NO880509L - VALVE. - Google Patents

Description

The present invention relates to a valve of the type specified in the introduction to claim 1.

In breeding facilities, it is most common to supply feed to the sows through hoses that run from a common reservoir to each sow. In larger installations, this means considerable hose lengths. In addition, the hoses necessarily become increasingly longer when the facilities are expanded, as the last meters are located further away from the reservoir.

From NO design document 151,876, a solution with one common hose for so-called "way selectors" at each mare is admittedly known. With the help of these selectors, the feed is distributed to the individual mare. This avoids the problem of using a hose all the way from the reservoir to each individual mare. But firstly, according to the specification, the invention does not lie in the use of the turn selector, and secondly, this is not favorable from a flow point of view, as only one race is arranged inside a turntable in the turn selector, in which a dead zone is formed as a result of the channel being tapered and turbulence is thereby formed, etc. with the following losses in the inlet to the selector valve. As a result of the barrel inside the selector (at least in the embodiment shown) having a square cross-section, the flow conditions worsen further.

The purpose of the present invention is to produce a valve which is particularly intended to be used in connection with lining in breeding facilities and thereby eliminates the need for separate hoses from the reservoir to each mare and also provides better flow conditions than the device according to the above-mentioned NO specification, but which for otherwise has general application when distributing a fluid flow from one line to two other lines or connecting fluid flow from two lines to a common line.

The valve according to the invention is characterized by the features stated in the characteristic of claim 1.

Preferably, one race, the main race, is rectilinear and is offset to the side for a plane through the center of the valve body parallel to the longitudinal axis of the race. Thereby, there will be better room for the second race.

As regards the second run, it is essential that this is separate from the first run, but otherwise can have any suitable shape, thus a continuous curved shape. but when this run is produced by drilling out the valve body, it is advantageous to design it as a twice 45° bend in relation to the inlet of the valve housing.

In order to achieve particularly good flow properties, it is particularly advantageous to have the same internal diameter in the barrels in the valve body as in the inlet/outlets in the valve housing and in the hoses that are connected to the valve.

The valve housing and the valve body are preferably cylindrical, and the rotation of the valve body thereby takes place about the longitudinal axis of the cylinder. When turning the valve body 90°, from a position where one race is open to a position where the other race is open,

the first race is suspended. The end positions for the rotation of the valve body can be determined by means of stops.

An embodiment of the invention will be explained in more detail below with reference to the accompanying drawings, where:

Fig. 1 shows a perspective view of the valve.

Fig. 2 shows a horizontal section through the valve along the line B - B in fig. 2. Fig. 3 shows a vertical section through the valve along the line D - D in fig. 4. Fig. 4 shows a vertical section through the valve along the line C - C in fig. 3.

The valve according to the invention comprises a largely cylindrical valve housing 1 where the cylinder 2 is closed at both ends by means of circular plates 3 and 4 with a somewhat larger diameter than the cylinder itself. Holes are arranged along the periphery of the plates 3 and 4 through which bolts 5 with nuts protrude to press the plates against the cylinder and thereby form the valve housing. Inside the valve housing, a valve body 6 is arranged which is likewise cylindrical and which can be rotated about the longitudinal axis of the cylinder. The rotation of the valve body is carried out by means of a power unit, not shown, which is arranged to turn a shaft 7, which is stored in a bearing 8 in the plate 3. The valve body is equipped with two openings, an inlet 9 and an outlet 10, which are flush with each other and which are offset in relation to the axis of the cylinder. A second outlet 11 is arranged in the plate 4, which in the embodiment shown forms an angle of 45° with the plate 4.

The valve body 6 is designed with two separate races 12 and 13. The race 12, which is called the main race, connects the inlet 9 of the valve housing with the outlet 10 as a straight race in a pivoting position. Both the aforementioned inlet and outlet as well as the main run in the valve body have the same internal diameter and otherwise the same diameter as hoses or pipes that are connected to the inlet/outlet, and thereby particularly favorable flow conditions are obtained for the medium flowing through" The valve body's 6 second run 13, which is called the side run, connects after 90° rotation of the valve body, the inlet 9 of the valve housing with the other outlet 11. The outlet 13 has the same internal diameter as the barrel 12. When the barrel 13, after 90° rotation of the valve body, connects the inlet 9 with the second outlet 11, the main barrel through the valve is closed .

Fig. 2 and 3 show a section through the valve with the main pipe open, while fig. 3 and 4 show sections where the main run is closed while the side run is open. The direction of flow of the medium is indicated by an arrow P.

As mentioned, the valve according to the invention is particularly intended to be used in connection with breeding facilities. A valve is then placed at each mare. The first valve in the system is connected with a hose from a pre-supply line. When the valve body's 6 side run 13 is open, it will therefore be led through the valve out through the outlet 11 to the mother. After sufficient lining has been supplied, the valve body is turned 90°, whereby the side passage is closed and the main passage is opened and the lining flows on to the next valve where the same is repeated. The regulation of the valves will be remote-controlled, and it will thereby be possible to easily distribute the feed to the individual mare.

This application of the valve will probably be the most important, but it is clear that it can also be used for other media to be distributed. The valve can also be used "in reverse", i.e. for bringing together media into a common container, whereby the direction of flow through the valve becomes opposite and inlet becomes outlet. By 180° rotation of the valve body from the position where the barrel 12 aligns with the inlet 9 and the outlet 10 in the valve housing, and where the main barrel is therefore open. both runs through the valve will be closed.

Claims (8)

1. Valve comprising a valve housing (1) with inlet (9) and outlet (10, 11) and a rotatable valve body (6), characterized in that the valve body (6) is equipped with two mutually separated barrels (12, 13) of which one connects the inlet (9) in the valve housing with an outlet (10) in the valve housing and the other, after turning the valve body (6), connects said inlet (9) with at least one other outlet (11) under an angle of less than 90°. 2. Valve in accordance with claim 1, characterized in that one race (12) in the valve body is a straight race. 3. Valve in accordance with claim 1 or 2, characterized in that the barrels (12, 13) in the valve body (6) have the same internal diameter, and that this diameter is equal to the diameter of the hoses or pipes that are connected to the inlet of the valve housing (1) and expiration. 4. Valve in accordance with one of the preceding claims, characterized in that the valve body (6) turns 90°, whereby one barrel is closed. 5. Valve in accordance with one of the preceding claims, where the valve housing (1) is largely cylindrical, characterized in that the rotation of the valve body (6) takes place in a plane perpendicular to the central axis of the valve housing. 6. Valve in accordance with claim 5, characterized in that the barrel (12) which connects the inlet (9) with the first outlet (10) is offset to the side for a plane parallel to the barrel through the center of the valve body (6). 7. Valve in accordance with one of the preceding claims, characterized in that the second race (13) is a curved race. 8. Valve in accordance with one of claims 1-6, characterized in that the second barrel (13) is designed as a twice 45° bend in relation to the inlet (9) of the valve housing (1).