CN115152657B

CN115152657B - Henhouse with automatic dust removal and ventilation functions

Info

Publication number: CN115152657B
Application number: CN202210925853.0A
Authority: CN
Inventors: 胡伟龙; 仇秀玲; 杨崇龙; 石永宏; 孟芃宇; 赵源; 石家宇; 胡梓轩
Original assignee: Ningxia Jiusanling Ecological Agriculture And Animal Husbandry Co ltd
Current assignee: Ningxia Jiusanling Ecological Agriculture And Animal Husbandry Co ltd
Priority date: 2022-08-03
Filing date: 2022-08-03
Publication date: 2024-01-26
Anticipated expiration: 2042-08-03
Also published as: CN115152657A

Abstract

The invention provides a chicken house with automatic dust removal and ventilation functions, which comprises: the fresh air ventilation fans are arranged on a wall body connected between the breeding room and the ventilation room and used for extracting air from the breeding room; the wall body surrounding the cultivation room is provided with a plurality of filtering air inlet windows which are distributed at equal intervals, and the wall body at the other end of the cultivation room corresponding to the wall body where the fresh air ventilator is positioned is provided with a nano paper water curtain; the ventilation room comprises: the fresh air ventilator is used for pumping dirty air in the breeding room like the dust collection room, filtering impurities such as particulate matters, aerosol, chicken feather and the like in the air through the filter cotton net, and then discharging the filtered impurities out of the chicken coop through the exhaust room.

Description

Henhouse with automatic dust removal and ventilation functions

Technical Field

The invention relates to a modern chicken house for breeding, in particular to a chicken house with an automatic dust removal and ventilation function.

Background

The air quality of the chicken house in the farm is an important index, the ventilation system is responsible for controlling the adjustment of the concentration of carbon dioxide, the temperature and the humidity in the chicken house, and meanwhile, substances such as dust, chicken feather and the like in the chicken house are removed, if the ventilation system cannot continuously perform well, the breeding of germs in the chicken house, the lack of oxygen and the unsanitary chicken house environment are all unfavorable for the growth of chickens, so that the ventilation system is a very important device in the chicken farm.

The interior water smoke sprinkler in the chicken coop is same to temperature and humidity's regulation to and the collection of dust and impurities is caught and is played the key effect, but current water smoke sprinkler is fixed setting mostly, through fixed a large amount of liquid guide pipeline in chicken coop top, with each atomizer suspension distribution in chicken coop top, lead to the chicken coop top space to be excessively sheltered from like this, be unfavorable for chicken coop daylighting, whole water smoke sprinkler structure is tedious, material accessory cost is higher, when carrying out the camouflage test, need the staff get into the chicken coop inside and put the filtration inlet window department of the both sides in the chicken coop simultaneously, the effect of the camouflage test of just can better observation.

Disclosure of Invention

The invention provides a chicken house with an automatic dust removal and ventilation function, which aims to solve the problems in the prior art.

The chicken house comprises: the fresh air ventilation fans are arranged on a wall body connected between the breeding room and the ventilation room and used for extracting air from the breeding room; the wall body surrounding the cultivation room is provided with a plurality of filtering air inlet windows which are distributed at equal intervals, and the wall body at the other end of the cultivation room corresponding to the wall body where the fresh air ventilator is positioned is provided with a nano paper water curtain; the ventilation room comprises: the fresh air ventilator is used for pumping dirty air in the breeding room like the dust collection room, filtering impurities such as particulate matters, aerosol, chicken feather and the like in the air through the filter cotton net, and then discharging the filtered impurities out of the chicken coop through the exhaust room.

Further, a top layer framework is arranged at the top of the cultivation room, two suspension rails arranged along the length direction of the cultivation room are suspended below the top layer framework, and a mobile spraying robot spraying water mist to the lower part of the cultivation room is operated above the suspension rails.

Further, the mobile spray robot includes: the AVG trolley runs above the suspension rail and the spraying device runs below the suspension rail; the part of the suspension rail used for guiding the movement of the AVG trolley is a double-row rail, and a reserved space between the double-row rails is used for connecting the AVG trolley with the spraying device so as to avoid interference with the suspension rail when the spraying device moves.

