RU2236122C1 - Animal keeping apparatus - Google Patents

Abstract

FIELD: agriculture, in particular, animal farming.

SUBSTANCE: apparatus has rectangular construction with manure and feed remains collecting room arranged in end section of construction, room with manure fermentation ground, ventilation and filtering chambers. In cow keeping room, manure channels are widened from manure passage strips to feeders and divided by triangular projection provided with litter into trough for cow's fore legs and trough for hind legs. Said channels are deepened to the level of surface of transverse manure passages. Conveyors of unified construction and dimensions are mounted on bottom of troughs and feeders to form circular contour. Conveyors have upper part made in the form of strip of pivotally connected elastic plates of length equal to width of stall and lower part made in the form of rings of anchor chain, which is laid in slots formed on feeder and trough bottom, with charging hoppers. Hoppers are arranged in transverse feed and manure passage, to which milking room adjoins. Milking room is furnished with driven cleaning stations made in the form of, for example, strings. Cleaning stations are arranged in transverse passage, to which manure and feed remains collecting room adjoins. Perforated air duct is hung under roof ridge of cow room and is connected through X-shaped branch pipe with tubular ozonizer, air heater and high-pressure fan, which are arranged in ventilation chamber. X-shaped branch pipe is fitted with gates. High-pressure fan is connected through collector with set of perforated pipes mounted in bottom of manure fermentation ground. Air ducts built in triangular projections of cow's room are equipped with branch pipes serving as fastening members for side partitions and with perforations arranged at the level of surface of manure passage strips. Suction flare is positioned in room with manure fermentation ground at 1.5 m height, said flare being communicated with outside air. Filtering system has high-pressure fan connected with ammonia and carbonic acid assimilator.

EFFECT: reduced contamination of environment, improved animal keeping conditions and microclimate in keeping room and reduced labor intensity.

9 cl, 5 dwg

Description

The invention relates to the field of agriculture, in particular, to devices for keeping cattle.

A device for keeping animals is known, including a barn in which (see. Production Department of Agriculture of the Krasnodar Territory Executive Committee. Mechanization of dairy farms and their reconstruction. Recommendations. Krasnodar, 1980, p. 14 ... 15) feeders equipped with a chain leash with a vacuum pipe, adjacent to them with a wooden flooring and with dividing metal arches, stalls 1.8 ... 2 m long, behind which there is a manure channel 0.4 m wide with a horizontal scraper conveyor TSN-160 (T SN -160A) for transporting manure to an inclined conveyor serving for loading manure into a vehicle located outside the premises by which manure is transported to the manure storage.

The disadvantages of this device are the restriction of freedom of movement of animals by leash, milking in stalls is low-productivity and labor-intensive, the use of manual labor when cleaning stalls, also when cleaning scrapers in the area of the inclined conveyor, the high gas contamination of the room at the time of transporting manure and distribution of feed by the KTU-10 mobile tractor feed dispenser low operational reliability of devices for cleaning and removing manure, drafts in the barn when doors are open at the ends when distributing feed, high erialnye construction costs manure, low quality of the manure pollution.

A device for keeping cattle is also known (see V.I. Syrovatka, Yu.A. Tsoi, A.I. Zelentsev. Automated equipment for dairy farms. - M.: Rosagropromizdat, 1989, pp. 9 ... 13 and 53. ..55), including a barn in which feeders are equipped, equipped with an OSP-F-26 harness, a vacuum pipe, and adjacent to them, equipped with wooden flooring and dividing arches of a stall 1.6 ... 1.7 m long, behind which is equipped a manure channel 0.3 ... 0.45 m wide, covered by a metal manure grate, while the grate can also be located with a step for a smaller load animal wounds, and in the dung channel under the grate there is a screw or scraper of the delta scraper US-F-170. During feeding, most of the manure falls on the grate and falls through it, part of the manure is crushed by the legs of the cows. The auger or scraper of the US-F-170 delta scraper transports manure to the manure platform, where a cross conveyor is located, which feeds it into the loading hatch of the UTN-10 installation, from where manure enters the manure storage via an underground pipeline.

The disadvantages of this device are the restriction of freedom of movement of animals by leash, milking in the stalls, the inconvenience of the bed (the cow lies bent), damage to the hooves on a metal grate and the fact that the grating is slippery; the use of manual labor to push through the grate of manure residues, poor quality of manure (it is liquid, nitrogen is lost during further processing), great difficulties in utilizing manure, environmental pollution, high metal consumption, a large number of technical means that reduce operational reliability, drafts in the room during distribution feed by a mobile dispenser, high gas contamination from the tractor of the feed distributor, as well as during transportation of manure, large labor costs when milking in stalls.

