CN211185545U

CN211185545U - Reptile trapping device

Info

Publication number: CN211185545U
Application number: CN201920640092.8U
Authority: CN
Inventors: 不公告发明人
Original assignee: Shangkang Shenzhen Technology Co ltd
Current assignee: Shangkang Shenzhen Technology Co ltd
Priority date: 2019-05-06
Filing date: 2019-05-06
Publication date: 2020-08-07
Anticipated expiration: 2029-05-06

Abstract

The utility model relates to a domestic appliance field discloses a reptile trapping device, and it includes casing, adhesive paper, electrode net subassembly, bait box and smell diffusion equipment, the casing is provided with the reptile entry, adhesive paper push-and-pull set up in the lower extreme of the inside of casing, electrode net unit mount in the inside of casing, bait box detachably install in the inside of casing for place the bait in order to lure the reptile, smell diffusion equipment install in the inside of casing for make the smell of bait be in along predetermineeing the direction outdiffusion in the casing, wherein, the bait box electrode net subassembly and adhesive paper from top to bottom sets gradually. Through above structure, great reinforcing the effect of traping of crawler trapping device, the device has characteristics such as green, harmless simultaneously, and convenience of customers clears up the corpse and the washing of crawler the bait box has improved user experience.

Description

Reptile trapping device

Technical Field

The invention relates to the field of household appliances, in particular to a crawler trapping device.

Background

With the development of cities and rural areas, many reptiles, such as cockroaches, clothes fishes, ground beetles, centipedes, cricket species and spiders, inevitably enter the space where people live, and further affect the normal life of people. Taking cockroaches as an example, the cockroaches often hide in dark corners which are not easily noticed by people, such as gaps in kitchens, food cabinets, feed warehouses and toilets, and not only harm stored goods such as grain and oil food, clothes, books and the like, but also spread diseases and cause harm to people. In addition, the cockroach can easily enter the household appliance to cause accidents. The traditional cockroach killing mode is a spray or a cockroach killer, has certain limitation and can cause environmental pollution, and the effect is limited by adopting ultrasonic waves to drive the cockroaches.

Disclosure of Invention

The embodiment of the invention aims to provide a crawler trapping device which is used for trapping crawlers.

The embodiment of the invention adopts the following technical scheme for solving the technical problems:

a crawler trapping apparatus comprising:

a housing provided with a crawler entrance;

the sticky paper is arranged at the lower end of the interior of the shell in a push-pull manner and is used for sticking and catching the reptiles;

the electrode net assembly is arranged inside the shell and is used for electrically killing the reptiles;

a bait cartridge detachably mounted inside the housing for holding bait to attract a crawler;

the smell diffusion device is arranged inside the shell and is used for enabling smell of the bait to be diffused outwards in the shell along a preset direction; wherein the content of the first and second substances,

the bait box, the electrode net component and the sticky paper are sequentially arranged from top to bottom.

In some embodiments, the bait box further comprises a heating piece and a temperature detection device, wherein the heating piece is arranged at the bottom of the bait box and is used for heating the bait in the bait box or increasing the temperature of the whole bait box;

the temperature detection device is arranged in the bait box and is used for detecting the temperature of the bait in the bait box.

In some embodiments, the electrode net assembly further comprises a crawler detection device, the crawler detection device is installed inside the shell and is used for detecting whether a crawler enters the killing area of the electrode net assembly.

In some embodiments, the electrode mesh assembly comprises a positive electrode sheet and a negative electrode sheet;

the positive electrode plate and the negative electrode plate are arranged at a preset distance, and the widths of the positive electrode plate and the negative electrode plate are preset widths.

In some embodiments, the electrode mesh assembly includes a positive electrode mesh and a negative electrode mesh;

the diameters of the positive electrode mesh wire and the negative electrode mesh wire are preset diameters.

In some embodiments, the housing comprises an upper housing, a lower housing, and a base;

the upper shell is provided with an accommodating cavity, the upper shell is mounted at the top of the lower shell, and the bait box and the odor diffusion device are accommodated in the accommodating cavity;

the base is provided with a groove, the base is installed at the bottom of the lower shell, and the adhesive paper is arranged in the groove in a push-pull manner;

the lower casing is provided with traps the chamber, electrode net subassembly accept in trap the intracavity and install in the casing orientation down the one side of base.

In some embodiments, the crawler inlet is formed between the base and the lower shell, and the lower shell is provided with a plurality of crawler notches, and the crawler inlet and the crawler notches are arranged in a staggered manner;

the height of the reptile inlet and the reptile notch is greater than or equal to 3mm, the width of the reptile inlet and the reptile notch is greater than or equal to 20 mm.

In some embodiments, the upper housing is opened with an air inlet, and the air inlet is positioned above the bait box;

the lower shell is provided with an air outlet which is positioned below the odor diffusion device;

the upper shell is provided with a coaming, the coaming is arranged around the smell diffusion device and extends to the bait box to form a manifold, and the manifold is communicated with the bait box;

the air inlet, the bait box, the gap, the manifold and the air outlet form an air channel;

when the odor diffusion device is started, the bait odor in the bait box can be guided to the trapping cavity along the preset direction through the air duct and then diffused to the outside of the shell from the crawler inlet.

