CN109511627B - Mosquito killing gloves and mosquito killing method thereof - Google Patents

Abstract

The utility model relates to a mosquito killing glove, including gloves main part, gloves main part includes five finger parts and palm part, two liang of adjacent departments of five finger parts are provided with mosquito-lured lamp and response electric energy generation module, response electric energy generation module rocks around according to five fingers, produces the response electric energy, gives the power supply of mosquito-lured lamp still includes the controller, the controller detects rocking of finger, lights mosquito-lured lamp. This application can rock control mosquito-lured lamp according to the finger and lure the mosquito, makes things convenient for people to find the mosquito fast and pat.

Description

Mosquito killing gloves and mosquito killing method thereof

Technical Field

The invention belongs to the technical field of articles for daily use, and particularly relates to mosquito killing gloves and a mosquito killing method thereof.

Background

In the prior art, mosquito killing devices are very numerous and are widely used in life, but no matter the devices made of mosquito killing agents, mosquito coils or mosquito-lured lamps have certain defects more or less, mosquitoes cannot be completely killed, if the mosquito coils are used, harmful chemicals can be generated, and harmful effects can be generated on children or allergic people; for mosquito killing products, when people use the electronic high-voltage mosquito and fly killing swatter to kill flies and mosquitoes flying in the air, the high-voltage discharge phenomenon generated by electric shock on the flies and the mosquitoes can emit sound and light which are harsh, the electricity is consumed, and the danger of electric shock also exists. Also, mosquito swatters are difficult to use in mosquito nets or confined areas.

Disclosure of Invention

The invention aims to provide a device and a method for killing mosquitoes by attracting mosquitoes in a narrow range, provides physical mosquito killing, and provides convenience for people to kill mosquitoes in a trip or a narrow range.

In order to solve the technical problems: the application provides a kill mosquito gloves, including gloves main part, gloves main part includes five finger parts and palm part, two liang of adjacent departments of five finger parts are provided with mosquito-lured lamp and response electric energy generation module, response electric energy generation module rocks around according to five fingers, produces the response electric energy, gives the power supply of mosquito-lured lamp still includes the controller, the controller detects rocking of finger, lights mosquito-lured lamp.

Mosquito eradication gloves, still include the sheet battery, the sheet battery sets up in the palm part, the sheet battery can be followed induction power generation module acquires the electric energy, perhaps charges from the charger.

The mosquito killing glove is characterized in that a palm motion sensor is arranged in the palm component, the palm motion sensor detects the motion direction and the motion speed of a palm and transmits the motion direction and the motion speed to the controller, the controller sets a first motion speed threshold and a second motion speed threshold, and when the motion speed is lower than the first motion speed threshold, the mosquito trapping lamp is kept in a fully-lighted state; when the movement speed is between a first movement speed threshold and a second movement speed threshold, judging the movement direction, calculating the single movement time of the palm in a single movement direction, calculating the single movement displacement of the palm according to the movement time, if the displacement is greater than the first displacement threshold, closing half of the mosquito-luring lamps at intervals, and if the displacement is less than the first displacement threshold, closing all the mosquito-luring lamps; and when the moving speed is higher than a second moving speed threshold value, turning off all the mosquito luring lamps.

The mosquito killing glove is characterized in that the second movement speed threshold is larger than the first movement speed threshold.

The mosquito killing glove adopts 365-.

The mosquito killing glove further comprises a finger shaking sensor, the finger shaking sensor is used for detecting shaking of fingers and transmitting detected signals to the controller, and the controller lights the mosquito attracting lamp according to the received signals that the fingers shake.

Mosquito eradication gloves, still include induction electric energy detecting element, induction electric energy detecting element detects whether the induction electric energy generation module produces the electric energy, if produce the electric energy, then send a pulse signal and give the controller, the controller is according to receiving pulse signal lights the mosquito luring lamp.