Further, the spraying device includes: a liquid outlet tank fixed below the AVG trolley, a horizontal bracket arranged perpendicular to the moving direction of the AVG trolley, a liquid spraying hose arranged along the horizontal bracket, and a plurality of atomizing nozzles uniformly distributed on the liquid spraying hose at equal intervals; wherein, the liquid inlet end of the liquid spraying hose is led out from the liquid spraying control valve at the bottom of the pressurizing liquid outlet tank.

Further, one end of the horizontal bracket, which is close to the side wall body of the cultivation room, is provided with a fixedly installed extension shaft.

Further, a fog-spreading test device for observing the trend of the internal air flow is arranged near the wall body in the cultivation room, which is close to the two sides, the fog-spreading test device comprises two sets of devices, one set of devices is arranged on an extension shaft which moves along with the mobile spraying robot, and the other set of devices is fixed on the inner side of a filtering air inlet window.

Further, the set of devices mounted on the elongate shaft includes: the synchronous gear is hinged on the extension shaft, and is connected with the synchronous gear into a whole; another set of devices installed inside the filtering inlet window includes: a rack support extending from the lower part of the air inlet of the filtering air inlet window, and a fixed rack arranged at the tail end of the rack support; when the movable spraying robot moves to the filtering air inlet window, the synchronous gear is meshed with the fixed rack, the length of the fixed rack is greater than or equal to half of the pitch circumference of the synchronous gear, and when the synchronous gear is meshed with the fixed rack, the overturning atomizing can overturns at least 180 degrees along with the synchronous gear.

Further, the overturning the camouflage canister includes: a detachable mist powder cup which is far away from the extension shaft part and a sieve pore cup body which is close to the extension shaft part; the small holes around the mesh cup allow air from the filter inlet to blow the misty powder from the inverted misty tank into the breeding room.

Further, a positioning sensor is arranged at the end part of the extension shaft, and an induction block is arranged above the corresponding rack support and used for enabling the mobile spraying robot to judge whether the mobile spraying robot moves to a foggy test position or not.

The invention has the technical effects that: because the raising density in the chicken house is higher, the chicken sneezes to form aerosol to float in the air, meanwhile, the respiration of the chicken consumes the oxygen in the chicken house and releases carbon dioxide, the fermentation of chicken manure generates methane, and the falling of chicken feather can influence the air quality of the chicken house, so that the air in the chicken house is clean, the breeding of bacteria is prevented, the continuous circulation of the air in the chicken house is ensured, and the concentration of carbon dioxide is ensured not to exceed 1000ppm/m ³ 。

The fresh air ventilator extracts dirty air from the henhouse to the dust collection room for filtering, and the filtered air is discharged out of the henhouse through the ventilation room; when the temperature outside the henhouse exceeds 28 ℃, a nano paper water curtain is opened at the same time, so that the outside air enters the henhouse after being cooled by the water curtain, and the temperature inside the henhouse is ensured to be kept in a proper range; the nano paper water curtain and the filtering air inlet window have certain filtering functions, so that air with sand dust outside is prevented from being directly sucked into the henhouse; the movable spraying robot is installed below the top layer framework at the top of the henhouse, the movable spraying robot can uniformly spray the liquid medicine mixed with the disinfectant and the deodorant into the henhouse, solid particles in the gas can be rapidly trapped and adsorbed by inertia when the water mist enters the gas flow containing dust, and finally solid-liquid mixed particles wrapping the particles are formed and settled to the ground under the action of gravity, so that dust removal is realized, and meanwhile, humidification or cooling effects are realized through spraying in certain dry areas or dry seasons. If biological or chemical deodorant and disinfectant are added into the pressurized liquid storage tank, the purposes of removing odor and killing germs are further achieved in the chicken house, and germs in the chicken house can be prevented from breeding; the collected chicken feather mainly refers to very fine and soft chicken feather.

