CN220044696U - Photoelectric mosquito dispeller - Google Patents

Abstract

The utility model discloses a photoelectric mosquito dispeller, which comprises a base, a control circuit board, an electric switch and an atomization vibration device, wherein an electric cavity is formed in the base, the control circuit board is fixed in the electric cavity, the electric switch is fixed on the outer side wall of the base, and the control circuit board is connected with the electric switch and the atomization vibration device through electric conductors respectively; a water concave cavity is formed in the middle of the top of the base, a water channel is formed from the bottom wall of the water concave cavity to the outer side wall of the base, an atomization vibration device is fixed at the port of the outer end of the water channel in a sealing manner, and the atomization vibration device is positioned on the side wall of the base; the atomization oscillating device is lower than the water concave cavity; the cavity opening of the water cavity is connected with a water storage container in a sealing way, the bottom of the water storage container is provided with a container opening, and the container opening is arranged in the water cavity; the product is sprayed with the mosquito repellent liquid at normal temperature, is not easy to be cooled by low-temperature air, volatilizes smell farther and has wider mosquito repellent range; the vibration type atomized water is fine and smooth, and the consumption of liquid is low.

Description

Photoelectric mosquito dispeller

Technical Field

The utility model relates to a mosquito repelling device, in particular to a photoelectric mosquito repelling device.

Background

For example, 1: chinese patent literature publication No.: CN218898088U, discloses an outdoor portable mosquito repellent, comprising: the mosquito repellent liquid bottle is arranged in the first placing cavity; the top cover is covered and arranged at the top end of the main body shell, and is provided with a volatilization hole corresponding to the first placing cavity, and the volatilization hole is used for volatilizing the atomized mosquito repellent liquid; the heating atomization assembly is arranged at one side of the first placing cavity, which is close to the top cover, and is used for atomizing mosquito-repellent incense liquid; the elastic bottom plate is embedded in the bottom of the first placing cavity, and the mosquito repelling liquid bottle is detachably arranged on the elastic bottom plate. The heating atomization assembly comprises a conductive assembly, a conductive assembly fixing piece, a heating wire and a heating part shell; an opening is formed in one side of the heating part shell, and a containing cavity is formed in the heating part shell; the conductive assembly is fixed in the accommodating cavity through a conductive assembly fixing piece, the heating wire is arranged in the opening, and the heating wire is connected with the conductive assembly. The mosquito repellent liquid bottle comprises a bottle body, a bottle cap and a liquid guide component, wherein the bottle body is used for containing mosquito repellent liquid; the liquid guide component is arranged on the bottle cap in a penetrating mode, and the heating wire is in direct contact connection with the upper portion of the liquid guide component.

The mosquito repellent liquid is heated and volatilized to release smell for repelling mosquitoes, the smell can be fully exerted due to heating, the volatilization amount is extremely small, and the heated mosquito repellent liquid is easy to be cooled by external low-temperature air after being volatilized in a room or an outdoor open place, so that the smell is not volatilized far enough; meanwhile, it is impossible to provide a lighting function in a dark environment or at night.

For example 2: chinese patent literature publication No.: CN218790068U, disclose an atomization mosquito repellent, including the outer casing and support (440) set up in the outer casing, there is an atomization cavity (4401); a liquid storage bottle (420) communicated with the atomizing cavity (4401); a pressure pump (430) in communication with the atomizing chamber (4401); the atomizing cavity (4401) is provided with a nozzle (4402) communicated with the outside. The support (440) comprises a connecting sleeve (441) and a nozzle (442), the connecting sleeve (441) is sleeved in the shell (410), the nozzle (442) is arranged at the upper end of the connecting sleeve (441), the atomizing cavity (4401) is formed between the connecting sleeve (441) and the nozzle (442), and the liquid storage bottle (420) is detachably arranged on the connecting sleeve (441). The upper end of connecting sleeve (441) is equipped with protruding ring (4411), the lower extreme of nozzle (442) is equipped with installation lid (4421), protruding ring (4411), installation lid (4421) are connected, form atomizing chamber (4401) between protruding ring (4411), installation lid (4421), be equipped with on installation lid (4421) with the delivery hole (4422) of pressure pump (430) intercommunication. The connecting sleeve (441) is provided with a connecting circular ring (4412), the connecting circular ring (4412) is arranged below the protruding circular ring (4411), the outlet end of the liquid storage bottle (420) is arranged on the connecting circular ring (4412) in a threaded fit mode, and through holes (4413) are formed in front of the protruding circular ring (4411) and the connecting circular ring (4412). The battery pack also comprises an electric control element (480), wherein the electric control element (480) is arranged in the shell (410), and the electric control element (480) is provided with a charging interface. A decoration panel (450) is arranged at the upper end of the shell (410); the upper end of the nozzle (442) penetrates the decoration panel (450) to communicate with the outside. A pressure cavity is formed between the decoration panel (450) and the bracket (440), and the pressure pump (430) is arranged in the pressure cavity. The decorative panel (450) is provided with a control button (470), the control button (470) is electrically connected with the electric control element (480), and the pressure pump (430) is controlled through the control button (470). The lower extreme of shell (410) is equipped with bottom (460), bottom (460) with form the stock solution chamber between support (440), stock solution bottle (420) are located the stock solution intracavity, bottom (460) can dismantle the setting.

The product forms pressure spray in the nozzle (442) after sucking the mosquito repellent liquid by the pressure pump (430), the whole structure is complex, the sucking type spray is easy to cause large consumption of the mosquito repellent liquid, and water molecule particles are large after spraying; if used outdoors, the pressure pump (430) uses more power, requiring more battery power.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the photoelectric mosquito dispeller which is reasonable in structural arrangement and convenient to use.

