CN214229533U - Tick trapping device for animal epidemic prevention - Google Patents

Abstract

A tick trapping device for animal epidemic prevention. Aims to solve the problems that the prior traditional pesticide spraying has common insecticidal effect and is easy to injure livestock. The utility model discloses the constitution includes: the device comprises a separation box (2), four insect feeding pipes (1) and a carbon dioxide generator (3), wherein the carbon dioxide generator is communicated with the top of the separation box through a vent pipe (5), and the four insect feeding pipes are distributed on four side surfaces of the separation box and are fixed with the side surfaces of the separation box through screws; advance the worm pipe and form by two semicircle boards (4) cross-under, the arc internal surface of semicircle board seted up a plurality of semi-ring grooves (15), the arcwall face of semicircle board on seted up multiunit and advanced wormhole (8), advance the wormhole and be located adjacent two the semi-ring groove between, semi-ring inslot bond and have armyworm area (9). The utility model is used for the tick traps.

Description

Tick trapping device for animal epidemic prevention

Technical Field

The utility model relates to an animal epidemic prevention instrument, specifically speaking relates to an animal is tick trapping device for epidemic prevention.

Background

Ticks, also known as ticks, and crawlers, are arthropod parasites of the general family of ticks of the order arachnida, which are small in size, only about the size of a matchstick. Hosts include mammals, birds, reptiles and amphibians, which mostly feed on blood, and the bite and sting can cause the inflammation of the wounded part. Ticks often have a certain selectivity in host parasitism, and are generally located in areas where the skin is thin and not easily scratched. For example, the rhipicephalus borygeus is parasitic on the neck, behind the ears, armpits, inner thighs, pudendum, groin, etc. of an animal or human. Modes of tick foraging hosts: ticks are olfactory, sensitive to the animal's sweat odor and carbon dioxide, and are perceived when they are 15m away from the host, from passive waiting to active waiting, and climb up upon contact with the host. For example, when adult hard tick inhabits in forest zone, the adult grass gathers at the top of grass tip and bush leaves on both sides of small road to wait, when host passes and contacts with it, it climbs to host; the hyalomma subarachnoides inhabiting in desert areas mostly move on the ground and actively seek hosts; tick species inhabiting livestock houses mostly seek hosts on the ground or climb on walls and wood columns. Ticks have a small range of activity, typically tens of meters. Because the tick is easy to parasitize and bite livestock, if the number of the ticks is too large, the growth of the livestock can be greatly influenced, the traditional pesticide spraying has general insecticidal effect, and the livestock can be easily injured.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide a tick trapping device for animal epidemic prevention, which overcomes the defects in the prior art.

In order to achieve the purpose, the utility model provides a tick trapping device for animal epidemic prevention, which comprises a separation box, four pest inlet pipes and a carbon dioxide generator, wherein the carbon dioxide generator is communicated with the top of the separation box through a vent pipe, and the four pest inlet pipes are distributed on four sides of the separation box and fixed with the sides of the separation box through screws;

the pest inlet pipe is formed by buckling two semicircular plates, a plurality of semicircular grooves are formed in the arc-shaped inner surfaces of the semicircular plates, a plurality of groups of pest inlet holes are formed in the arc-shaped surfaces of the semicircular plates, the pest inlet holes are positioned between every two adjacent semicircular grooves, and pest sticking belts are bonded in the semicircular grooves;

the separation box comprises an upper box body, a lower box body and a medicine bottle, the upper box body and the lower box body are buckled and fixed through screws, round holes communicated with the pest inlet pipe are formed in four side faces of the upper box body respectively, and the medicine bottle is placed on the bottom face of the lower box body.

As a further explanation of the tick trapping device for animal epidemic prevention of the utility model, preferably, the outer surface of the pest inlet pipe is bonded with a steel wire mesh.

As a further description of the tick trapping device for animal epidemic prevention of the present invention, preferably, the bottom of the pest inlet pipe is provided with a support plate.

As a further explanation of the tick trapping device for animal epidemic prevention of the present invention, preferably, the round hole on the side of the upper box body is fixed with a blocking net.

As a further explanation of the tick trapping device for animal epidemic prevention of the present invention, preferably, the medicine bottle is filled with tick-inducing pheromone.

The utility model has the advantages that:

1. the utility model discloses utilize the tick to approach the characteristic of carbon dioxide, blow off the carbon dioxide through the carbon dioxide generator, utilize simultaneously that the tick pheromone that lures in the medicine bottle to trap the tick jointly, can improve its success rate and the efficiency of trapping.

2. The utility model discloses an advance the worm pipe and other the tick crawl into inside, other the tick glues inside, can improve its efficiency of traping the tick, can prevent simultaneously that the tick from getting into from a position and leading to the tick to pile up unable effective bonding to the tick.

3. The utility model discloses set up four on the baffle box and advance the worm pipe, can improve the efficiency of advancing the worm and advance the worm volume.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 5 is a schematic structural view of a semicircular plate;

FIG. 6 is a schematic view of the structure of the divider box;

the reference numerals are explained below:

1. an insect inlet pipe; 2. a separate tank; 3. a carbon dioxide generator; 4. a semicircular plate; 5. a breather pipe; 6. a support plate; 7. steel wire mesh; 8. an insect inlet hole; 9. a pest sticking belt; 10. a circular hole; 11. an upper box body; 12. a barrier net; 13. a drug vial; 14. a lower box body; 15. a half ring groove; 16. an annular plate.

