CN211241224U - Zero-emission cultivation room suitable for young piglets - Google Patents

Abstract

The utility model discloses a zero release cultivation room suitable for young piglet includes the casing, the fence house, the fermentation bed, mend milk system and drinking water feeding system, inject in the casing and hold the chamber, the fence house is a plurality of, a plurality of fences house is established and is holding the intracavity, the diapire that every fence house sets up the fermentation bed with the diapire interval that holds the chamber and establish and hold the intracavity, and be located the diapire that the fence house and hold between the diapire in chamber, mend milk system and include heat preservation agitator tank and a plurality of milk supplementing device, the heat preservation agitator tank is configured to hold milk, a plurality of milk supplementing devices all link to each other with the heat preservation agitator tank, be equipped with at least one milk supplementing device in every fence house, drinking water feeding system includes leading water pipe and a plurality of drinking water head that links to each other with the leading water pipe, be equipped with at least one. The zero-emission breeding room can effectively improve the survival rate of piglets, almost avoid pollutant emission, well realize the environment-friendly function and improve the economic benefit.

Description

Zero-emission cultivation room suitable for young piglets

Technical Field

The utility model relates to a breed technical field, especially relate to a zero release cultivation room suitable for young piglet.

Background

At present, the domestic pig industry mostly adopts an early weaning method, namely weaning piglets within 21-28 days of age. The early weaning can improve the annual production capacity of the sows, improve the utilization rate of the feed and is beneficial to the growth and development of the piglets. However, under the specific conditions that the epidemic diarrhea outbreak or the litter size is large, the effective nipple number of the sow cannot meet the lactation requirement and the like, the farm has to feed the piglets by adopting a super-early weaning method (weaning the piglets within 4-20 days of age). Especially, the epidemic diarrhea in China belongs to high-grade diseases, the disease transmission path can be cut off in the ultra-early weaning process, and the survival rate of piglets is effectively improved.

However, compared with the early weaning method, the ultra-early weaning method has higher requirements on the breeding technology of piglets and needs strict environmental control and nutritional conditions. Because the requirements of the piglets weaned in the ultra-early stage on the feeding environment are high, high-quality feed, strict feeding procedures and dry, sanitary and stable high-temperature environment are required. However, the existing ultra-early weaned piglets are still raised in a delivery room, the environment of the delivery room cannot meet the ultra-high environmental requirement of the piglets, and relatively extensive feeding management is not beneficial to raising the ultra-early weaned piglets or environmental protection.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a zero release cultivation room suitable for young piglet, this zero release cultivation room can enough promote the survival rate of piglet effectively, can reduce the pollutant emission of zero release cultivation room again, realizes the environmental protection function betterly.

In order to realize the technical effects, the technical proposal of the utility model for the zero-emission cultivation room of the young piglet is as follows:

a zero-emission cultivation room suitable for young piglets, comprising: a housing defining a receiving cavity therein; the fence houses are multiple and are arranged in the accommodating cavity, the bottom wall of each fence house and the bottom wall of the accommodating cavity are arranged at intervals, and the bottom wall of each fence house is provided with a leakage groove; the fermentation bed is arranged in the accommodating cavity and is positioned between the bottom wall of the stall and the bottom wall of the accommodating cavity; the milk supplementing system comprises a heat-preservation stirring tank and a plurality of milk supplementing devices, wherein the heat-preservation stirring tank is configured to contain milk, the milk supplementing devices are respectively connected with the heat-preservation stirring tank, and at least one milk supplementing device is arranged in each stall; the drinking water feeding system comprises a water conduit and a plurality of drinking water heads connected with the water conduit, and at least one drinking water head is arranged in each stall.

In some embodiments, the stall comprises a top plate, side plates and a bottom plate, the top plate, the side plates and the bottom plate are detachably connected with the shell, and the bottom plate is a triangular steel floor.

In some optional embodiments, the casing comprises a support bar, a plurality of top plates are rotatably arranged on the support bar, and the water conduit is connected to the support bar.

In some optional embodiments, a support block and a plurality of support beams are arranged in the housing, the support block is connected to the bottom wall of the housing, the side plate is detachably connected to the support block, each support beam is connected to a side wall of the housing or the support block, the bottom plate is overlapped on the two support beams, and a water collecting tank is connected to the lower portion of each support beam.

