NL8701688A - Snow producing cabin for sauna installation - using water-air mixt. producing e.g. flaky substance when blown against regreigerate surface - Google Patents

Abstract

Flaky aggregate, e.g. snow is formed in a cylindrical vessel, with motor driven scraper blades and nozzle arrangement for water/air mixture, producing a haze when blown against a refrigerated surface. Snow cabin (1) has vertical walls (2) provided with insulating material (3). Cabin has lid (4) and slightly inwards sloping bottom (5) with discharge. Near the vessel top is fitted a blower evaporator (7) and rotary scraper (8) with three scraper blades driven by motor (10) which also rotates three mist or haze producing nozzles when a mixture of water and air cooled by refrigerated unit (14) is fed through the nozzles. Flaky snow mixture is scraped off, and drops onto bottom (5) for further distribution.

Description

NO 34590: *

Method and apparatus for preparing a flake-like aggregate.

The present invention relates to a method of preparing a flake-like aggregate such as snow, comprising atomizing a liquid, such as water, into a gas, such as air.

Such a method is known from French patent specification 1,372,024. Therein, the preparation of snow for outdoor use is described by blowing cold air into a venturi-like device, whereby water is introduced at the location of the constriction.

This device has several drawbacks. First, a lot of energy is required to cool the air with limited snow yield. Moreover, this device proves to be satisfactory only when used outdoors. This is believed to be caused by the presence of particles in the air that facilitate nucleation of the snowflakes. Moreover, this device has the drawback of the considerable noise nuisance that is caused thereby.

It is the object of the present invention to provide a method as described above, in which a flaky aggregate can also be generated "with" lower energy consumption with less environmental impact.

This object is achieved in a method described above by spraying the liquid against a cold surface on which the aggregate forms, and then removing the aggregate from the surface in a flake-like form. The formation of the flake-like aggregate now no longer takes place in free air but against a cold surface, so that the cooling can be concentrated on that surface. This means significant energy savings. Since high-speed venturi blowing of air is not used, the associated noise-generating problems are avoided. Since the flake-like aggregate is surface-formed, there are no nucleation problems such as those that exist in the formation of flake-like aggregates in free air.

Flaky aggregates here mean snow in all its manifestations. These manifestations range from very loose snow to somewhat more compact so-called frost. In addition, this includes not only a mixture of air and water, but immediately rid the deformed flake-like aggregate again with atomized liquid, so that the surface of the evaporator is used as efficiently as possible. To ensure that the atomized liquid strikes the evaporating surface as much as possible and is not lost, an enclosing cover is arranged between that surface and the atomizing means. The device can also be used for snow removal.

The device described above can advantageously be used in a so-called snow cabin. A snow cabin is used, for example, in sauna installations. In addition, the above-described device can be arranged at the top of the snow cabin. It is also possible to provide the snow cabin with outflow openings, which openings are connected to the device described above.

The invention will be explained in more detail below with reference to the figures shown in the drawing. Show:

Fig. 1 is a side view of a device according to the present invention used as a snow cabin,

Fig. 2 a bottom view of the evaporator part of FIG. 1, 20 FIG. 3 is a section on the line III-III of Figure 2,

Fig. 4 schematically another embodiment of the evaporator,

Fig. 5 a further embodiment of the nozzle scraper and FIG. 6 a further embodiment of the device according to the invention.

In fig. 1 a snow cabin is indicated in its entirety by a. This comprises an upright wall 2 provided with insulating material 3. At the top this snow cabin 1 is bounded by a cover 4, while at the bottom a slightly sloping bottom 5 with drain is present. A grid (not shown) can be arranged thereon. The device according to the invention is present near cover 4, which is indicated by 6 in its entirety. This consists of a blown evaporator 7 and a scraping device 8. Scraping device 8 comprises, as appears in particular from Fig. 2, three scraping blades 9. These scraping blades 9 are driven by a motor 10. Motor 10 35 also drives three nebulizers 11. These atomizing devices consist of a supply line (not shown in more detail) as well as a supply tube 12 which is provided with atomizing nozzles 13. To this atomizing device 11, both liquid and a mixture of liquid and a gas for promoting atomization can be supplied.

870 1 68 8 3

Cold steam can also be applied to the evaporator or moisture can be naturally extracted from the air. One or both can be refrigerated. A cooling unit 14 is used to cool evaporator 7.