In some embodiments, the base is provided with an up-ramp and a down-ramp, the up-ramp being disposed at an angle to the down-ramp;

the included angle between the upper ramp and the horizontal plane is less than or equal to 45 degrees, and the included angle between the lower ramp and the horizontal plane is greater than or equal to 60 degrees;

the sticky paper is provided with three adhesion side edges and one push-pull side edge, the three adhesion side edges and the one push-pull side edge are respectively located at four edges of the sticky paper, and when the sticky paper is contained in the groove, the three adhesion side edges can be respectively attached to the three downward slopes.

In some embodiments, an upper ramp is arranged below the crawler inlet, and the height difference between the top end of the upper ramp and the plane where the sticky paper is located is 5mm-20 mm.

In some embodiments, the device further comprises a boosting submodule, a wireless communication submodule and a control submodule;

the wireless communication submodule is electrically connected with the control submodule, the boosting submodule is electrically connected with the control submodule and the electrode network assembly, the control submodule is used for controlling the boosting submodule to generate high voltage at intervals, the boosting submodule transmits the high voltage to the electrode network assembly, and the wireless communication submodule is used for transmitting the times of the boosting submodule generating the high voltage to a wireless communication node through a wireless network.

Compared with the prior art, the crawler trapping device provided by the embodiment of the invention comprises a shell, sticky paper, an electrode net component, a bait box and a smell diffusion device, wherein the sticky paper is arranged at the lower end inside the shell in a push-pull manner, so that a user can conveniently replace the sticky paper, the bait box is detachably arranged inside the shell and can be conveniently cleaned by the user, the smell diffusion device is arranged inside the shell and is used for enabling smell of a bait to be diffused outwards in the shell along a preset direction, the bait box, the electrode net component and the sticky paper are sequentially arranged from top to bottom, so that the bait component can be attracted to an inner cavity of the shell through crawling cockroaches and the like, the crawling cockroaches and the like enter an electric killing area of the electrode net component in the process of seeking bait sources, the electric shock is carried out to reptiles such as cockroaches on it to electrode net subassembly for reptiles such as cockroaches drop extremely the glue of adhesive paper catches the region and can't escape outside the casing, strengthened greatly reptile trapping device's the effect of traping.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a perspective view of a crawler trap according to one embodiment of the present invention;

FIG. 2 is a cross-sectional view of the crawler trap of FIG. 1;

FIG. 3 is an exploded view of the crawler trap of FIG. 1;

FIG. 4 is another angular schematic of FIG. 3;

FIG. 5 is a schematic structural view of the entrance ramp of FIG. 2;

FIG. 6 is another perspective schematic view of the crawler trap of FIG. 1, with the base and adhesive paper omitted;

FIG. 7 is a schematic structural diagram of another electrode mesh assembly provided by an embodiment of the present invention;

FIG. 8 is a voltage timing diagram of the PWM of the fan according to the embodiment of the present invention;

FIG. 9 is a schematic view of a crawler trap according to another embodiment of the present invention;

FIG. 10 is a schematic view of a crawler trap according to yet another embodiment of the present invention;

FIG. 11 is a schematic view of a crawler trap according to yet another embodiment of the present invention.

Detailed Description

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. It will be understood that when an element is referred to as being "connected" to another element, it can be directly on the other element or intervening elements may be present. The terms "upper", "lower", "inner", "outer", "upper", "lower", and the like as used herein, are used in the description to indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1-2, a crawler trapping device 100 according to an embodiment of the present invention includes a housing 10, a sticky paper 20, an electrode net assembly 30, a trapping assembly 40, a circuit module 50, and an energy storage power supply 60, where the sticky paper 20, the electrode net assembly 30, the trapping assembly 40, the circuit module 50, and the energy storage power supply 60 are all accommodated in an inner cavity of the housing 10, the trapping assembly 40, the electrode net assembly 30, and the sticky paper 20 are sequentially disposed from top to bottom, the trapping assembly 40 traps crawlers such as cockroaches and the like to an inner cavity of the housing 10 through a bait, the crawlers such as cockroaches and the like enter an electric killing area of the electrode net assembly 30 in a process of pursuing a bait source, the electrode net assembly 30 shocks the crawlers such as cockroaches and the like thereon, so that the crawlers such as cockroaches and the like fall into the sticky area of the sticky paper 20, so as to complete the trapping of reptiles such as cockroaches and the like.

Referring to fig. 2-4, the housing 10 includes an upper housing 11, a lower housing 12, and a base 13.

The upper case 11 is provided with a housing chamber 1101. The upper housing 11 is mounted on the top of the lower housing 12, and the receiving cavity 1101 faces the lower housing 12. The attracting assembly 40, the circuit module 50 and the energy storage power supply 60 are all accommodated in the accommodating cavity 1101.

