CN219460153U - Electric mosquito swatter capable of preventing electric shock - Google Patents

Abstract

The utility model discloses an electric mosquito swatter capable of preventing electric shock, which belongs to the technical field of electric mosquito swatters and comprises an electric mosquito swatter, an inductive switch, a base and a mosquito-trapping lamp; one end of the electric mosquito swatter is a metal power grid, the other end of the electric mosquito swatter is a holding rod, a power grid switch is arranged on the holding rod of the electric mosquito swatter, an electric receiving jack is arranged at the tail end of the holding rod of the electric mosquito swatter, a battery is arranged in the electric mosquito swatter, the metal power grid and the mosquito-lured lamp are electrically connected with the battery through the power grid switch and the induction switch, can promptly break off the metal electric wire netting through the inductive switch of human response, when making this device have the human body to be close to, metal electric wire netting can quick automatic cutout, avoid the human body to touch, can also open the mosquito lamp through the base for a long time and use, trap the electric shock to the mosquito, and need not the people to hold, can last the kill mosquito, human body is close to also can automatic shutdown when trapping moreover, more convenient safety.

Description

Electric mosquito swatter capable of preventing electric shock

Technical Field

The utility model relates to the technical field of electric mosquito swatters, in particular to an electric mosquito swatter capable of preventing electric shock.

Background

The electronic high-voltage mosquito swatter is a small household appliance, is popular with people, is an indispensable tool for killing insects in summer gradually, and is a small household appliance free of sale in summer due to the advantages of practicality, convenience, good mosquito (flies or moths and the like) killing effect, no chemical pollution, safety, sanitation and the like.

Electric mosquito swatters use mainly 4V rechargeable high capacity lead acid batteries or 2.4V lithium batteries, also useful dry cells. In operation, high-voltage electricity (current is less than 10 milliamperes and harmless to people and livestock) of about 3000V direct current is generated between the double-layer power grids through the booster circuit, and the generated short-circuit current is then killed.

The circuit of the electric mosquito swatter mainly comprises a high-frequency oscillation circuit, a three-voltage rectifying circuit and a high-voltage electric shock net DW. When the power switch is pressed down, the high-frequency oscillator consisting of the triode and the transformer is electrified to work, the direct current is changed into high-frequency alternating current, the high-frequency alternating current is boosted, and then the high-frequency alternating current is boosted to about 3000V through three-time voltage rectification of the diode and the capacitor and is added to the metal net of the mosquito swatter. When mosquitoes and flies touch the high-voltage power grid, the insect bodies cause the power grid to be short-circuited, namely, the insects can be killed by current and electric arcs or stunned or killed.

Because the electric mosquito swatter needs to shock mosquitoes through the metal net, two layers of metal net electrodes are exposed outside, and when the exposed metal net is electrified, the electric mosquito swatter can possibly shock a human body by mistake, so that the electric mosquito swatter for protecting the human body from being touched by mistake is needed at present to avoid electric shock injury caused by the mistaken touch of the human body.

Based on the above, the utility model designs the electric mosquito swatter capable of preventing electric shock so as to solve the problems.

Disclosure of Invention

The utility model aims to provide an electric mosquito swatter capable of preventing electric shock, which can be used for switching off a metal power grid in an emergency through an inductive switch induced by a human body, so that when the electric mosquito swatter is close to the human body, the metal power grid can be rapidly and automatically powered off, the human body is prevented from touching, a mosquito-attracting lamp can be started for a long time through a base for use, mosquitoes are trapped and shocked, the electric mosquito swatter does not need to be held by the human body, the mosquito swatter can be used for continuously killing the mosquitoes, and the human body can be automatically closed when the electric mosquito swatter is trapped, so that the electric mosquito swatter is more convenient and safer.

