JPH04503854A - Lightweight portable snow making equipment - 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

[Detailed description of the invention] Snow forming method and device The present invention provides a method and apparatus for snow formation, in particular in which lightning can be produced under controlled conditions. Relating to providing a snow forming environment.

Currently, snow formation production is governed by natural environmental weather conditions. Manufacture of artificial snow Therefore, low temperature and low humidity conditions are required. Unfortunately, in some parts of the world, For example, in Australia the temperature and/or humidity can often be low. However, other environmental factors still make the area unsuitable for snow production. this greatly limits the adequate opportunity for snow to form.

, the present invention allows snow production to occur 24 hours a day, 365 days a year, depending on temperature, humidity and/or is facilitated by providing a snow-forming environment in which other environmental factors are controlled. The aim is to provide a controlled environment in which the

In one general form, the invention provides an apparatus for making artificial snow; The equipment is an environment configured to control temperature, humidity and/or other environmental conditions. and at least a node located substantially within or adjacent to said environment. at least one snow projectile gun having a barrel.

In a more general form, the invention provides a method for the production of artificial snow, The method involves creating an environment with controlled environmental conditions suitable for the production of artificial snow; , at least the nozzle is located substantially within or adjacent to said environment. This includes the process of installing a snow projectile gun.

The present invention will be better understood by reference to the following detailed description of the invention, taken in conjunction with the accompanying drawings. be understood.

Figure 1 shows the artificial snow-forming environment, its associated necessary mechanical equipment and snow-launching guns. It is shown with

Figures 1 and 2 show a preferred movable device of the snow-forming device according to the invention.

FIG. 3 shows three preferred nozzle configurations according to alternative preferred embodiments of the invention. ing.

Solution 4 Figure 4 shows a silo-like structure according to another embodiment of the invention.

In Figure 1, an artificial snow formation environment, designated generally by reference number 1, is illustrated. Ru. The artificial snow formation environment 1 is a system that separates the closed environmental system 3 from the external natural environment 4. It includes a dome-like structure 2. The tent or dome-like structure 2 can be Although it can be constructed in a variety of ways and utilizing a variety of materials, clearly Structure 2 is the preferred Preferably, it has the property of thermally insulating to a certain extent, thus achieving the desired artificial environment 3. The energy required to achieve the variable is minimized.

Temperature, humidity and other controlled air shall be provided as specified generally by reference numeral 5. It is supplied inside the controlled environment 3 by means of suitable mechanical equipment. In particular, The mechanical equipment includes a blower or an air blower that facilitates the recirculation or intake of air from the external environment. It consists of air pump 6. The air passes through a cooling device 7 and a dehumidifier 8, and It is discharged into the controlled environment 3 via the nozzle 9. Water and air vibe 11 is also preferably passed through a cooling device. The nozzle 9 preferably rotates The cooled and dehumidified air then reaches the desired location inside the controlled environment 3. It can be fed in either direction. Both temperature and humidity are preferably However, snow can still be produced even in environments with high humidity and temperatures above 0℃. That should be clear to those skilled in the art. The optimal state is -273 The temperature would be close to 0°C and the humidity would be close to zero.

The snow projectile gun 10 is also placed inside the closed and controlled environment 3. snow firing gun 1G is for any conventional use requiring air and water hoses 11 for snow production. is made from the mold of

In use, the snow-forming device is assembled as follows. Preferably the device is Placed on a ski-like structure for easy transportation, such as a ski scooter or similar pulled into a desired location by means of an object. The tent or dome-shaped structure 2 It is pulled over the firing gun IQ and the nozzle of the cooling system and the dehumidification machine 3.

The tent or dome-like structure 2 preferably has a plurality of stakes or weights. attached to the ground surface surrounding the The tent or dome-like structure 2 is a mechanical It can be easily inflated by supplying air through the nozzle 9 of the device 5. closure Once the desired parameters are achieved within the environment 3, the snow forming operation can begin. Ru.

FIG. 2 shows a preferred embodiment of a Reiwe-type device illustrating the movable device of the present invention. It is. That is, the blower 6, cooling device 7, and dehumidifier 8 are installed in a tent or dome. The snow-forming device which has together with the storage facility 13 for the ski-shaped structure 2 is It is provided on the structure 14. The tent or dome-like structure 2 is provided with storage means 13 Easily taken out and easily pulled forward to cover the nozzle 9 of the mechanical device 5 .

As a result, the snow-forming apparatus and method of the present invention is capable of handling temperature, humidity and/or other environmental conditions. is adjusted as desired to facilitate snow production via a conventional snow projectile gun. Provide a closed environmental system. Due to the light weight structure of the present invention, the device can be easily This system can then be moved to complete the snow-forming operation at a particular location. can be easily moved to the desired area. Obviously, during use, a large amount of snow fell in one place. A snowcat (+nov, cal or similar) can then be used to spread the snow. can be used to disperse

Therefore, the present invention can be controlled anywhere in the world, 24 hours a day, 365 days a year. This makes it possible to produce snow in a controlled environment.

