CN204695259U

CN204695259U - A kind of self power generation intelligent wireless mouse

Info

Publication number: CN204695259U
Application number: CN201520468831.1U
Authority: CN
Inventors: 王雁博
Original assignee: Xian University
Current assignee: Xian Unversity of Arts and Science; Xian University
Priority date: 2015-06-30
Filing date: 2015-06-30
Publication date: 2015-10-07
Anticipated expiration: 2025-06-30

Abstract

The utility model discloses a kind of self power generation intelligent wireless mouse, comprise shell, mainboard, also comprise signal transmitting chip, signal receiving chip, roller, magnetic pole, the first carbon brush, the second carbon brush, inductor, accumulator, left button, right button, compared with prior art, this self power generation intelligent wireless mouse structure is simple, powerful, mouse is driven normally to work by the mouse self-generating when operating mouse, and achieve mouse to be connected with computer wireless, thus offer convenience to operation.

Description

A kind of self power generation intelligent wireless mouse

Technical field

The utility model relates to a kind of mouse, particularly relates to a kind of self power generation intelligent wireless mouse.

Background technology

Mouse is indispensable part in computing machine, current mouse needs to be connected with main frame electric wire, and have main frame to provide inner to mouse, and such mouse not only needs to consume electric energy, and make troubles to operation, wireless mouse also needs periodic replacement battery very inconvenient, in view of above defect, is necessary to design a kind of self power generation intelligent wireless mouse in fact.

Utility model content

Technical problem to be solved in the utility model is: provide a kind of self power generation intelligent wireless mouse, solves the problem of existing mouse action inconvenience.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of self power generation intelligent wireless mouse, comprise shell, mainboard, also comprise signal transmitting chip, signal receiving chip, roller, magnetic pole, first carbon brush, second carbon brush, inductor, accumulator, left button, right button, described signal transmitting chip is positioned at mainboard top center place, described signal transmitting chip and mainboard are weldingly connected, described signal receiving chip is positioned on the left of mainboard top center, described signal receiving chip and mainboard are weldingly connected, described roller is positioned on the left of shell, described roller rolls with shell and is connected, described magnetic pole is positioned on the right side of enclosure, described magnetic pole is connected with outer casing screw, the first described carbon brush is positioned at magnetic pole inside left-end, the first described carbon brush connects with magnetic pole glue and is connected, the second described carbon brush is positioned at right-hand member inside magnetic pole, the second described carbon brush connects with magnetic pole glue and is connected, described inductor is positioned at magnetic pole inside, described inductor and the first carbon brush roll with the second carbon brush and are connected, described accumulator is positioned at enclosure right-hand member, described accumulator is connected with outer casing screw, described left button is positioned at cover top portion left end, described left button connects with shell glue and is connected, described right button is positioned at cover top portion right-hand member, described right button connects with shell glue and is connected.

Further, described outer casing bottom is also provided with wear-resistant pad, and described wear-resistant pad quantity is four.

Further, described wear-resistant pad is evenly distributed on outer casing bottom surrounding, and described wear-resistant pad connects with shell glue and is connected.

Further, described magnetic pole inner tip is also provided with spring, and described spring and magnetic pole are weldingly connected.

Further, described inductor bag spheroid, the line of induction, conductor.

Further, described spheroid is positioned at magnetic pole inside, and described spheroid rolls with shell and is connected.

Further, the described line of induction is positioned at spheroid outer end, and the described line of induction connects with spheroid glue and is connected.

Further, described conductor is positioned at line of induction outer end, and described conductor and the line of induction are weldingly connected, and described conductor and the first carbon brush roll with the second carbon brush and be connected.

Compared with prior art, this self power generation intelligent wireless mouse, operating personnel are when operating mouse, mouse can slide on work top, roll from inductor can be made at work top, because inductor is by spheroid, the line of induction and conductor composition, and the line of induction is around on spheroid, so the line of induction can be made to roll, because magnetic pole can produce the magnetic line of force, under the rotation of the line of induction, the magnetic line of force that line of induction cutting magnetic pole produces, thus the line of induction can be made to produce certain electric current, due to the line of induction and conductor, first carbon brush, second carbon brush and accumulator composition closed circuit, thus the current storage making the line of induction produce is in accumulator, certain electric current flowed to signal transmitting chip in mainboard and mainboard and signal receiving chip by accumulator again, reached by signal transmitting chip and signal receiving chip and be connected with computer normal data, thus mouse can be made normally to use, this mouse structure is simple, powerful, mouse is driven normally to work by the mouse self-generating when operating mouse, and achieve mouse to be connected with computer wireless, thus offer convenience to operation.

