CN209845921U

CN209845921U - Environment-friendly assembly type large-scale pig farm

Info

Publication number: CN209845921U
Application number: CN201920488949.9U
Authority: CN
Inventors: 谢万昱; 张华玲
Original assignee: Hunan Dazong Agriculture And Animal Husbandry Co Ltd
Current assignee: Hunan Dazong Agriculture And Animal Husbandry Co Ltd
Priority date: 2019-04-12
Filing date: 2019-04-12
Publication date: 2019-12-27
Anticipated expiration: 2029-04-12

Abstract

The utility model discloses an environment-friendly assembly type large-scale pig farm, which comprises a main structure provided with a feeding room and breeding equipment; the main structure is sequentially provided with a roof truss, a culture area and a feces collection area from top to bottom, and the outer side of the main structure is provided with a guard; the roof truss is arranged at the top of the main body structure, and the top end of the roof truss is provided with a photovoltaic power generation module; the breeding area comprises a passageway and a plurality of breeding rooms arranged on two sides of the passageway; the feeding room is composed of a partition and an enclosure partition, an automatic feeding module is arranged at the front part of the partition close to the passageway, and a feces leaking floor is arranged at the rear part of the feeding room; the excrement collecting area comprises an excrement cleaning ditch arranged below the excrement leakage floor, and the tail end of the excrement cleaning ditch is connected with an excrement collecting tank. The utility model has the advantages of low construction cost, short period, strong reproducibility, environmental protection and energy saving; the intelligent management of the Internet of things of the farm is realized, and the intelligent management system has the advantages of simple management, high automation degree, high breeding efficiency and the like.

Description

Environment-friendly assembly type large-scale pig farm

Technical Field

The utility model relates to a farming-grazing breeding technical field, concretely relates to environmental protection assembled scale pig farm.

Background

China is a big agricultural country, livestock breeding has a long history in China, and with the development of modern livestock breeding industry, livestock breeding gradually moves from free-ranging and stocking to large-scale, intensive and modern breeding modes. In 2018, the ministry of agricultural rural areas has issued "rural green development technology guideline (2018-.

At present, the traditional pigsty infrastructure is constructed by red brick masonry structures and steel frame structures, and the infrastructure is incomplete. The pigsty building has the following disadvantages:

(1) large investment, large physical labor intensity and low efficiency: the traditional construction method has the disadvantages of large field workload, long construction period, time and labor consumption, serious material waste, high investment cost, high labor intensity of workers and low working efficiency. (2) the pollution is great in the process, and the method is not environment-friendly: the material waste is serious in the construction process, a large amount of solid waste is generated, and serious secondary pollution is generated. A large amount of field operation causes noise pollution, dust pollution, water pollution and the like on the field, and causes serious pollution to the surrounding environment. (3) the occupied area is large, and the land utilization efficiency is low: the traditional pigsty is mostly of a single-layer structure, the occupied area is large, the unit land utilization rate is low, and the unit investment cost is increased. (4) the pig house has low standardization degree: the pigsty structure depends on the concept and experience of the pig raising house, the construction quality depends on the capital investment of the pig raising house and the construction level of construction workers, unified standards are not formed, unreasonable pigsty design structure is often caused, the construction quality is poor, the upgrading and transformation of the follow-up pigsty are difficult, and the transformation cost is high. (5) the breeding automation degree is low: traditional pig house and feeding mode thereof, like condition such as artifical feed, manual control pig house temperature, humidity and ventilation, artifical clear excrement etc. artifical participation degree is high, intensity of labour is big, and degree of automation is low, increases the cost of labor input on the one hand, and on the other hand, the plant control degree of difficulty increases, and it is not high to breed efficiency. (6) the excrement cleaning difficulty is large, the resource utilization efficiency is low: the traditional pigsty has the defects of low manual dung cleaning efficiency, large water consumption, incomplete dry-wet separation and difficulty in subsequent dung treatment and resource utilization. Meanwhile, most of the existing excrement treatment facilities are mainly constructed by civil engineering, and have the defects of large occupied area, high civil engineering cost, low treatment and utilization efficiency and the like.

