CN112799523B

CN112799523B - Energy-saving mouse

Info

Publication number: CN112799523B
Application number: CN202110310685.XA
Authority: CN
Inventors: 吕洋
Original assignee: Heilongjiang Chenfan Technology Co ltd
Current assignee: Heilongjiang Chenfan Technology Co ltd
Priority date: 2021-03-23
Filing date: 2021-03-23
Publication date: 2022-06-17
Anticipated expiration: 2041-03-23
Also published as: CN112799523A

Abstract

The invention provides an energy-saving mouse, which comprises: the device comprises a finger joint sleeve and a transmitter, wherein the transmitter is used for being inserted into a computer, and the finger joint sleeve is in communication connection with the transmitter; the finger joint cover includes: the bracelet, including bandage, power module and battery, the bandage is used for tying up in the wrist, and power module includes the receiver and accepts magnet, spring, the coil in the receiver, and the receiver is fixed in the bottom of bandage, and receiver and magnet are connected respectively to the both ends of spring, and the battery is fixed in on the bandage with coil electric connection, wherein, when the bracelet motion, magnet reciprocating motion under the traction of spring to generate current on the coil. The self-generating current can be used for supplying power to the self-charging induction mouse in the above mode.

Description

Energy-saving mouse

Technical Field

The invention relates to the technical field of mice, in particular to an energy-saving mouse.

Background

The mouse is generally used as a standard accessory of a computer for controlling the movement and clicking of an arrow so as to realize a specific function, and the power supply system of the mouse is generally a disposable battery or the electric quantity of a shared computer. The mouse is not suitable for outdoor emergency without power supply, and has the following disadvantages 1: is inconvenient to carry; 2: requiring a self-contained battery or additional power drain on the computer.

Disclosure of Invention

The invention aims to provide an energy-saving mouse, which solves the technical problem of self-charging of the mouse.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving mouse is provided, which comprises a mouse body,

the energy-saving mouse comprises: the device comprises a finger joint sleeve and a transmitter, wherein the transmitter is used for being inserted into a computer and is in communication connection with the transmitter; the finger joint cover includes:

the bracelet, including bandage, power module and battery, the bandage is used for tying up in the wrist, and power module includes the receiver and accepts magnet, spring, the coil in the receiver, and the receiver is fixed in the bottom of bandage, and receiver and magnet are connected respectively to the both ends of spring, and the battery is fixed in on the bandage with coil electric connection, wherein, when the bracelet motion, magnet reciprocating motion under the pulling of spring to produce the electric current on the coil.

Preferably, the finger joint sleeve comprises:

the fixing frame is used for being fixed on the palm;

the thumb joint is rotationally connected with the fixing frame, the thumb joint is used for being fixed on a thumb, and the thumb joint is used for detecting the action of the thumb and generating a mouse moving instruction;

the index finger joint, the middle finger joint and the ring finger joint are fixedly connected with the fixing frame and are used for abutting against the index finger, the middle finger and the ring finger respectively, the index finger joint is used for detecting the action of the index finger and generating a left key control command, the middle finger joint is used for detecting the action of the middle finger and generating a roller key control command, and the ring finger joint is used for detecting the action of the ring finger and generating a right key control command.

Preferably, the thumb joint comprises a first thumb joint, a second thumb joint, a third thumb joint, a fourth thumb joint and a fifth thumb joint, the first thumb joint is rotatably connected with the fixing frame, the second thumb joint is slidably connected with the first thumb joint, the third thumb joint is rotatably connected with the first thumb joint, the fourth thumb joint is rotatably connected with the third thumb joint and can be in a locked state relative to the third thumb joint, the fifth thumb joint is rotatably connected with the fourth thumb joint, the fifth thumb joint is used for being fixed on a thumb, and the thumb joint is used for detecting the action of the thumb and generating a mouse moving instruction.

Preferably, the forefinger festival includes first edible joint, the second edible joint, the third edible joint, fourth edible joint and fifth edible joint, first edible joint and mount fixed connection, the second edible joint and first edible joint sliding connection, the third edible joint rotates with first edible joint to be connected, the fourth edible joint rotates with the third edible joint to be connected and can be the lock status for the third edible joint, the fifth edible joint rotates with the fourth edible joint to be connected, the fifth edible joint is used for the butt pressure on the forefinger, the forefinger festival is used for detecting the action of forefinger and generates the left-hand key control instruction.

Preferably, the middle knuckle comprises a first middle joint, a second middle joint, a third middle joint, a fourth middle joint and a fifth middle joint, the first middle joint is fixedly connected with the fixing frame, the second middle joint is slidably connected with the first middle joint, the third middle joint is rotatably connected with the first middle joint, the fourth middle joint is rotatably connected with the third middle joint and can be in a locked state relative to the third middle joint, the fifth middle joint is rotatably connected with the fourth middle joint, the fifth middle joint is used for being pressed against the middle finger, and the middle knuckle is used for detecting the motion of the middle finger and generating a roller key control command.