The lower housing 12 is provided with a trap cavity 1201 and the base 13 is provided with a groove 1301. The base 13 is mounted to the bottom of the lower housing 12 with the trap cavity 1201 opposite the recess 1301. Base 13 with form a plurality of reptile entry 101 between lower casing 12, reptile entry 101 is used for as reptiles such as cockroach to get into the passageway in traping the chamber 1201. Wherein, crawler entry 101 is base 13 with the gap that forms between lower casing 12, crawler entry 101 highly be greater than or equal to 3mm, crawler entry 101 is located the lower extreme of casing 10, works as crawler trapping device 100 places when ground or desktop, crawler entry 101 is close to in ground or desktop, form the slope between crawler entry 101 and ground or the desktop to the guidance and make things convenient for crawlers such as cockroaches to get into trap in the chamber 1201.

The lower housing 12 is further provided with a plurality of crawler notches 102. Crawler notch 102 is long rectangular slot, crawler notch 102's height is more than or equal to 3mm, crawler notch 102 is located crawler entry 101's top, crawler notch 102 with crawler entry 101 staggered arrangement with casing 10, crawler notch 102 is used for making things convenient for crawlers such as cockroach to fly to attach to during the lateral wall of casing 12 down, directly pass through crawler notch 102 bores in traping the chamber 1201, in order to improve crawler trapper 100 traps efficiency.

By integrating the characteristic that reptiles such as cockroaches like to drill gaps and the size of the reptiles such as common cockroaches, in the embodiment, the height of the reptile inlet 101 is preferably 5mm, the height of the reptile notch 102 is preferably 4mm, and the widths of the reptile inlet 101 and the reptile notch 102 are both larger than or equal to 20 mm. Through above size design, can make the entry adaptation reptile such as the overwhelming majority of cockroach of device the size of the size to the characteristic that reptile such as cockroach was accorded with.

It is understood that in some other embodiments, the height of the crawler entry 101 can be set according to actual needs, the number and shape of the crawler slots 102 can be set according to actual needs, and the positions of the crawler slots 102 can be set according to actual needs on the lower housing 12; it is understood that in some other embodiments, one of the crawler inlet 101 and the crawler slot 102 may be omitted, and the crawler trapping device 100 may be provided with an opening for allowing a crawler such as a cockroach to enter the trapping cavity 1201, while in this embodiment, the crawler inlet 101 and the crawler slot 102 may be provided such that the crawler trapping device 100 may trap the crawler such as the cockroach from all directions through 360 °.

The base 13 is provided with an inlet ramp 131, the inlet ramp 131 is arranged on the edge of the base 13, and the inlet ramp 131 is used for inducing reptiles such as cockroaches to enter the trapping cavity 1201.

In this embodiment, the housing 10 is substantially a cube structure, the base 13 is substantially a rectangular plate, three edges of the base 13 are respectively provided with one entrance ramp 131, the three entrance ramps 131 surround to form the groove 1301, the other edge of the base 13 is a side opening of the groove 1301, and gaps between the three entrance ramps 131 and the edge of the bottom of the lower housing 12 are provided to form the crawler entrance 101.

The sticky paper 20 is adapted to the groove 1301, the sticky paper 20 is arranged in the groove 1301 in a push-pull manner, and the sticky paper 20 can be pushed and pulled back and forth along the groove 1301 relative to the base 13 through the side opening, so that a user can simply replace the sticky paper 20 without opening the crawler trapping device 100.

The adhesive paper 20 is used for catching reptiles such as cockroaches. The sticky paper 20 is provided with the adhesion layer, the adhesion layer set up in the upper surface of sticky paper 20, the adhesion layer can be stained with the reptile such as the cockroach that falls on it and cohere for reptile such as cockroach is stranded in gluing the area of catching.

Referring to fig. 2 and 5, the entrance ramp 131 includes an upper ramp 1311 and a lower ramp 1312, the upper ramp 1311 and the lower ramp 1312 being disposed at an angle to the lower ramp 1312, the upper ramp 1311 being configured to guide and facilitate climbing of cockroaches and the like from the ground or a table surface into the trap chamber 1201 along a predetermined upper ramp 1311 slope to improve trapping efficiency of the trap 100. the upper ramp 1311 and the horizontal plane are disposed at a first predetermined angle α, and the upper ramp α is disposed at an angle of 0 ° -45 °, it is understood that the upper ramp 1312 is not too large, that is, the slope of the upper ramp 1311 is not too large, that otherwise increases the difficulty of the cockroach and reduces trapping efficiency, the upper ramp 1315 is not too small, that is, that the upper ramp 1311 does not tend to horizontal, that otherwise affects the groove 1301 is disposed at a depth, the lower ramp 1312 is configured such that the cockroach and the like climb are disposed directly along a predetermined upper ramp 20, the upper ramp 1311 and the lower ramp 8660 mm, the upper ramp 1312 is disposed at a height H60 mm, and the upper ramp is disposed at a predetermined angle H70 mm, and the upper ramp 14 mm, the upper ramp is disposed at a height H60 mm, and the lower ramp is equal to increase the predetermined angle when the cockroach and the upper ramp is equal to be equal to a predetermined angle, and the upper ramp 14 mm, the upper ramp is equal to increase the predetermined angle of the trap 100 mm, and the upper ramp 14 mm, the upper ramp is equal to increase the upper ramp 14 mm, the upper ramp 1, the upper ramp is equal to increase the upper ramp 14 mm, the upper ramp 95 mm, the upper ramp is equal to increase the predetermined angle of the trap 100 mm, the predetermined angle of the trap 14 mm, the upper ramp 3660 mm, the.

