KR100237971B1 - Portable ice manufacturing apparatus - Google Patents

Abstract

A device and method for the production of artificial snow, the device (Fig. 1) comprising an environment (3) wherein the temperature, humidity and/or other environmental conditions are adapted to be controlled, the device also having at least one snow gun (10) having at least the nozzle portion thereof provided substantially within or adjacent to the environment (3). Within the environment (3) the humidity and temperature may be controlled by a dehumidifier (8) and a cooler or chiller (7), such that the conditions within the environment (3) are satisfactory for snow production. Alternatively, the mini controlled environment may be provided wherein the nozzle or the environment adjacent the nozzle (16) (Fig. 3) is controlled to be of desired temperature and humidity. <IMAGE>

Description

Eye manufacturing method and device

FIG. 1 shows a snow manufacturing environment with the required machine and a snow gun coupled to the machine.

2 shows a preferred portable eye manufacturing device according to the present invention.

3 shows three suitable nozzle arrangements according to a preferred alternative embodiment of the present invention.

4 is a diagram illustrating a silo arrangement according to another embodiment of the present invention.

In FIG. 1, the snow manufacturing environment, indicated by 1, is shown.

The snow manufacturing environment 1 comprises a tent or domed structure 2, which separates the closed environmental system 3 from the external natural environment 4.

The tent or domed structure 2 can be constructed in a variety of ways and can use a variety of materials, but obviously, the structure 2 has a minimum energy required to achieve the required parameters of the artificial environment 3. It has a certain heat insulation characteristic.

Air with temperature, humidity and other conditions is supplied into the environment (3) controlled by a suitable machine labeled 5.

More specifically, the machine consists of a fan or air pump 6 which facilitates the recirculation or intake of air from the external environment 4.

Air passes through the cooler 7 and the dryer 8 and diffuses through the nozzle 9 into the controlled environment 3.

The water and air pipes 11 also pass preferably through the cooler.

The nozzle 9 is preferably pivotable so that cooled and dried air can be supplied into the controlled environment 3 in any desired direction.

While it is desirable for both temperature and humidity to be as low as possible, it is well known to those skilled in the art that it is possible to manufacture the eye in an environment of about 0 ° C. at high humidity.

Optimum conditions would be when the temperature and humidity of -273 ° C approached the zero level.

Snow gun 10 is also supplied in a sealed control environment 3.

The snow gun 10 is one of the conventional forms that requires air and a hose 11 for the production of snow.

In use, the eye making device is assembled as follows.

The device in which the ski-like configuration is preferred for ease of transportation is dragged to the required place by a snow scooter or similar means.

The tent or domed structure 2 is then drawn onto the nozzle and snow gun 10 of the cooler and dryer 5. The tent or domed structure 2 is preferably connected to the ground surface by a weight around the plurality of tent anchors or their periphery. The tent or dome structure 2 may be simply inflated by supplying air through the nozzle 9 of the cooling dryer 5.

Once the required parameters have been achieved in the enclosed environment 3, the eye manufacturing operation can be started.

2 shows a preferred embodiment of an eye manufacturing device illustrating the simplicity of the present invention.

In other words, a snow manufacturing device composed of a storage member 13 for a tent or dome structure 2 together with a fan 6, a cooler 7, and a dryer 8 is provided on a device like skis 14. The tent or dome structure 2 can simply be removed from the storage member 13 and moved forward to cover the nozzle 9 of the machine 5.

Accordingly, the snow manufacturing apparatus and manufacturing method of the present invention are provided with a closed environmental system, where temperature, humidity and / or other environmental conditions are preferably adjusted to promote the production of snow through a conventional snow gun.

Due to the lightweight configuration of the present invention, the device can be easily moved so that the system can be easily moved to the next desired location when the eye manufacturing operation is completed in a particular place. In use, a large amount of snow can be produced at one location, then a caterpillar, such as a snowmobile, can be used to open the eyes.

Thus, the present invention allows the manufacture of eyes in a controlled environment 24 hours a day, 365 days a year, anywhere in the world.

In a more preferred embodiment the present invention provides an eye manufacturing method and apparatus that does not require a particular cooling machine.

This is achieved by using any cold form of gas, such as nitrogen or carbon dioxide, which has a characteristic of 0 ° or less in the usual gas state.

This is accomplished by using cold gas in its normal state, or by inducing a change in state of the gas in the compressed state, such as changing the state of the mixture to gas by making the gas compressed (liquid). By providing a low temperature.

The snow gun provided therein by supplying the gas in the tent or dome structure 2 or in the enclosed wall layer between the enclosed environmental system 3 and the external environment 4 then makes snow without the cooler 7. Will be in a suitable low temperature state.

The tent or dome structure 2 results in a cold room in which snow can be produced without the need for mechanical cooling elements.

In order to provide cold gas in the tent or dome structure 2, the gas can be made from a conventional compression cylinder or from a machine.