Preferably, the ring finger joint comprises a first ring finger joint, a second ring finger joint, a third ring finger joint, a fourth ring finger joint and a fifth ring finger joint, the first ring finger joint is fixedly connected with the fixing frame, the second ring finger joint is slidably connected with the first ring finger joint, the third ring finger joint is rotatably connected with the first ring finger joint, the fourth ring finger joint is rotatably connected with the third ring finger joint and can be in a locking state relative to the third ring finger joint, the fifth ring finger joint is rotatably connected with the fourth ring finger joint and is used for pressing against the ring finger, and the ring finger joint is used for detecting the action of the ring finger and generating a right key control command.

Preferably, the finger joint sleeve comprises:

the control module is fixed on the binding belt and electrically connected with the battery, the control module is electrically connected with the thumb joint, the index finger joint, the middle finger joint and the ring finger joint respectively and used for acquiring the finger action information, and the control module is in communication connection with the transmitter.

Preferably, the finger joint sleeve further comprises a fixing box, the fixing box is detachably connected with the binding band, and the control module is placed in the fixing box.

Preferably, one of the fixing box and the binding band is provided with a mounting hole, the other one of the fixing box and the binding band is provided with a convex hull, and the convex hull is in interference fit with the mounting hole.

Preferably, one of the fixing box and the binding band is provided with a limiting groove, the other one of the fixing box and the binding band is provided with a limiting bulge, and the limiting bulge is inserted into the limiting groove.

Compared with the prior art, the invention has the following beneficial effects:

the finger joint cover of the present invention comprises: bracelet, mount, thumb festival, index finger festival, middle finger festival, third finger festival and control module. The bracelet includes bandage, power module and battery. The bandage is used for being bound on the wrist; the power generation module comprises a storage box and a magnet contained in the storage box, a spring and a coil, the storage box is fixed to the bottom of the binding band, the storage box and the magnet are connected to the two ends of the spring respectively, the magnet can swing along with a wrist in the storage box, the magnet extrudes or stretches the spring in the swinging process, the spring drives the magnet to move in the process of recovering deformation, and the coil reciprocates so that the coil continuously cuts magnetic lines of force generated by the magnet and then generates current in the coil, and the purpose of self-charging is achieved.

Drawings

FIG. 1 is a schematic structural diagram of an energy-saving mouse provided by the present invention;

FIG. 2 is a schematic cross-sectional structural diagram of an energy-saving mouse provided by the present invention;

FIG. 3 is an enlarged schematic view of region A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged schematic structural diagram of the energy-saving mouse provided by the present invention in the control module area;

FIG. 5 is a schematic cross-sectional view of an energy-saving mouse provided by the present invention in a thumb section area;

FIG. 6 is an enlarged schematic view of region A of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic cross-sectional view of an energy-saving mouse provided by the present invention in the knuckle area of the index finger;

fig. 8 is an enlarged schematic view of region B in fig. 7 according to the present invention.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

It is to be understood that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used in the generic and descriptive sense only and not for purposes of limitation, as the term is used in the generic and descriptive sense, and not for purposes of limitation, unless otherwise specified or implied, and the specific reference to a device or element is intended to be a reference to a particular element, structure, or component. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of an energy-saving mouse provided by the present invention, fig. 2 is a schematic sectional structural diagram of the energy-saving mouse provided by the present invention, and fig. 3 is an enlarged structural diagram of an area a in fig. 2 provided by the present invention.

The energy-saving mouse 100 of the invention simulates the working principle of the traditional mouse to realize the functions of mouse movement, left key, middle key and right key, and can also generate electricity to achieve the purpose of energy saving.

The energy-saving mouse 100 comprises a knuckle sleeve 10 and a transmitter 20, wherein the transmitter 20 is used for being inserted into a computer, and the knuckle sleeve 10 is in communication connection with the transmitter 20 so as to realize information interaction between the knuckle sleeve 10 and the transmitter 20.

The finger joint cover 10 of the present invention includes: the hand ring 16, the fixed frame 11, the thumb joint 12, the index finger joint 13, the middle finger joint 14, the ring finger joint 15 and the control module 17.

The bracelet 16 includes a strap 162, a power generation module 164, and a battery 166. Strap 162 is for wrapping around the wrist; the power generation module 164 comprises a storage box 167, a magnet 161, a spring 163 and a coil 165, wherein the magnet 161, the spring 163 and the coil 165 are contained in the storage box 167, the storage box 167 is fixed at the bottom of the binding band 162, two ends of the spring 163 are respectively connected with the storage box 167 and the magnet 161, the magnet 161 can swing along with the wrist in the storage box 167, the magnet 161 extrudes or stretches the spring 163 in the swinging process, the spring 163 drives the magnet 161 to move in the deformation recovery process, and the magnetic force lines generated by the magnet 161 are continuously cut by the coil 165 in a circulating reciprocating manner, so that current is generated in the coil 165, and the purpose of self-charging is achieved; the battery 166 is fixed on the strap 162 and electrically connected with the coil 165 and the gesture sensing module respectively, and the electric energy of the coil 165 can be received and stored by the electric connection of the battery 166 and the coil 165.

