DE10256482A1 - Method to generate fog for stage and theater uses liquid carbon dioxide, expanded to generate carbon dioxide snow and gas, and snow brought into contact with water to generate fog - Google Patents

Abstract

The method uses carbon dioxide and water. Liquid carbon dioxide is expanded, generating carbon dioxide snow and gas. The snow is brought into contact with the water (7) to generate fog, and the fog is moved away from the water by the gas. The water tank is heated, pref. to a temperature between 400 and 90degrees, pref. between 50degrees and 80degrees. Water temperature and/or carbon dioxide pressure can be regulated. The fog can also be extracted via a pipe (10). A carbon dioxide container (1,2,3,4) is connected to a feed device (5), which is also connected to an expansion nozzle (8) and has a regulating valve (12) upstream of the nozzle.

Description

The invention relates to a method to create fog, taking carbon dioxide with a water bath is brought into contact, and a device for generating Mist with a water bath and a feed for a cryogenic medium.

To create fog effects show stages and fog machines that operate manually are already known in the theater area loaded with dry ice blocks become. To generate fog, a water bath is heated and the Dry ice block lowered into the bathroom using a basket. By the sudden Temperature difference sublimes the dry ice and forms with that condensing water vapor a fog. The fog is then blown with fans on stage distributed.

This method is disadvantageous the limited shelf life of dry ice. The dry ice can be in isolated special boxes be stored for a certain period of time, but will not entire stock needed, so the remaining amount of dry ice sublimes. Another disadvantage the use of dry ice is manual loading of the system. As a result, it is not possible or only with difficulty, the fog machine to automate the creation of fog at the push of a button.

From the DE 35 02 231 C2 a fog machine is also known in which liquid cryogenic nitrogen is sprayed into a hot water bath. The resulting mist is blown out with the help of a blower. However, this method has the disadvantage that complex measures have to be taken due to the use of liquid nitrogen, such as special pipe insulation, special low-temperature valves or vacuum-insulated storage tanks.

Both methods also have the disadvantage that a fan is necessary for the effective distribution of the mist. This is constant exposed to a mixture with a high water content and therefore very prone to failure.

The object of the present invention is it, therefore, a method and an apparatus for generating fog to develop which are simple in design, can be used mobile and can be automated.

This task is accomplished through a process solved of the type mentioned at the beginning, with the liquid carbon dioxide is relaxed, producing carbon dioxide snow and carbon dioxide gas, and that the carbon dioxide snow is brought into contact with the water bath, so that fog is generated.

A device according to the invention to generate fog has a water bath and a feeder for a cryogenic Medium on the feed with a container with liquid Carbon dioxide is linked.

According to the invention, liquid carbon dioxide is expanded, to create a mixture of carbon dioxide snow and gaseous carbon dioxide. The carbon dioxide snow is brought into contact with a water bath. The snow sublimes to cold gas and forms one with the condensing water vapor visible fog.

The liquid carbon dioxide can either in the immediate vicinity the water bath can be relaxed or, preferably, directly into the Sprayed in water bath become. It is particularly advantageous if the water bath is heated is, preferably to a temperature between 40 ° and 90 °, particularly preferably to a Temperature between 50 ° and 80 °. The formation of fog becomes clear through these measures improved. The water bath is preferably heated with an electric heater or by indirect heat exchange with a heating medium.

Instead of heating up the water bath according to the invention also directly hot Water in the container for the Filled in a water bath become. In this way, the invention can also be used without electrical Power supply operated. Preferably in this Operating mode water with a temperature between 50 and 80 ° C is used.

It is also beneficial to the temperature of the water bath and / or regulate the pressure of the supplied carbon dioxide. For this purpose, a thermostat control is provided, for example the temperature of the water bath can be influenced. The pressure control in the feed line for the liquid Carbon dioxide can be placed upstream of the expansion nozzle Control valve take place. Through the mentioned regulations of the water bath temperature or pressure it becomes possible to influence the amount of fog and the fog density and accordingly adjust.

According to the invention, no fan is necessary, to distribute the generated fog and to transport it to the place of use. At the Relax the liquid Carbon dioxide is a mixture of carbon dioxide snow and carbon dioxide gas. The gas pressure of the carbon dioxide formed is preferably used, to distribute the fog. This can be done, for example, by that the device for generating fog is essentially gas-tight is so through the relaxation of the liquid carbon dioxide resulting gas an overpressure is generated, the fog over a permanently installed line or a flexible hose to the place of use promotes.

The device for generating fog is preferably provided with a water separator in order to prevent water from the water bath is carried away with the fog.

The invention points to that State of the art numerous advantages:

• - The Supply with the for The necessary carbon dioxide is generated with commercially available mist Carbon dioxide containers with liquid withdrawal, this means for example from individual bottles, bottle bundles or tanks. The losses the storage of carbon dioxide is therefore extremely low.
• - The Carbon dioxide snow is produced in the immediate vicinity of the water bath. Only as much snow is produced as for the current one Fog generation is necessary. The carbon dioxide consumption is minimized.
• - It are not complex Insulation of the supply lines necessary.
• - The in the relaxation of the liquid Carbon dioxide-produced carbon dioxide gas is used as a propellant for the mist used. On fans or blowers to distribute the mist can be dispensed with.
• - The The amount of fog as well as its consistency and ejection speed can be targeted to be influenced.
• - The Operating and maintenance expenditure of the device for generating fog is minimal.
• - The is fog generation system according to the invention compact design. The system is preferably designed such that it is mobile and can be easily moved to different locations can. Conveniently, suitable roles are attached to the smoke generator for this purpose.
• - Also in locations where there is no power connection for the heater for the water bath is present, the invention can be filled directly by hot Water in the container for the Water bath operated.
• - The Mist generation device can be automated and operated via remote triggers.

