CN101201707A - Mouse with sterilization structure - Google Patents

Abstract

A mouse with a sterilization structure is electrically coupled with a computer and is operated by a user. The mouse comprises a power supply unit, a key-in unit, a control unit and an ultraviolet module. The power supply unit is electrically coupled with the computer, the control unit and the ultraviolet module to obtain the power of the computer for the mouse to use, the key-in unit is operated by a user and generates and outputs a key-in signal, and the control unit is electrically coupled with the key-in unit to transmit the key-in signal to the computer. When the ultraviolet module receives the power supply, the ultraviolet module generates ultraviolet light to irradiate the outside of the mouse, so that a user can sterilize the irradiated range by utilizing the ultraviolet light.

Description

mouse with bactericidal structure

technical field

The present invention relates to a mouse, in particular to a mouse emitting ultraviolet light to sterilize the irradiated area.

Background technique

Please refer to Fig. 1, this is the structural diagram of prior art, and it is a mouse nest, when mouse is put into mouse seat, sterilizes by the sterilizing structure that mouse seat has.

The mouse nest includes a mouse base 1, the base body has an opening, and an ultraviolet lamp tube 2 is arranged inside the base body.

When the mouse 3 is placed in the mouse base 1, the user turns on the ultraviolet light tube 2 in the mouse base 1 to perform sterilization. The ultraviolet light emitted by the ultraviolet light tube 2 will be scattered on the shell surface of the mouse 3, and the ozone generated by the interaction of the ultraviolet light and air oxygen will sterilize the mouse.

However, the prior art has unavoidable disadvantages. That is, the mouse base 1 must be connected with a power supply in addition to be able to operate. And most people are not used to using the mouse seat, and the mouse seat has gradually formed unnecessary configuration items, so the configuration of the mouse seat has become a meaningless space occupation.

In addition, the ultraviolet lamp 2 can only irradiate in a fixed direction, and the mouse base 1 can only sterilize the mouse 3, and cannot irradiate ultraviolet light on other devices or objects, such as keyboards, computers, and the like. Its usability is very limited.

Contents of the invention

In view of this, in order to solve the above problems, the present invention proposes a mouse with a sterilizing structure, the purpose of which is to use the internal space of the mouse itself to configure an ultraviolet module that can irradiate the outside of the mouse, so that the mouse can pass through the ultraviolet light irradiated by the ultraviolet module. , to sterilize the inside and outside of the mouse. Moreover, the user can change the irradiation direction and irradiation range of the ultraviolet rays by holding the mouse, so as to control the position where the user wants to sterilize.

The invention provides a mouse with a sterilizing structure, which is electrically coupled with a computer and operated by a user. The mouse includes a power supply unit, a key input unit, a control unit and an ultraviolet module. Wherein, the power supply unit is electrically coupled to the computer, the control unit and the ultraviolet module respectively, and the control unit is electrically coupled to the input unit.

The power supply module obtains the power of the computer, and conducts the power to the control unit and the ultraviolet module respectively. The key-in unit is for the user to operate, and generates a key-in signal and outputs the key-in signal to the control unit. The control unit is used to receive the power supply and receive input signals, and transmit the input signals to the computer. The ultraviolet module receives the power conducted by the power supply module, and emits an ultraviolet light to irradiate the outside of the mouse.

In the mouse of the present invention, the power supply is electrically coupled to the computer via a Universal Serial Bus (USB) and obtains power from the computer. The input unit includes a scroll wheel, a key and a motion sensor.

The mouse provided by the present invention also includes a casing and at least one light-transmitting part. The housing accommodates the current supply unit, input unit, control unit and ultraviolet module. The light-transmitting part is arranged on the casing, and allows the ultraviolet light to irradiate to the outside of the casing, and controls the range of the ultraviolet light irradiation.

The present invention has effects that cannot be realized by the prior art. That is, when the ultraviolet module irradiates ultraviolet light, it first irradiates the inner space of the mouse, and sterilizes the inside of the mouse. Therefore, to sterilize the scroll wheel inside the mouse, even if the mouse slides with a rolling ball, the ultraviolet module can also perform the sterilizing action.

Moreover, the ultraviolet rays are irradiated to the external position of the mouse by the light-transmitting part, so the user only needs to change the direction and range of the ultraviolet irradiation by holding the mouse, and can irradiate the place where the user wants to sterilize, which is very convenient for use. convenient. In addition, if the user does not want to use it for a long time, he can switch the state of the ultraviolet module through the switch, so as to reduce the waste of power supply and avoid the abnormal physiological state caused by the long-term exposure to ultraviolet rays.

The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments, but not as a limitation of the present invention.