The scheme for solving the technical problems is as follows:

the photoelectric mosquito dispeller comprises a base, a control circuit board, an electric switch and an atomization oscillation device, wherein an electric cavity is formed in the base, the control circuit board is fixed in the electric cavity, the electric switch is fixed on the outer side wall of the base, the control circuit board is connected with the electric switch and the atomization oscillation device through electric conductors, and the atomization oscillation device is used for oscillating, atomizing and spraying mosquito-dispelling liquid; a water concave cavity is formed in the middle of the top of the base, a water channel is formed from the bottom wall of the water concave cavity to the outer side wall of the base, an atomization vibration device is fixed at the port of the outer end of the water channel in a sealing manner, and the atomization vibration device is positioned on the side wall of the base; the atomization oscillating device is lower than the water concave cavity; the cavity opening of the water cavity is connected with a water storage container in a sealing way, the bottom of the water storage container is provided with a container opening, and the container opening is arranged in the water cavity; the water concave cavity and the water storage container are used for containing mosquito repellent liquid. The atomization oscillation device is lower than the water concave cavity, so that the water level naturally drops to supply liquid.

The photoelectric mosquito dispeller has the beneficial effects that: 1. the product has reasonable structural design, realizes automatic mosquito repellent spraying, releases mosquito repellent smell to repel mosquitoes, does not need human bodies, hands and feet to smear the mosquito repellent when resting or sitting at Fang Bianren, and is convenient to use; if a plurality of persons rest or sit together, the mosquito repellent can be simultaneously carried out on a plurality of persons or people around the photoelectric mosquito repellent, the body, hands and feet of each person are not required to be smeared with mosquito repellent liquid, the application range is wide, and the use is convenient; the product is sprayed with the mosquito repellent liquid at normal temperature without heating the mosquito repellent liquid, is not easy to be cooled by low-temperature air in the open places at home or outdoors, volatilizes the smell farther, and has wider mosquito repellent range; the vibration type atomized water is fine and smooth, and the consumption of liquid is low. 2. The cavity opening of the water concave cavity is connected with a detachable water storage container in a sealing way, the water storage container is placed upside down, the detachable water storage container is convenient to replace and contain mosquito repellent liquid, and the container opening is used as a liquid filling opening and a liquid outlet in use. 3. A battery is fixed at the bottom in the electric cavity and is connected with the control circuit board through an electric wire; the electric wire is convenient to use in places required for outdoor and household placement after charging without a real-time external power supply; the microporous atomizing sheet has very low power consumption and can be used by using a low-power battery. 4. A water level switch is fixedly connected with the bottom wall of the water cavity or the inner wall of the water channel in a penetrating way, so that the water-free work is prevented, the electricity safety is protected, and the micropore atomization sheet is prevented from being burnt; 5. the mosquito-repellent lamp is fixed at the top of the base at the periphery of the outer ring of the water concave cavity, so that the mosquito-repellent effect is further improved, and meanwhile, the light source illumination can be provided in the dark or at night, so that the mosquito-repellent lamp is particularly suitable for outdoor night tent/camping.

Drawings

FIGS. 1 and 2 are perspective views of the product of the present utility model;

FIG. 3 is a cross-sectional view of a product of the utility model;

fig. 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 and 17 are exploded views of the product of the present utility model.

Base A, bottom A1, barrel A2, inside lining shell A3, switch mounting hole A21, plug hole A22, control circuit board B, electric switch C, atomizing oscillation device D, flexible glue sealing ring D1, micropore atomizing piece D2, fastening clamping ring D3, spraying hole D31, back-off hook D32, clamping ring mounting hole D4, electric chamber E, water cavity F, water course G, atomizing piece location step G1, back-off step G2, water storage container H, container opening H1, silica gel sealing ring H2, liquid adding hole H3, liquid hole sealing member H4, battery I, electric terminal plug J, water level switch K, electrode needle K1, K2, mosquito repellent lamp L, surrounding lamp groove L1, annular lamp circuit board L2, a plurality of mosquito repellent lamp beads L3, annular light transmitting lamp shade L4.

Detailed Description

The product uses direct current, below 6V, including base A, control circuit board B, electric switch C, atomizing oscillation device D, base A is cylindrical, plastics make, diameter/width is smaller than 10 cm generally, the height is smaller than 20 cm generally, can be suitable for family, outdoor use, offer the electric cavity E in base A, screw tightening is fixed with control circuit board B in the electric cavity E, the outer lateral wall of base A is fastened or hooked or screwed up and fixed with electric switch C with the screw tightening, control circuit board B is connected with electric switch C, atomizing oscillation device D through the electric conductor respectively, the electric conductor is electric wire or metal connect the electric foot, atomizing oscillation device D is used for carrying on the vibration atomizing blowout to mosquito repellent liquid, a water cavity F has been offered in the middle of the top of base A, a water channel G has been offered to the outer lateral wall of base A to the diapire of water cavity F, the outer end opening of water channel G is sealed to be fixed with atomizing oscillation device D, atomizing oscillation device D is located the lateral wall of base A; the water channel G is L-shaped or is obliquely arranged from inside to outside;

the cavity opening of the water cavity F is connected with a water storage container H in a sealing manner, a container opening H1 is formed in the bottom of the water storage container H, and the container opening H1 is arranged in the water cavity F; the water cavity F and the water storage container H are used for containing mosquito repellent liquid. The water concave cavity F and the water storage container H are round. The water storage container H is made of transparent plastic, so that the liquid level can be conveniently observed from the outside. The internal cavity of the water storage container H is filled with mosquito repellent liquid.

When the product is used, the water storage container H is filled (filled/added) with mosquito repellent liquid (mosquito repellent), the mosquito repellent liquid flows into the water cavity F and flows into the water channel G through the container opening H1, then flows to the atomization oscillating device D, and then the electric switch C is started (the electric switch C is pressed and comprises multi-gear adjustment), the control circuit board B and the atomization oscillating device D are electrified, the control circuit board B and the atomization oscillating device D enter into working states, the control circuit board B controls the atomization oscillating device D to work, the control circuit board B can control the atomization oscillating device D to work continuously or intermittently, the atomization oscillating device D oscillates and atomizes the mosquito repellent liquid to spray out, so that mosquito repellent smell is released to the periphery of people, the periphery of people close to mosquitoes is prevented, and the mosquito repellent effect is achieved; the structure is reasonable in design, the automatic mosquito repellent liquid spraying is realized, the mosquito repellent smell is released to repel mosquitoes, and Fang Bianren does not need to be smeared on the body, hands and feet of a person when the person is at rest or sitting, so that the mosquito repellent liquid is convenient to use; if a plurality of persons rest or sit together, the mosquito repellent can be simultaneously carried out on a plurality of persons or people around the photoelectric mosquito repellent, the body, hands and feet of each person are not required to be smeared with mosquito repellent liquid, and the application range is wide. The product is sprayed with the mosquito repellent liquid at normal temperature without heating the mosquito repellent liquid, is not easy to be cooled by low-temperature air in the open places at home or outdoors, volatilizes the smell farther, and has a wider mosquito repellent range. The vibration type atomized water is fine and smooth, the consumption of liquid is low, and the vibration type atomized water can be used for a longer time.