The closest in technical essence is a room for cows (see AS USSR No. 1667757, A 01 K 1/00), including a building containing a milking parlor, located at the end, transverse manure passages with walled gates and gates and a room for cows, having longitudinal feed passages for technical equipment, groove feeders, stalls with dividing arches, drinking bowls, with guard from feeders, recessed grooved manure channels with technical equipment for manure removal, manure passages and trellis fixers cows with a parallelogram mechanism.

The disadvantages of this device are drafts, high gas contamination of the room when distributing feed (tractor exhaust) and during manure cleaning (due to its mixing), unsanitary condition of stalls, lack of mechanical cleaning of feeders, difficult and material-intensive fixing of cows, high energy and labor costs when daily manure cleaning.

Manure removed outside the building pollutes the environment, it cannot be used as fertilizer, since it has little organic matter, a lot of helminths, infestations, weed seeds, it contains nitrogen in nitrate and nitrite forms, there is no utilization of gases released into the surrounding air .

The technical solution to the problem is to reduce environmental pollution, collect carbon dioxide at the time of compost preparation and during its processing, improve the conditions of animals and the microclimate in the premises for keeping cows, reduce labor costs for cleaning stalls and feeders, unify and increase the operational reliability of manure cleaning equipment and distribution of feed, the use of known means for a new purpose.

The technical solution of the problem is achieved by the fact that in the known device, which includes a rectangular building, which has a milking parlor located at the end, two transverse manure passages and a cow room located between them, equipped with longitudinal feed passages inaccessible to animals, groove feeders, group with side partitions with stalls and strips of manure passages, separated by manure channels, made with a ledge to them and the bottom of the feeders, and moving feeders, while the building has a a room for collecting manure and feed residues located at the other end, a room with a platform for manure fermentation, a ventilation and filter chambers, and in the room for cows, the manure channels are expanded from the manure passages to the feeders, separated by a protrusion with a flooring, on a gutter under the front legs and the trough is under the hind legs of the cows and deepened to the level of the surface of the transverse manure passages, while at the bottom of the troughs and feeders are installed unified in design and size, represented by an annular contour of transport rtera with the upper part in the form of a strip of articulated elastic plates with a length corresponding to the width of the stall, and with the lower part in the form of rings of the anchor chain, laid in grooves, cut at the bottom of the feeder and the bottom of the trough, with loading bins placed in the transverse passage, adjacent to the milking parlor, with drive equipped with cleaners, for example, in the form of a string, stations located in a transverse passage, adjacent to which there is a room for collecting manure and feed residues, made with a ledge, under the ridge for animals, an air duct with perforation is suspended, connected to a nozzle with an ozonator pipe placed in the ventilation chamber through an x-shaped valve with valves, with an air heater equipped with fans, and a high-pressure fan, connected in turn through a collector with a number of perforated pipes, mounted in a platform for manure fermentation, in the triangular protrusions of the cow room are built-in pipes that serve as fasteners for the side walls, with perforations located at the level of the ducts of manure passages, and in a room with a fermentation platform, a suction bell is installed at a height of 1.5 m, communicated in the filter chamber through parallel filtration systems with outside air, while the filtration system consists of a high-pressure fan connected to an ammonia and carbon dioxide assimilator made, for example, in the form of a box-shaped, multi-level inlet and outlet, with a form introduced into the water supply with a nozzle-sprayer with a nozzle in a sloping bottom connected to the tank a view for collecting ammonia water with carbon dioxide and an exhaust pipe with a filter, and the device has walking areas adjacent to the building on each side through the landscaping zone, which are separated by recessed curbs and have a natural coating protected by a roof from atmospheric precipitation, and the milking parlor is equipped with a pre-milking platform, moreover, the transverse manure passage adjacent to the milking parlor has been expanded and equipped as a feed-through passage, and mobile fodder feeds have been used to load feed and litter of walking areas sensors, and for cleaning the sites and loading and unloading the room for manure processing, mobile loaders with a bucket were used in front, and the cow room is equipped with a number of lateral ducts with valves that go beyond it, connected to a cavity formed by walls equipped with trays for collecting condensate, an inverted polyethylene gutter suspended over the entire length of the room from a height that ensures the passage of exhaust air to the ridge to a height of human growth, moreover, as an ozonizer pipe, an installation for the production of ozone, made in the form of a plate or needle ozone generator, which is mounted inside the pipe, is used, and metal plates isolated from each other are used as humidity sensors, which are connected to a device such as built-in temperature protection of electric motors and placed in pairs with the possibility of their contact with manure in the middle area of the conveyors on the hinged brackets mounted on several side partitions, and the room for cows is separated from erechnyh passages main walls equipped with door openings and the canopy.