The fixing frame 11 is used for fixing on the palm.

The thumb joint 12 is connected with a thumb, the thumb joint 12 is used for detecting the motion of the thumb and generating a mouse moving instruction, the thumb joint 12 comprises a first thumb joint 121, a second thumb joint 122, a third thumb joint 123, a fourth thumb joint 124 and a fifth thumb joint 125, the first thumb joint 121 is rotatably connected with the fixing frame 11, the second thumb joint 122 is slidably connected with the first thumb joint 121, the third thumb joint 123 is rotatably connected with the first thumb joint 121, the fourth thumb joint 124 is rotatably connected with the third thumb joint 123 and can be in a locking state relative to the third thumb joint 123, the fifth thumb joint 125 is rotatably connected with the fourth thumb joint 124, and the fifth thumb joint 125 is used for being fixed on the thumb. The first thumb joint 121, the second thumb joint 122, the third thumb joint 123 and the fifth thumb joint 125 are matched with each other to achieve the purpose that the thumb joint 12 moves along with the thumb in the three-dimensional direction, so that the motion of the thumb is accurately detected, and a mouse moving instruction is generated. The fourth thumb joint 124 and the third thumb joint 123 are in a locked state when the mouse is used, that is, the fourth thumb joint 124 and the third thumb joint 123 are relatively fixed; when the mouse needs to be stored, the fourth thumb joint 124 can rotate relative to the third thumb joint 123, and the fifth thumb joint 125 is driven to be folded towards the fixing frame 11, so that the space occupied by the thumb joint 12 is reduced.

The index finger joint 13 is connected with the index finger, the index finger joint 13 is used for detecting the action of the index finger and generating a left-hand control command, the index finger joint 13 comprises a first food joint 131, a second food joint 132, a third food joint 133, a fourth food joint 134 and a fifth food joint 135, the first food joint 131 is fixedly connected with the fixing frame 11, the second food joint 132 is slidably connected with the first food joint 131, the third food joint 133 is rotatably connected with the first food joint 131, the fourth food joint 134 is rotatably connected with the third food joint 133 and can be in a locking state relative to the third food joint 133, the fifth food joint 135 is rotatably connected with the fourth food joint 134, and the fifth food joint 135 is used for abutting against the index finger. The first food joint 131, the second food joint 132, the third food joint 133 and the fifth food joint 135 are mutually matched to realize the purpose that the food knuckle 13 moves up and down along with the index finger, so that the action of the index finger is accurately detected, and a left mouse button instruction is generated; when the mouse needs to be stored, the fourth food joint 134 can rotate relative to the third food joint 133 to drive the fifth food joint 135 to be folded towards the fixing frame 11, so that the space occupied by the food knuckle 13 is reduced.

The middle knuckle 14 is connected with a middle finger, the middle knuckle 14 is used for detecting the motion of the middle finger and generating a middle key control command, the middle knuckle 14 comprises a first middle joint 141, a second middle joint 142, a third middle joint 143, a fourth middle joint 144 and a fifth middle joint 145, the first middle joint 141 is fixedly connected with the fixed frame 11, the second middle joint 142 is slidably connected with the first middle joint 141, the third middle joint 143 is rotatably connected with the first middle joint 141, the fourth middle joint 144 is rotatably connected with the third middle joint 143 and can be in a locking state relative to the third middle joint 143, the fifth middle joint 145 is rotatably connected with the fourth middle joint 144, the fifth middle joint 145 is used for pressing against the middle finger, and the middle knuckle 14 is used for detecting the motion of the middle finger and generating a roller key control command. The first middle joint 141, the second middle joint 142, the third middle joint 143 and the fifth middle joint 145 cooperate with each other to achieve the purpose that the middle knuckle 14 moves in the up-down direction along with the middle finger, so that the motion of the middle finger is accurately detected, and a mouse middle key instruction is generated; when the mouse needs to be stored, the fourth middle joint 144 can rotate relative to the third middle joint 143, and the fifth middle joint 145 is driven to be folded towards the fixing frame 11, so that the space occupied by the middle knuckle 14 is reduced.