In some optional embodiments, the side plates of the stall are provided with heat preservation layers, and the top plate is provided with heat preservation lamps.

In some optional embodiments, the zero-emission cultivation room suitable for young piglets further comprises: an environmental control system comprising a temperature sensor configured to detect a temperature in the stall, a humidity sensor configured to detect a humidity in the stall, a blower configured to enable forced ventilation within the stall, and an alarm electrically connected to the temperature sensor and the humidity sensor; a feeder disposed within the pen, the feeder configured to hold a creep feed.

In some optional embodiments, the plurality of columns are arranged in multiple columns, each column of columns comprises a plurality of columns arranged in sequence, and two adjacent columns of columns are distributed at intervals.

In some alternative embodiments, the housing is any one of a container structure, a steel structure, and a brick structure.

In some embodiments, the milk fortification system further comprises: a liquid inlet of the conveying pump is connected with the heat-preservation stirring barrel, and a liquid outlet of the conveying pump is connected with the milk replenishing device through a milk replenishing pipeline; a pressure sensor disposed at the outlet of the delivery pump, the pressure sensor configured to detect a delivery pressure of the delivery pump.

In some embodiments, the milk supplement device comprises a bowl body and a check valve, wherein the bowl body is configured to contain milk, a communication hole connected with the milk supplement pipeline is formed in the bowl body, the check valve is arranged in the bowl body and connected with the milk supplement pipeline, and the check valve is configured to prevent the milk from flowing back.

The utility model discloses zero release cultivation room suitable for piglet owing to adopted the fermentation bed structure of non-contact, has avoided piglet and fermentation bed direct contact, can fully ferment the excrement of piglet, produces biological bacterial manure, has reduced the environmental pollution that the clearance piglet excrement and urine leads to, has realized the function of zero pollution emission of cultivation room, can stop the influence of harmful fungus to the piglet again effectively to promote the survival rate of piglet. In addition, a milk supplementing system and a drinking water feeding system are arranged in each stall, so that sufficient milk and clean drinking water can be supplemented for the piglets, the survival rate of the piglets is effectively improved, and the economic benefit of a main farm is improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural view of a zero-emission cultivation room suitable for young piglets according to an embodiment of the present invention.

Fig. 2 is a schematic view of the process at circle a of fig. 1.

Fig. 3 is a partial structural schematic view of a zero-emission cultivation room suitable for young piglets according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a breast pump according to an embodiment of the present invention.

Reference numerals:

1. a housing; 2. hurting; 21. a top plate; 22. a base plate; 23. a side plate;

3. a milk supplementation system; 31. a heat-preservation stirring tank; 32. a milk supplement device; 321. a bowl body; 322. a check valve; 33. a delivery pump; 34. a milk replenishing pipeline; 4. a drinking water feeding system; 41. a water conduit; 42. a drinking water head; 5. a supporting strip; 6. a support block; 7. a support beam; 8. a water collection tank; 9. a heat preservation lamp.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The specific structure of the zero-emission cultivation room for young piglets according to the embodiment of the present invention will be described with reference to fig. 1 to 4.

As shown in figure 1, the zero-emission cultivation room suitable for young piglets comprises a shell 1, a plurality of hurdles 2, a fermentation bed, a milk supply system 3 and a drinking water feeding system 4, wherein a containing cavity is defined in the shell 1, the plurality of hurdles 2 are arranged in the containing cavity, the bottom wall of each hurdle 2 is arranged at intervals with the bottom wall of the containing cavity, the bottom wall of the hurdle 2 is provided with a leakage groove, the fermentation bed is arranged in the containing cavity, and is located between the diapire of hurdle 2 and the diapire that holds the chamber, mends milk system 3 and includes heat preservation agitator tank 31 and a plurality of milk supplement device 32, and heat preservation agitator tank 31 is configured to hold milk, and a plurality of milk supplement device 32 all link to each other with heat preservation agitator tank 31, are equipped with at least one milk supplement device 32 in every hurdle 2, and drinking water feeding system 4 includes leading water pipe 41 and a plurality of drinking water head 42 that links to each other with leading water pipe 41, is equipped with at least one drinking water head 42 in every hurdle 2.

