CN203985460U - A kind of automatic environmental control pig house - Google Patents

Abstract

The utility model aims to provide a kind of automatic environmental control pig house, and this pig house comprises exterior wall, and is arranged on blower fan and the cascade of exterior wall both sides; Described pig house also comprises temperature control modules, air control module, air-blower control module and cascade control module.Pig house described in the utility model is rationally distributed, by automatic temperature-adjusting and air control system for air, control fan aspirate, cascade cooling, coordinate the crevice board and the aisle layout that rationally arrange farthest to save space in pig house, and can make temperature, humidity and air purity in pig house all can be controlled at good scope, ensure growing up healthy and sound of pig.

Description

A kind of automatic environmental control pig house

Technical field

The utility model relates to pig cultivation field, is specifically related to a kind of automatic environmental control pig house.

Background technology

The history of pig will be traced back to before 40,000,000 years, had sign to prove that family pig may be from Europe and Asia.In the fossil being it is found that, proving has animal shuttle as wild boar in forest and marsh.First wild boar is tamed in China, and the history that China raises pigs can be traced back to morning at the Neolithic Age, mid-term.Qin period is recorded according to the unearthed inscriptions on bones or tortoise shells in Yin Dynasty ruins, the drylot feeding of business, the existing pig of Zhou Shidai.Then, along with the development of producing, produce gradually the requirement that different pigs is distinguished.

Raise the building of swinery according to raising object difference, can be divided into kind of a pig house, pregnant pig house, childbirth pig house, be bred as pig house, fattening house etc.Feed and raise and drink water and generally in giving up, carry out, outer swinery sports ground or the excrement passage of leaving of house, separates with partition wall or jube in house.Group feeding swinery is mainly used in pregnant pig, is bred as pig, growing and fattening pigs.The size of swinery because of the kind of pig, to raise a number, local climate condition etc. different.Boar, childbirth pig generally adopt single hurdle to raise; Some countries promote position-limited rack childbirth hurdle.The pig house division of labor is more carefully more conducive to realize the specialization of raising pigs, and the availability of swinery is also just higher.What small-sized pig farm had also adopts the comprehensive pig house that various swinerys are set in house.

The horizontal layout of pig house building is relevant with swinery combination, feeding manner, feed kind, feeding equipment, feeding method etc.Pig house can build up open type, fenestrate formula and closed etc.; There are flat-top, Dan Po, two slopes etc. in roof.1. open type pig house.Leeward three faces have wall on the sunny side, and recording quantity formula or half is opened wide, and at the standing sports ground of open surface, also can feed and raise, drink water, discharge feces at sports ground.The interior rest of being only used as to couch of house.For insulation in the winter time, can add the facility that temporarily keeps out the wind.2. fenestrate formula pig house.Consider summer ventilation, organize ventilation route.For not making direct sunlight enter in house in summer, there is solar radiation pig bed winter, answer the height of the suitable for reading and eaves of appropriate design window.Rely on the wide 10 meters of left and right of pig house of gravity-flow ventilation.Pig house is too narrow will increase floor space and building enclosure area, in too wide impact house, ventilates.The pig house of general southern china should be narrower, and the pig house in the north should be wider.3. closed pig house.Generally do not window, by conditions such as illumination, temperature, humidity and ventilations in instrument, equipment control house.For preventing the impact of during accidental power failure, can offer emergent window.Its roof and wall have thermal and insulating performance.

The existing pig house majority of China, still taking mixed structure as main, adopts brick wall and roof truss load-bearing.More be conducive to swinery growth if can suitably strengthen the thermal and insulating performance of roofing and masonry wall structure.In pig house, the general cement flooring that adopts, is convenient to rinse, but is unfavorable for the warming and dry of pig bed.Can add slag or brick bed course for reducing pig body temperature through cement flooring heat loss through conduction, or adopt built on stilts prefabricated reinforced concrete floor, also can adopt rubber ground, plastics ground or the ground etc. of heating.Brick swinery affects summer ventilation and illumination in winter, and floor space is larger, can take to have etch-proof steel pipe swinery or wood, bamboo swinery etc.Feed trough structure is simple, sturdy and durable, is convenient to raise feeding and scrubs sterilization.Energy caustic corrosion resistance, surfacing, sturdy and durable are wanted in floor, gap, often adopt cast iron, armored concrete or aluminium sheet to make, and gap width should be less than the half of pig's feet ground connection width.

