BR102016000373A2 - SNOW GENERATION SYSTEM IN INTERNAL ENVIRONMENTS - Google Patents

Abstract

indoor snow generation system. The subject of this patent application, which belongs to the field of cooling or freezing appliances, is a system for indoor snow generation to create large indoor snowfall halls for entertainment and related sports using compressed air. which, together with a chilled chilled water circuit, by the general ambient cooling system that works in conjunction with a very low temperature glycol storage tank (7) and one or more heat exchangers (4), is capable of sending pressurized air and chilled water, to a vaporization sprinkler (6) which mixes these volumes to form water crystals that precipitate on the snow-like surface of the environment, a fan-driven air turbulence system, following after the spray sprinklers (6), help to produce a natural falling snow, given see that form.

Description

Field of the invention [001] The present invention patent belongs to the field of cooling or freezing apparatus and its object is a practical and innovative system associated with snowmaking equipment. " artificial "for large indoor environments, such as snow parks, which produces snow in large quantities and in conditions similar to a natural snow environment, with light gusts of wind and in some way, with amenity that causes great sense of reality and entertainment.

[002] The snow generator system is ideal for creating indoor parks for skiing and its modalities, as well as for board sports, as snow creates a ground condition that drastically reduces friction, being possible then the practice of the described sports.

[003] The snow generation system innovates, therefore, it uses air compression system, filtration, dehumidifier, heat exchanger that, together with the general environment cooling system produces the volumetric, real and economical large scale snow. energy that assists the financial outcome of the theme park to be assembled with the present snow generation system.

It is also, the objective of this application, to present a system for snow generation indoors, with low costs for its industrial feasibility, but allied to the requirements of robustness, safety and utility practicality that offers the user public an additional option. In the entertainment market, which, unlike current snow-generating systems, offers its users numerous possibilities and benefits, making it a widely accepted system in the industry market.

Background of the invention [005] The first indoor snow park was opened in 1987 in the city of Adelaide, Australia, since then approximately fifty (50) snow parks have opened their doors around the world.

[006] Large indoor snow parks provide a climate controlled location where snow is artificially manufactured, with a primary focus on sports such as skiing and other types of snowboards, as snow reduces all kinds of friction.

[007] The snow park with the invention was designed to offer visitors a unique experience, providing the experience of playing and having fun in the snow, fulfilling the dream, fun and fantasy of being in the natural snow environment. .

[008] Development over the years to produce snow has made use of various artificial snowmaking systems from crushed ice systems to fully automated computerized snowmaking systems.

In recent years, this technology has become increasingly popular due to the growing lack of natural snow, with heavy investments from traditional snow resorts around the world to ensure the volume and quality of snow to its customers.

[010] Snow developments have improved technology in systems for producing snow indoors, as indoors there is a height and energy limitation available compared to outdoor situations and this results in a more complex snowmaking process. and limited.

[011] The developing park with the new snow generator offers visitors more than just a place for skiing and other related sports, as the main focus is on offering visitors the magic of fresh snow. fallen into a fanciful winter environment.

[012] To accomplish this, the snow system needs to produce snow in large volumes and, in addition, a layer of snow over a large area and, on top of the various decorative items within the snow area, in order to replicate a Real winter environment.

Deficient points of the state of the art [013] The present snowmaking system is different from other systems in that, as it is specifically designed for use indoors and to create a result of recently fallen snow, it relies on the production of large Natural quality snow volumes in a short time over a large area.

[014] The main part of the snow generating system is a large vaporizer that is positioned within the snow area and under high pressure, the water is disintegrated into small and light particles which crystallize in combination with the speed and temperature of the snow. compressed air and the low ambient temperature during its vaporizer flight until the crystal falls to the ground like snow.

[015] Unlike other indoor snow systems, the system under consideration produces a large amount of snow, up to one hundred and twenty liters of snow per minute with just one spray sprinkler.

[016] To achieve the best result from snow covering a large surface area, an air turbulence system has been developed that assists in spreading and transporting snow crystals.

[017] This turbulence system provides the crystals with the longest flight time and gives them the time needed to turn them into the highest possible crystal snow quality by the time it finally hits the surface.

