left side and the right side of the front end of the mouse, and the roller is arranged between the left button and the right button. When a user uses the mouse, the user can realize the related operation of the cursor on the computer screen by moving the mouse, clicking the left key or the right key and the sliding roller. Therefore, the user needs to place one arm on the table top, and operate the mouse by the action of the arm and the hand. Because the mouse is integrated, only one arm and one hand can operate the mouse, and long-time operation can cause the fatigue discomfort of the arm and the hand and cause symptoms such as pain and the like.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a disconnect-type mouse aims at solving among the prior art integral type mouse and leads to the tired problem of arm and hand easily.

In one aspect, the present invention provides a split mouse, which includes a first mouse for inputting position information and scrolling information; the second mouse is used for inputting key information, is electrically connected with the first mouse and is used for receiving the position information and the screen scrolling information input by the first mouse; the second mouse is also used for being electrically connected with a computer, and the computer is used for receiving the position information, the scroll information and the key information.

Further, in the above-mentioned split mouse, the first mouse includes: the device comprises a first shell, a sphere, a lighting device, an optical lens and an optical engine; the round ball is rotatably partially arranged in the first shell in a penetrating way and used for inputting position information; the illuminating device is arranged in the first shell, is close to the ball and is used for emitting illuminating light; the optical lens is arranged in the first shell, corresponds to the bottom of the round ball, and is used for reflecting the illumination light to the bottom of the round ball and receiving the image of the bottom of the round ball; the optical engine is arranged in the first shell, corresponds to the lower part of the optical lens, and is used for receiving the image and determining the position information according to the image; the optical engine is also electrically connected with the second mouse and used for sending the position information to the second mouse.

Furthermore, in the split mouse, the first shell is provided with a ball mounting hole; a supporting seat is also arranged in the first shell, and a tapered hole is formed in the supporting seat; the ball is rotatably arranged at one end with a larger diameter of the conical hole and partially passes through the ball mounting hole; the optical lens corresponds to one end with a smaller diameter of the conical hole, and a preset distance is arranged between the optical lens and the bottom of the ball.

Further, in the above-mentioned split mouse, the lighting device is a light emitting diode.

Further, in the above-mentioned split mouse, the optical lens includes: a prism and a circular lens; the prism is used for reflecting the light rays emitted by the lighting device to the bottom of the sphere; the round lens corresponds to the bottom of the sphere and is used for receiving the image of the bottom of the sphere.

Further, in the above-mentioned split mouse, the optical engine includes: an image sensor and an optical positioning DSP; the image sensor is arranged below the round lens and used for receiving and transmitting an image at the bottom of the round ball; the optical positioning DSP is electrically connected with the image sensor and used for receiving the image and determining position information according to the image; the optical positioning DSP is also electrically connected with the second mouse and used for sending the position information to the second mouse.

Further, in the above-mentioned split mouse, the first mouse further includes: the pulley and the clamping seat are arranged in the first shell; wherein, the first shell is also provided with a pulley mounting hole; the pulley is rotatably arranged in the clamping seat, and part of the pulley penetrates through the pulley mounting hole; the pulley is also electrically connected with the second mouse and used for sending the scroll information input by the pulley to the second mouse.

Further, in the above-mentioned split mouse, the first housing is further provided with a connection ring.

Further, in the above-mentioned split mouse, the second mouse includes: the second shell, the controller, the first key and the second key; the first key and the second key are both connected to the second shell; the controller is arranged in the second shell, is electrically connected with the first key and the second key and is used for receiving first key information input by the first key and second key information input by the second key; the controller is also electrically connected with the optical engine and the pulley and used for receiving the position information sent by the optical engine and the scroll information input by the pulley; the controller is also electrically connected with the computer and used for sending the position information, the scrolling information, the first key information and the second key information to the computer.

Further, in the above-mentioned split mouse, the second housing is further provided with a connection ring.