At present, the pig house topology layout complexity of prior art, breeding spaces design is unreasonable, cultivation inconvenient operation, cooling and ventilation equipment design deficiency, cannot well control temperature and air cleaning degree in pig house, is difficult to give provide in pig house good breeding environment.

And, the roof structure of pig house mostly is single layer structure, design is mainly for rain-proof sunshade, in the strong area of sunlight in summer, the heat of the sunlight of roof transmission is very high, and heat is passed to pig house, cause pig house temperature to raise, and the optimal cultivation temperature of pig is 20 degree left and right, keep this temperature, mean that needs drop into more cooling energy loss.The design of existing pig house roof does not have to reduce the mechanism that amount of solar heat is transmitted.In the winter time time, because want regular exhaust to reduce ammonia level in house in pig house, ensure the temperature in pig house, pig house need to design with many heaters, needs the energy of loss also can increase.Existing pig house roof does not design the structure that can be incubated.

Utility model content

The utility model aims to provide a kind of automatic environmental control pig house, this pig house is rationally distributed, pass through fan aspirate, cascade cooling, can make temperature, humidity and air purity in pig house all can be controlled at good scope, and coordinate unique roof structure, when it cyclostrophic is cool, can play good effect to pig house warming, overcome the defect of prior art.

Described kind automatic environmental control pig house, comprises exterior wall, and is arranged on blower fan and the cascade of exterior wall both sides;

Described pig house also comprises temperature control modules, air control module, air-blower control module and cascade control module;

Described temperature control modules is electrically connected with air-blower control module and cascade control module respectively; Described air control module is electrically connected with cascade control module;

The default threshold of described temperature control modules, detects the temperature in pig house, contrasts with default threshold, controls the rotation of blower fan and closes, and controls the opening and closing of cascade;

The default threshold of described air control module, detects the ammonia concentration in pig house, contrasts with default threshold, controls the rotation of blower fan and closes.

Described automatic environmental control pig house, also comprises hot water pipeline, hot-water heating system, and described hot water pipeline is arranged in pig house, and described hot water pipeline is communicated with hot-water heating system, and described hot-water heating system is electrically connected with temperature control modules; Described temperature control modules, according to the contrast of detected temperatures and default threshold, is controlled the opening and closing of hot-water heating system.

Described hot water pipeline is arranged on the interior wall of pig house both sides, or is arranged on the edge of swinery in pig house.

Described temperature control modules comprises Temperature Detector and temperature control submodule; Described air control module comprises detector and air control submodule; Described Temperature Detector is electrically connected with temperature control submodule, and described temperature control submodule is electrically connected with air-blower control module and cascade control module respectively; Described detector is electrically connected with air control submodule, and described air control submodule is electrically connected with air-blower control module; Described air-blower control module is electrically connected with blower fan, and described cascade control module is electrically connected with cascade;

Described Temperature Detector is installed in pig house, for detection of the temperature in pig house, and temperature detection result is transferred to temperature control modules;

Described temperature control submodule receives temperature detection result, according to temperature default the first threshold, the second threshold and the 3rd threshold from high to low; In the time that temperature detection result is between the 3rd threshold and the second threshold, transmission slowly runs signal to air-blower control module; In the time that temperature detection result is between the second threshold and the first threshold, transmission slowly runs signal to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during higher than the first threshold, transmitting high speed turn signal is to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during lower than the 3rd threshold, transmission blower fan stall signal is to air-blower control module; When temperature detection result is during lower than the second threshold, transmission shutdown signal is to cascade control module;

Described detector is installed in pig house, for detection of the ammonia concentration in pig house, and ammonia concentration testing result is transferred to air control module;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

Described air-blower control module, according to slowly running signal, is controlled blower fan and is slowly run; According to high speed rotating signal, control blower fan and slowly run at a high speed; According to the signal that regularly slowly runs, control blower fan timing and slowly run, according to blower fan stall signal at stop blower fan;

Described cascade control module, according to enabling signal, is controlled cascade and is opened; According to shutdown signal, control cascade and close.

