CN113360012B - Remote quick response wireless sound control mouse based on electromagnetic coupling - Google Patents

Remote quick response wireless sound control mouse based on electromagnetic coupling Download PDF

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Publication number
CN113360012B
CN113360012B CN202110914527.5A CN202110914527A CN113360012B CN 113360012 B CN113360012 B CN 113360012B CN 202110914527 A CN202110914527 A CN 202110914527A CN 113360012 B CN113360012 B CN 113360012B
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side wall
movable cover
sound
electromagnetic coupling
penetrating manner
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CN113360012A (en
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李林玉
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Shenzhen Yinghaoke Industrial Co ltd
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Shenzhen Yinghaoke Industrial Co ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/033Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
    • G06F3/0354Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of 2D relative movements between the device, or an operating part thereof, and a plane or surface, e.g. 2D mice, trackballs, pens or pucks
    • G06F3/03543Mice or pucks
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/16Sound input; Sound output

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Health & Medical Sciences (AREA)
  • Audiology, Speech & Language Pathology (AREA)
  • General Health & Medical Sciences (AREA)
  • Position Input By Displaying (AREA)

Abstract

The invention relates to the technical field of mice and discloses a remote quick-response wireless voice-controlled mouse based on electromagnetic coupling. Be close to the inside wall this point that the movable cover attracted to through the electromagnetic field and be close to downwards, when the lateral wall department that smooth drum said contracts, the power that attracts can be lost to the inside wall department magnetite of movable cover, because the electromagnetic field surplus is less, the lateral wall swing that only can drive the movable cover, the marginal bottom of movable cover can switch over each other with the top side of supporter, the lateral wall department of movable cover can in time promote the propagation of air after the transmission of sound instruction, can make sound transmission when inside, can have the effect of air amplification, increase the accuracy of signal.

Description

Remote quick response wireless sound control mouse based on electromagnetic coupling
Technical Field
The invention relates to the technical field of mice, in particular to a remote quick response wireless sound control mouse based on electromagnetic coupling.
Background
In-process at long-time official working and online study, mouse can play the activity of enlargeing and reduce the webpage proportion, and assist the effect that the webpage scrolled the screen, make things convenient for the important auxiliary action that arrow and webpage selection removed in the screen, compare with wired mouse, wireless mouse does not receive the interference of line, a lot of restrictions have been lacked, can avoid receiving the trouble that cable lateral wall winding drove mouse and move by oneself in permanent operation, and acoustic control mouse has made things convenient for the speed that the in-service was realized more, convenient, but because the interference of air granule and distance in the environment, make the inaccurate situation of information identification appear at the in-process of received signal acoustic control mouse very easily, influence the course of work.
Disclosure of Invention
In order to solve the above problems, the present invention provides the following technical solutions: a wireless acoustic control mouse based on electromagnetic coupling and having remote quick response comprises a movable cover, wherein an inner side wall of the movable cover is movably connected with an electric storage switch mechanism, the electric storage switch mechanism is internally provided with a wave coil, a side wall of the wave coil is connected with a connecting rod in a penetrating manner, a bottom side wall of the wave coil is connected with a movable bin in a penetrating manner, the inner bottom end of the movable bin is connected with a soft shell in a penetrating manner and in a sliding manner, the bottom end of the movable bin is connected with a storage battery in a penetrating manner, a side wall of the connecting cable, which is far away from the wave coil, is movably connected with a sliding block, a side wall of the sliding block is connected with the inner side wall of the movable cover in a penetrating manner, the outer end of the sliding drum is connected with a butt joint channel in a penetrating manner, a bottom side wall of the sliding drum channel is connected with a supporting body in a penetrating manner, and a top side wall of the supporting body is connected with a fan rotating mechanism in a penetrating manner, the bottom through connection of supporter has carousel mechanism.
The magnet is attached to the inner side wall of the movable cover, the inner side wall of the movable cover is connected with the top side wall of the wave coil, when the side wall of the drum sliding channel bulges outwards, the inner battery is driven to move, so that the electromagnetic field is close to the inner side wall of the movable cover and attracts the inner side wall of the movable cover to be downwards close, and when the side wall of the drum sliding channel is contracted, the magnet on the inner side wall of the movable cover can lose attraction force;
because the electromagnetic field allowance is less, the side wall of the movable cover is driven to swing, the edge bottom end of the movable cover and the top side of the supporting body are mutually switched, and the side wall of the movable cover is positioned after the sound instruction is transmitted to timely push the air to be spread.