In the mosquito killing glove, the five finger parts are provided with first supporting pieces, and the first supporting pieces are used for supporting and fixing the induction electric energy generation module, the finger shaking sensor and the induction electric energy detection unit; and a second supporting piece is arranged in the palm component and used for supporting and fixing the sheet-shaped battery, the controller and the palm motion sensor.

Mosquito eradication gloves, first support piece is provided with the shielding layer, the shielding layer is used for shielding the electromagnetic signal of response generation module leaks.

A mosquito killing method, which uses the mosquito killing glove, comprises the following steps: shaking the fingers, and outputting a finger shaking signal to the controller; the controller outputs a control signal to light the mosquito-lured lamp; detecting the motion state of the palm, judging that the palm is in a mosquito flapping state, and turning off the mosquito trapping lamp;

the detection of the palm motion state uses the palm motion sensor to detect, and specifically comprises: detecting the moving direction and the moving speed of a palm by using a palm moving sensor, transmitting the moving direction and the moving speed to the controller, setting a first moving speed threshold and a second moving speed threshold by the controller, and keeping the mosquito luring lamp in a fully lighted state when the moving speed is lower than the first moving speed threshold; when the movement speed is between a first movement speed threshold and a second movement speed threshold, judging the movement direction, calculating the single movement time of the palm in a single movement direction, calculating the single movement displacement of the palm according to the movement time, if the displacement is greater than the first displacement threshold, closing half of the mosquito-luring lamps at intervals, and if the displacement is less than the first displacement threshold, closing all the mosquito-luring lamps; and when the moving speed is higher than a second moving speed threshold value, turning off all the mosquito luring lamps.

The 365-375 nanometer optical wave which is liked by mosquitoes is used for inducing mosquitoes in partial areas to be close to the light source, so that people can quickly find out the mosquito net or the mosquitoes in limited areas to flap and kill the mosquitoes; preventing mosquitoes in a mosquito net or confined area from being undetected and biting a child or sleeping person; the electric energy can be generated according to various detection finger shaking states, the electric energy is provided for the mosquito-lured lamp, a control signal for lighting the mosquito-lured lamp is generated according to finger shaking, the motion direction and the motion speed of the palm are detected, the palm is judged to be in a mosquito beating state, the mosquito-lured lamp is controlled to be self-adaptive to be closed, and the electric energy is saved.

Drawings

FIG. 1 is a schematic view of the overall structure of the mosquito-killing glove of the invention.

FIG. 2 is a schematic view of the mosquito eradication method according to the present invention.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

As shown in figure 1, the overall structure of the mosquito killing glove is schematically shown.

The application provides a kill mosquito gloves, including gloves main part, gloves main part includes five finger parts and palm part, two liang of adjacent departments of five finger parts are provided with mosquito-lured lamp and response electric energy generation module, response electric energy generation module rocks around according to five fingers, produces the response electric energy, gives the power supply of mosquito-lured lamp still includes the controller, the controller detects rocking of finger, lights mosquito-lured lamp.

Mosquito eradication gloves, still include the sheet battery, the sheet battery sets up in the palm part, the sheet battery can be followed induction power generation module acquires the electric energy, perhaps charges from the charger.

The mosquito killing glove is characterized in that a palm motion sensor is arranged in the palm component, the palm motion sensor detects the motion direction and the motion speed of a palm and transmits the motion direction and the motion speed to the controller, the controller sets a first motion speed threshold and a second motion speed threshold, and when the motion speed is lower than the first motion speed threshold, the mosquito trapping lamp is kept in a fully-lighted state; when the movement speed is between a first movement speed threshold and a second movement speed threshold, judging the movement direction, calculating the single movement time of the palm in a single movement direction, calculating the single movement displacement of the palm according to the movement time, if the displacement is greater than the first displacement threshold, closing half of the mosquito-luring lamps at intervals, and if the displacement is less than the first displacement threshold, closing all the mosquito-luring lamps; and when the moving speed is higher than a second moving speed threshold value, turning off all the mosquito luring lamps.