Described automatic environmental control pig house, also comprise hot water pipeline, hot-water heating system, described hot water pipeline is arranged on the interior wall of pig house both sides, or be arranged on the edge of swinery in pig house, described hot water pipeline and hot-water heating system, described hot-water heating system is electrically connected with temperature control submodule;

Described temperature control submodule is default the 4th threshold also, and the temperature of the 4th threshold is lower than the temperature of the 3rd threshold, when detected temperatures result is during lower than the 4th threshold, sends enabling signal to hot-water heating system; When detected temperatures result is during higher than the 4th threshold, send stop signal to hot-water heating system;

Described hot-water heating system starts heating water according to enabling signal, stops heating water according to stop signal.

Described automatic environmental control pig house, also comprises pig house roof, and described pig house roof comprises the first top layer and the second top layer; The first described top layer is combined by flashing board and the first top board, and flashing board is covered on the first top board; The second described top layer is by the first top board, the second top board, and supporting construction composition between the first top board and the second top board; Surrounding between described the first top board and the second top board is provided with roller shutter or wallboard that can folding, and described roller shutter or wallboard are provided with vent; The second described top board is provided with scavenge port that can folding; In the second described top layer, be provided with hot water pipeline, described hot water pipeline is arranged at surrounding near edge, and approaches the second top board;

Described hot water pipeline is communicated with hot-water heating system, when temperature is during lower than the 4th threshold, heats the hot water pipeline in pig house surrounding and the second top layer simultaneously;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

The timing that described air-blower control module transmits according to air control submodule slowly runs signal controlling blower fan timing while slowly running, and the negative pressure that exhaust fan produces can be inhaled scavenge port to open, and supplements warm fresh air from roof.

The method of the environment control of the utility model pig house, comprises the following steps:

A, described temperature control modules are preset threshold, detect the temperature in pig house, contrast with default threshold, control the rotation of blower fan and close, and control the opening and closing of cascade;

B, described air control module are preset threshold, detect the ammonia concentration in pig house, contrast with default threshold, control the rotation of blower fan and close.

Above-mentioned pig house environment control method, further comprising the steps of:

C, described temperature control modules, according to the contrast of detected temperatures and default threshold, are controlled the opening and closing of hot-water heating system.

The method for optimizing of pig house environment control of the present invention, comprises the following steps:

A, described Temperature Detector detect the temperature in pig house, and temperature detection result are transferred to temperature control modules;

B, described temperature control submodule receive temperature detection result, and contrast in its default the first threshold, the second threshold and the 3rd threshold; In the time that temperature detection result is between the 3rd threshold and the second threshold, transmission slowly runs signal to air-blower control module; In the time that temperature detection result is between the second threshold and the first threshold, transmission slowly runs signal to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during higher than the first threshold, transmitting high speed turn signal is to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during lower than the 3rd threshold, transmission blower fan stall signal is to air-blower control module; When temperature detection result is during lower than the second threshold, transmission shutdown signal is to cascade control module;

C, described detector are installed in pig house, for detection of the ammonia concentration in pig house, and ammonia concentration testing result are transferred to air control module;

D, described air control submodule receive ammonia concentration testing result, and in it, ammonia concentration threshold are set and contrast, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

E, described air-blower control module, according to slowly running signal, are controlled blower fan and are slowly run; According to high speed rotating signal, control blower fan and slowly run at a high speed; According to the signal that regularly slowly runs, control blower fan timing and slowly run, according to blower fan stall signal at stop blower fan;

F, described cascade control module, according to enabling signal, are controlled cascade and are opened; According to shutdown signal, control cascade and close.

Above-mentioned preferred method, further comprising the steps of:

The detected temperatures result that G, described temperature control submodule receive during lower than the 4th threshold, sends enabling signal to hot-water heating system; When detected temperatures result is during higher than the 4th threshold, send stop signal to hot-water heating system;

H, described hot-water heating system start heating water according to enabling signal, stop heating water according to stop signal.

