CN217136367U - Accurate air supply system of malleation and pig house structure of cooling usefulness - Google Patents

Abstract

The utility model discloses an accurate air supply system of malleation of cooling usefulness, including axial fan, fibre cloth tuber pipe, negative pressure fan, hoist and mount subassembly and set up the wet curtain on the wall body outside the pig house, fibre cloth tuber pipe has a plurality ofly and by arranging to back interval in proper order. And all the fiber air distribution pipes are horizontally arranged in the transverse direction and are hung above the colony house culture area through the hoisting assembly. One end of each fiber air distribution pipe is provided with the axial flow fan, the other end of each fiber air distribution pipe is closed, and the bottom of each fiber air distribution pipe is provided with a jet flow spray pipe. The wet curtain is arranged on one side of the axial flow fan, and a negative pressure fan is arranged on the outer side of the closed end of the fiber air distribution pipe. The utility model discloses a pig house structure. The utility model discloses the structure can be cooled down outdoor hot and dry air through the setting of wet curtain, reduces the temperature of new trend 6 ℃ -10 ℃, breeds the regional fresh air that supplies for the colony house to discharge dirty air, realize the requirement of cooling and ventilation, equipment fixing is simple and convenient, uses and the maintenance cost is low.

Description

Accurate air supply system of malleation and pig house structure of cooling usefulness

Technical Field

The utility model relates to a ventilation cooling technical field, concretely relates to accurate air supply system of malleation and pig house structure of cooling usefulness.

Background

In the animal husbandry, aeration cooling is a very important problem, and poor cooling can cause the temperature in the house to be too high in summer, so that the heat stress of livestock and poultry is caused, and the life safety of the livestock and poultry can be harmed in serious cases. In order to meet the temperature requirements of livestock and poultry, the ventilation rate is generally higher, and the equipment investment must be increased to meet the ventilation rate of the livestock and poultry, so the cost is high. Especially in the fattening house of the pigsty, because the number of pigs is large and the self heat production is large, the cooling and ventilation are more difficult to solve, and the blind arrangement of the large air volume equipment only increases the cost and has little effect on improving the environment. Thus, further improvements and enhancements are needed in the art.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to provide an accurate air supply system of malleation of cooling usefulness, solve current livestock-raising colony house air volume generally than higher, for the cooling and the ventilation requirement that satisfy the beasts and birds, the equipment input cost that needs is high, and it is poor to realize the effect to the requirement in the cooling, the little problem of improvement effect of environment.

The utility model discloses a realize above-mentioned purpose, the technical solution who adopts is:

the utility model provides an accurate air supply system of malleation of cooling usefulness, includes axial fan, fibre cloth tuber pipe, negative-pressure air fan, hoist and mount subassembly and sets up the wet curtain on the wall body outside the pig house, and fibre cloth tuber pipe has a plurality ofly, and all fibre cloth tuber pipes are by going to back interval arrangement in proper order.

And all the fiber air distribution pipes are horizontally arranged in the transverse direction and are hung above the colony house culture area through the hoisting assembly.

One end of each fiber air distribution pipe is provided with the axial flow fan, the other end of each fiber air distribution pipe is closed, and the bottom of each fiber air distribution pipe is provided with a jet flow spray pipe.

The wet curtain is arranged on one side, away from the fiber air distribution pipe, of the axial flow fan, and the outer side of the closed end of the fiber air distribution pipe is provided with negative pressure fans which are equal in number and correspond to the positions one to one.

Furthermore, the fiber air distribution pipe is of a pipe body structure with a circular cross section, and one end of the fiber air distribution pipe is fixedly connected with the air outlet end of the axial flow fan in a sealing manner.

The other end of the fiber air distribution pipe is provided with a plugging sheet with the same cross section shape as the fiber air distribution pipe, and the outer edge of the plugging sheet is fixedly and hermetically connected with the end face of the fiber air distribution pipe.

Furthermore, the jet flow spray pipes are arranged in sequence at equal intervals along the length direction of the fiber cloth air pipe.

The jet flow spray pipe is a conical round pipe made of fiber cloth, the jet flow spray pipe is vertically arranged, and the large-caliber end of the jet flow spray pipe is communicated with the bottom of the fiber cloth air pipe.