In the live pig breeding industry, modern technical means are urgently needed to realize automation, standardization and intellectualization of breeding, so that the production efficiency is improved, the cost is saved, and the management complexity is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an environmental protection assembled scale pig farm provides that spatial layout is reasonable, standardized, environmental protection, energy-conserving scale breed pig house simultaneously to and improve pig house infrastructure and breed link efficiency, reduce the breed cost.

The utility model is realized in such a way that the environment-friendly assembly type large-scale pig farm comprises a main structure provided with a feeding room and breeding equipment; the main structure is sequentially provided with a roof truss, a culture area and a feces collection area from top to bottom, and the outer side of the main structure is provided with a guard;

the roof truss is arranged at the top of the main body structure, and a photovoltaic power generation module is arranged at the top end of the roof truss;

the breeding area comprises a passageway and a plurality of breeding rooms arranged on two sides of the passageway; the feeding room is composed of a partition and an enclosure partition, an automatic feeding module is arranged at the front part of the partition close to the passageway, and a feces leaking floor is arranged at the rear part of the feeding room;

the excrement collecting area comprises an excrement cleaning ditch arranged below the excrement leakage floor, and the tail end of the excrement cleaning ditch is connected with an excrement collecting tank.

Furthermore, the breeding equipment comprises a feeding module, constant-temperature and constant-humidity air exchange equipment, lighting equipment and an Internet of things control system, wherein the feeding module comprises a water dispenser, a feeder and controllers respectively connected with the water dispenser and the feeder, the constant-temperature and constant-humidity air exchange equipment is arranged in the middle of an enclosure on the front side of the main structure, and the lighting equipment is installed on the main structure.

Furthermore, the excrement collecting ditch is smooth in surface, wide in upper part and narrow in lower part, and is provided with a slope surface with the inclination larger than two degrees.

Furthermore, a dung scraping device is arranged in the dung collecting ditch and is controlled by a driving motor to reciprocate.

Furthermore, the main body structure and the roof truss are formed by connecting light steel thin walls or cement prefabricated components.

Further, the enclosure is made of heat-insulating materials.

Further, the constant-temperature constant-humidity air exchange equipment comprises a central air conditioner.

Furthermore, the Internet of things control system comprises environment regulation and control equipment, electric control breeding equipment, a digitizer instrument valve and various data acquisition terminals inside and outside the pigsty; the data acquisition terminal comprises a temperature sensor, a humidity sensor, an ammonia gas sensor, a carbon dioxide sensor, a controller and an audible and visual alarm.

Further, the internet of things control system comprises livestock and poultry physiological monitoring equipment.

Furthermore, the photovoltaic power generation module is formed by splicing two symmetrically arranged distributed photovoltaic power generation system units; the distributed photovoltaic power generation system comprises a photovoltaic panel, a current converter, a storage battery and an electric load; the photovoltaic panel is connected with the current converter and the storage battery in sequence.

A construction method of an environment-friendly assembly type large-scale pig farm comprises the following steps: the method comprises the following steps of (1) prefabricating a main body structure in a factory according to design requirements; (2) carrying out field measurement and positioning according to the drawing requirements, and determining the position of the main structure; (3) excavating earth according to the requirements of a drawing, constructing a main foundation and pre-embedding a reserved part; (4) fixing the main body structure on the main body foundation; (5) installing a distributed photovoltaic power generation system roof truss unit at the top of the roof truss; (6) installing an external enclosure to form a semi-closed pigsty; (7) installing an inner partition fence; installing a dung leaking floor and a dung scraping device; (8) installing culture equipment: the system comprises a feeding module, constant-temperature and constant-humidity air exchange equipment, lighting equipment and an Internet of things control system; and (9) establishing a big data platform and an Internet of things cloud monitoring platform, and connecting the big data platform and the Internet of things cloud monitoring platform with a data acquisition terminal module in the house through a converter.

The principle of the Internet of things control system is as follows:

(1) the Internet of things cloud monitoring platform automatically controls the opening and closing time of the conveying device and the valve through the Internet of things control system so as to automatically feed and feed water to the automatic diet templates and the automatic drinking water templates of the pigsty partitions in a timed and quantitative manner when the conveying device is opened.

