RU2720473C1 - Method of erection of cooling system and humidification of ventilation panels of air-supply windows of poultry houses - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to poultry truss ventilation systems. Method of erection of system for humidification and cooling of ventilation panels of air-supply windows of houses, including humidifying pipes, ventilation panels of inlet windows and water collectors at the bottom, consists in fact that on top of ventilation panels horizontally pressure polymer or fiberglass pipe with stiffness rings arranged around pipe on width of panels. Pipe sections on top of panels between stiffness rings are made perforated and wrapped around them by geomats. Ventilation panels are made of geonet and light facsines attached to it. At the same time light facets are made with diameter of 8–10 cm from ripe reeds and are hung on grids of inlet windows. At the bottom of the panels along the window ledges with a slope, a pressureless water collection pipe is made with a diameter not less than the thickness of the panels, and pipe sections passing under panels, within their widths are made with cutout to the middle of the pipe, on top of which along the entire area of cuts mesh from stainless material is attached.

EFFECT: invention can be used to provide circulation of cooled air in closed poultry farms.

1 cl, 6 dwg

Description

The invention relates to ventilation systems of poultry farms and can be used to provide cooling air circulation in closed poultry farms.

A relatively close technical solution is the PAD LING [1] poultry humidification and cooling system, consisting of a humidifying pipe and ventilation panels (cassettes).

The disadvantage of the closest analogue is the complexity of the system and the high cost of materials and installation.

The purpose of the invention is to increase the efficiency of the ventilation system of houses and reduce material costs for its construction.

This goal is achieved by the fact that in the method of erecting a humidification and cooling system for poultry house ventilation panels, including moisturizing pipes and ventilation panels made of water-vaporizing material, and drainage basins at the bottom and on top of the ventilation panels horizontally conduct a pressure polymer or fiberglass pipe with stiffening rings arranged around the pipe along the width of the panels, while the sections of pipes on top of the panels between the stiffening rings are perforated and wrapped around them with geomats, ventilation spruces are made of geogrid and light fascia attached to it, while light fascia is made of ripened reed with a diameter of 8-10 cm and hung on the grilles of the supply windows, and at the bottom of the panels along the line of window sills with a slope, a pressure-free drainage pipe with a diameter of at least the thickness of the panels and sections of the pipe passing under the panels within their widths are made with a cut to the middle of the pipe, on top of which, over the entire area of the cuts, nets of stainless material are attached. The water supply to the pressure polymer or fiberglass pipe is carried out from two pressure tanks connected to each other, which are installed on the roof or on top of the wall at the same level on both sides, at the beginning and at the end of the wall, cold water is supplied to the tanks to fill them with water, and ice chunks up to 30% of their volume are periodically added to the inside of the water tanks to cool it, the pressure of the water in the tanks and the humidity of the panels are regulated using valves located on the water supply in front of the tanks.

In FIG. 1 shows a diagram (in perspective view) of humidification and cooling of the panels of the supply windows of the house; in FIG. 2 - section of the panel (cartridge) with a humidifying pipe along the line of the supply window; in FIG. 3 - polymer or fiberglass pipe with sections of perforation and stiffening rings; in FIG. 4 - panel-cassette of geogrid and light fascia; in FIG. 5 - light fascia; in FIG. 6 - a drainage pipe with a cut.

The humidification and cooling system of the ventilation panels of the supply windows of the houses contains: two pieces of water tanks 1 with cold water and ice pieces 2, a pressure pipe 3, around which stiffeners 4 are arranged in places; the spaces of the pipe 3 between the ribs 4, located above the ventilation panels 5 (windows), are perforated 6 (for water leakage and to moisten the panels 5) and wrapped by geomats 7. A water pipe 8 is connected to the water tanks 1 and at the end of the water pipe regulating tanks 1 are provided valves 9. Ventilation panels (cartridges) 5 are made of geogrid 10 and light fascia 11 attached to it. Ventilation panels 5 are hung and attached to metal grilles 12 arranged in the openings of ventilation windows. At the bottom of panels 5 along the line of window sills (with attachment to the wall), a drainage pipe 13 made of polymer materials is arranged with a slope. In this case, sections of the pipe 13 extending under the panels within their widths are cut to the middle of the pipe, on top of which grids 14 are made of stainless metal or polystyrene.

The humidification and cooling system of the ventilation panels of the supply windows of the houses is carried out and works as follows.