New elements of the device are:

1 - extension to the building premises for collecting residual feed and prepared for processing manure, ventilation chamber, filter chamber;

2 - the design of the stalls in the room for cows in the form of a gutter with a step relative to the bottom of the feeder and the surface of the manure passage, divided by a triangular protrusion into two parts;

3 - installation at the bottom of the troughs under the hind legs and in the feeders unified (in design and size), passing from the transverse manure passage, where loading hoppers are installed, along the cow room, through the second manure passage to the room for collecting feed residues and prepared for processing manure (compost), where drive stations and cleaners are located, conveyors having an annular contour represented by a strip of elastic articulated plates with a length corresponding to the length of the stall, and an anchor chain;

4 - installation of a suction duct with a perforation under the ridge, which in the ventilation chamber through an x-shaped pipe equipped with four valves is connected to an ozonizer pipe, with an air heater having fans, and with a high-pressure fan connected through a collector to the perforated pipes of the platform for fermentation (for processing manure with thermophilic bacteria);

5 - installation in the triangular protrusions of the suction ducts with nozzles with perforation, and the nozzles and duct are elements for attaching the side walls and the suction socket installed in the room for fermentation, connected in the filter chamber with high-pressure fans, which are connected with assimilators of ammonia and carbon dioxide and with exhaust pipes with a filter;

6 - separation of the landscaping zone with deep borders, natural coverage, protection against atmospheric precipitation and the landscaping zone itself;

7 - pre-milking platform;

8 - expansion of the passage adjacent to the milking parlor to the size of the feed passage;

9 - the use of well-known feed distributors for loading walking areas with bedding and feed, and for the cleaning of walking areas, as well as for loading and cleaning the fermentation room — well-known mobile loaders with a bucket shovel located in front;

10 - application known by A.S. No. 1701204 fresh air intake systems in conjunction with the proposed contaminated air suction system;

11 - the use of the known device according to the patent of Russian Federation No. 2112739 “Ozone generator”, which is built into the pipe and used for fermentation of manure;

12 - application for controlling the moisture of manure of plate-wise pairwise sensors connected to the device for the built-in protection of electric motors of the UVTZ-5M type, and their placement in the middle region of the conveyors;

13 - isolation of the room for cows with capital walls.

New elements will increase the convenience for cows, as:

1. It is more convenient for an animal to stand or lie in a trough-shaped bed that is filled with bedding. A slight tilt of the torso to the head will reduce the load on the musculoskeletal system when standing, and while lying down the body shape of the animal is copied, while compost is better prepared for fermentation by mixing with the legs and by inoculating fresh manure with old bedding.

2. Increases maintainability and operational reliability of conveyors, reduces labor costs for cleaning feeders. Animals better remember their place by smell.

3. A signal is given that the manure is ready for processing.

4. Drafts are excluded in the room, gas pollution and noise are reduced.

5. There is an opportunity to load the site of the room for fermentation with manure mixed with the rest of the feed and bedding (compost), and to ensure its purge with exhaust air with the addition of ozonized or heated air.

6. There is a suction of ammonia and carbon dioxide from the place of compost preparation, from the surface of the compost and the fermentation pad, followed by their dissolution in water in the tank, which reduces air pollution.

7. Technological breaks are provided during milking and for the distribution of feed.

8. Excluded the ingress of any moisture into the manure, and the use of a fermenter will allow to heat the manure to a temperature of 60-70 ° C for three to five days; such manure can be stored under an open sky indefinitely, because of the elevated temperature, larvae of flies do not develop, helminths and pathogens die, germination of seeds of weeds is lost; manure becomes loose, i.e. its quality increases and environmental pollution decreases.

New elements are known in the engineering fields of science and technology, but this device is used for the first time.

The drawings schematically show the essence of the device. In Fig. 1 is a plan view of the barn, in Fig. 2 is a section A-A, in Fig. 3 is a section B-B, in Fig. 4 is a view B, in Fig. 5 is a section G-D.