The further preferred version of above-mentioned preferred method, further comprising the steps of:

I, described hot water pipeline are communicated with hot-water heating system, when temperature is during lower than the 4th threshold, heat the hot water pipeline in pig house surrounding and the second top layer simultaneously;

J, described air control submodule receive ammonia concentration testing result, and with the ammonia concentration threshold contrast arranging, in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

The timing that K, described air-blower control module transmit according to air control submodule slowly runs signal controlling blower fan timing while slowly running, and the negative pressure that exhaust fan produces can be inhaled scavenge port to open, and supplements warm fresh air from roof.

Pig house described in the utility model is rationally distributed, by automatic temperature-adjusting and air control system for air, control fan aspirate, cascade cooling, coordinate the crevice board and the aisle layout that rationally arrange farthest to save space in pig house, and can make temperature, humidity and air purity in pig house all can be controlled at good scope, ensure growing up healthy and sound of pig.

The method of the environment control of the utility model pig house, by default three layers of temperature value, ensure that summer, indoor environmental temperature had three layers of guarantee, make temperature reach optimum degree, and air control system for air automatically, can in the time that ammonia exceeds standard, automatically start blower ventilating, ensure indoor with fresh air.

Pig house described in the utility model roof is by the double-decker of particular design, can effectively reduce in summer the too much heat that direct sunlight brings, sunlight is blocked on the first top layer, and the second top board, as the ceiling of pig house, has obtained enough shady and cool effects; And roller shutter or wallboard can be packed up, the second top layer is directly communicated with ambient atmosphere, can dispel the heat well, at utmost realize the effect of utilizing roof structure to reduce pig house temperature; When sky cyclostrophic is cool, close roller shutter or the wallboard in the bird prevention net outside of surrounding, can recover its original heat insulation effect.

The utility model is by the hot water pipeline in pig house, in conjunction with temperature control modules, also can be good at ensureing warm in pig house in the time of winter.

Further, the utility model is provided with scavenge port that can folding on the second top board, by the vent ventilation on roller shutter or wallboard, coordinate the hot water pipeline being provided with in the second top layer, in the time that temperature is too low, the air on heating roof, and then by air exchange, further ensure the air themperature in pig house.

The utility model provides pig house roof structure to coordinate pig house layout structure, and the environment control method forming according to structure, can at utmost reduce the thermostatically controlled energy resource consumption of pig house and cost, when ensureing with fresh air in pig house, play good effect, there is outstanding substantive distinguishing features and significant progressive with respect to prior art.

Brief description of the drawings

Fig. 1 is the structural representation of the environment automatic control system of the utility model pig house

Fig. 2 is the interior schematic diagram of the utility model pig house

Fig. 3 is the overall structure schematic diagram of the utility model pig house

Fig. 4 is the structural representation on the utility model pig house roof

Sequence number in figure and each several part structure and title are as follows:

1-exterior wall, 2-blower fan, 3-cascade, 4-pig house roof;

41-the first top layer, 42-the second top layer, 43-flashing board, 44-the first top board, 45-the second top board, 46-scavenge port.

Embodiment

Below in conjunction with brief description of the drawings embodiment of the present utility model.

As Figure 1-4, described kind automatic environmental control pig house, comprises exterior wall 1, and is arranged on blower fan 2 and the cascade 3 of exterior wall 1 both sides;

Described pig house also comprises temperature control modules, air control module, air-blower control module and cascade control module;

Described temperature control modules is electrically connected with air-blower control module and cascade control module respectively; Described air control module is electrically connected with cascade control module;

The default threshold of described temperature control modules, detects the temperature in pig house, contrasts with default threshold, controls the rotation of blower fan 2 and closes, and controls the opening and closing of cascade 3;

The default threshold of described air control module, detects the ammonia concentration in pig house, contrasts with default threshold, controls the rotation of blower fan 2 and closes.

