CN210695484U - Tibetan incense chicken house suitable for high-altitude area - Google Patents

Abstract

The utility model discloses a Tibetan chicken house suitable for high altitude areas, which belongs to the field of poultry cultivation and comprises a shed roof; the shed roof comprises an upper louver layer and a lower film layer; the louver layer comprises a driving assembly and a plurality of blades; the blade comprises a rotating shaft, a shielding part, a lapping part, a torsion spring and an operating rod; the rotating shaft is rotatably supported between the two upper supporting beams; a shielding part and an operating rod are fixed on the rotating shaft; one end of the shielding part is provided with a lap joint part; when the operating rod of one blade drives the rotating shaft to rotate, the lap joint part can be buckled on the rotating shaft of the adjacent low-position blade; the torsion spring is arranged on the rotating shaft, so that the rotating shaft has the tendency of driving the lap joint part to be separated from the other rotating shaft; the film layer comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. The utility model discloses a tibetan chicken coop suitable for high-altitude area possesses cold-proof, and daylighting intensity is adjustable, takes a breath characteristics such as convenient.

Description

Tibetan incense chicken house suitable for high-altitude area

Technical Field

The utility model belongs to the poultry field of breeding, specifically speaking relates to a tibetan fragrant chicken coop suitable for high-altitude area.

Background

The Tibetan fragrant chicken grows on a plateau with the altitude of 3200-4000 meters and is taken as the current breed in the poultry industry in the high-altitude area. The Tibetan chicken is richer in nutrition and higher in quality than common chicken, is a delicious dish which is high in protein, low in fat and high in energy and is suitable for people of all ages, and is deeply loved by consumers.

When the Tibetan chicken is bred, the excrement of the Tibetan chicken needs to be cleaned regularly, so that a large amount of water is needed to be flushed, the henhouse is kept sanitary and clean, otherwise disease propagation is easily caused, but the water resource is precious; secondly, cleaning is completed manually, which wastes time and labor and affects the health of people; the chicken manure is a high-quality organic fertilizer, and manual recovery of a large amount of chicken manure also requires high labor cost.

The high-altitude areas have unique climate which is mainly reflected in that the temperature difference between day and night is large, the illumination time in the day is long, the sunlight is strong, and the common henhouses cannot control the temperature, the illumination and the ventilation, so that a lot of loss is brought to the breeding production of the Tibetan chicken. In order to better breed the Tibetan chicken, it is necessary to design a Tibetan chicken coop which is controllable aiming at the plateau environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned weak point provide a tibetan fragrant chicken coop suitable for high-altitude area, plan to solve current tibetan fragrant chicken coop chicken manure and clean needs big water gaging, needs a large amount of manpowers and make cold-proof, control illumination intensity, ventilation scheduling problem. In order to achieve the above object, the utility model provides a following technical scheme:

a Tibetan chicken house suitable for high altitude areas comprises a shed roof 1; the shed roof 1 comprises an upper louver layer 2 and a lower film layer 17; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the louver layer 2 comprises a driving assembly 22 and a plurality of blades 23; the blade 23 comprises a rotating shaft 24, a shielding part 25, a bridging part 26, a torsion spring 27 and an operating rod 28; the rotating shaft 24 is rotatably supported between the two upper supporting beams 21; a shielding part 25 and an operating rod 28 are fixed on the rotating shaft 24; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has a tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24; the driving assembly 22 comprises a control motor, a pinion 11, a gearwheel 12, a meshing gear 13, a rack 14, a baffle 15 and a connecting rod 16; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that all the blades 23 synchronously rotate; the control motor is used for driving the pinion 11 to drive the gearwheel 12 meshed with the pinion to rotate; the large gear 12 and the meshing gear 13 are coaxially arranged; the meshing gear 13 is meshed with the rack 14; a baffle 15 is fixed at one end of the rack 14; the baffle 15 is used for pushing the connecting rod 16 to move, so that all the blades 23 are sequentially overlapped from top to bottom along the upper supporting beam 21 to form a closed top surface; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. According to the structure, the shed roof 1 is the roof of the henhouse; the shed roof 1 has two layers, including the louver layer 2 positioned on the upper layer and the film layer 17 positioned on the lower layer, the louver layer 2 on the upper layer is similar to a louver, the light incidence area can be changed by turning the blades 23, so that the illumination intensity can be changed, the position which is most suitable for the illumination intensity of the Tibetan chicken is adjusted, and the situation that the growth of the Tibetan chicken is not facilitated due to too strong illumination radiation in a high-altitude area is avoided; the film layer 17 plays a role in heat preservation, and is beneficial to maintaining the most favorable growth temperature most suitable for Tibetan chicken; the Tibetan chicken grows in a high-altitude area, so that the environment is sometimes severe, and if only a film layer 17 roof is directly adopted, the Tibetan chicken is easily damaged to influence heat preservation; the louver layer 2 is directly turned over to integrally seal the blades 23 under a severe environment, so as to protect the film layer 17, and the louver layer 2 can be generally made of metal hard materials; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the lower support beam is inclined so as to facilitate the rolling of the film; the upper supporting beam 21 is inclined so as to facilitate rainwater to dump and collect towards one side after the louver layer 2 is closed in rainy days; when the longitudinal length of the henhouse is long, a plurality of louver layers 2 can be longitudinally spliced, and the film layers 17 are also longitudinally spliced, namely, each louver layer 2 is supported on two adjacent upper supporting beams 21, and each film layer 17 is supported on two adjacent lower supporting beams; the upper supporting beams 21 are equally highly parallel and vertical to the longitudinal length direction of the henhouse, and two ends of the upper supporting beams are supported on the henhouse wall; the lower supporting beams are all in equal height and parallel, are vertical to the longitudinal length direction of the henhouse, and are supported on the henhouse wall at two ends; the louver layer 2 comprises a driving component 22 and a plurality of blades 23, and the driving component 22 synchronously drives the blades 23 to turn; the specific driving mode is as follows: the control motor drives the pinion 11 to rotate, the pinion 11 is meshed with the gearwheel 12 to enable the gearwheel 12 to rotate, the gearwheel 12 and the meshing gear 13 are coaxially arranged, the gearwheel 12 and the meshing gear 13 rotate at the same angle, and the meshing gear 13 is meshed with the rack 14, so that the rack 14 can move when the meshing gear 13 rotates; when the rack 14 moves, the baffle 15 pushes the connecting rod 16 to move; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that when the connecting rod 16 moves, all the operating rods 28 synchronously rotate through respective rotating shafts 24, thereby driving the shielding part 25 to turn over, changing the light incidence area and adjusting the light intensity; the small gear 11, the large gear 12 and the meshing gear 13 form a force amplifying mechanism, and meanwhile, the rack 14 slightly moves only when the small gear 11 rotates for multiple circles, so that the control motor can be better controlled to adjust the overturning control precision of the shielding part 25; because the baffle 15 only pushes the connecting rod 16 to move in one direction, the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has the tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24, the automatic reset function is realized, and the deflection rotation angle of the blade can be well controlled under the combined action of the torsion spring 27 and the control motor; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the lap joint part 26 has moving elasticity and forms a buckle structure with the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing performance of the louver layer 2 is ensured, and rainwater can only flow to a low position; a rubber layer can be additionally arranged at the matching position of the overlapping part 26 and the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing is more tight; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. When the whole large air exchange is needed, the film rolling device rolls the film at the highest position of the lower supporting beam, all the blades of the louver layer 2 are turned over, the air exchange efficiency of the top air exchange mode is very high, and the air exchange area is also very large; when the air exchange is small, the ventilation window is opened, so that the heat passing caused by the large air exchange is avoided.