The ring finger joint 15 is connected with a ring finger, the ring finger joint 15 is used for detecting the action of the ring finger and generating a right key control command, the ring finger joint 15 comprises a first ring finger joint 151, a second ring finger joint 152, a third ring finger joint 153, a fourth ring finger joint 154 and a fifth ring finger joint 155, the first ring finger joint 151 is fixedly connected with the fixed frame 11, the second ring finger joint 152 is connected with the first ring finger joint 151 in a sliding mode, the third ring finger joint 153 is connected with the first ring finger joint 151 in a rotating mode, the fourth ring finger joint 154 is connected with the third ring finger joint 153 in a rotating mode and can be in a locking state relative to the third ring finger joint 153, the fifth ring finger joint 155 is connected with the fourth ring finger joint 154 in a rotating mode, the fifth ring finger joint 155 is used for pressing against the ring finger, and the ring finger joint 15 is used for detecting the action of the ring finger and generating the right key control command. The first ring joint 151, the second ring joint 152, the third ring joint 153 and the fifth ring joint 155 are matched with each other to achieve the purpose that the ring knuckle 15 moves in the up-down direction along with the ring finger, so that the action of the ring finger is accurately detected, and a right mouse button instruction is generated; when the mouse needs to be stored, the fourth ring joint 154 can rotate relative to the third ring joint 153, and drives the fifth ring joint 155 to fold toward the fixing frame 11, so as to reduce the space occupied by the ring finger 15.

The control module 17 is fixed on the binding band 162 and electrically connected with the battery 166, the control module 17 is electrically connected with the thumb joint, the index joint, the middle joint and the ring joint respectively for acquiring the finger action information, and the control module 17 is in communication connection with the transmitter.

Referring to fig. 4, fig. 4 is an enlarged schematic structural diagram of the energy-saving mouse in the area of the control module 17 according to the present invention.

The finger joint sleeve 10 further comprises a fixing box 18, the fixing box 18 is detachably connected with the binding band 162, and the control module 17 is placed in the fixing box 18. After removal of the fixing box 18, the control module 17 can be removed as a whole for quick replacement and maintenance.

One of the fixing box 18 and the binding band 162 is provided with a mounting hole, the other of the fixing box 18 and the binding band 162 is provided with a convex hull 182, and the convex hull 182 is in interference fit with the mounting hole, so that the aim of disassembling and washing is fulfilled.

One of the fixing box 18 and the binding band 162 is provided with a limiting groove, the other of the fixing box 18 and the binding band 162 is provided with a limiting protrusion 184, and the limiting protrusion 184 is inserted into the limiting groove, so that the fixing box 18 is limited.

Referring to fig. 1, 5 and 6, fig. 5 is a schematic cross-sectional view of an energy-saving mouse 100 provided by the present invention in a thumb section 12 area, and fig. 6 is an enlarged schematic view of an area a in fig. 5 provided by the present invention.

The working principle of the thumb joint 12 is explained in detail below.

The first thumb joint 121 comprises a thumb base 1212, a first thumb disc 1214 and a first thumb sensor 1216, the thumb base 1212 is rotatably connected with the mounting bracket 11, the first thumb disc 1214 is fixed on the thumb base 1212, and the first thumb sensor 1216 is fixed on the mounting bracket 11 and faces the first thumb disc 1214. When the thumb base 1212 rotates with respect to the fixed mount 11, the first thumb wheel 1214 rotates with respect to the first thumb sensor 1216, and the movement information of the first thumb joint 121 is detected.

The second thumb joint 122 comprises a second thumb disc 1221, a second thumb spring 1223 and a second thumb sensor 1225, the second thumb disc 1221 is slidably connected with the thumb base 1212, one end of the second thumb spring 1223 is connected with the thumb base 1212, the other end of the second thumb spring 1223 is connected with the second thumb disc 1221, and the second thumb sensor 1225 is fixed on the thumb base 1212 and faces the second thumb disc 1221. When the second thumb wheel 1221 slides relative to the thumb base 1212, the second thumb wheel 1221 simultaneously slides relative to the second thumb sensor 1225, thereby detecting movement information of the second thumb wheel 1221, and the second thumb spring 1223 is connected to the second thumb wheel 1221 to assist in resetting the second thumb wheel 1221.

The third thumb joint 123 includes a third thumb link 1232, a third thumb spring 1234 and a third thumb locking pin 1236, the third thumb link 1232 is rotatably connected to the thumb base 1212 and is inserted into the second thumb disc 1221, the third thumb link 1232 is used to drive the second thumb disc 1221 to move, one end of the third thumb spring 1234 is connected to the third thumb link 1232, and the other end is connected to the third thumb locking pin 1236.

The fourth thumb joint 124 includes a fourth thumb link 1241 and a fourth thumb sensor 1243, the end of the fourth thumb link 1241 is provided with a plurality of fourth thumb limiting grooves, the fourth thumb link 1241 is rotatably connected to the third thumb link 1232, the third thumb locking pin 1236 is inserted into one of the plurality of fourth thumb limiting grooves when the energy saving mouse 100 is in use, so that the fourth thumb joint 124 is fixed with respect to the third thumb joint 123, when the energy saving mouse 100 needs to be folded, the third thumb locking pin 1236 is pressed to be separated from the fourth thumb limiting groove, so that the fourth thumb joint 124 rotates with respect to the third thumb joint 123, and the fourth thumb sensor 1243 is fixed to the other end of the fourth thumb link 1241.