The invention and further details the invention are based on that in the drawing illustrated embodiment explained in more detail. in this connection the figure shows schematically a fog machine according to the invention.

The fog machine shown in the figure has been developed for operation with carbon dioxide snow. The carbon dioxide snow is produced by the relaxation of liquid carbon dioxide. Carbon dioxide is supplied from commercially available carbon dioxide storage tanks. Single bottles are exemplary in the figure 1 , Bottle bundle 2 , a standing 3 and a lying storage tank system 4 shown. The supply according to the invention has the advantage that the carbon dioxide is stored either at ambient temperature or in specially insulated tank systems and can therefore be stored almost indefinitely.

The liquid carbon dioxide is extracted via high-pressure hoses or high-pressure lines 5 , The high pressure line 5 flows into a container 6 in which there is a water bath 7 located. At the end of the line 5 is a relaxation nozzle 8th arranged up in the water bath 7 protrudes. The liquid carbon dioxide is piped 5 the relaxation nozzle 8th fed and relaxed, whereby a mixture of carbon dioxide snow and carbon dioxide gas forms, which directly in the water bath 7 is sprayed. The carbon dioxide snow sublimes into cold gas and forms a visible mist with the condensing water vapor.

Above the water bath 7 is a water separator 9 provided, which prevents the fog from carrying water. The fog is distributed using a flexible hose 10 or by means of permanently installed lines. According to the invention, no fans are necessary for this. The water bath tank 6 is carried out so densely that the mist formed by the carbon dioxide gas also generated when the liquid carbon dioxide is released through the hose 10 is promoted. The carbon dioxide gas takes over the distribution of the fog.

In the water bath container 6 is also a heater 11 , preferably an electrical heating cartridge, installed. The heating system 11 is used to make the water bath 7 heat up and generate water vapor. The water bath has proven to be particularly cheap 7 heat to temperatures between 50 ° C and 90 ° C. There is also the electric heater 11 provided with a thermostat control, via which the temperature of the water bath 7 can be selected so that a control of the amount of fog and fog density is possible.

Upstream of the expansion nozzle 8th is in the supply line 5 a regulating valve 12 arranged, which is used to adjust the nozzle pressure. The nozzle pressure is displayed via the pressure measuring device 13 , With the help of the regulating valve 12 can the pressure on the expansion nozzle 8th can be set to influence the amount of fog generated again. In addition, the nozzle pressure has a direct effect on the rate of emission of the carbon dioxide. By varying the nozzle pressure, it is thus possible to adjust the speed of the carbon dioxide gas which is used as a propellant for the distribution of the mist so that there is sufficient pressure to pass the mist through the hose 10 to drive, or, if several distribution hoses 10 or distribution lines on the water bath tank 6 are connected to achieve an even distribution of the fog.

The fog production is switched on and off via a controllable megnet valve 14 . which allows smoke generation at the push of a button, or via a hand valve connected in parallel 15 , The pressure gauge 16 upstream of the valves 14 . 15 provides information about the supply pressure with carbon dioxide.

The temperature of the water bath is preferably used to automate the fog machine shown 7 measured and together with those with the pressure gauges 13 and 16 certain pressure values supplied to a control unit, not shown in the figure. The control unit then regulates the carbon dioxide flow through the valves in accordance with predetermined routines 12 . 14 and about the heater 11 the temperature of the water bath 7 , so that fog is produced in the desired quantity and density.

Claims (11)

Process for the production of mist, whereby carbon dioxide is brought into contact with a water bath, characterized in that liquid carbon dioxide is expanded, whereby carbon dioxide snow and carbon dioxide gas are produced, and that the carbon dioxide snow with the water bath ( 7 ) is brought into contact so that fog is generated. A method according to claim 1, characterized in that the liquid carbon dioxide in the water bath ( 7 ) is relaxed. Method according to one of claims 1 or 2, characterized in that the mist through the carbon dioxide gas from the water bath ( 7 ) is transported away. Method according to one of claims 1 to 3, characterized in that the water bath ( 7 ) is heated, preferably to a temperature between 40 ° and 90 °, particularly preferably to a temperature between 50 ° and 80 °. Method according to one of claims 1 to 4, characterized in that the temperature of the water bath ( 7 ) and / or the pressure of the supplied carbon dioxide can be regulated. Method according to one of claims 1 to 5, characterized in that the contact with carbon dioxide snow and water bath ( 7 ) mist arising via at least one line ( 10 ) is subtracted. Device for generating mist with a water bath and a supply for a cryogenic medium, characterized in that the supply ( 5 ) with a container ( 1 . 2 . 3 . 4 ) is associated with liquid carbon dioxide. Apparatus according to claim 7, characterized in that the feed ( 5 ) a relaxation nozzle ( 8th ) is connected to relax the liquid carbon dioxide. Device according to one of claims 7 or 8, characterized in that in the feed ( 5 ) upstream of the expansion nozzle ( 8th ) a regulating valve ( 12 ) is provided. Device according to one of claims 7 to 9, characterized in that a heating device ( 11 ), in particular an electric heating device, for heating the water bath ( 7 ) is provided. Device according to one of claims 7 to 10, characterized in that a water separator ( 9 ) is provided.