The domed structure of the present invention also provides other advantages.

In particular, the tent or dome structure 2 has been manufactured to prevent the wind from blowing away the snow and will also protect the eye from the sun, rainfall and other natural environmental effects.

Optionally, the bottom may be provided with either a solid or soft zipper structure, which is particularly useful where it is desirable to completely isolate the enclosed environment from the external environment.

The tent or domed structure also has a hole in itself and may optionally be provided such that an eye making device is provided externally and oriented through the walls of the tent or domed structure.

Another advantage provided by the present invention is that commercially available materials can be provided on the outer surface of the tent or dome structure.

Preferably the device is provided on a tent-like structure for recirculating a gas such as nitrogen so that the same can be reused.

The domed structure is also preferably provided with a moisture release device to exhaust all moisture in a closed environment.

3 illustrates three variants of nozzle arrangements that can be used in connection with the variant of the present invention. Rather than having a tent, dome or silo structure as described above, the nozzle of the snow gun is equipped with a device adapted to provide suitable conditions for inducing the production of snow as the product is ejected from the nozzle. desirable.

3 (a) shows a nozzle in which low temperature liquefied nitrogen or gaseous nitrogen is supplied by the inlet 15 of the nozzle 16. Air 17 and water 18 are supplied at the rear of the nozzle 16 so that the nozzles may be free from snow because the nozzles are effectively mixed with or cooled by the nitrogen or other similar gas elements provided by the inlet 15. This nozzle 16 is effectively cooled so that 17 is ejected from the nozzle. In the apparatus illustrated in FIG. 3 (b), the nozzle is provided around the nozzle with an environmental device having an inlet for providing the low temperature nitrogen gas 15.

The annular device 20 may be provided with a plurality of orifices, for example, around its own annular surface to eject nitrogen toward the nozzle outlet, thereby effectively controlling the outlet temperature to produce snow.

The third possible device illustrated in FIG. 3 (c) shows a trumpet-shaped structure 21 adapted to fit at the end of the nozzle 16.

In this embodiment gas such as nitrogen is supplied into the trumpet-shaped device 21 by the inlet 15 so that a small controlled environment is provided around the end of the nozzle so that the eye 19 can be ejected from the outlet of the trumpet. have.

Those skilled in the art will appreciate that any suitable gas or liquid that can be supplied to or near the end of the furnace 16 by the inlet 15 is nitrogen, carbon dioxide, or other gas having low temperature thermal properties at steady state. Will understand.

FIG. 3 (d), which illustrates a more detailed example of the trumpet of FIG. 3 (c), illustrates the input of air and water into the nozzle and the supply of liquefied nitrogen around the circumferential surface of the trumpet. The nozzle, denoted 30 in FIG. 3 (d), is connected to trumpet 31. Nitrogen or other suitable gas 32 may be applied to the nozzle 34, inside the trumpet, at the plurality of outlets 34, or both.

The liquefied nitrogen cools the trumpets and / or nozzles but is not designed to mix with the eye 35 or, alternatively, the liquefied nitrogen 34 may be mixed with the eye 35 and returned to the environment.

In figure 4 a silo-shaped device according to the invention is illustrated.

This silo-shaped device, denoted 22, consists of a plurality of snow guns 23 provided in the silo body 24, which has a snowmobile 26 or similar device underneath the silo body 24. Since the column 25 is provided at an appropriate height that can be operated, the snow 27 accumulated under the silo can be spread on the floor as desired.

This silo-type device is preferably provided with a freezer at the top or, optionally, the base 29 so that the bottom surface 29 is not crowded by unnecessary mechanisms or machines.

In a more preferred embodiment of the invention, a machine is provided which extracts nitrogen from the ambient air and compresses the nitrogen. This means that nitrogen or a suitable gas can be produced in place rather than transported to the location of the eye maker. This also means that after utilization of the gas at the desired location, the gas can be used and released into the atmosphere if desired.

Certainly in the realization of tent, dome or silo devices the material is preferably chosen to have good thermal insulation properties and the energy required to provide a controlled environment is minimized. Clearly, the amount of insulation will vary depending on the particular location and the desired temperature difference as compared to the surroundings.

Numerous modifications may be made to the invention.

For example, a conveyor belt device may be provided to move snow from the manufacturing location to the desired ground surface, if desired.

Although the present invention is preferably implemented such that the snow making device is movable, for example, mounted on a snowmobile, it is certainly more likely to be performed as a fixed structure in embodiments such as silo-type devices. The airflow direction system can also be integrated in a controlled environment. This preferably takes a configuration with a plurality of baffles.

Those skilled in the art will appreciate that various other modifications can be made to the present invention. For example, instead of providing a completely separate machine 5 to the snow gun 10, an integrated system can be envisioned, in which the air and water hoses 11 or their contents can be cooled or dried.