[018] Such a technique results in newly formed snow covering a large area with a thin layer of snow, mimicking a real winter experience that no other snow park in the world is currently able to offer.

Summary of the Invention [019] Because of the need to have a differentiated economical, high performance snow production system that utilizes filtered and dried compressed air, heat exchanger and air and water mixer expelled in a sprinkler for generating snowfall, led the inventor, with notorious industry knowledge, to create and develop the object of the present patent, "SNOW GENERATION SYSTEM IN INTERNAL ENVIRONMENTS" where the system uses a screw compressor to compress the air, whose volume it is filtered, decontaminated and all moisture removed so that this volume of air can be passed through a heat exchanger which, together with a chilled water circuit, previously cooled by the indoor cooling system together with a pressurized water tank. glycol, are able to send these volumes of air and water to a sprinkler that promotes mixing of both to form water crystals that precipitate on their surfaces. internal environment surfaces in the form of snow.

[020] The system works with a vaporizer / sprinkler centrally positioned in the refrigerated area. Turbulence fans are incorporated into the evaporators from which they are mounted on the wall of the refrigerated zone, as can be seen in FIG. 3

[021] These fans help to form an air turbulence that forms snowfall currents that simulate natural snowfall outdoors such as the well-known ski and board sports.

[022] It is thus clear that the innovative snowmaking system in question is extremely simple in its constructivity and therefore easily achievable, but excellent practical and functional results are obtained, offering innovative constructiveness over the systems. known for the same purpose.

[023] Designed with innovative design, it results in a harmonic set, very peculiar aspect and, above all, characteristic, and besides the constructive aspect, the snow production system stands out for its versatility and convenience of use.

BRIEF DESCRIPTION OF THE DRAWINGS OF THE INVENTION Hereinafter, for a better understanding and understanding of what constitutes the "SNOW GENERATION SYSTEM IN INTERIOR ENVIRONMENTS", which is claimed here, the attached illustrative drawings, where : [025] FIG. 1 - Shows a schematic view of the snowmaking system indoors.

[026] FIG. 2 - Shows a snow sprinkler view of the indoor snow generation system.

[027] FIG. 3 - Shows a view of a floor plan showing the performance of the indoor snow generation system, where you can see the vaporizer (14), the air turbulence (15), the snowfall area (16). ) and the hoses (17).

DETAILED DESCRIPTION OF THE INVENTION As illustrated by the above related figures, the "Indoor Snow Generation System", object of the present invention, designs a snow precipitation system that utilizes snow precipitation streams. a screw compressor, pressurized air and water heat exchangers, air and water filtration and decontamination systems, water cooling through a glycol storage tank.

The treated volumes of water and compressed air are sent to a sprinkler that mixes them and expels them through a nozzle to form ice crystals that precipitate as snow on the surfaces of the indoor environment.

[030] An air turbulence generation system, produced by fans installed after the sprinkler ice crystal outlet nozzles, is capable of washing the snow flakes at considerable distances that simulate natural snowfall currents.

[031] The indoor snowmaking system (1) comprises: [032] The compressed air process.

[033] The compressor (2) used is a screw type positioned in the engine room for compressed air production and filters this air volume at a constant pressure of 8.5 bar (eight point five bar), where then the air The tablet is transported through a general purpose internal cooler, including the entertainment environment, before being transported to the desiccant air dryer (3).

[034] The air compression process concentrates atmospheric contaminants, including water vapor, and such technological resources bring the volume of treated air to a dew point of compressed air relative to free atmospheric air and cause condensation inside pipes such as air. compressed air from the compressor, then to cooling.

[035] Excessive water in the compressed air, in liquid or vapor state, causes operational problems such as freezing in the heat exchanger (4) during transport in the air hoses and tubes (5).

[036] It is essential to remove all moisture from the air that this is done with a desiccant air dryer (3) which has a maximum working pressure of one hundred and fifty 150 PSI.

[037] Compressed air is passed through one or more pressure vessels, ie the desiccant air dryer itself (3), and these pressure vessels are filled with desiccant material, one of whose properties is to attract water from the compressed air by means of adsorption.

