CN218126483U - Indoor pest trapping device - Google Patents

Abstract

The application discloses an indoor pest trapping device, which relates to the technical field of insect trapping devices and comprises a top cover and a base, wherein the top cover and the base are spliced to form a device body, a first trapping cavity is arranged in the device body, a plurality of trapping channels are arranged on the periphery of the first trapping cavity, one end of each trapping channel is communicated with the first trapping cavity, and the other end of each trapping channel is communicated with the outside; the bait container is connected with the top cover, and the interior of the bait container is communicated with the first trapping cavity; still include a plurality of doors that block, it is articulated with the top cap to block the door, and a plurality of block the door and be located a plurality of passageways of traping respectively, block the door and can rotate towards the direction that is close to first chamber of traping, be provided with a plurality of stoppers that are used for restricting to block the door and rotate towards the direction of keeping away from first chamber of traping on the top cap. The cockroach-killing insect-killing device has the advantages of remarkable effect of killing cockroaches and other insects, low cost and long-term reutilization.

Description

Indoor pest trapping device

Technical Field

The application relates to the technical field of insect trapping and killing devices, in particular to an indoor pest trapping device.

Background

Cockroaches are the first pests in rooms, and if the cockroaches are left to stand, the number of the cockroaches is increased continuously, and the cockroaches not only damage articles, but also pollute food.

The existing indoor methods for killing cockroaches include a bait method and a physical sticking method. The bait method is to induce the cockroaches to eat the bait through the bait capable of emitting odor for attracting the cockroaches, and poison the cockroaches through the bait, but the bait method is not strong in persistence, and the cockroaches are easy to generate drug resistance; the physical sticking method is to stick the cockroaches passing through the sticking plate to catch the cockroaches by discharging the sticking plate in places where the cockroaches usually appear, and has remarkable effect, but the sticking plate is a disposable tool and needs to be replaced periodically, so the cost for catching and killing the cockroaches by adopting the physical sticking method is high.

Therefore, a trapping device which has remarkable effect, low cost and long-term reutilization is needed to kill the cockroaches.

SUMMERY OF THE UTILITY MODEL

The application provides an indoor pest trapping device, but the effect of catching pests such as cockroach is showing, the cost is lower and reuse for a long time.

The application provides an indoor pest trapping device adopts following technical scheme:

an indoor pest trapping device comprises a top cover and a base, wherein the top cover and the base are spliced to form a device body, a first trapping cavity is formed in the device body, a plurality of trapping channels are arranged on the periphery of the first trapping cavity, one end of each trapping channel is communicated with the first trapping cavity, and the other end of each trapping channel is communicated with the outside;

the bait container is connected with the top cover, and the interior of the bait container is communicated with the first trapping cavity;

still include a plurality of doors that block that are arranged in stopping that the pest leaves from first traping the chamber, it is articulated with the top cap to block the door, and a plurality of block the door and be located a plurality of passageways of traping respectively, block the door and can rotate towards the direction that is close to first traping the chamber, be provided with a plurality of stoppers that are used for the restriction to block the door and rotate towards the direction of keeping away from first traping the chamber on the top cap.

Through adopting above-mentioned technical scheme, the smell of bait among the bait container can be successively spread to the external world through first chamber and a plurality of the passageway of traping, attracts the pest through traping the passageway and get into first chamber of traping, stops that the door can make the pest can get into first chamber of traping but can't leave to in trapping the first chamber of traping the pest, bait among the bait container can reuse, has higher pest and catches effect, simultaneously can reduce cost.

Optionally, the device body further has a plurality of second trapping cavities inside, and the second trapping cavities are communicated with the first trapping cavities.

Through adopting above-mentioned technical scheme, a plurality of second trap the chamber and provide more spaces of catching the pest to the biggest trapping volume of trapping device to the pest has been improved.

Optionally, the top cover is provided with a plurality of vent holes for allowing the bait to emit odor outwards, and the vent holes are communicated with the second trapping cavity.

By adopting the technical scheme, the smell of the bait can be more easily diffused outside the device body, and the attracting effect of the bait to pests is improved.

Optionally, still include the diffusion subassembly that is used for diffusing bait smell, the diffusion subassembly sets up in first trapping chamber, the diffusion subassembly includes the fan, one end of fan has the function of blowing and communicates with each other with the inside of bait container.

