CN111670885A

CN111670885A - Automatic mosquito and fly killing device for pig farm

Info

Publication number: CN111670885A
Application number: CN202010696313.0A
Authority: CN
Inventors: 杨云
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2020-09-18
Anticipated expiration: 2040-07-20
Also published as: CN111670885B

Abstract

The invention discloses an automatic mosquito and fly killing device for a pig farm, which comprises an outer wall body arranged outside a pigsty along the circumferential direction of the pigsty; a transition channel is reserved between the outer wall body and the pigsty; a ventilating mosquito killing assembly is arranged on the outer side of the outer wall body; the transition channel and/or the ventilation mosquito killing assembly is integrated with a weak power grid; a power distribution cabinet is arranged in the transition channel and supplies power to a weak power grid; the width of the transition channel is not less than 50 cm. The automatic mosquito and fly killing device keeps the mosquito killing assembly away from the pigsty through the outer wall body and the transition passage, and the ventilation mosquito killing assembly communicates the pigsty with the external environment to form ventilation.

Description

Automatic mosquito and fly killing device for pig farm

Technical Field

The invention relates to the technical field of animal husbandry, in particular to an automatic mosquito and fly killing device for a pig farm.

Background

With the development of animal husbandry, more and more people are thrown into the animal husbandry, the carnivorous pig is the most raised variety, the carnivorous pig generally needs to be raised in a raising shed, and the raising process finds that with the rise of the temperature in summer and the humidity of the environment, flying mosquitoes often enter the raising shed to bite the carnivorous pig, so that the growth mood of the carnivorous pig is seriously influenced on one hand, and on the other hand, the healthy growth of the carnivorous pig is also influenced by the fact that individual flying mosquitoes carry viruses. Therefore, mosquito eradication has been a major concern for breeders.

A kill mosquito device that is used for raising carnivorous pig among the prior art is mostly with the mode of spraying the kill mosquito agent, but because kill mosquito agent itself has certain toxic and side effect, if spray for a long time, the carnivorous pig also can be deeply harmed, and the breed of carnivorous pig has very high requirement to the meat moreover, consequently, must not influence the meat quality of carnivorous pig because of kill mosquito agent.

In addition, still can utilize among the prior art to draw the mode of establishing weak electric wire netting all around at the pigsty and come the kill mosquito, it utilizes power supply unit to produce weak current after to weak electric wire netting circular telegram, and this weak current can kill the mosquito when the mosquito touches. However, the weak electricity itself has a certain harm to the pork pig, and the pork pig cannot completely listen to the will of the breeder without touching the weak electricity grid, so that the condition that the pork pig is damaged by the weak electricity grid occurs.

Based on the above technical problems, those skilled in the art need to develop a new mosquito eradication device.

Disclosure of Invention

The invention aims to provide an automatic mosquito and fly killing device for a pig farm, which has an obvious mosquito killing effect, avoids hurting meat pigs and does not influence the normal growth of the meat pigs.

In order to achieve the above purpose, the invention provides the following technical scheme:

the invention relates to an automatic mosquito and fly killing device for a pig farm, which comprises:

the outer wall body is arranged on the outer side of the pigsty along the circumferential direction of the pigsty;

a transition channel is reserved between the outer wall body and the pigsty;

a ventilating mosquito killing assembly is arranged on the outer side of the outer wall body;

the outer wall body is communicated with the external environment through the ventilation mosquito killing assembly, and the space inside the ventilation mosquito killing assembly is configured as a mosquito killing space;

the transition channel and/or the ventilation mosquito killing assembly is integrated with a weak power grid;

a power distribution cabinet is arranged in the transition channel and supplies power to a weak power grid;

the width of the transition channel is not less than 50 cm.

Further, the outer wall body arrange in the three side of pigsty, and every side all installs at least one the mosquito subassembly of ventilating.

Furthermore, the position where the outer wall body and the ventilating mosquito killing assembly are assembled is of a hollow structure;

the ventilating mosquito killing assembly comprises a box body which is assembled with the outer wall body and protrudes outwards, the side wall of the box body is closed, and the side of the box body, which faces the outer wall body, is open;

the bottom of the box body extends to the ground and is supported on the ground;

the lower part of the box body is configured into a mosquito killing agent storage cavity, and the upper end of the mosquito killing agent storage cavity is provided with a diffusion hole;

and a fan unit is arranged on the upper part of the box body.