(2) The excrement that the pig only produced falls into the excrement ditch of clearing naturally through the crack floor in, thing networking cloud monitoring platform passes through thing networking control system automatic control and scrapes the driving motor of excrement device and open and close time, regularly starts and scrapes the excrement device, clears up out the excrement in the excrement ditch of clearing automatically and is dirty collecting pit of excrement. And (3) performing solid-liquid separation on the excrement in the excrement collection tank after biogas fermentation to respectively prepare a solid organic fertilizer and a liquid organic fertilizer, and applying the solid organic fertilizer and the liquid organic fertilizer to farmlands to realize seed culture combination and resource utilization.

(3) The Internet of things cloud monitoring platform automatically controls the opening and closing time of the air exchange fan in the constant-temperature and constant-humidity air exchange equipment through the Internet of things control system, leads waste gas generated by the pigsty out of the pigsty, and discharges the waste gas after the waste gas reaches the standard through biological deodorization treatment. Data such as temperature in the pig house is gathered in real time to data acquisition terminal module in the pig house, humidity, ammonia, the illumination, and convert for big data platform through data converter in real time, after big data platform contrastive analysis, the thing networking cloud monitoring platform is given in the conversion again, thing networking cloud monitoring platform passes through thing networking control system automatic control constant temperature, the constant humidity equipment of changing wind, and lighting apparatus, adjust the environment in the pig house, make each data acquisition terminal module parameter be in the within range of setting for, maintain good growing environment in the house. Meanwhile, the environmental control parameters of the pigsty are continuously optimized through a big data system, and the pigs are promoted to grow better and faster.

(4) The storage battery is stored in the storage battery after the electric energy generated by the distributed photovoltaic power generation system unit is converted by the current converter, and the storage battery is used for life, cultivation and fecal sewage treatment of a farm.

(5) Monitoring signals of the livestock and poultry physiological monitoring equipment are converted into digital signals and transmitted to the Internet of things control system, and the controller automatically compares and analyzes the livestock and poultry physiological indexes;

the utility model has the advantages of standardized assembly system, low construction cost, short period, strong reproducibility, environmental protection and energy saving; realize the intelligent management of plant thing networking through environmental protection assembled scale pig farm and the real-time intelligent control system of plant environment, have that the management is simple, degree of automation is high, breed advantages such as efficient:

(1) the method has the advantages that piggery construction and breeding equipment of a farm are assembled and standardized, the space is fully utilized, the land utilization efficiency is high, various assemblies are prefabricated in advance in a factory, and the assembly can be realized by on-site hoisting, assembling and welding, so that the construction time is greatly shortened, the construction efficiency and the construction quality are improved, the requirement of workers is low, the labor intensity is low, the working efficiency is high, the construction cost is saved, meanwhile, the construction materials can be saved, the secondary pollution is not generated in the construction process, and the method is energy-saving and environment-friendly;

(2) the roof of the large-scale livestock and poultry breeding house is large in area, and the photovoltaic plate is laid on the roof of the large-scale livestock and poultry breeding house, so that land resources are greatly saved, the energy utilization efficiency is improved, and the construction cost of rented land is reduced;

(3) the utility model assembles and standardizes the manure cleaning ditch with smooth surface, wide top and narrow bottom, the control system automatically controls the manure scraping device, the mechanization degree is high, the manure cleaning effect is improved, the manual participation is reduced, and the labor cost is reduced;

(4) the method has the advantages that the construction of the pig house of the farm and the assembly and standardization of the breeding equipment are established as a foundation for the establishment of the intelligent pig house, and the intelligent breeding can be realized only if the construction of the pig house of the farm and the assembly and standardization of the breeding equipment are realized, and the intelligent control terminal smoothly controls the breeding equipment;

