CN218184861U - Electric heating type spraying mosquito killing device - Google Patents

Abstract

The utility model discloses an electric heating type spraying mosquito eradication device, including shell and spraying subassembly, the stock solution chamber has been seted up at the center of this shell, be provided with heating unit in the shell, be provided with the power connector on the outer wall of the shell that is close to this heating unit, bottom in the stock solution chamber is provided with temperature sensor and first level sensor, the top in stock solution chamber is provided with second level sensor, be provided with in the shell of stock solution chamber top from inhaling booster pump and control mechanism, import from inhaling the booster pump is linked together through feed liquor pipe and stock solution chamber, export from inhaling the booster pump is passed through the drain pipe and is linked to each other with spraying subassembly, the inlet has been seted up at the top of shell, this inlet passes through collection hopper and stock solution chamber intercommunication, be provided with sealed lid in the inlet, top at the shell still is provided with switch, be provided with the handle on the lateral wall of shell, be provided with spraying switch on hand. The remarkable effects are as follows: achieves the effect of killing mosquitoes without environmental pollution and harm through high-temperature water mist.

Description

Electric heating type spraying mosquito killing device

Technical Field

The utility model relates to kill mosquito equipment technical field, concretely relates to electric heat formula spraying mosquito eradication device.

Background

Many infectious diseases such as malaria, dengue fever, japanese encephalitis, yellow fever, etc. are mostly transmitted by mosquitoes as vectors, and although many infectious diseases are reduced due to factors such as improvement of environmental sanitation, etc., some infectious diseases have increasingly serious trend, so that besides measures of actively improving environmental quality, clearing breeding sources of mosquitoes, effective mosquito catching and killing modes are also a necessary and final protection means.

Although the familiar kill mosquito mode can reach certain kill mosquito effect such as mosquito-repellent incense, insecticide or mosquito killer lamp, nevertheless still have considerable shortcoming in the use, except catching the mosquito lamp, other kill mosquito modes all need utilize specific chemical to reach the effect of mosquito repellent kill mosquito, it all can produce the poisonous harmful substance to the human body in the use, especially to more places of mosquito such as restaurant, can not have good kill mosquito effect if the dose is few, the dose has greatly then can contact with food, can influence people's health and even have the poisoning risk. Therefore, there is a need to develop an environmentally friendly mosquito eradication device having a good mosquito eradication effect.

Disclosure of Invention

Not enough to prior art, the utility model aims at providing an electric heat formula spraying mosquito eradication device for boil back formation high temperature spraying and carry out the kill mosquito to the hot-water heating, compromise the feature of environmental protection when can realize having good kill mosquito effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an electric heating type spraying mosquito killing device is characterized in that: including shell and spraying assembly, the stock solution chamber has been seted up at the center of this shell, is provided with the heating unit in the shell of this stock solution chamber below, is provided with the power connector on the outer wall of the shell that is close to this heating unit the bottom in stock solution chamber is provided with temperature sensor and first level sensor, the top in stock solution chamber is provided with second level sensor be provided with in the shell of stock solution chamber top from inhaling booster pump and control mechanism, from inhaling the import of booster pump through the feed liquor pipe with the stock solution chamber is linked together, from inhaling the export of booster pump through the drain pipe with spraying assembly links to each other the inlet has been seted up at the top of shell, this inlet pass through the liquid collecting hopper with stock solution chamber intercommunication be provided with sealed lid in the inlet the top of shell still is provided with switch be provided with on the lateral wall of shell the handle, be provided with spraying switch on hand, heating unit, temperature sensor, first level sensor, second level sensor, from inhaling booster pump, switch and spraying switch all with control mechanism electricity is connected.

Further, control mechanism includes controller and power module, temperature sensor, first level sensor, second level sensor, switch and spraying switch all are connected to on each input of controller, the output end group of controller with heating unit, from inhaling the booster pump and being connected.

Furthermore, a charging port is formed in the shell close to the control mechanism.

Furthermore, the spraying subassembly includes atomizer and evenly distributed shower nozzle on the atomizer, the inlet of atomizer with the drain pipe links to each other.

Furthermore, the liquid outlet pipe adopts a spiral telescopic coil pipe.

Furthermore, a heat insulation handle is arranged at the outlet of the liquid outlet pipe.

Furthermore, the handle is provided with anti-skidding lines.

Furthermore, a warning lamp is arranged at the top of the shell and electrically connected with the control mechanism.