The device for keeping animals consists of a rectangular building 1 and walking platforms 2 adjacent to it on both sides, separated by buried concrete curbs 3 from landscaping strips, fenced, with a natural coating, but protected from atmospheric precipitation by a roof (not shown). Platforms 2 are equipped with groove feeders 4 and group drinkers 5.

In building 1, there is a milking parlor 6 arranged sequentially, starting from the end, with a pre-milking platform 7, a transverse feed passage 8, a room for keeping cows 9, a transverse manure passage 10, a room 11 for collecting residual feed and prepared for processing by thermophilic bacteria manure, a room 12 with a platform for manure fermentation (processing by thermophilic bacteria), a ventilation chamber 13, a filter chamber 14. All rooms and platforms are equipped, where necessary, with doors for passage of personnel and animals, otami for the passage of technological hardware and openings with valves or canopy for the message of technological equipment of several buildings.

Milking parlor 6 is equipped with a modern milking unit (not shown). The room for the cows 9 is isolated from the passage 8 and the passage 10 by the main walls 15. The room 9 is equipped with longitudinal passages made of concrete 16. The grooves 17 are adjacent to the passages 16, then the manure channel, divided by a triangular protrusion 18, with a wooden deck in the upper part of the gutter 19 under the front legs and on the trough 20 under the hind legs of the cows, and for the accumulation of manure manure passages 21. In this case, the groove 19 and the trough 20 are deepened to the surface level of the transverse forage passage 8 and the passage 10.

The feeders 17 have fences in the form of dividers of feeders, on the supports of which drinking bowls 22 are located, located above the grooves 19. In the protrusions 18, air ducts 23 with perforated nozzles 24 are mounted, which are elements of the side dividing stall walls 25.

The ridge of room 9 is equipped with installed, periodically equipped valves, manually controlled by ropes, ventilation shafts 34. Under the ridge of the room 9, a suction duct 35 equipped with perforations is installed. Through the side walls of the building 1, through the number of transverse ducts 36 equipped with valves, the outdoor air is connected to the cavity formed by the polyethylene walls 37 with trays for draining condensate, an inverted gutter, suspended longitudinally over the entire length of the room for cows 9 at a height bespechivaet passage of warm air to the ridge to a height of a man.

The manure fermentation room 12, equipped with a fermentation platform, has perforated air ducts (pipes) 38 mounted in the bottom, arranged in a row, connected by means of a manifold 39 to the outlet of a high-pressure fan 40 located in the ventilation chamber 13, the inlet of which through the x-shaped pipe 41 with four valves 42 is connected to the duct 35 for suction of the exhaust air, as well as to the ozonizer pipe 43 and the air heater 44, which are also equipped with fans (not shown). As an ozonizer, an ozone production apparatus is used, made in the form of a plate or needle ozone generator (see RF patent No. 2112739), which is mounted inside the pipe (the ozonizer is not shown in the diagram). In the filter chamber 14, the collector 45, to which the air ducts 23 is connected, is connected to the filtration system in the form of a high-pressure fan 46, the output of which is through an ammonia and carbon dioxide assimilator 47 with a box-shaped inlet and outlet, with a water pipe 48 inserted into the inside with an atomizer nozzle, with the pipe 49 in the sloping bottom communicated with the tank 50 and through the exhaust pipe 51 with a filter (not shown) is in communication with the outside air. The bell 52 for suctioning gases from the room 12 is connected to a parallel filtration system located in the chamber 14. For the distribution of feed and bedding, mobile feeders 53 and mobile loaders with a bucket in front 54 are used.