Through adopting above-mentioned technical scheme, the fan can further improve diffusion rate and the effect of bait smell to further improve the lure effect of bait to the pest.

Optionally, a plurality of suction channels are formed in the base, one end, far away from the bait container, of the fan has a suction function and is communicated with the suction channels, and one ends, far away from the fan, of the suction channels are respectively communicated with the trapping channels.

Through adopting above-mentioned technical scheme, the fan is breathed in when blowing, orders about the external gas of device and flows towards traping the passageway, and gas flow can guide the pest of traping in the passageway and remove towards first traping the chamber, improves the effect of traping the device to the pest.

Optionally, one end of the suction channel, which is communicated with the trapping channel, is positioned on one side, close to the first trapping cavity, of the blocking door.

Through adopting above-mentioned technical scheme, make gas flow can guide the pest to push away and stop the door and continue to move towards first chamber of traping to further improve trapping device to the effect of traping of pest.

Optionally, a space for small pests to pass through is arranged between the blocking door and the base, a soft brush body is arranged at one end, close to the base, of the blocking door, and one end, far away from the blocking door, of the soft brush body abuts against the base.

Through adopting above-mentioned technical scheme, large-scale pest can push up and block the door and continue to move towards first chamber of traping, and small-size pest can push up the soft brush body or pass from the gap in the soft brush body and continue to move towards first chamber of traping to make trapping device can catch the pest of different sizes.

Optionally, the channel wall at the bottom of the trapping channel is an inclined surface inclined upward toward the first trapping cavity, the soft brush body is also inclined, and the position where the soft brush body abuts against the base is located on one side of the limiting block, which is close to the first trapping cavity.

Through adopting above-mentioned technical scheme, the soft brush body is easy towards the first direction bending deformation who traps the chamber of being close to, and is difficult to towards the direction bending deformation who keeps away from first chamber of trapping to make small-size pest get into first chamber of trapping and be difficult to leave through the soft brush body easily, thereby improve trapping device to small-size pest's capture effect.

Optionally, the bait container is removably attached to the top cover.

Through adopting above-mentioned technical scheme, can the person of facilitating the use change the bait in the bait container, make trapping device's use more convenient.

In summary, the present application includes at least one of the following benefits:

1. the pests are difficult to escape after being captured, the pest capturing effect is good, the cost is low, and the pest capturing agent can be repeatedly used;

2. the diffusion effect of the bait smell can be improved, and pests can be guided to enter the trapping cavity more easily to be trapped;

3. has better trapping effect on pests with different body sizes.

Drawings

FIG. 1 is a schematic view of an indoor pest trapping device according to an embodiment of the present application;

FIG. 2 is an exploded view from one perspective of an indoor pest trapping device according to an embodiment of the present application;

FIG. 3 is an exploded view of an indoor pest trapping device according to an embodiment of the present application from another perspective;

FIG. 4 is a cross-sectional view of an indoor pest trapping device according to an embodiment of the present application;

FIG. 5 is another cross-sectional view of an indoor pest trapping device according to an embodiment of the present application.

Description of the reference numerals: 1. a device body; 11. a top cover; 111. a first groove; 112. a second upper groove; 113. a third upper groove; 114. a connecting portion; 1141. a second protrusion; 1142. a second groove; 1143. a diffusion hole; 1144. an air inlet; 115. a vent hole; 116. a limiting block; 12. a base; 121. a first protrusion; 122. a second lower groove; 123. a third lower groove; 124. an air suction passage; 125. a battery case; 13. a first trap chamber; 14. a second trap chamber; 15. a trapping channel; 2. a blocking door; 3. a bait container; 31. a cavity; 4. a diffusion component; 41. a cover body; 411. a cavity; 42. a fan; 5. a soft brush body; 6. a battery; 7. and (4) switching.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an indoor pest trapping device.

Referring to fig. 1, 2 and 3, the indoor harmful insect trapping apparatus includes an apparatus body 1 for trapping harmful insects, a blocking door 2 for preventing harmful insects from escaping from the apparatus body 1, a bait container 3 having bait therein, and a diffusion member 4 for assisting diffusion of bait smell, the diffusion member 4 improving efficiency of diffusion of the bait smell to the outside, the harmful insects, induced by the bait smell, entering the apparatus body 1, and the blocking door 2 isolating the harmful insects inside the apparatus body 1 from the outside to allow the harmful insects to be trapped.