The utility model discloses a show the effect and be:

1. through the temperature sensor, the power switch and the control mechanism, the heating can be automatically stopped after the water in the liquid storage cavity is heated to be boiled, then the device can be transferred to a use position, the boiling water can be pumped into the spraying component by the self-absorption booster pump after the spraying switch is pressed down and then is sprayed on the surface of an object to be killed or a direct mosquito, and the mosquito can die when the temperature exceeds 50 ℃, so that the sprayed high-temperature water mist of more than 90 ℃ can effectively kill the mosquito, the good mosquito killing effect is achieved through the high-temperature water mist, meanwhile, no toxic substance is contained in the boiling water mist, no harm is caused to a human body, no influence is caused to food in a restaurant, and the defects existing in the mosquito killing process of the background technology are well overcome;

2. the atomizer and the nozzles arranged on the spraying assembly can ensure that the sprayed boiling water mist is uniformly distributed in the air, so that the mosquito killing effect can be ensured, and the waste of water resources can be avoided;

3. through the arrangement of the telescopic liquid outlet pipe, a user can adjust the length of the liquid outlet pipe according to the height of a mosquito or an object with a mosquito killing function, and the telescopic liquid outlet pipe is also suitable for killing mosquitoes in places with narrow space and the like where operation is difficult to perform, and has a good using effect;

4. the liquid level height of water in the liquid storage cavity can be detected through the arranged first liquid level sensor and the second liquid level sensor, liquid adding operation can be stopped when the second liquid level sensor is added with water and the warning lamp is turned on when the warning lamp is turned on green, and liquid is timely added when boiling water is lower than the first liquid level sensor after spraying and mosquito killing is carried out;

5. through the setting of the mouth that charges, make things convenient for the user of service to charge to battery module to make this device need not connect the power when spraying kill mosquito operation, realized portable mobilizable kill mosquito operation.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic block circuit diagram of the present invention;

fig. 3 is a schematic structural diagram of another embodiment of the present invention.

Detailed Description

The following provides a more detailed description of the embodiments and the operation of the present invention with reference to the accompanying drawings.

Example 1:

as shown in fig. 1, an electric heating type spraying mosquito eradication device, including shell 1 and spraying subassembly 2, stock solution chamber 3 has been seted up at the center of this shell 1, is provided with heating unit 4 in the shell 1 of this stock solution chamber 3 below, is close to be provided with power connector 5 on the outer wall of this heating unit 4 the bottom of stock solution chamber 3 is provided with temperature sensor 6 and first level sensor 7, the top of stock solution chamber 3 is provided with second level sensor 8 be provided with in the shell 1 of stock solution chamber 3 top from inhaling booster pump 9 and control mechanism 10, the import of inhaling booster pump 9 pass through feed liquor pipe 11 with stock solution chamber 3 is linked together, the export of inhaling booster pump 9 pass through feed liquor pipe 12 with spraying subassembly 2 links to each other, is close to set up charge mouth 13 on the shell 1 of control mechanism 10 the inlet has been seted up at the top of shell 1, this inlet pass through liquid collecting bucket 14 with 3 intercommunication of stock solution chamber be provided with 15 in the inlet the top of shell 1 still be provided with power switch 16 and warning light 17 be provided with handle 18 on the lateral wall of shell 1, be provided with on the handle slip handle 18 be provided with anti-grain switch 18 on the handle switch control unit 19, be provided with spray switch 8, spray switch control mechanism 6, liquid level sensor, the liquid level sensor 7 is all connected with liquid level sensor 6, the liquid level sensor 7 is connected with liquid level sensor 6, is connected with liquid level sensor 8.

As can also be seen from fig. 1, the spraying assembly 2 comprises an atomizer 201 and spray heads 202 uniformly distributed on the atomizer, and a liquid inlet of the atomizer 201 is connected with the liquid outlet pipe 12.

As shown in fig. 2, the control mechanism 10 includes a controller and a power supply module, the temperature sensor 6, the first liquid level sensor 7, the second liquid level sensor 8, the power supply switch 16 and the spray switch 19 are all connected to each input end of the controller, and the output end group of the controller is connected to the heating unit 4 and the self-priming booster pump 9.

When the liquid storage device is specifically implemented, the heating unit 4 is used for heating the boiling water in the liquid storage cavity 3, the temperature sensor 6 is used for collecting the temperature of the boiling water, and when the monitored temperature of the boiling water in the liquid storage cavity 3 reaches a preset threshold value, the controller disconnects the connection between the heating unit 4 and the power connector 5 through the driving circuit to stop the further heating of the heating unit 4 on the boiling water. The first liquid level sensor 7 is located at the bottom of the liquid storage cavity 3 and used for monitoring the minimum liquid level height of water in the liquid storage cavity in the strong leaf emergence state, the second liquid level sensor 8 is located at the top of the liquid storage cavity 3 and used for monitoring the maximum liquid level height of the water, when the liquid level height reaches the minimum liquid level, the controller sends a signal to control the warning lamp 17 to light a red lamp to prompt that water needs to be supplemented, and meanwhile, the connection between the heating unit 4 and the power connector 5 is disconnected through the driving circuit, so that the heating cannot be carried out even if the power switch 16 is pressed down, and the dry burning is prevented; when the liquid level height reaches the maximum value, the controller sends a signal to control the warning lamp 17 to light a green lamp, the water replenishing is stopped, meanwhile, the driving circuit is used for disconnecting the connection between the heating unit 4 and the power connector 5, and the power switch 16 is pressed down to heat the water. When the spray switch 19 is turned on, the self-absorption booster pump 9 works by electrifying, the boiling water is sucked out from the liquid storage cavity 3 and pumped into the spray component 2, then the spray component 2 sprays the boiling water on the surface of the object to be killed or the mosquito, and when the spray switch 19 is turned off, the boiling water cannot be sprayed out from the spray head.