The fifth thumb joint 125 includes a fifth thumb link 1252, a fifth thumb ring 1254 and a fifth thumb wheel 1256, one end of the fifth thumb link 1252 is pivotally connected to the fourth thumb link 1241, the other end of the fifth thumb link 1252 is connected to the fifth thumb ring 1254, the fifth thumb ring 1254 is adapted to be secured to the thumb, and the fifth thumb wheel 1256 is secured to the fifth thumb link 1252 towards the fourth thumb sensor 1243. When the fifth thumb link 1252 rotates relative to the fourth thumb link 1241, the fifth thumb wheel 1256 simultaneously rotates relative to the fourth thumb sensor 1243, thereby detecting movement information of the fifth thumb wheel 1256.

Through the principle, the first thumb joint 121, the second thumb joint 122, the third thumb joint 123 and the fifth thumb joint 125 are matched with each other to achieve the purpose that the thumb joint 12 moves along with the thumb in the three-dimensional direction, so that the movement of the thumb is accurately detected, and a mouse moving instruction is generated.

Referring to fig. 1, fig. 7 and fig. 8, fig. 7 is a schematic cross-sectional view of an energy-saving mouse 100 provided by the present invention in an area of an index finger joint 13, and fig. 8 is an enlarged schematic view of an area B in fig. 7 provided by the present invention.

The working principle of the knuckle 13 is explained in detail below.

The first food joint 131 comprises a food base 1312, and the food base 1312 is fixed on the fixing bracket 11 by a screw connection.

The second food joint 132 comprises a second food tray 1321, a second food spring 1323 and a second food sensor 1325, the second food tray 1321 is slidably connected with the food base 1312, one end of the second food spring 1323 is connected with the food base 1312, the other end of the second food spring is connected with the second food tray 1321, and the second food sensor 1325 is fixed on the food base 1312 and faces the second food tray 1321. When the second dial 1321 slides with respect to the base 1312, the second dial 1321 simultaneously slides with respect to the second motion sensor 1325 to detect the motion information of the second dial 1321, and the second dial 1323 is coupled to the second dial 1321 to assist the return of the second dial 1321.

The third food joint 133 includes a third food link 1332, a third food spring 1334 and a third locking pin 1336, the third food link 1332 is rotatably connected to the food base 1312 and is inserted into the second food tray 1321, the third food link 1332 is used for driving the second food tray 1321 to slide, one end of the third food spring 1334 is connected to the third food link 1332, and the other end is connected to the third locking pin 1336.

The fourth food joint 134 includes a fourth food link 1341 and a fourth food sensor 1343, a plurality of fourth food position-limiting grooves are formed at an end of the fourth food link 1341, the fourth food link 1341 is rotatably connected to the third food link 1332, the third food locking pin 1336 is inserted into one of the plurality of fourth food position-limiting grooves when the energy saving mouse 100 is used, so that the fourth food joint 134 is fixed with respect to the third food joint 133, the third food locking pin 1336 is pressed to be separated from the fourth food position-limiting groove when the energy saving mouse 100 needs to be folded, so that the fourth food joint 134 rotates with respect to the third food joint 133, and the fourth food sensor 1343 is fixed to the other end of the fourth food link 1341.

The fifth food joint 135 comprises a fifth food link 1352, a fifth food spring 1354 and a fifth food tray 1356, the fifth food link 1352 is rotatably connected with the fourth food link 1341, the fifth food spring 1354 is respectively connected with the fifth food link 1352 and the fourth food link 1341, the fifth food spring 1354 is used for elastically stretching the fifth food link 1352 to abut on the forefinger and keeping the abutting state between the fifth food link 1352 and the forefinger, and the fifth food tray 1356 is fixed on the fifth food link 1352 and faces the fourth food sensor 1343. When the fifth food link 1352 rotates relative to the fourth food link 1341, the fifth food tray 1356 simultaneously rotates relative to the fourth food sensor 1343, thereby sensing movement information of the fifth food tray 1356.

Through the above principle, the first food joint 131, the second food joint 132, the third food joint 133 and the fifth food joint 135 are mutually matched to achieve the purpose that the food knuckle 13 moves up and down along with the index finger, so that the action of the index finger is accurately detected, and a mouse left-hand control instruction is generated.

The working principle of the middle knuckle 14 is explained in detail below.

The first middle joint 141 includes a middle base 1412, and the middle base 1412 is fixed on the fixing frame 11 by a screw connection.