Furthermore, a fan unit is integrated in the closed side wall of the box body;

the fan set comprises two fans which are respectively embedded in the side walls;

the side wall is opened towards one side inside the box body to form air outlet;

the air outlet directions of the fans face the interior of the box body, and the air outlet directions of the two fans are opposite;

the air outlet direction of the fan inclines for a certain angle towards one side far away from the outer wall body, and the inclination angle range is 5-10 degrees.

Further, a mosquito catching net plate is arranged at the lower part of the box body and is arranged above the mosquito killing agent storage cavity;

the mosquito receiving net plate adopts a net plate with the mesh number not less than 400 meshes;

the surface of the mosquito catching net plate is coated with an adhesive.

Further, the weak power grid is divided into a first weak power grid and a second weak power grid;

the first weak power grid is arranged along the extending track of the transition channel, and the first weak power grid is installed close to the outer wall body;

the weak electric wire netting of second is integrated in the mosquito subassembly of ventilating.

Furthermore, the weak electric wire netting of second integrate in the box is close to outside one side, perhaps, the box is close to outside one side and is close to outer wall body one side and all installs the weak electric wire netting of second.

Furthermore, an insertion channel is formed in the side face of the box body, and a supporting ring platform is arranged on the inward drawing of the position, close to the lower part of the insertion channel, in the box body;

the mosquito receiving net plate can slide along the insertion channel to enter the box body and is supported on the supporting ring platform.

Further, the width of the opening of the insertion channel is larger than the thickness of the mosquito catching net plate.

In the technical scheme, the automatic mosquito and fly killing device for the pig farm provided by the invention has the following beneficial effects:

the automatic mosquito and fly killing device keeps the mosquito killing assembly away from the pigsty through the outer wall body and the transition passage, and the ventilation mosquito killing assembly communicates the pigsty with the external environment to form ventilation.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a layout view of an automatic mosquito and fly eradication apparatus for a pig farm according to an embodiment of the present invention;

FIG. 2 is a front view of a ventilating and mosquito-killing assembly of an automatic mosquito and fly eradication device for a pig farm according to an embodiment of the present invention;

fig. 3 is a top view of a ventilating and mosquito-killing assembly of an automatic mosquito and fly eradication device for a pig farm according to an embodiment of the present invention.

Description of reference numerals:

1. pigsty; 2. an outer wall body; 3. a transition passage; 4. a ventilating mosquito-killing component;

401. a box body; 402. a mosquito killing agent storage chamber; 403. a diffusion hole; 404. mosquito net plates are connected; 405. a support ring table; 406. a fan;

501. a first weak grid; 502. a second weak grid; 503. switch board.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

See fig. 1-3;

the outer wall body 2 is arranged on the outer side of the pigsty 1 along the circumferential direction of the pigsty 1;

a transition channel 3 is reserved between the outer wall body 2 and the pigsty 1;

the outer side of the outer wall body 2 is provided with a ventilation mosquito eradication component 4;

the outer wall body 2 is communicated with the external environment through a ventilation mosquito killing assembly 4, and the space inside the ventilation mosquito killing assembly 4 is configured as a mosquito killing space;

the transition passage 3 and/or the ventilation mosquito eradication component 4 are/is integrated with a weak power grid;

a power distribution cabinet 503 is arranged in the transition channel 3, and the power distribution cabinet 503 supplies power to the weak power grid;

the width of the transition passage 3 is not less than 50 cm.

Specifically, this embodiment discloses an automatic mosquito and fly eradication device for raising meat pig, and it has designed outer wall body 2 in pigsty 1's the outside, and outer wall body 2 is kept away from pigsty 1 ground and is formed with transition passageway 3, and certain space is reserved for the kill mosquito as buffer channel on the one hand to this transition passageway 3, and on the other hand this transition passageway 3 can make things convenient for the breeder to pass in order to maintain equipment. The ventilating and mosquito killing assembly 4 is integrated on the outer side surface of the outer wall body 2, and the ventilating and mosquito killing assembly 4 has two functions, namely can be used as a ventilating opening to be communicated with the outside to help a pigsty to ventilate, so that the comfort level in the pigsty is improved; on the other hand, most of the mosquitoes can be killed at the mosquito killing assembly by utilizing the mosquito killing assembly inside, and the possibility of invasion of the mosquitoes is reduced.

Preferably, outer wall body 2 arranges in the three side of pigsty 1 in this embodiment, and every side all installs at least one mosquito subassembly 4 of ventilating.