The utility model is realized in the following way: an electric mosquito swatter capable of preventing electric shock, comprising:

the mosquito swatter comprises an electric mosquito swatter, an inductive switch, a base and a mosquito-attracting lamp;

one end of the electric mosquito swatter is a metal power grid, the other end of the electric mosquito swatter is a holding rod, a power grid switch is arranged on the holding rod of the electric mosquito swatter, an electric connection jack is arranged at the tail end of the holding rod of the electric mosquito swatter, and a battery is arranged inside the electric mosquito swatter;

the induction switch is arranged on the electric mosquito swatter, and the induction direction of the induction switch faces to the metal power grid;

the base is provided with a slot, an electric connection inserting rod is arranged in the slot, a holding rod of the electric mosquito swatter can be detachably inserted in the slot, the electric connection inserting hole and the electric connection inserting rod can be detachably and mutually and tightly inserted and electrically conducted, and a base switch is further arranged outside the base;

the mosquito-attracting lamp is embedded in an interlayer of the metal power grid, and the metal power grid and the mosquito-attracting lamp are electrically connected through the base switch, the induction switch and the battery;

the metal power grid and the mosquito-attracting lamp are electrically connected with the battery through a power grid switch and an inductive switch.

Further comprises a mounting ring sleeve, the mounting ring sleeve is a hollow annular sleeve with openings on the front side and the back side, the mounting ring sleeve is clamped at the bottom edge of the metal power grid, the bottom of the inner ring of the mounting ring sleeve is clamped with a positioning clamping frame, the top of the positioning clamping frame is a flat surface, the inductive switch is arranged on the flat surface of the top of the positioning clamping frame, the inductive switch is positioned in the mounting annular sleeve, and the inductive switch faces upwards to the inner side wall of the top of the annular hole of the mounting annular sleeve;

the induction switch is positioned at the joint between the holding rod of the electric mosquito swatter and the metal power grid, and the induction direction of the induction switch is opposite to the bottom edge of the metal power grid;

the detection range of the inductive switch is not lower than 120 degrees.

Further, the inductive switch and the base switch are both human body inductive switches;

the power grid switch is a tact switch.

Further, the base is of a round table-shaped structure, the bottom of the base is a flat surface, the slot is concavely formed in the center of the base, and the depth of the slot is 3-5 cm.

Further, one side of the base is a vertical plane, a wall hanging hole is formed in the vertical plane of the base, the top of the base is recessed downwards to form a slot, the slot and the holding rod of the electric mosquito swatter are mutually attached and tightly inserted, and the depth of the slot is not less than one third of the length of the holding rod of the electric mosquito swatter.

The beneficial effects of the utility model are as follows: 1. according to the utility model, the metal power grid is controlled through the induction switch and the power grid switch, any one of the switches is not communicated, so that the metal power grid is powered off, when the electric mosquito swatter is used for shocking mosquitoes, the situation that the device is used for shocking surrounding people by accidental electric shock is effectively avoided, and the human body is safely protected;

2. when trapping the mosquito, this device only needs the cartridge on the base, just can automatic start lure the mosquito lamp to trap the mosquito, and nearby as long as someone, will because inductive switch stop work, when extracting the base, lure the mosquito lamp and can automatic shutdown again, this device only with the base together, metal electric wire netting and lure the mosquito lamp to open for a long time, effectively prevent the mistake to touch the injury people, can be convenient for touch the electric wire netting switch electric shock mosquito again, and when holding electric mosquito is clapped, this device can not open for a long time, effectively avoid holding the mistake to touch the human body.