Firstly, the fermentation bed is an ecological and environment-friendly pig raising method, and solves the problems of pig manure water treatment, pork safety guarantee, breeding cost and the like in the traditional pig raising industry. It mainly adopts the excrement and urine of bedding and padding and pig to ferment, utilizes the microbial decomposition method to decompose excrement and urine, and whole decomposition process time is not long, and this kind of mode has avoided the loaded down with trivial details of water washing pig manure in the past to guarantee that the plant does not have the excrement stink.

In this embodiment, the fermentation bed is located between the diapire of fence house 2 and the diapire that holds the chamber, and piglet excrement can get into the fermentation bed through the seepage groove of 2 diapires in fence house, that is to say when the in-service use, and the piglet does not have direct contact with the fermentation bed, and the structure of this kind of contactless fermentation bed can effectively reduce the contact of piglet with parasite and harmful bacteria, has also guaranteed the health of piglet when reducing the environmental pollution problem that the pig house brought. In addition, the milk supplementing system 3 and the drinking water feeding system 4 in the pigsty 2 can supplement nutrition and clean drinking water for the piglets at any time, so that the survival rate of the piglets can be effectively improved, and the economic benefit of a pig farm is obviously improved.

The utility model discloses zero release cultivation room suitable for piglet owing to adopted the fermentation bed structure of non-contact, has avoided piglet and fermentation bed direct contact, can fully ferment the excrement of piglet, produces biological bacterial manure, has reduced the environmental pollution that the clearance piglet excrement and urine leads to, has realized the function of zero pollution emission of cultivation room, can stop the influence of harmful fungus to the piglet again effectively to promote the survival rate of piglet. In addition, a milk supplementing system 3 and a drinking water feeding system 4 are arranged in each stall 2, so that sufficient milk and clean drinking water can be supplemented to the piglets, the survival rate of the piglets is effectively improved, and the economic benefit of a pig farm is improved.

In some embodiments, as shown in fig. 3, the stall 2 comprises a top plate 21, side plates 23 and a bottom plate 22, the top plate 21, the side plates 23 and the bottom plate 22 are all detachably connected with the housing 1, and the bottom plate 22 is a triangular steel floor. It can be understood that the top plate 21, the side plate 23 and the bottom plate 22 are detachably connected to the housing 1, which facilitates the cleaning of the top plate 21, the side plate 23 and the bottom plate 22 by the user on the one hand, and on the other hand, the user can select the top plate 21, the side plate 23 and the bottom plate 22 according to the actual requirement to better meet the actual use requirement. At the same time, the bottom plate 22 is formed as a detachable structure, which can be conveniently used for replacing the padding of the fermentation bed. In addition, the bottom plate 22 is a triangular steel bottom plate 22, and flame disinfection cleaning can be adopted in the cleaning process, so that the washing operation is omitted, and the purpose of zero sewage discharge is realized. Of course, it should be noted here that the top plate 21, the side plates 23 and the bottom plate 22 can be made of fire-resistant and high-temperature-resistant materials, so as to achieve the function of zero discharge of sewage better.

In some alternative embodiments, as shown in fig. 3, the housing 1 includes a support bar 5 therein, a plurality of top plates 21 are rotatably provided on the support bar 5, and the water conduit 41 is connected to the support bar 5. It can be understood that the connection of the water conduit 41 to the support strip 5 can better ensure the stability of the water conduit 41, and ensure that the drinking water feeding system 4 can stably supply water towards the stall 2, thereby ensuring that the piglets have sufficient drinking water supply. The top plate 21 is rotatably arranged on the supporting bar 5, so that the top plate 21 can be conveniently opened and closed, and a user can conveniently open or close the stall 2, and therefore the user can conveniently put piglets into or take piglets out of the stall 2.

In some alternative embodiments, as shown in fig. 3, a supporting block 6 and a plurality of supporting beams 7 are arranged in the housing 1, the supporting block 6 is connected to the bottom wall of the housing 1, the side plates 23 are detachably connected to the supporting block 6, the supporting beams 7 are multiple, each supporting beam 7 is connected to a side wall of the housing 1 or the supporting block 6, and the bottom plate 22 is overlapped on the two supporting beams 7. It can be understood that the stability of curb plate 23 and bottom plate 22 can be guaranteed in the existence of supporting shoe 6 and supporting beam 7 to guaranteed the stability of whole hurdle 2, can make bottom plate 22 and the diapire interval setting that holds the chamber again, thereby guarantee to have sufficient space in the casing 1 and place the fermentation bed.