The second middle joint 142 includes a second middle code disc 1421, a second middle spring 1423 and a second middle sensor 1425, the second middle code disc 1421 is slidably connected with the middle base 1412, one end of the second middle spring 1423 is connected with the middle base 1412, the other end is connected with the second middle code disc 1421, and the second middle sensor 1425 is fixed on the middle base 1412 and faces the second middle code disc 1421. When the second center code wheel 1421 slides relative to the center base 1412, the second center code wheel 1421 simultaneously slides relative to the second center sensor 1425, so that the movement information of the second center code wheel 1421 is detected, and the second center spring 1423 is connected with the second center code wheel 1421 to help the second center code wheel 1421 to reset.

The third middle joint 143 includes a third middle link 1432, a third middle spring 1434 and a third middle locking pin 1436, the third middle link 1432 is rotatably connected with the middle base 1412 and is inserted into the second middle code disc 1421, the third middle link 1432 is used for driving the second middle code disc 1421 to slide, one end of the third middle spring 1434 is connected with the third middle link 1432, and the other end is connected with the third middle locking pin 1436.

The fourth middle joint 144 includes a fourth middle connecting rod 1441 and a fourth middle sensor 1443, a plurality of fourth middle limiting grooves are opened at an end of the fourth middle connecting rod 1441, the fourth middle connecting rod 1441 is rotatably connected to the third middle connecting rod 1432, when the energy-saving mouse 100 is used, the third middle locking pin 1436 is inserted into one of the plurality of fourth middle limiting grooves, so that the fourth middle joint 144 is fixed relative to the third middle joint 143, and when the energy-saving mouse 100 needs to be folded, the third middle locking pin 1436 is pressed to be separated from the fourth middle limiting groove, so that the fourth middle joint 144 rotates relative to the third middle joint 143, and the fourth middle sensor 1443 is fixed to the other end of the fourth middle connecting rod 1441.

The fifth middle joint 145 includes a fifth middle link 1452, a fifth middle spring 1454 and a fifth middle code disc 1456, the fifth middle link 1452 is rotatably connected to the fourth middle link 1441, the fifth middle spring 1454 is respectively connected to the fifth middle link 1452 and the fourth middle link 1441, the fifth middle spring 1454 is used for elastically stretching the fifth middle link 1452 to abut against the middle finger and maintaining the abutting state between the fifth middle link 1452 and the middle finger, and the fifth middle code disc 1456 is fixed on the fifth middle link 1452 to face the fourth middle sensor 1443. When the fifth middle link 1452 rotates with respect to the fourth middle link 1441, the fifth middle code wheel 1456 simultaneously rotates with respect to the fourth middle sensor 1443, thereby detecting movement information of the fifth middle code wheel 1456.

Through the above principle, the first middle joint 141, the second middle joint 142, the third middle joint 143 and the fifth middle joint 145 cooperate with each other to achieve the purpose that the middle knuckle 14 moves in the up-down direction following the middle finger, so as to accurately detect the motion of the middle finger and generate a mouse middle key control instruction.

The working principle of the ring finger 15 is explained in detail below.

The first anonymous joint 151 includes a anonymous base 1512, and the anonymous base 1512 is fixed on the fixing frame 11 by a screw connection.

The second ring joint 152 comprises a second ring code disc 1521, a second ring spring 1523 and a second ring sensor 1525, the second ring code disc 1521 is slidably connected with the ring base 1512, one end of the second ring spring 1523 is connected with the ring base 1512, the other end of the second ring spring 1523 is connected with the second ring code disc 1521, and the second ring sensor 1525 is fixed on the ring base 1512 and faces the second ring code disc 1521. When the second ring name plate 1521 slides relative to the ring name base 1512, the second ring name plate 1521 simultaneously slides relative to the second ring name sensor 1525, so that the movement information of the second ring name plate 1521 is detected, and the second ring name spring 1523 is connected with the second ring name plate 1521, so that the second ring name plate 1521 is helpful for resetting.

The third ring joint 153 includes a third ring link 1532, a third ring spring 1534 and a third ring locking pin 1536, the third ring link 1532 is rotatably connected to the ring base 1512 and is inserted into the second ring plate 1521, the third ring link 1532 is configured to slide the second ring plate 1521, and the third ring spring 1534 has one end connected to the third ring link 1532 and the other end connected to the third ring locking pin 1536.

The fourth ring joint 154 includes a fourth ring link 1541 and a fourth ring sensor 1543, a plurality of fourth ring limiting grooves are formed at an end of the fourth ring link 1541, the fourth ring link 1541 is rotatably connected to the third ring link 1532, the third ring locking pin 1536 is inserted into one of the plurality of fourth ring limiting grooves when the energy-saving mouse 100 is used, so that the fourth ring joint 154 is fixed to the third ring joint 153, the third ring locking pin 1536 is pressed away from the fourth ring limiting groove when the energy-saving mouse 100 needs to be folded, so that the fourth ring joint 154 rotates with respect to the third ring joint 153, and the fourth ring sensor 1543 is fixed to the other end of the fourth ring link 1541.