Wherein, the position where the outer wall body 2 and the ventilating mosquito killing component 4 are assembled is a hollow structure;

the ventilating mosquito killing assembly 4 comprises a box body 401 which is assembled with the outer wall body 2 and protrudes outwards, the side wall of the box body 401 is closed, and the side, facing the outer wall body 2, of the box body 401 and the side, far away from the outer wall body 2, of the box body 401 are both open;

the bottom of the box body 1 extends to the ground and is supported on the ground;

the lower part of the box body 1 is configured as a mosquito killing agent storage cavity 402, and the upper end of the mosquito killing agent storage cavity 402 is provided with a diffusion hole 403;

the upper part of the box body 1 is provided with a fan unit.

Wherein, a fan set is integrated in the closed side wall of the box body 1 in the embodiment;

the fan set comprises two fans 406 which are respectively embedded in the side walls;

the side wall is opened towards one side inside the box body 1 to form air outlet;

the air outlet directions of the fans 406 face the inside of the box 401, and the air outlet directions of the two fans 406 are opposite;

the air outlet direction of the fan 406 is inclined to a side away from the outer wall 2 by a certain angle, and the inclination angle is 5-10 °.

This embodiment has mainly introduced the structure of mosquito eradication subassembly 4 of ventilating, and it has as the vent with the box 401 of being connected with outer wall body 2, and this box 401 directly extends to ground along the direction of height of outer wall body 2, can assist outer wall body 2 to improve the holistic structural stability of outer wall body 2 as bearing structure together. In addition, box 401's lower part has a cavity, this cavity is stored the inside kill mosquito agent that fills of chamber 402 as kill mosquito agent, preferably adopt the kill mosquito agent that has volatility, can outwards volatilize and spread through diffusion hole 403 of upper end during its use, simultaneously, the fan is arranged with the mode of certain angle of slight slope, two fans 406 exhaust can form the streaming in the box, the flight orbit of flying mosquito can be disturbed to the streaming wind on the one hand, on the other hand can outwards blow away kill mosquito agent effectively, avoid most kill mosquito agent to cause influence and poison the carnivorous pig in getting into pigsty 1.

Preferably, since many mosquitoes are killed in the ventilating and mosquito-killing assembly 4, in order to prevent the mosquito bodies from blocking the diffusion holes, a mosquito-catching net plate 404 is installed at the lower part of the case 401 and above the mosquito-killing agent storage chamber 402;

the mosquito receiving net plate 404 is a net plate with the mesh number not less than 400 meshes;

the surface of the mosquito catching net plate 404 is coated with an adhesive.

An insertion channel is formed in the side face of the box body 401, and a supporting ring table 405 is arranged on the inner drawing of the box body 401 close to the lower portion of the insertion channel;

mosquito net receiving plate 404 can slide along the insertion channel into housing 401 and is supported on support ring table 405.

The width of the opening of the insertion channel is larger than the thickness of the mosquito catching net plate 404.

Preferably, the weak grid in this embodiment is divided into a first weak grid 501 and a second weak grid 502;

the first weak power grid 501 is arranged along the extending track of the transition passage 3, and the first weak power grid 501 is installed close to the outer wall 2;

a second weak electrical network 502 is integrated within the ventilated mosquito eradication assembly 4.

The second weak power grid 502 is integrated on one side of the box 401 close to the outside, or the second weak power grid 502 is installed on both the side of the box 401 close to the outside and the side close to the outer wall 2.

The arrangement thought of the two weak power grids in the embodiment mainly has two aspects, one is that the ventilating and mosquito killing assembly 4 is of an integral ventilating structure, most of mosquitoes enter the pigsty 1 from the ventilating and mosquito killing assembly, so that a layer of protection is formed by the second weak power grid 502 to kill part of mosquitoes, and then the mosquitoes are killed for the second time by the mosquito killing agent; secondly, some flying mosquitoes may escape from the ventilating and mosquito killing assembly 4, and when the flying mosquitoes enter the transition passage 3, the first weak electric net 501 plays a main role to kill the flying mosquitoes, and finally, the purpose of killing most of the flying mosquitoes is achieved.