In the present embodiment, the sticky paper 20 is provided with three adhering sides 21 and one pushing and pulling side 22, and the three adhering sides 21 and the one pushing and pulling side 22 are respectively located at four edges of the sticky paper 20. When the sticky paper 20 is accommodated in the groove 1301, the three adhering sides 21 can be respectively adhered to the three downward slopes 1312, and the adhering layers are arranged on the three adhering sides 21, so that crawlers such as cockroaches can be prevented from falling into the edge of the sticky paper 20 and then being pulled off by the downward slopes 1312. The push-pull side 22 is used for facilitating the user to push, pull and replace the adhesive paper 20.

It is understood that in some other embodiments, the placement of bait on the upper surface of the sticker 20 such that a reptile such as a cockroach falls directly into the sticking area during the process of pursuing the smell of the bait on the sticker 20 may enhance the trapping effect of the reptile trapping apparatus 100. The bait can be food such as common meal, cookies, bread, etc., or bait such as cockroach pheromone, etc.

It is understood that in some other embodiments, the downward ramp 1312 may be omitted, and the height difference between the top end of the upward ramp 1311 and the plane of the sticky paper 20 is 5mm-20mm, so that the crawlers such as cockroaches can enter the trapping cavity 1201 to be difficult to escape.

Referring to fig. 4 and 6, the electrode mesh assembly 30 is mounted on a surface of the lower housing 12 facing the base 13, and is opposite to the sticky paper 20, the sticky paper 20 is located at a lower end of the trapping cavity 1201, and the electrode mesh assembly 30 is located at an upper end of the trapping cavity 1201, that is, an electric shock region of the electrode mesh assembly 30 is opposite to a sticky trapping region of the sticky paper 20, and the electric shock region is an effective electric shock range when the electrode mesh assembly 30 is powered on. The electric shock is rather than reptiles such as cockroach of contact when electrode net subassembly 30 is used for the circular telegram for reptiles such as cockroach receive the electric shock after fall into the glue area of catching of adhesive paper 20, in order to accomplish the work of traping of this device reptiles such as cockroach.

The electrode mesh assembly 30 includes a positive electrode sheet 31 and a negative electrode sheet 32, the positive electrode sheet 31 and the negative electrode sheet 32 are both sheet-shaped, the positive electrode sheet 31 and the negative electrode sheet 32 are mounted on the lower case 12 and face the adhesive paper 20, and the positive electrode sheet 31 and the negative electrode sheet 32 are made of aluminum materials. The positive electrode sheet 31 and the negative electrode sheet 32 are arranged in the same plane at intervals of a preset distance, and the widths of the positive electrode sheet 31 and the negative electrode sheet 32 are both preset widths so as to form a high-voltage power grid. Preferably, the preset distance is 2-4mm, and the preset width is 1-4 mm. It is right through above predetermineeing the distance and predetermineeing the setting of width, can make electrode net subassembly 30 adapts to crawlers such as cockroach of not equidimension size to make crawlers such as most cockroach get into during the high voltage electric network at least partial health with positive electrode piece 31 with negative electrode piece 32 contacts, thereby ensures electrode net subassembly 30 can accurately strike crawlers such as cockroach when the circular telegram.

It is understood that the positive electrode sheet 31 and the negative electrode sheet 32 may be arranged inside the housing 10 according to different rules to form a high voltage network, for example, a rectangular shape or a circular shape, etc. In this embodiment, the housing 10 is substantially cubic in configuration, and the electrode mesh assembly 30 is rectangular in shape.

Referring to fig. 7, in some other embodiments, the electrode mesh assembly 30a may have a circular shape when the housing 10 has a substantially cylindrical structure. The positive electrode sheet 31a and the negative electrode sheet 32a are arranged at a preset distance, the widths of the positive electrode sheet 31a and the negative electrode sheet 32a are both preset widths, and the preset distance and the preset widths can be arranged according to actual needs to change the density of a high-voltage power grid formed by the electrode grid assembly 30 a.

It is understood that, in some other embodiments, the positive electrode sheet 31 and the negative electrode sheet 32 may be stacked to form a high voltage grid, wherein the positive electrode sheet 31 and the negative electrode sheet 32 are located on two different planes respectively, and the positive electrode sheet 31 and the negative electrode sheet 32 may be staggered in the same projection plane, so that at least a part of the body of a reptile such as a cockroach comes into contact with the positive electrode sheet 31 and the negative electrode sheet 32 when entering the high voltage grid, thereby ensuring that the reptile such as a cockroach can be accurately struck by the electrode grid assembly 30 when being powered on.