The work is as follows. In winter, during cold and inclement weather, cows are kept in room 9 of Building 1, in summer - on recreational areas with natural cover 2 located under the roof. Fodder, bedding in the form of chopped cereal straw is transported by mobile feeders 53 and distributed either to the feeders 4 of the walking platforms 2, or to the receiving hoppers 26 located in the forage passage 8. But before the distribution to the receiving hoppers 26, the drive stations 27 must rotate the ring contour of the conveyors 28 half a turn (1/2 turn), which will change the position of the upper and lower parts of the contour, i.e. the strip, recruited from articulated elastic plates 29, will change its position with the anchor chain 30, while in room 9 it will be cleaned by wire cleaner from residues of feed and manure. Loaded with food and bedding plates 29 stop strictly in one place, which helps animals remember this (and therefore their) place by smell. During these operations, manure is unloaded and litter is changed if there are no animals in this lane, who at that time are distilled along the transverse passages and passages 8 and 10 either to the walking platforms 2 or to the pre-milking platform 7, while the brackets 32 with plates 33 are raised. Thanks to the protrusion 15 with the flooring in the upper part, the ledge of the manure passage 21, a trough 20 filled with the litter is formed, the cows mix the litter with excrement, both fresh and early, qualitatively. While standing, the cows have a bias towards the head due to the conveyor 28 and litter on it. In addition, while lying, the front of the cow rests on a wooden flooring, and the back on the litter. Moisture in the event of breakage of the drinkers 22 is collected in the gutter 19 and discharged into the sewer. The litter is loaded in an amount of five to six days daily rate, so that during this time the manure reaches a moisture content of 60-70%. Humidity is determined by fixing the electrical resistance of the litter corresponding to this humidity between the metal plates 33 when the brackets 32 are lowered onto the litter by the UVTZ-5M device, in which the LED lights up. On walking grounds 2 animals are also kept on a straw bed brought in by feeders 53; litter, when the required humidity is reached, is cleaned into the room for collecting manure by 11 mobile means 54 with buckets in front. This manure is protected from atmospheric precipitation, therefore, it is not an environmental pollutant. Loading and unloading of premises 12 with a platform for manure fermentation is also carried out by mobile means 54 with buckets in front. Manure with a moisture content of 60-70% is placed in room 12 on a fermentation platform up to a height of 1.5 m, where it is blown with air supplied by perforated pipes 38, manifold 39, fan 40 located in the ventilation chamber 13. Fan 40 draws off exhaust air under the ridge of the room 9 using the duct 35 through the perforation, which provides uniform suction along the length of the room. To promote the development of thermophilic bacteria during fermentation, an ozone-air mixture is added to the air stream using an ozonizer pipe 43 with the ozone production unit turned on. In winter, for heating rooms 9 and 12, an air heater 44 is also used to provide a fermentation process that can occur at temperatures above + 15 ° C. Gate valves 45 of the x-shaped branch 41 regulate the size of the required flow fractions.

During the fermentation process, carbon dioxide CO _{2 is} intensively released from the dung pile, which drowns out the fermentation process and must be sucked off. In the tub 20, carbon dioxide and ammonia are also released from the manure formed for fermentation, which worsen the microclimate in the cow room. Fans 46, installed in the filter chamber 14, suck in air with carbon dioxide from the surface of the manure from room 12 through a bell 52, specially placed slightly above the shoulder height (1.5 m), and from room 9 by means of ducts 23 connected in parallel to the collector 45 through nozzles 24 with perforation, placed specifically at a level slightly higher than the litter. Moreover, the perforation in the nozzles 24 provides a uniform suction of gases and air from the surface of the manure formed for fermentation. Air-gas flows with a fan 46 are fed into box assimilators 47, inside which water is sprayed from a water supply nozzle 48. Water vapor leads to the assimilation of gas, which in the form of carbon dioxide and ammonia water collects on the sloping bottom of the assimilators 47, from where it is supplied by air pressure through nozzles 49 flow into the collection tank 50. The remaining air with water vapor through the air ducts 51 with the filter are discharged out of the filter chamber 14. Fresh air enters the room 9 by suctioning air under the ridge in the middle Twomey duct 35 and the air from the surface of the troughs 20, since in this case a vacuum is created. Fresh air is supplied through the transverse ducts 36 and the cavity formed by the polyethylene walls 37 of the inverted trough. In this case, cold air is heated and releases condensate on the walls 37, which is sent to the sewers using trays. When the fans 40 and 46 are idle, the exhaust air is discharged through the shafts 34. To ensure normal air exchange, control valves and valves 42 in the x-shaped pipe 41 are used.

Animals in room 9 and on walking grounds 2 are kept loose.

Manure inoculated with thermophilic bacteria enters manure 12 due to the fact that when the manure is being cleaned, the conveyor captures the litter, which has been in the trough for a long time 20. Manure in room 12 heats up completely for 5-6 days due to thermophilic bacteria to a temperature of 60-70 ° С . As a result, pathogenic microflora die in it, embryos of weed seeds, humidity decreases to 55%, and nitrogen from inorganic forms of compounds passes into organic forms, due to which it does not have larvae and flies themselves at high temperatures. Manure becomes environmentally friendly and can be stored in piles under the open sky, and later used as environmentally friendly organic fertilizer. The air drawn into the animal room 9 will come out of the filter chamber 14 cleaned, and the liquid fertilizing necessary for plants in the form of carbon dioxide and ammonia water will be collected in the tank 50. The absence of feed passage in room 9 for the mobile distribution of feed will lead to a reduction in drafts, as well as to a decrease in the intake of exhaust gases from the tractor, and in the air exchange system, to a reduction in carbon dioxide and ammonia, which will improve the indoor climate; the stall design will improve cow conditions without leash. This will increase the resistance of animals to diseases of the respiratory organs, as well as reduce diseases of the musculoskeletal system, increase the purity of cows, improve the conditions of rest, which will positively affect the state of health, productivity of milk production and reproduction of the herd.

