CN108491092B

CN108491092B - Mouse for foot

Info

Publication number: CN108491092B
Application number: CN201810119450.0A
Authority: CN
Inventors: 区俊成
Original assignee: Foshan City Gaoming District Yanghe Metal Material Professional Town Technology Innovation Center
Current assignee: Foshan City Gaoming District Yanghe Metal Material Professional Town Technology Innovation Center
Priority date: 2018-02-06
Filing date: 2018-02-06
Publication date: 2021-08-03
Anticipated expiration: 2038-02-06
Also published as: CN108491092A

Abstract

The invention provides a foot mouse which comprises a mouse seat, a singlechip arranged in the mouse seat and a rectangular mouse board, wherein the singlechip is arranged in the mouse seat; the top of the mouse seat is provided with a main groove matched with the mouse board, and the mouse board is movably arranged in the main groove; when four edges of the mouse board are pressed down, the cursor can be respectively controlled to move in four directions, namely up, down, left and right directions, and the moving speed is higher when the pressing pressure is higher; the left side and the right side of the front part of the mouse board are respectively provided with a left mouse button and a right mouse button. The mouse can be controlled by feet, and the use is convenient without light feet.

Description

Mouse for foot

Technical Field

The invention relates to a mouse, in particular to a mouse for feet.

Background

With the popularization of computers, the use of computers becomes an indispensable skill in life and work of people, the operation of people on the computers is mainly completed through a keyboard and a mouse, and because the two are generally operated by hands, the hands are required to be vacated when the mouse is operated, and the keyboard cannot be operated by two hands simultaneously, so that the operation efficiency is influenced; moreover, for the disabled or handicapped people, the manual mouse cannot be used normally. Therefore, some mice operated by feet are available on the market, but the mice need to be used by feet when being operated, so that the mice are not only unsightly, but also easy to cause the feet to be frozen and stiff in winter, and are very inconvenient to use.

It is seen that improvements and enhancements to the prior art are needed.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present invention aims to provide a foot mouse which can be controlled by foot, and the mouse does not need to be lighted when in use and is convenient to use.

In order to achieve the purpose, the invention adopts the following technical scheme:

a foot mouse comprises a mouse seat, a singlechip arranged in the mouse seat and a rectangular mouse board; the top of the mouse seat is provided with a main groove matched with the mouse board, and the mouse board is movably arranged in the main groove; when four edges of the mouse board are pressed down, the cursor can be respectively controlled to move in four directions, namely up, down, left and right directions, and the moving speed is higher when the pressing pressure is higher; the left side and the right side of the front part of the mouse board are respectively provided with a left mouse button and a right mouse button.

In the foot mouse, the positions of the bottom of the main groove, which are close to the middle points of the four edges, are respectively provided with a pressure sensor; the bottom of the mouse board is provided with four pressing blocks for pressing the pressure sensor, and a first compression spring is connected between each pressing block and the mouse board; a plurality of second compression springs are connected between the bottom of the main groove and the mouse board, and the second compression springs support the mouse board in a natural state and separate the pressing block from the pressure sensor; the four pressure sensors are all connected with the single chip microcomputer, the single chip microcomputer controls the cursor to move in the up, down, left and right directions according to pressure signals of the pressure sensors respectively, and the moving speed is in direct proportion to the pressure.

In the foot mouse, two sides of each pressure sensor are respectively provided with a second compression spring.

In the foot mouse, the left mouse button and the right mouse button respectively comprise a push plate and a trigger plate which are vertically arranged, a connecting shaft for connecting the push plate and the trigger plate, a guide plate sleeved on the connecting shaft, and a third compression spring sleeved on the connecting shaft and connecting the push plate and the guide plate; the guide plate is fixed on the upper surface of the mouse board, the push plate is arranged above the mouse board, and the trigger plate is arranged on the outer side of the mouse board and can move in a reciprocating manner along the width direction of the mouse board; the position that corresponds with every trigger plate on the lateral wall of main recess all is provided with the stationary contact of two separations, and trigger plate is provided with first sheetmetal towards one side of stationary contact, and this sheetmetal can switch on two stationary contacts when trigger plate presses to the stationary contact.

In the foot mouse, the fixed contact is a second metal sheet extending along the height direction of the side wall of the main groove.

In the foot mouse, an auxiliary groove for the retraction of the trigger plate is formed in the edge of the mouse plate; the trigger plate retracts into the auxiliary groove under the natural state.

In the foot mouse, the push plate is a rectangular push plate, a guide groove with the same width as the push plate is formed in the mouse plate, and the lower end of the push plate is inserted into the guide groove and abuts against the bottom of the guide groove.

The foot mouse also comprises a connecting wire, and the connecting wire is connected with a computer through a USB interface.