It is understood that in some other embodiments, the electrode mesh assembly 30 includes a positive electrode mesh and a negative electrode mesh, both of which are in the shape of wires, and both of which have a predetermined diameter, which is 0.2-3 mm. The positive electrode mesh and the negative electrode mesh can be stacked, wherein the positive electrode mesh and the negative electrode mesh are respectively located on two different planes, and the vertical distance between the two planes can be set according to actual needs. The positive electrode mesh and the negative electrode mesh can also be arranged in the same plane, and the horizontal distance between the positive electrode mesh and the negative electrode mesh can be arranged according to actual needs. Can set up according to actual need the dense degree of high voltage electric network's net silk to make crawlers such as cockroach easily with high voltage electric network contacts.

With continued reference to fig. 2 and 3, the attracting assembly 40 is disposed on a side of the lower casing 12 facing away from the base 13, and the attracting assembly 40 includes a bait cartridge 41, a heating sheet 42 and an odor diffusing device 43. The bait box 41 is used for placing bait to diffuse smell outwards so as to attract reptiles such as cockroaches to enter the trapping cavity 1201, the heating plate 42 is used for heating the bait in the bait box 41, so that the smell of the bait can diffuse out of the housing 10 quickly and the attracting effect of the bait is enhanced, and the smell diffusing device 43 is used for driving peripheral gas to flow when being started, so that the smell of the bait in the bait box 41 is sent into the trapping cavity 1201 and then diffused out of the housing 10 through the reptile inlet 101 and the reptile notch 102. Through above design, can be so that the smell of bait is in along predetermineeing direction outdiffusion in the casing 10, that is, the smell of bait passes through in proper order accept the chamber 1101 trap the chamber 1201, again by reptile entry 101 with reptile notch 102 outdiffusion can make reptiles such as cockroach in the in-process of pursuing the bait source, follow and predetermine the road entering the electricity of electrode net subassembly 30 kills the region. Specifically, crawlers such as cockroaches are in the in-process of pursuing the bait source, when crawlers such as cockroaches by crawler entry 101 or crawler notch 102 gets into after traping the chamber 1201, follow the smell of bait and climb/fly to attach to when the electricity of electrode net subassembly 30 kills the region, crawlers such as cockroaches that electrode net subassembly 30 can circular telegram electricity kill on it for crawlers such as cockroaches fall into the sticky trap region of adhesive paper 20 to guarantee that crawlers such as cockroaches are killed by the electric shock or fall into to dusk behind the sticky trap region of adhesive paper 20, can't struggle again and escape.

The upper case 11 is provided with a bait case installation groove 1102, the bait case 41 is adapted to the bait case installation groove 1102, and the bait case 41 is detachably installed in the bait case installation groove 1102. The bait box mounting groove 1102 is a hollow concave structure, the bait box 41 can be directly clamped in the bait box mounting groove 1102, and a user can conveniently take out the bait box 41 from the bait box mounting groove 1102. Through the detachable mounting means, the user can be as required with the bait box 41 is followed take out in the bait box mounting groove 1102, so that it is convenient right the bait box 41 washs, prevents that the bait of bait box 41 scale deposit or putting for a long time is smelly in it. Go up the casing 11 and be provided with apron 111, apron 111 pivotal connection in go up one side of casing 11, apron 111 can rotate around pin joint department, and apron 111 can cover and locate bait box mounting groove 1102, apron 111 is used for opening or closing bait box 41, the accessible is opened apron 111 to place the bait in the bait box 41.

The heat patch 42 is mounted to the lower housing 12 and is located at the bottom of the bait cartridge 41. The bottom of the bait box mounting groove 1102 is hollowed, and the bottom of the bait box 41 passes through the hollowed part of the bait box mounting groove 1102 and abuts against the heating plate 42. In one aspect, the heating sheet 42 can transfer heat to the bait case 41 when it is powered on to generate heat, so that the smell of the bait in the bait case 41 can be volatilized and diffused rapidly; on the other hand, the heating sheet 42 may attract a crawler such as a cockroach as an attracting element: in the case of a low living environment temperature, for example, in winter, the reptiles such as cockroaches tend to live in a warm place, and therefore, the heating sheet 42 can be energized to generate heat to raise the temperature of the whole device, so that the temperature of the whole device 100 is higher than the ambient temperature of the device, and the reptiles such as cockroaches tend to the device 100, thereby increasing the attracting effect of the device 100.

The odor diffusion device 43 is installed on a side of the lower casing 12 away from the base 13, and an air outlet direction of the odor diffusion device 43 faces the trapping cavity 1201. The cover plate 111 is provided with a plurality of air inlets 1111, the air inlets 1111 are located above the bait box 41, the lower casing 12 is provided with an air outlet 1211, and the air outlet 1211 is located below the odor diffusion device 43. It is understood that the size of the air outlet 1211 should be as small as possible to prevent crawlers such as cockroaches from entering the receiving cavity 1101 through the air outlet 1211. On one hand, when the odor diffusion device 43 is activated, convection current is formed between the air inlet 1111 and the air outlet 1211, so that the bait odor of the bait cartridge 41 is directly conveyed into the trapping cavity 1201, and the diffusion speed of the bait odor is increased, thereby increasing the attracting effect of the crawler trapping device 100; on the other hand, when the odor diffusion means 43 is turned off, the bait odor of the bait cartridge 41 can be diffused through the air inlet 1111 to the outside of the housing 10, and also can be diffused through the air outlet 1211 to the inside of the trapping cavity 1201 and then diffused through the crawler inlet 101 and the crawler slot 102 to the outside of the housing 10.