Description of drawings

The structural representation of Fig. 1 prior art;

Fig. 2 schematic diagram of circuit structure of the present invention;

Fig. 3 is a schematic structural view of the first embodiment of the present invention;

Fig. 4 is a schematic structural diagram of a second embodiment of the present invention; and

Fig. 5 is a schematic structural diagram of a third embodiment of the present invention.

Among them, reference signs

1 Mouse holder 2 Ultraviolet lamp

3. 200 mouse 210 power supply unit

220 key-in unit 221 keys

222 Roller wheel 223 Displacement sensor

230 Control Unit 240 UV Module

250 USB Plug 260 Switch

270 Housing 271 Light-transmitting part

272 grip part 300 computer

301 USB slot 302 USB control circuit

Detailed ways

In order to have a further understanding of the purpose of the present invention, structural features and functions thereof, the relevant embodiments and accompanying drawings are described in detail as follows:

Please refer to FIG. 2 , which is a structural diagram of the mouse circuit of the present invention. The mouse 200 is electrically coupled with a computer 300 to obtain power from the computer 300 and perform typing operations of the mouse 200 .

In this embodiment, the computer 300 has a USB (Universal Serial Bus, Universal Serial Bus) slot 301 and a USB control circuit 302, the USB control circuit 302 is electrically coupled to the USB slot 301, and the USB control circuit 302 Through the USB slot 301 to output the power obtained from the computer 300 and to receive commands from the outside of the computer 300 (details will be described later),

The mouse includes a USB plug 250 , a power supply unit 210 , a keying unit 220 , a control unit 230 and an ultraviolet module 240 .

The power supply unit 210 is coupled to the USB socket 301 of the computer 300 through a USB (Universal Serial Bus) plug 250, so that the power supply unit 210 and the USB control circuit 302 are electrically coupled to each other. The power supply unit 210 obtains the power of the computer 300 through the USB control circuit 302 and outputs the power to the control unit 230 and the ultraviolet module 240 . The input unit 220 generates an input signal through the operation of the user, and outputs the input signal to the control unit 230 .

The control unit 230 operates when receiving power, and when receiving a key-in signal, transmits the key-in signal to the computer 300 through the USB control circuit 302 . When the computer 300 receives the input signal, it executes the program or instruction corresponding to the input signal. The ultraviolet module 240 is electrically coupled to the power supply unit 210 and emits ultraviolet light when receiving power.

The circuit structure also includes a switch 260 which is connected in series between the ultraviolet module 240 and the power supply unit 210 . When the switch 260 is turned on or off, the ultraviolet module 240 and the power supply unit 210 are in a conduction or interruption state.

When the switch 260 is turned on, the ultraviolet module 240 receives the power provided by the power supply unit 210 to emit ultraviolet rays. If it is in an interrupted state, the ultraviolet module 240 cannot receive power and stops operating.

Please refer to FIG. 3 and also refer to the circuit diagram shown in FIG. 2 . FIG. 3 is a schematic structural diagram of the first embodiment of the present invention. The main structure of the mouse includes a housing 270 , a power supply unit 210 , a keying unit 220 , a control unit 230 , an ultraviolet module 240 and a switch 260 . The power supply unit 210 , the input unit 220 , the control unit 230 , the ultraviolet module 240 and the switch 260 are accommodated in the casing 270 . Wherein, the input component 220 includes a button 221 , a scroll wheel 222 and a displacement sensor 223 of the mouse 200 .

The scroll wheel 222 is installed on the surface of the housing 270 of the mouse, and provides the user to toggle to generate a corresponding scrolling signal; the button 221 is a left button and a right button commonly used in a general mouse device, and is arranged on the housing 270 of the mouse 200 The surface is provided for the user to press to generate a corresponding confirmation signal; the displacement sensor 223 is a ball-type displacement sensor or an optical displacement sensor commonly used in general mouse devices, and is used to sense the displacement of the user moving the mouse on a plane , and generate a displacement signal; the control unit 230 receives the aforementioned input signal, such as a scrolling signal, a confirmation signal or a displacement signal, encodes and converts it into a corresponding control signal, and then transmits it to the computer 300 .

The switch 260 is exposed on the surface of the casing 270 for the user to switch the state of the switch 260 to activate or deactivate the ultraviolet module 240 .

The ultraviolet module 240 is disposed in the casing 270 of the mouse 200 and is close to the bottom of the casing 270 . When the user switches the state of the switch 260 to activate the ultraviolet module 240 , the ultraviolet module 240 emits an ultraviolet light to sterilize and clean all components contained inside the mouse 200 .