First, two pieces of water tanks 1 with the necessary containers (made of polymer materials) are made and installed on the roof or on the top of the supply wall at the beginning and at the end, with their attachment to the wall at the same level. Then, a pipe 3 is prepared with stiffeners 4 (made of fiberglass or polymeric materials) and its ends are drawn from the bottom to the inside of the tanks 1, while sections of the pipes 6 passing over the ventilation panels 5 are made with slotted holes, i.e. perforated and wrapped with geomats 7, 3-5 cm thick. A pressure pipe 8 of cold water is supplied to the pressure tanks 1 and a valve 9 is installed in front of each pipe 1. From the pressure tanks 1, a pipe 3 is stretched over the ventilation windows, attached to the wall so so that sections of pipes 6 with wrapped geomats 7 pass exactly on top of the supply ventilation windows with panels 5. And the ventilation panels 5 are made of geogrid 10 and light fascia 11, made of ripened reeds, with a diameter of 8-10 cm. In this case, the ventilation panels and 5 are mounted on the metal window plate 12 with the possibility of removal and replacement, if necessary. Dale make a catchment free-flow pipe 13 of polymeric materials with a diameter equal to or greater than the thickness of the panels 5, and spend it under the panels 5 along the line of window sills with a slope towards the drainage (sewage). In this case, sections of the pipe 13 passing under the panels within their widths are cut to the middle of the pipe, on top of which mesh 14 made of stainless metal or plastic is attached. Pressure tanks 1 are filled with cold water to the required level and large ice pieces 2 are added there in a volume of approximately 30% of the tank capacity. As a result, the water cools and passes through the pipe 3 under pressure, moistening and cooling the ventilation panels 5. Electric fans installed in the opposite wall, at the end of the wall or on the roof provide ventilation draft through the panels 5, while warm air passing through wet and cold Panel 5 is cooled and circulated in the house.

The humidification and cooling system of the ventilation panels of the houses provides effective cooling and humidification of the supply of warm and dry air in the summer hot season. To do this, first pressure tanks 1 are filled with cold water and large pieces of ice 2 are added there, which can be purchased cheaply from a large number of industrial refrigerators from nearby refrigerated and food plants, which have (accumulated) in large quantities. The volume and pressure of water in two tanks 1, the number of added ice pieces 2 and the frequency of their addition are selected for each house separately, depending on the specific (natural and operational) conditions. Cooled water from the tanks 1 enters the pipe 3, and under pressure through the slotted holes of the perforated sections of the pipe 3, water particles flow into the geomats 7 and from there (under the influence of gravitational forces) they flow uniformly and leak out in the panel 5, while they are moistened and cooled . At the same time, fans located opposite the wall, in the end or on the roof of the house, provide the exhaust and circulation of air inside their space with the flow of air through the humidified and cooled ventilation panels 5. This ensures the flow and circulation of cooled air inside the space of the houses. Dry and warm air, passing through the panel 5, partially removes moisture and turns into cold and humid. The remaining water rinses the panel and then flows through the grid 14 into the drainage pipe 13. Light fashions 11 pass air well and are soaked with water, part of the water evaporates from the surface, the evaporation is due to the energy of the hot air, which, passing through the cassettes, is not only moistened, but also cools down. To achieve the necessary flow and maximum effect, the area of the panels and the power of exhaust (tunnel, etc.) fans must be correctly calculated. According to preliminary calculations, the use of chilled (iced) water from pressure tanks 1 can reduce the energy consumption for fans by more than 30%.

The use of light fascines 11 from reeds not only increases the breathability and flexibility of the panels, but also helps to preserve cold moisture for a certain time. Compared to purely polymer panels, the proposed panels hold water and cold better, therefore, the consumption of moisturizing water is also less. At the same time, the cost of panels 5 from fascia and geogrids is 30-40% cheaper compared to purely polymer panels.

Thus, the proposed method of erecting a humidification and cooling system for poultry house ventilation panels provides effective cooling and humidification of the supply of warm and dry air in the summer hot season. In the cool and cold season, the system is turned off using valves 9, panels 5 are removed, and the supply windows are insulated.

The method of constructing a humidification and cooling system for the ventilation panels of the supply windows of poultry houses can most effectively be used in closed poultry farms with forced (transverse and longitudinal) ventilation of the halls, but can also be used with roof and combined ventilation schemes.

Sources of information

1. Agrovent catalog, pp. 44-45. WWW.T Agrovent.ru.

Claims (2)

1. A method of erecting a humidification and cooling system for poultry house ventilation windows, including moisturizing pipes, ventilation panels and downstream water collectors, characterized in that a pressure polymer or fiberglass pipe is horizontally held on top of the ventilation panels with stiffening rings arranged around the pipe across the width of the panels while the pipe sections on top of the panels between the stiffening rings are perforated and wrapped around by geomats around them, the ventilation panels perform and from the geogrid and light fascia attached to it, while the light fascia is made of 8-10 cm in diameter from ripened reeds and hung on the grilles of the supply windows, and at the bottom of the panels along the line of window sills with a slope, a pressure-free drainage pipe with a diameter of at least the thickness of the panels is carried out, and sections of the pipe passing under the panels, within their widths, are made with a cutout to the middle of the pipe, on top of which, over the entire area of the cuts, nets of stainless material are attached. 2. The method of erecting a humidification and cooling system for ventilation panels according to claim 1, characterized in that the water is supplied to the pressure polymer or fiberglass pipe from two pressure tanks communicating with each other, which are arranged on the roof or at the top of the wall on the same level from two sides, at the beginning and at the end, cold water is supplied to the tanks to fill them with water, and ice pieces are periodically added to the water tanks to cool it to 30% of their volume, and the water pressure in the tanks and the humidity of the panels are regulated They are filled with valves located on the water supply in front of the tanks.

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