CN212937531U - Reusable indoor insect killing system - Google Patents

Abstract

The utility model relates to a technical field of killing the pest discloses multiplexing indoor insecticidal system, including injection apparatus and breather, injection apparatus includes storage member, adaptor and injection member, and breather is used for taking a breath, and storage member cavity is formed with and deposits the chamber, and the adaptor diverts the insecticide from storage member, and injection member is used for spraying out the insecticide, and storage member is connected with the adaptor, and the adaptor is connected with the injection member; by providing the spraying device and the air interchanger, wherein the spraying device comprises the storage part, the conversion part and the spraying part, the insecticide enters the conversion part from the storage part and is sprayed out from the spraying part, and when the indoor air is filled with the insecticide, the air interchanger exchanges the indoor air again, so that the indoor insecticidal system can automatically kill pests and can also quickly exchange the air, the pests can be killed when no person exists in the room, and the influence of the insecticide on the person who stays in the room can not be caused.

Description

Reusable indoor insect killing system

Technical Field

The utility model discloses a technical field who disappears and kill the pest particularly, relates to can multiplexing indoor insecticidal system.

Background

With the increasing requirements of people on life and the increasing living standard of people, a high-rise building is closed into a plurality of small living spaces to trap the moving range of people, and mosquitoes and flies can enter the small living spaces without holes, so that even one person can be worried.

At present, the pesticide is mainly sprayed artificially, and people need to wait for a long time outdoors after spraying the pesticide indoors and then can return indoors again.

In the prior art, a reusable indoor insect killing system which can automatically spray insecticide and automatically ventilate indoors is lacked.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can multiplexing indoor insecticidal system aims at providing a can multiplexing indoor insecticidal system.

The utility model discloses a realize like this, can multiplexing indoor insecticidal system, including injection apparatus and the breather that is used for taking a breath, injection apparatus includes that the cavity is formed with the storage member that deposits the chamber, with the insecticide from depositing the adaptor that the diversion flowed in the piece and being used for spraying out the insecticide and spray the piece, storage member with the adaptor is connected, the adaptor with spray the piece and be connected; the air interchanger comprises an air interchanger with an air interchanger and a filtering piece for filtering air, the air interchanger and the filtering piece are fixedly connected and arranged, and indoor air passes through the filtering piece and then is conveyed to the outside.

Further, a spray head and an electric pump are arranged on the spraying part, the spraying part is hollow to form a spraying cavity, and the electric pump is arranged in the spraying cavity; the electric pump is connected with the spray head through a pipeline, and the spray head is fixedly connected to the spraying piece.

Furthermore, the inside cavity of adaptor is formed with the switching pipe, the one end intercommunication of switching pipe deposit the chamber, the other end of switching pipe is connected the charge pump.

Furthermore, a switch block is arranged at the upper part of the storage part, and a storage through hole penetrating to the storage cavity is formed in the switch block; the upper portion of the switch block is provided with a covering block which covers the hole opening of the storage through hole, one side of the covering block is hinged to one side of the switch block, and the other side of the covering block is fastened with the other side of the switch block.

Further, the outlet pipe in the spray head becomes wider gradually in the direction from the front end to the storage member.

Furthermore, an air fan through hole is formed in the air exchange piece in a hollow mode, the air fan through hole penetrates through the air exchange piece, and the air exchange fan is embedded into the air fan through hole.

Furthermore, the filtering element is connected with the air exchange element and covers the air fan through hole, a filtering cavity is formed in the filtering element, a filtering layer and a filtering net are arranged in the filtering cavity, and the filtering net and the filtering layer are arranged side by side; the filter screen is provided with filter holes which are arranged at intervals along the inner periphery of the filter screen.

Furthermore, a filtering through hole is formed in the filtering piece and penetrates through the filtering cavity; the filter comprises a filter cavity, a filter screen and a filter layer, wherein the inner wall of the filter cavity is provided with a buckling part, and the filter screen and the filter layer are buckled with the buckling part.

Furthermore, an opening and closing piece is arranged on the filter piece, an opening and closing through hole is formed in the opening and closing piece, the opening and closing piece covers the filtering through hole, and the opening and closing through hole is communicated with the filtering through hole.

Further, one side of the opening and closing piece is connected with the side wall of the filter piece, and the other side of the opening and closing piece is buckled with the other side wall of the filter piece.