Preferably, the inside of rotating the fan mechanism includes the movable ring, and the bottom through connection of movable ring has folding bucket, and the inside axle center department through connection of movable ring has the commentaries on classics page or leaf, and the lateral wall department through connection of commentaries on classics page or leaf has the stack piece.
Preferably, the inside of carousel mechanism includes the thread slipping, and the top through connection of thread slipping has the backup pad, and the lateral wall department through connection of thread slipping has the base, and the inside wall department through connection of base has the filter screen.
Preferably, the bottom end of the outer side wall of the soft shell is connected to the axis of the inner side wall of the storage battery in a penetrating manner, and the soft shell extends downwards from the inner side wall of the storage battery and is inserted into the side wall gap of the drum sliding channel.
Preferably, the bottom end of the soft shell is slidably connected to a gap of a side wall of the drum sliding channel, and after the side wall of the soft shell is extruded, the side wall of the soft shell is in an inwards concave arc state and can be inserted into the gap of the side wall of the drum sliding channel.
Preferably, the side wall of the docking channel is connected to the side wall of the support body in a penetrating manner, the inner side wall of the docking channel is provided with a voice control sensor, and the side wall of the docking channel can receive transmission of voice information and transmit the voice information inwards along the side wall of the support body.
Preferably, the top side wall of the rotary vane is slidably connected to the inner side wall of the movable cover, and the top end of the rotary vane can abut against the inner side wall of the movable cover to slide.
Preferably, the top end of the supporting plate is connected to the bottom side wall of the supporting body in a penetrating manner, and the side wall of the supporting plate can be driven to retract inwards through the change of the side wall of the supporting body.
An electromagnetically coupled wireless voice-activated mouse system comprising: the system comprises a power control module, an information acquisition module and an information processing and outputting module:
the power control module includes: the LED lamp comprises a storage battery, an impedance matcher, a level converter, an LED lamp group, a key switch and an MCU circuit;
a storage battery: after the power switch is touched, the power supply in the storage battery can supply power;
impedance matcher: the high-frequency microwave signal can be transmitted to a load point, the signal can be prevented from being reflected and folded, and the use efficiency is improved;
a level converter: when the power supply is triggered to be started, current conversion is carried out in a standby state;
LED lamp group: after the power supply is started, the LED lamp set is lighted up and can be used as a prompt;
a key switch: after the switch is touched, the power supply can be switched on;
the MCU circuit: the real-time triggering of the signal, the rising and falling of the current can be controlled by the input port to maintain a stable state;
the information acquisition module includes: sound collection, a memory, sound control conversion, sound identification, sound control mapping and controlled equipment;
sound collection: the sound waves are transmitted to the interior of the equipment and can be collected;
a memory: the collected sound waves can be recorded and stored, so that the conversion and identification are convenient;
and (3) sound control conversion: converting the sound wave into a digital form for recognition so as to trigger the starting of other mechanisms;
and (3) voice recognition: extracting and selecting the voice print resolution strong and weak and stable language features for identification, and adopting digital information;
sound control mapping: sound waves are generated by sound vibration and impact on solid objects, so that control can be performed;
the controlled device: the sound waves impact the equipment to trigger the switch of the equipment;
the information processing output includes: the system comprises a communication interface, a feedback output, a signal filter, a wireless transceiver, a microprocessor and an output device;
a communication interface: a releasable received signal access port;
and (3) feedback output: outputting the received sound wave signals to enter the next step;
a signal filter: useful signals are separated from noise, and the anti-interference performance and the signal-to-noise ratio of the signals are improved;
wireless transceiving: information transfer can be carried out in a distance;
the microprocessor: executing the command of the digitalized information obtained by the sound decomposition in the previous step;
an output device: the resulting final command may be output.
Compared with the prior art, the invention provides a remote quick response wireless sound control mouse based on electromagnetic coupling, which has the following beneficial effects:
1. this wireless acoustic control mouse of remote quick response based on electromagnetic coupling, be close to the inside wall department of movable cover through the electromagnetic field, can attract this point of inside wall of movable cover to be close to downwards, when the lateral wall department that smooth drum said contracts, activity cover inside wall department magnetite can lose the power of attraction, because the electromagnetic field surplus is less, the lateral wall swing that only can drive the movable cover, the marginal bottom of movable cover can switch over each other with the top side of supporter, the lateral wall department of movable cover can in time promote the propagation of air after the transmission of sound instruction, can make when sound transmission to inside, can have the effect that the hollowing is enlargied, increase the accuracy of signal.