The utility model provides a each pipeline component among the mosquito eradication device, the pump chamber of inhaling booster pump 9 and wherein impeller, the lateral wall in stock solution chamber 3, sensor etc. all can adopt copper material, macromolecular material or the stainless steel material preparation that is difficult for oozing the carbon when contacting with boiling water to form with the component of boiling water direct contact.

Example 2:

the difference from embodiment 1 is that the liquid outlet pipe 12 is a spiral telescopic coil pipe, and as shown in fig. 3, an insulating handle 20 is arranged at the outlet of the liquid outlet pipe 12.

Through the setting of scalable drain pipe 12, user of service can be according to the length of the altitude mixture control drain pipe 12 of institute's kill mosquito article or mosquito, can also be applicable to the kill mosquito that the narrow and small department in space is difficult for operating etc. places, the result of use is better.

When the device is used, the principle and the operation process of the embodiment 1 and the embodiment 2 are the same, firstly, the sealing cover 15 is opened, boiling water is added into the liquid storage cavity 3 from the liquid inlet, the liquid collecting hopper 14 is added into the liquid storage cavity 3, when the liquid level of the water reaches the second liquid level sensor 8, the controller sends a signal to control the warning lamp 17 to light a green lamp, the water adding is prompted to stop, then the power connector 5 and an external power supply are connected, the power switch 16 is pressed to heat the water through the heating unit 4, when the water temperature monitored by the temperature sensor 6 in the liquid storage cavity 3 reaches a preset threshold value, namely, the water is boiled, the controller cuts off the connection between the heating unit 4 and the power connector 5 through the driving circuit, then the device is transferred to a use position, after the spray switch 19 is pressed, the boiling water can be pumped into the spray component 2 through the self-absorption booster pump 9 and then is sprayed on the surface of an object or mosquito to be killed.

The technical scheme provided by the utility model is introduced in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (8)

1. An electric heating type spraying mosquito killing device is characterized in that: including shell and spraying assembly, the stock solution chamber has been seted up at the center of this shell, is provided with the heating unit in the shell of this stock solution chamber below, is close to and is provided with the power connector on the outer wall of this heating unit's shell the bottom in stock solution chamber is provided with temperature sensor and first level sensor, the top in stock solution chamber is provided with second level sensor be provided with in the shell of stock solution chamber top from inhaling booster pump and control mechanism, from inhaling the import of booster pump through the feed liquor pipe with the stock solution chamber is linked together, from inhaling the export of booster pump through the drain pipe with spraying assembly links to each other the inlet has been seted up at the top of shell, this inlet through the collection hopper with stock solution chamber intercommunication be provided with sealed lid in the inlet the top of shell still is provided with switch be provided with the handle on the lateral wall of shell, be provided with spraying switch on hand, heating unit, temperature sensor, first level sensor, second level sensor, from inhaling booster pump, power switch and spraying switch all with control mechanism electricity is connected.

2. The electrothermal spray mosquito eradication device according to claim 1, wherein: control mechanism includes controller and power module, temperature sensor, first level sensor, second level sensor, switch and spray switch all are connected to on each input of controller, the output end group of controller with heating unit, from inhaling the booster pump and being connected.

3. An electrothermal spray mosquito eradication device according to claim 2, wherein: a charging port is formed in the shell close to the control mechanism.

4. An electrothermal spray mosquito eradication device according to claim 1, wherein: the spraying assembly comprises an atomizer and spray heads which are uniformly distributed on the atomizer, and a liquid inlet of the atomizer is connected with the liquid outlet pipe.

5. An electrothermal spray mosquito eradication device according to claim 1, wherein: the liquid outlet pipe adopts a spiral telescopic coil pipe.

6. An electrothermal spray mosquito eradication device according to claim 4, wherein: and a heat insulation handle is arranged at the outlet of the liquid outlet pipe.

7. An electrothermal spray mosquito eradication device according to claim 1, wherein: the handle is provided with anti-skid lines.

8. An electrothermal spray mosquito eradication device according to any one of claims 1-7, wherein: and a warning lamp is also arranged at the top of the shell and is electrically connected with the control mechanism.

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