Drawings

The utility model will be further described with reference to examples of embodiments with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an inductive switch according to the present utility model;

FIG. 3 is a schematic front view of a second embodiment of the base of the present utility model;

FIG. 4 is a schematic view of the back structure of a second embodiment of the base of the present utility model;

FIG. 5 is a schematic diagram of the base and electric mosquito swatter circuit of the present utility model;

FIG. 6 is a schematic top view of the base of the present utility model;

FIG. 7 is a schematic diagram of the distribution of the power receiving jacks of the present utility model;

FIG. 8 is a schematic diagram of the detection range of the inductive switch of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

the mosquito swatter comprises a 1-electric mosquito swatter, a 11-metal power grid, a 12-power grid switch, a 13-power connection jack, a 2-inductive switch, a 21-mounting loop, a 22-positioning clamping frame, a 3-base, a 31-slot, a 32-power connection plug rod, a 33-base switch, a 34-wall hanging hole, a 4-mosquito attracting lamp and a 41-battery.

Detailed Description

Referring to fig. 1 to 8, the present utility model provides a technical solution: an electric mosquito swatter capable of preventing electric shock, comprising:

the mosquito swatter comprises an electric mosquito swatter 1, an inductive switch 2, a base 3 and a mosquito-lured lamp 4;

one end of the electric mosquito swatter 1 is provided with a metal power grid 11, the other end of the electric mosquito swatter 1 is provided with a holding rod, the holding rod of the electric mosquito swatter 1 is provided with a power grid switch 12, the tail end of the holding rod of the electric mosquito swatter 1 is provided with an electric connection jack 13, and a battery 41 is arranged inside the electric mosquito swatter 1;

the induction switch 2 is arranged on the electric mosquito swatter 1, and the induction direction of the induction switch 2 faces to the metal power grid 11;

the base 3 is provided with a slot 31, an electric connection inserting rod 32 is arranged in the slot 31, a holding rod of the electric mosquito swatter 1 can be detachably inserted into the slot 31, the electric connection inserting hole 13 and the electric connection inserting rod 32 can be detachably and mutually and tightly inserted and electrically conducted, and a base switch 33 is further arranged outside the base 3;

the mosquito-attracting lamp 4 is embedded in an interlayer of the metal power grid 11, and the metal power grid 11 and the mosquito-attracting lamp 4 are electrically connected through the base switch 33, the induction switch 2 and the battery 41;

the metal power grid 11 and the mosquito-lured lamp 4 are further electrically connected with the battery 41 through the power grid switch 12 and the induction switch 2, the mosquito-lured lamp 4 is a conventional device, almost all electric mosquito beats 1 are equipped with the device, the device improves the induction position and the induction direction of the mosquito-lured lamp 4 and the metal power grid 11, the induction position and the induction direction of the induction switch 2 are changed, the metal power grid 11 can be disconnected in an emergency through the induction switch 2 induced by a human body, when the device is close to a human body, the metal power grid 11 can be rapidly and automatically powered off, the human body is prevented from touching, the mosquito-lured lamp 4 can be started for a long time through the base 3 for use, electric shock is trapped to mosquitoes, people are not required to hold the mosquito-lured lamp, the mosquito-lured lamp can continuously kill mosquitoes, and the human body can be automatically closed when trapped, and the mosquito-lured lamp is more convenient and safer.

The installation device further comprises an installation ring sleeve 21, wherein the installation ring sleeve 21 is a hollow annular sleeve with openings on the front side and the back side, the installation ring sleeve 21 is clamped at the bottom edge of the metal power grid 11, the positioning clamping frame 22 is clamped at the bottom of an inner ring of the installation ring sleeve 21, the top of the positioning clamping frame 22 is a flat surface, the induction switch 2 is installed on the flat surface of the top of the positioning clamping frame 22, the induction switch 2 is positioned in the installation ring sleeve 21, and the induction switch 2 faces upwards to the inner side wall of the top of an annular hole of the installation ring sleeve 21;

the induction switch 2 is positioned at the joint between the holding rod of the electric mosquito swatter 1 and the metal power grid 11, and the induction direction of the induction switch 2 is opposite to the bottom edge of the metal power grid 11;

the detection range of the inductive switch 2 is not lower than 120 degrees, the angle is stable, the specific range of the electric mosquito swatter 1 is monitored, the monitoring range is enough, misjudgment of the electric mosquito swatter 1 caused by overlarge monitoring range can be avoided, and the electric mosquito swatter is frequently closed, so that the electric mosquito swatter can effectively shock mosquitoes and cannot be automatically powered off because the electric mosquito swatter is not close to a person.