The wind force formed by the fresh air ventilation fan is not very large, strong air flow can be formed in the chicken house too large, so that the eggs catch a cold, the ventilation air flow rate in the chicken house is generally between 2.5m/s and 3m/s, and the air flow direction is required to be consistent, turbulence cannot be generated, therefore, a camouflage test device is arranged in the chicken house to observe the wind direction in the chicken house, a color camouflage powder is arranged in a turnover camouflage pot on the camouflage test device, the turnover camouflage pot moves to a filtering air inlet window provided with a fixed rack along with a mobile spraying robot, the turnover camouflage pot rotates 180 degrees due to the meshing effect of a rack and pinion, so that a sieve mesh cup body faces downwards, the camouflage powder arranged in the camouflage powder cup is blown into the chicken house through fresh air from an air inlet of the filtering air inlet window by small holes, and at the moment, a worker can judge whether the direction of the air flow direction in the chicken house and the approximate flow rate meet the requirements or not through the direction of the camouflage.

Drawings

FIG. 1 is an isometric view of a chicken house of the present invention;

FIG. 2 is an isometric view of a chicken house without a top layer skeleton in accordance with the present invention;

FIG. 3 is an isometric view of a mobile spray robot of the present invention;

FIG. 4 is an isometric view of a haze test device in accordance with the present invention.

In the figure, 1. Breeding room, 11. Top frame, 12. Nano paper water curtain, 13. Filtration inlet window, 16. Suspension rail, 2. Ventilation room, 21. Dust collection room, 22. Exhaust room, 23. Filtration cotton net, 24. Fresh air ventilator, 3. Mobile spray robot, 30. Spray device, 31.AVG cart, 32. Increased liquid outlet tank, 33. Horizontal stand, 34. Spray hose, 35. Spray head, 36. Spray control valve, 4. Mist test device, 41. Extension shaft, 42. Turning mist tank, 43. Synchronous gear, 44. Fixed rack, 45. Rack support, 46. Induction block, 47. Positioning inductor, 411. Mist powder cup, 412. Mesh cup.

Detailed Description

A specific embodiment of the present invention will be described with reference to fig. 1 to 4.

For clarity of illustration of the internal structure of the chicken house, the top of the chicken house is not shown in the drawings.

Fig. 1 and 2 illustrate an overall structure of a chicken house and a layout mode of a mobile spray robot, the chicken house including: a breeding room 1 for breeding chickens and a ventilation room 2 for collecting dust, wherein a plurality of fresh air ventilation fans 24 for extracting air from the breeding room 1 are arranged on a wall body connected between the breeding room 1 and the ventilation room 2; wherein, set up the filtration fresh air inlet window 13 that a plurality of equidistances were arranged on the wall body around 1 between, set up the nanometer paper cascade 12 on the wall body of 1 other end between the corresponding with the wall body of 1 between that fresh air scavenger fan 24 is located, the room 2 of taking a breath includes: the dust collection room 21 is located on one side of the wall where the fresh air ventilator 24 is located, the exhaust chamber 22 is communicated with the outside, and a filter cotton net 23 which only allows clean air to pass through is arranged on the wall separating the dust collection room 21 and the exhaust chamber 22.

The top of the cultivation room 1 is provided with a top layer framework 11, two suspension rails 16 which are arranged along the length direction of the cultivation room 1 are hung below the top layer framework 11, and a mobile spraying robot 3 which sprays water mist to the lower side of the cultivation room 1 is operated above the suspension rails 16.

Fig. 3 illustrates a spray structure on a mobile spray robot, the mobile spray robot 3 comprising: the AVG trolley 31 running above the suspension rail 16 and the spraying device 30 running below the suspension rail 16, wherein the portion of the suspension rail 16 for guiding the AVG trolley 31 to move is a double-row rail, and a reserved space between the double-row rails is used for connecting the AVG trolley 31 and the spraying device 30 so as to avoid interference with the suspension rail 16 when the spraying device 30 moves.

The spraying device 30 includes: a pressurizing liquid outlet tank 32 fixed below the AVG trolley 31, a horizontal bracket 33 arranged perpendicular to the moving direction of the AVG trolley 31, a liquid spraying hose 34 arranged along the horizontal bracket 33, and a plurality of atomizing nozzles 35 uniformly distributed on the liquid spraying hose 34 at equal intervals; wherein the liquid inlet end of the liquid spraying hose 34 is led out from a liquid spraying control valve 36 at the bottom of the pressurized liquid outlet tank 32.

The horizontal bracket 33 is provided with a fixedly mounted extension shaft 41 at one end close to the side wall of the cultivation room 1.