The fifth ring joint 155 comprises a fifth ring link 1552, a fifth ring spring 1554 and a fifth ring code disc 1556, the fifth ring link 1552 is rotatably connected with a fourth ring link 1541, the fifth ring spring 1554 is respectively connected with the fifth ring link 1552 and the fourth ring link 1541, the fifth ring spring 1554 is used for elastically stretching the fifth ring link 1552 to abut against a ring finger and keeping the abutting state between the fifth ring link 1552 and the ring finger, and the fifth ring code disc 1556 is fixed on the fifth ring link 1552 and faces towards a fourth ring sensor 1543. When the fifth ring link 1552 rotates with respect to the fourth ring link 1541, the fifth ring plate 1556 simultaneously rotates with respect to the fourth ring sensor 1543, and thus movement information of the fifth ring plate 1556 is detected.

Through the above principle, the first ring joint 151, the second ring joint 152, the third ring joint 153 and the fifth ring joint 155 are mutually matched to achieve the purpose that the ring finger joint 15 moves in the vertical direction along with the ring finger, so that the motion of the ring finger is accurately detected, and a mouse right key control command is generated.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention have been described herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. It should be noted that there are no specific structures but rather a few limitations to the preferred embodiments of the present invention, and that those skilled in the art can make various changes, modifications and alterations without departing from the spirit and scope of the invention; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims

1. A power saving mouse (100), the power saving mouse (100) comprising: the device comprises a knuckle sleeve (10) and a transmitter (20), wherein the transmitter (20) is used for being inserted into a computer, and the knuckle sleeve (10) is in communication connection with the transmitter (20); the knuckle sleeve (10) comprises:

a bracelet (16) comprising a strap (162), a power generation module (164) and a battery (166), wherein the strap (162) is used for being tied on the wrist, the power generation module (164) comprises a storage box (167), and a magnet (161), a spring (163) and a coil (165) which are contained in the storage box (167), the storage box (167) is fixed at the bottom of the strap (162), two ends of the spring (163) are respectively connected with the storage box (167) and the magnet (161), and the battery (166) is fixed on the strap (162) and is electrically connected with the coil (165), wherein when the bracelet (16) moves, the magnet (161) reciprocates under the traction of the spring (163), so that current is generated on the coil (165);

wherein the knuckle sleeve (10) comprises:

a fixing frame (11) for fixing on the palm;

the thumb joint (12) is rotationally connected with the fixing frame (11), the thumb joint (12) is used for being fixed on a thumb, and the thumb joint (12) is used for detecting the action of the thumb and generating a mouse moving instruction;

the index finger joint (13), the middle finger joint (14) and the ring finger joint (15) are respectively and fixedly connected with the fixing frame (11) and are respectively used for abutting against the index finger, the middle finger and the ring finger, the index finger joint (13) is used for detecting the action of the index finger and generating a left key control command, the middle finger joint (14) is used for detecting the action of the middle finger and generating a roller key control command, and the ring finger joint (15) is used for detecting the action of the ring finger and generating a right key control command;

wherein the thumb joint (12) comprises a first thumb joint (121), a second thumb joint (122), a third thumb joint (123), a fourth thumb joint (124) and a fifth thumb joint (125), the first thumb joint (121) is rotatably connected with the fixing frame (11), the second thumb joint (122) is slidably connected with the first thumb joint (121), the third thumb joint (123) is rotatably connected with the first thumb joint (121), the fourth thumb joint (124) is rotatably connected with the third thumb joint (123) and can be in a locking state relative to the third thumb joint (123), the fifth thumb joint (125) is rotatably connected with the fourth thumb joint (124), the fifth thumb joint (125) is used for being fixed on the thumb joint, and the thumb joint (12) is used for detecting the motion of the thumb and generating a mouse moving instruction;

wherein the first thumb joint (121) comprises a thumb base (1212), a first thumb disc (1214) and a first thumb sensor (1216), the thumb base (1212) is rotatably connected with the fixing frame (11), the first thumb disc (1214) is fixed on the thumb base (1212), and the first thumb sensor (1216) is fixed on the fixing frame (11) and faces the first thumb disc (1214);

the second thumb joint (122) comprises a second thumb code disc (1221), a second thumb spring (1223) and a second thumb sensor (1225), the second thumb code disc (1221) is connected with the thumb base (1212) in a sliding mode, one end of the second thumb spring (1223) is connected with the thumb base (1212), the other end of the second thumb spring is connected with the second thumb code disc (1221), and the second thumb sensor (1225) is fixed to the thumb base (1212) and faces the second thumb code disc (1221);