The foot mouse also comprises a signal generator and a power supply which are arranged in the mouse seat, and a signal receiver which is arranged on the computer; the signal generator and the power supply are connected with the single chip microcomputer, and signal transmission is carried out between the signal generator and the signal receiver through radio.

In the foot mouse, the power supply is a rechargeable storage battery or a replaceable dry battery.

Has the advantages that:

when the foot mouse is used, the mouse board is pressed towards the directions of the four sides of the mouse board by the foot, so that the cursor can move, the moving speed can be adjusted by the pressing force, the foot is not required to be polished in the using process, the foot mouse can be used by wearing shoes, and the use is convenient.

Drawings

Fig. 1 is a schematic structural diagram of a foot mouse provided by the present invention.

FIG. 2 is a schematic structural diagram of a left mouse button in the foot mouse according to the present invention.

Detailed Description

The invention provides a foot mouse, which is further described in detail below by referring to the attached drawings and embodiments in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-2, a foot mouse includes a mouse seat 1, a single chip (not shown) disposed in the mouse seat, and a rectangular mouse board 2; the top of the mouse seat 1 is provided with a main groove 1.1 which is matched with the mouse board 2, and the mouse board is movably arranged in the main groove; when four edges of the mouse board are pressed down, the cursor can be respectively controlled to move in four directions, namely up, down, left and right directions, and the moving speed is higher when the pressing pressure is higher; the left side and the right side of the front part of the mouse board 2 are respectively provided with a left mouse button A and a right mouse button B.

When the mouse pad is used, the mouse pad is pressed towards the directions of the four edges of the mouse pad by feet, so that the cursor can be moved, the moving speed can be adjusted by the pressing force, the use process does not need to be finished by feet, and the mouse pad can be operated by wearing shoes and is convenient to use. By using the mouse, two hands can be released for operating the keyboard, so that the working efficiency is improved. The mouse can also be used by the disabled or handicapped people.

Specifically, as shown in fig. 1, the positions of the bottom of the main groove 1.1, which are close to the middle points of the four edges, are respectively provided with a pressure sensor 3; the bottom of the mouse board 2 is provided with four pressing blocks 4 for pressing the pressure sensor, and a first compression spring 5 is connected between each pressing block and the mouse board; a plurality of second compression springs 6 are connected between the bottom of the main groove and the mouse board, and the second compression springs support the mouse board 2 in a natural state and separate the pressing block 5 from the pressure sensor 3; the four pressure sensors are all connected with the single chip microcomputer, the single chip microcomputer controls the cursor to move in the up, down, left and right directions according to pressure signals of the pressure sensors respectively, and the moving speed is in direct proportion to the pressure.

Further, a second compression spring 6 is provided on each side of each pressure sensor 3, as shown in fig. 1. In fact, even if the pressing mouse board is pressed towards one side edge, other side edges (hereinafter referred to as non-triggering edges) can also descend for a certain distance, and the two sides of the pressure sensor are respectively provided with a second compression spring, so that the descending distance of the non-triggering edges can be reduced, and false triggering can be prevented.

Specifically, as shown in fig. 1 and 2, each of the left mouse button a and the right mouse button B includes a push plate 7 and a trigger plate 8 vertically arranged, a connecting shaft 9 connecting the push plate and the trigger plate, a guide plate 10 sleeved on the connecting shaft, and a third compression spring 11 sleeved on the connecting shaft and connecting the push plate and the guide plate; the guide plate 10 is fixed on the upper surface of the mouse board 2, the push plate 7 is arranged above the mouse board, and the trigger plate 8 is arranged on the outer side of the mouse board and can move in a reciprocating manner along the width direction of the mouse board; the position that corresponds with every trigger plate 8 on the lateral wall of main recess 1.1 all is provided with two stationary contacts 12 of separation, and trigger plate is provided with first sheetmetal 8.1 towards one side of stationary contact, and this sheetmetal can switch on two stationary contacts when trigger plate presses to the stationary contact.

Through pressing push pedal 7, press trigger plate 8 to corresponding stationary contact, when two adjacent stationary contacts were put through by the first sheetmetal that corresponds, can form the signal transmission to the singlechip that the mouse left button or mouse right button were triggered. When the mouse is used, a user can complete the triggering of the left mouse button or the right mouse button only by slightly swinging the foot, and the use is convenient. In this case, the first metal sheet is provided on the trigger plate, but the whole trigger plate is not a metal sheet, so that the trigger plate is preferably a plastic plate in order to prevent the metal sheet from deforming due to collision and causing poor contact.

Further, referring to fig. 1, the stationary contact 12 is a second metal sheet extending along the height direction of the side wall of the main groove 1.1. No matter which height position mouse board 2 is in, first sheetmetal homoenergetic switches on two adjacent stationary contacts to guarantee the reliability that mouse left button and mouse right button triggered.