Preferably: the battery I is fixed at the bottom of the electric cavity E in a clamping or hooking manner or in a screw or adhesive manner, and the battery I is connected with the control circuit board B through an electric wire; the electric wire does not need to be externally connected with a power supply in real time, is convenient for being used in places where the electric wire is needed to be placed outdoors and at home, and is free from being pulled. When the power supply is externally connected, the control circuit board B can charge the battery I. The battery I supplies power to the control circuit board B, and the control circuit board B supplies power to the atomizing vibration device D.

Preferably: the side wall of the base A is fixedly connected with an electric terminal plug J in a penetrating way, so that the external power adapter is convenient to use.

Preferably: a water level switch K (or a water level sensor is arranged on the bottom wall of the water cavity F or the inner wall of the water channel G in a penetrating way, the water level switch K can be replaced by the water level sensor), and the water level switch K is connected with the control circuit board B through an electric wire; when the water level switch K is submerged, the mosquito repellent liquid is sufficient, the switch is turned on, the control circuit board B can be connected with the power supply of the atomizing vibration device D, and the atomizing vibration device D can be normally electrified to work so as to realize mist spraying work; when the water level switch K is submerged, the mosquito repellent liquid is not present, the switch is not conducted, the control circuit board B cuts off the power supply of the atomization oscillating device D and automatically cuts off the power supply, the atomization oscillating device D stops working, the mist spraying work is stopped, and the atomization oscillating device D is protected.

Preferably: the cavity opening of the water cavity F is connected with a detachable water storage container H in a sealing mode, and the water storage container H is inversely installed at the cavity opening of the water cavity F. When the product is used, the water storage container H is detached firstly, then mosquito repellent liquid (mosquito repellent) is filled, then the water storage container H is connected with the cavity opening of the water concave cavity F in a sealing mode, the water storage container H is placed upside down, the detachable water storage container H is convenient to replace and contain the mosquito repellent liquid, and the container opening H1 is used as a liquid adding opening and a liquid outlet in use; the whole is more beautiful.

Preferably: an inner thread is arranged at the cavity opening of the water cavity F, an outer thread is arranged on the outer wall of the bottom of the water storage container H, a silica gel sealing ring H2 is arranged at the bottom wall of the cavity opening of the water cavity F, and the water storage container H is tightly pressed with the silica gel sealing ring H2 through the downward screwing of the outer thread and the inner thread to seal water leakage; when the mosquito repellent liquid is used, the water storage container H is screwed out from the cavity opening of the water cavity F, and is screwed on the cavity opening of the water cavity F after the mosquito repellent liquid is filled.

Preferably: the water storage container H is an inverted container opening H1.

Preferably: the top of the water storage container H is provided with a liquid adding hole H3, a detachable liquid hole sealing member H4 is connected to the liquid adding hole H3, mosquito repellent liquid can be added into the water storage container H by opening the liquid hole sealing member H4, after the mosquito repellent liquid is added, the liquid adding hole H3 can be sealed by blocking or tightening the liquid hole sealing member H4, and the mosquito repellent liquid can be conveniently added; the liquid hole sealing element H4 is a soft rubber sealing plug or a colloid sealing cover.

Preferably: the water level switch K consists of two electrode pins K1 and K2, the middle between the two electrode pins K1 and K2 is smaller than 1 cm, the two electrode pins K1 and K2 are penetratingly connected to the bottom wall of the water cavity F or the inner wall of the water channel G in a penetrating manner, and the outer ends of the two electrode pins K1 and K2 are connected with the control circuit board B through wires; when water submerges the inner ends of the two electrode pins K1 and K2, the water is used as a conductive medium, the power supplies of the two electrode pins K1 and K2 are conducted, and the atomizing vibration device D can normally conduct electricity to work; when the inner ends of the two electrode pins K1 and K2 are submerged, the inner ends of the two electrode pins K1 and K2 are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins K1 and K2, and the atomization vibration device D cannot work; the structure is simple, the switch is more universal, the switch is accurate in detection, the cost is low, the switch and the base A are integrally injection molded, and the switch is easy to produce.

Preferably: the atomization oscillating device D comprises a soft rubber sealing ring D1, a micropore atomization sheet D2, a fastening pressing ring D3 and a pressing ring mounting hole D4; the micropore atomization sheet D2 is connected with the control circuit board B through an electric wire; the diameter of the microporous atomizing sheet D2 is 2 cm-3 cm; the microporous atomization sheet D2 is round; microporous atomizing sheet D2 belongs to the prior structural technology product;

the tail end of the water channel G is provided with a concave atomizing piece positioning step G1, and the atomizing piece positioning step G1 is circular; the side wall of the base A is provided with a compression ring mounting hole D4; the middle of the fastening compression ring D3 is provided with a spray hole G31; the micropores of the microporous atomizing sheet D2 are aligned with the spray holes G31; normally, the water flows to the microporous atomizing sheet D2 to stop, and the microporous atomizing sheet D2 does not work and cannot leak water; the microporous atomizing sheet D2 is vibrated after being electrified, water is changed into atomization from micropores through vibration, and then the atomization effect of smoke is achieved through spraying from the spraying holes G31; the control circuit board B supplies power to the microporous atomizing sheet D2.