The detection range of the inductive switch 2 is not lower than the conical range of an angle of 100 degrees, the inductive switch 2 is taken as a vertex, the upward detection range is conical, the range of an included angle a of two sides of any section of the cone of the detection range is not lower than the angle of 100 degrees, namely the conical angle a in the cone of the detection range is an angle a, and the conical angle a is optimally 120 degrees; too large is easy to misjudge, the taper angle a is too small and is easy to detect incompleteness, and after a hand possibly stretches into a detection range, the induction switch 2 cannot be closed until the metal power grid 11 is closed, so that danger can occur;

the inductive switch 2 and the base switch 33 are human body inductive switches, and people can be prevented from being injured when approaching or disconnecting;

the power grid switch 12 is a light touch switch, and current can be smooth only by continuous pressing, so that the device is in a long-term disconnection state when the device is used for flapping mosquitoes, and the mosquitoes can be killed stably only by pressing, so that misoperation of personnel when the device is not held is effectively avoided;

the base 3 is of a round table-shaped structure, the bottom of the base 3 is a flat surface, the base 3 is stably placed on any horizontal plane, the slot 31 is concavely formed in the center of the base 3, the depth of the slot 31 is 3-5cm, the shorter the base 3 is conveniently and stably supported, the lower the center of gravity is, the electric mosquito swatter 1 can be vertically placed on a table top or a platform more preferably, and mosquitoes can be trapped for a long time;

one side of the base 3 is a vertical plane, a wall hanging hole 34 is formed in the vertical plane of the base 3, the top of the base 3 is downwards sunken and provided with a slot 31, the slot 31 and a holding rod of the electric mosquito swatter 1 are mutually attached and tightly inserted, the depth of the slot 31 is not less than one third of the length of the holding rod of the electric mosquito swatter 1, stable insertion is facilitated, a certain angle is likely to be inclined during suspension, and the deeper slot 31 can enable the base 3 to more stably limit and support the electric mosquito swatter 1;

the electric jack 13 and the electric plug rod 32 are mutually matched conductive plugs, and only one wire is arranged on the base and used for connecting a mosquito-lured lamp circuit in the electric mosquito swatter 1.

In one embodiment of the utility model:

the embodiment of the utility model provides an electric mosquito swatter capable of preventing electric shock, which solves the technical problems that: 1. when the existing electric mosquito swatter 1 is used for shocking mosquitoes, people are easy to hurt by mistake, some existing induction switches 2 are arranged on the front of the electric mosquito swatter, when the induction switches 2 are arranged on the front of the metal power grid 11, the induction range is easy to cause the electric mosquito swatter 1 to be powered off and closed, so that the mosquitoes are difficult to beat under the condition of safety, and people are easy to hurt when the induction switches 2 are not started; 2. for the existing electric mosquito swatter 1 also has a long-term opening function, the long-term opening function for trapping mosquitoes can be integrated on the electric mosquito swatter 1, namely, when the electric mosquito swatter is held, the metal power grid 11 is opened for a long time, at the moment, the induction switch 2 on the conventional electric mosquito swatter 1 is not operated, and the human body is easily and mistakenly shocked, so that the human body is injured, and the human body is injured when approaching to the range near the electric mosquito swatter; 3. when the electric mosquito swatter 1 is started for a long time, the induction switch 2 of the electric mosquito swatter 1 is required to be directly faced with people, otherwise, the electric mosquito swatter is invalid, the induction range of the front side and the back side is limited, induction blind areas are easy to generate, a large number of induction switches 2 are required to effectively protect, too many induction switches 2 can cause induction misjudgment, automatic stop is easy, and mosquitoes cannot be effectively shocked; 4. the conventional electric mosquito swatter 1 has an induction outage function, and is also provided with a human body induction switch which is just opposite to the front sides of the metal power grid 11 and used for monitoring the direction faced by the flapping surface of the metal power grid, the monitoring range covers the whole direction surface of the metal power grid 11, the monitoring range is too large, the outage is easy to misjudge, the electric mosquito swatter 1 is easy to damage after frequent outage, and mosquitoes are difficult to shock normally.