Further, the device also comprises a house body 3, a rainwater tank 31, a rainwater inlet valve 32, a purifier 33, a tap water pipe 34, a tap water pipe valve 35, a plurality of water outlet valves 36 and a plurality of water nozzles 37; the shed roof 1 is arranged at the top of the shed body 3; a rainwater tank 31 is arranged on one side of the shed body 3 and used for collecting rainwater falling from the shed roof 1; the rainwater tank 31, the rainwater inlet valve 32, the purifier 33, the water outlet valve 36 and the water spray nozzle 37 are sequentially connected through pipelines; a tap water pipe 34 is arranged on a pipeline between the purifier 33 and the water outlet valve 36; and a tap water pipe valve 35 for controlling the water replenishing of tap water is arranged on the tap water pipe 34. According to the structure, when raining, rainwater slides from the shed roof 1 to the rainwater tank 31 for storage, the top of the rainwater tank 31 is provided with a discharge port, and when the rainwater is full, the rainwater is discharged from the discharge port; when the rainwater needs to be washed, the rainwater inlet valve 32 is opened, rainwater flows from the rainwater tank 31 to the purifier 33 for disinfection and purification, the water outlet valve 36 is opened, the rainwater is sprayed to the bottom of the house body from the water spray nozzle 37 for washing, and the flowing power of the whole rainwater depends on the gravitational potential energy generated when the rainwater tank 31 is in a high position; when the rainwater is insufficient, the rainwater inlet valve 32 is closed, the water outlet valve 36 is opened, the tap water pipe valve 35 is opened, and tap water flows from the tap water pipe 34 to the water spray nozzle 37 and is sprayed to the bottom of the house body for washing.

Furthermore, the two sides of the bottom of the house body 3 are high and the middle is low, and a sewage discharge groove 4 is arranged in the middle; the water nozzles 37 are arranged on two sides of the housing 3 and spray water towards the bottom of the housing 3 for washing the bottom of the housing 3. As can be seen from the above structure, the water nozzle 37 sprays water toward the bottom of the housing 3, and the sewage flows from both sides of the bottom of the housing 3 to the middle sewage discharge tank 4 for sewage discharge.

Further, a dung removing device 5 which can move along the longitudinal direction of the house body 3 is arranged on the sewage discharging groove 4; the excrement removing device 5 is used for cleaning excrement at the bottom of the house body 3 to the sewage discharge groove 4. According to the structure, the excrement at the bottom of the house body 3 is cleaned by the excrement removing device 5 while being washed by water, so that the cleaning efficiency is high, and the cleaning is clean.

Further, the dung removing device 5 comprises a longitudinal beam 51, a longitudinal gear 52, a longitudinal rack, a hanger 53, a longitudinal motor 54, a sweeping motor 55, a sweeping brush 56 and four rollers 57; the longitudinal beam 51 extends along the longitudinal direction of the body 3; the hanger 53 comprises a bottom plate 59 and two side lugs 58 symmetrically arranged at two sides of the top of the bottom plate 59; the longitudinal gear 52 is rotatably arranged between the two side lugs 58; the longitudinal gear 52 is meshed with the longitudinal rack; the longitudinal rack is arranged at the top of the longitudinal beam 51; four rollers 57 are attached to the bottom of the longitudinal beam 51; the four rollers 57 are symmetrically and rotatably arranged at the inner sides of the two side lugs 58; the longitudinal motor 54 is fixed on one side lug 58 and is used for driving the longitudinal gear 52 to rotate; a cleaning motor 55 is fixed on the bottom plate 59; the cleaning motor 55 is used for driving the cleaning brush 56 to rotate, so that the excrement at the bottom of the house 3 is cleaned to the sewage discharge tank 4. According to the structure, the longitudinal motor 54 is fixed on one side lug 58 and drives the longitudinal gear 52 to rotate, the longitudinal gear 52 is meshed with the longitudinal rack, the longitudinal rack is arranged at the top of the longitudinal beam 51, and the longitudinal motor 54 can control the hanger 53 to longitudinally walk along the longitudinal beam 51; the two sides of the longitudinal rack are provided with the limiting strips, so that the longitudinal gear 52 runs on the longitudinal rack between the two limiting strips and cannot be separated out; the hanger 53 stably clamps the longitudinal beam 51 through the longitudinal gear 52 and the four rollers 57 and cannot shake; a sweeping motor 55 is fixed on the bottom plate 59; the cleaning motor 55 is used for driving the cleaning brush 56 to rotate, so that the excrement at the bottom of the house 3 is cleaned to the sewage discharge tank 4.