The soft rubber sealing ring D1 is placed on the atomizing sheet positioning step G1, the microporous atomizing sheet D2 is placed on the atomizing sheet positioning step G1, the soft rubber sealing ring D1 is tightly pressed on the periphery of the microporous atomizing sheet D2, the fastening pressure ring D3 is tightly pressed on the periphery of the microporous atomizing sheet D2, and the fastening pressure ring D3 is tightly pressed and installed in the pressure ring installation hole D4 to be fixed; the periphery of the microporous atomizing sheet D2 cannot leak, and when the mosquito repellent liquid is used, the mosquito repellent liquid can be atomized and sprayed out only from micropores of the microporous atomizing sheet D2.

This is in setting up reasonable atomizing oscillation device D's specific structure, and this structural design is reasonable, easy installation, and is with low costs, and the leakproofness is good.

When water submerges the inner ends of the two electrode pins K1 and K2, the water is used as a conductive medium, the power supplies of the two electrode pins K1 and K2 are conducted, and the microporous atomizing sheet D2 can be normally electrified to work; when the inner ends of the two electrode pins K1 and K2 are submerged, the inner ends of the two electrode pins K1 and K2 are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins K1 and K2, and the microporous atomization sheet D2 cannot work.

Preferably: the soft rubber sealing ring D1 wraps the periphery of the microporous atomizing sheet D2, the microporous atomizing sheet D2 and the soft rubber sealing ring D1 can be pre-installed and positioned firstly, and then the soft rubber sealing ring D1 and the microporous atomizing sheet D2 are put into the atomizing sheet positioning step G1 together, so that the microporous atomizing sheet D2 and the soft rubber sealing ring D1 are not easy to fall off during installation, and meanwhile, the sealing effect is improved; the outer wall of the tail end of the water channel G is provided with an inverted step G2; the fastening clamping ring D3 is extended with a plurality of back-off hooks G32, the back-off hooks G32 are inserted into the back-off steps G2 to hook and fasten the fastening clamping ring D3, the structure is firm in installation, quick in installation and easy to assemble, and production efficiency is improved.

Preferably: the top of the base A at the outer periphery of the water concave cavity F is fixedly provided with a mosquito-repellent lamp L, so that the mosquito-repellent effect can be improved, and meanwhile, the mosquito-repellent lamp can also provide light source illumination in the dark or at night, and is particularly suitable for outdoor night tent/camping; the mosquito-repellent lamp L surrounds the water cavity F and also surrounds the water storage container H; the lamplight of the mosquito-repellent lamp L is yellow light, the yellow light has a specific mosquito-repellent effect, and the mosquito-repellent effect of the yellow light is better. White light, blue light and purple light have no mosquito repelling effect.

Preferably: the mosquito repelling lamp L comprises a surrounding lamp groove L1, an annular lamp circuit board L2, a plurality of mosquito repelling lamp beads L3 and an annular light transmitting lamp shade L4 which are arranged at the top of the base A, the annular lamp circuit board L2 is connected with a control circuit board B through wires, the plurality of mosquito repelling lamp beads L3 are scattered and fixed on the top of the annular lamp circuit board L2 in a surrounding mode, the annular lamp circuit board L2 is fixedly arranged at the bottom of the surrounding lamp groove L1 in a screw mode or an adhesive mode, the notch of the surrounding lamp groove L1 is fixedly provided with the annular light transmitting lamp shade L4 in a clamping mode or an adhesive mode, and the surrounding lamp groove L1 surrounds a water cavity F. When the mosquito-repellent lamp is used, the annular lamp circuit board L2 is electrified to enable the mosquito-repellent lamp beads L3 to emit light, the light is transmitted out of the annular light-transmitting lampshade L4, and the annular light-transmitting lampshade L4 is semitransparent or fully transparent; the annular light-transmitting lampshade L4 is integrally injection molded. The mosquito-repellent lamp is reasonable in specific structure and component assembly, suitable in position, easy to install and capable of repelling mosquitoes by the peripheral diffusion light source. The battery I is electrified to the annular lamp circuit board L2 to enable the mosquito-repellent lamp beads L3 to emit light.

Preferably: the base A comprises a bottom cover A1, a cylinder body A2 and a lining shell A3; the bottom cover A1, the cylinder A2 and the inner lining shell A3 are respectively formed by integral injection molding of a plastic injection molding machine; the component composition of the base A is reasonably designed, the components are few, the assembly is easy, the atomization vibration device D is convenient to set, and the battery I and the control circuit board B are convenient to install;

the atomization oscillating device D comprises a soft rubber sealing ring D1, a micropore atomization sheet D2, a fastening pressing ring D3 and a pressing ring mounting hole D4; the micropore atomization sheet D2 is connected with the control circuit board B through an electric wire; the components of the atomization oscillating device D are reasonably arranged, so that the atomization oscillating device is easy to install and seal; the soft rubber sealing ring D1 is made of silica gel or rubber;

the outer side wall of the cylinder body A2 is provided with a switch mounting hole A21, an electric switch C is fixedly connected at the switch mounting hole A21 in a penetrating way through a screw or adhesive or a buckle or clamping structure, and the electric switch C can be a mechanical key switch or a touch key switch. The electric switch C comprises a lighting switch and a micropore atomization sheet D2 switch function; the electric switch C can control whether the illumination switch and the microporous atomizing sheet D2 work independently or simultaneously;

an electric cavity E is formed in the cylinder A2 between the bottom cover A1 and the inner lining shell A3, and the control circuit board B is fixed at the bottom of the inner lining shell A3 by screws or adhesive;

the bottom of the cylinder A2 is fixedly provided with a bottom cover A1 by a screw; the inner top of the cylinder body A2 is fixed with a lining shell A3 by a screw, the bottom cover A1 is fixedly connected and reinforced with the lining shell A3 by the screw, a water cavity F is formed in the inner top of the lining shell A3, a water channel G is formed in the bottom wall of the water cavity F towards the outer side wall of the lining shell A3 body, and a concave atomizing sheet positioning step G1 is formed at the tail end of the water channel G; the side wall of the cylinder A2 is provided with a compression ring mounting hole D4; the middle of the fastening compression ring D3 is provided with a spray hole G31; the micropores of the microporous atomizing sheet D2 are aligned with the spray holes G31; the diameter of the microporous atomizing sheet D2 is 2 cm-3 cm; the microporous atomization sheet D2 is round; microporous atomizing sheet D2 belongs to the prior structural technology product;