2. This wireless acoustic control mouse of remote quick response based on electromagnetic coupling, during the lateral wall swing through the movable cover, can beat the top of turning over the page or leaf, the lateral wall that turns over the page or leaf is pressed down and is promoted the inside wall of activity circle, the lateral wall that turns over the page or leaf promotes with the inside wall department of activity circle downwards, mutual block between the lateral wall of stack piece, thereby promote the outside rotatory expansion of lateral wall department of folding bucket, the lateral wall department extrusion smooth drum of folding bucket says, the lateral wall department that smooth drum said receives the extrusion, can make the circulation and promote the mobile state of sound wave.
3. This wireless acoustic control mouse of remote quick response based on electromagnetic coupling, the bottom through the lateral wall of movable cover strikes in the lateral wall department of supporter, and the side of supporter can extend downwards, can strike the inside wall of base, and the lateral wall department of base is to the lateral wall of inside deformation extrusion filter screen, and the lateral wall department of filter screen can be with the granule and the aqueous vapor absorption entering in the air that the lateral wall of movable cover swung out, can avoid it to form the interference.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view showing structural connections between relevant structures inside the electricity storage switch mechanism and the slipping path according to the present invention;
FIG. 3 is a top view of the connection of the internal structure of the fan rotating mechanism according to the present invention;
FIG. 4 is a diagram of a voice-activated mouse system according to the present invention.
In the figure: 1. a movable cover; 2. an electricity storage switch mechanism; 211. wave rolling; 212. a movable bin; 213. a storage battery; 214. a connecting rod; 215. a soft shell; 3. a connecting cable; 4. a slider; 5. a fan rotating mechanism; 511. a movable ring; 512. turning pages; 513. folding the barrel; 514. stacking sheets; 6. a drum sliding way; 601. butt joint channels; 7. a support body; 8. a turntable mechanism; 811. sliding and buckling; 812. a support plate; 813. a base; 814. and (5) filtering by using a filter screen.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The first embodiment is as follows:
referring to fig. 1-2, a remote quick response wireless voice-controlled mouse based on electromagnetic coupling comprises a movable cover 1, wherein an inner side wall of the movable cover 1 is movably connected with a power storage switch mechanism 2, the power storage switch mechanism 2 comprises a wave roll 211, a connecting rod 214 is movably connected with a side wall of the wave roll 211, a movable bin 212 is movably connected with a bottom side wall of the wave roll 211, the bottom end of the movable bin 212 is movably connected with a soft shell 215, a storage battery 213 is connected with the bottom end of the movable bin 212, a connecting cable 3 is movably connected with a side wall of the wave roll 211, one end of the connecting cable 3 far away from the wave roll 211 is movably connected with a slide block 4, the side wall of the slide block 4 is movably connected with an inner side wall of the movable cover 1, a slide drum channel 6 is connected with the bottom end of the power storage switch mechanism 2, an outer end of the slide drum channel 6 is connected with a butt channel 601, and a support body 7 is connected with the bottom side wall of the slide drum channel 6, the top lateral wall department through connection of supporter 7 has a commentaries on classics fan mechanism 5, and the bottom through connection of supporter 7 has carousel mechanism 8.
The bottom end of the outer side wall of the soft shell 215 is connected to the axis of the inner side wall of the battery 213, and the soft shell 215 extends downward from the inner side wall of the battery 213 and is inserted into the side wall gap of the pulley drum 6.
The bottom end of the soft shell 215 is slidably connected to the side wall gap of the drum runner 6, and after the side wall of the soft shell 215 is squeezed, the side wall of the soft shell 215 is in a concave arc state and can be inserted into the side wall gap of the drum runner 6.
The side wall of the pair of channels 601 is connected to the side wall of the support 7 in a penetrating manner, the inner side wall of the pair of channels 601 is provided with a voice control sensor, and the side wall of the pair of channels 601 can receive transmission of voice information and transmit the voice information inwards along the side wall of the support 7.