(5) the intelligent control terminal automatically controls the conveying device and the valve, automatically feeds and supplies water in a timed and quantitative mode, greatly saves food and water consumption, improves the culture efficiency, avoids waste and saves cost; the intelligent control terminal controls the constant-temperature constant-humidity air exchange equipment and the lighting equipment, and adjusts the environment in the pigsty, so that the parameters of each sensor are in a set range, the breeding environment is better, the fatality rate is low, and the breeding safety is guaranteed; the labor is less, the participation degree is low, the manual operation environment is good, the cost is low and the efficiency is high;

(6) monitoring signals of the livestock and poultry physiological monitoring sensors are converted into digital signals and transmitted to the intelligent control terminal, the controller automatically compares and analyzes the livestock and poultry physiological indexes, data of the life cycle of the livestock and poultry are optimized to control the piggery environment, and the breeding level is improved;

(7) and a big data platform of an environment control system in the pigsty and a livestock and poultry physiological monitoring system is established, the pigsty environment control parameters are continuously optimized, and the breeding quality and efficiency are improved.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a schematic diagram of the internal structure of the present invention.

In the drawings: 1. the device comprises a main structure, 11 parts of enclosure, 111 parts of constant-temperature constant-humidity air exchange equipment, 12 parts of roof truss, 121 parts of photovoltaic power generation module, 2 parts of feeding room, 21 parts of passageway, 22 parts of partition fence, 23 parts of automatic feeding module, 24 parts of excrement leakage floor, 241 parts of excrement cleaning ditch, 242 parts of excrement scraping device, 243 parts of excrement pollution pond.

Detailed Description

The following embodiments are described in detail with reference to the following examples:

as shown in fig. 1 and 2, an environment-friendly assembly type large-scale pig farm comprises a main structure 1 provided with a feeding room 21 and breeding equipment; the main structure 1 is sequentially provided with a roof truss 12, a culture area and a feces collection area from top to bottom, the outer side of the main structure 1 is provided with an enclosure 11, and the enclosure 11 is made of heat insulation materials;

the roof truss 12 is arranged at the top of the main body structure 1, the photovoltaic power generation module 121 is arranged at the top end of the roof truss 12, and the main body structure 1 and the roof truss 12 are formed by connecting light steel thin walls or cement prefabricated components; the photovoltaic power generation module 121 is formed by splicing two symmetrically arranged distributed photovoltaic power generation system units; the distributed photovoltaic power generation system comprises a photovoltaic panel, a current converter, a storage battery and an electric load; the photovoltaic panel is connected with the current converter and the storage battery in sequence.

The breeding area comprises a passageway 21 and a plurality of breeding rooms 2 arranged on two sides of the passageway 21; the feeding room 2 is formed by a partition 22 and an enclosure 11 in a partition mode, an automatic feeding module 23 is arranged on the front portion, close to the passageway, of the partition 22, and a feces leakage floor 24 is arranged on the rear portion of the feeding room 2; the excrement collecting area comprises an excrement cleaning ditch 241 arranged below the excrement leakage floor 24, and the tail end of the excrement cleaning ditch 241 is connected with an excrement collecting tank 243.

The breeding equipment comprises an automatic feeding module 23, constant-temperature and constant-humidity air exchange equipment 111, lighting equipment and an Internet of things control system, wherein the automatic feeding module 23 consists of a water fountain, a feeder and controllers respectively connected with the water fountain and the feeder, the constant-temperature and constant-humidity air exchange equipment is arranged in the middle of an enclosure 11 on the front side of a main structure 1, the lighting equipment is installed on the main structure 1, and the constant-temperature and constant-humidity air exchange equipment 111 comprises a central air conditioner.

The excrement collecting ditch 241 is smooth in surface, wide in upper portion and narrow in lower portion, and is provided with a slope surface with the inclination degree larger than two degrees, an excrement scraping device 242 is arranged in the excrement collecting ditch 241, and the excrement scraping device 242 is controlled by a driving motor to reciprocate.

The Internet of things control system comprises livestock and poultry physiological monitoring equipment, environment regulation and control equipment, electric control breeding equipment, a digitizer instrument valve and various data acquisition terminals inside and outside a pigsty; the data acquisition terminal comprises a temperature sensor, a humidity sensor, an ammonia gas sensor, a carbon dioxide sensor, a controller and an audible and visual alarm.