according to the automatic mosquito and fly killing device, the mosquito killing assembly is far away from the pigsty 1 through the outer wall body 2 and the transition passage 3, the ventilating mosquito killing assembly 4 is communicated with the pigsty 1 and the external environment to form ventilation, meanwhile, only one ventilating mosquito killing assembly 4 is ventilated, most of mosquitoes can enter the pigsty 1 through the ventilating mosquito killing assembly, and the mosquitoes are killed in two modes of a mosquito killing agent and a weak electric net at the position, so that the pigs are protected, the mosquitoes can be killed, the ventilation of the pigsty 1 can be realized, and the daily maintenance of breeders can be realized.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. An automatic mosquito and fly killing device for pig farms, characterized in that the device comprises:

the outer wall body (2) is arranged on the outer side of the pigsty (1) along the circumferential direction of the pigsty (1);

a transition channel (3) is reserved between the outer wall body (2) and the pigsty (1);

a ventilating mosquito eradication component (4) is arranged on the outer side of the outer wall body (2);

the outer wall body (2) is communicated with the external environment through the ventilation mosquito killing assembly (4), and the space inside the ventilation mosquito killing assembly (4) is configured to be a mosquito killing space;

the transition channel (3) and/or the ventilation mosquito killing assembly (4) are/is integrated with a weak power grid;

a power distribution cabinet (503) is configured in the transition channel (3), and the power distribution cabinet (503) supplies power for a weak power grid;

the width of the transition channel (3) is not less than 50 cm.

2. An automatic mosquito and fly eradication apparatus for pig farm according to claim 1, characterized in that the outer walls (2) are arranged at three sides of the pigsty (1), and at least one of the air-permeable mosquito eradication modules (4) is installed at each side.

3. The automatic mosquito and fly eradication device for the pig farm according to claim 2, wherein the outer wall body (1) is assembled with the ventilating mosquito eradication assembly (4) at a hollow structure;

the ventilation mosquito eradication assembly (4) comprises a box body (401) assembled with the outer wall body (1) and protruding outwards, the side wall of the box body (401) is closed, and the side of the box body (401) facing the outer wall body (2) and far away from the outer wall body (2) is open;

the bottom of the box body (401) extends to the ground and is supported on the ground;

the lower part of the box body (401) is configured into a mosquito killing agent storage cavity (402), and the upper end of the mosquito killing agent storage cavity (402) is provided with a diffusion hole (403);

and a fan unit is arranged on the upper part of the box body (401).

4. An automatic mosquito and fly eradication apparatus for pig farm according to claim 3, characterized in that a fan unit is integrated into the closed side wall of the tank (401);

the fan set comprises two fans (406) which are respectively embedded in the side walls;

the side wall is opened towards one side of the interior of the box body (401) to form air outlet;

the air outlet directions of the fans (406) face the interior of the box body (401), and the air outlet directions of the two fans (406) are opposite;

the air outlet direction of the fan (406) inclines at a certain angle towards one side far away from the outer wall body (2), and the inclination angle range is 5-10 degrees.

5. The automatic mosquito and fly eradication apparatus for a pig farm according to claim 4, wherein a mosquito receiving net plate (404) is installed at a lower portion of the case (401) and above the mosquito eradication agent storage chamber (402);

the mosquito catching net plate (404) adopts a net plate with the mesh number not less than 400 meshes;

the surface of the mosquito catching net plate (404) is coated with an adhesive.

6. An automatic mosquito and fly eradication apparatus for pig farm according to claim 3, characterized in that the weak power grids are divided into a first weak power grid (501) and a second weak power grid (502);

the first weak power grid (501) is arranged along the extending track of the transition passage (3), and the first weak power grid (501) is installed close to the outer wall body (2);

the second weak electrical network (502) is integrated within the ventilated mosquito eradication assembly (4).

7. The automatic mosquito and fly eradication device for pig farm according to claim 6, characterized in that the second weak power grid (502) is integrated at the side of the box (401) near the outside, or the second weak power grid (502) is installed at both the side of the box (401) near the outside and the side near the outer wall (2).

8. The automatic mosquito and fly killing device for the pig farm according to claim 5, wherein an insertion channel is formed on the side surface of the box body (401), and a supporting ring platform (405) is arranged on the inward drawing of the position, close to the lower part of the insertion channel, in the box body (401);

the mosquito catching net plate (404) can slide along the insertion channel into the box body (401) and is supported on a supporting ring table (405).

9. The automatic mosquito and fly eradication apparatus for pig farm according to claim 8, wherein the opening width of the insertion channel is greater than the thickness of the mosquito receiving net plate (404).