Because the magnetite is attached to the inside wall department of activity cover 1, and the inside wall of activity cover 1 is connected with the top lateral wall department that the wave was rolled up 211 again, can drive inside battery and remove when the lateral wall that smooth drum says 6 was outwards bloated to can make the electromagnetic field be close to the inside wall department of activity cover 1, this point of inside wall that can attract activity cover 1 is close to downwards, when the lateral wall department that smooth drum said 6 contracts, the power that attracts can be lost to the magnetite of activity cover 1 inside wall department.
Example two:
referring to fig. 1 and 3, a remote fast response wireless voice-controlled mouse based on electromagnetic coupling comprises a movable cover 1, an electricity storage and switch mechanism 2 is movably connected to the inner side wall of the movable cover 1, an electricity storage and switch mechanism 2 is internally provided with a wave roll 211, a connecting rod 214 is movably connected to the side wall of the wave roll 211, a movable cabin 212 is movably connected to the bottom side wall of the wave roll 211, the bottom end of the movable cabin 212 is movably connected with a soft shell 215, the bottom end of the movable cabin 212 is connected with a storage battery 213, a connecting cable 3 is movably connected to the side wall of the wave roll 211, a sliding block 4 is movably connected to one end of the connecting cable 3 far away from the wave roll 211, the side wall of the sliding block 4 is connected to the inner side wall of the movable cover 1, a sliding drum channel 6 is connected to the bottom end of the electricity storage and switch mechanism 2, a butt channel 601 is connected to the outer end of the sliding drum channel 6, and a support body 7 is connected to the bottom side wall of the sliding drum channel 6, the top lateral wall department through connection of supporter 7 changes a mechanism 5, the inside of rotating a mechanism 5 includes activity circle 511, the bottom through connection of activity circle 511 has folding bucket 513, the inside axle center department through connection of activity circle 511 has a commentaries on classics page or leaf 512, the lateral wall department through connection of commentaries on classics page or leaf 512 has stack piece 514, the bottom through connection of supporter 7 has carousel mechanism 8, the inside of carousel mechanism 8 includes thread slipping 811, the top through connection of thread slipping 811 has backup pad 812, the lateral wall department through connection of thread slipping 811 has base 813, the inside wall department through connection of base 813 has filter screen 814.
Wherein, the top side wall of the rotary blade 512 is slidably connected to the inner side wall of the movable cover 1, and the top end of the rotary blade 512 can abut against the inner side wall of the movable cover 1 to slide.
Wherein, the top end of the supporting plate 812 is connected to the bottom side wall of the supporting body 7 in a penetrating manner, and the change of the side wall of the supporting body 7 can drive the side wall of the supporting plate 812 to retract inwards.
The side wall of the rotary page 512 presses downwards and pushes the inner side wall of the movable ring 511, the side wall of the rotary page 512 pushes downwards and the inner side wall of the movable ring 511, the side walls of the superposed sheets 514 are clamped with each other, so that the side wall of the folding barrel 513 is pushed to rotate outwards and expand, and the side wall of the folding barrel 513 extrudes the side wall of the sliding drum way 6.
Example three:
referring to fig. 1-3, a remote quick response wireless voice-controlled mouse based on electromagnetic coupling comprises a movable cover 1, wherein an inner side wall of the movable cover 1 is movably connected with a power storage switch mechanism 2, the power storage switch mechanism 2 comprises a wave roll 211, a connecting rod 214 is movably connected with a side wall of the wave roll 211, a movable bin 212 is movably connected with a bottom side wall of the wave roll 211, the bottom end of the movable bin 212 is movably connected with a soft shell 215, a storage battery 213 is connected with the bottom end of the movable bin 212, a connecting cable 3 is movably connected with a side wall of the wave roll 211, one end of the connecting cable 3 far away from the wave roll 211 is movably connected with a slide block 4, the side wall of the slide block 4 is connected with an inner side wall of the movable cover 1, a slide drum channel 6 is connected with the bottom end of the power storage switch mechanism 2, an outer end of the slide drum channel 6 is connected with a butt channel 601, and a support body 7 is connected with the bottom side wall of the slide drum channel 6, the top lateral wall department through connection of supporter 7 has a commentaries on classics fan mechanism 5, and the bottom through connection of supporter 7 has carousel mechanism 8.
The inside of the fan rotating mechanism 5 comprises a movable ring 511, the bottom end of the movable ring 511 is connected with a folding barrel 513 in a penetrating manner, the inner axis of the movable ring 511 is connected with a rotating blade 512 in a penetrating manner, and the side wall of the rotating blade 512 is connected with a stacking sheet 514 in a penetrating manner.