The technical problems solved by the utility model are as follows: through the effectual electric shock to the mosquito of single inductive switch 2, only can only electric shock the mosquito when pressing down when holding moreover, effectively avoid handheld open for a long time carelessly hurt the human body, and put on base 3 and just can open for a long time, avoid holding, pull out and break away from metal electric wire netting 11 and lure mosquito lamp 4 open the state for a long time promptly, the use mode conversion is nimble convenient.

The technical effects are realized as follows: 1. according to the utility model, the metal power grid 11 is controlled through the induction switch 2 and the power grid switch 12, any one of the switches is not communicated, so that the metal power grid 11 is powered off, and when an electric mosquito swatter is swung to shock mosquitoes, the situation that the device is carelessly caused to cause the wrong electric shock to hit surrounding personnel is effectively avoided, and the safety protection is carried out on a human body;

2. when trapping the mosquito, this device only needs the cartridge on base 3, just can automatic start lure mosquito lamp 4 to trap the mosquito, and near as long as someone, will because inductive switch 2 stop work, when extracting base 3, lure mosquito lamp 4 can automatic shutdown again, this device only is in the same place with base 3, metal electric wire netting 11 and lure mosquito lamp 4 can open for a long time, effectively prevent to touch the injury people by mistake, can be convenient for touch electric wire netting switch 12 electric shock mosquito again, and when holding electric mosquito, this device can not open for a long time, effectively avoid holding the time mistake and touch the human body.

3. The inductive switch 2 of the device is just to the metal power grid 11, the induction range is stable, the metal power grid 11 plane of the electric mosquito swatter 1 is not perpendicular, the detection range is reasonable, the device is convenient to use only aiming at the angle that the human body can be touched by electric shock by mistake, frequent power failure can not be caused by excessive protection, the human body can be timely powered off when entering a monitoring normal document, the front of the device is shielded by the mounting ring sleeve 21 and the metal power grid 11, only the angle of the side face is monitored, and the induction angle is more accurate.

The technical scheme in the embodiment of the utility model aims to solve the problems, and the overall thought is as follows:

in order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

When the electric mosquito swatter is manufactured, the conventional electric mosquito swatter 1 is firstly adopted, the conventional electric mosquito swatter 1 is provided with 2-3 layers of mutually parallel metal power grids 11, generally three layers, the middle is the positive electrode, the two sides are the negative electrodes, the electric mosquito swatter has good mosquito electric shock effect, the electric mosquito swatter 1 can perform double-sided electric shock, the device also uses the structure of the three layers of metal power grids 11,

the device integrally comprises an electric mosquito swatter 1, an inductive switch 2, a base 3 and a mosquito-attracting lamp 4;

the upper end of the electric mosquito swatter 1 is a round, oval or square metal power grid 11, the metal power grid 11 with the shape is of a conventional shape and structure, the lower end of the electric mosquito swatter 1 is a holding rod, the holding rod is of a round rod shape and is convenient to hold, the electric mosquito swatter 1 is provided with a power grid switch 12, the power grid switch 12 is a light touch switch, the metal power grid 11 can be electrified with a battery 41 only when being pressed, and a loop is disconnected by loosening the power grid switch 12;

the bottom end of the holding rod of the electric mosquito swatter 1 is also provided with an electric connection jack 13, the electric connection jack 13 is an electric connection plug, one end of the plug is connected with one end of the socket in an inserting way to form a current loop, and the battery 41 is arranged inside the holding rod of the electric mosquito swatter 1;