Described automatic environmental control pig house, also comprises hot water pipeline, hot-water heating system, and in described hot water pipeline setting and pig house, described hot water pipeline is communicated with hot-water heating system, and described hot-water heating system is electrically connected with temperature control modules; Described temperature control modules, according to the contrast of detected temperatures and default threshold, is controlled the opening and closing of hot-water heating system.

Described hot water pipeline is arranged on the interior wall of pig house both sides, or is arranged on the edge of swinery in pig house.

Preferably, described temperature control modules comprises Temperature Detector and temperature control submodule; Described air control module comprises detector and air control submodule; Described Temperature Detector is electrically connected with temperature control submodule, and described temperature control submodule is electrically connected with air-blower control module and cascade control module respectively; Described detector is electrically connected with air control submodule, and described air control submodule is electrically connected with air-blower control module; Described air-blower control module is electrically connected with blower fan 2, and described cascade control module is electrically connected with cascade 3;

Described Temperature Detector is installed in pig house, for detection of the temperature in pig house, and temperature detection result is transferred to temperature control modules;

Described temperature control submodule receives temperature detection result, according to temperature default the first threshold, the second threshold and the 3rd threshold from high to low; For example, can set the first threshold is 33 DEG C, and the second threshold is 26 DEG C, and the 3rd threshold is 23 DEG C;

In the time that temperature detection result is between the 3rd threshold and the second threshold, transmission slowly runs signal to air-blower control module; In the time that temperature detection result is between the second threshold and the first threshold, transmission slowly runs signal to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during higher than the first threshold, transmitting high speed turn signal is to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during lower than the 3rd threshold, transmission blower fan stall signal is to air-blower control module; When temperature detection result is during lower than the second threshold, transmission shutdown signal is to cascade control module;

Described detector is installed in pig house, for detection of the ammonia concentration in pig house, and ammonia concentration testing result is transferred to air control module;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

Described air-blower control module, according to slowly running signal, is controlled blower fan 2 and is slowly run; According to high speed rotating signal, control blower fan 2 and slowly run at a high speed; According to the signal that regularly slowly runs, control blower fan 2 timings and slowly run, according to blower fan stall signal at stop blower fan 2;

Described cascade control module, according to enabling signal, is controlled cascade 3 and is opened; According to shutdown signal, control cascade 3 and close.

Described hot water pipeline and hot-water heating system, described hot-water heating system is electrically connected with temperature control submodule;

Described temperature control submodule is default the 4th threshold also, and the temperature of the 4th threshold is lower than the temperature of the 3rd threshold, and for example setting the 4th threshold is 18 DEG C;

When detected temperatures result is during lower than the 4th threshold, send enabling signal to hot-water heating system; When detected temperatures result is during higher than the 4th threshold, send stop signal to hot-water heating system;

Described hot-water heating system starts heating water according to enabling signal, stops heating water according to stop signal.

Described automatic environmental control pig house, also comprises pig house roof 4, and described pig house roof 4 comprises the first top layer 41 and the second top layer 42; The first described top layer 41 is combined by flashing board 43 and the first top board 44, and flashing board 43 is covered on the first top board 44; The second described top layer is by the first top board 44, the second top board 45, and supporting construction composition between the first top board 42 and the second top board 45; Surrounding between described the first top board 42 and the second top board 45 is provided with roller shutter or wallboard that can folding, and described roller shutter or wallboard are provided with vent; The second described top board 45 is provided with scavenge port 46 that can folding; In the second described top layer 42, be provided with hot water pipeline, described hot water pipeline is arranged at surrounding near edge, and approaches the second top board 45;

Described hot water pipeline is communicated with hot-water heating system, when temperature is during lower than the 4th threshold, heats the hot water pipeline in pig house surrounding and the second top layer 42 simultaneously;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

The timing that described air-blower control module transmits according to air control submodule slowly runs signal controlling blower fan 2 timing while slowly running, and blower fan 2 negative pressure producing of bleeding can be inhaled scavenge port 46 to open, and supplements warm fresh air from roof.