Compared with the prior art, the utility model provides a can multiplexing indoor insecticidal system, through providing injection apparatus and breather, wherein injection apparatus is including depositing the piece, the converting part and spraying the piece, the insecticide enters into the converting part from depositing the piece, then spray away from spraying the piece, wait when indoor air is full of the insecticide, breather takes a breath indoor air again, indoor insecticidal system can carry out the pest and kill automatically like this, can also take a breath fast, just so can wait to carry out the kill of pest again when indoor nobody, can not lead to still receiving the influence of insecticide at indoor people.

Drawings

Fig. 1 is a schematic cross-sectional view of a spray device provided by the present invention;

fig. 2 is a schematic cross-sectional view of the ventilation device provided by the present invention;

fig. 3 is a front view schematically illustrating the injection device and the ventilation device according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-3, the preferred embodiment of the present invention is shown.

The reusable indoor insect killing system provided by the embodiment can be used for killing pests.

The reusable indoor insecticidal system comprises a spraying device 11 and an air interchanger 12, wherein the spraying device 11 comprises a storage part, an adapter part and a spraying part 15, the air interchanger 12 is used for air interchange, a storage cavity 22 is formed in the hollow storage part, the adapter part enables an insecticide to flow in the storage part in a transfer mode, the spraying part 15 is used for spraying the insecticide out, the storage part is connected with the adapter part, and the adapter part is connected with the spraying part 15; the ventilation device 12 comprises a ventilation element with a ventilation fan 25 and a filtering element for filtering the air, which is fixedly connected to the ventilation element and the filtering element, and the indoor air is conveyed to the outside through the ventilation element after passing through the filtering element.

By providing the spraying device 11 and the ventilating device 12, wherein the spraying device 11 comprises the storage part, the conversion part and the spraying part 15, the insecticide enters the conversion part from the storage part and is sprayed out from the spraying part 15, and when the indoor air is filled with the insecticide, the ventilating device 12 ventilates the indoor air, so that the indoor insecticidal system can automatically kill pests and can also ventilate quickly, the pests can be killed when no person is in the room, and the influence of the insecticide on the person in the room can not be caused.

Wherein the spraying part 15 is provided with a spray head 16 and an electric pump 20, the spraying part 15 is hollow to form a spraying cavity, and the electric pump 20 is arranged in the spraying cavity; the electric pump 20 is connected with the spray head 16 through a pipeline, and the spray head 16 is fixedly connected with the spraying piece 15.

Specifically, the electric pump 20 is connected to the inner wall of the spray chamber and is fixedly connected to the inner wall of the spray chamber, so that the electric pump 20 can be fixed to allow the electric pump 20 to stably output the insecticide to the spray head 16.

The interior of the adapter is hollow and provided with an adapter tube 21, one end of the adapter tube 21 is communicated with the storage cavity 22, the other end of the adapter tube is connected with the electric pump 20, so that the insecticide stored in the storage cavity 22 can flow to the electric pump 20 through the adapter tube, and then the electric pump 20 conveys the insecticide to the spray head 16 so as to spray the insecticide.

And the inner wall of the adapter tube is made of corrosion-resistant materials, so that the situation that the insecticide stays in the adapter tube for a long time to corrode the tube wall can be prevented.

A storage opening is formed in the bottom wall of the storage cavity 22, the storage opening is communicated with the adapter tube, and the bottom wall of the storage cavity 22 radially protrudes upwards around the periphery of the storage opening to form a slope; the ramp extends to a side wall in the storage chamber 22 in a direction away from the storage opening and is fixedly connected to the side wall in the storage chamber 22.

The storage cavity 22 is also provided with a liquid level detection piece, when the residual amount of the insecticide in the storage cavity 22 is too small, the liquid level detection piece can give an alarm, so that a person can be reminded to add the insecticide; and the spraying piece 15 is provided with an indicator light which is used for receiving the alarm of the liquid level detection piece, so that the pesticide in the spraying piece can be more conveniently remained to be insufficient, and the spraying device is very convenient.

The liquid level detecting member includes a float and a sensing block disposed on an upper wall of the storage chamber 22, and the sensing block senses a distance between the float and the sensing block, thereby determining a height of the liquid level.

Still another embodiment, liquid level detection spare is including arranging pressure sensors and the singlechip at depositing the internal periphery of trompil, and the liquid pressure that pressure sensors sensed is calculated to the singlechip to judge the height of liquid level, then show the alarm through the pilot lamp.

In addition, the upper part of the storage piece is provided with a switch block 13, and the switch block 13 is provided with a storage through hole which penetrates to the storage cavity 22; the upper portion of switch piece 13 is equipped with the cover piece that covers the drill way of depositing the through-hole, and one side of cover piece is articulated with one side of switch piece 13, and the opposite side of cover piece and the opposite side lock joint of switch piece 13, like this, can deposit the chamber 22 through lifting the cover piece and come and go and inject the insecticide.