Furthermore, a hoisting assembly is arranged above each fiber air distribution pipe and comprises two steel wire ropes, turn bolts and expansion bolt hooks, the two steel wire ropes are arranged above the fiber air distribution pipes in parallel, and the steel wire ropes are connected with the fiber air distribution pipes below the steel wire ropes.

The two ends of each steel wire rope are respectively provided with one turn buckle, the end part of each turn buckle is connected with one expansion bolt hook, and the expansion bolt hook can be fixed on the wall body of the pigsty.

Furthermore, two rows of hanging noses are arranged at the top of the fiber air distribution pipe along the length direction of the fiber air distribution pipe, and the two rows of hanging noses correspond to the two steel wire ropes above the fiber air distribution pipe.

Each hanging nose is provided with a connecting fastener, and the connecting fastener is connected with the corresponding steel wire rope in a hanging mode.

Another object of the utility model is to provide a pig house structure.

The utility model provides a pig house structure, its dispose the accurate air supply system of malleation of foretell cooling usefulness, pig house structure includes concrete ground, roof and four outer walls, and four outer walls are left wall body, right wall body, preceding wall body and back wall body respectively, and four outer walls are located concrete ground top, and the head and the tail links to each other in proper order and constitutes square structure.

The left wall body is provided with a partition wall body on the right side, the front end and the rear end of the partition wall body are respectively connected with the front wall body and the rear wall body, an air passing channel is formed between the partition wall body and the left wall body, and the partition wall body, the left wall body, the front wall body and the rear wall body enclose a culture area.

The wet curtain is installed on the left wall body, the axial flow fan is arranged on the partition wall body, and the negative pressure fan is installed on the right wall body.

Further, the subaerial front and back symmetry of breed region is provided with two sets of guardrails, and every group guardrail all includes a plurality of horizontal guardrail monomers and a plurality of guardrail monomer of indulging, and a plurality of horizontal guardrail monomers end to end arrange in proper order between left wall body, preceding wall body.

The longitudinal guardrail monomers are sequentially arranged from left to right at intervals and form a square column with the same group of transverse guardrail monomers and the front wall or the rear wall.

Furthermore, a trench is arranged below the concrete ground.

By adopting the technical scheme, the utility model discloses a beneficial technological effect is:

1. the economy, the whole system cost is low, adopts the lower flexible fiber material of unit price, and the fan amount of wind will be less than the cooling amount of wind of whole space far away, so self cost is lower to reduce front end filtration and rear end exhaust-gas treatment's input and use cost.

2. The flexible fiber material does not contain any substances harmful to human and environment, and the whole cooling process does not produce any harmful substances.

3. Simple to operate can not cause big bearing to the roof, is applied to in the pig house structure that space floor height is restricted moreover easily.

4. High efficiency, cooling new trend satisfy the cooling demand of pig, can satisfy the demand of taking a breath of pig again simultaneously, realize satisfying ultimate requirement with less air volume.

Drawings

Fig. 1 is a schematic structural view of the positive pressure precise air supply system for cooling of the present invention.

Fig. 2 is an enlarged view of a portion a of the present invention shown in fig. 1.

Fig. 3 is a schematic view of the pigsty structure of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

embodiment 1, combine fig. 1 to 3, a accurate air supply system of malleation of cooling usefulness, including axial fan 1, fibre cloth tuber pipe 2, negative-pressure air fan 3, hoist and mount subassembly and set up wet curtain 4 on the pig house outer wall body, fibre cloth tuber pipe 2 is the tubular structure of circular cross-section, and its one end is fixed sealed with axial fan 1's air-out end and is linked to each other. The fiber cloth air pipes 2 are multiple, and all the fiber cloth air pipes 2 are sequentially arranged at intervals from front to back.

The fiber air distribution pipes 2 are horizontally arranged in the transverse direction and are hung above a colony house culture area through the hoisting assembly.

One end of each fiber air distribution pipe 2 is provided with the axial flow fan 1, the other end of the axial flow fan is closed, and the bottom of each fiber air distribution pipe 2 is provided with a jet flow spray pipe 21. The jet flow spray pipes 21 are arranged in a plurality and are sequentially arranged at equal intervals along the length direction of the fiber cloth air pipe 2. The jet flow spray pipe 21 is a conical round pipe made of fiber cloth, the jet flow spray pipe 21 is vertically arranged, and the large-caliber end of the jet flow spray pipe is communicated with the bottom of the fiber cloth air pipe 2.