In a further preferred embodiment, the present invention avoids the need for specialized cooling machinery. To provide a method and apparatus for forming snow.

This applies to any gas in its cold form, such as nitrogen or carbon dioxide, its general This is achieved by using a gas that has the property of having a temperature below zero in its normal gaseous state. will be accomplished. This can be done by using a gas that is cold in its normal state or by changing the state Provides a gas in a compressed state to give a resulting lower temperature by providing a gas in a compressed (liquid) state, and This can be achieved by causing the mixture to change state to a gas.

Such a gas may be placed inside a tent or dome-like structure 2 or in a closed system 3. disposed therein by supplying the interior of the insulating wall layer between it and the external environment 4. The snow firing gun can be used in a low temperature environment suitable for snow production without the need for a cooling device 7. will be provided. The tent or dome-like structure 2 is therefore mechanically cooled. forming a cold room where lightning can be produced without the need for cooling mechanical means.

In order to supply such cold gas inside the tent or dome-like structure 2, The gas may be produced by an atmospheric cylinder or produced mechanically.

Other advantages are also provided by the domed structure of the present invention. Especially the tent Or the dome-like structure 2 prevents the layer from blowing away the lightning while the word is formed. It will also protect the snow from the sun, rain and other natural environmental influences. depending on the case This means that the floor is either hard or soft zippered (2ip-onl construction). Delivery! may be done. This is because it is desirable to completely isolate a closed environment from the outside environment. This is especially useful under new conditions. A tent or dome-like structure may also may be formed with a hole therein. By doing so, snow formation equipment The device is placed externally and passes through the walls of the tent or dome-like structure. According to the present invention Another advantage offered by It can be provided on the outer surface of the structure. Preferably, a gas such as nitrogen is recirculated. Means for recycling is provided in the tent-like structure. The dome-like structure is also Preferably, a moisture evacuation means is provided to expel some moisture into the enclosed environment. Equipped with

FIG. 3 shows three N alternatives of nozzle structures that may be utilized with alternative embodiments of the present invention. An alternative embodiment is illustrated. A tent, dome or silo as mentioned above Rather than providing structure, the nozzle of the snow-shooting gun allows the product to be ejected from the nozzle. The structure is such that it can provide suitable conditions to induce snow production when It would be preferable to provide a structure. Figure 3a shows cold liquid nitrogen or gaseous nitrogen. A nozzle is shown in which the element is supplied by the inlet 15 of the nozzle 16. air 17 and water 18 are supplied to the rear of the nozzle 16, and the nozzle effectively mixed or cooled by nitrogen or other similar gas supplied by The nozzle 16 is effectively cooled to expel the snow 19 therefrom. has been done. In the configuration illustrated in Figure 3b, the nozzle provides cold nitrogen gas 15. A tubular structure is attached having an inlet for supplying water. The tubular structure 20 is, for example, Multiple small holes are placed around its tubular inner surface to direct the nitrogen toward the nozzle outlet. The holes can be arranged so that the temperature at the outlet is such that snow 19 is produced. are effectively controlled. A third possible configuration, illustrated in FIG. The horn-like structure 21 is shown adapted to be attached to the end of the . this In an embodiment, nitrogen gas or a similar gas is supplied to the horn-like structure by the inlet 15. and the snow 19 is released from the exit of the horn-like object. A controlled environment is provided around the tip of the nozzle. Nozzle by inlet 15 Suitable gases or liquids that may be supplied to or near the tip of the Carbon oxide and other gases that have low temperature thermal properties in their normal state will be understood by those skilled in the art.

Figure 3d shows a more detailed example of the horn-like object in Figure 3c, which connects the nozzle. Shows the introduction of air and water and the supply of liquid nitrogen around the periphery of the horn. . In the 3d figure, the nozzle, designated generally by the reference numeral 30, is attached to a horn 31. installed. Liquid nitrogen, or other suitable gas 32, is generally designated by the reference numeral 33. The interior of the nozzle within the horn-like object, the plurality of outlets 34, or both supplied to Liquid nitrogen can be mixed with the snow horn and/or nozzle 35 Alternatively, liquid nitrogen may be mixed with lightning 35. and then resupplied to the environment.

FIG. 4 illustrates a silo-like structure according to the invention.

A silo-like structure, designated generally by the reference numeral 22, is located within the silo body 24. The silo body 24 is built with a plurality of snow firing guns 23 arranged on top of the support 25. so that a Snowcat 2G or similar device can be operated under the silo body 24. The snow 27 collected under the silo is placed at a desired height. Can be sprayed on the ground. The silo-like structure preferably has the necessary cooling equipment. Avoid cluttering the top of the machine 28 or the ground 29 with unnecessary tools and machines. , alternatively placed underground.