Accompanying drawing explanation

Fig. 1 is the cut-open view of self power generation intelligent wireless mouse

Fig. 2 is the cut-open view of shell

Fig. 3 is the vertical view of self power generation intelligent wireless mouse

Fig. 4 is the cut-open view of magnetic pole

Shell 1 mainboard 2

Signal transmitting chip 3 signal receiving chip 4

Roller 5 magnetic pole 6

First carbon brush 7 second carbon brush 8

Inductor 9 accumulator 10

Left button 11 right button 12

Wear-resistant pad 101 spring 601

Spheroid 901 line of induction 902

Conductor 903

Following embodiment will further illustrate in conjunction with above-mentioned accompanying drawing.

Embodiment

Hereinafter, set forth multiple specific detail, to provide the thorough understanding to the concept forming described embodiment basis.But to one skilled in the art, embodiment described obviously can be put into practice when not have in these specific detail some or all.In other cases, well-known treatment step is not specifically described.

As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4, comprise shell 1, mainboard 2, signal transmitting chip 3, signal receiving chip 4, roller 5, magnetic pole 6, first carbon brush 7, second carbon brush 8, inductor 9, accumulator 10, left button 11, right button 12, wear-resistant pad 101, spring 601, spheroid 901, the line of induction 902, conductor 903, described signal transmitting chip 3 is positioned at mainboard 2 top center place, described signal transmitting chip 3 is weldingly connected with mainboard 2, described signal receiving chip 4 is positioned on the left of mainboard 2 top center, described signal receiving chip 4 is weldingly connected with mainboard 2, described roller 5 is positioned on the left of shell 1, described roller 5 rolls with shell 1 and is connected, described magnetic pole 6 is positioned at shell 1 inner right side, described magnetic pole 6 is connected with shell 1 screw thread, the first described carbon brush 7 is positioned at magnetic pole 6 inside left-end, the first described carbon brush 7 connects with magnetic pole 6 glue and is connected, the second described carbon brush 8 is positioned at right-hand member inside magnetic pole 6, the second described carbon brush 8 connects with magnetic pole 6 glue and is connected, it is inner that described inductor 9 is positioned at magnetic pole 6, described inductor 9 and the first carbon brush 7 roll with the second carbon brush 8 and are connected, described accumulator 10 is positioned at the inner right-hand member of shell 1, described accumulator 10 is connected with shell 1 screw thread, described left button 11 is positioned at 1, shell top left end, described left button 11 connects with shell 1 glue and is connected, described right button 12 is positioned at shell 1 top right-hand member, described right button 12 connects with shell 1 glue and is connected, wear-resistant pad 101 is also provided with bottom described shell 1, described wear-resistant pad 101 quantity is four, described wear-resistant pad 101 is evenly distributed on surrounding bottom shell 1, described wear-resistant pad 101 connects with shell 1 glue and is connected, described magnetic pole 6 inner tip is also provided with spring 601, described spring 601 is weldingly connected with magnetic pole 6, described inductor 9 has wrapped spheroid 901, the line of induction 902, conductor 903, it is inner that described spheroid 901 is positioned at magnetic pole 6, described spheroid 901 rolls with shell 1 and is connected, the described line of induction 902 is positioned at spheroid 901 outer end, the described line of induction 902 connects with spheroid 901 glue and is connected, described conductor 903 is positioned at the line of induction 902 outer end, described conductor 903 is weldingly connected with the line of induction 902, and described conductor 903 and the first carbon brush 7 roll with the second carbon brush 8 and are connected, this self power generation intelligent wireless mouse, operating personnel are when operating mouse, mouse can slide on work top, roll from inductor 9 can be made at work top, because inductor 9 has spheroid 901, the line of induction 902 and conductor 903 form, and the line of induction 902 is around on spheroid 901, so the line of induction 902 can be made to roll, because magnetic pole 6 can produce the magnetic line of force, under the rotation of the line of induction 902, the line of induction 902 cuts the magnetic line of force that magnetic pole 6 produces, thus the line of induction 902 can be made to produce certain electric current, due to the line of induction 902 and conductor 901, first carbon brush 7, second carbon brush 8 and accumulator 10 form closed circuit, thus the current storage making the line of induction 902 produce is in accumulator 10, certain electric current flowed to signal transmitting chip 3 in mainboard 2 and mainboard 2 and signal receiving chip 4 by accumulator 10 again, to be reached with signal receiving chip 4 by signal transmitting chip 3 and be connected with computer normal data, thus mouse can be made normally to use, its housing 1 is mainboard 2, roller 5, magnetic pole 6, inductor 9, accumulator 10, left button 11, right button 12, the installation carrier of wear-resistant pad 101, roller 5, left button 11, right button 12 to make mouse normally use, mainboard 2 is signal transmitting chips 3, the installation carrier of signal receiving chip 4, mainboard 2 is to signal transmitting chip 3 simultaneously, signal receiving chip 4 transmits electric current, wear-resistant pad 101 is the wearing qualities increasing mouse, spring 601 is that to roll at inductor 9 be that spring 601 can promote inductor 9 and down moves, thus can ensure that inductor 9 contacts with work top all the time, spheroid 901 is installation carriers of the line of induction 902.

