EP1600711A2 - Indoor snow plant - Google Patents

Abstract

The hall (2) has a snow layer (15) over a floor (13) with drainage (14) and a source (11) of cold dry air as well as a ice production system (12) feeding the artificial snow jets (4) below an air transparent ceiling (18) with an air conditioning system (9) above.

Description

The invention relates to an indoor snow plant according to the preamble Claim 1.

Indoor snowmaking systems are also known in particular in the form of Indoor winter sports facilities, in the simplest case of a closed room or interior, namely a hall having a slope Hall floor, and from a snowmaking system with snowmaking equipment for snowmaking the hall floor. The snowmaking devices are this essentially water atomizing nozzles, where water and air under Pressure are supplied and by spraying the water a water mist form, from which then arises when lowering on the hall floor snow. The disadvantage is, inter alia, that the atomizer nozzles at a relatively high altitude above the Hall floor must be arranged, thus for the snow formation from the Water droplets are enough time available. But this also means big Hall heights and thus an excessively high hall volume, which by a Air conditioning to a necessary for the snow formation temperature of below 0 ° C. must be cooled. This disadvantage can be achieved by appropriate training Snow-making system to be corrected.

Basically, it is known, for example, in an artificial ice the ground Cool, through a cooling system, which consists essentially of a Floor laid and transported by a cold heat medium (cold brine) flowed through pipe system.

The object of the invention is to show an interior snow plant, in the with simple means both cooling and heating of the bottom of the plant is possible. To solve this problem is an indoor snowmaking system accordingly formed according to claim 1.

In the interior snow plant according to the invention becomes one and the same Tube system used for cooling or for heating the soil, namely in that this pipe system is charged with either cold or warm brine becomes. By feeding the pipe system with warm brine is then a targeted Defrost the snow cover on the ground possible, for example, to Cleaning the snowpack. By feeding the pipe system with the cold Sole is a targeted control of the snow temperature possible and thereby a targeted influence on the snow quality. Especially in an indoor snowmaking system For training purposes, the training conditions can also be used here to be influenced.

In a preferred embodiment, the heating and cooling system is designed that for generating the warm brine the heat of condensation is used, the Generating the cold brine arises. For this example, the capacitor is the Chiller cooled with the brine to be heated and then heated State stored in a suitable memory for further use.

An "indoor snow plant" or an "interior to be snowed" are in According to the invention basically any interior space, e.g. of a building, in the (interior) snow is to be generated. An interior to be snowed is accordingly, for example, the hall of an indoor winter sports facility, but also e.g. an interior in which a testing and / or training device and / or track is housed.

In a preferred embodiment of the invention, the snowmaking system of at least one snowmaking device formed, the least one Water atomizing nozzle, which is supplied with water and compressed air. These Nozzle is then provided in a housing open at both ends, which of a Housing air flow is flowed through. The housing air flow is for example the air flow of an air conditioner, e.g. taken from an indoor air conditioning, so an air flow that not only has a regulated temperature, but also a has more or less constant relative humidity.

The snow formation from the atomized water takes place in the invention within the housing of the snowmaking devices and thus in an air volume, which is separated from the rest of the air of the interior. This is a optimal snow formation especially at a relatively high humidity in the Interior possible. Furthermore, in the invention by the snow formation also the temperature of the hall interior is not or only imperceptibly influenced.

Fig. 1

in schematischer Darstellung eine Hallenwintersportanlage gemäß der Erfindung zusammen mit den wesentlichen Funktionselementen;

Fig. 2

in vergrößerter Darstellung eines der Beschneiungselemente der Anlage der Figur 1;

Fig. 3

ein Bodenheiz- und Kühlsystem zur Verwendung bei der Innenraum-Schneeanlage der Figur 1.

Further developments of the invention are the subject of the dependent claims. The invention will be explained in more detail below with reference to the figures of the embodiment of an indoor winter sports facility. Show it:

Fig. 1

a schematic representation of an indoor winter sports facility according to the invention together with the essential functional elements;

Fig. 2

in an enlarged view of one of the snowmaking elements of the system of Figure 1;

Fig. 3

a floor heating and cooling system for use in the indoor snowmaking system of FIG. 1.