The mosquito killing glove is characterized in that the second movement speed threshold is larger than the first movement speed threshold.

The mosquito killing glove adopts 365-.

The mosquito killing glove further comprises a finger shaking sensor, the finger shaking sensor is used for detecting shaking of fingers and transmitting detected signals to the controller, and the controller lights the mosquito attracting lamp according to the received signals that the fingers shake.

Mosquito eradication gloves, still include induction electric energy detecting element, induction electric energy detecting element detects whether the induction electric energy generation module produces the electric energy, if produce the electric energy, then send a pulse signal and give the controller, the controller is according to receiving pulse signal lights the mosquito luring lamp.

In the mosquito killing glove, the five finger parts are provided with first supporting pieces, and the first supporting pieces are used for supporting and fixing the induction electric energy generation module, the finger shaking sensor and the induction electric energy detection unit; and a second supporting piece is arranged in the palm component and used for supporting and fixing the sheet-shaped battery, the controller and the palm motion sensor.

Mosquito eradication gloves, first support piece is provided with the shielding layer, the shielding layer is used for shielding the electromagnetic signal of response generation module leaks.

The glove is made of polyester fabric, and the base material is composed of polyester and conductive fibers. The first supporting piece and the second supporting piece are fixed in the glove through at least two layers of polyester cloth materials.

As shown in FIG. 2, the mosquito killing method of the present invention is schematically shown. A mosquito killing method, which uses the mosquito killing glove, comprises the following steps: shaking the fingers, and outputting a finger shaking signal to the controller; the controller outputs a control signal to light the mosquito-lured lamp; detecting the motion state of the palm, judging that the palm is in a mosquito flapping state, and turning off the mosquito trapping lamp.

The mosquito-lured lamp uses SMD LED lamp, sets up between the finger joint of finger part, can set up two rows of mosquito-lured lamps respectively in the finger joint both sides of every finger, the induction energy generation module with the mosquito-lured lamp interval sets up, uses flat coil, through rocking each other between the finger, produces the effect of two magnetic field of cutting's power, through the effect in above-mentioned magnetic field of cutting, produces induction magnetic field force to this judges that the finger is moving, and produces the electric energy of supplying the mosquito-lured lamp. The mosquito is attracted by the mosquito attracting lamp, so that the mosquito net or the mosquitoes in a limited small area can be found quickly, and a user can conveniently flap the mosquitoes.

The detection of the palm motion state uses the palm motion sensor to detect, and specifically comprises: detecting the moving direction and the moving speed of a palm by using a palm moving sensor, transmitting the moving direction and the moving speed to the controller, setting a first moving speed threshold and a second moving speed threshold by the controller, and keeping the mosquito luring lamp in a fully lighted state when the moving speed is lower than the first moving speed threshold; when the movement speed is between a first movement speed threshold and a second movement speed threshold, judging the movement direction, calculating the single movement time of the palm in a single movement direction, calculating the single movement displacement of the palm according to the movement time, if the displacement is greater than the first displacement threshold, closing half of the mosquito-luring lamps at intervals, and if the displacement is less than the first displacement threshold, closing all the mosquito-luring lamps; and when the moving speed is higher than a second moving speed threshold value, turning off all the mosquito luring lamps.

Judge through direction of motion and speed that the palm is in clapping the mosquito state, still can lure the mosquito stage, can carry out accurate area according to speed and direction and time the active state of the palm of gloves when carrying out the palm state of clapping, in time close the mosquito-luring lamp, save the electric energy.

The mosquito-lured glove comprises at least three invention points, namely, a mosquito-lured lamp is arranged in the glove, so that mosquitoes can be lured to flap in a mosquito net or a narrow limited area; the second, judge the palm motion direction and judge the palm and pat the mosquito stage, in time close the mosquito-lured lamp, save the electric energy, the third rocks each other through the finger, forms the magnetic field response and carries out the response electricity generation to control the mosquito-lured lamp and light according to response electricity generation or finger shake signal.