The method of the environment control of the utility model pig house, comprises the following steps:

A, described temperature control modules are preset threshold, detect the temperature in pig house, contrast with default threshold, control the rotation of blower fan 2 and close, and control the opening and closing of cascade 3;

B, described air control module are preset threshold, detect the ammonia concentration in pig house, contrast with default threshold, control the rotation of blower fan 2 and close.

Above-mentioned pig house environment control method, further comprising the steps of:

C, described temperature control modules, according to the contrast of detected temperatures and default threshold, are controlled the opening and closing of hot-water heating system.

The method for optimizing of the utility model pig house environment control, comprises the following steps:

A, described Temperature Detector detect the temperature in pig house, and temperature detection result are transferred to temperature control modules;

B, described temperature control submodule receive temperature detection result, and contrast in its default the first threshold, the second threshold and the 3rd threshold; In the time that temperature detection result is between the 3rd threshold and the second threshold, transmission slowly runs signal to air-blower control module; In the time that temperature detection result is between the second threshold and the first threshold, transmission slowly runs signal to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during higher than the first threshold, transmitting high speed turn signal is to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during lower than the 3rd threshold, transmission blower fan stall signal is to air-blower control module; When temperature detection result is during lower than the second threshold, transmission shutdown signal is to cascade control module;

C, described detector are installed in pig house, for detection of the ammonia concentration in pig house, and ammonia concentration testing result are transferred to air control module;

D, described air control submodule receive ammonia concentration testing result, and in it, ammonia concentration threshold are set and contrast, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

E, described air-blower control module, according to slowly running signal, are controlled blower fan 2 and are slowly run; According to high speed rotating signal, control blower fan 2 and slowly run at a high speed; According to the signal that regularly slowly runs, control blower fan 2 timings and slowly run, according to blower fan stall signal at stop blower fan 2;

F, described cascade control module, according to enabling signal, are controlled cascade 3 and are opened; According to shutdown signal, control cascade 3 and close.

Above-mentioned preferred method, further comprising the steps of:

The detected temperatures result that G, described temperature control submodule receive during lower than the 4th threshold, sends enabling signal to hot-water heating system; When detected temperatures result is during higher than the 4th threshold, send stop signal to hot-water heating system;

H, described hot-water heating system start heating water according to enabling signal, stop heating water according to stop signal.

The further preferred version of above-mentioned preferred method, further comprising the steps of:

I, described hot water pipeline are communicated with hot-water heating system, when temperature is during lower than the 4th threshold, heat the hot water pipeline in pig house surrounding and the second top layer 42 simultaneously;

J, described air control submodule receive ammonia concentration testing result, and with the ammonia concentration threshold contrast arranging, in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

The timing that K, described air-blower control module transmit according to air control submodule slowly runs signal controlling blower fan 2 timing while slowly running, and blower fan 2 negative pressure producing of bleeding can be inhaled scavenge port 46 to open, and supplements warm fresh air from roof.

Claims (6)

1. an automatic environmental control pig house, comprises exterior wall (1), and is arranged on blower fan (2) and the cascade (3) of exterior wall (1) both sides, it is characterized in that:

Described pig house also comprises temperature control modules, air control module, air-blower control module and cascade control module;

Described temperature control modules is electrically connected with air-blower control module and cascade control module respectively; Described air control module is electrically connected with cascade control module;

The default threshold of described temperature control modules, detects the temperature in pig house, contrasts with default threshold, controls the rotation of blower fan (2) and closes, and controls the opening and closing of cascade (3);

The default threshold of described air control module, detects the ammonia concentration in pig house, contrasts with default threshold, controls the rotation of blower fan (2) and closes.

2. automatic environmental control pig house as claimed in claim 1, it is characterized in that: also comprise hot water pipeline, hot-water heating system, described hot water pipeline is arranged in pig house, and described hot water pipeline is communicated with hot-water heating system, and described hot-water heating system is electrically connected with temperature control modules; Described temperature control modules, according to the contrast of detected temperatures and default threshold, is controlled the opening and closing of hot-water heating system.

3. automatic environmental control pig house as claimed in claim 2, is characterized in that:

Described hot water pipeline is arranged on the interior wall of pig house both sides, or is arranged on the edge of swinery in pig house.