the soft rubber sealing ring D1 is placed at the atomizing piece positioning step G1, the micropore atomizing piece D2 is placed at the atomizing piece positioning step G1, the periphery of the micropore atomizing piece D2 is tightly pressed against the gap around the soft rubber sealing ring D1 to prevent water leakage, the fastening clamping ring D3 is tightly pressed against the periphery of the micropore atomizing piece D2 to be sealed, the fastening clamping ring D3 and the clamping ring mounting hole D4 are just suitable for being installed in a penetrating way, and the fastening clamping ring D3 is fixedly installed in the clamping ring mounting hole D4 in a penetrating way. Normally, the water flows to the microporous atomizing sheet D2 to stop, and the microporous atomizing sheet D2 does not work and cannot leak water; the microporous atomizing sheet D2 is vibrated after being electrified, water is changed into atomization from micropores through vibration, and then the atomization effect of smoke is achieved through spraying from the spraying holes G31;

preferably: the battery I is fixedly arranged at the inner bottom of the bottom cover A1 by using screws or adhesive or clamping and is connected with the control circuit board B through an electric wire; the side wall of the barrel A2 is provided with a plug hole A22, and the plug hole A22 is fixedly connected with an electric terminal plug J in a penetrating way, so that the external power adapter is convenient to use. The battery I is chargeable, and is charged through the control circuit board B.

The inner wall of a water channel G of the water cavity F is fixedly provided with a water level switch K in a penetrating way, the water level switch K consists of two electrode pins K1 and K2, the middle between the two electrode pins K1 and K2 is smaller than 1 cm, the two electrode pins K1 and K2 are in penetrating way on the inner wall of the water channel G, the inner ends of the two electrode pins K1 and K2 extend out of the water channel G, and the outer ends of the two electrode pins K1 and K2 are connected with a control circuit board B through wires; when water submerges the inner ends of the two electrode pins K1 and K2, the water is used as a conductive medium, the power supplies of the two electrode pins K1 and K2 are conducted, and the microporous atomizing sheet D2 can be normally electrified to work; when the inner ends of the two electrode pins K1 and K2 are submerged, the inner ends of the two electrode pins K1 and K2 are exposed and have no conductive medium, a power supply cannot be conducted between the two electrode pins K1 and K2, the microporous atomizing sheet D2 cannot work, the anhydrous work is prevented, the electricity is protected, and the microporous atomizing sheet D2 is prevented from being burnt; the structure is simple, the switch is more universal, the switch is accurate in detection, the cost is low, the switch and the base A are integrally injection molded, and the switch is easy to produce. The two electrode needles K1 and K2 and the inner lining shell A3 are fixed by integral injection molding. The microporous atomizing sheet D2 has very low power consumption, and a low-power battery I can be used.

The top between the cylinder body A2 and the lining shell A3 is provided with a surrounding lamp groove L1, an annular lamp circuit board L2 is fixedly arranged at the bottom of the surrounding lamp groove L1 by using screws or viscose glue, a plurality of mosquito-repellent lamp beads L3 are fixedly arranged at the top of the annular lamp circuit board L2 in a surrounding and dispersing mode, an annular light-transmitting lampshade L4 is fixedly arranged at the notch of the surrounding lamp groove L1 by using screws or viscose glue or clamping, and the annular lamp circuit board L2 is connected with a control circuit board B by using wires; the surrounding lamp groove L1, the annular lamp circuit board L2 and the annular light-transmitting lampshade L4 surround the water concave cavity F; can emit light around the periphery to provide mosquito repellent effect, and provide illumination effect at night or in darkness.

The bottom of the bottom cover A1 is connected with four anti-skid foot pads.

Specific structure example 1:

an optoelectronic mosquito dispeller comprises a bottom cover A1, a cylinder A2, a lining shell A3, a control circuit board B, an electric switch C, a water storage container H, a battery I, a soft rubber sealing ring D1, a micropore atomization sheet D2, a fastening pressing ring D3, a pressing ring mounting hole D4, an electric terminal plug J, two electrode needles K1 and K2, a surrounding lamp groove L1, an annular lamp circuit board L2, a plurality of mosquito-dispelling lamp beads L3 and an annular light-transmitting lamp shade L4;

a switch mounting hole A21 is formed in the outer side wall of the cylinder body A2, and an electric switch C is fixed at the switch mounting hole A21;

an electric cavity E is formed in the cylinder body A2 between the bottom cover A1 and the inner lining shell A3, a control circuit board B is fixed at the bottom of the inner lining shell A3, and an electric switch C is connected with the control circuit board B;

a bottom cover A1 is fixedly arranged at the bottom of the cylinder A2; the inner top of the cylinder A2 is fixed with a liner shell A3, the inner top of the liner shell A3 is provided with a water cavity F, the bottom wall of the water cavity F is provided with a water channel G towards the outer side wall of the liner shell A3 body, and the tail end of the water channel G is provided with a concave atomization piece positioning step G1; the side wall of the cylinder A2 is provided with a compression ring mounting hole D4; the middle of the fastening compression ring D3 is provided with a spray hole G31; the micropores of the microporous atomizing sheet D2 are aligned with the spray holes G31;

the soft rubber sealing ring D1 wraps the periphery of the microporous atomization sheet D2; the soft rubber sealing ring D1 is placed on the atomizing sheet positioning step G1, the microporous atomizing sheet D2 is placed on the atomizing sheet positioning step G1, the soft rubber sealing ring D1 is tightly pressed on the periphery of the microporous atomizing sheet D2, the fastening pressure ring D3 is tightly pressed on the periphery of the microporous atomizing sheet D2, and the fastening pressure ring D3 is fixedly installed in the pressure ring installation hole D4 in a penetrating manner for fixing;

the outer wall of the tail end of the water channel G is provided with an inverted step G2; the fastening compression ring D3 is extended with a plurality of back-off hooks G32, and the back-off hooks G32 are inserted into the back-off steps G2 to hook and fasten the fastening compression ring D3.

