CN216164376U - Super high-rise cage-breeding laying hen house - Google Patents

Abstract

The utility model relates to a livestock facility, in particular to a super high-rise cage laying hen house which comprises a house body, wherein different from the prior art, more than 1 layer of grid plates are erected in the house body, and a plurality of rows of cages, 3 layers of cages or more are arranged on each layer of grid plate. Therefore, the number of the layers of the coop can reach at least 6, even 12, the coop can be completely called as an ultrahigh-layer cage laying hen house, the floor area can be greatly reduced, and the intensive and large-scale breeding level is improved.

Description

Super high-rise cage-breeding laying hen house

Technical Field

The utility model relates to livestock facilities, in particular to a super high-rise cage laying hen house.

Background

For the layer chicken raised in the centralized containment, no layer chicken coop with more than 4 layers is smelled, because the problems of ventilation, feeding and cleaning are all caused when the layer chicken coop with more than 4 layers is over. Therefore, the laying hen breeding usually occupies a large area.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of large floor area in laying hen breeding, the utility model discloses an ultrahigh-rise cage laying hen house, which adopts the following technical scheme:

the utility model provides a laying hen house is supported in superelevation layer cage, includes the house body, and is different from prior art, erects 1 more than layer of grid plate in the house body, arranges the multiseriate on every layer of grid plate, and every is listed as 3 layers and above the chicken coop. Therefore, the number of the layers of the coops can reach at least 6, even 12, the coops can be completely called as super high-rise cage laying hen houses, the floor area can be greatly reduced, and the intensive and large-scale breeding level is improved.

Furthermore, more than 1 exhaust fan is arranged on one end gable of the house body, and more than 1 wet curtain is arranged on the other end gable of the house body. So can realize the vertical ventilation blower cooling of chicken coop.

Further, install 2 arc furred ceilings under the house roof, hang under the arc furred ceiling and every layer of grid board and establish more than 1 row, every row a plurality of efflux fan. So can solve the problem of the upper and lower difference in temperature in the whole chicken coop.

Furthermore, a plurality of air inlet windows are arranged on the side walls at two sides of the house body, each air inlet window is provided with a window plate capable of independently adjusting the air volume or the air inlet windows are divided into a front section, a middle section and a rear section, and the window plates at each section can uniformly adjust the air volume. So can guarantee the uniformity of temperature in the house, strengthen the reliability of overventilation.

Furthermore, the jet fan is characterized in that a guide cover is additionally arranged at an air outlet of the rotational flow fan, a guide pipe and a plurality of guide radial plates are arranged in the center of the guide cover, the guide radial plates are uniformly and radially distributed along the circumferential direction of the guide cover, one end of each guide radial plate is fixedly connected with the inner wall of the guide cover, and the other end of each guide radial plate is fixedly connected with the outer wall of the guide pipe. Therefore, the situation that the chicken is only blown by the wind to catch a cold can be avoided.

Further, the window boards are hinged with the side walls on the two sides of the house body through the parallelogram link mechanism so as to ensure that the window boards are always parallel to the side walls no matter how large the window boards are opened. So can keep the wind energy that gets into the pouity dwelling place to climb along the side wall lateral wall, avoid external wind to directly blow the chicken only.

Drawings

Fig. 1 is a schematic structural view of embodiment 1.

Fig. 2 is a schematic structural diagram of another view angle in embodiment 1.

Fig. 3 is a partial sectional view of embodiment 1.

Fig. 4 is a partially enlarged view of fig. 3.

Fig. 5 is a schematic structural view of the jet fan of the present invention.

Figure 6 is a schematic view of the construction of a glazing panel according to the utility model.

Fig. 7 shows the upper and lower circulation paths of wind in the min-draft and transition-draft modes of embodiment 1.

Fig. 8 shows the upper and lower circulation paths of wind in the min-draft and transition-draft modes of embodiment 2.

Detailed Description

The following examples are intended to illustrate the utility model and are not intended to limit the scope of the utility model.

Example 1, a super high-rise cage laying hen house as shown in fig. 1-7, comprises a house body 1, 2 grid plates 2 are erected in the house body 1 to form 3 henhouse units, and 5 rows of 4 layers of hencoops 3 are arranged on each grid plate 2. The total number of layers of the coop 3 is 12.

4 exhaust fans 4 are arranged on the gable wall at one end of the house body 1 corresponding to each henhouse unit, and 2 wet curtains 5 are arranged on the gable wall at the other end of the house body 1 corresponding to each henhouse unit.

Install 2 arc furred ceilings 6 under the 1 roof of house body, hang under arc furred ceiling 6 and every layer grid board 2 and establish 2 rows, 8 every jet fan 7. The jet flow fan 7 is characterized in that a guide cover 72 is additionally arranged at an air outlet of the swirl fan 71, a guide pipe 73 and a plurality of guide radial plates 74 are arranged at the center of the guide cover 72, the guide radial plates are uniformly and radially distributed along the circumferential direction of the guide cover, one end of each guide radial plate is fixedly connected with the inner wall of the guide cover, and the other end of each guide radial plate is fixedly connected with the outer wall of the guide pipe. The air outlet of the jet flow fan 7 is respectively opposite to the middle passage of the 2 nd coop and the 3 rd coop on the left and the middle passage of the 3 rd coop and the 4 th coop on the left.

