HU176258B - Liquid distributor - Google Patents

Abstract

The milk cooler for distributing the milk over the internal surface of the receptacle, incorporates two outlets on a shaft in the receptacle and the inlets (3) fit to a small reservoir (2) mounted on the agitator shaft (7). The shaft is mounted centrally in the receptacle (1). The ends of the inlet go nearly to the sides of the receptacle. A feed pipe for liquid (8), leads to the small reservoir (2). The inlets (3) are circular section pipes or they can be gutter type. Agitator blades (6) are fitted to the shaft below the small reservoir.

Description

The present invention relates to a liquid dispensing apparatus, whereby a liquid is preferably applied in a uniform, thin layer to the wall surface of a vessel, which, when in contact with the surface, cools or warms depending on the temperature of the surface.

In the case of cooling or heating in tanks, it is desirable for the liquid to come into contact with as large a container as possible for greater heat exchange efficiency.

To this end, it is known that many technical solutions have been developed in which the medium to be cooled flows in a thin layer across the cooling surfaces. This principle is applied in the so-called. trickle coolers.

Alternatively, the liquid is film-like applied to the upper part of the inner mantle of a closed container, where it is allowed to enter the interior of the container, utilizing all or part of the mantle. The opposite side of the liquid contacting side wall of the container is provided with a cooling assembly. The fluid inlet and distribution fittings are located at the top of the tank. These may be e.g. pipe fittings with small holes, cone surfaces of approximately the same size as the mouthpiece of the tank or other overflow fittings.

The known solutions have several disadvantages. For example, holes or slots in the drainage system, which are densely spaced and small in size (1-2mm) to provide cleanliness, are disadvantageous for cleaning. The small holes, or the holes. the flow resistance of the gaps is relatively high and, at the same time, the preparation of densely located bores or gaps requires 5 labor. And "roll-over" manifolds are very sensitive to precise geometric alignment and fluid flow uniformity on the spot and on time.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fluid dispensing device 10 for dispensing milk to a wall of a container which overcomes the above-described disadvantages, has low flow resistance and provides a high level of fluid supply over time. fluid distribution on the container surface.

The object of the present invention is achieved by a liquid distribution device characterized in that liquid vessels are connected to a vessel mounted on or on a bearing shaft agitating shaft, parallel to or parallel to the geometric axis of a container. Liquid line outlets extend around the interior wall of the tank. There is a gap between the inner wall and the outlet openings of the fluid lines. The vessel mounted on the agitator shaft is connected to a fluid inlet assembly.

In various embodiments of the present invention, the aforementioned fluid conduits may be in the form of a pipe or trough.

The agitator shaft of the liquid distribution device is preferably provided with agitator blades in the region below the vessel.

A preferred embodiment of the present invention is described in the appended drawings, wherein 5, when placed in a fluid distribution container, is shown in longitudinal section of the container.

The container 1 is generally of a closed design and has a heat transfer surface 5 known per se, which is preferably formed as a cooling surface. 10

The mixing shaft 7, which is mounted on the symmetry axis of the container 1, has a bearing structure and is thus rotatable. At the top of said agitator shaft is a receptacle 2 opened from above, to which a fluid inlet assembly 15 is connected from above.

Liquid conduits 3 are attached perpendicularly to the mixing shaft 7, generally radially extending to the vicinity of the inner wall of the container 1 such that there is a gap between the inner wall of the container and the ends of the liquid conduit 3.

In the lower part of the mixing shaft 7, mixing vanes 6 are provided, which maintain a uniform temperature of the liquid by heat distribution by mixing.

The mixing shaft 7 of the fluid distribution device created as described above is generally rotated by mechanical force or the "Segncr wheel" principle is used to rotate the system, whereby the hydarullary energies of the fluid 30 provide the energy required for movement.

The distribution system of the present invention has significant advantages over the prior art. These are:

The distribution system channels, pipes, troughs are large in cross section so they can be perfectly cleaned by both manual and automatic washing.

According to the experiments performed, the system ensures an evenly distributed distribution of the liquid even in the case of a large fluctuation in the amount of liquid supplied over time.

The system flow resistance is low.

The system is easy to manufacture and maintain.

The system is particularly advantageous for use in milk cooling tanks, where the distributor can be mounted on a mixing shaft located on the tank anyway, so that its rotation does not require a separate structure.

Claims (4)

Liquid distribution device for supplying liquid to a vessel wall surface with outlet troughs on a shaft mounted in a container, characterized in that fluid (2) is connected to a vessel (2) mounted on a mixing shaft (7) mounted on or parallel to the geometric axis of the container (1). the outlet openings of which extend between the inner wall and the outlet openings of the fluid conduits (3), and the vessel (2) attached to the mixing shaft (7) is connected to the liquid inlet assembly (8). Liquid distribution device according to claim 1, characterized in that the liquid conduits (3) are formed as a pipe. The fluid distribution device according to claim 1, characterized in that the fluid conduits (3) are formed as troughs. Liquid distribution device according to any one of the preceding claims, characterized in that mixing vanes (6) are mounted on the section of the mixing shaft (7) below the vessel (2). 1 drawing Responsible for publishing: Director of Economic and Legal Publishing 814081 - Zrínyi Printing House, Budapest International Classification: F 28 U 3/00