A battery I is fixed at the bottom in the bottom cover A1 and is connected with the control circuit board B through an electric wire; a plug hole A22 is formed in the side wall of the barrel A2, and an electric terminal plug J is fixedly connected with the plug hole A22 in a penetrating manner;

the middle between the two electrode pins K1 and K2 is smaller than 1 cm, the two electrode pins K1 and K2 penetrate through the inner wall of the water channel G, the inner ends of the two electrode pins K1 and K2 extend out of the water channel G, and the outer ends of the two electrode pins K1 and K2 are connected with the control circuit board B through wires; when water submerges the inner ends of the two electrode pins K1 and K2, the water is used as a conductive medium, the power supplies of the two electrode pins K1 and K2 are conducted, and the microporous atomizing sheet D2 can be normally electrified to work; when the inner ends of the two electrode pins K1 and K2 are submerged, the inner ends of the two electrode pins K1 and K2 are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins K1 and K2, and the microporous atomization sheet D2 cannot work;

the top between the cylinder body A2 and the lining shell A3 is provided with a surrounding lamp groove L1, an annular lamp circuit board L2 is fixedly arranged at the bottom of the surrounding lamp groove L1, a plurality of mosquito-repellent lamp beads L3 are fixedly arranged at the top of the annular lamp circuit board L2 in a surrounding and dispersing mode, an annular light-transmitting lampshade L4 is fixed at the notch of the surrounding lamp groove L1, and the annular lamp circuit board L2 is connected with a control circuit board B through wires; the surrounding lamp groove L1, the annular lamp circuit board L2 and the annular light-transmitting lampshade L4 surround the water concave cavity F. The lamplight of the mosquito-repellent lamp bead L3 is yellow light.

The water cavity F is characterized in that the cavity opening of the water cavity F is connected with a detachable water storage container H in a sealing mode, a container opening H1 is formed in the bottom of the water storage container H, the container opening H1 is arranged in the water cavity F, and the water storage container H is installed in the cavity opening of the water cavity F in an inverted mode.

Specific structure example 2:

an optoelectronic mosquito dispeller comprises a bottom cover A1, a cylinder A2, a lining shell A3, a control circuit board B, an electric switch C, a water storage container H, a battery I, a soft rubber sealing ring D1, a micropore atomization sheet D2, a fastening pressing ring D3, a pressing ring mounting hole D4, an electric terminal plug J, two electrode needles K1 and K2;

a switch mounting hole A21 is formed in the outer side wall of the cylinder body A2, and an electric switch C is fixed at the switch mounting hole A21;

an electric cavity E is formed in the cylinder body A2 between the bottom cover A1 and the inner lining shell A3, a control circuit board B is fixed at the bottom of the inner lining shell A3, and an electric switch C is connected with the control circuit board B;

a bottom cover A1 is fixedly arranged at the bottom of the cylinder A2; the inner top of the cylinder A2 is fixed with a liner shell A3, the inner top of the liner shell A3 is provided with a water cavity F, the bottom wall of the water cavity F is provided with a water channel G towards the outer side wall of the liner shell A3 body, and the tail end of the water channel G is provided with a concave atomization piece positioning step G1; the side wall of the cylinder A2 is provided with a compression ring mounting hole D4; the middle of the fastening compression ring D3 is provided with a spray hole G31; the micropores of the microporous atomizing sheet D2 are aligned with the spray holes G31;

the soft rubber sealing ring D1 wraps the periphery of the microporous atomization sheet D2; the soft rubber sealing ring D1 is placed on the atomizing sheet positioning step G1, the microporous atomizing sheet D2 is placed on the atomizing sheet positioning step G1, the soft rubber sealing ring D1 is tightly pressed on the periphery of the microporous atomizing sheet D2, the fastening pressure ring D3 is tightly pressed on the periphery of the microporous atomizing sheet D2, and the fastening pressure ring D3 is fixedly installed in the pressure ring installation hole D4 in a penetrating manner for fixing;

the outer wall of the tail end of the water channel G is provided with an inverted step G2; the fastening compression ring D3 is extended with a plurality of back-off hooks G32, and the back-off hooks G32 are inserted into the back-off steps G2 to hook and fasten the fastening compression ring D3.

A battery I is fixed at the bottom in the bottom cover A1 and is connected with the control circuit board B through an electric wire; a plug hole A22 is formed in the side wall of the barrel A2, and an electric terminal plug J is fixedly connected with the plug hole A22 in a penetrating manner;

the middle between the two electrode pins K1 and K2 is smaller than 1 cm, the two electrode pins K1 and K2 penetrate through the inner wall of the water channel G, the inner ends of the two electrode pins K1 and K2 extend out of the water channel G, and the outer ends of the two electrode pins K1 and K2 are connected with the control circuit board B through wires; when water submerges the inner ends of the two electrode pins K1 and K2, the water is used as a conductive medium, the power supplies of the two electrode pins K1 and K2 are conducted, and the microporous atomizing sheet D2 can be normally electrified to work; when the inner ends of the two electrode pins K1 and K2 are submerged, the inner ends of the two electrode pins K1 and K2 are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins K1 and K2, and the microporous atomization sheet D2 cannot work;

the water cavity F is provided with a water storage container H in a sealing way, the bottom of the water storage container H is provided with a container opening H1, the container opening H1 is arranged in the water cavity F, the top of the water storage container H is provided with a liquid adding hole H3, the liquid adding hole H3 is connected with a detachable liquid hole sealing member H4, the liquid hole sealing member H4 is opened to enable mosquito repellent liquid to be added into the water storage container H, after the mosquito repellent liquid is added, the liquid adding hole H3 is blocked or screwed up through the liquid hole sealing member H4, and the mosquito repellent liquid is conveniently added; the liquid hole sealing element H4 is a soft rubber sealing plug or a colloid sealing cover.