In a further preferred embodiment of the invention, nitrogen is extracted from ambient air and compressed. A machine will be provided for this purpose. This means that nitrogen or other suitable gas is This means that the product is manufactured on site rather than transported to a location. ing.

This also means that after the gas has been utilized where it is needed, the This means that it is released into the environment after use.

Obviously, in the implementation of tent-like, dome-like or silo-like structures, the material The materials are of good quality so that the energy required to provide a controlled environment is minimized. Suitably selected to have heat insulating properties. Obviously, the amount of insulation depends on the specific location. and will vary depending on the desired temperature difference required compared to the environmental atmosphere. cormorant.

It will be appreciated that many other variations to the present invention are envisioned. and For example, if necessary, conveyor belts can be used to move snow from the production area to the desired ground. A root structure may be attached.

The present invention allows the snow-making device to be mounted on a snowcat and carried out in a movable manner. can be expressed. However, for embodiments such as silo-like structures, it is clearly fixed. More preferably, it is implemented as a structure. Also, in some cases, airflow directional The device may be incorporated within a controlled environment. This is preferably done with multiple buffers It will take the form of having a

It will be apparent to those skilled in the art that many other variations and modifications to the present invention may be envisaged. It will be understood. For example, supplying a machine 5 that is entirely separate from the snow-launching gun lO Alternatively, an integrated system could be predicted. There, the air and water hoses are 11 or The contents therein are cooled or dehumidified. In such embodiments, the main To further increase the mobility of the light, the snow projectile gun 10 can be placed in a tent or dome shape. It would only be necessary to attach it inside the structure 2. Cooling and dehumidifying mechanical equipment Such an integrated system, in which 5 is incorporated into the snow-launching gun IG, is equipped with a cooling system and Particularly suitable in Australian conditions where dehumidifiers are required most of the time. Dew. In these conditions, the cooling system and dehumidifier must be connected to underground air or water hoses. It may be provided in the center of the starting point.

Obviously, a tent or dome-like structure can be a mobile or fixed structure, and It may have a framed or frameless construction. Air-supported frame time is also predicted. There, both the closed and external environments are insulated, and the structure For the dual purposes of separating structure 2, an insulated air pocket is created between the two environments. provided.

The present invention therefore supplements natural snowfall in the environment and It can be used in situations where lightning is provided in environments where lightning does not occur.

These and other variations may be considered within the scope of the invention hereinabove and hereinafter claimed. should be included.

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Claims (16)

[Claims] 1. an environment configured to control temperature, humidity and/or other environmental conditions; at least a nozzle located substantially in or near said environment; and at least one snow projectile gun having an apparatus for producing artificial snow. . 2. Claim in which the environment is formed by a tent-like, dome-like or silo-like structure. The device according to item 1. 3. The tent-shaped, dome-shaped or silo-shaped structure is constructed of walls with excellent heat insulation properties. 3. The device according to claim 2. 4. temperature, humidity, etc. by a machine containing at least one cooling device and/or dehumidifier temperature and/or other environmentally conditioned air is supplied to said environment. 4. A device according to any one of claims 1 to 3. 5. The wall is made of a two-layer membrane, and a gaseous substance having low temperature characteristics is provided between the layers. 4. The apparatus of claim 3, wherein the apparatus is adapted to be supplied with a. 6. When the gaseous substance is supplied into the double layer abdomen, the tent-like, dome-like or 6. The apparatus of claim 5, wherein the silo-like structure is structurally supported. . 7. If the snow-launching gun 7. A device according to any one of claims 1 to 6, which is mounted on a step. 8. a nozzle is provided within the environment, the environment being a ring adjacent to the nozzle; The device according to claim 1, formed of a horn-like device suitable for controlling environmental conditions. Place. 9. By supplying cold gas around the nozzle, the environment is 2. The apparatus of claim 1, wherein the apparatus is adapted to be provided in close proximity to the surrounding area. 10. The environment is provided in the nozzle by injection of cold gas into the nozzle. 2. The apparatus of claim 1, wherein the apparatus is adapted to receive 11. N2, CO2, or temperature characteristics that are low temperature in normal state or compressed state Claims adapted to control the environmental conditions of said environment using other gases having 11. The device according to any one of items 1 to 10. 12. Also extraction means for extracting and compressing N2, CO2 and/or other gases from the air. and the extracted gas can be used to control the environmental conditions of said environment. 12. The device according to claim 11. 13. Claim 1, further comprising a conveyor belt for transporting the artificial snow to a desired location. 13. The device according to any one of et al. 14. A process of creating an environment with suitable environmental conditions for the production of artificial snow, and at least arranging the snow projectile gun so that the gun is located substantially within or adjacent to the environment; A method of manufacturing artificial snow, including a step of placing it. 15. The artificial snow is substantially the same as that described herein with reference to the accompanying drawings. Equipment to manufacture. 16. A method of producing artificial snow substantially the same as described herein.