Further, a conveying device 6 is arranged in the sewage draining groove 4; the conveying device 6 comprises a driving wheel 61, a driven wheel 62, a conveying belt 63 and a plurality of auxiliary wheels 64; the driving wheel 61 and the driven wheel 62 are respectively arranged at two ends of the longitudinally arranged sewage draining groove 4; the transmission belt 63 is sleeved on the driving wheel 61 and the driven wheel 62; a plurality of auxiliary wheels 64 are arranged on the inner side of the conveyor belt 63 to assist in supporting the conveyor belt 63; a plurality of hollow holes are formed in the conveyor belt 63; the upper surface of the conveyor belt 63 is provided with a filter screen belt for filtering moisture during cleaning of excrement; the bottom of the sewage discharge groove 4 forms a slope which is inclined towards one side in the longitudinal direction, so that water can be discharged conveniently. According to the structure, the driving wheel 61 drives the conveying belt 63 to convey solid excrement, and sewage is filtered by the filter screen belt and then discharged to the bottom of the sewage discharge groove 4 through the hollow holes; the bottom of the sewage discharge groove 4 forms a slope which is inclined towards one side in the longitudinal direction, and sewage automatically flows to one end to be collected; large-particle excrement is conveyed into a storage box at one end through a conveying belt 63, and the fertilizer is utilized in the next step; the auxiliary wheel 64 is used for assisting in supporting the conveying belt 63 and ensuring the conveying stability.

Further, a disinfectant atomization device 7 is also included; the disinfectant atomization device 7 comprises a disinfectant containing box 71, a heating rod, a liquid pump 73, a plurality of liquid spraying valves 74 and a plurality of atomizers 75; the disinfectant liquid containing box 71, the liquid pump 73, the liquid spraying valve 74 and the atomizer 75 are connected in sequence through pipelines; the heating rod is arranged in the disinfectant containing box 71 and is used for heating the disinfectant; the atomizers are arranged at two sides of the bottom of the housing body 3. With the above structure, the heating rod is disposed inside the disinfectant containing box 71 to heat the disinfectant; the liquid spraying valve 74 is opened, the liquid pump 73 pumps hot disinfection liquid from the disinfection liquid containing box 71, the disinfection liquid is atomized by the atomizer 75, and the disinfection liquid is distributed in the whole henhouse, so that the purpose of comprehensive disinfection is achieved.

The utility model has the advantages that:

1. the utility model discloses a Tibetan chicken house suitable for high altitude areas, which comprises a shed roof; the shed roof comprises an upper louver layer and a lower film layer; the louver layer comprises a driving assembly and a plurality of blades; the blade comprises a rotating shaft, a shielding part, a lapping part, a torsion spring and an operating rod; the rotating shaft is rotatably supported between the two upper supporting beams; a shielding part and an operating rod are fixed on the rotating shaft; one end of the shielding part is provided with a lap joint part; when the operating rod of one blade drives the rotating shaft to rotate, the lap joint part can be buckled on the rotating shaft of the adjacent low-position blade; the torsion spring is arranged on the rotating shaft, so that the rotating shaft has the tendency of driving the lap joint part to be separated from the other rotating shaft; the film layer comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. The utility model discloses a tibetan chicken coop suitable for high-altitude area possesses cold-proof, and daylighting intensity is adjustable, takes a breath characteristics such as convenient.

Drawings

FIG. 1 is a schematic view of the structure of the louver layer of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of a feces removing device according to the present invention;

FIG. 4 is a schematic view of another viewing angle and a conveyor for the dung removing device according to the present invention;

in the drawings: 1-shed roof, 11-pinion, 12-bull gear, 13-meshing gear, 14-rack, 15-baffle, 16-connecting rod, 17-film layer, 2-louver layer, 21-upper supporting beam, 22-driving component, 23-blade, 24-rotating shaft, 25-shielding part, 26-overlapping part, 27-torsion spring, 28-operating rod, 3-shed body, 31-rainwater tank, 32-rainwater inlet valve, 33-purifier, 34-tap water pipe, 35-tap water pipe valve, 36-water outlet valve, 37-water nozzle, 4-sewage tank, 5-dung removing device, 51-longitudinal beam, 52-longitudinal gear, 53-hanger, 54-longitudinal motor, 55-sweeping motor, 56-cleaning brush, 57-roller, 58-side lug, 59-bottom plate, 6-transmission device, 61-driving wheel, 62-driven wheel, 63-transmission belt, 64-auxiliary wheel, 7-disinfectant atomization device, 71-disinfectant containing box, 73-liquid drawing pump, 74-liquid spraying valve and 75-atomizer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited to the following embodiments.

The first embodiment is as follows:

see figures 1-4. A Tibetan chicken house suitable for high altitude areas comprises a shed roof 1; the shed roof 1 comprises an upper louver layer 2 and a lower film layer 17; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the louver layer 2 comprises a driving assembly 22 and a plurality of blades 23; the blade 23 comprises a rotating shaft 24, a shielding part 25, a bridging part 26, a torsion spring 27 and an operating rod 28; the rotating shaft 24 is rotatably supported between the two upper supporting beams 21; a shielding part 25 and an operating rod 28 are fixed on the rotating shaft 24; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has a tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24; the driving assembly 22 comprises a control motor, a pinion 11, a gearwheel 12, a meshing gear 13, a rack 14, a baffle 15 and a connecting rod 16; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that all the blades 23 synchronously rotate; the control motor is used for driving the pinion 11 to drive the gearwheel 12 meshed with the pinion to rotate; the large gear 12 and the meshing gear 13 are coaxially arranged; the meshing gear 13 is meshed with the rack 14; a baffle 15 is fixed at one end of the rack 14; the baffle 15 is used for pushing the connecting rod 16 to move, so that all the blades 23 are sequentially overlapped from top to bottom along the upper supporting beam 21 to form a closed top surface; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. According to the structure, the shed roof 1 is the roof of the henhouse; the shed roof 1 has two layers, including the louver layer 2 positioned on the upper layer and the film layer 17 positioned on the lower layer, the louver layer 2 on the upper layer is similar to a louver, the light incidence area can be changed by turning the blades 23, so that the illumination intensity can be changed, the position which is most suitable for the illumination intensity of the Tibetan chicken is adjusted, and the situation that the growth of the Tibetan chicken is not facilitated due to too strong illumination radiation in a high-altitude area is avoided; the film layer 17 plays a role in heat preservation, and is beneficial to maintaining the most favorable growth temperature most suitable for Tibetan chicken; the Tibetan chicken grows in a high-altitude area, so that the environment is sometimes severe, and if only a film layer 17 roof is directly adopted, the Tibetan chicken is easily damaged to influence heat preservation; the louver layer 2 is directly turned over to integrally seal the blades 23 under a severe environment, so as to protect the film layer 17, and the louver layer 2 can be generally made of metal hard materials; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the lower support beam is inclined so as to facilitate the rolling of the film; the upper supporting beam 21 is inclined so as to facilitate rainwater to dump and collect towards one side after the louver layer 2 is closed in rainy days; when the longitudinal length of the henhouse is long, a plurality of louver layers 2 can be longitudinally spliced, and the film layers 17 are also longitudinally spliced, namely, each louver layer 2 is supported on two adjacent upper supporting beams 21, and each film layer 17 is supported on two adjacent lower supporting beams; the upper supporting beams 21 are equally highly parallel and vertical to the longitudinal length direction of the henhouse, and two ends of the upper supporting beams are supported on the henhouse wall; the lower supporting beams are all in equal height and parallel, are vertical to the longitudinal length direction of the henhouse, and are supported on the henhouse wall at two ends; the louver layer 2 comprises a driving component 22 and a plurality of blades 23, and the driving component 22 synchronously drives the blades 23 to turn; the specific driving mode is as follows: the control motor drives the pinion 11 to rotate, the pinion 11 is meshed with the gearwheel 12 to enable the gearwheel 12 to rotate, the gearwheel 12 and the meshing gear 13 are coaxially arranged, the gearwheel 12 and the meshing gear 13 rotate at the same angle, and the meshing gear 13 is meshed with the rack 14, so that the rack 14 can move when the meshing gear 13 rotates; when the rack 14 moves, the baffle 15 pushes the connecting rod 16 to move; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that when the connecting rod 16 moves, all the operating rods 28 synchronously rotate through respective rotating shafts 24, thereby driving the shielding part 25 to turn over, changing the light incidence area and adjusting the light intensity; the small gear 11, the large gear 12 and the meshing gear 13 form a force amplifying mechanism, and meanwhile, the rack 14 slightly moves only when the small gear 11 rotates for multiple circles, so that the control motor can be better controlled to adjust the overturning control precision of the shielding part 25; because the baffle 15 only pushes the connecting rod 16 to move in one direction, the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has the tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24, the automatic reset function is realized, and the deflection rotation angle of the blade can be well controlled under the combined action of the torsion spring 27 and the control motor; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the lap joint part 26 has moving elasticity and forms a buckle structure with the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing performance of the louver layer 2 is ensured, and rainwater can only flow to a low position; a rubber layer can be additionally arranged at the matching position of the overlapping part 26 and the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing is more tight; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. When the whole large air exchange is needed, the film rolling device rolls the film at the highest position of the lower supporting beam, all the blades of the louver layer 2 are turned over, the air exchange efficiency of the top air exchange mode is very high, and the air exchange area is also very large; when the air exchange is small, the ventilation window is opened, so that the heat passing caused by the large air exchange is avoided.

Example two:

see figures 1-4. A Tibetan chicken house suitable for high altitude areas comprises a shed roof 1; the shed roof 1 comprises an upper louver layer 2 and a lower film layer 17; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the louver layer 2 comprises a driving assembly 22 and a plurality of blades 23; the blade 23 comprises a rotating shaft 24, a shielding part 25, a bridging part 26, a torsion spring 27 and an operating rod 28; the rotating shaft 24 is rotatably supported between the two upper supporting beams 21; a shielding part 25 and an operating rod 28 are fixed on the rotating shaft 24; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has a tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24; the driving assembly 22 comprises a control motor, a pinion 11, a gearwheel 12, a meshing gear 13, a rack 14, a baffle 15 and a connecting rod 16; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that all the blades 23 synchronously rotate; the control motor is used for driving the pinion 11 to drive the gearwheel 12 meshed with the pinion to rotate; the large gear 12 and the meshing gear 13 are coaxially arranged; the meshing gear 13 is meshed with the rack 14; a baffle 15 is fixed at one end of the rack 14; the baffle 15 is used for pushing the connecting rod 16 to move, so that all the blades 23 are sequentially overlapped from top to bottom along the upper supporting beam 21 to form a closed top surface; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. According to the structure, the shed roof 1 is the roof of the henhouse; the shed roof 1 has two layers, including the louver layer 2 positioned on the upper layer and the film layer 17 positioned on the lower layer, the louver layer 2 on the upper layer is similar to a louver, the light incidence area can be changed by turning the blades 23, so that the illumination intensity can be changed, the position which is most suitable for the illumination intensity of the Tibetan chicken is adjusted, and the situation that the growth of the Tibetan chicken is not facilitated due to too strong illumination radiation in a high-altitude area is avoided; the film layer 17 plays a role in heat preservation, and is beneficial to maintaining the most favorable growth temperature most suitable for Tibetan chicken; the Tibetan chicken grows in a high-altitude area, so that the environment is sometimes severe, and if only a film layer 17 roof is directly adopted, the Tibetan chicken is easily damaged to influence heat preservation; the louver layer 2 is directly turned over to integrally seal the blades 23 under a severe environment, so as to protect the film layer 17, and the louver layer 2 can be generally made of metal hard materials; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the lower support beam is inclined so as to facilitate the rolling of the film; the upper supporting beam 21 is inclined so as to facilitate rainwater to dump and collect towards one side after the louver layer 2 is closed in rainy days; when the longitudinal length of the henhouse is long, a plurality of louver layers 2 can be longitudinally spliced, and the film layers 17 are also longitudinally spliced, namely, each louver layer 2 is supported on two adjacent upper supporting beams 21, and each film layer 17 is supported on two adjacent lower supporting beams; the upper supporting beams 21 are equally highly parallel and vertical to the longitudinal length direction of the henhouse, and two ends of the upper supporting beams are supported on the henhouse wall; the lower supporting beams are all in equal height and parallel, are vertical to the longitudinal length direction of the henhouse, and are supported on the henhouse wall at two ends; the louver layer 2 comprises a driving component 22 and a plurality of blades 23, and the driving component 22 synchronously drives the blades 23 to turn; the specific driving mode is as follows: the control motor drives the pinion 11 to rotate, the pinion 11 is meshed with the gearwheel 12 to enable the gearwheel 12 to rotate, the gearwheel 12 and the meshing gear 13 are coaxially arranged, the gearwheel 12 and the meshing gear 13 rotate at the same angle, and the meshing gear 13 is meshed with the rack 14, so that the rack 14 can move when the meshing gear 13 rotates; when the rack 14 moves, the baffle 15 pushes the connecting rod 16 to move; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that when the connecting rod 16 moves, all the operating rods 28 synchronously rotate through respective rotating shafts 24, thereby driving the shielding part 25 to turn over, changing the light incidence area and adjusting the light intensity; the small gear 11, the large gear 12 and the meshing gear 13 form a force amplifying mechanism, and meanwhile, the rack 14 slightly moves only when the small gear 11 rotates for multiple circles, so that the control motor can be better controlled to adjust the overturning control precision of the shielding part 25; because the baffle 15 only pushes the connecting rod 16 to move in one direction, the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has the tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24, the automatic reset function is realized, and the deflection rotation angle of the blade can be well controlled under the combined action of the torsion spring 27 and the control motor; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the lap joint part 26 has moving elasticity and forms a buckle structure with the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing performance of the louver layer 2 is ensured, and rainwater can only flow to a low position; a rubber layer can be additionally arranged at the matching position of the overlapping part 26 and the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing is more tight; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. When the whole large air exchange is needed, the film rolling device rolls the film at the highest position of the lower supporting beam, all the blades of the louver layer 2 are turned over, the air exchange efficiency of the top air exchange mode is very high, and the air exchange area is also very large; when the air exchange is small, the ventilation window is opened, so that the heat passing caused by the large air exchange is avoided.

The device also comprises a house body 3, a rainwater tank 31, a rainwater inlet valve 32, a purifier 33, a tap water pipe 34, a tap water pipe valve 35, a plurality of water outlet valves 36 and a plurality of water nozzles 37; the shed roof 1 is arranged at the top of the shed body 3; a rainwater tank 31 is arranged on one side of the shed body 3 and used for collecting rainwater falling from the shed roof 1; the rainwater tank 31, the rainwater inlet valve 32, the purifier 33, the water outlet valve 36 and the water spray nozzle 37 are sequentially connected through pipelines; a tap water pipe 34 is arranged on a pipeline between the purifier 33 and the water outlet valve 36; and a tap water pipe valve 35 for controlling the water replenishing of tap water is arranged on the tap water pipe 34. According to the structure, when raining, rainwater slides from the shed roof 1 to the rainwater tank 31 for storage, the top of the rainwater tank 31 is provided with a discharge port, and when the rainwater is full, the rainwater is discharged from the discharge port; when the rainwater needs to be washed, the rainwater inlet valve 32 is opened, rainwater flows from the rainwater tank 31 to the purifier 33 for disinfection and purification, the water outlet valve 36 is opened, the rainwater is sprayed to the bottom of the house body from the water spray nozzle 37 for washing, and the flowing power of the whole rainwater depends on the gravitational potential energy generated when the rainwater tank 31 is in a high position; when the rainwater is insufficient, the rainwater inlet valve 32 is closed, the water outlet valve 36 is opened, the tap water pipe valve 35 is opened, and tap water flows from the tap water pipe 34 to the water spray nozzle 37 and is sprayed to the bottom of the house body for washing.

Example three:

see figures 1-4. A Tibetan chicken house suitable for high altitude areas comprises a shed roof 1; the shed roof 1 comprises an upper louver layer 2 and a lower film layer 17; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the louver layer 2 comprises a driving assembly 22 and a plurality of blades 23; the blade 23 comprises a rotating shaft 24, a shielding part 25, a bridging part 26, a torsion spring 27 and an operating rod 28; the rotating shaft 24 is rotatably supported between the two upper supporting beams 21; a shielding part 25 and an operating rod 28 are fixed on the rotating shaft 24; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has a tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24; the driving assembly 22 comprises a control motor, a pinion 11, a gearwheel 12, a meshing gear 13, a rack 14, a baffle 15 and a connecting rod 16; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that all the blades 23 synchronously rotate; the control motor is used for driving the pinion 11 to drive the gearwheel 12 meshed with the pinion to rotate; the large gear 12 and the meshing gear 13 are coaxially arranged; the meshing gear 13 is meshed with the rack 14; a baffle 15 is fixed at one end of the rack 14; the baffle 15 is used for pushing the connecting rod 16 to move, so that all the blades 23 are sequentially overlapped from top to bottom along the upper supporting beam 21 to form a closed top surface; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. According to the structure, the shed roof 1 is the roof of the henhouse; the shed roof 1 has two layers, including the louver layer 2 positioned on the upper layer and the film layer 17 positioned on the lower layer, the louver layer 2 on the upper layer is similar to a louver, the light incidence area can be changed by turning the blades 23, so that the illumination intensity can be changed, the position which is most suitable for the illumination intensity of the Tibetan chicken is adjusted, and the situation that the growth of the Tibetan chicken is not facilitated due to too strong illumination radiation in a high-altitude area is avoided; the film layer 17 plays a role in heat preservation, and is beneficial to maintaining the most favorable growth temperature most suitable for Tibetan chicken; the Tibetan chicken grows in a high-altitude area, so that the environment is sometimes severe, and if only a film layer 17 roof is directly adopted, the Tibetan chicken is easily damaged to influence heat preservation; the louver layer 2 is directly turned over to integrally seal the blades 23 under a severe environment, so as to protect the film layer 17, and the louver layer 2 can be generally made of metal hard materials; the louver layer 2 is supported by two upper supporting beams 21, the film layer 17 is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams 21, and the lower supporting beams and the upper supporting beams are both inclined downwards by a certain angle; the lower support beam is inclined so as to facilitate the rolling of the film; the upper supporting beam 21 is inclined so as to facilitate rainwater to dump and collect towards one side after the louver layer 2 is closed in rainy days; when the longitudinal length of the henhouse is long, a plurality of louver layers 2 can be longitudinally spliced, and the film layers 17 are also longitudinally spliced, namely, each louver layer 2 is supported on two adjacent upper supporting beams 21, and each film layer 17 is supported on two adjacent lower supporting beams; the upper supporting beams 21 are equally highly parallel and vertical to the longitudinal length direction of the henhouse, and two ends of the upper supporting beams are supported on the henhouse wall; the lower supporting beams are all in equal height and parallel, are vertical to the longitudinal length direction of the henhouse, and are supported on the henhouse wall at two ends; the louver layer 2 comprises a driving component 22 and a plurality of blades 23, and the driving component 22 synchronously drives the blades 23 to turn; the specific driving mode is as follows: the control motor drives the pinion 11 to rotate, the pinion 11 is meshed with the gearwheel 12 to enable the gearwheel 12 to rotate, the gearwheel 12 and the meshing gear 13 are coaxially arranged, the gearwheel 12 and the meshing gear 13 rotate at the same angle, and the meshing gear 13 is meshed with the rack 14, so that the rack 14 can move when the meshing gear 13 rotates; when the rack 14 moves, the baffle 15 pushes the connecting rod 16 to move; the operating rods 28 of all the blades 23 are sequentially hinged on the connecting rod 16, so that when the connecting rod 16 moves, all the operating rods 28 synchronously rotate through respective rotating shafts 24, thereby driving the shielding part 25 to turn over, changing the light incidence area and adjusting the light intensity; the small gear 11, the large gear 12 and the meshing gear 13 form a force amplifying mechanism, and meanwhile, the rack 14 slightly moves only when the small gear 11 rotates for multiple circles, so that the control motor can be better controlled to adjust the overturning control precision of the shielding part 25; because the baffle 15 only pushes the connecting rod 16 to move in one direction, the torsion spring 27 is arranged on the rotating shaft 24, so that the rotating shaft 24 has the tendency of driving the overlapping part 26 to be separated from the other rotating shaft 24, the automatic reset function is realized, and the deflection rotation angle of the blade can be well controlled under the combined action of the torsion spring 27 and the control motor; one end of the shielding part 25 is provided with a lapping part 26; when the operating rod 28 of the blade 23 drives the rotating shaft 24 to rotate, the overlapping part 26 can be buckled on the rotating shaft 24 of the adjacent low-position blade 23; the lap joint part 26 has moving elasticity and forms a buckle structure with the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing performance of the louver layer 2 is ensured, and rainwater can only flow to a low position; a rubber layer can be additionally arranged at the matching position of the overlapping part 26 and the rotating shaft 24 of the adjacent low-position blade 23, so that the sealing is more tight; the film layer 17 comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam. When the whole large air exchange is needed, the film rolling device rolls the film at the highest position of the lower supporting beam, all the blades of the louver layer 2 are turned over, the air exchange efficiency of the top air exchange mode is very high, and the air exchange area is also very large; when the air exchange is small, the ventilation window is opened, so that the heat passing caused by the large air exchange is avoided.

The device also comprises a house body 3, a rainwater tank 31, a rainwater inlet valve 32, a purifier 33, a tap water pipe 34, a tap water pipe valve 35, a plurality of water outlet valves 36 and a plurality of water nozzles 37; the shed roof 1 is arranged at the top of the shed body 3; a rainwater tank 31 is arranged on one side of the shed body 3 and used for collecting rainwater falling from the shed roof 1; the rainwater tank 31, the rainwater inlet valve 32, the purifier 33, the water outlet valve 36 and the water spray nozzle 37 are sequentially connected through pipelines; a tap water pipe 34 is arranged on a pipeline between the purifier 33 and the water outlet valve 36; and a tap water pipe valve 35 for controlling the water replenishing of tap water is arranged on the tap water pipe 34. According to the structure, when raining, rainwater slides from the shed roof 1 to the rainwater tank 31 for storage, the top of the rainwater tank 31 is provided with a discharge port, and when the rainwater is full, the rainwater is discharged from the discharge port; when the rainwater needs to be washed, the rainwater inlet valve 32 is opened, rainwater flows from the rainwater tank 31 to the purifier 33 for disinfection and purification, the water outlet valve 36 is opened, the rainwater is sprayed to the bottom of the house body from the water spray nozzle 37 for washing, and the flowing power of the whole rainwater depends on the gravitational potential energy generated when the rainwater tank 31 is in a high position; when the rainwater is insufficient, the rainwater inlet valve 32 is closed, the water outlet valve 36 is opened, the tap water pipe valve 35 is opened, and tap water flows from the tap water pipe 34 to the water spray nozzle 37 and is sprayed to the bottom of the house body for washing.