A notch 411 is formed in one side of the bait box 41, and the bait box mounting groove 1202 is hollow out from the side corresponding to the notch 411. Go up casing 11 and be provided with bounding wall 121, bounding wall 121 encloses to locate smell diffusion device 43 and extend to the breach 411 of bait box 41 and form the manifold, and one side of bounding wall 121 is passed through breach 411 with bait box 41 intercommunication makes the intake 1111 bait box 41 breach 411 the manifold and air outlet 1211 forms an wind channel, starts smell diffusion device 43 can concentrate will bait smell in the bait box 41 passes through the wind channel is followed preset direction and is drawn to in the trap chamber 1201, again by crawler entry 101 with crawler notch 102 to the casing 10 outdiffusion avoids simultaneously in the holding chamber 1101 forms the vortex. In this embodiment, the odor diffusing means 43 is a fan. It can be understood that, under the condition that the rotation speed of the fan blades is constant, the magnitude of the air flow velocity in the air duct can be changed by changing the magnitude of the cross-sectional area of the air inlet 1111 and/or the air outlet 1211.

The circuit module 50 includes a power supply interface sub-module, a control sub-module, a boost sub-module, and a control panel 51. The power supply interface sub-module is electrically connected with the control sub-module, the boost sub-module and the control panel 51, the power supply interface sub-module is electrically connected with the energy storage power supply 60, the energy storage power supply 60 is used for providing working electric energy for the circuit module 50 through the power supply interface sub-module, and the power supply interface sub-module outputs low voltage.

One side of the lower housing 12 facing away from the base 13 is provided with a power supply installation groove 1203, the power supply installation groove 1203 is located below the cover plate 111, and the energy storage power supply 60 is detachably installed in the power supply installation groove 1203. The user can conveniently replace the energy storage power supply 60 by opening the cover plate 111. It is understood that the energy storage power source 60 may be a lithium battery or a common dry battery, preferably, the energy storage power source 60 is a lithium battery, and the power supply interface sub-module may be connected to an external power supply, that is, the power supply interface sub-module may be connected to a household appliance through a power line, so as to charge the energy storage power source 60.

It will be appreciated that in some other embodiments, the energy storage power supply 60 may be omitted and the crawler trap 100 may connect household power to the power interface sub-module via a power cord to provide operating power to the crawler trap 100.

The control sub-module is used as a control center of the crawler trapping device 100 to control the work of each sub-module connected with the crawler trapping device.

The boosting submodule is electrically connected with the electrode net assembly 30 and the control submodule respectively, and is used for converting the low voltage of the power supply interface submodule into high voltage and transmitting the high voltage to the electrode net assembly 30 so as to effectively shock reptiles such as cockroaches.

In this embodiment, the boost submodule includes a high-frequency self-oscillation circuit and a voltage doubling circuit. The high-frequency self-oscillation circuit comprises a high-frequency transformer and a triode, wherein the high-frequency transformer is electrically connected with the triode, the high-frequency transformer and the triode are both electrically connected with the power supply interface submodule, low voltage input by the power supply interface submodule is converted into high-frequency alternating current of about 18kHz, and the high-frequency alternating current is boosted to an intermediate voltage of about 600V through the high-frequency transformer. The voltage doubling circuit comprises an energy storage high-voltage capacitor and a rectifier diode, the energy storage high-voltage capacitor is electrically connected with the rectifier diode, the energy storage high-voltage capacitor and the rectifier diode are electrically connected with the high-frequency transformer, and the intermediate voltage is subjected to voltage doubling rectification to be kilovolt through the rectifier diode and the energy storage high-voltage capacitor. And after the low voltage input into the boosting submodule is converted, the output voltage is not lower than 1200V. In this embodiment, the energy storage power supply 60 inputs a working voltage to the power supply interface sub-module, the power supply interface sub-module outputs a low voltage of 5V, and the voltage boosting sub-module converts the low voltage of 5V into a high voltage of 1500V dc, so as to ensure that the crawlers such as cockroaches can be killed fatally when the electrode grid assembly 30 is powered on.

The control panel 51 is provided to the upper case 11. The control panel 51 includes keys and indicator lights. The key and the indicator light are electrically connected with the control submodule and the power supply interface submodule, the key is used for controlling the crawler trapping device 100 to be turned on or turned off, the indicator light is used for displaying the working state of the crawler trapping device 100, and the indicator light can display the working state of the crawler trapping device 100 by emitting light with different colors. On the one hand, the indicator light can be used for indicating whether the system works or not, on the other hand, the indicator light can be used for displaying the system power, and the indicator light can also be used for indicating whether the device is charging or not and whether the charging is finished or not.