4. automatic environmental control pig house as claimed in claim 1, is characterized in that:

Described temperature control modules comprises Temperature Detector and temperature control submodule; Described air control module comprises detector and air control submodule; Described Temperature Detector is electrically connected with temperature control submodule, and described temperature control submodule is electrically connected with air-blower control module and cascade control module respectively; Described detector is electrically connected with air control submodule, and described air control submodule is electrically connected with air-blower control module; Described air-blower control module is electrically connected with blower fan (2), and described cascade control module is electrically connected with cascade (3);

Described Temperature Detector is installed in pig house, for detection of the temperature in pig house, and temperature detection result is transferred to temperature control modules;

Described temperature control submodule receives temperature detection result, according to temperature default the first threshold, the second threshold and the 3rd threshold from high to low; In the time that temperature detection result is between the 3rd threshold and the second threshold, transmission slowly runs signal to air-blower control module; In the time that temperature detection result is between the second threshold and the first threshold, transmission slowly runs signal to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during higher than the first threshold, transmitting high speed turn signal is to air-blower control module, and transmission start signal is to cascade control module simultaneously; When temperature detection result is during lower than the 3rd threshold, transmission blower fan stall signal is to air-blower control module; When temperature detection result is during lower than the second threshold, transmission shutdown signal is to cascade control module;

Described detector is installed in pig house, for detection of the ammonia concentration in pig house, and ammonia concentration testing result is transferred to air control module;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

Described air-blower control module, according to slowly running signal, is controlled blower fan (2) and is slowly run; According to high speed rotating signal, control blower fan (2) and slowly run at a high speed; According to the signal that regularly slowly runs, control blower fan (2) timing and slowly run, according to blower fan stall signal at stop blower fan (2);

Described cascade control module, according to enabling signal, is controlled cascade (3) and is opened; According to shutdown signal, control cascade (3) and close.

5. automatic environmental control pig house as claimed in claim 4, it is characterized in that: also comprise hot water pipeline, hot-water heating system, described hot water pipeline is arranged on the interior wall of pig house both sides, or be arranged on the edge of swinery in pig house, described hot water pipeline is communicated with hot-water heating system, and described hot-water heating system is electrically connected with temperature control submodule;

Described temperature control submodule is default the 4th threshold also, and the temperature of the 4th threshold is lower than the temperature of the 3rd threshold, when detected temperatures result is during lower than the 4th threshold, sends enabling signal to hot-water heating system; When detected temperatures result is during higher than the 4th threshold, send stop signal to hot-water heating system;

Described hot-water heating system starts heating water according to enabling signal, stops heating water according to stop signal.

6. automatic environmental control pig house as claimed in claim 5, is characterized in that: also comprise pig house roof (4), described pig house roof (4) comprises the first top layer (41) and the second top layer (42); Described the first top layer (41) is combined by flashing board (43) and the first top board (44), and flashing board (43) is covered on the first top board (44); The second described top layer is by the first top board (44), the second top board (45), and supporting construction composition between the first top board (42) and the second top board (45); Surrounding between described the first top board (42) and the second top board (45) is provided with roller shutter or wallboard that can folding, and described roller shutter or wallboard are provided with vent; Described the second top board (45) is provided with scavenge port (46) that can folding; In described the second top layer (42), be provided with hot water pipeline, described hot water pipeline is arranged at surrounding near edge, and approaches the second top board (45);

Described hot water pipeline is communicated with hot-water heating system, when temperature is during lower than the 4th threshold, heats the hot water pipeline in pig house surrounding and the second top layer (42) simultaneously;

Described air control submodule receives ammonia concentration testing result, and ammonia concentration threshold is set, and in the time that ammonia concentration testing result reaches ammonia concentration threshold, transmit timing slowly runs signal to air-blower control module;

The timing that described air-blower control module transmits according to air control submodule slowly runs signal controlling blower fan (2) timing while slowly running, blower fan (2) bleed produce negative pressure can by scavenge port (46) inhale open, from roof supplement warm fresh air.