This is an aggregate known in the state and will therefore not be described further. A supply line 25 and a return line 26 for the refrigerant extend from cooling unit 14. The atomizing nozzles 13 are arranged such that when atomizing the liquid to be atomized is directed towards the surface of the evaporator 7. In order to prevent part of the liquid from moving downwards, a cover 15 is provided, which is shown in both Fig. 2 and Fig. 3. At the end facing away from motor 10, this cover cooperates with a gutter 16. This gutter 16 is provided with a drain 17, so that the liquid, which may end up in the cover 15, can be drained therewith.

The above-described device works as follows: if it is assumed that the direction of rotation as seen in Fig. 2 is counterclockwise (arrow 27), then atomized fluid originating from the atomizing nozzles 13 and strikes the bottom surface of evaporator 7. A snow-frost-like mass is formed there . The presence of cover 15 prevents liquid from spraying downwards. As scraper blades 9 / atomizing device 11 continues to rotate, the scraper blade 9 shown at the bottom right in Fig. 2 will move the newly formed aggregate from that surface moving along the surface of evaporator 7. This takes place in a flake-like state, so that the snow effect intended by the invention is obtained. This process takes place continuously in all three segments shown in Figure 2. As a result, a regular precipitation of snow in the cabin is obtained.

In Fig. 4 another embodiment of the evaporator, here indicated 30 by 30, and a correspondingly adapted scraping device 31 is shown. The evaporator has a paraboloid surface where the snow is to be formed. The evaporator here is not designed as a blown evaporator, but as a simple container containing a mixture of liquid 32 and evaporated refrigerant 33. The cooling device is schematically indicated by 34. It is to be understood that the surface on which the snow is to be formed can contain any surface known in the art, it being possible in a simple manner to move a scraper along this surface.

In Fig. 5, another possible embodiment of the combination 8701 688 f 4% nozzle 34 / scraper 35 is shown. These are both mounted on a U-profile 36, which in turn is connected to body 37, which is connected via shaft 38 to a drive device (not shown).

Finally, in Fig. 6 an apparatus for preparing snow 5 is shown, in which the snow obtained is fed through channel 39 to a space not shown further. The transport takes place by means of a fan 40. In this embodiment, several evaporators 41 are present, along which scraper devices 42 move, driven by motor 10. The spraying means can be arranged in the manner described above, but it is also quite possible to use very moist supply air or steam to space 43 causing flocculation to occur on the evaporator surface.

Many changes can be made to the device described above. For example, it may be desirable not to drop the snow released directly but to pump it through a piping system. It is also to be understood that the invention is not limited to snow generation but can also be used to generate any other flake-like aggregate. This may be necessary, for example, for separation and the like in the process industry.

25 8701 688

Claims (14)

1. A method for preparing a flake-like aggregate, such as snow, comprising atomizing a liquid, such as water, into a gas, such as air, characterized in that the liquid is atomized against a cold surface on which the aggregate is and that the aggregate is subsequently removed from that surface in a flake-like form. 2. Method according to claim 1, characterized in that the aggregate is removed from the surface by scraping. Method according to claim 1 or 2, characterized in that the aggregate is removed from the surface by blowing. Method according to one of the preceding claims, characterized in that the liquid is atomized by means of a gas, A method according to any one of the preceding claims, characterized in that surface tension reducing agents are added to the liquid surface tension. 6. Device for preparing a flake-like aggregate by the method according to any one of the preceding claims, characterized in that it comprises nebulizing means, a cold surface member and means for removing material deposited on that surface. Device according to claim 6, characterized in that the cold-surface member comprises a heat exchanger. 8. Device according to claim 7, characterized in that the heat exchanger comprises a blown heat exchanger. Device according to any one of claims 6-8, characterized in that the surface of the member on which the atomized liquid is applied is substantially roof-shaped. 10. Device as claimed in any of the claims 6-9, characterized in that the means for removing material deposited on the surface comprise scraping means which are movable relative to the surface. 11. Device as claimed in claim 10, characterized in that the atomizing means are arranged moving therewith in the direction of movement of the scraping means. Device according to any one of claims 6-11, characterized in that a cover enclosing the atomizing means and the surface of the member is provided. 13. Snow cabin comprising a holder provided at the top 87 01 68 8 of the device according to any one of claims 6-12. Snow cabin comprising a container provided with outflow openings connected to a device according to any one of claims 6-12. 8701688