[038] In order to maintain continuous operation of the desiccant air dryer (3), once a pressure vessel is saturated, the system automatically switches to the second pressure vessel and vice versa where then the first pressure vessel pressure, initiates a process for purging the water absorbed by blowing the desiccant material using compressed air.

[039] Once the volume of air has passed through the desiccant air dryer (3), it is conveyed to the heat exchanger (4) in order to cool the compressed air to - 9 ° C (nine degrees Celsius). negative).

[040] This heat exchanger (4) is cooled or cooled by the general refrigeration plant, ie it cools to room temperature in the snowfall area and at this stage the compressed air is ready to be conveyed to the vaporization sprinkler. (6) which is positioned in the snow area.

[041] The process of water cooling.

[042] A storage tank (7) with 3000 I (three thousand liters of glycol) cooled to a temperature of -11 ° C (minus 11 degrees centigrade) provides the "cold energy" for the heat exchanger (4), water passing through it before entering this glycol storage tank (7).

[043] The cooling of this heat exchanger (4) is also provided by the general refrigeration facility which is responsible for controlling the snow area temperature.

[044] The water is transported by a water pump with a capacity of 1201 / min (one hundred and twenty liters per minute) to the vaporization sprinkler (6) in the snow area.

[045] Vaporizing sprinkler (6) is made of 304 stainless steel, where the two air hoses (5) feed the vaporizing sprinkler (6) into the smaller air inlet (8) and air inlet (9). diameter.

[046] The water hose (10) is connected to the water inlet position (11).

[047] The spray nozzle (6) has an inner chamber (12) and an outer shell (13).

[048] The water channel mixes with the air in the inner chamber (12).

[049] The external environment is supplied with compressed air from the second air hose line (5) of the air inlet (9) (smaller in diameter), and in the outlet nozzle of the inner chamber (12) mixing air and water again with air to produce shades or snow blankets outdoors.

[050] The second air addition provides additional velocity to the water as it passes through the outlet of the inner chamber (12) and outer shell (13) of the spray nozzle (6).

Right after the spray nozzle air nozzle (6), when vaporized water enters the atmosphere, there is a sudden drop in pressure that depresses the temperature of the compressed air further as it expands and adapts to normal atmospheric pressure and this increases the speed of the snow crystallization process in formation, the weight of which the snow crystals are lower than water and means that the faster the water crystallizes, the longer its flight time will be and the longer It is the flight time, the greater snow spread will have.

[052] System for creating air turbulence.

[053] Since snow crystals are thrown into the atmosphere, they are captured by the air turbulence system, which comprises a series of twelve vaporization sprinklers (6), each equipped with three fans positioned and designed to Air circulation within the snow area, however, with the high speed blowers this system becomes the system in the air turbulence.

[054] The result is that about half of snow particles can travel up to 100 m (100 meters) before falling to the surface, and the other 50% (fifty percent) of snow crystals fall within 30 m (thirty meters) in front of the spray nozzle (6).

[055] Air turbulence also contributes to the uniform spread of cold air within the snow area during the snowmaking process and prevents the areas near the spray sprinklers from heating up (6).

[056] This air turbulence also helps create stable snow conditions and as snow flies more it spreads and falls evenly on precipitation surfaces, creating a natural snowfall effect.

[057] Therefore, the present report describes a new conception of a system for snow generation in large indoor environments that presents, as can be evidenced by the analyzes performed and the figures shown, numerous differences on existing snow generating systems. in the market, besides constructive and functional technical characteristics completely different from those pertinent to the

[058] Because of the advantages it offers, as well as being truly innovative features that meet all the requirements of novelty and originality in the genre, the present "SNOW GENERATION SYSTEM IN INTERIOR ENVIRONMENTS" meets the conditions necessary to earn the patent. of Privilege of Invention. CLAIM:

Claims (1)