the induction switch 2 is arranged on the electric mosquito swatter 1, the induction direction of the induction switch 2 faces to the metal power grid 11, namely the induction switch 2 is upward to face to the metal power grid 11, the induction switch 2 and the base switch 33 are all human induction switches and are in an open state when no human body is detected, so that a complete loop is formed by closing a circuit, and the induction switch 2 and the base switch 33 generate signals to automatically open the circuit only when the human body is detected to be close;

the installation ring sleeve 21 is also manufactured, the installation ring sleeve 21 is a hollow annular sleeve with openings on the front side and the back side, the planes of the openings of the installation ring sleeve 21 are the same as the front side and the back side of the metal power grid 11, the installation ring sleeve 21 and the metal power grid 11 are both oriented on the front side and the back side, the installation ring sleeve 21 is clamped at the bottom edge of the metal power grid 11, the positioning clamping frame 22 is clamped at the bottom of the inner ring of the installation ring sleeve 21, the top of the positioning clamping frame 22 is a flat surface, the bottom of the positioning clamping frame 22 and the inner ring of the installation ring sleeve 21 are clamped as a whole, the upper half part of the installation ring sleeve 21 is a cavity with the front side and the back side opened to the outside, and the lower half part of the installation ring sleeve 21 is clamped and stuffed through the positioning clamping frame 22; the induction switch 2 is arranged on the top flat surface of the positioning clamping frame 22, the induction switch 2 is arranged in the mounting annular sleeve 21, the induction switch 2 faces upwards to the inner side wall of the top of the annular hole of the mounting annular sleeve 21, the induction direction of the induction switch 2 faces upwards, when the electric mosquito swatter 1 is wholly and vertically arranged, as shown in fig. 1, the induction switch 2 faces to the bottom of a vertically arranged metal power grid 11 frame, the monitoring direction of the induction switch 2 faces upwards vertically, the monitoring included angle of the induction switch 2 is larger and is generally between 100-140 degrees, and the conical angle of the detection range of the induction switch 2 of the device is a 120-degree angle;

the induction switch 2 is positioned at the joint between the holding rod of the electric mosquito swatter 1 and the metal power grid 11, and the induction direction of the induction switch 2 is opposite to the bottom edge of the metal power grid 11.

Then, a base 3 is manufactured, and the base 3 has two types;

the base 3 is in a shape of a circular truncated cone, the top of the circular truncated cone-shaped base 3 is provided with a slot 31, the base 3 is in a circular truncated cone-shaped structure, the bottom of the base 3 is a flat surface, the slot 31 is concavely formed in the center of the base 3, and the depth of the slot 31 is 3-5cm, as shown in fig. 1;

the wall hanging hole 34 is formed in the vertical plane of the base 3, the vertical flat surface is a back surface, the vertical flat surface and a wall can be attached and stably leaned on, the slot 31 is formed in the downward concave portion of the top of the base 3, the slot 31 and the holding rod of the electric mosquito swatter 1 are attached and closely connected with each other, the depth of the slot 31 is not less than one third of the length of the holding rod of the electric mosquito swatter 1, and as shown in fig. 3 and 4, the wall hanging hole 34 in the flat back surface of the base 3 can be suitable for hanging and is convenient to hang on nails or hooks of the wall for use.