The inside of the turntable mechanism 8 includes a slide fastener 811, the top end of the slide fastener 811 is connected with a support plate 812 in a penetrating manner, the side wall of the slide fastener 811 is connected with a base 813 in a penetrating manner, and the inner side wall of the base 813 is connected with a filter screen 814 in a penetrating manner.
The bottom end of the outer side wall of the soft shell 215 is connected to the axis of the inner side wall of the battery 213, and the soft shell 215 extends downward from the inner side wall of the battery 213 and is inserted into the side wall gap of the pulley drum 6.
The bottom end of the soft shell 215 is slidably connected to the side wall gap of the drum runner 6, and after the side wall of the soft shell 215 is squeezed, the side wall of the soft shell 215 is in a concave arc state and can be inserted into the side wall gap of the drum runner 6.
The side wall of the pair of channels 601 is connected to the side wall of the support 7 in a penetrating manner, the inner side wall of the pair of channels 601 is provided with a voice control sensor, and the side wall of the pair of channels 601 can receive transmission of voice information and transmit the voice information inwards along the side wall of the support 7.
Wherein, the top side wall of the rotary blade 512 is slidably connected to the inner side wall of the movable cover 1, and the top end of the rotary blade 512 can abut against the inner side wall of the movable cover 1 to slide.
Wherein, the top end of the supporting plate 812 is connected to the bottom side wall of the supporting body 7 in a penetrating manner, and the change of the side wall of the supporting body 7 can drive the side wall of the supporting plate 812 to retract inwards.
Example four:
referring to fig. 4, an electromagnetically coupled wireless voice-controlled mouse system includes: the system comprises a power control module, an information acquisition module and an information processing and outputting module:
the power control module includes: the LED lamp comprises a storage battery, an impedance matcher, a level converter, an LED lamp group, a key switch and an MCU circuit;
a storage battery: after the power switch is touched, the power supply in the storage battery can supply power;
impedance matcher: the high-frequency microwave signal can be transmitted to a load point, the signal can be prevented from being reflected and folded, and the use efficiency is improved;
a level converter: when the power supply is triggered to be started, current conversion is carried out in a standby state;
LED lamp group: after the power supply is started, the LED lamp set is lighted up and can be used as a prompt;
a key switch: after the switch is touched, the power supply can be switched on;
the MCU circuit: the real-time triggering of the signal, the rising and falling of the current can be controlled by the input port to maintain a stable state;
the information acquisition module includes: sound collection, a memory, sound control conversion, sound identification, sound control mapping and controlled equipment;
sound collection: the sound waves are transmitted to the interior of the equipment and can be collected;
a memory: the collected sound waves can be recorded and stored, so that the conversion and identification are convenient;
and (3) sound control conversion: converting the sound wave into a digital form for recognition so as to trigger the starting of other mechanisms;
and (3) voice recognition: extracting and selecting the voice print resolution strong and weak and stable language features for identification, and adopting digital information;
sound control mapping: sound waves are generated by sound vibration and impact on solid objects, so that control can be performed;
the controlled device: the sound waves impact the equipment to trigger the switch of the equipment;
the information processing output includes: the system comprises a communication interface, a feedback output, a signal filter, a wireless transceiver, a microprocessor and an output device;
a communication interface: a releasable received signal access port;
and (3) feedback output: outputting the received sound wave signals to enter the next step;
a signal filter: useful signals are separated from noise, and the anti-interference performance and the signal-to-noise ratio of the signals are improved;
wireless transceiving: information transfer can be carried out in a distance;
the microprocessor: executing the command of the digitalized information obtained by the sound decomposition in the previous step;
an output device: the resulting final command may be output.