In some alternative embodiments, as shown in fig. 3, a water collection sump 8 is connected to the supporting beam 7. It can be understood that the water collection tank 8 can prevent a large amount of milk or drinking water from flowing into the fermentation bed, thereby affecting the fermentation effect of the fermentation bed.

Advantageously, the water collection trough 8 is connected below both side edges of the bottom plate 22, whereby both the water collection effect of the water collection trough 8 is ensured and also the excrement of the piglets is prevented from entering the water collection trough 8, resulting in the production of faecal pollutants.

In some optional embodiments, the side plate 23 of the stall 2 is provided with a heat insulation layer, and the top plate 21 is provided with the heat insulation lamp 9, it can be understood that the heat insulation layer and the heat insulation lamp 9 can ensure that the stall 2 is always in a relatively constant temperature state, so that a suitable growth environment can be provided for piglets, and the survival rate of the piglets is improved.

Advantageously, the temperature inside the stall 2 is constant at 28 degrees celsius.

In some optional embodiments, the zero-emission cultivation room suitable for young piglets further comprises an environmental control system, the environmental control system comprises a temperature sensor, a humidity sensor, a fan and an alarm, the temperature sensor is configured to detect the temperature in the stall 2, the humidity sensor is configured to detect the humidity in the stall 2, the fan is configured to realize forced ventilation in the stall 2, and the alarm is electrically connected with the temperature sensor and the humidity sensor. It can be understood that the temperature and the humidity state in the stall 2 can be better monitored by arranging the temperature sensor and the humidity sensor, and the air convection in the stall 2 can be realized by the fan, so that the temperature, the humidity and the air speed in the breeding room can be adjusted in real time, and the environment is guaranteed to be maintained under the condition most suitable for the growth and development of the piglets. In addition, the alarm that adds can also in time indicate the user when the environment of hurdle 2 appears unusually to avoid 2 internal environment abnormalities of hurdle to lead to the dead phenomenon of piglet.

It should be noted that, the environmental control system should further include a control chip, and the control chip is electrically connected to the temperature sensor, the humidity sensor, the fan, and the alarm, so that the control of the environmental control system can be better realized. Here, the control logic between the control chip and the temperature sensor, the humidity sensor, the fan and the alarm, and the type of the control chip may be selected according to the type of the existing control system, and there is no need to limit the control chip and the control logic thereof.

In some alternative embodiments, the zero-emission nursery for young piglets further comprises a feeder, which is provided in the pen 2 and is configured to contain a creep. It can be understood that because the congenital behavior of the piglets at birth eats breast milk, and the feed after weaning differs from the breast milk, a feeder is arranged in the stall 2, and a creep feed is arranged in the feeder and can enable the piglets to adapt to plant feed gradually, so that the piglets at the later stage are weaned and fed with the feed. It should be added here that the feeder may be formed as a trough-like or bowl-like container.

In some alternative embodiments, as shown in fig. 3, a plurality of columns 2 are arranged in a plurality of columns, each column 2 includes a plurality of columns 2 arranged in sequence, and two adjacent columns 2 are spaced apart. Therefore, a plurality of piglets can be fed in one zero-emission cultivation room simultaneously, and the space utilization rate of the zero-emission cultivation room is improved. In addition, two adjacent columns of hurdles 2 are distributed at intervals, so that the ventilation in the whole zero-emission breeding room can be well guaranteed, and a relatively suitable production environment is provided for piglets.

Advantageously, environmental ventilation system still has in the casing 1, and environmental ventilation system can guarantee that whole zero release cultivation room is in the ventilation state all the time, avoids the production of harmful wind. It should be added that the environmental ventilation system may include a forced convection device such as a fan.

