CN117008739A - Non-hand-held touch mouse - Google Patents

Abstract

The invention provides a non-hand touch type mouse, which is characterized in that three touch panels are embedded on a mouse shell to form three working areas, a left working area replaces a left mouse key, a right working area replaces a right mouse key, a middle working area replaces a mouse wheel, and a Bluetooth transmitter connected through a three-in-one touch controller and a computer U-port Bluetooth receiver are used for carrying out wireless data transmission, so that the non-hand touch type mouse is formed. The invention has simple parameter setting and effectively prevents the wrists, the dorsum of the hands and the fingers from generating intolerable pain.

Description

Non-hand-held touch mouse

Technical Field

The invention belongs to the field of computer accessories, and particularly relates to a non-handheld touch mouse.

Background

The mouse is an input device of the external standard of the computer, which is held by a single hand, slides the mouse and is matched with a middle roller to enable a cursor of the computer screen to move up and down and left and right, and is used for selecting or selecting other operations by left and right buttons of the mouse. Because the hand keeps holding the mouse and the finger keys for a long time, the hand is very easy to cause intolerable pain to the wrist, the back of the hand and the fingers, and the hand has great influence on study, work and life.

Disclosure of Invention

The invention overcomes the defects of the background technology and provides the non-handheld touch mouse which has the advantages of simple structure, low cost and long service life.

The invention adopts the design scheme that: the three touch panels are embedded on the mouse shell to form three working areas, a left working area replaces a left mouse button, a right working area replaces a right mouse button, a middle working area replaces a mouse wheel, and a Bluetooth transmitter connected with the three-in-one touch controller and a computer U-port Bluetooth receiver are used for carrying out wireless data transmission, so that the handheld touch mouse is formed.

The invention has simple parameter setting and convenient operation, and can effectively prevent the wrists, the dorsum of the hands and the fingers from generating intolerable pain.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a view in the A-A direction of FIG. 1 of the present invention;

FIG. 3 is a B-B view of FIG. 1 of the present invention;

FIG. 4 is a view in the direction C of FIG. 1 of the present invention;

FIG. 5 is a left side view of FIG. 1 of the present invention;

FIG. 6 is a rear view of FIG. 1 of the present invention;

fig. 7 is a diagram of a bluetooth receiver of the present invention;

FIG. 8 is a flow chart of the left workspace operation of the present invention.

The device comprises a left touch panel, a right touch panel, a mouse shell, a working indicator lamp, a Bluetooth emitter, a key switch wire slot, a mouse rear cover plate, a left wire slot, a Bluetooth wire slot, a middle wire slot, a right wire slot, a display lamp wire slot, a right pressure sensor and a working area isolation belt, wherein the left touch panel, the right touch panel, the mouse shell, the working indicator lamp, the Bluetooth emitter, the key switch wire slot, the mouse rear cover plate, the left wire slot, the Bluetooth wire slot, the right wire slot, the middle wire slot, the right wire slot and the display lamp wire slot, the right pressure sensor and the working area isolation belt, 17, a left pressure sensor, 18, a wrist support, 19, an indicator light lead, 20, a wire arrangement hole, 21, a right touch panel and a pressure sensor wire arrangement, 22, a middle touch panel wire arrangement, 23, a three-in-one touch controller, 24, battery right lead, 25, battery, 26, battery left lead, 27, left touch panel and pressure sensor wire, 28, keyswitch lead, 29, bluetooth transmitter wire.

Description of the embodiments

The invention is further described below with reference to the accompanying drawings.

The whole shape of the mouse is set to be a rectangle approximate to a sheet structure, the mouse shell 4 is formed by one-time injection molding of ABS engineering plastics, the size is set to be about 10 cm wide and about 18 cm long, the thickness of the front end is 0.5-1 cm, the rear end is set to be a long semicircular shell type wrist support 18 with the height of 1.5-2 cm, and the thickness of the shell is 2-2.5 mm. The upper surface of the front end of the mouse shell 4 is provided with two working area isolation belts 16 which are 0.1 cm higher than the shell and 0.1 cm in width, the upper part of the front end of the mouse shell 4 is divided into three working areas from left to right by the two working area isolation belts 16, three grooves are arranged side by side, a left pressure sensor 17 and a left touch panel 1 are embedded in the left groove, a middle touch panel 2 is embedded in the middle groove, a right pressure sensor 15 and a right touch panel 3 are embedded in the right groove, and the embedded front end of the mouse shell 4 is leveled with the upper surface of the front end of the mouse shell 4. The three wiring holes 20 are arranged below the three grooves of the mouse housing 4, the right touch panel and pressure sensor wiring 21, the left touch panel and pressure sensor wiring 27 and the middle touch panel wiring 22 penetrate through the wiring holes 20 to be connected with the three-in-one touch controller 23 arranged below the wrist rest 18, and the right touch panel and pressure sensor wiring 21, the left touch panel and pressure sensor wiring 27 and the middle touch panel wiring 22 are arranged in the corresponding right wiring groove 13, left wiring groove 10 and middle wiring groove 12, and the three-in-one touch controller 23 is arranged in the empty shell below the wrist rest 18 through screws. A battery 25 is arranged below the three-in-one touch controller 23, and the battery 25 is connected with the three-in-one touch controller 23 through a battery right lead 24 and a battery left lead 26. The left upper corner of the front end of the mouse shell 4 is provided with a key switch 7 which is connected with the three-in-one touch controller 23 through a key switch lead 28 and places the key switch lead 28 in the key switch wire slot 8. The upper right corner of the front end of the mouse shell 4 is provided with a working indicator lamp 5, the working indicator lamp is connected with a three-in-one touch controller 23 through an indicator lamp lead 19, and the indicator lamp lead 19 is arranged in the indicator lamp wire slot 14. The front end of the upper part of the mouse shell 4 is provided with a Bluetooth emitter 6 to the left, and a Bluetooth emitter flat cable 29 is arranged in the Bluetooth flat cable groove 11 and is connected with the three-in-one touch controller 23. The bottom of the mouse shell 4 is provided with a mouse back cover plate 9 which is fixed on the shell through screws.