The working principle is as follows: when in use, as shown in fig. 1-2, the sound control sensor is disposed at the inner side wall of the docking channel 601, so that the side wall of the docking channel 601 can receive the transmission of sound information, and directly reaches the side wall of the inner end of the slide drum channel 6 along the side wall of the docking channel 601, because the side wall of the slide drum channel 6 has a certain degree of swelling action due to the transmission of sound, the side wall of the slide drum channel 6 tends to bulge upward, because there is always a convex portion when the side wall of the slide drum channel 6 bulges upward, a gap appears at the surrounding portion, and the bulged portion of the side wall of the slide drum channel 6 at this time is pressed against the outer shell of the storage battery 213, the side wall of the storage battery 213 is pressed inward to compress the side wall of the soft shell 215, the side wall of the soft shell 215 is in an inward concave arc state, and extends downward from the inner side wall of the storage battery 213 and is inserted into the gap of the side wall of the slide drum channel 6, the power supply in the mouse can be switched on immediately, the current allowance sensed by the side wall of the sliding drum way 6 can generate a magnetic field to a certain degree, because the magnet is attached to the inner side wall of the movable cover 1, the inner side wall of the movable cover 1 is connected with the top side wall of the wave coil 211, when the side wall of the sliding drum way 6 is bulged outwards, the inner battery can be driven to move, so that the electromagnetic field is close to the inner side wall of the movable cover 1 and can be attracted to the point of the inner side wall of the movable cover 1 to be close downwards, when the side wall of the sliding drum way 6 is contracted, the magnet at the inner side wall of the movable cover 1 can lose attraction force, because the electromagnetic field allowance is small, only the side wall of the movable cover 1 can be driven to swing, the edge bottom end of the movable cover 1 can be mutually switched with the top side of the support body 7, the side wall of the movable cover 1 can timely push the air to be spread after the sound instruction is transmitted, and when the sound is transmitted to the inside, the hollow drum amplification function can be realized, and the accuracy of signals is improved;
as shown in fig. 1 and 3, when the side wall of the movable cover 1 swings, the side wall of the rotary blade 512 can be knocked at the top end of the rotary blade 512, the side wall of the rotary blade 512 presses downwards and pushes the inner side wall of the movable ring 511, the side wall of the rotary blade 512 pushes downwards and the inner side wall of the movable ring 511, the side walls of the overlapping pieces 514 are mutually clamped, so that the side wall of the folding bucket 513 is pushed to rotate outwards and expand, the side wall of the folding bucket 513 presses the side wall of the sliding drum way 6, and the side wall of the sliding drum way 6 is pressed, so that a state of circularly pushing sound waves to flow can be made;
when the bottom end of the side wall of the movable hood 1 is knocked at the side wall of the support body 7, the side edge of the support body 7 extends downwards and can impact the inner side wall of the base 813, the side wall of the base 813 deforms inwards to extrude the side wall of the filter screen 814, and the side wall of the filter screen 814 can absorb and enter particles and water vapor in the air swinging out from the side wall of the movable hood 1, so that interference caused by the particles and the water vapor can be avoided.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A wireless acoustic control mouse of remote quick response based on electromagnetic coupling, includes movable cover (1), its characterized in that: the inner side wall of the movable cover (1) is movably connected with an electricity storage switch mechanism (2), the electricity storage switch mechanism (2) comprises a wave roll (211), the side wall of the wave roll (211) is connected with a connecting rod (214) in a penetrating manner, the bottom side wall of the wave roll (211) is connected with a movable bin (212) in a penetrating manner, the bottom end of the interior of the movable bin (212) is connected with a soft shell (215) in a penetrating manner and in a sliding manner, the bottom end of the movable bin (212) is connected with a storage battery (213) in a penetrating manner, the side wall of the wave roll (211) is movably connected with a connecting cable (3), one end, far away from the wave roll (211), of the connecting cable (3) is movably connected with a sliding block (4), the side wall of the sliding block (4) is connected with the inner side wall of the movable cover (1) in a penetrating manner, the bottom end of the electricity storage switch mechanism (2) is connected with a sliding drum channel (6) in a penetrating manner, and the outer end of the sliding drum channel (6) is connected with a butt joint channel (601), a supporting body (7) is connected to the bottom side wall of the drum sliding channel (6) in a penetrating manner, a fan rotating mechanism (5) is connected to the top side wall of the supporting body (7) in a penetrating manner, and a turntable mechanism (8) is connected to the bottom end of the supporting body (7) in a penetrating manner;
the magnet is attached to the inner side wall of the movable cover (1), the inner side wall of the movable cover (1) is connected with the top side wall of the wave coil (211), when the side wall of the drum sliding channel (6) bulges outwards, the inner battery is driven to move, so that an electromagnetic field is close to the inner side wall of the movable cover (1), the point where the electromagnetic field is attracted to the inner side wall of the movable cover (1) is close downwards, and when the side wall of the drum sliding channel (6) is contracted, the magnet at the inner side wall of the movable cover (1) can lose attraction force;
the margin of the electromagnetic field is small, so that the side wall of the movable cover (1) is driven to swing, the edge bottom end of the movable cover (1) and the top side of the support body (7) are mutually switched, and the side wall of the movable cover (1) is positioned after the sound instruction is transmitted to timely push the air to be spread.