Referring to fig. 2 and 3, the device body 1 includes a top cover 11 and a base 12, and the same side of the top cover 11 has a first groove 111 and a plurality of second grooves 112, and in this embodiment, it is preferable that the top cover 11 has four second grooves 112. The first groove 111 is centered on the top cover 11, the four second upper grooves 112 are circumferentially distributed along the center line of the top cover 11 on the periphery of the first groove 111 in an array manner, and the four second upper grooves 112 are communicated with the first groove 111; the top cover 11 has a third upper groove 113 between adjacent second upper grooves 112, one end of the third upper groove 113 is communicated with the first groove 111, and the other end of the third upper groove 113 penetrates one side of the top cover 11.

The same side of the base 12 has a first protrusion 121 and four second grooves 122, wherein the first protrusion 121 is centered on the base 12, and the four second grooves 122 are distributed in a circumferential array around the first protrusion 121 along the center line of the base 12; the base 12 has a third lower groove 123 between adjacent second lower grooves 122, one end of the third lower groove 123 opens to the top of the first protrusion 121, and the other end of the third lower groove 123 penetrates one side of the base 12.

The device body 1 is formed by splicing the top cover 11 and the base 12, in this embodiment, the top cover 11 and the base 12 are preferably spliced in a plug-in matching manner, and in other embodiments, the top cover 11 and the base 12 can also be fixedly connected through a plurality of screws and then spliced.

Referring to fig. 1 and 4, when the top cover 11 is coupled to the base 12, the first groove 111 is aligned with the first protrusion 121 and together form a first trap chamber 13 for trapping pests; the four second upper grooves 112 are aligned with the four second lower grooves 122 one by one, and after the top cover 11 is spliced with the base 12, the second upper grooves 112 and the corresponding second lower grooves 122 together form a second trapping cavity 14 for trapping pests, and the second trapping cavity 14 is still communicated with the first trapping cavity 13; the four third upper grooves 113 and the four third lower grooves 123 are aligned one by one, and after the top cover 11 is spliced with the base 12, the third upper grooves 113 and the corresponding third lower grooves 123 jointly form trapping channels 15 for pests to enter the first trapping cavities 13, and the trapping channels 15 are communicated with the first trapping cavities 13. Pests can continue to move into any one of the second trapping cavities 14 after entering the first trapping cavity 13 through the trapping passage 15, and the bottom cavity wall of the second trapping cavity 14 is lower than that of the first trapping cavity 13, so that the pests entering the second trapping cavity 14 are difficult to return to the first trapping cavity 13.

Referring to fig. 4 and 5, the bait container 3 is detachably connected to the top cover 11, the top cover 11 has a connecting portion 114 for connecting the bait container 3 thereto, the connecting portion 114 is located at the center of the top cover 11, and the connecting portion 114 forms a second protrusion 1141 at one end of the top cover 11 near the base 12 and a second recess 1142 at the other end.

The inside of bait container 3 has the appearance chamber 31 that supplies the bait to deposit, and appearance chamber 31 forms the opening in the one end of bait container 3, and the one end and the connecting portion 114 threaded connection of bait container 3 are fixed, and this moment appearance chamber 31 communicates with each other with second recess 1142, and the bait is arranged in the space that bait container 3 and connecting portion 114 formed jointly. The peripheral side of the connecting portion 114 is provided with a plurality of diffusion holes 1143 for the bait smell to diffuse outwards, the plurality of diffusion holes 1143 are distributed on the connecting portion 114 in a circumferential array, the second groove 1142 is communicated with the first trapping cavity 13 through the plurality of diffusion holes 1143, and after the bait container 3 and the connecting portion 114 are installed and fixed, the cavity 31 can also be communicated with the first trapping cavity 13 through the plurality of diffusion holes 1143.

Referring to fig. 1 and 4, a plurality of external vent holes 115 for the diffusion of bait gas are further formed on the periphery of the top cover 11, the vent holes 115 are respectively communicated with the four second upper grooves 112, and after the top cover 11 is spliced with the base 12, the vent holes 115 enable the four second trapping cavities 14 to be communicated with the outside.