A construction method of an environment-friendly assembly type large-scale pig farm comprises the following steps: the method comprises the following steps that (1) a main body structure 1 is prefabricated in a factory according to design requirements; (2) carrying out field measurement and positioning according to the drawing requirements, and determining the position of the main structure 1; (3) excavating earth according to the requirements of a drawing, constructing a main foundation and pre-embedding a reserved part; (4) fixing the main body structure 1 on a main body foundation; (5) installing a photovoltaic power generation module 121 on the top of the roof truss 12; (6) installing an external enclosure 11 to form a semi-closed pigsty; (7) installing an inner partition rail 22; installing a dung leaking floor and a dung scraping device; (8) installing culture equipment: the system comprises a feeding module 23, constant-temperature and constant-humidity air exchange equipment 111, lighting equipment and an Internet of things control system; and (9) establishing a big data platform and an Internet of things cloud monitoring platform, and connecting the big data platform and the Internet of things cloud monitoring platform with a data acquisition terminal module in the house through a converter.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be considered to be within the protection scope of the present invention.

Claims

1. An environment-friendly assembly type large-scale pig farm is characterized by comprising a main structure provided with a feeding room and breeding equipment; the main structure is sequentially provided with a roof truss, a culture area and a feces collection area from top to bottom, and the outer side of the main structure is provided with a guard; the roof truss is arranged at the top of the main body structure, and a photovoltaic power generation module is arranged at the top end of the roof truss; the breeding area comprises a passageway and a plurality of breeding rooms arranged on two sides of the passageway; the feeding room is composed of a partition and an enclosure partition, an automatic feeding module is arranged at the front part of the partition close to the passageway, and a feces leaking floor is arranged at the rear part of the feeding room; the excrement collecting area comprises an excrement cleaning ditch arranged below the excrement leakage floor, and the tail end of the excrement cleaning ditch is connected with an excrement collecting tank.

2. The environment-friendly assembly type large-scale pig farm according to claim 1, wherein the breeding equipment comprises a feeding module, a constant-temperature and constant-humidity air exchange device, a lighting device and an internet of things control system, the feeding module comprises a water dispenser, a feeder and a controller respectively connected with the water dispenser and the feeder, the constant-temperature and constant-humidity air exchange device is arranged in the middle of an enclosure on the front side of the main structure, and the lighting device is installed on the main structure.

3. The environment-friendly assembly type large-scale pig farm according to claim 2, wherein the manure collecting trench is smooth in surface, wide at the top and narrow at the bottom, and is provided with a slope with an inclination greater than two degrees.

4. The environment-friendly assembly type large-scale pig farm according to claim 3, wherein a dung scraping device is arranged in the dung collecting ditch and is controlled by a driving motor to reciprocate.

5. The environment-friendly assembly type large-scale pig farm according to claim 4, wherein the main body structure and the roof truss are formed by connecting light steel thin walls or cement prefabricated components.

6. The environment-friendly assembly type large-scale pig farm according to claim 5, wherein the enclosure is made of heat insulating materials, and the constant-temperature constant-humidity air exchange equipment comprises a central air conditioner.

7. The environment-friendly assembly type large-scale pig farm according to claim 6, wherein the Internet of things control system comprises environment regulation and control equipment, electric control breeding equipment, a digitizer instrument valve and a plurality of data acquisition terminals inside and outside the pig house; the data acquisition terminal comprises a temperature sensor, a humidity sensor, an ammonia gas sensor, a carbon dioxide sensor, a controller and an audible and visual alarm.

8. The environment-friendly assembly-type large-scale pig farm according to claim 7, wherein the Internet of things control system comprises livestock physiological monitoring equipment.

9. The environment-friendly assembly type large-scale pig farm according to claim 8, wherein the photovoltaic power generation module is formed by splicing two distributed photovoltaic power generation system units which are symmetrically arranged; the distributed photovoltaic power generation system comprises a photovoltaic panel, a current converter, a storage battery and an electric load; the photovoltaic panel is connected with the current converter and the storage battery in sequence.