The two sides of the bottom of the house body 3 are high and the middle is low, and a sewage discharge groove 4 is arranged in the middle; the water nozzles 37 are arranged on two sides of the housing 3 and spray water towards the bottom of the housing 3 for washing the bottom of the housing 3. As can be seen from the above structure, the water nozzle 37 sprays water toward the bottom of the housing 3, and the sewage flows from both sides of the bottom of the housing 3 to the middle sewage discharge tank 4 for sewage discharge.

The sewage discharge groove 4 is provided with a dung removing device 5 which can move along the longitudinal direction of the house body 3; the excrement removing device 5 is used for cleaning excrement at the bottom of the house body 3 to the sewage discharge groove 4. According to the structure, the excrement at the bottom of the house body 3 is cleaned by the excrement removing device 5 while being washed by water, so that the cleaning efficiency is high, and the cleaning is clean.

The dung removing device 5 comprises a longitudinal beam 51, a longitudinal gear 52, a longitudinal rack, a hanging bracket 53, a longitudinal motor 54, a sweeping motor 55, a sweeping brush 56 and four rollers 57; the longitudinal beam 51 extends along the longitudinal direction of the body 3; the hanger 53 comprises a bottom plate 59 and two side lugs 58 symmetrically arranged at two sides of the top of the bottom plate 59; the longitudinal gear 52 is rotatably arranged between the two side lugs 58; the longitudinal gear 52 is meshed with the longitudinal rack; the longitudinal rack is arranged at the top of the longitudinal beam 51; four rollers 57 are attached to the bottom of the longitudinal beam 51; the four rollers 57 are symmetrically and rotatably arranged at the inner sides of the two side lugs 58; the longitudinal motor 54 is fixed on one side lug 58 and is used for driving the longitudinal gear 52 to rotate; a cleaning motor 55 is fixed on the bottom plate 59; the cleaning motor 55 is used for driving the cleaning brush 56 to rotate, so that the excrement at the bottom of the house 3 is cleaned to the sewage discharge tank 4. According to the structure, the longitudinal motor 54 is fixed on one side lug 58 and drives the longitudinal gear 52 to rotate, the longitudinal gear 52 is meshed with the longitudinal rack, the longitudinal rack is arranged at the top of the longitudinal beam 51, and the longitudinal motor 54 can control the hanger 53 to longitudinally walk along the longitudinal beam 51; the two sides of the longitudinal rack are provided with the limiting strips, so that the longitudinal gear 52 runs on the longitudinal rack between the two limiting strips and cannot be separated out; the hanger 53 stably clamps the longitudinal beam 51 through the longitudinal gear 52 and the four rollers 57 and cannot shake; a sweeping motor 55 is fixed on the bottom plate 59; the cleaning motor 55 is used for driving the cleaning brush 56 to rotate, so that the excrement at the bottom of the house 3 is cleaned to the sewage discharge tank 4.

A conveying device 6 is arranged in the sewage draining groove 4; the conveying device 6 comprises a driving wheel 61, a driven wheel 62, a conveying belt 63 and a plurality of auxiliary wheels 64; the driving wheel 61 and the driven wheel 62 are respectively arranged at two ends of the longitudinally arranged sewage draining groove 4; the transmission belt 63 is sleeved on the driving wheel 61 and the driven wheel 62; a plurality of auxiliary wheels 64 are arranged on the inner side of the conveyor belt 63 to assist in supporting the conveyor belt 63; a plurality of hollow holes are formed in the conveyor belt 63; the upper surface of the conveyor belt 63 is provided with a filter screen belt for filtering moisture during cleaning of excrement; the bottom of the sewage discharge groove 4 forms a slope which is inclined towards one side in the longitudinal direction, so that water can be discharged conveniently. According to the structure, the driving wheel 61 drives the conveying belt 63 to convey solid excrement, and sewage is filtered by the filter screen belt and then discharged to the bottom of the sewage discharge groove 4 through the hollow holes; the bottom of the sewage discharge groove 4 forms a slope which is inclined towards one side in the longitudinal direction, and sewage automatically flows to one end to be collected; large-particle excrement is conveyed into a storage box at one end through a conveying belt 63, and the fertilizer is utilized in the next step; the auxiliary wheel 64 is used for assisting in supporting the conveying belt 63 and ensuring the conveying stability.

Also comprises a disinfectant atomization device 7; the disinfectant atomization device 7 comprises a disinfectant containing box 71, a heating rod, a liquid pump 73, a plurality of liquid spraying valves 74 and a plurality of atomizers 75; the disinfectant liquid containing box 71, the liquid pump 73, the liquid spraying valve 74 and the atomizer 75 are connected in sequence through pipelines; the heating rod is arranged in the disinfectant containing box 71 and is used for heating the disinfectant; the atomizers are arranged at two sides of the bottom of the housing body 3. With the above structure, the heating rod is disposed inside the disinfectant containing box 71 to heat the disinfectant; the liquid spraying valve 74 is opened, the liquid pump 73 pumps hot disinfection liquid from the disinfection liquid containing box 71, the disinfection liquid is atomized by the atomizer 75, and the disinfection liquid is distributed in the whole henhouse, so that the purpose of comprehensive disinfection is achieved.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (7)