2. The wireless acoustic control mouse based on electromagnetic coupling for long-distance quick response as claimed in claim 1, wherein: the inside of rotating fan mechanism (5) includes activity circle (511), and the bottom through connection of activity circle (511) has folding bucket (513), and the inside axle center department through connection of activity circle (511) has a commentaries on classics page or leaf (512), and the lateral wall department through connection of commentaries on classics page or leaf (512) has stack piece (514).
3. The wireless acoustic control mouse based on electromagnetic coupling for long-distance quick response as claimed in claim 1, wherein: the inside of carousel mechanism (8) includes thread slipping (811), and the top through connection of thread slipping (811) has backup pad (812), and the lateral wall department through connection of thread slipping (811) has base (813), and the inside wall department through connection of base (813) has filter screen (814).
4. The wireless acoustic control mouse based on electromagnetic coupling for long-distance quick response as claimed in claim 1, wherein: the bottom end of the outer side wall of the soft shell (215) is connected to the axle center of the inner side wall of the storage battery (213) in a penetrating way.
5. The wireless acoustic control mouse based on electromagnetic coupling for long-distance quick response as claimed in claim 1, wherein: the bottom end of the soft shell (215) is connected to the side wall gap of the drum sliding channel (6) in a sliding mode.
6. The wireless acoustic control mouse based on electromagnetic coupling for long-distance quick response as claimed in claim 1, wherein: the side wall of the butt joint channel (601) is connected with the side wall of the support body (7) in a penetrating way.
7. The wireless acoustic control mouse based on electromagnetic coupling for long distance and quick response as claimed in claim 2, wherein: the top side wall of the rotary vane (512) is connected with the inner side wall of the movable cover (1) in a sliding way.
8. A remote fast response wireless voice-activated mouse based on electromagnetic coupling as claimed in claim 3 wherein: the top end of the supporting plate (812) is connected with the bottom side wall of the supporting body (7) in a penetrating way.
9. An electromagnetically coupled wireless voice-controlled mouse system applied to the electromagnetically coupled remote quick-response wireless voice-controlled mouse as claimed in any one of claims 1 to 8, comprising: the system comprises a power control module, an information acquisition module and an information processing and outputting module:
the power control module includes: the LED lamp comprises a storage battery, an impedance matcher, a level converter, an LED lamp group, a key switch and an MCU circuit;
a storage battery: after the power switch is touched, the power supply in the storage battery can supply power;
impedance matcher: the high-frequency microwave signal can be transmitted to a load point, the signal can be prevented from being reflected and folded, and the use efficiency is improved;
a level converter: when the power supply is triggered to be started, current conversion is carried out in a standby state;
LED lamp group: after the power supply is started, the LED lamp set is lighted up and can be used as a prompt;
a key switch: after the switch is touched, the power supply can be switched on;
the MCU circuit: the real-time triggering of the signal, the rising and falling of the current can be controlled by the input port to maintain a stable state;
the information acquisition module includes: sound collection, a memory, sound control conversion, sound identification, sound control mapping and controlled equipment;
sound collection: the sound waves are transmitted to the interior of the equipment and can be collected;
a memory: the collected sound waves can be recorded and stored, so that the conversion and identification are convenient;
and (3) sound control conversion: converting the sound wave into a digital form for recognition so as to trigger the starting of other mechanisms;
and (3) voice recognition: extracting and selecting the voice print resolution strong and weak and stable language features for identification, and adopting digital information;
sound control mapping: sound waves are generated by sound vibration and impact on solid objects, so that control can be performed;
the controlled device: the sound waves impact the equipment to trigger the switch of the equipment;
the information processing output includes: the system comprises a communication interface, a feedback output, a signal filter, a wireless transceiver, a microprocessor and an output device;
a communication interface: a releasable received signal access port;
and (3) feedback output: outputting the received sound wave signals to enter the next step;
a signal filter: useful signals are separated from noise, and the anti-interference performance and the signal-to-noise ratio of the signals are improved;
wireless transceiving: information transfer can be carried out in a distance;
the microprocessor: executing the command of the digitalized information obtained by the sound decomposition in the previous step;
an output device: the resulting final command may be output.
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