The other end of the fiber air distributing pipe 2 is provided with a plugging piece 22 with the same cross section shape as the fiber air distributing pipe, and the outer edge of the plugging piece 22 is fixedly and hermetically connected with the end face of the fiber air distributing pipe 2.

The wet curtain 4 is arranged on one side of the axial flow fan 1, which is far away from the fiber air distribution pipe 2, and the outer side of the closed end of the fiber air distribution pipe 2 is provided with negative pressure fans 3 which are equal in quantity and are in one-to-one correspondence with the positions.

The hoisting assembly is arranged above each fiber air distribution pipe 2 and comprises two steel wire ropes 51, a turnbuckle 52 and an expansion bolt hook 53, the steel wire ropes 51 are arranged above the fiber air distribution pipes 2 in parallel, and the steel wire ropes 51 are connected with the fiber air distribution pipes 2 below the steel wire ropes 51.

The two ends of each steel wire rope 51 are respectively provided with one turn buckle 52, the end part of each turn buckle 52 is connected with one expansion bolt hook 53, and the expansion bolt hook 53 can be fixed on the wall body of the pigsty.

Specifically, two rows of hanging noses 54 are arranged at the top of the fiber air distribution pipe 2 along the length direction of the fiber air distribution pipe, each row of hanging noses 54 comprises a plurality of hanging noses 54 which are sequentially arranged along the length direction of the fiber air distribution pipe 2 at intervals, and the two rows of hanging noses 54 correspond to the two steel wire ropes 51 above the fiber air distribution pipe 2.

Each hanging nose 54 is provided with a connecting fastener 55 and is hung with the corresponding steel wire rope 51 through the connecting fastener 55. The fiber air distribution pipe 2 is hung above a colony house feeding area through a hoisting assembly, under the opening state of the axial flow fan 1 and the negative pressure fan 3, the temperature of outdoor dry hot air is reduced by 6-10 ℃ after passing through the wet curtain 4, the humidity of fresh air meets the requirement, the dry hot air is sent into the fiber air distribution pipe 2 through the axial flow fan 1 and uniformly enters the breeding area of the colony house through the jet flow spray pipe 21, the dry hot air is uniformly blown out from top to bottom, livestock on the bottom surface is cooled, and the fresh air cannot be directly blown to the bodies of the livestock due to the fact that the jet flow spray pipe 21 is short in length. Simultaneously, negative-pressure air fan 3 will dirty indoor air and domestic animal self produce thermal row to outdoor, the utility model discloses the livestock breeding colony house of especially adapted large column.

The utility model discloses the structure can be cooled down outdoor hot and dry air through the setting of wet curtain, reduces the temperature of new trend 6 ℃ -10 ℃, breeds the regional fresh air that supplies for the colony house to discharge dirty air, realize the requirement of cooling and ventilation, equipment fixing is simple and convenient, uses and the maintenance cost is low.

Embodiment 2, with reference to fig. 1 to 3, a pigsty structure is provided with the positive pressure accurate air supply system for cooling, and the pigsty structure includes a concrete ground 61, a roof and four outer walls, wherein the four outer walls are a left wall 62, a right wall 63, a front wall and a rear wall 65, and the four outer walls are located above the concrete ground 61 and are connected end to end in sequence to form a square structure. A trench 7 is arranged below the concrete floor 61.

The right side of the left wall 62 is provided with a partition wall 64, the front end and the rear end of the partition wall 64 are respectively connected with the front wall and the rear wall 65, an air passing channel 8 is formed between the partition wall 64 and the left wall 62, and the partition wall 64, the left wall 62, the front wall and the rear wall 65 enclose a culture area. The wet curtain 4 is installed on the left wall 62, the axial flow fan 1 is arranged on the partition wall 64, and the negative pressure fan 3 is installed on the right wall 63.

The subaerial front and back symmetry of breed region is provided with two sets of guardrails, and every group guardrail all includes a plurality of horizontal guardrail monomer 91 and a plurality of guardrail monomer 92 of indulging, and a plurality of horizontal guardrail monomer 91 end to end arranges in proper order between left wall body 62, preceding wall body. The plurality of longitudinal guardrail units 92 are sequentially arranged from left to right at intervals and form a square column with the same group of transverse guardrail units 91 and the front wall or the rear wall 65.