The utility model discloses in, first mouse and second mouse mutually support and have realized the function of integral type mouse among the prior art, can operate first mouse and second mouse respectively through two hands, have solved among the prior art integral type mouse and have caused tired problem to an arm and a hand for two arms and two hands move simultaneously, have alleviateed the fatigue of arm and hand effectively, have alleviated the discomfort that long-time operation mouse brought.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a block diagram of a split mouse according to an embodiment of the present invention;

fig. 2 is a block diagram of a first mouse in the split-type mouse according to the embodiment of the present invention;

fig. 3 is a block diagram of a pulley of a first mouse in the split mouse according to an embodiment of the present invention;

Fig. 4 is a block diagram of an optical lens in the split mouse according to the embodiment of the present invention;

fig. 5 is a block diagram of an optical engine in the split mouse according to an embodiment of the present invention;

fig. 6 is a block diagram of a second mouse in the split-type mouse according to the embodiment of the present invention;

fig. 7 is a block diagram of another structure of the split mouse according to the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1, fig. 1 is a block diagram of a separated mouse according to an embodiment of the present invention. As shown, the split mouse includes a first mouse 100 and a second mouse 200. The first mouse 100 is used for inputting position information and scroll information according to the movement condition and the sliding condition of the first mouse. The second mouse 200 is used for inputting button information according to the button condition of the second mouse 200, and the second mouse 200 is electrically connected to the first mouse 100 and is used for receiving the position information and the scroll information input by the first mouse 100. The second mouse 200 is also used for being electrically connected with the computer 300, and sending the position information, the scroll information and the key information to the computer 300, and the computer 300 is used for receiving the position information, the scroll information and the key information and controlling the cursor action of the computer screen according to the information.

In this embodiment, the first mouse 100 and the second mouse 200 are two independent mice, and the first mouse 100 and the second mouse 200 can be operated by two hands respectively.

The working process of the embodiment is as follows: when the first mouse 100 is moved, the first mouse 100 inputs the position information of the first mouse according to the movement condition, and sends the position information to the second mouse 200. The first mouse 100 is slid and scroll information is input, and the first mouse 100 transmits the scroll information to the second mouse 200. The second mouse 200 is subjected to a key operation to input key information. And, the second mouse 200 receives the position information and the scroll information input by the first mouse 100, and transmits the position information, the scroll information, and the input key information to the computer 300, and the computer 300 receives the position information, the scroll information, and the key information, and analyzes and processes the information, thereby controlling a cursor on a computer screen to perform a corresponding operation.

It can be seen that, in this embodiment, the first mouse 100 and the second mouse 200 are mutually matched to realize the function of the integrated mouse in the prior art, and the first mouse 100 and the second mouse 200 can be respectively operated by two hands, so that the problem that the integrated mouse causes fatigue to one arm and one hand in the prior art is solved, two arms and two hands can move simultaneously, the fatigue of the arms and the hands is effectively reduced, and the discomfort caused by long-time mouse operation is relieved.

Referring to fig. 2, 4 and 5, a preferred structure of the first mouse is shown. As shown, in the above embodiments, the first mouse 100 may include a first housing 110, a spherical ball 120, an illumination device 130, an optical lens 140, and an optical engine 150.

The spherical ball 120 is partially rotatably disposed through the first housing 110 for inputting position information. Preferably, the first housing 110 has a ball mounting hole 111, the first housing 110 further has a support base 112 disposed therein, the support base 112 has a tapered hole 113, and the ball 120 is rotatably disposed at the end of the tapered hole 113 with a larger diameter and partially passes through the ball mounting hole 111. Specifically, a portion of the ball 120 protrudes from the outer wall of the first housing 110, so that the user can rotate the ball 120 to input the position information. Another portion of the ball 120 is disposed in the tapered hole 113 in the first housing 110, and the inner wall of the tapered hole 113 should be smooth so that the ball 120 can freely rotate in the tapered hole 113, thereby reducing friction.

The illuminating device 130 is disposed in the first casing 110 and near the sphere 120, and is used for emitting illuminating light to illuminate. Preferably, the illumination device 130 is a light emitting diode.