Wherein, the switch block 13 is provided with an inclined channel which is communicated with the storage through hole and is formed on the edge of the switch block 13; wherein the inclined channel is arranged obliquely downwards along the direction of the middle part of the switch block 13, so that the bottle mouth can be lapped on the inclined channel for injecting when pouring the insecticide into the storage cavity 22.

In another embodiment, the switch block 13 is provided with a projection, the projection is provided with an injection through hole, the injection through hole penetrates the projection and the switch block 13 to the storage chamber 22, and the projection is connected with the cover by a screw, so that the insecticide can be injected from the projection.

The reusable insecticidal system further comprises an injection member for filling the insecticide into the storage member, the injection member comprising an injection tube and a pot, the pot having a hollow space formed therein for storing the insecticide, the injection tube being connected to the injection space, and a front end of the injection tube being connected to the protruding head, so that the insecticide can be introduced into the storage member by inverting the pot.

Furthermore, the outlet channels in the spray head 16 become wider in the direction from the front end to the storage element, in particular they become narrower towards the outlet, so that the insecticide can be sprayed out at a higher pressure.

In yet another embodiment, the spray orifices of the spray head 16 are provided with a dispersion screen so that the insecticide is sprayed in a mist form when sprayed out of the spray head 16.

Furthermore, a control chip 14 is provided on the spraying member 15, the control chip 14 is connected to the control device through wifi or other short-range communication technology, and the control chip 14 is used for controlling the electric pump 20, the electric pump 20 drives the pesticide to move towards the spraying head 16, so that the control device can be arranged outdoors or indoors, and is not limited herein; furthermore, the control chip 14 may control the electric pump 20 to perform the injection at regular time, or the management and control device may transmit a command to the control chip 14, so as to drive the electric pump 20 to perform the operation.

The control device can be connected to the server through wired connection such as a network cable, and the server is communicated with the mobile phone, so that the mobile phone can remotely control the spraying piece 15 to spray.

And the spraying device 11 further comprises a blowing piece 17 arranged on the spraying piece 15, the blowing piece 17 is connected with the front end face of the spraying piece 15 and is obliquely arranged, the blowing piece 17 comprises a fan 18, the fan 18 is obliquely arranged downwards along the direction from the rear end to the front end of the spraying head 16, and when the spraying head 16 sprays the insecticide, the fan 18 blows the insecticide upwards to facilitate the insecticide to be dispersed into the space.

Wherein the blowing member 17 has a through passage 19 passing through the blowing member 17 and the fan 18 is embedded in the through hole such that the fan 18 draws up the wind from below and blows it upward.

The through channel 19 includes a first channel and a second channel, wherein the first channel is communicated with the second channel, the first channel is formed with an upper outlet through the blowing member 17, the second channel is formed with a lower outlet through the blowing member 17, the first channel is vertically arranged, the second channel is obliquely arranged, the fan 18 is embedded in the first channel, and the upper outlet is opposite to the fan 18.

In addition, the blower 17 is controlled by the control chip 14, so that the blower 17 can be operated automatically.

In still another embodiment, the rear end of the blowing part 17 is hinge-coupled to the spouting member 15, so that the angle of the blowing part 17 can be artificially adjusted to a proper angle.

In yet another embodiment, the rear end of the blowing part 17 is fixedly coupled to the spouting part 15, so that the fan 18 can be operated more stably.

Also the rear end of the storage member is screwed to the wall, which further secures the spraying device 11.

Wherein, the ventilation piece is hollow and provided with a ventilation fan through hole which is communicated with the ventilation piece, and the ventilation fan 25 is embedded into the ventilation fan through hole; wherein the air fan through holes are horizontally extended.

The filter element is connected with the air exchange element and covers the through hole of the air fan, a filter cavity is formed in the filter element, a filter layer 24 and a filter screen 23 are arranged in the filter cavity, and the filter screen 23 and the filter layer 24 are arranged side by side; the filter 23 has filter holes spaced along the inner periphery of the filter 23 so that when the insecticide is blown out of the room, part of the insecticide can be attached by the filter 24.

Wherein the filtering piece is provided with a filtering through hole which penetrates through the filtering cavity; the inner wall of the filter cavity is provided with a buckling part, and the filter screen 23 and the filter layer 24 are buckled with the buckling part, so that the filter screen 23 and the filter layer 24 on the filter element can be detached for cleaning.