Claims (9)

1. A device for keeping animals, including a rectangular building, which has a milking parlor located at the end, two transverse manure passages and a cow room located between them, equipped with longitudinal feed passages inaccessible to animals, groove feeders, stalls and strips grouped with side partitions manure passages, separated by manure channels, made with a ledge to them and the bottom of the feeders, and moving feeders, characterized in that the building is located in another t Orce, a room for collecting manure and feed residues, a room with a platform for manure fermentation, ventilation and filter chambers, and in the room for cows, the manure channels are expanded from the manure aisles to the feeders, separated by a ledge, triangular with flooring, into a chute under the front legs and a trough under the rear the legs of the cows are buried to the level of the surface of the transverse manure passages, while at the bottom of the troughs and feeders, unified in design and size, presented by an annular contour conveyors from the upper hour ü in the form of a strip of articulated elastic plates with a length corresponding to the width of the stall, and with the lower part in the form of rings of the anchor chain, laid in grooves cut in the bottom of the feeder and the bottom of the trough, with loading bins placed in a transverse passage adjacent to the milking a hall with drive equipped with cleaners, for example in the form of a string, stations located in a transverse passage, adjacent to which a room for collecting manure and feed residues, adjacent to the ridge, is adjacent to it under the ridge of the room for cows a perforated air duct is connected to the nozzle with an ozonizer pipe placed in the ventilation chamber through an x-shaped with valves, with an air heater equipped with fans and a high-pressure fan, connected, in turn, through a collector to a number of perforated pipes mounted in the bottom of the platform for fermentation of manure, in the triangular protrusions of the room for the cows are built-in pipes that serve as fasteners for the side walls, with perforations located at the surface level of the strips of manure air ducts, and in a room with a fermentation platform, a suction bell is installed at a height of 1.5 m, communicated in the filter chamber through parallel filtration systems with outside air, while the filtration system consists of a high-pressure fan connected to an ammonia and carbon dioxide assimilator, made , for example, in the form of a box-shaped one with a multi-level inlet and outlet, with a water pipe with an atomizer nozzle inserted inside and a nozzle with a nozzle in a sloping bottom connected to a container for collecting ammonia water with carbon dioxide, and the exhaust pipe with a filter. 2. The device for keeping animals according to claim 1, characterized in that it has walking areas adjacent to the building on each side through the landscaping zone, which are separated by recessed borders and have a natural coating protected by a roof from atmospheric precipitation. 3. The device for keeping animals according to claim 1, characterized in that the milking parlor is equipped with a pre-milking platform. 4. The device for keeping animals according to claim 1, characterized in that the transverse manure passage adjacent to the milking parlor is expanded and equipped as a forage passage. 5. The device for keeping animals according to claim 1, characterized in that mobile feed dispensers are used to load feed and litter of walking areas, and mobile loaders with a bucket are used to clean the sites and load and unload the premises for manure processing. 6. The device for keeping animals according to claim 1, characterized in that the room for the cows is equipped with a number of lateral ducts with valves extending beyond it, communicating with a cavity formed by walls equipped with trays for collecting condensate, an inverted polyethylene gutter suspended over the entire the length of the room from a height that ensures the passage of exhaust air to the ridge, to the height of human growth. 7. The device for keeping animals according to claim 1, characterized in that the installation for ozone production is used as an ozonizer pipe, made in the form of a plate or needle ozone generator, which is mounted inside the pipe. 8. The device for keeping animals according to claim 1, characterized in that metal plates isolated from each other are used as humidity sensors, which are connected to a device such as built-in temperature protection for electric motors and placed in pairs with the possibility of their contact with manure in the middle area of the conveyors hinged brackets mounted on several side partitions. 9. The device for keeping animals according to claim 1, characterized in that the room for the cows is separated from the transverse passages by capital walls equipped with doors and openings with canopies.

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