In some alternative embodiments, the housing 1 is any one of a container structure, a steel structure, and a brick structure. Thereby, the type of the housing 1 can be selected according to actual needs to meet the actual needs. Particularly, in some occasions needing temporary piglet cultivation, the shell 1 can be made of a container or a steel structure, the shell 1 is moved away or dismantled after the cultivation is finished, and in the occasions needing permanent piglet cultivation such as a pig farm, the shell 1 can also be made of a brick structure.

In some embodiments, as shown in fig. 1, the milk supplementation system 3 further includes a delivery pump 33 and a pressure sensor, wherein an inlet of the delivery pump 33 is connected to the thermal agitation tank 31, an outlet of the delivery pump 33 is connected to the milk supplementation device 32 through a milk supplementation pipeline 34, the pressure sensor is arranged at an outlet of the delivery pump 33, and the pressure sensor is configured to detect a delivery pressure of the delivery pump 33. Therefore, the milk replenishing device 32 in each stall 2 can be ensured to have sufficient milk all the time, and the piglets are ensured to have sufficient nutrition supply all the time, so that the survival rate of the piglets is improved.

In some embodiments, as shown in fig. 4, the milk replenishing device 32 comprises a bowl 321 and a check valve 322, the bowl 321 is configured to contain milk, the bowl 321 is provided with a communication hole connected with the milk line 34, the check valve 322 is arranged in the bowl 321 and connected with the milk line 34, and the check valve 322 is configured to prevent the milk from flowing back. Therefore, the piglet can be ensured to be supplied with sufficient milk, and the phenomenon of milk waste caused by milk backflow can be avoided.

Example (b):

the specific structure of the zero-emission cultivation room for piglets according to one embodiment of the present invention will be described with reference to fig. 1 to 4.

The zero release cultivation room suitable for young piglet of this embodiment includes casing 1, fence house 2, fermentation bed, supplyes milk system 3 and drinking water feeding system 4, and the intracavity is held in the injecing of casing 1, and fence house 2 is seven, and seven fences house 2 establish and hold the intracavity and divide into two, and three fence houses 2 arrange in proper order in one row, and four fence houses 2 in another row arrange in proper order. The diapire of every hurdle 2 sets up the fermentation bed with the diapire interval that holds the chamber and establishes and hold the intracavity, and is located the diapire of hurdle 2 and holds between the diapire of chamber.

The milk supplementing system 3 comprises a heat-preservation stirring tank 31, 14 milk supplementing devices 32, a conveying pump 33 and a pressure sensor, wherein a liquid inlet of the conveying pump 33 is connected with the heat-preservation stirring tank 31, a liquid outlet of the conveying pump 33 is connected with the milk supplementing devices 32 through a milk supplementing pipeline 34, the pressure sensor is arranged at a liquid outlet of the conveying pump 33, the pressure sensor is configured to detect conveying pressure of the conveying pump 33, the heat-preservation stirring tank 31 is configured to contain milk, and two milk supplementing devices 32 are arranged in each stall 2. Each milk refill 32 comprises a bowl 321 configured to contain milk, a check valve 322, the bowl 321 having a communication hole connected to the milk line 34, the check valve 322 being disposed in the bowl 321 and connected to the milk line 34, the check valve 322 being configured to prevent the milk from flowing back.

The drinking water feeding system 4 comprises a water conduit 41 and 14 drinking water heads 42 connected to the water conduit 41, and two drinking water heads 42 are provided in each stall 2.

The stall 2 comprises a top plate 21, side plates 23 and a bottom plate 22, wherein the top plate 21, the side plates 23 and the bottom plate 22 are detachably connected with the shell 1, and the bottom plate 22 is a triangular steel floor. Including two support bars 5 in the casing 1, two support bars 5 are established on two lateral walls of casing 1's relative setting, and three roof 21 is rotationally established on a support bar 5, and four roofs 21 rotationally connect on another support bar 5, and leading water pipe 41 connects on support bar 5.

Be equipped with supporting shoe 6 and four supporting beam 7 in the casing 1, supporting shoe 6 connects on the diapire of casing 1, and curb plate 23 detachable connects on supporting shoe 6, and wherein two supporting beam 7 link to each other with the lateral wall of casing 1, and two other supporting beam 7 link to each other with supporting shoe 6, and two bottom plates 22 that the fence 2 was built in the lap joint respectively on four supporting beam 7.