Specific structure example 3:

an optoelectronic mosquito dispeller comprises a bottom cover A1, a cylinder A2, a lining shell A3, a control circuit board B, an electric switch C, a water storage container H, a battery I, a soft rubber sealing ring D1, a micropore atomization sheet D2, a fastening pressing ring D3, a pressing ring mounting hole D4, an electric terminal plug J, a water level switch K, a surrounding lamp groove L1, an annular lamp circuit board L2, a plurality of mosquito-dispelling lamp beads L3 and an annular light-transmitting lamp shade L4;

a switch mounting hole A21 is formed in the outer side wall of the cylinder body A2, and an electric switch C is fixed at the switch mounting hole A21;

an electric cavity E is formed in the cylinder body A2 between the bottom cover A1 and the inner lining shell A3, a control circuit board B is fixed at the bottom of the inner lining shell A3, and an electric switch C is connected with the control circuit board B;

a bottom cover A1 is fixedly arranged at the bottom of the cylinder A2; the inner top of the cylinder A2 is fixed with a liner shell A3, the inner top of the liner shell A3 is provided with a water cavity F, the bottom wall of the water cavity F is provided with a water channel G towards the outer side wall of the liner shell A3 body, and the tail end of the water channel G is provided with a concave atomization piece positioning step G1; the side wall of the cylinder A2 is provided with a compression ring mounting hole D4; the middle of the fastening compression ring D3 is provided with a spray hole G31; the micropores of the microporous atomizing sheet D2 are aligned with the spray holes G31;

the soft rubber sealing ring D1 wraps the periphery of the microporous atomization sheet D2; the soft rubber sealing ring D1 is placed on the atomizing sheet positioning step G1, the microporous atomizing sheet D2 is placed on the atomizing sheet positioning step G1, the soft rubber sealing ring D1 is tightly pressed on the periphery of the microporous atomizing sheet D2, the fastening pressure ring D3 is tightly pressed on the periphery of the microporous atomizing sheet D2, and the fastening pressure ring D3 is fixedly installed in the pressure ring installation hole D4 in a penetrating manner for fixing;

the outer wall of the tail end of the water channel G is provided with an inverted step G2; the fastening compression ring D3 is extended with a plurality of back-off hooks G32, and the back-off hooks G32 are inserted into the back-off steps G2 to hook and fasten the fastening compression ring D3.

A battery I is fixed at the bottom in the bottom cover A1 and is connected with the control circuit board B through an electric wire; a plug hole A22 is formed in the side wall of the barrel A2, and an electric terminal plug J is fixedly connected with the plug hole A22 in a penetrating manner;

a water level switch K is fixedly connected to the bottom wall of the water cavity F or the inner wall of the water channel G in a penetrating way; the water level switch K is connected with the control circuit board B through an electric wire; when the water level switch K is submerged, the mosquito repellent liquid is sufficient, the switch is turned on, the control circuit board B can be connected with the power supply of the microporous atomizing sheet D2, the microporous atomizing sheet D2 can be normally electrified to work, and mist spraying work is realized; when the water level switch K is submerged, the mosquito repellent liquid is not present, the switch is not conducted, the control circuit board B cuts off the power supply of the microporous atomizing sheet D2, the power supply is automatically cut off, the microporous atomizing sheet D2 stops working, the mist spraying work is stopped, and the microporous atomizing sheet D2 is protected.

The top between the cylinder body A2 and the lining shell A3 is provided with a surrounding lamp groove L1, an annular lamp circuit board L2 is fixedly arranged at the bottom of the surrounding lamp groove L1, a plurality of mosquito-repellent lamp beads L3 are fixedly arranged at the top of the annular lamp circuit board L2 in a surrounding and dispersing mode, an annular light-transmitting lampshade L4 is fixed at the notch of the surrounding lamp groove L1, and the annular lamp circuit board L2 is connected with a control circuit board B through wires; the surrounding lamp groove L1, the annular lamp circuit board L2 and the annular light-transmitting lampshade L4 surround the water concave cavity F. The lamplight of the mosquito-repellent lamp bead L3 is yellow light.

The water cavity F is characterized in that the cavity opening of the water cavity F is connected with a detachable water storage container H in a sealing mode, a container opening H1 is formed in the bottom of the water storage container H, the container opening H1 is arranged in the water cavity F, and the water storage container H is installed in the cavity opening of the water cavity F in an inverted mode.

Claims (11)

1. The utility model provides a photoelectric mosquito dispeller, includes base, control circuit board, electric switch, atomizing oscillation device, and the electric cavity has been seted up to the inside of base, and electric cavity internal fixation has control circuit board, and the lateral wall of base is fixed with electric switch, and control circuit board is connected with electric switch, atomizing oscillation device through the electric conductor respectively, and atomizing oscillation device is used for oscillating atomizing blowout to the mosquito repellent liquid, its characterized in that: a water concave cavity is formed in the middle of the top of the base, a water channel is formed from the bottom wall of the water concave cavity to the outer side wall of the base, an atomization vibration device is fixed at the port of the outer end of the water channel in a sealing manner, and the atomization vibration device is positioned on the side wall of the base; the atomization oscillating device is lower than the water concave cavity;

the cavity opening of the water cavity is connected with a water storage container in a sealing way, the bottom of the water storage container is provided with a container opening, and the container opening is arranged in the water cavity; the water concave cavity and the water storage container are used for containing mosquito repellent liquid.

2. The optoelectronic mosquito repellent according to claim 1, wherein: a battery is fixed at the bottom in the electric cavity and is connected with the control circuit board through an electric wire; the cavity opening of the water cavity is connected with a detachable water storage container in a sealing mode, and the water storage container is arranged at the cavity opening of the water cavity in an inverted mode.

3. The optoelectronic mosquito repellent according to claim 1, wherein: the side wall of the base is fixedly connected with an electric terminal plug in a penetrating way.

4. The optoelectronic mosquito repellent according to claim 1, wherein: the bottom wall of the water cavity or the inner wall of the water channel is fixedly connected with a water level switch or a water level sensor in a penetrating way, and the water level switch or the water level sensor is connected with the control circuit board through an electric wire.