In this embodiment, it is required to supply only the snow gun 10 in the tent or dome structure 2 to further enhance the mobility of the present invention.

This integrated system, in which the cooling and drying machine 5 is integrated with the snow gun 10, is particularly suitable for Australian conditions, where it is likely that a cooler and dryer are needed most of the time.

Under these conditions, coolers and dryers can be fed underground at the central location at the beginning of the air and water hoses.

Certainly the tent or domed structure 2 can be movable or fixed and can be integrated with the frame or have a frameless structure.

An air-supported frame can also be imagined, in which an insulated air bubble is supplied between the closed environment and the external environment for two purposes, which insulates the two environments and also separates the structure 2.

Therefore, the present invention can be applied to a situation in which it supplements to a naturally snowing environment or provides snow to an environment in which it does not naturally snow.

The foregoing description and other modifications may be considered within the scope of the invention as set forth above and as claimed in the appended claims.

The present invention relates to an eye manufacturing method and apparatus, and more particularly, to providing an eye manufacturing environment in which an eye can be manufactured under controlled conditions.

Currently, snow manufacturing is determined by the weather conditions of the natural environment.

Low temperature and low humidity conditions are required to produce snow.

Conditions in some parts of the world, such as Australia, are low in temperature and / or humidity, but other environmental factors are still unsuitable for the manufacture of artificial snow.

This greatly limits the suitable time at which the eye can be made.

The present invention is to provide a controlled environment to facilitate the manufacture of snow 24 hours a day 365 days a year by providing an eye manufacturing environment in which temperature, humidity and / or other environmental factors are controlled.

In its principal form, the present invention provides an eye making apparatus comprising: a nozzle apparatus having an inlet adapted to supply water; And an artificial environment created at or around the output of the nozzle; Wherein the water is ejected through the outlet of the nozzle and moves through the artificial environment, the temperature of the water being low temperature such that snow is ejected from the artificial environment.

The present invention further provides an eye manufacturing apparatus, comprising: a first outlet adapted to supply water therethrough under pressure; And is adapted to supply cryogenic gas and is provided adjacent or in close proximity to the first outlet such that the water is ejected from the first outlet and the temperature of the water is lowered to form snow as it passes through the cryogenic gas. Second exit; Characterized in that consisting of.

The present invention further provides an eye manufacturing apparatus, comprising: a first outlet adapted to supply water and air under pressure; A second outlet adapted to feed through cryogenic gas; Wherein the second outlet is provided adjacent or in close proximity to the first outlet such that the temperature of the water is lowered to form snow as water and air are ejected from the first outlet and pass through the cryogenic gas. It is characterized by that.

The present invention further provides an eye manufacturing apparatus, comprising: a first outlet adapted to supply water through pressure; A second outlet adapted to supply cryogenic gas; And a third outlet adapted to supply air or other gaseous material under pressure; And each of the outlets is provided adjacent to or very close to each other so that the product ejected from the outlet is actually mixed so that the temperature of the water is lowered to form snow.

In another main form, the present invention further provides a method for manufacturing an eye, the method comprising: supplying water to an inlet of a nozzle; Maintaining an artificial environment at or around the outlet of the nozzle; Causing water to be ejected from the outlet through the artificial environment, whereby the water is lowered in temperature as the water passes through the artificial environment and the eyes are ejected from the artificial environment; It provides an eye manufacturing method characterized in that the configuration.

The invention will be more clearly understood from the following detailed description with reference to the accompanying drawings.

Claims (8)

An snow manufacturing environment (1) installed in the tent or dome structure (2); Adjusting means (5) for controlling temperature and humidity in the snow manufacturing environment (1); A snow gun (10) installed in or adjacent to the artificial environment (1) and having at least one nozzle; It is composed of, easy to transport for assembly, portable lightweight snow manufacturing apparatus, characterized in that can be used in any place. 2. A device as claimed in claim 1, wherein the tent or dome structure (2) consists of walls of good thermal insulation properties. The portable lightweight eye manufacturing apparatus of claim 2, wherein the wall is formed of a double layer, and a gas having low temperature thermal properties is filled between the double layers. A device as claimed in any one of the preceding claims, characterized in that the conditions in the artificial environment (1) are controlled by a cooler (7) or a dryer (8). The portable lightweight eye manufacturing apparatus according to any one of claims 1 to 3, wherein the conditions in the artificial environment (1) are controlled by liquefied gas by liquefied gas. The portable lightweight snow manufacturing apparatus according to any one of claims 1 to 3, wherein a plurality of nozzles for supplying cool gas into the tent or dome structure (2) are provided. The portable lightweight eye manufacturing apparatus according to any one of claims 1 to 3, wherein the tent or the dome structure (2) is provided with an outlet through which moisture is discharged. The device for manufacturing portable lightweight snow according to any one of claims 1 to 3, further comprising a transport means including a storage means (13) of the tent or dome structure (2).