The heating plate 42 is electrically connected to the power supply interface sub-module and the control sub-module, the power supply interface sub-module provides a working voltage for the heating plate 42, and the control sub-module controls the heating plate 42 to heat the bait in the bait box 41. The heating sheet 42 comprises a heating anode and a heating cathode and an intermediate medium, the heating anode and the heating cathode are electrically connected with the power supply interface submodule and the control submodule, and current flowing through the heating anode and the heating cathode generates heat through the intermediate medium. The control submodule adjusts the heating value of the heating plate 42 by adjusting the partial pressure and the partial flow of the heating plate 42. The intermediate medium can be resistance wire or carbon fiber wire and the like. In the present embodiment, the intermediate medium is preferably a resistance wire.

The circuit module 50 further includes a temperature detection device, the temperature detection device is disposed in the bait box 41, the temperature detection device is electrically connected with the control submodule, the temperature detection device is used for detecting the temperature of the bait in the bait box 41, and feeding back the detected real-time temperature value to the control submodule, the control submodule performs benchmarking on the real-time temperature value and the preset temperature value, if the temperature is lower than the preset temperature value, the control submodule controls the heating plate 42 to heat the bait in the bait box 41, and if the temperature is higher than or equal to the preset temperature value, the heating plate 42 does not act. The preset temperature value may be a fixed value, or may change in size according to the temperature of the working environment where the crawler trapping device 100 is located. The temperature detection device is a temperature sensor. By adding the temperature detecting device, the temperature of the bait in the bait case 41 can be controlled in real time to ensure effective operation of the bait device, thereby improving the working efficiency of the crawler trapping device 100.

As shown in fig. 6, the circuit module 50 further includes a crawler detection device 52, the crawler detection device 52 is installed in the lower housing 12 faces one side of the base 13, the crawler detection device 52 is electrically connected to the control sub-module, the crawler detection device 52 is used for detecting whether crawlers such as cockroaches enter the electric killing area of the electrode mesh component 30, and sends the collected data to the control sub-module in real time. If crawler detection device 52 detects the crawlers such as cockroaches and gets into when the electricity of electrode net subassembly 30 kills the region, control submodule piece control boost the submodule piece chronogenesis and produce the high voltage, boost the submodule piece with the high voltage that produces carry to electrode net subassembly 30 to strike and kill crawlers such as cockroaches, the crawlers such as cockroaches after being struck and killed then fall into the regional clearance of waiting to catch of gluing of adhesive paper 20.

In this embodiment, crawler detection device 52 is infrared sensor, infrared sensor includes sending end and receiving terminal, the sending end is used for transmitting infrared signal, the receiving terminal is used for receiving infrared signal, passes through when crawlers such as cockroaches the sending end with during between the receiving terminal, infrared signal is cut off and produces the signal of telecommunication simultaneously and exports to control submodule piece, control submodule piece control boost submodule piece chronogenesis produces the high voltage. In this embodiment, the two pairs of infrared sensors are respectively disposed on two sides of the electrode mesh assembly 30, and the two pairs of infrared sensors are disposed on the other two sides of the electrode mesh assembly 30, so as to monitor the electric killing area of the electrode mesh assembly 30.

It will be appreciated that in some other embodiments, the crawler sensing device 52 may be omitted, and the control sub-module programmed to control the boost sub-module to generate the high voltage at predetermined intervals. The time interval of the electrifying of the electrode mesh assembly 30 is set to be a first preset time, the continuous electric shock time of the electrode mesh assembly 30 is set to be a second preset time, the first preset time is set to be between 5 and 15 seconds, and the second preset time is set to be between 1 and 5 seconds. Through setting the continuous electric shock time to be 1-5s and the electrifying interval time to be 5-15s, the reptile trapping device 100 can effectively kill the reptiles such as cockroaches entering the electric shock area of the electrode net assembly 30 within a reasonable work period, prevent the reptiles such as the cockroaches from being killed by electricity due to overlong interval time and failure to effectively kill the reptiles such as the cockroaches, and meanwhile avoid the electricity consumption of the device due to overlong electric shock time or overlong interval time, thereby ensuring the normal work of the reptile trapping device 100.

Circuit module 50 still includes the wireless communication submodule piece, the wireless communication submodule piece with the control submodule piece electricity is connected, the wireless communication submodule piece be used for with the real-time data that the control submodule piece received pass through wireless network transmission to the wireless communication node, the real-time data include crawler detection device detects crawlers such as cockroach and gets into the number of times of electrode net subassembly 30, also promptly the control submodule piece control the number of times that the submodule piece produced the high voltage, the wireless communication submodule piece can be wireless wifi module, wireless Zigbee module, 5G communication module or other wireless communication modules etc. the wireless communication node can be router, domestic computer, cell-phone or other network nodes etc.. For example, the wireless communication submodule is wireless wifi module, the wireless communication node is the cell-phone, and user's accessible cell-phone end is received the real-time data that crawler trap device 100's wireless wifi module sent, the cell-phone is through the real-time data of accumulative total receipt in order to show the work record of electrode net subassembly 30, the user can be based on the work record is roughly judged the number of times is killed to the electricity of crawlers such as cockroaches to crawler trap device 100 is right according to actual need change sticky paper 20 avoids the user to need frequently to the condition of killing the electricity of crawlers such as cockroaches in crawler trap device 100 examines, has improved user experience greatly.