The utility model is not limited to above-mentioned concrete embodiment, and those of ordinary skill in the art is from above-mentioned design, and without performing creative labour, all conversion made, all drop within protection domain of the present utility model.

Claims

1. a self power generation intelligent wireless mouse, comprise shell, mainboard, characterized by further comprising signal transmitting chip, signal receiving chip, roller, magnetic pole, first carbon brush, second carbon brush, inductor, accumulator, left button, right button, described signal transmitting chip is positioned at mainboard top center place, described signal transmitting chip is connected with welding circuit board, described signal receiving chip is positioned on the left of mainboard top center, described signal receiving chip and mainboard are weldingly connected, described roller is positioned on the left of shell, described roller rolls with shell and is connected, described magnetic pole is positioned on the right side of enclosure, described magnetic pole is connected with outer casing screw, the first described carbon brush is positioned at magnetic pole inside left-end, the first described carbon brush connects with magnetic pole glue and is connected, the second described carbon brush is positioned at right-hand member inside magnetic pole, the second described carbon brush connects with magnetic pole glue and is connected, described inductor is positioned at magnetic pole inside, described inductor and the first carbon brush roll with the second carbon brush and are connected, described accumulator is positioned at enclosure right-hand member, described accumulator is connected with outer casing screw, described left button is positioned at cover top portion left end, described left button connects with shell glue and is connected, described right button is positioned at cover top portion right-hand member, described right button connects with shell glue and is connected.

2. a kind of self power generation intelligent wireless mouse as claimed in claim 1, is characterized in that described outer casing bottom is also provided with wear-resistant pad, and described wear-resistant pad quantity is four.

3. a kind of self power generation intelligent wireless mouse as claimed in claim 2, is characterized in that described wear-resistant pad is evenly distributed on outer casing bottom surrounding, and described wear-resistant pad connects with shell glue and is connected.

4. a kind of self power generation intelligent wireless mouse as claimed in claim 3, it is characterized in that described magnetic pole inner tip is also provided with spring, described spring and magnetic pole are weldingly connected.

5. a kind of self power generation intelligent wireless mouse as claimed in claim 4, is characterized in that described inductor bag spheroid, the line of induction, conductor.

6. a kind of self power generation intelligent wireless mouse as claimed in claim 5, is characterized in that described spheroid is positioned at magnetic pole inside, and described spheroid rolls with shell and is connected.

7. a kind of self power generation intelligent wireless mouse as claimed in claim 6, is characterized in that the described line of induction is positioned at spheroid outer end, and the described line of induction connects with spheroid glue and is connected.

8. a kind of self power generation intelligent wireless mouse as claimed in claim 7, it is characterized in that described conductor is positioned at line of induction outer end, described conductor and the line of induction are weldingly connected, and described conductor and the first carbon brush roll with the second carbon brush and be connected.