1- "INDOOR SNOW GENERATION SYSTEM" designs a system for indoor snow generation that utilizes dry, filtered compressed air that, together with a chilled cold water circuit, is capable of delivering pressurized air and chilled water. , up to a sprinkler which mixes these volumes to form water crystals that precipitate on the snow surface of the environment, and the indoor snow generation system (1) is characterized by initially comprising the air process which uses a screw-type compressor (2) positioned in the engine room for producing compressed air and filters this air volume at a constant pressure of 8.5 bar where compressed air is then conveyed through a general purpose internal cooler, including for the entertainment environment, before being transported to the desiccant air dryer (3), followed by the air compression process which l Concentrates airborne contaminants including water vapor and such technological features bring the volume of treated air to a dew point of compressed air relative to free atmospheric air and cause condensation inside pipes like compressor compressed air after cooling. , excess water in the compressed air, in liquid or vapor state, causes operational problems such as freezing in the heat exchanger (4) during transport in the air tubes and hoses (5), so it is essential to remove For all air humidity this is done with a desiccant air dryer (3) which has a maximum working pressure of 150 PSI, the compressed air is passed through one or more pressure vessels, ie the desiccant air dryer (3), and these pressure vessels are filled with desiccant material, one of whose properties is to attract water from the compressed air by means of adsorption to maintain The continuous drying of the desiccant air dryer (3), once a pressure vessel is saturated, the system automatically switches to the second pressure vessel and vice versa where the first pressure vessel then begins a process for purge the absorbed water by blowing the desiccant material using compressed air, once the volume of air has passed through the desiccant air dryer (3), it is conveyed to the heat exchanger (4) at In order to cool the compressed air to -9 ° C, this heat exchanger (4) is cooled or cooled by the general cooling plant, ie it cools to room temperature in the snowfall area and in this step the compressed air it is ready to be transported to the vaporization sprinkler (6) which is positioned in the snow area; following is the water cooling process, whereby a storage tank (7) with 3000 I cooled to a temperature of -11 ° C provides the "cold energy" to the heat exchanger (4), for example. water passing through the heat exchanger (4), prior to entering this glycol storage tank (7), cooling of this heat exchanger (4) is also provided by the general refrigeration facility which is responsible for controlling the At the snow area temperature, the water is transported by a water pump with a capacity of 120l / min to the vaporization sprinkler (6), in the snow area the vaporization sprinkler (6) is made of stainless steel, where the two air hoses (5) feed the spray nozzle (6) into the air inlet (8) and smaller diameter air inlet (9) (compressed air), the water hose (10) is connected in the inlet position (11), the spray nozzle (6) has an inner chamber (12) and a On the outside (13), the water channel mixes with the air in the inner chamber (12), the outside environment is supplied with compressed air from the second air hose line (5) of the air inlet (9) (smaller diameter), and in the airlock nozzle (12) there is the mixing of air and water again with air to produce the shades or snow blankets outdoors, the second air addition provides additional speed into the water during passage through the outlet of the inner chamber (12) and the outer shell (13) of the spray nozzle (6), just after the spray nozzle air nozzle (6), when the spray water enters the In the atmosphere, there is a sudden drop in pressure that lowers the temperature of the compressed air even further as it expands and adapts to normal atmospheric pressure and this increases the speed of the process of crystallization of snow in formation, the weight of which snow crystals is lower than water and means that the more r The faster the water crystallizes, the longer its flight time will be, and the longer its flight time, the more snow it will have, and there is still a process to create air turbulence, whereby once the snow crystals are thrown into the atmosphere, they are captured by the air turbulence system, which system comprises a series of twelve vaporizing sprinklers (6), each equipped with three fans positioned and designed to circulate air within the snow area in the However, with the high-speed fans this system becomes a system of air turbulence, the result is that about half of the snow particles can travel up to 100 m before falling to the surface and the other 50% of the crystals. As snow falls within 30 meters 30 m in front of the spray sprinkler (6), air turbulence also contributes to the uniform spread of cold air within the snow area during the snowmaking process and prevents and warming areas near the spray sprinklers (6), this air turbulence also helps to create stable snow conditions and as snow flies more it spreads and falls evenly on precipitation surfaces, creating an effect Natural snowfall.