The generally designated 1 in the figure plant consists u. a. from one spacious hall 2, the hall floor 3 at least in a sub-area as Sloping or as a downhill slope for snow-skiing (skiing, snowboarding, etc.) is trained. Above the hall floor 3 are on a ceiling construction or at another, suitable support structure of the hall 2 a variety of Beschneiungsvorrichtungen 4 are provided, each consisting essentially of a at both ends open tubular housing 5 having a predetermined axial length, for example, with a length of 2 meters and from a nozzle arrangement with at least one atomizer nozzle 6, which in the region of an open end of the Housing 5 is provided. The individual snowmaking devices 4 are with the Arranged axis of their housing 5 in the vertical direction, in such a way that the nozzles 6 are located at the upper open end of the respective housing. The Housing 5 is flowed through by a housing air flow 7, the example of a blower 8 is generated. The fan 8, which for example for each Snow-making device 4 separately or for a variety or for all Snowmaking devices 4 is provided together, sucks to produce the Housing airflow 7 cool and dry air.

By an air conditioner 9, the interior of the hall 2 is cooled to a temperature, which is in the range of 0 ° C, for example, below 0 ° C, so that then the air the housing air flow 7 this temperature in the range of 0 ° C or below 0 ° C. having.

The nozzle 6 of each snowmaking device 4 on the one hand compressed air, the one has extremely low moisture and has a temperature well below 0 ° C, and on the other hand also supplied water under high pressure, the temperature at about 0 ° C. In the nozzle 6, the water with the dry and very cold Compressed air atomizes, so that strongly cooled small water droplets or a strongly cooled water mist 10 in the upper region of the respective housing. 5 form, which are entrained with the housing air flow 7 and from which then still within the housing 5 snow for snowing in particular of the Hall floor 3 forms.

To generate the nozzles 6 supplied compressed air is in a machine room the plant 1, a device 11 is provided, the air from the interior of the Hall 2 and thereby preferably sucks in the bottom of the hall, ie where the Air already has a low temperature. In the device 11 is the sucked air dried, compressed and cooled, so that the nozzles 6 supplied, cooled well below 0 ° C compressed air is obtained.

For the preparation and provision of the nozzles 6 supplied water with a Temperature of about 0 ° C (ice water) serves a device 12, which in the simplest Case consists of a boiler in which the device 12 supplied water as far as it is cooled, it is partly frozen in the boiler and partly still liquid is present for forwarding to the nozzles 6, under pressure by means of Pump 13.

To clean the hall floor 3, i. to remove soiled snow the hall floor 3 heated and provided with a drainage 14, with each of the lowest layer of the snow cover 15 on the hall floor 3 defrosted and on the Drainage 14 can be removed. Due to the reduced thermal conductivity of the Snow is this defrosting and removing the lower layer of the Schneebelags 15 also during operation of the plant 1 constantly or in predetermined intervals possible. Furthermore, the hall floor 3 is also cool, so that by this cooling e.g. Influence on the snow temperature and thus influence on the snow quality and the sliding or handling of skis, etc. or influence on training conditions can be taken.

It was mentioned above that the respective housing 5 of the Snowmaking device 4 by flowing outer casing air flow 7 of cold and dry air, e.g. from the air of an air conditioner. It exists here but also the possibility of the air for the housing air flow 7 from one of the Indoor air conditioning 9 generated and the interior of the hall 2 for example over to take a ventilation ceiling 18 supplied airflow 19. For this are then the housing 5 of the snowmaking devices 4 with its upper, open end a channel 20 is connected, via which the air of the hall air conditioner 9 before her Outlet on the ventilation ceiling 18 is distributed. In this embodiment, then Blower 8 omitted. The use of the air conditioning 9 supplied air for the outer housing air flow 7 in the housings 5 also has the crucial Advantage that the snow formation by the snowmaking devices 4 at least largely independent of the relative humidity inside the hall 2 is.

As indicated in the figure 2 with the broken arrow 7.1, it is in the Invention also possible, the outer, the housing 5 of the respective Snowmaking device 4 by flowing housing air flow through a corresponding flow guidance, for example by baffles or others Deflection means vertebrae or spiral form, so as long as possible Retention time to achieve a shorter axial length of the housing 5.