The left touch panel, the middle touch panel and the right touch panel adopt capacitive touch screens, the left touch panel and the lower left pressure sensor are glued into a whole, the right touch panel and the lower right left pressure sensor are glued into a whole, the right touch panel and the lower left pressure sensor are glued into a whole, the left touch panel and the right touch panel are glued into the right groove of the mouse shell, the middle touch panel is glued into the middle groove of the shell, and the upper surface of the middle touch panel is kept flat. Thus, three areas are naturally formed, the left touch panel is set as a left working area to replace a left mouse button, the right touch panel is set as a right working area to replace a right mouse button, and the middle touch panel is set as a middle working area to replace a mouse wheel. The two working area isolation belts prevent the middle working area from sliding into the left working area and the right working area by mistake when the middle working area is in quick sliding operation. The three-in-one touch controller is responsible for collecting and calculating all operation signals of the mouse and transmitting data with a computer through the Bluetooth transmitter and the Bluetooth receiver shown in the attached drawing 7. The mouse is powered by two No. 7 batteries, the self-locking self-resetting key switch controls the on-off state, and the working state of the mouse is indicated by the on and off state of the working indicator lamp.

The right index finger slides and presses in the left working area to realize the traditional mouse cursor position movement and left click selection determination function. The touch pressure is the pressure given by the finger tip of the mouse operator to the touch panel, the touch pressure value is set to be a low pressure value and a high pressure value, the low pressure value range of the left pressure sensor is 0.5-1.5N, and the high pressure value range is 2-3.5N. The holding time is a time for holding the pressure of the fingertip against the touch panel, and the holding time is set in a range of 100ms to 500ms. The low pressure lower limit value 1N, the high pressure upper limit value 2.5N and the holding time 300ms are initially set. The operation mode of the left working area is to slide the finger tip up and down and left and right in the left working area (i.e. the left touch panel) and synchronously move the cursor on the computer screen up and down and left and right. When the fingertip slides on the left touch panel, a three-in-one mouse controller (hereinafter referred to as a controller) detects the pressure value of a left pressure sensor glued below the left touch panel, and if the pressure value is smaller than a set low pressure value, the controller continuously and circularly detects the pressure value and acquires a left touch panel position signal (namely cursor movement); if the detected pressure value is larger than the set low pressure value and larger than the set high pressure value, the controller sends a double-click left key selection instruction through the Bluetooth transmitter; if the detected pressure value is larger than the set low pressure value and smaller than the set high pressure value, the controller detects a position signal of the left touch panel, if the position coordinate moves to a certain direction, the controller sends out a dragging selection instruction and circularly detects the moving position, and when the controller detects that the position coordinate of the fingertip on the touch panel is not changed, namely the movement is finished, the controller sends out a dragging selection instruction for pressing a left key to start to move to a finishing moving area through the Bluetooth transmitter; if the detected pressure value is larger than the set low pressure value and smaller than the set high pressure value, the controller detects a position signal of the left touch panel, if the position is not moved, the internal timer of the controller starts to record the time of the finger tip to lightly touch the left touch panel and compare the time with the initial set holding time, and if the lightly touch pressure holding time is smaller than the set holding time, the controller circularly detects the lightly touch pressure and sends a cursor movement instruction only through the Bluetooth transmitter; if the light touch pressure holding time is longer than the set holding time, the controller sends a single click left key selecting instruction through the Bluetooth transmitter, the set holding time can effectively prevent misoperation, and the detailed operation process is shown in fig. 8. The touch pressure value (low pressure value and high pressure value) and the holding time can be finely adjusted when the computer sets the mouse parameters, so that the requirements of different users are met.