Referring to fig. 3 and 5, the bottom of the third lower groove 123 on the base 12 is an inclined surface, the end of the third lower groove 123 close to the first protrusion 121 is an inclined lower end, the end of the third lower groove 123 close to the first protrusion 121 is connected to the top of the first protrusion 121, and the end of the third lower groove 123 far away from the first protrusion 121 is connected to the end surface of the base 12 far away from the top cover 11.

Referring to fig. 2 and 5, the blocking doors 2 are installed in four, four blocking doors 2 are respectively located in four trapping channels 15, and the blocking doors 2 are hinged to the top cover 11. The blocking door 2 is located at the middle position of the trapping channel 15, and gaps exist between both sides of the blocking door 2 and the channel walls of both sides of the trapping channel 15.

The top cover 11 is provided with a limiting block 116 at the bottom of the four third upper grooves 113, and the limiting block 116 is located at one side of the blocking door 2 far away from the first trapping cavity 13. When the blocking door 2 rotates to abut against the limiting block 116, the plane of the blocking door 2 is perpendicular to the groove bottom of the third lower groove 123, and at the moment, the blocking door 2 can only rotate towards the direction close to the first trapping cavity 13.

The end of the stop gate 2 remote from the top cover 11 is spaced from the bottom of the third lower groove 123, and the spacing is suitable for smaller pests to pass through. One end of the stop gate 2 far away from the top cover 11 is fixedly connected with a soft brush body 5 consisting of a plurality of soft bristles, and the soft brush body 5 inclines relative to the plane of the stop gate 2. When the stop gate 2 abuts against the limiting block 116, the end of the soft brush body 5 far away from the stop gate 2 abuts against the bottom of the third lower groove 123, and the abutting position of the soft brush body 5 against the bottom of the third lower groove 123 is located on one side of the stop gate 2 close to the first trapping cavity 13. In this embodiment, the bristles of the flexible brush body 5 are all capable of being pushed open by small pests to undergo recoverable bending deformation, and the flexible brush body 5 is preferably made of an elastic plastic material.

Referring to fig. 3, 4 and 5, the diffuser assembly 4 includes a cover 41 and a blower 42 for driving the air to flow, wherein one end of the cover 41 is fixedly connected to the top of the first protrusion 121 of the base 12, and the center line of the cover 41 coincides with the center line of the base 12. The cover 41 has a cavity 411 therein, and after the top cover 11 is assembled with the base 12, the second protrusion 1141 abuts against the cover 41 and the second protrusion 1141 covers the opening of the cavity 411. The fan 42 is fixedly connected with the cover 41 and is installed in the cavity 411, one end of the fan 42 close to the connecting portion 114 can blow air towards the connecting portion 114, the bottom of the connecting portion 114 is further provided with a plurality of air inlet holes 1144, and the second groove 1142 is communicated with the cavity 411 through the plurality of air inlet holes 1144. The fan 42 blows air towards the connection 114, promoting the flow of air and thus the diffusion of the smell of the bait out through the several diffusion holes 1143. In this embodiment, the principle of the fan 42 is preferably the same as that of the blower 42, and the fan 42 is not described herein in detail.

One end of the fan 42 close to the base 12 has a suction function, a plurality of suction channels 124 are formed inside the base 12, one end of each suction channel 124 penetrates through the top of the first protrusion 121 to be communicated with the cavity 411, and the other end of each suction channel 124 penetrates through the bottom of the third lower groove 123 to be communicated with the trapping channel 15. And when the stop door 2 abuts against the limit block 116, the position of the air suction channel 124 penetrating through the bottom of the third lower groove 123 is located on one side of the soft brush body 5 close to the first trapping cavity 13. While the fan 42 blows air to promote the diffusion of the smell of the bait, the fan 42 sucks air to drive the outside air to flow through the trapping passage 15 toward the direction close to the first trapping cavity 13, thereby assisting the pests to push the blocking door 2 or the soft brush body 5 into the first trapping cavity 13.

Referring to fig. 2 and 5, a battery groove 125 for installing the battery 6 and a switch 7 for controlling the on-off of the fan 42 are further formed in the end surface of the base 12 facing away from the top cover 11, an electric wire for supplying power to the fan 42 penetrates through the inside of the base 12, and the electric wire inside the base 12 is omitted in the drawings.

