PL206342B1 - Air intake - Google Patents

Description

Description of the invention

The subject of the invention is an air inlet intended for mounting in openings of external walls of livestock buildings, especially in henhouses. The air inlet, according to the solution, is adapted to work in a system of any number of inlets connected in one string, used in ventilation systems, which, together with other systems, e.g. heating, lighting, are used to control the internal microclimate of livestock facilities, especially poultry houses. According to the solution, the system in which the air inlet works allows the rooms to be ventilated in a manner appropriate to the needs. The method of airing the rooms depends on the type of poultry, age, destination and other conditions.

Until now, the ventilation of livestock rooms was done in a traditional way by periodically opening doors and windows. This method of airing did not meet the standards of modern methods of poultry farming. This is particularly important because modern breeding methods relate to high-commodity production. Several thousand poultry are kept in one room at the same time. Traditional airing in this case becomes insufficient.

The essence of the invention is the design of the air inlet. The air inlet, according to the solution, is made of rigid polyurethane foam. It is made of a housing in which a movable tilt sash is mounted. The front housing has a flange, against which the frame is perpendicular at the back. The frame at the rear part has a step, which enables the mesh to be fixed at the rear of the inlet, and at the front, at the top, there is a recess in which a linear seal is mounted. The tilting sash has the shape of an elongated and flattened body, the surface of which on the mesh side is vertically profiled on a certain section and then arched. The surface of the body forming the tilting wing from the front is arched with a convexity and then a recess in the middle. Both side surfaces of the swivel wing are tapered upwards. The combination of both side surfaces creates a sharp edge. In the cross-section, the tilt sash has the shape of a pointed apex at the top. The hinged sash on the side of the net, at the height of the vertical part, is equipped with semicircular lugs on both sides. The lugs allow smooth rotation inside the housing, which has recesses on the inside. These recesses reflect the fields drawn during the rotational movement of the risers on the sides of the tilting wing. The outline of these recesses in the lower part resembles a horizontal crossbar, the upper surface of which is arched and constitutes an extension of the contour of the recesses. A spring is installed longitudinally inside the swivel wing, more or less on the line joining the center of the lugs. The ends of the spring are seated in recesses made on the inside of the frame, with one end of the spring connected to a lever arm extending beyond the face of the frame. There is a hole in the lever arm that enables the connection of the outlet arms with a cable to form one automatically opened system.

As a solution, the air inlet, made of rigid polyurethane foam, a material with good insulating properties, is particularly suitable for livestock housing. This material retains heat in winter and cool in summer. The inlet, according to the invention with a movable wing, is distinguished by a high throughput and a wide range of regulation.

When ventilating the building, a negative pressure is created, the height of which depends on the amount of exhausted air, the area of inlet openings and the tightness of the building. The value of the negative pressure influences the flow velocity and the amount of air replaced. Due to the high tightness of the inlet, a greater negative pressure is obtained, while the negative pressure is maintained all the time after the end of the air exchange. The shape of the tilting wing affects the correct direction of air movement. The fact that the supply openings are, according to the solution, placed in the wall of the building, which determines the proper mixing of the air inside the building. A properly profiled lower crossbar provides the inlet structure with proper rigidity. This is especially important during automatic opening and closing.

The inlet, according to the invention, thanks to its construction and low weight, is particularly useful when adapting livestock rooms for the needs of modern poultry production.

The subject of the invention is explained in the embodiment in the attached drawing, in which fig. 1 - shows the air inlet in a perspective view, fig. 2 - shows a detail of the inlet in a section after installation in a wall, fig. 3 - a detail of the inlet from the cable side, and fig. 4 - shows the inlet in section AA.