Preferably, as shown in fig. 1 and 2, an auxiliary groove 2.1 for retracting the trigger plate 8 is arranged on the edge of the mouse board 2; the trigger plate 8 is retracted into the secondary recess in a natural state. On one hand, the gap between the mouse board and the side wall of the main groove 1.1 is reduced, and the compactness of the mouse is improved; on the other hand, the trigger plate drives the first metal sheet to retract into the auxiliary groove, and even if the edge of the mouse board 2 is attached to the side wall of the main groove 1.1 due to improper use, the corresponding two static contacts cannot be communicated, so that false triggering is prevented.

In addition, the push plate 7 is a rectangular push plate, the mouse plate 2 is provided with a guide groove 2.2 which has the same width as the push plate, and the lower end of the push plate 7 is inserted into the guide groove and is propped against the bottom of the guide groove. The guide groove can be matched with the guide plate 10 to guide the moving direction of the push plate, and can prevent the push plate from rotating, so that the left key or the right key of the whole mouse is prevented from rotating, and the triggering reliability of the left key or the right key is ensured.

In this embodiment, as shown in fig. 1, the foot mouse further includes a connection line 13, and the connection line is connected to the computer through a USB interface 14.

In another embodiment, the foot mouse further comprises a signal generator and a power supply which are arranged in the mouse seat 1, and a signal receiver which is arranged on a computer; the signal generator and the power supply are connected with the single chip microcomputer, and signal transmission is carried out between the signal generator and the signal receiver through radio. The signal receiver and the signal generator are the same as those of a general wireless mouse, and the detailed structure thereof is not described herein for the prior art.

Further, the power supply is a rechargeable storage battery or a replaceable dry battery.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the protective scope of the present invention.

Claims

1. A foot mouse is characterized by comprising a mouse seat, a singlechip arranged in the mouse seat and a rectangular mouse board; the top of the mouse seat is provided with a main groove matched with the mouse board, and the mouse board is movably arranged in the main groove; when four edges of the mouse board are pressed down, the cursor can be respectively controlled to move in four directions, namely up, down, left and right directions, and the moving speed is higher when the pressing pressure is higher; the left side and the right side of the front part of the mouse board are respectively provided with a left mouse button and a right mouse button; the left mouse button and the right mouse button respectively comprise a push plate and a trigger plate which are vertically arranged, a connecting shaft for connecting the push plate and the trigger plate, a guide plate sleeved on the connecting shaft, and a third compression spring sleeved on the connecting shaft and connecting the push plate and the guide plate; the guide plate is fixed on the upper surface of the mouse board, the push plate is arranged above the mouse board, and the trigger plate is arranged on the outer side of the mouse board and can move in a reciprocating manner along the width direction of the mouse board; the mouse board is provided with a rectangular push plate, the width of the rectangular push plate is equal to that of the rectangular push plate, and the lower end of the rectangular push plate is inserted into the guide groove and abuts against the bottom of the guide groove.

2. The foot mouse as recited in claim 1, wherein a pressure sensor is disposed at a position near a midpoint of each of the four sides of the bottom of the primary groove; the bottom of the mouse board is provided with four pressing blocks for pressing the pressure sensor, and a first compression spring is connected between each pressing block and the mouse board; a plurality of second compression springs are connected between the bottom of the main groove and the mouse board, and the second compression springs support the mouse board in a natural state and separate the pressing block from the pressure sensor; the four pressure sensors are all connected with the single chip microcomputer, the single chip microcomputer controls the cursor to move in the up, down, left and right directions according to pressure signals of the pressure sensors respectively, and the moving speed is in direct proportion to the pressure.

3. The foot mouse according to claim 2, wherein a second compression spring is disposed on each side of each pressure sensor.

4. The foot mouse as defined in claim 2, wherein two separate stationary contacts are provided on the side wall of the main recess at positions corresponding to each of the trigger plates, and a first metal piece is provided on a side of the trigger plate facing the stationary contacts, the metal piece being capable of closing the two stationary contacts when the trigger plate is pressed against the stationary contacts.

5. The foot mouse according to claim 4, wherein the stationary contact is a second metal plate extending in a height direction of the side wall of the main recess.

6. The foot mouse as recited in claim 5, wherein a secondary groove for retracting the trigger plate is formed on the edge of the mouse board; the trigger plate retracts into the auxiliary groove under the natural state.

7. The foot mouse according to any one of claims 1-6, further comprising a connection cord connected to the computer via a USB interface.

8. A foot mouse according to any one of claims 1-6, further comprising a signal generator and a power source disposed in the mouse holder, and a signal receiver disposed on the computer; the signal generator and the power supply are connected with the single chip microcomputer, and signal transmission is carried out between the signal generator and the signal receiver through radio.

9. The foot mouse according to claim 8, wherein the power source is a rechargeable battery or a replaceable dry cell battery.