The optical lens 140 is disposed in the first housing 110 and corresponds to the bottom of the sphere 120, and is used for reflecting the illumination light to the bottom of the sphere 120 and receiving the image of the bottom of the sphere 120. Specifically, the optical lens 140 corresponds to the end of the tapered hole 113 with a smaller diameter, and the tapered hole 113 penetrates the supporting base 112, so that the optical lens 140 receives the image of the bottom of the sphere 120. The optical lens 140 is spaced from the bottom of the ball 120 by a predetermined distance, so that the optical lens 140 can better receive the image when the ball 120 rolls, and the situation that the optical lens 140 directly contacts the bottom of the ball 120 to prevent the ball 120 from rolling and/or the image received by the optical lens 140 is unclear is avoided. Preferably, the optical lens 140 includes a prism 141 and a circular lens 142. The prism 141 is used for reflecting the illumination light emitted by the illumination device 130 to the bottom of the sphere 120, so as to illuminate the bottom of the sphere 120, and make the image of the bottom of the sphere clearer and more accurate. The circular lens 142 corresponds to the bottom of the spherical ball 120 and is configured to receive an image of the bottom of the spherical ball 120.

It should be noted that, in the specific implementation, the preset distance is determined according to the actual situation, and this embodiment does not limit this.

The optical engine 150 is disposed in the first housing 110 and corresponds to a lower portion of the optical lens 140, and is configured to receive an image and determine position information according to the image. Preferably, the optical engine 150 may include an image sensor 151 and an optical positioning DSP 152. The image sensor 151 is disposed below the circular lens 142 in the optical lens 140, and receives and transmits an image of the bottom of the ball 120. The optical positioning DSP152 is electrically connected to the image sensor 151 for receiving the image and determining position information from the image. Specifically, the circular lens 142 receives the image of the bottom of the sphere 120 and transmits it to the image sensor 151, and the image sensor 151 receives the image, converts the image into a binary digital image matrix, and sends the digital image matrix to the optical positioning DSP 152. Optical positioning DSP152 receives the digital image matrix, analyzes and compares the digital image matrix, and determines position information of first mouse 100. Preferably, the image sensor 151 is a CMOS image sensor.

The optical engine 150 is also electrically connected to the second mouse 200 for transmitting the position information to the second mouse 200. Specifically, the optical positioning DSP152 in the optical engine 150 is electrically connected to the second mouse 200, and the position information determined by the optical positioning DSP152 is transmitted to the second mouse 200.

When the mouse is used, a user manually rotates the ball 120 protruding out of the outer wall of the first shell, the illuminating device 130 in the first shell 110 emits illuminating light, the prism 141 reflects the illuminating light to the bottom of the ball 120, the round lens 142 receives an image at the bottom of the ball 120 and transmits the image to the image sensor 151, the image sensor 151 receives the image, converts the image into a digital image matrix, and transmits the digital image matrix to the optical positioning DSP152, and the optical positioning DSP152 performs analysis processing according to the digital image matrix to determine the position information of the first mouse 100. The optical positioning DSP152 also sends the determined position information to the second mouse 200.

It can be seen that in the embodiment, the position information of the first mouse is input through the rotation of the ball 120, and the arm does not need to be limited on the desktop, so that the arm can be placed at will, the fatigue and pain caused by long-time operation of the mouse by the arm and the hand are reduced, and the effect of relaxing the arm is achieved; in addition, the embodiment has simple structure and easy operation.

Referring to FIG. 3, a preferred configuration of the wheel of the first mouse is shown. In the above embodiments, the first mouse 100 further includes the pulley 160 and the card seat 115 disposed in the first housing 110. The first housing 110 further defines a pulley mounting hole 114, and the pulley 160 is rotatably disposed in the clamping seat 115 and partially penetrates through the pulley mounting hole 114. Specifically, a rotating shaft is provided in the card holder 115, a center of the pulley 160 passes through the rotating shaft, so that the pulley 160 is rotatable in the card holder 115, and a portion of the pulley 160 protrudes out of an outer wall of the first housing 110, which is convenient for a user to manually slide the pulley 160 to rotate the pulley 160. The rotation of the pulley 160 inputs scroll information, and the pulley 160 is also electrically connected to the second mouse 200 for transmitting the scroll information to the second mouse 200.

In this embodiment, the user manually slides the pulley 160 protruding from the outer wall of the first housing 110, so that the pulley 160 rotates to input the screen scrolling information, and the structure is simple and convenient to operate.