PL 206 342 B1

The air inlet according to the invention is made of rigid polyurethane foam. It is made of a casing 1 in which a movable, tiltable wing 2 is mounted. The casing 1 has a flange 3 from the front, to which a frame 4 perpendicularly adjoins at the back. The frame 4 in the rear part has a step 5, which enables a net 6 to be attached to the rear of the inlet. and from the front, at the top, a depression 7 in which a linear seal 8 is mounted. The lower part of the casing 1 forms a crossbar 9. The pivoting wing 2 has the shape of an elongated and flattened body, the surface 10 of which on the side of the net 6 is vertically profiled for a certain length and then arched bent. The surface 11 of the body forming the swivel wing 2 from the front is arched with a convexity 12 and then a recess 13 located in the center. The side surfaces 10 and 11 of the swivel wing 2 are tapered upwards. The combination of both side surfaces 10 and 11 forms a sharp edge 14. In cross-section, the swivel wing 2 has the shape of a sharp tip at the top. The pivoting sash 2 from the side of the net 6 is equipped on both sides with semicircular lugs 15. The semicircular lugs 15 allow smooth rotational movement inside the casing 1, which has recesses 16 from the inside. 2. The outline of the recesses 16 in the lower part is reflected in the shape of the inner surface of the crossbar 9. Its upper surface 17 is arched, constituting an extension of the outline of the recesses 16. Inside the pivotable wing 2, approximately on the line joining the center of the lugs 15, a spring 18 is installed longitudinally. The ends of the spring 18 are embedded in the recesses 19 made on the inside of the frame 1, with one end of the spring 18 connected to the lever arm 20 protruding beyond the face of the frame 1. A hole 21 is made in the lever arm 20 that allows the connection of the outlet arms with a cable 22 into one the system opens automatically. The spring 18 mounted inside the pivoting wing 2 is in the form of a torsion bar in the form of a tube 23, inside which is embedded an elastic wire 24.

Claims (7)

1. The air inlet, preferably intended for operation in a system connected in one series of inlets, characterized in that it is made of rigid polyurethane foam, it has a casing (1) in which a movable, tiltable wing (2) is mounted, having the shape of an elongated and flattened solid, the housing (1) from the front is constituted by the flange (3), to which at the rear is perpendicularly adjacent the frame (4), and at the bottom there is a crossbar (9). 2. An air inlet according to claim 1 The frame according to claim 1, characterized in that a step (5) is made in the rear part of the frame (4), in which the net (6) is mounted, and from the front, at the top, the frame (4) has a recess (7) for a linear seal (8) . 3. An air inlet according to claim 1 1. A method according to claim 1, characterized in that the surface (10) of the body forming the tilting wing (2) on the side of the mesh (6) is vertically profiled for a certain section and then arched, while the surface (11) of the body from the front is arched with a convexity (12). ) and then with a recess (13) in the center, where the side surfaces (10) and (11) at the top are converging, forming a sharp edge (14) to which is adjacent a linear seal (8) and a tilting sash (2) in has a cross sectional shape at the top. 4. Air inlet according to claim 1 3. The hinged wing (2) on the side of the net (6) is provided with semicircular lugs (15) on both sides at the height of the vertical part, and the housing (1) has recesses (16) at their height from the inside. shaped like the fields drawn during the movement of rivers (15). 5. Air inlet according to claim 1 The method of claim 1, characterized in that the upper surface (17) of the crosspiece (9) is arcuate and the line marking it is an extension of the contour of the recesses (16). 6. An air inlet according to claim 1 A spring (18) is mounted longitudinally inside the swivel wing (2), more or less on the line connecting the center of the lugs (15), and its ends are embedded in recesses (19) made on the inside of the frame (1), one end of the spring (19) is connected to the lever arm (20) protruding beyond the front face of the frame (1), and furthermore a hole (21) is made in the lever arm (20) for connecting the outlet arms with a cable (22) to form a system. 7. Air inlet according to claim 1 A device according to claim 1, characterized in that the spring (18) mounted inside the pivoting wing (2) is in the form of a torsion bar in the form of a tube (23), inside which is embedded an elastic wire (24).