The parts not mentioned in the utility model can be realized by adopting or using the prior art for reference.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (8)

1. A positive-pressure accurate air supply system for cooling is characterized by comprising an axial flow fan, a plurality of fiber air distribution pipes, a negative pressure fan, a hoisting assembly and a wet curtain arranged on the outer wall body of a pigsty, wherein all the fiber air distribution pipes are sequentially arranged at intervals from front to back;

each fiber air distribution pipe is horizontally arranged in the transverse direction and is hung above the colony house culture area through the hoisting assembly;

one end of each fiber air distribution pipe is provided with the axial flow fan, the other end of each fiber air distribution pipe is closed, and the bottom of each fiber air distribution pipe is provided with a jet flow spray pipe;

the wet curtain is arranged on one side, away from the fiber air distribution pipe, of the axial flow fan, and the outer side of the closed end of the fiber air distribution pipe is provided with negative pressure fans which are equal in number and correspond to the positions one to one.

2. The positive-pressure accurate air supply system for cooling according to claim 1, wherein the fiber air distribution pipe is of a pipe body structure with a circular cross section, and one end of the fiber air distribution pipe is fixedly and hermetically connected with an air outlet end of the axial flow fan;

the other end of the fiber air distribution pipe is provided with a plugging sheet with the same cross section shape as the fiber air distribution pipe, and the outer edge of the plugging sheet is fixedly and hermetically connected with the end face of the fiber air distribution pipe.

3. The positive-pressure accurate air supply system for cooling according to claim 1, wherein a plurality of jet flow spray pipes are arranged at equal intervals in sequence along the length direction of the fiber air distribution pipe;

the jet flow spray pipe is a conical round pipe made of fiber cloth, the jet flow spray pipe is vertically arranged, and the large-caliber end of the jet flow spray pipe is communicated with the bottom of the fiber cloth air pipe.

4. The positive-pressure accurate air supply system for cooling according to claim 1, wherein a hoisting assembly is arranged above each fiber air distribution pipe, the hoisting assembly comprises steel wire ropes, turn buckle bolts and expansion bolt hooks, the two steel wire ropes are arranged above the fiber air distribution pipes in parallel, and the steel wire ropes are connected with the fiber air distribution pipes below the steel wire ropes;

the two ends of each steel wire rope are respectively provided with one turn buckle, the end part of each turn buckle is connected with one expansion bolt hook, and the expansion bolt hook can be fixed on the wall body of the pigsty.

5. The positive-pressure accurate air supply system for cooling according to claim 4, wherein the top of the fiber air distribution pipe is provided with two rows of hanging noses along the length direction of the fiber air distribution pipe, and the two rows of hanging noses respectively correspond to the two steel wire ropes above the fiber air distribution pipe;

each hanging nose is provided with a connecting fastener, and the connecting fastener is connected with the corresponding steel wire rope in a hanging mode.

6. A pigsty structure, which is characterized in that a positive pressure accurate air supply system for cooling according to any one of claims 1 to 5 is configured, the pigsty structure comprises a concrete ground, a roof and four outer walls, wherein the four outer walls are a left wall, a right wall, a front wall and a rear wall respectively, the four outer walls are positioned above the concrete ground, and are connected end to form a square structure;

a partition wall body is arranged on the right side of the left wall body, the front end and the rear end of the partition wall body are respectively connected with the front wall body and the rear wall body, an air passing channel is formed between the partition wall body and the left wall body, and the partition wall body, the left wall body, the front wall body and the rear wall body enclose a culture area;

the wet curtain is installed on the left wall body, the axial flow fan is arranged on the partition wall body, and the negative pressure fan is installed on the right wall body.

7. The pigsty structure according to claim 6, characterized in that two groups of guardrails are symmetrically arranged on the ground of the breeding area from front to back, each group of guardrails comprises a plurality of transverse guardrail monomers and a plurality of longitudinal guardrail monomers, and the plurality of transverse guardrail monomers are sequentially arranged between the left wall body and the front wall body end to end;

the plurality of longitudinal guardrail monomers are sequentially arranged from left to right at intervals and form a square column with the same group of transverse guardrail monomers and the front wall or the rear wall in an enclosing mode.

8. A pigsty structure as claimed in claim 6, wherein a trench is provided below the concrete floor.

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