1. The utility model provides a tibetan fragrant chicken coop suitable for high-altitude area which characterized in that: comprises a shed roof (1); the shed roof (1) comprises an upper louver layer (2) and a lower film layer (17); the louver layer (2) is supported by two upper supporting beams (21), the film layer (17) is supported by two lower supporting beams, the lower supporting beams are correspondingly arranged right below the upper supporting beams (21), and the upper supporting beams and the lower supporting beams are both inclined downwards by a certain angle; the louver layer (2) comprises a driving assembly (22) and a plurality of blades (23); the blade (23) comprises a rotating shaft (24), a shielding part (25), a lapping part (26), a torsion spring (27) and an operating rod (28); the rotating shaft (24) is rotatably supported between the two upper supporting beams (21); a shielding part (25) and an operating rod (28) are fixed on the rotating shaft (24); one end of the shielding part (25) is provided with a lapping part (26); when the operating rod (28) of one blade (23) drives the rotating shaft (24) to rotate, the overlapping part (26) can be buckled on the rotating shaft (24) of the adjacent low-position blade (23); the torsion spring (27) is arranged on the rotating shaft (24) to ensure that the rotating shaft (24) has the tendency of driving the overlapping part (26) to be separated from the other rotating shaft (24); the driving assembly (22) comprises a control motor, a pinion (11), a large gear (12), a meshing gear (13), a rack (14), a baffle (15) and a connecting rod (16); the operating rods (28) of all the blades (23) are sequentially hinged on the connecting rod (16) to enable all the blades (23) to synchronously rotate; the control motor is used for driving the pinion (11) to drive the gearwheel (12) meshed with the pinion to rotate; the large gear (12) and the meshing gear (13) are coaxially arranged; the meshing gear (13) is meshed with the rack (14); a baffle (15) is fixed at one end of the rack (14); the baffle (15) is used for pushing the connecting rod (16) to move, so that all the blades (23) are sequentially overlapped from top to bottom along the upper supporting beam (21) to form a closed top surface; the film layer (17) comprises a film and a film winder; the film rolling device is arranged at the lower bottom edge of the film and used for rolling the film at the highest position of the lower supporting beam.

2. The Tibetan chicken house suitable for the high-altitude areas as claimed in claim 1, wherein: the device also comprises a house body (3), a rainwater tank (31), a rainwater inlet valve (32), a purifier (33), a tap water pipe (34), a tap water pipe valve (35), a plurality of water outlet valves (36) and a plurality of water spray nozzles (37); the shed roof (1) is arranged at the top of the shed body (3); a rainwater tank (31) is arranged on one side of the shed body (3) and is used for collecting rainwater falling from the shed roof (1); the rainwater tank (31), the rainwater inlet valve (32), the purifier (33), the water outlet valve (36) and the water spray nozzle (37) are sequentially connected through a pipeline; a tap water pipe (34) is arranged on a pipeline between the purifier (33) and the water outlet valve (36); and a tap water pipe valve (35) for controlling the water supplement of tap water is arranged on the tap water pipe (34).

3. The Tibetan chicken house suitable for the high-altitude areas as claimed in claim 2, wherein: the two sides of the bottom of the house body (3) are high and the middle is low, and a sewage discharge groove (4) is arranged in the middle; the water spray nozzles (37) are arranged on two sides of the shed body (3) and spray water towards the bottom of the shed body (3) and are used for washing the bottom of the shed body (3).

4. The Tibetan chicken house suitable for the high-altitude areas as claimed in claim 3, wherein: the sewage discharge groove (4) is provided with a dung removing device (5) which can move along the longitudinal direction of the house body (3); the excrement removing device (5) is used for cleaning excrement at the bottom of the house body (3) to the sewage discharge groove (4).

5. The Tibetan chicken house suitable for the high-altitude areas as claimed in claim 4, wherein: the dung removing device (5) comprises a longitudinal beam (51), a longitudinal gear (52), a longitudinal rack, a hanging bracket (53), a longitudinal motor (54), a cleaning motor (55), a cleaning brush (56) and four rollers (57); the longitudinal beam (51) extends along the longitudinal direction of the shed (3); the hanging bracket (53) comprises a bottom plate (59) and two side lugs (58) symmetrically arranged on two sides of the top of the bottom plate (59); the longitudinal gear (52) is rotatably arranged between the two side lugs (58); the longitudinal gear (52) is meshed with the longitudinal rack; the longitudinal rack is arranged at the top of the longitudinal beam (51); four rollers (57) are attached to the bottom of the longitudinal beam (51); the four rollers (57) are symmetrically and rotatably arranged at the inner sides of the two side lugs (58); the longitudinal motor (54) is fixed on one side lug (58) and is used for driving the longitudinal gear (52) to rotate; a cleaning motor (55) is fixed on the bottom plate (59); the cleaning motor (55) is used for driving the cleaning brush (56) to rotate, so that the excrement at the bottom of the house body (3) is cleaned to the sewage discharge groove (4).

6. The Tibetan chicken house suitable for the high-altitude areas as claimed in claim 5, wherein: a conveying device (6) is arranged in the sewage discharge groove (4); the conveying device (6) comprises a driving wheel (61), a driven wheel (62), a conveying belt (63) and a plurality of auxiliary wheels (64); the driving wheel (61) and the driven wheel (62) are respectively arranged at two ends of the longitudinally arranged sewage discharge groove (4); the transmission belt (63) is sleeved on the driving wheel (61) and the driven wheel (62); a plurality of auxiliary wheels (64) are arranged on the inner side of the conveyor belt (63) to assist in supporting the conveyor belt (63); the conveyor belt (63) is provided with a plurality of hollow holes; the upper surface of the conveyor belt (63) is provided with a filter screen belt for filtering moisture during cleaning of excrement; the bottom of the sewage draining groove (4) forms a slope which is inclined towards one side in the longitudinal direction, so that water is drained conveniently.

7. The Tibetan chicken house suitable for the high-altitude areas as claimed in any one of claims 2 to 6, wherein: the disinfection device also comprises a disinfection liquid atomization device (7); the disinfectant atomization device (7) comprises a disinfectant containing box (71), a heating rod, a liquid pump (73), a plurality of liquid spraying valves (74) and a plurality of atomizers (75); the disinfectant containing box (71), the liquid pump (73), the liquid spraying valve (74) and the atomizer (75) are sequentially connected through a pipeline; the heating rod is arranged in the disinfectant containing box (71) and is used for heating the disinfectant; the atomizers are arranged on two sides of the housing body (3).

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