Fig. 4 illustrates the working principle of the foggy test device, wherein a foggy test device 4 for observing the trend of internal air flow is arranged near the wall body close to two sides in the cultivation room 1, the foggy test device 4 comprises two sets of devices, one set of devices is arranged on an extension shaft 41 which moves along with the mobile spraying robot 3, and the other set of devices can be fixed on the inner side of any filtering air inlet window 13; the set of devices mounted on the extension shaft 41 comprises: and a synchronizing gear 43 hinged on the extension shaft 41, and a turnover atomizing tank 42 integrally connected with the synchronizing gear 43, wherein the synchronizing gear 43 is meshed with a fixed rack 44 when the mobile atomizing robot 3 moves to the filtering air inlet window 13, and the length of the fixed rack 44 is equal to or greater than one half of the pitch circumference of the synchronizing gear 43.

The flip-up aerosol can 42 includes: a detachable mist powder cup 411 located away from the portion of the extension shaft 41, and a mesh cup 412 located near the portion of the extension shaft 41; the small holes around the mesh cup 412 allow air from the filter inlet 13 to blow the misting powder from the inverted misting tank 42 into the booth 1; a positioning sensor 47 is arranged at the end of the extension shaft 41, and a sensing block 46 is arranged above the corresponding rack support 45, so that the mobile spraying robot 3 can judge whether the mobile spraying robot moves to a foggy test position or not.

Working principle: under normal conditions, the nano paper water curtain 12 is in a closed state, fresh air enters the henhouse through the filtering air inlet window 13 around the breeding room 1, when the external temperature of the henhouse exceeds 28 ℃, the nano paper water curtain 12 is opened, so that the external air with higher temperature is cooled and then enters the henhouse, the carbon dioxide concentration and methane gas content in the henhouse are ensured, and the temperature is in a range suitable for the growth of breeding hens and the laying of eggs.

In addition, due to the high culture density, germs are easily bred in chicken manure, the air quality in the chicken house is reduced due to the falling of chicken feather, and the chicken can sneeze to form aerosol floating in the chicken house, so that the water mist is sprayed into the chicken house through the mobile spraying robot 3.

The AVG trolley 31 above the mobile spraying robot 3 runs above the suspension rail 16, the suspension rail 16 is a double-row rail, a space between the double-row rail is provided for a pressurizing liquid outlet tank 32 to be installed below the AVG trolley 31, a plurality of atomizing spray heads are uniformly distributed on a spray hose 34 led out from the bottom of the pressurizing liquid outlet tank 32 at equal intervals, the liquid in the pressurizing liquid outlet tank 32 is mixed with deodorant and disinfectant, a horizontal bracket 33 enables the spray range to cover the width direction of the cultivation room 1, when spraying liquid, the AVG trolley 31 moves to the other end from one end of the cultivation room along the double-row rail, the water spray is sprayed in the whole cultivation room 1, dust, chicken feather and aerosol in the cultivation room are captured to the bottom layer of the cultivation room 1, along with chicken manure, the chicken manure is cleaned out of the chicken house, and meanwhile, the humidity in the chicken house is improved.

The misting test device 4 can enable staff to observe the air flowing direction in the henhouse and judge the air flow velocity, when the misting test is carried out, the fixed rack 44 is arranged at the position of the filtering air inlet window 13 to be tested through the rack support 45, the misting powder is placed in the turnover misting tank 42 by the staff, the misting powder cup 411 at one end, far away from the extension shaft 41, of the turnover misting tank 42 is free of small holes, in the process of moving forwards along with the moving spraying robot 3, the internal powder cannot be influenced by wind force from the filtering air inlet window 13 until the positioning sensor 47 in the center of the extension shaft 41 senses the sensing block 46, the AVG trolley 31 stops moving, the synchronous gear 43 connected with the turnover misting tank 42 is turned 180 degrees under the meshing effect of the fixed rack 44, the sieve mesh cup 412 faces downwards, at this time, the misting powder is blown into the cultivation room by the air entering from the filtering air inlet window 13, whether the air flowing direction in the cultivation room 1 meets requirements or not is observed by the staff, and accordingly the load degree of fresh air inlet flow and fresh air ventilation fan is adjusted.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced with equivalents; such modifications and substitutions do not depart from the spirit of the technical solutions according to the embodiments of the present invention.