The 365-375 nanometer optical waves favored by mosquitoes are used, so that the mosquitoes are conveniently and quickly induced, and the mosquitoes in partial areas are attracted to be close to the light source, so that people can quickly find the mosquito net or the mosquitoes in limited areas to flap and kill the mosquitoes; preventing mosquitoes in a mosquito net or confined area from being undetected and biting a child or sleeping person; the electric energy can be generated according to various detection finger shaking states, the electric energy is provided for the mosquito-lured lamp, a control signal for lighting the mosquito-lured lamp is generated according to finger shaking, the motion direction and the motion speed of the palm are detected, the palm is judged to be in a mosquito beating state, the mosquito-lured lamp is controlled to be self-adaptive to be closed, and the electric energy is saved.

Claims (9)

1. A mosquito killing glove comprises a glove main body part, wherein the glove main body part comprises five finger parts and a palm part, and is characterized in that mosquito trapping lamps and induction electric energy generation modules are arranged at the adjacent positions of every two of the five finger parts, the induction electric energy generation modules generate induction electric energy according to the forward and backward shaking of the five fingers to supply power to the mosquito trapping lamps, and the mosquito killing glove further comprises a controller, wherein the controller detects the shaking of the fingers and lights the mosquito trapping lamps; the mosquito killer lamp is characterized in that a palm motion sensor is arranged in the palm component, the palm motion sensor detects the motion direction and the motion speed of a palm and transmits the motion direction and the motion speed to the controller, the controller sets a first motion speed threshold and a second motion speed threshold, and when the motion speed is lower than the first motion speed threshold, the mosquito killer lamp is kept in a fully-lighted state; when the movement speed is between a first movement speed threshold and a second movement speed threshold, judging the movement direction, calculating the single movement time of the palm in a single movement direction, calculating the single movement displacement of the palm according to the movement time, if the displacement is greater than the first displacement threshold, closing half of the mosquito-luring lamps at intervals, and if the displacement is less than the first displacement threshold, closing all the mosquito-luring lamps; and when the moving speed is higher than a second moving speed threshold value, turning off all the mosquito luring lamps.

2. The mosquito eradication glove of claim 1, further comprising a sheet battery disposed in the palm member, the sheet battery being capable of obtaining power from the inductive power generation module or being charged from a charger.

3. The mosquito killing glove of claim 1 wherein the second motion speed threshold is greater than the first motion speed threshold.

4. The mosquito eradication glove as defined in claim 1, wherein the mosquito trapping lamp uses 365-375 nm light waves.

5. The mosquito eradication glove according to claim 2, further comprising a finger shake sensor for detecting a shake of the finger and transmitting a detected signal to the controller, wherein the controller lights the mosquito trap lamp according to the received signal of the finger shake.

6. The mosquito eradication glove according to claim 5, further comprising an inductive power detection unit which detects whether the inductive power generation module generates power, and if so, sends a pulse signal to the controller, and the controller lights the mosquito luring lamp according to the received pulse signal.

7. The mosquito killing glove of claim 6, wherein the five finger parts are provided with a first support member for supporting and fixing the induction power generation module, the finger shaking sensor and the induction power detection unit; and a second supporting piece is arranged in the palm component and used for supporting and fixing the sheet-shaped battery, the controller and the palm motion sensor.

8. The mosquito eradication glove according to claim 7, wherein the first support member is provided with a shielding layer for shielding electromagnetic signals of the induction generation module from leaking.

9. A method for killing mosquitoes, which comprises using the gloves for killing mosquitoes according to any one of claims 1 to 8, and comprises the following steps: shaking the fingers, and outputting a finger shaking signal to the controller; the controller outputs a control signal to light the mosquito-lured lamp; detecting the motion state of the palm, judging that the palm is in a mosquito flapping state, and turning off the mosquito trapping lamp.

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