In the description herein, references to the description of "some embodiments," "other embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. A zero-emission cultivation room suitable for young piglets, comprising:

the device comprises a shell (1), wherein a containing cavity is defined in the shell (1);

the fence houses (2) are multiple, the fence houses (2) are arranged in the accommodating cavity, the bottom wall of each fence house (2) and the bottom wall of the accommodating cavity are arranged at intervals, and a leakage groove is formed in the bottom wall of each fence house (2);

the fermentation bed is arranged in the accommodating cavity and is positioned between the bottom wall of the hurdle (2) and the bottom wall of the accommodating cavity;

the milk supplementing system (3) comprises a heat-preservation stirring tank (31) and a plurality of milk supplementing devices (32), the heat-preservation stirring tank (31) is configured to contain milk, the milk supplementing devices (32) are respectively connected with the heat-preservation stirring tank (31), and at least one milk supplementing device (32) is arranged in each stall (2);

the drinking water breeding system (4) comprises a water conduit (41) and a plurality of drinking water heads (42) connected with the water conduit (41), and at least one drinking water head (42) is arranged in each stall (2).

2. The zero-emission cultivation room suitable for young piglets according to claim 1, characterized in that the stall (2) comprises a top plate (21), side plates (23) and a bottom plate (22), the top plate (21), the side plates (23) and the bottom plate (22) are all detachably connected with the housing (1), and the bottom plate (22) is a triangular steel floor.

3. The zero-emission cultivation room for young piglets as claimed in claim 2, characterized in that said housing (1) comprises a support bar (5), a plurality of said top plates (21) are rotatably arranged on said support bar (5), and said water conduit (41) is connected to said support bar (5).

4. The zero-emission cultivation room suitable for the young piglets as claimed in claim 2, wherein a plurality of supporting blocks (6) and supporting beams (7) are arranged in the housing (1), the supporting blocks (6) are connected to the bottom wall of the housing (1), the side plates (23) are detachably connected to the supporting blocks (6), each supporting beam (7) is connected to the side wall of the housing (1) or the supporting block (6), the bottom plate (22) is lapped on the two supporting beams (7), and a water collecting tank (8) is connected below the supporting beams (7).

5. The zero-emission cultivation room suitable for young piglets, according to claim 2, characterized in that the side panels (23) of the pen house (2) are provided with heat-insulating layers, and the top panel (21) is provided with heat-insulating lamps (9).

6. The zero-emission cultivation room for young piglets according to claim 1, characterized in that it further comprises:

an environmental control system comprising a temperature sensor configured to detect a temperature in the stall (2), a humidity sensor configured to detect a humidity in the stall (2), a fan configured to enable forced ventilation within the stall (2), and an alarm electrically connected to the temperature sensor and the humidity sensor;

a feeder disposed within the pen (2), the feeder configured to hold a creep feed.

7. The zero-emission cultivation room suitable for young piglets, according to claim 1, characterized in that a plurality of said stalls (2) are arranged in a plurality of rows, each row of said stalls (2) comprising a plurality of said stalls (2) arranged in sequence, two adjacent rows of said stalls (2) being spaced apart.

8. The zero emission cultivation room for young piglets according to claim 1, characterized in that the housing (1) is any one of a container structure, a steel structure and a brick structure.

9. The zero-emission cultivation room for young piglets according to claim 1, characterized in that the milk supplementation system (3) further comprises: a liquid inlet of the conveying pump (33) is connected with the heat-preservation stirring barrel, and a liquid outlet of the conveying pump (33) is connected with the milk replenishing device (32) through a milk replenishing pipeline (34);

a pressure sensor provided at the liquid outlet of the delivery pump (33), the pressure sensor being configured to detect a delivery pressure of the delivery pump (33).

10. The zero-emission cultivation room for young piglets, according to claim 9, characterized in that the milk-supplement device (32) comprises: the bowl body (321) and check valve (322), the bowl body (321) is configured to splendid attire milk, be equipped with on the bowl body (321) with the intercommunicating pore that supplyes milk pipeline (34) link to each other, check valve (322) are established in the bowl body (321) and with supplyes milk pipeline (34) link to each other, check valve (322) are configured to prevent milk backward flow.

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