5. The photoelectric mosquito repellent according to claim 4, wherein: the water level switch consists of two electrode needles, the middle between the two electrode needles is smaller than 1 cm, the two electrode needles penetrate through the bottom wall of the water cavity or the inner wall of the water channel, and the outer ends of the two electrode needles are connected with the control circuit board through wires; when water submerges the inner ends of the two electrode pins, the water is used as a conductive medium, the power supplies of the two electrode pins are conducted, and the atomizing vibration device can be normally electrified to work; when the inner ends of the two electrode pins are submerged, the inner ends of the two electrode pins are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins, and the atomization vibration device cannot work.

6. A photoelectric mosquito repellent according to any one of claims 1 to 5, wherein: the atomization oscillating device comprises a soft rubber sealing ring, a microporous atomization sheet, a fastening pressing ring and a pressing ring mounting hole; the micropore atomization sheet is connected with the control circuit board through an electric wire;

the tail end of the water channel is provided with a concave atomizing sheet positioning step; the side wall of the base is provided with a compression ring mounting hole; the middle of the fastening compression ring is provided with a spray hole; the micropores of the microporous atomizing sheet are aligned with the atomizing holes;

the soft rubber sealing ring is placed at the atomizing piece location step, and micropore atomizing piece is placed at the atomizing piece location step, and the periphery of micropore atomizing piece compresses tightly the soft rubber sealing ring, and the fastening clamping ring compresses tightly the periphery of micropore atomizing piece and seals, and the fastening clamping ring is installed in the clamping ring mounting hole and is fixed.

7. The optoelectronic mosquito repellent according to claim 6, wherein: the soft rubber sealing ring wraps the periphery of the microporous atomization sheet; the outer wall of the tail end of the water channel is provided with an inverted step; the fastening clamping ring is extended with a plurality of back-off hooks, and the back-off hooks are inserted into the back-off step hooks to fasten the fastening clamping ring.

8. A photoelectric mosquito repellent according to any one of claims 1 to 5, wherein: the top of the base at the outer periphery of the water concave cavity is fixedly provided with a mosquito-repellent lamp, and the mosquito-repellent lamp surrounds the water concave cavity and also surrounds the water storage container; the lamplight of the mosquito-repellent lamp is yellow light.

9. The optoelectronic mosquito repellent according to claim 8, wherein: the mosquito repelling lamp comprises a surrounding lamp groove, an annular lamp circuit board, a plurality of mosquito repelling lamp beads and an annular light-transmitting lamp shade which are arranged at the top of the base, wherein the annular lamp circuit board is connected with the control circuit board through wires, the top of the annular lamp circuit board is fixed with the plurality of mosquito repelling lamp beads in a surrounding mode, the annular lamp circuit board is fixedly arranged at the bottom of the surrounding lamp groove, the annular light-transmitting lamp shade is fixed at the notch of the surrounding lamp groove, and the surrounding lamp groove surrounds the water cavity.

10. The optoelectronic mosquito repellent according to claim 1, wherein: the base comprises a bottom cover, a cylinder body and a lining shell;

the atomization oscillating device comprises a soft rubber sealing ring, a microporous atomization sheet, a fastening pressing ring and a pressing ring mounting hole; the micropore atomization sheet is connected with the control circuit board through an electric wire;

a switch mounting hole is formed in the outer side wall of the cylinder body, and an electric switch is fixed at the switch mounting hole;

an electric cavity is formed in the cylinder body between the bottom cover and the inner lining shell, and a control circuit board is fixed at the bottom of the inner lining shell;

a bottom cover is fixedly arranged at the bottom of the cylinder body; the inner top of the cylinder body is fixed with a lining shell, the inner top of the lining shell is provided with a water cavity, the bottom wall of the water cavity is provided with a water channel towards the outer side wall of the lining shell body, and the tail end of the water channel is provided with a concave atomizing piece positioning step; the side wall of the cylinder body is provided with a compression ring mounting hole; the middle of the fastening compression ring is provided with a spray hole; the micropores of the microporous atomizing sheet are aligned with the atomizing holes;

the soft rubber sealing ring is placed at the atomizing piece location step, and micropore atomizing piece is placed at the atomizing piece location step, and the periphery of micropore atomizing piece compresses tightly the soft rubber sealing ring, and the fastening clamping ring compresses tightly the periphery of micropore atomizing piece and seals, and fastening clamping ring cross-under fixed mounting is fixed in the clamping ring mounting hole.

11. The optoelectronic mosquito repellent according to claim 10, wherein: a battery is fixed at the inner bottom of the bottom cover and is connected with the control circuit board through an electric wire; the side wall of the cylinder body is provided with a plug hole, and an electric terminal plug is fixedly connected with the plug hole in a penetrating way;

the water level switch is fixed on the inner wall of the water channel of the water cavity in a penetrating way and consists of two electrode needles, the middle between the two electrode needles is smaller than 1 cm, the two electrode needles are penetrated on the inner wall of the water channel in a penetrating way, the inner ends of the two electrode needles extend out of the water channel, and the outer ends of the two electrode needles are connected with the control circuit board through wires; when water submerges the inner ends of the two electrode pins, the water is used as a conductive medium, the power supply of the two electrode pins is conducted, and the microporous atomizing sheet can be normally electrified to work; when the inner ends of the two electrode pins are submerged, the inner ends of the two electrode pins are exposed, no conductive medium exists, a power supply cannot be conducted between the two electrode pins, and the microporous atomizing sheet cannot work;

the top between the cylinder body and the lining shell is provided with a surrounding lamp groove, the bottom of the surrounding lamp groove is fixedly provided with an annular lamp circuit board, the top of the annular lamp circuit board is fixedly provided with a plurality of mosquito-repellent lamp beads in a surrounding and dispersing mode, the notch of the surrounding lamp groove is fixedly provided with an annular light-transmitting lampshade, and the annular lamp circuit board is connected with the control circuit board through wires; the surrounding lamp groove, the annular lamp circuit board and the annular light-transmitting lampshade surround the water concave cavity.