Claims

1. Henhouse with automatic dust removal ventilation function, characterized in that, this henhouse includes: a breeding room (1) for breeding chickens and a ventilation room (2) for collecting dust, wherein a plurality of fresh air ventilation fans (24) for extracting air from the breeding room (1) are arranged on a wall body connected between the breeding room (1) and the ventilation room (2);

wherein, a plurality of filtering air inlet windows (13) which are equidistantly distributed are arranged on the wall body surrounding the cultivation room (1), and a nano paper water curtain (12) is arranged on the wall body at the other end of the cultivation room (1) corresponding to the wall body where the fresh air scavenger fan (24) is arranged;

the top of the cultivation room (1) is provided with a top layer framework (11), two suspension rails (16) arranged along the length direction of the cultivation room (1) are suspended below the top layer framework (11), and a mobile spraying robot (3) for spraying water mist to the lower part of the cultivation room (1) is operated above the suspension rails (16);

the mobile spray robot (3) comprises: an AVG trolley (31) running above the suspension rail (16), a spraying device (30) running below the suspension rail (16); the suspension rail (16) is used for guiding the moving part of the AVG trolley (31) to be a double-row rail, and a reserved space between the double-row rail is used for connecting the AVG trolley (31) with the spraying device (30) so as to avoid interference between the spraying device (30) and the suspension rail (16) when moving;

the spraying device (30) comprises: a pressurizing liquid outlet tank (32) fixed below the AVG trolley (31), a horizontal bracket (33) arranged perpendicular to the moving direction of the AVG trolley (31), a liquid spraying hose (34) arranged along the horizontal bracket (33), and a plurality of atomizing nozzles (35) uniformly distributed on the liquid spraying hose (34) at equal intervals; wherein, the liquid inlet end of the liquid spraying hose (34) is led out from a liquid spraying control valve (36) at the bottom of the pressurizing liquid outlet tank (32);

one end of the horizontal bracket (33) close to the side wall of the cultivation room (1) is provided with an extension shaft (41) which is fixedly arranged; the wall body near two sides of the cultivation room (1) is internally provided with a fog-spreading test device (4) for observing the trend of internal airflow, the fog-spreading test device (4) comprises two sets of devices, one set of devices is arranged on an extension shaft (41) which moves along with the mobile spraying robot (3), and the other set of devices can be fixed on the inner side of any one filtering air inlet window (13); a set of devices mounted on an elongate shaft (41) comprising: a synchronizing gear (43) hinged on the extension shaft (41), and a turnover mist-spraying tank (42) connected with the synchronizing gear (43) in an integral manner; another set of devices mounted inside the filtering inlet window (13) comprises: a rack support (45) extending from the lower part of the air inlet of the filtering air inlet window (13), and a fixed rack (44) arranged at the tail end of the rack support (45); when the mobile spraying robot (3) moves to the filtering air inlet window (13), the synchronous gear (43) is meshed with the fixed rack (44), and the length of the fixed rack (44) is more than or equal to one half of the pitch circumference of the synchronous gear (43);

the flip-flop aerosol can (42) includes: a detachable mist powder cup (411) located away from the extension shaft (41) and a mesh cup (412) located near the extension shaft (41); the small holes around the sieve pore cup body (412) allow air from the filtering air inlet window (13) to blow the mist powder from the turnover mist tank (42) into the cultivation room (1); the ventilation room (2) comprises: the dust and impurity collecting room (21) is positioned on one side of the wall body where the fresh air ventilator (24) is positioned, the exhaust chamber (22) is communicated with the outside, and a filter cotton net (23) which only allows clean air to pass through is arranged on the wall body separated between the dust and impurity collecting room (21) and the exhaust chamber (22).

2. The henhouse with the automatic dust removal and ventilation functions according to claim 1, wherein a positioning sensor (47) is arranged at the end of the extension shaft (41), and a sensing block (46) is arranged above the corresponding rack support (45) for enabling the mobile spraying robot (3) to judge whether the mobile spraying robot moves to a foggy test position or not.