After the cursor position movement is finished, the right working area is pressed by the right-hand ring finger to realize the traditional right click determining function of the mouse. The operation mode of the right working area is that the finger tip is adopted to lightly touch the right working area and not move, the set range of the light touch pressure of the right pressure sensor is 1-3.5N, 2N is initially set, the controller detects the pressure value of the right pressure sensor, and if the pressure value is larger than the set pressure value, the controller sends a right click instruction through the Bluetooth transmitter; if the pressure value is smaller than the set pressure value, the operation is invalid, the controller does not output, and the right button of the traditional mouse is replaced. The touch pressure can be finely adjusted when the computer sets the mouse parameters, and the left and right working areas can be exchanged through the computer setting, so that the left and right hand exchange operation is convenient.

The middle finger of the right hand slides up and down in the middle working area, so that the function of the middle roller of the traditional mouse is realized. The middle working area has the operation mode of sliding the finger tip up and down to make the cursor of the computer screen move up and down and turn pages fast synchronously to replace the traditional middle mouse wheel.

Because the touch mouse is operated in a non-hand manner, the back of the hand of an operator does not have muscle contraction and force exertion for holding the mouse; the pressure of the finger tip touching the touch panel is far smaller than that of the mechanical key of the traditional mouse, and the operation is not limited to a certain finger, and the finger can be operated in a rotating way; simultaneously, the wrist support reduces the tension of the wrist of an operator from suspending to the wrist muscles. In summary, the mouse can greatly reduce or avoid various pains caused by wrists, dorsum of hands and fingers due to long-time use, and is very beneficial to study, work and life.

The above embodiments are merely for further illustration of the present invention, and are not intended to limit the present invention in any way, and all the corresponding changes and modifications made by the present invention should be included in the scope of the patent protection.

Claims (8)

1. A non-handheld touch mouse, characterized by: the whole appearance of mouse sets up to rectangle and is approximately slice structure, and two workspace median separates the front end upper portion of mouse shell from left to right into three working area and sets up three recess side by side, glues left touch panel and establishes left pressure sensor down and glue into a whole, inlays gluey in mouse shell left recess, and right touch panel glues into a whole with establishing right left pressure sensor down, inlays gluey in mouse shell right recess, in the middle recess of the gluey shell of well touch panel inlay, and trinity touch controller passes through the screw with its installation in wrist holds in the palm in the below empty shell.

2. The non-handheld touch mouse of claim 1, wherein: the tapping pressure setting range of the right pressure sensor is 1-3.5N, and the initial setting range is 2N. The fingertip is not moved when touching the right working area, the controller detects the pressure value of the right pressure sensor, and if the pressure value is larger than the set pressure value, the controller sends a right click command through the Bluetooth transmitter.

3. The non-handheld touch mouse of claim 1, wherein: the low pressure value range of the left pressure sensor is 0.5-1.5N, and the high pressure value range is 2-3.5N. The holding time is set in the range of 100ms to 500ms. The low pressure lower limit value 1N, the high pressure upper limit value 2.5N and the holding time 300ms are initially set. When the fingertip slides on the left touch panel, a three-in-one mouse controller (hereinafter referred to as a controller) detects the pressure value of the left pressure sensor glued below the left touch panel, and if the pressure value is smaller than a set low pressure value, the controller continues to circularly detect the pressure value and collect the position signal (namely cursor movement) of the left touch panel.

4. A non-handheld touch mouse according to claim 3, wherein: when the detected pressure value is larger than the set low pressure value and larger than the set high pressure value, the controller sends a double-click left key selection instruction through the Bluetooth transmitter.

5. A non-handheld touch mouse according to claim 3, wherein: when the detected pressure value is larger than the set low pressure value and smaller than the set high pressure value, the controller detects a position signal of the left touch panel, if the position coordinate moves to a certain direction, the controller sends out a dragging selection instruction and circularly detects the moving position, and when the controller detects that the position coordinate of the fingertip on the touch panel is not changed, namely the movement is finished, the controller sends out a dragging selection instruction for pressing the left key to start to move to a finishing movement area through the Bluetooth transmitter.

6. A non-handheld touch mouse according to claim 3, wherein: the detection pressure value is larger than the set low pressure value and smaller than the set high pressure value, the controller detects a position signal of the left touch panel, if the position is not moved, the internal timer of the controller starts to record the time of the finger tip to lightly touch the left touch panel and compare the time with the initial set holding time, and if the lightly touch pressure holding time is smaller than the set holding time, the controller circularly detects the lightly touch pressure and sends a cursor movement instruction only through the Bluetooth transmitter.

7. A non-handheld touch mouse according to claim 3, wherein: both the tapping pressure value (low pressure value and high pressure value) and the holding time can be finely adjusted when the computer sets the mouse parameters.

8. The non-handheld touch mouse of claim 6, wherein: if the light touch pressure holding time is longer than the set holding time, the controller sends a left click selection instruction through the Bluetooth transmitter.