It has already been mentioned that the hall floor 3 can be heated and also is coolable. For this purpose, the illustrated in Figure 3 and there generally with 21st designated Bodenheiz- and cooling system provided. This system consists u. a. out a pipe system 22, which is laid in the hall floor 3, on a sufficiently dimensioned thermal insulation with double-sided vapor barrier. The flow and return of the pipe system 22 are with a plurality of valves having connected control device 23, via which the pipe system 22nd optionally with a cold or warm brine can be charged, and indeed each from a sufficiently large storage tank 24 for the warm brine or out a sufficiently large storage 25 for the cold brine. Both stores 24 and 25 are provided with the best possible thermal insulation.

Shown in FIG. 3 is also a schematic representation of a refrigeration machine 26, which is conventional Is formed and in the illustrated embodiment, the evaporator 27, the condenser 28, the collector 29, the compressor 30 and the throttle valve 31 exhibit. The evaporator 27 is formed as a heat exchanger, for cooling the in the memory 25 stored cold brine is used. In the capacitor 28 is as Heat exchanger formed, which is for heating the stored in the memory 24 warm brine serves. Via the control device 23 is thus the pipe system 22nd optionally heatable and coolable, so that a targeted and controlled Defrosting the snow on the ground 3 as well as a targeted influence on the temperature of the snow on this ground are possible and over the Snow temperature influencing the quality of snow, which also different training conditions are possible.

The invention has been described above by means of an embodiment. It is understood that numerous changes and modifications are possible without This will leave the inventive idea underlying the innovation.

LIST OF REFERENCE NUMBERS

1

Halle winter sports facility

2

Hall

2.1

Hall interior

3

shop floor

4

Snowmaking device

5

Housing or pipe section of the snowmaking device

6

Nozzle of the snow-making device

7

Housing airflow

8th

fan

9

air conditioning

10

water droplets

11

Device for generating dry, cold compressed air

12

Device for generating ice water

13

pump

14

heatable drainage

15

snow layer

18

ventilation ceiling

19

airflow

20

distribution channel

21

Heating and cooling system

22

Raw system

23

control device

24, 25

Storage

26

refrigeration machine

27

Evaporator

28

capacitor

29

collector

30

compressor

31

throttle valve

Claims (10)

Interior snow plant with a in an interior (2) formed bottom (3) as a base for spreading snow, characterized in that in the ground a pipe system (22) is laid, and that at least one control device (23), the pipe system with optional a medium which flows through this pipe system can be acted upon by cold or warm heat-transporting medium. Interior snow plant according to claim 1, characterized in that the heat-transporting medium is a liquid medium, for example a brine. Interior snow plant according to claim 1 or 2, characterized in that for heating the warm heat-transporting medium, the condensation heat of a chiller (26) is used, which serves for cooling the cold heat-transporting medium,
wherein, for example, a condenser (28) of the chiller (26) is designed as a heat exchanger for heating the warm heat-transporting medium. Interior snow plant according to one of the preceding claims, characterized in that an evaporator (27) of the chiller (26) is designed as a heat exchanger for generating the cold heat transporting medium. Interior snow installation according to one of the preceding claims, characterized by at least one storage (24, 25) for the warm or cold heat transporting medium. Interior snow plant, characterized in that in the interior at least one snowmaking device (4) is provided, that the snowmaking device (4) at least one water atomizing nozzle (6), the water and air is supplied, and that the nozzle (6) in a At both ends open housing (5) is provided in a housing open at both ends (5), which is flowed through by a housing air flow (7). Interior snow installation according to claim 6, characterized in that the nozzle (9) cold, dried compressed air at a temperature well below 0 ° C is supplied, and / or
in that the casing air flow (7) flowing through the housings (5) of the snowmaking devices (4) is an air flow from an air source separate from the direct air of the hall interior. Interior snow installation according to one of the preceding claims, characterized in that the housing air flow (7) flowing through the housings (5) of the snowmaking devices (4) is taken from an air conditioner, for example the air flow of an air conditioner (9) cooling the hall (2),
wherein, for example, the housing (5) of the snowmaking devices (4) are connected with an air inlet opening to a channel of the air conditioner (9). Interior snow installation according to one of the preceding claims, characterized in that a device (11) for generating the dried and cooled compressed air via an air intake duct or an air intake opening with the interior of the hall (2), preferably in the vicinity of the hall floor is connected. Interior snow installation according to one of the preceding claims, characterized in that the hall floor (3) is provided with a drainage (14).

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