The structure in the slot 31 of the two bases 3 is the same, the bottom in the slot 31 is provided with the electric plug rod 32, the electric plug rod 32 is vertically upwards arranged at the bottom of the slot 31, the holding rod of the electric mosquito swatter 1 can be inserted in the slot 31, and the electric plug hole 13 and the electric plug rod 32 are mutually and tightly plugged and electrically conducted when being plugged, so that the electric mosquito swatter is the same as the plug and socket butt joint electric principle;

when the mosquito trapping is required to be continuously started, a holding rod of the electric mosquito swatter 3 is inserted into a slot 31 of the base 3, the electric connection inserting rod 32 on the base 3 is two electric connection rods which are connected with each other, the base 3 is also provided with a base switch 33, and a current loop is formed between the base switch 33 and the electric mosquito swatter 1; at the moment, the mosquito-trapping lamp 4 is embedded in the interlayer of the metal power grid 11, two electric-connection inserting rods 32 are arranged, and the two electric-connection inserting rods 32 are closed loops, so that the mosquito-trapping lamp 4 and the metal power grid 11 are communicated with the battery 41 for a long time to work; the metal power grid 11 and the mosquito-lured lamp 4 are electrically connected through the base switch 33, the induction switch 2 and the battery 41, the electric connection plug rod 32 of the base 3 can form a current loop to continuously start the metal power grid 11 and the mosquito-lured lamp 4, the induction switch 2 and the base switch 33 are also connected in series in a circuit, the metal power grid 11 and the mosquito-lured lamp 4 are in a long-time starting state, when a person approaches, any one of the base switch 33 and the induction switch 2 is disconnected, and the metal power grid 11 and the mosquito-lured lamp 4 are automatically powered off;

when the base 3 is not needed, the holding rod of the electric mosquito swatter 1 is pulled out of the slot 31, the electric jack 13 and the electric plug rod 32 are pulled out, the metal electric network 11 and the mosquito-attracting lamp 4 are electrically connected with the battery 41 through the electric network switch 12 and the induction switch 2, when the electric mosquito swatter 1 is pulled out of the base 3, the continuous starting current loop on the base 3 is disconnected, the metal electric network 11 and the mosquito-attracting lamp 4 can only form a current loop through the electric network switch 12 and the induction switch 2, a triggering circuit is formed, the metal electric network 11 and the mosquito-attracting lamp 4 can be electrified to work only when the electric network switch 12 is pressed to be opened, and the induction switch 2 is in a closed connection state, once the electric network switch 11 loses the pressing force, or the induction switch 2 detects that a human body is disconnected, the metal electric network 11 and the mosquito-attracting lamp 4 are powered off to stop working, and the electric network switch 12 and the induction switch 2 are in series connection in the circuit, so long as any one of the electric network switch 12 and the induction switch 2 is disconnected, the metal electric network 11 and the mosquito-attracting lamp 4 can be extinguished.

When the mosquito swatter is used, when the electric mosquito swatter 1 is singly used, the power grid switch 12 is continuously pressed, the metal power grid 11 and the mosquito-trapping lamp 4 are electrified to work, and mosquitoes are trapped and shocked; when the human body is close to the monitoring range of the induction switch 2, the induction switch 2 is powered off, the metal power grid 11 and the mosquito-attracting lamp 4 are powered off, personnel injury is avoided, and the mosquito-attracting lamp 4 and the metal power grid 11 cannot work continuously at the moment.

When electric mosquito swatter 1 and base combination use, metal electric wire netting 11 and lure mosquito lamp 4 form the electric current return circuit through the electric inserted bar 32 that connects on the base 3, connect electric inserted bar 32 and connect electric jack 13 butt joint, connect electric jack 13 again through base switch 33 and metal electric wire netting 11, lure mosquito lamp 4, battery 41 closure formation continuous circuit, make this device electric mosquito swatter 1 continuous operation, trap and electric shock to the mosquito, when someone is close to, inductive switch 2 and cross base switch 33 all can auto-power-off, inductive switch 2 and cross the arbitrary outage of base switch 33, metal electric wire netting 11 and lure mosquito lamp 4 all can outage, protect the human body.

The touch switch is also called a key switch, and is called a sensitive switch in early time, when in use, the switch is closed and closed by pressing the switch function in the operation direction of the switch under the condition of meeting the operation force, and when the pressure is withdrawn, the switch is opened, and the internal structure of the switch is realized by the stress change of the metal elastic sheet, so that the touch switch is widely used at present and belongs to common elements.