The implementation principle of an indoor pest trapping device of the embodiment of the application is as follows:

after the switch 7 is turned on, the fan 42 is started to promote the gas to flow, so that the gas in the cavity 411 sequentially passes through the gas inlet holes 1144, the containing cavity 31, the diffusion holes and the first trapping cavity 13, then flows to the outside through the trapping channels 15 or enters the second trapping cavity 14 and then flows to the outside through the plurality of vent holes 115, the gas flows while carrying the smell of the bait to diffuse to the outside, and the pests are attracted to move towards the direction close to the trapping device;

meanwhile, the air suction of the fan 42 drives the outside air to enter the cavity 411 through the trapping channel 15 and the air suction channel 124 in sequence, and when pests enter the trapping channel 15, the air flow can guide the pests to move towards the direction close to the first trapping cavity 13;

in the process that pests move towards the first trapping cavity 13 in the trapping channel 15, pests with larger body sizes can push the blocking door 2 open and then continue to move forward from a space generated after pushing the blocking door 2 open, pests with smaller body sizes can push the soft brush body 5 open and then continue to move forward from a space generated after pushing the soft brush body 5 open, and pests passing through the blocking door 2 or the soft brush body 5 cannot return to the trapping channel in the original way; eventually the pests will move into the first trap chamber 13 and the pests in the first trap chamber 13 can also move into the second trap chamber 14, where they are caught.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An indoor pest trapping device is characterized by comprising a top cover (11) and a base (12), wherein the top cover (11) and the base (12) are spliced to form a device body (1), a first trapping cavity (13) is formed in the device body (1), a plurality of trapping channels (15) are arranged on the periphery of the first trapping cavity (13), one ends of the trapping channels (15) are communicated with the first trapping cavity (13), and the other ends of the trapping channels (15) are communicated with the outside;

the bait container (3) is used for storing bait, the bait container (3) is connected with the top cover (11), and the interior of the bait container (3) is communicated with the first trapping cavity (13);

still include a plurality of block door (2) that are arranged in stopping that the pest leaves from first traping chamber (13), block door (2) and top cap (11) articulated, and a plurality of block door (2) are arranged in a plurality of passageways (15) of traping respectively, block door (2) and can rotate towards the direction that is close to first traping chamber (13), be provided with a plurality of stopper (116) that are used for restricting block door (2) and rotate towards the direction of keeping away from first traping chamber (13) on top cap (11).

2. An indoor pest trapping device according to claim 1, wherein the interior of said device body (1) is further provided with a plurality of second trapping cavities (14), said second trapping cavities (14) being in communication with said first trapping cavity (13).

3. An indoor pest trapping device according to claim 2, wherein said top cover (11) is provided with a plurality of vent holes (115) for allowing the bait to emit the smell to the outside, said vent holes (115) being communicated with the second trapping chamber (14).

4. An indoor pest trapping device according to claim 3, further comprising a diffusing member (4) for diffusing bait smell, said diffusing member (4) being disposed in the first trapping chamber (13), said diffusing member (4) including a fan (42), one end of said fan (42) having a blowing function and communicating with the inside of the bait container (3).

5. An indoor pest trapping device according to claim 4, wherein the base (12) is provided with a plurality of air suction passages (124), one end of the fan (42) away from the bait container (3) has an air suction function and is communicated with the air suction passages (124), and one ends of the air suction passages (124) away from the fan (42) are respectively communicated with the trapping passages (15).

6. An indoor pest trapping device according to claim 5, wherein the end of said suction passage (124) communicating with the trapping passage (15) is located on the side of the blocking door (2) adjacent to the first trapping chamber (13).

7. An indoor pest trapping device according to claim 1, wherein a space for small pest to pass through is arranged between the blocking door (2) and the base (12), one end of the blocking door (2) close to the base (12) is provided with a soft brush body (5), and one end of the soft brush body (5) far away from the blocking door (2) is abutted against the base (12).

8. An indoor pest trapping device according to claim 7, wherein the wall of the channel at the bottom of the trapping channel (15) is an inclined surface inclined upward toward the first trapping cavity (13), the soft brush body (5) is also inclined, and the position where the soft brush body (5) abuts against the base (12) is located on the side of the limiting block (116) close to the first trapping cavity (13).

9. An indoor pest trapping device according to claim 1, wherein said bait container (3) is removably attached to the top cover (11).

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