The side walls at two sides of the henhouse body 1 are provided with 9 air inlet windows 8 corresponding to each henhouse unit, and each air inlet window 8 is provided with a window plate 9 capable of independently adjusting air volume. The louvers 9 are hinged to the side walls of the house 1 on both sides by means of a parallelogram linkage 10 to ensure that the louvers 9 are always parallel to the side walls regardless of how large they are opened.

Example 2, a super high-rise cage laying hen house shown in fig. 8 is otherwise the same as example 1, except that: 1 grid plate 2 is erected in the house body 1 to form 2 henhouse units, and 4 rows of 4 layers of hencoops 3 are arranged on each grid plate 2. The total number of layers of the coop 3 is 8.

1 row and 8 jet fans 7 in each row are hung below the arc-shaped suspended ceiling 6 and each layer of grid plate 2. The air outlets of the jet flow fans 7 are respectively opposite to the middle passages of the two rows of coops in the middle.

The embodiment adopts the air inlet window with unique design and the special jet fan for cultivation. Wherein the characteristics of air inlet window are no matter how big is the opening angle, and the baffle that has the tree to stand is parallel with the wall, can keep the wind that gets into the pouity dwelling place all the time and can climb along the wall. The jet flow fan is mainly arranged in the middle of the passage of the coop and needs to be a fan with a small diffusion radius, so that the condition that the chicken only catch a cold due to blown wind is avoided.

Examples 1-2 show configurations of single and double rows of chicken coops, respectively, wherein the type air volume of the fans is calculated based on the total area and respiration of the chicken coop. Fig. 7-8 show only the ventilation path and circulation pattern. The mode is adopted for minimum ventilation and transitional ventilation, and the traditional wet curtain cooling mode is adopted for longitudinal ventilation.

The utility model can solve the problem of temperature difference between the upper part and the lower part. More small windows can be placed to enhance the reliability of the over-ventilation. The existing ventilation scheme cannot meet the ventilation requirements of the building type poultry houses with 8 layers or more, and has the symptoms of ventilation impermeability, ventilation dead corners, choking chicken houses and the like. The utility model can adopt slightly high negative pressure ventilation, which can not cause the problems of cold stress to the chicken during the use and the like, and can realize safe and high-efficiency ventilation.

Among the current poultry house ventilation scheme, the main mode is exactly through the side wall fan convulsions, forms negative pressure zone in the house, and fresh air gets into the poultry house through the small window, climbs along the roof and preheats, falls after the roof department misce bene, provides fresh air for the poultry. However, the square shape of the air entering the henhouse changes along with the negative pressure, and the ventilation path is not fixed. The utility model can ensure that the air crawls along the wall, and the wind direction is stable and controllable. The mixing of the fresh air is better and uniform, and the cold stress reaction of the poultry can not be caused. Can improve the land utilization rate and increase the unit economic benefit.

Claims (6)

1. The utility model provides a superelevation layer cage rearing laying hen house, includes house body (1), its characterized in that: more than 1 layer of grid plates (2) are erected in the house body (1), and a plurality of rows of coops (3) with 3 layers and more than 3 layers are arranged on each layer of grid plate (2).

2. The super high-rise cage-rearing laying hen house according to claim 1, characterized in that: more than 1 exhaust fan (4) is arranged on one end gable of the house body (1), and more than 1 wet curtain (5) is arranged on the other end gable of the house body (1).

3. The super high-rise cage-rearing laying hen house according to claim 1, characterized in that: install 2 arc furred ceilings (6) under house body (1) roof, hang more than 1 row, a plurality of efflux fan (7) of every row under arc furred ceiling (6) and every layer grid board (2).

4. The super high-rise cage-rearing laying hen house according to claim 1, characterized in that: a plurality of air inlet windows (8) are arranged on the side walls of two sides of the house body (1), each air inlet window (8) is provided with a window plate (9) capable of independently adjusting the air volume or the air inlet windows (8) are divided into a front section, a middle section and a rear section, and the window plates (9) of each section can uniformly adjust the air volume.

5. The super high-rise cage laying hen house of claim 4, wherein: the jet fan (7) is characterized in that a guide cover (72) is additionally arranged at an air outlet of the swirl fan (71), a guide pipe (73) and a plurality of guide radial plates (74) are arranged at the center of the guide cover (72), the guide radial plates are uniformly and radially distributed along the circumferential direction of the guide cover, one end of each guide radial plate is fixedly connected with the inner wall of the guide cover, and the other end of each guide radial plate is fixedly connected with the outer wall of the guide pipe.

6. The super high-rise cage laying hen house of claim 4, wherein: the window plates (9) are hinged with the side walls on the two sides of the house body (1) through a parallelogram link mechanism (10) so as to ensure that the window plates (9) are always parallel to the side walls no matter how large the window plates are opened.

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