In addition, in the description of the present utility model, it should be noted that, if terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc. are presented, the indicated orientation or positional relationship is based on that shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the indicated apparatus or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the utility model, and that equivalent modifications and variations of the utility model in light of the spirit of the utility model will be covered by the claims of the present utility model.

Claims (5)

1. An electric mosquito swatter capable of preventing electric shock, which is characterized by comprising: the mosquito swatter comprises an electric mosquito swatter (1), an inductive switch (2), a base (3) and a mosquito-attracting lamp (4);

one end of the electric mosquito swatter (1) is a metal power grid (11), the other end of the electric mosquito swatter (1) is a holding rod, a power grid switch (12) is arranged on the holding rod of the electric mosquito swatter (1), an electric connection jack (13) is arranged at the tail end of the holding rod of the electric mosquito swatter (1), and a battery (41) is arranged inside the electric mosquito swatter (1);

the induction switch (2) is arranged on the electric mosquito swatter (1), and the induction direction of the induction switch (2) faces to the metal power grid (11);

the base (3) is provided with a slot (31), an electric connection inserting rod (32) is arranged in the slot (31), a holding rod of the electric mosquito swatter (1) can be detachably inserted in the slot (31), the electric connection inserting hole (13) and the electric connection inserting rod (32) can be detachably and tightly inserted and electrically conducted, and a base switch (33) is further arranged outside the base (3);

the mosquito-attracting lamp (4) is embedded in an interlayer of the metal power grid (11), and the metal power grid (11) and the mosquito-attracting lamp (4) are electrically connected through the base switch (33), the induction switch (2) and the battery (41);

the metal power grid (11) and the mosquito-attracting lamp (4) are also electrically connected with the battery (41) through the power grid switch (12) and the induction switch (2).

2. The electric mosquito swatter capable of preventing electric shock according to claim 1, wherein: the installation device is characterized by further comprising an installation ring sleeve (21), wherein the installation ring sleeve (21) is a hollow annular sleeve with openings on the front side and the back side, the installation ring sleeve (21) is clamped at the bottom edge of the metal power grid (11), a positioning clamping frame (22) is clamped at the bottom of the inner ring of the installation ring sleeve (21), the top of the positioning clamping frame (22) is a flat surface, the inductive switch (2) is installed on the flat surface of the top of the positioning clamping frame (22), the inductive switch (2) is positioned in the installation ring sleeve (21), and the inductive switch (2) faces upwards to the inner side wall of the top of the annular hole of the installation ring sleeve (21);

the induction switch (2) is positioned at the joint between the holding rod of the electric mosquito swatter (1) and the metal power grid (11), and the induction direction of the induction switch (2) is opposite to the bottom edge of the metal power grid (11);

the detection range of the inductive switch (2) is not lower than 120 degrees.

3. The electric mosquito swatter capable of preventing electric shock according to claim 1, wherein: the induction switch (2) and the base switch (33) are human body induction switches;

the power grid switch (12) is a tact switch.

4. The electric mosquito swatter capable of preventing electric shock according to claim 1, wherein: the base (3) is of a round table-shaped structure, the bottom of the base (3) is a flat surface, the slot (31) is concavely formed in the center of the base (3), and the depth of the slot (31) is 3-5 cm.

5. The electric mosquito swatter capable of preventing electric shock according to claim 1, wherein: the electric mosquito swatter is characterized in that one side of the base (3) is a vertical plane, a wall hanging hole (34) is formed in the vertical plane of the base (3), the top of the base (3) is recessed downwards to form a slot (31), the slot (31) is tightly spliced with a holding rod of the electric mosquito swatter (1) in a mutually-attached mode, and the depth of the slot (31) is not less than one third of the length of the holding rod of the electric mosquito swatter (1).