The casing 270 is configured with a light-transmitting portion 271 , and the light-transmitting portion 271 is disposed at the bottom of the casing 270 of the mouse 200 at a position corresponding to the position of the ultraviolet module 240 . Moreover, the light-transmitting portion 271 is usually a transparent glass for ultraviolet light to pass through. Therefore, the ultraviolet light emitted by the ultraviolet module 240 passes through the light-transmitting part 271 and irradiates the outside of the mouse 200, and the light-transmitting part 271 is arranged at the bottom of the housing 270 of the mouse 200, so it can prevent the accumulation of oil and dust. bacteria removal. Moreover, the user can move the mouse 200 to change the irradiation direction and range of the ultraviolet light to irradiate the place that the user wants to sterilize. For example, the user can move the mouse to the keyboard to irradiate the keyboard with ultraviolet light to sterilize.

Please refer to FIG. 4 , which is a schematic structural diagram of a second embodiment of the present invention. The second embodiment differs from the first embodiment in that. The light-transmitting part 271 is arranged on the button 221 of the mouse 200, so that the ultraviolet module 240 can pass through the light-transmitting part 271 when emitting ultraviolet light, so that the ultraviolet light can penetrate the surface of the button 221 to sterilize.

Please refer to FIG. 5 , which is a schematic structural diagram of a third embodiment of the present invention. The difference between the third embodiment and the first embodiment is that the transparent part 271 is disposed at the top of the housing 270 of the mouse 200 , and the ultraviolet module 240 is disposed corresponding to the position of the transparent part 271 . Moreover, the position of the transparent portion 271 is a grip portion 272 , that is, the position of the housing 270 for the user to hold the mouse 200 .

At this time, the switch 260 can be switched to activate the ultraviolet module 240 , and the ultraviolet light emitted by the ultraviolet module 240 passes through the transparent part 271 to sterilize the grip part 272 .

To sum up, the ultraviolet module 240 receives the power of the computer 300 through the USB interface, so the mouse 200 can operate the ultraviolet module 240 without connecting other power sources.

Moreover, the configuration of the ultraviolet module 240 does not cause unnecessary space occupation. However, the light-transmitting part 271 allows the ultraviolet light to penetrate to irradiate the outside of the mouse 200 to sterilize the surface of the housing 270 of the mouse 200, and the direction and range of the ultraviolet light can also be changed by holding the mouse 200. , to configure the area desired by the user for sterilization.

Certainly, the present invention also can have other multiple embodiments, without departing from the spirit and essence of the present invention, those skilled in the art can make various corresponding changes and deformations according to the present invention, but these corresponding Changes and deformations should belong to the scope of protection of the appended claims of the present invention.

Claims (11)

1. A mouse with a sterilizing structure, electrically coupled with a computer and operated by a user, is characterized in that the mouse comprises: a power supply unit, electrically coupled to the computer, and obtains power from the computer; a key-in unit, which is operated by the user and generates and outputs a key-in signal; a control unit, electrically coupled to the input unit and the power supply unit, the control unit receives the input signal and the power supply, and transmits the input signal to the computer; and An ultraviolet module is electrically coupled to the power supply unit to receive the power, and generates an ultraviolet light to irradiate the outside of the mouse. 2. The mouse according to claim 1, wherein the power supply is electrically coupled to the computer via a USB. 3. The mouse according to claim 1, wherein the input unit comprises a scroll wheel. 4. The mouse according to claim 1, wherein the input unit comprises a button. 5. The mouse according to claim 1, wherein the input unit comprises a motion sensor. 6. The mouse according to claim 1, further comprising a housing and at least one light-transmitting portion, the housing accommodates the current supply unit, the input unit, the control unit and the ultraviolet module, the The light-transmitting part is arranged on the casing, and allows the ultraviolet light to irradiate to the outside of the casing. 7. The mouse according to claim 6, wherein the light-transmitting portion is disposed at the bottom of the casing. 8 . The mouse according to claim 6 , wherein the light-transmitting portion is disposed at a position of the housing for the user to hold. 9 . 9. The mouse according to claim 6, wherein the transparent part is a transparent glass. 10. The mouse according to claim 6, further comprising a switch electrically coupled to the ultraviolet module for selectively turning on or off the ultraviolet module. 11. A mouse with a sterilizing structure, electrically coupled with a computer and operated by a user, characterized in that the mouse comprises: a power supply unit, electrically coupled to the computer, and obtains power from the computer; a key-in unit, which is operated by the user and generates and outputs a key-in signal; a control unit, electrically coupled to the input unit and the power supply unit, the control unit receives the input signal and the power supply, and transmits the input signal to the computer; an ultraviolet module, electrically coupled to the power supply unit, and generates an ultraviolet light to irradiate the outside of the mouse; a switch, the switch is electrically coupled to the ultraviolet module for selectively turning on or closing the ultraviolet module; a housing housing the current supply unit, the input unit, the control unit, the switch and the ultraviolet module; and At least one light-transmitting part is arranged on the housing and allows the ultraviolet light to irradiate to the outside of the housing.

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