Detailed Description

In order to further understand the structure, characteristics and other objects of the present invention, the following detailed description is given with reference to the accompanying preferred embodiments, which are only used to illustrate the technical solution of the present invention and are not intended to limit the present invention.

The tick trapping device for animal epidemic prevention comprises a separating box 2, four pest inlet pipes 1 and a carbon dioxide generator 3, wherein the carbon dioxide generator is communicated with the top of the separating box through a vent pipe 5, and the four pest inlet pipes are distributed on four side surfaces of the separating box and fixed with the side surfaces of the separating box through screws;

the insect inlet pipe is formed by buckling two semicircular plates 4, a plurality of semicircular grooves 15 are formed in the arc-shaped inner surfaces of the semicircular plates, a plurality of groups of insect inlet holes 8 are formed in the arc-shaped surfaces of the semicircular plates, the insect inlet holes are located between every two adjacent semicircular grooves, insect sticking belts 9 are bonded in the semicircular grooves, a semicircular annular plate 16 is arranged at the end part of each semicircular plate, and the semicircular annular plates and the side surfaces of the separation boxes are fixed through screws;

the separation box comprises an upper box body 11, a lower box body 14 and a medicine bottle 13, the upper box body and the lower box body are buckled and fixed through screws, round holes 10 communicated with the pest inlet pipe are respectively formed in four side faces of the upper box body, and the medicine bottle is placed on the bottom face of the lower box body.

In the second embodiment, the tick trapping device for animal epidemic prevention is further described, in the first embodiment, a steel wire mesh 7 is bonded to the outer surface of the pest inlet pipe, and the steel wire mesh is favorable for climbing of ticks.

In the third embodiment, the tick trap device for animal epidemic prevention is further described in the first embodiment, and the bottom of the pest inlet pipe is provided with a support plate 6 for keeping the device stable.

Fourth embodiment, this embodiment is a further description of the tick trapping device for animal epidemic prevention according to the first embodiment, in which a blocking net 12 is fixed on a circular hole on the side surface of the upper box body.

In a fifth embodiment, the tick trap device for animal epidemic prevention is further described in the first embodiment, wherein the medicine bottle is filled with tick-inducing pheromones, and the tick-inducing pheromones are collective pheromones emitted by a skin from which the ticks shed are simulated by selecting guanine, xanthine and adenine according to a ratio of 25:1: 1.

The working principle is as follows: when the device is used, the tick-inducing pheromone is poured into the medicine bottle, the carbon dioxide generator is started, the generated carbon dioxide enters the separation box from the air pipe and then is emitted out through the four pest inlet pipes, the ticks have the characteristic of approaching carbon dioxide, the ticks are attracted by the carbon dioxide emitted out of the pest inlet pipes, the ticks are trapped by the tick-inducing pheromone in the medicine bottle together, the ticks can be attracted and crawled from the pest inlet holes of the pest inlet pipes, the ticks can crawl along the inner walls of the pest inlet pipes under the attraction of the tick-inducing pheromone after crawling, the ticks are stuck on the sticky tape to realize trapping, a plurality of pest inlet holes of each group can attract the entering of the ticks, the ticks can crawl a small distance on the sticky tape after entering through the pest inlet holes, therefore, the situation that the ticks block the pest inlet holes can not occur, and the ticks can enter each group of pest inlet holes, the ticks are dispersed, the area where the ticks are adhered is increased, the trapping amount of the ticks at each time is improved, and meanwhile the trapping efficiency and success rate are guaranteed.

It should be noted that the above mentioned embodiments and embodiments are intended to demonstrate the practical application of the technical solution provided by the present invention, and should not be interpreted as limiting the scope of the present invention. Various modifications, equivalent substitutions and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the present invention. The protection scope of the present invention is subject to the appended claims.

Claims (5)

1. The tick trapping device for animal epidemic prevention is characterized by comprising a separation box, four pest inlet pipes and a carbon dioxide generator, wherein the carbon dioxide generator is communicated with the top of the separation box through a vent pipe, and the four pest inlet pipes are distributed on four side surfaces of the separation box and fixed with the side surfaces of the separation box through screws;

the pest inlet pipe is formed by buckling two semicircular plates, a plurality of semicircular grooves are formed in the arc-shaped inner surfaces of the semicircular plates, a plurality of groups of pest inlet holes are formed in the arc-shaped surfaces of the semicircular plates, the pest inlet holes are positioned between every two adjacent semicircular grooves, and pest sticking belts are bonded in the semicircular grooves;

the separation box comprises an upper box body, a lower box body and a medicine bottle, the upper box body and the lower box body are buckled and fixed through screws, round holes communicated with the pest inlet pipe are formed in four side faces of the upper box body respectively, and the medicine bottle is placed on the bottom face of the lower box body.

2. A tick trap device for animal immunization according to claim 1 wherein a steel wire mesh is bonded to the outer surface of the insect inlet pipe.

3. A tick trap device for animal immunization according to claim 2 wherein the bottom of the insect inlet tube has a strip.

4. A tick trapping device for animal epidemic prevention according to claim 3, wherein a barrier net is fixed on the round hole on the side of the upper box body.

5. A tick trap device for animal immunization according to claim 4 wherein the medication bottle contains tick-inducing pheromone.

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