The filter element is also provided with an opening and closing element 28, the opening and closing element 28 is provided with an opening and closing through hole, the opening and closing element 28 covers the filtering through hole, and the opening and closing through hole is communicated with the filtering through hole, so that the filter screen 23 and the filter layer 24 are sealed in the filter cavity at ordinary times; wherein, one side of the open-close piece 28 is connected with the side wall of the filter piece, the side wall of the filter piece is provided with a buckling block 29, and the other side of the open-close piece 28 is buckled with the buckling block 29.

In addition, be equipped with champignon piece 27 on breather 12, champignon piece 27 includes the chamber that holds that cavity formed, and champignon piece 27's upper end is connected with filtering the piece, and champignon piece 27's front end is formed with the trompil, and the trompil communicates and holds the chamber, holds intracavity portion and is equipped with heating rod 26, and heating rod 26 is used for heating champignon and makes it disperse, like this, can let indoor more fresh and fresh become after taking a breath through setting up champignon piece 27.

It is also contemplated that the fragrance member 27 may be provided with a liquid insecticide for killing mosquitoes, so that the room may be maintained in a mosquito-free state for a certain period of time.

The rear end of the air exchange piece is also connected with an air exchange pipe, the air exchange pipe is communicated to the air fan through hole and is communicated to the outside of the wall, and therefore air can flow outwards through the air exchange pipe through the air fan through hole.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The reusable indoor insecticidal system is characterized by comprising a spraying device and an air exchange device for air exchange, wherein the spraying device comprises a storage part, an adapter part and a spraying part, the storage part is hollow and provided with a storage cavity, the adapter part is used for diverting the insecticide from the storage part, the spraying part is used for spraying the insecticide out, the storage part is connected with the adapter part, and the adapter part is connected with the spraying part; the air interchanger comprises an air interchanger with an air interchanger and a filtering piece for filtering air, the air interchanger and the filtering piece are fixedly connected and arranged, and indoor air passes through the filtering piece and then is conveyed to the outside.

2. The reusable indoor insecticidal system according to claim 1, wherein said spray member is provided with a spray head and an electric pump, said spray member is hollow to form a spray chamber, and said electric pump is disposed in said spray chamber; the electric pump is connected with the spray head through a pipeline, and the spray head is fixedly connected to the spraying piece.

3. The reusable indoor insecticidal system according to claim 2, wherein an adapter tube is formed in the hollow interior of the adapter, one end of the adapter tube is communicated with the storage cavity, and the other end of the adapter tube is connected with the electric pump.

4. The reusable indoor insect killing system according to claim 3, wherein a switch block is provided on the upper portion of the storage member, and a storage through hole penetrating to the storage cavity is provided on the switch block; the upper portion of the switch block is provided with a covering block which covers the hole opening of the storage through hole, one side of the covering block is hinged to one side of the switch block, and the other side of the covering block is fastened with the other side of the switch block.

5. The reusable indoor insecticide system as claimed in claim 4, wherein said outlet pipes in said spray heads are progressively wider in the direction from the front end to the storage member.

6. The reusable indoor insect killing system according to any one of claims 1 to 5, wherein the ventilation member is hollow and has a ventilation fan through hole, the ventilation fan through hole penetrates through the ventilation member, and the ventilation fan is embedded in the ventilation fan through hole.

7. The reusable indoor insect killing system according to claim 6, wherein the filter member is connected to the ventilation member and covers the air fan through hole, a filter chamber is formed in the filter member, a filter layer and a filter net are arranged in the filter chamber, and the filter net and the filter layer are arranged side by side; the filter screen is provided with filter holes which are arranged at intervals along the inner periphery of the filter screen.

8. The reusable indoor insecticidal system according to claim 7, wherein said filter member is provided with a filter through hole, said filter through hole penetrating said filter chamber; the filter comprises a filter cavity, a filter screen and a filter layer, wherein the inner wall of the filter cavity is provided with a buckling part, and the filter screen and the filter layer are buckled with the buckling part.

9. The reusable indoor insecticidal system according to claim 8, wherein said filter member is provided with an opening and closing member, said opening and closing member is provided with an opening and closing through hole, said opening and closing member covers said filtering through hole, and said opening and closing through hole is communicated with said filtering through hole.

10. A reusable indoor insecticidal system according to claim 9, wherein one side of said shutter is connected to a side wall of said filter member and the other side of said shutter is fastened to the other side wall of said filter member.

Images