The odor diffusion device 43 is electrically connected with the power supply interface submodule and the control submodule respectively, the power supply interface submodule provides working voltage for the odor diffusion device 43, and the control submodule controls the rotating speed of fan blades of the fan in a Pulse Width Modulation (PWM) mode, so that the adjustment of the air flow degree in the air channel is realized. Specifically, please refer to fig. 8, wherein T is a square wave period, Ton is a high level duration, and the control sub-module controls a ratio of the high level Ton of the fan to the square wave period T to adjust a rotation speed of the fan blades of the fan.

Referring to fig. 9, in the crawler trapping device 200 according to an embodiment of the present invention, the adhesive side 21 of the adhesive paper 20 may be omitted, the downward slope 1312 may also be omitted, and the upper surface of the adhesive paper 20 is flush with the upper end of the upward slope 1311, so as to simplify the structural design of the base 13, and force the crawlers such as cockroaches to fly/climb to the killing area of the electrode mesh assembly 30 directly along the smell of the bait; the housing 10 is generally a pillar, which allows a reptile such as a cockroach to easily fly to and rest on the outer surface of the housing 10, so as to enter the interior of the housing 10 through the reptile slot 102. Otherwise, it is substantially the same as the crawler trap 100 provided in the embodiment shown in FIG. 1.

Referring to fig. 10, in the crawler trapping device 300 according to an embodiment of the present invention, a trapping cavity 1201 of the lower housing 12 is omitted, a narrow cavity is formed between the lower housing 12 and the base 13, the electrode mesh assembly 30 is installed on a downward slope 1312 of the crawler entrance 101, and after entering an electric killing area of the electrode mesh assembly 30, crawlers such as cockroaches enter the sticking area of the sticky paper 20, the crawlers are electrically shocked to fall into the sticking area. Correspondingly, a pair of infrared sensors may be respectively disposed on each descending ramp 1312, and if the infrared sensors detect that crawlers such as cockroaches enter the electric killing area of the electrode mesh assembly 30, the control sub-module controls the boosting sub-module to generate high voltage in time sequence, so that the electrode mesh assembly 30 kills the crawlers such as cockroaches. Otherwise, it is substantially the same as the crawler trap 100 provided in the embodiment shown in FIG. 1.

Referring to fig. 11, there is provided a crawler trap 400 according to an embodiment of the present invention, which is different from the crawler trap 100 according to the embodiment shown in fig. 1: the downward ramp 1312, the trapping cavity 1201 of the lower casing 12 and the adhesive side 21 of the sticker 20 are simultaneously omitted, the crawler entrance 101 is formed between the upward ramp 1311 and the lower casing 12, an elongated cavity is formed between the lower casing 12 and the base 13, and the electrode mesh assembly 30 is mounted on the side of the lower casing 12 facing the base 13. The vertical distance between the top end of the up-ramp 1311 and the adhesive paper 20 may be 5-20mm, and preferably, the vertical distance is 5mm, so that a reptile such as a cockroach is difficult to escape after entering the cavity. Otherwise, it is substantially the same as the crawler trap 100 provided in the embodiment shown in FIG. 1.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; within the idea of the invention, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity; while the invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will appreciate that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A crawler trapping device, comprising:

a housing provided with a crawler entrance;

2. The crawler trapping apparatus according to claim 1, further comprising a heating sheet and a temperature detecting device, wherein said heating sheet is disposed at a bottom portion of said bait case, said heating sheet being for heating the bait within said bait case or raising a temperature of the entire apparatus;

3. The crawler trapping apparatus according to claim 1, further comprising a crawler detecting device installed inside said housing, said crawler detecting device being configured to detect whether a crawler enters an electrocution area of said electrode net assembly.

4. The crawler trap of claim 1, wherein said electrode grid assembly comprises a positive electrode sheet and a negative electrode sheet;

5. The crawler trap of claim 1, wherein said electrode net assembly comprises a positive electrode net wire and a negative electrode net wire;

6. The crawler trap of any one of claims 1-5, wherein said housing comprises an upper housing, a lower housing, and a base;

7. The crawler trap of claim 6, wherein said base and said lower housing define said crawler access opening therebetween, and wherein said lower housing defines a plurality of crawler slots, said crawler access opening and said crawler slots being staggered;

8. The crawler trapping device according to claim 6, wherein said upper housing is opened with an air inlet, said air inlet being located above said bait box;

the air inlet, the bait box, the manifold and the air outlet form an air channel;

9. The crawler trap of claim 6, wherein said base is provided with an up-ramp and a down-ramp, said up-ramp being disposed at an angle to said down-ramp;

10. The crawler trap according to claim 1, wherein an upper ramp is provided below said crawler entrance, and a height difference between a top end of said upper ramp and a plane on which said sticky paper is placed is 5mm to 20 mm.

11. The crawler trapping device according to claim 1, further comprising a boosting sub-module, a wireless communication sub-module and a control sub-module;