In the above embodiments, the first housing 110 is further provided with a connection ring through which the user can wear it on a finger or a wrist. Preferably, the attachment ring is configured as a ring to be worn on a finger. More preferably, the first housing 110 is substantially "L" shaped, and the ball 120, the lighting device 130, the optical lens 140 and the optical engine 150 are disposed on one side of the "L" shape of the first housing, specifically, on the finger ventral side of the finger, such as the finger ventral side of the index finger, for the user to roll the ball 120; the pulley 160 and the locking seat 115 are disposed on the other side of the "L" shape of the first housing, specifically on one side of a finger, such as the side of the index finger opposite to the thumb, for the user to slide the pulley 160. Thus, the first mouse 100 is small, portable, flexible to use, and convenient for the user to use; in addition, the arm can be placed at will, and the arm and the wrist are relaxed.

Referring to fig. 6, fig. 6 is a block diagram of a second mouse in the split mouse according to the embodiment of the present invention. As shown in the figures, in the above embodiments, the second mouse 200 includes the second housing 210, the controller 220, the first button 230, and the second button 240. The first button 230 and the second button 240 are both connected to the second housing 210. Specifically, the second housing 210 is provided with a first key mounting hole and a second key mounting hole, the first key 230 and the second key 240 are both disposed in the second housing 210, the first key 230 partially penetrates through the first key mounting hole, and the second key 240 partially penetrates through the second key mounting hole, so that a user can manually press the first key 230 and the second key 240, thereby triggering the first key 230 and the second key 240 and inputting corresponding key information.

Referring to fig. 7, fig. 7 is a block diagram of another structure of the split mouse according to the embodiment of the present invention. As shown in the figure, the controller 220 is disposed in the second housing 210, and is electrically connected to the first key 230 and the second key 240, for receiving the first key information input by the first key 230 and the second key information input by the second key 240. The controller 220 is also electrically connected to the optical engine 150 and the pulley 160 of the first mouse 100, and is configured to receive the position information transmitted by the optical engine 150 and the scroll information input by the pulley 160. Specifically, the controller 220 is electrically connected to the optical positioning DSP152 and the pulley 160. The controller 220 is also electrically connected to the computer 300, and is configured to transmit the position information, the scroll information, the first key information, and the second key information to the computer 300.

It can be seen that, in this embodiment, the controller 220 sends the position information sent by the optical engine 150 of the first mouse 100, the scroll information input by the pulley 160, and the first button information and the second button information input by the second mouse 200 to the computer 300, and the computer 300 receives the position information, the scroll information, the first button information, and the second button information, analyzes and processes the information, and further controls the cursor on the computer screen to perform corresponding operations. In the embodiment, the controller 220 sends information to the computer 300 in a unified manner, and coordinates the operations of the elements to avoid information confusion.

In the above embodiments, the second housing 210 is further provided with a connection ring through which the user can wear it on a finger or a wrist. Preferably, the attachment ring is configured as a ring to be worn on a finger. More preferably, the second housing 210 is substantially "L" shaped, and the controller 220 is disposed on one side of the "L" shape of the first housing, specifically, on the finger ventral side of the finger, such as the finger ventral side of the index finger; the first button 230 and the second button 240 are disposed on the other side of the "L" shape of the first housing, specifically on one side of a finger, such as the side of the index finger opposite to the thumb, so that the user can press the first button 230 and the second button 240 conveniently. Thus, the second mouse 200 is small, portable and flexible to use; in addition, the arm can be placed at will, and the arm and the wrist are relaxed.

It should be noted that, in a specific implementation, the first mouse 100 and the second mouse 200 may also be set in other forms, and this embodiment does not limit this.