the third thumb joint (123) comprises a third thumb link (1232), a third thumb spring (1234) and a third thumb locking pin (1236), the third thumb link (1232) is rotatably connected with the thumb base (1212) and is inserted into the second thumb disc (1221), one end of the third thumb spring (1234) is connected with the third thumb link (1232), and the other end of the third thumb spring is connected with the third thumb locking pin (1236);

the fourth thumb joint (124) comprises a fourth thumb connecting rod (1241) and a fourth thumb sensor (1243), a plurality of fourth thumb limiting grooves are formed in the end of the fourth thumb connecting rod (1241), the fourth thumb connecting rod (1241) is rotatably connected with the third thumb connecting rod (1232), the third thumb locking pin (1236) is inserted into one of the plurality of fourth thumb limiting grooves when the energy-saving mouse (100) is used, the third thumb locking pin (1236) is pressed to be separated from the fourth thumb limiting groove when the energy-saving mouse (100) needs to be folded, and the fourth thumb sensor (1243) is fixed at the other end of the fourth thumb connecting rod (1241);

the fifth thumb joint (125) comprises a fifth thumb link (1252), a fifth thumb ring (1254) and a fifth thumb disc (1256), one end of the fifth thumb link (1252) is rotatably connected with the fourth thumb link (1241), the other end of the fifth thumb link (1252) is connected with the fifth thumb ring (1254), the fifth thumb ring (1254) is used for being fixed on a thumb, and the fifth thumb disc (1256) is fixed on the fifth thumb link (1252) and faces the fourth thumb sensor (1243).

2. The power-saving mouse (100) of claim 1,

the food knuckle (13) comprises a first food joint (131), a second food joint (132), a third food joint (133), a fourth food joint (134) and a fifth food joint (135), the first food joint (131) is fixedly connected with the fixing frame (11), the second food joint (132) is in sliding connection with the first food joint (131), the third food joint (133) is in rotating connection with the first food joint (131), the fourth food joint (134) is in rotating connection with the third food joint (133) and can be in a locking state relative to the third food joint (133), the fifth food joint (135) is in rotating connection with the fourth food joint (134), the fifth food joint (135) is used for abutting against the index finger, and the food knuckle (13) is used for detecting the action of the index finger and generating a left-hand control command.

3. The power-saving mouse (100) of claim 1,

the middle knuckle (14) comprises a first middle joint (141), a second middle joint (142), a third middle joint (143), a fourth middle joint (144) and a fifth middle joint (145), the first middle joint (141) is fixedly connected with the fixing frame (11), the second middle joint (142) is connected with the first middle joint (141) in a sliding mode, the third middle joint (143) is connected with the first middle joint (141) in a rotating mode, the fourth middle joint (144) is connected with the third middle joint (143) in a rotating mode and can be in a locking state relative to the third middle joint (143), the fifth middle joint (145) is connected with the fourth middle joint (144) in a rotating mode, the fifth middle joint (145) is used for pressing against the middle finger, and the middle knuckle (14) is used for detecting the action of the middle finger and generating a roller key control command.

4. The power saving mouse (100) of claim 1,

the ring finger joint (15) comprises a first ring finger joint (151), a second ring finger joint (152), a third ring finger joint (153), a fourth ring finger joint (154) and a fifth ring finger joint (155), the first unknown joint (151) is fixedly connected with the fixed frame (11), the second unknown joint (152) is connected with the first unknown joint (151) in a sliding way, the third unknown joint (153) is rotationally connected with the first unknown joint (151), the fourth ring joint (154) is rotatably connected to the third ring joint (153) and can be locked to the third ring joint (153), the fifth unknown joint (155) is rotationally connected with the fourth unknown joint (154), the fifth ring joint (155) is used for pressing against a ring finger, and the ring finger joint (15) is used for detecting the action of the ring finger and generating a right key control instruction.

5. The power-saving mouse (100) according to claim 1, wherein the knuckle sleeve (10) comprises:

the control module (17) is fixed on the binding band (162) and electrically connected with the battery (166), the control module (17) is electrically connected with the thumb joint (12), the index finger joint (13), the middle finger joint (14) and the ring finger joint (15) respectively and used for acquiring finger action information, and the control module (17) is in communication connection with the transmitter (20).

6. The energy-saving mouse (100) according to claim 5, wherein the finger joint sleeve (10) further comprises a fixing box (18), the fixing box (18) is detachably connected with the binding band (162), and the control module (17) is placed in the fixing box (18).

7. The energy-saving mouse (100) according to claim 6, wherein one of the fixing box (18) and the strap (162) is provided with a mounting hole, and the other of the fixing box (18) and the strap (162) is provided with a convex hull (182), wherein the convex hull (182) is in interference fit with the mounting hole.

8. The energy-saving mouse (100) according to claim 6, wherein one of the fixing box (18) and the strap (162) is provided with a limiting groove, and the other of the fixing box (18) and the strap (162) is provided with a limiting protrusion (184), wherein the limiting protrusion (184) is inserted into the limiting groove.