In summary, in the present embodiment, the first mouse 100 and the second mouse 200 are mutually matched, so that the function of the integrated mouse in the prior art is achieved, and the two hands respectively operate the first mouse 100 and the second mouse 200, so that the two arms and the two hands can move simultaneously, thereby effectively reducing the fatigue of the arms and the hands and relieving the discomfort caused by long-time mouse operation; in addition, the arms can be placed at will without being limited to a desktop, and the effect of relaxing the arms is achieved; in addition, the first mouse 100 and the second mouse 200 have simple structure, small size, light weight and flexible use.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A split mouse, comprising:

a first mouse (100) for inputting position information and scroll information;

the second mouse (200) is used for inputting key information, and the second mouse (200) is electrically connected with the first mouse (100) and is used for receiving the position information and the scroll information input by the first mouse (100);

the second mouse (200) is also used for being electrically connected with a computer (300), and the computer (300) is used for receiving the position information, the scroll information and the key information.

2. The detached mouse of claim 1, wherein the first mouse comprises: the lighting device comprises a first shell (110), a spherical ball (120), a lighting device (130), an optical lens (140) and an optical engine (150); wherein,

the round ball (120) is partially arranged through the first shell (110) in a rotating mode and used for inputting position information;

the illuminating device (130) is arranged in the first shell (110) and close to the round ball (120) and is used for emitting illuminating light;

the optical lens (140) is arranged in the first shell (110), corresponds to the bottom of the round ball (120), and is used for reflecting the illumination light to the bottom of the round ball (120) and receiving an image of the bottom of the round ball;

The optical engine (150) is arranged in the first shell (110) and corresponds to the lower part of the optical lens (140) and is used for receiving the image and determining position information according to the image;

the optical engine (150) is also electrically connected with the second mouse (200) for sending the position information to the second mouse (200).

3. The separable mouse according to claim 2,

the first shell (110) is provided with a round ball mounting hole (111);

a support seat (112) is further arranged in the first shell (110), and a tapered hole (113) is formed in the support seat (112);

the round ball (120) is rotatably arranged at one end of the conical hole (113) with larger diameter, and is partially arranged in the round ball mounting hole (111) in a penetrating way;

the optical lens (140) corresponds to one end of the conical hole (113) with a smaller diameter, and a preset distance is arranged between the optical lens and the bottom of the round ball.

4. A split mouse as claimed in claim 2, wherein the illumination means (130) is a light emitting diode.

5. A split mouse according to claim 2, wherein the optical lens (140) comprises: a prism (141) and a circular lens (142); wherein,

The prism (141) is used for reflecting the light rays emitted by the lighting device (130) to the bottom of the round ball;

the circular lens (142) corresponds to the bottom of the sphere (120) for receiving an image of the bottom of the sphere.

6. A split mouse according to claim 5, wherein the optical engine (150) comprises: an image sensor (151) and an optical positioning DSP (152); wherein,

the image sensor (151) is arranged below the circular lens (142) and used for receiving and transmitting an image of the bottom of the round ball;

the optical positioning DSP (152) is electrically connected with the image sensor (151) and is used for receiving the image and determining position information according to the image;

the optical positioning DSP (152) is also electrically connected with the second mouse (200) and used for sending the position information to the second mouse (200).

7. A split mouse according to any one of claims 2-6, wherein the first mouse (100) further comprises: a pulley (160) and a cartridge (115) disposed within the first housing; wherein,

the first shell (110) is also provided with a pulley mounting hole (114);

the pulley (160) is rotatably arranged in the clamping seat (115) and partially penetrates through the pulley mounting hole (114);

The pulley (160) is also electrically connected with the second mouse (200) and is used for sending the scroll information input by the pulley (160) to the second mouse (200).

8. A split mouse according to claim 2, wherein the first housing (110) is further provided with a connection ring.

9. A split mouse according to claim 7, characterized in that said second mouse (200) comprises: a second housing (210), a controller (220), a first key (230) and a second key (240); wherein,

the first key (230) and the second key (240) are both connected to the second housing (210);

the controller (220) is arranged in the second shell (210), is electrically connected with the first key (230) and the second key (240), and is used for receiving first key information input by the first key (230) and second key information input by the second key (240);

the controller (220) is also electrically connected with the optical engine (150) and the pulley (160) and used for receiving position information sent by the optical engine (150) and scrolling information input by the pulley (160);

the controller (220) is also electrically connected with the computer (300) and is used for sending the position information, the scroll information, the first key information and the second key information to the computer (300).

10. A split mouse according to claim 9, wherein the second housing (210) is further provided with a connection ring.