DE60107983T2 - FOG MACHINE - Google Patents

Abstract

This invention relates to a fog-generating device comprising a container (1) with an alcohol containing mixture (4) for generating the fog and means (5) for driving the alcohol mixture from the container (1) to a heat exchanger (2) for evaporating the alcohol mixture (4). The heat exchanger (2) is connected to an outlet orifice (6) for expelling the fog (7) under pressure. The means for driving the alcohol mixture (5) comprise an amount of a propellant gas, the propellant gas having a pressure approaching its vapour pressure. The propellant gas is at least partly soluble in at least one component of the alcohol containing mixture and is preferably selected from the group of partly fluorinated hydrocarbons. The container (1) is closed off by a valve (8), which is provided to be closed after it has been opened for a pre-set period of time, to seal the container (1) from the environment.

Description

general State of the art

The The present invention relates to a like in the preamble of the first Claim disclosed device for Generating fog.

Fog machines flare up the field of alarm devices of great interest. In the document EP-A-0 730 771 is a fogger from which when activated by an alarm device almost immediately a lot of a barely transparent vapor is expelled. Ejecting The vapor reduces the visibility in the environment of the device Minimum and complicates the sense of direction of unauthorized persons who have access to trying to get to the room where the fog was ejected. This is in the case of shops or department stores, where in the case of a burglary frequently significant quantities of goods are taken of particular interest.

The The device disclosed in document EP-A-0 730 771 comprises a first container, in a mist-generating mixture of propylene glycol and triethylene glycol housed together with a lot of water as a propellant is. The mixture is at a high temperature, below the boiling point of Alcohol mixture, but over the boiling point of the water, housed. As a result, the water is at least partially evaporated, thereby ensuring an overpressure in the first container is. The first container is to a heat exchanger connected, which with a heat exchanger for heating and vaporizing the alcohol mixture to produce the mist. The heat exchanger is maintained above the first temperature at a second temperature, which is sufficiently high to evaporate the alcohol mixture. Of the Connection between the first tank and the heat exchangers is ensured by a valve that closes under normal circumstances is, but when activated by the alarm device is opened. When activated by the alarm device, the valve is interposed the first container and the heat exchanger open. by virtue of of overpressure in the first container the alcohol mixture is forced to open the valve from the first container to the heat exchanger stream. In the heat exchanger the mixture is further heated, evaporated, and finally from the Outlet expelled, to create the fog.

But that's hot Glycol-water mixture is corrosive, the parts through which this must be Mixture is shifted, from expensive, not corrosion-sensitive Materials are produced. There is therefore a need for a Device, which is less subject to corrosion.

Out Document GB-A-1 039 729 discloses a smoke generator for generating Smoke for testing of ventilation systems, for wind tunnel tests, to Visualization of air streams etc. known. The smoke generator of document GB-A-1 039 729 a container with liquid Carbon dioxide. When opening of the container extends a predetermined amount of the liquid Carbon dioxide to a pressure gauge and on through a pressure reducing valve to a container, the oil contains. Simultaneously with the forcing of the oil, from the tank through a flue to stream, the carbon dioxide gas goes into a continuous stream of fine Blowing over, dealing with the oil mixed to form a foam. The oil is forced from the oil reservoir to through a heat exchanger and continue to flow to a valve that, when open, for one Period of about a non-explosive, dense white smoke is emitted for two minutes. Carbon dioxide is preferred because there is a dense white smoke results.

The Document WO 92 / 19344A discloses an apparatus for producing a Smoke or haze, which is a heating chamber for heating the smoke-producing Having fluids. The smoke-generating fluid (a "water-based" glycol fluid) is supplied by a Container, in which the smoke-generating fluid is housed, to the heating chamber driven. The He heating chamber comprises a tubular fluid line with an inlet for the smoke-producing fluid to be heated and an outlet for the heated one Fluid. Before the smoke-producing fluid is the smoke-producing machine enters, the heater is turned on to the tubular fluid line preheat. The outlet of the tubular fluid line is on an expansion chamber attached, which has an outlet in the mold a tube. When the device is in operation, smoke is generated Fluid from the container to and through the tubular Fluid line shifts where the fluid is heated and vaporized, to form smoke, which smoke then enters the expansion chamber. In the Ausdrehungskammer any excess fluid accumulates in the smoke produced and is it held back, until it evaporates away. In the device of D1, the smoke-producing Fluid from the reservoir through a pump driven to the heating chamber. The pump can, however, by an aerosol container for Driving the smoke-producing fluid from the container to and through the tubular fluid conduit be replaced.

Document DE 30 22 851 A, which forms a basis for the preamble of claim 1, discloses a smoke generator comprising a storage container for housing a smoke-producing liquid mixture, for example a mixture from glycerol and paraffin oil, together with a propellant gas, for example CO ₂ , at a pressure of 5 to 10 bar. The container is connected to a heat exchanger for heating and vaporizing the mist-generating mixture to produce the smoke. The connection between the heat exchanger and the tank is ensured by a pipe with a magnetic valve. Downstream of the magnetic valve, a mixing valve is provided to mix the alcohol mixture with CO ₂ before entering the heat exchanger. Upon opening the magnetic valve, the smoke-producing fluid from the storage container is forced through the tube into the heat exchanger where the fluid is heated and vaporized to produce the smoke. The heat exchanger is connected to an outlet for discharging the smoke under pressure.

The Document GB 2 328 874 discloses a smoke generator for generating a haze of low density. The smoke-producing machine includes a Fluid supply means comprising a container for housing the smoke-producing fluid, typically 20% Water and 80% glycerin, along with a propellant to bustle of the smoke-generating fluid to and through a heated conduit. The heated one Line includes an inlet for the smoke-generating fluid to be heated and an outlet from which the steam under the pressure of expanding in the heated pipe Fluid is forced. Between the fluid supply means and the heated Line is a one-way valve in place to ensure that the smoke-producing fluid that is in the heated line too Steam expands as a smoke is expelled through the outlet, without to require the presence of a pump or inlet pressure.

The Document US-A-3,802,624 relates to a method of diffusing natural Mist and clouds by spraying of polyfunctional alcohols in a finely dispersed form the fog or the clouds. Document US-A-3,802,624 discloses that these polyhydric alcohols namely have excellent properties that enable them the density of clouds and, in particular, the density of fog too remove. For example, you can Cumulus clouds are dissipated by diethylene glycol by a suitable nozzle sprayed in such a way under the base of these clouds, that formed small drops with a diameter of 50 to 100 u become. Pressurized gases such as fluorinated hydrocarbons can as blowing agent for the polyfunctional alcohols are used.

Short description the invention

It It is an object of this invention to provide a fogger that is a Corrosion less subject.

One Fogger, that against corrosion less sensitive, can with the technical characteristics of the characterizing part of the first claim.

Full Description of the invention

At the Device this Invention comprises the means for driving the alcohol mixture of Container, in which it is housed, to the heat exchanger a lot of one Propellant gas, at least part of which is dissolved in the fog-producing alcohol mixture. The propellant gas is selected from the group of partially halogenated hydrocarbons, preferably from the group of partially fluorinated hydrocarbons, selected. The amount of propellant gas is chosen so that the pressure in the Alcohol / propellant container Approximates vapor pressure of the propellant gas. The composition of the fog-producing alcohol mixture is so selected that it contains at least one component capable of at least the propellant partially to be solved. The container thus contains the liquid Alcohol mixture with the dissolved Propellant gas, the latter being in equilibrium with propellant in the gas phase over the liquid level located.

The Using a propellant gas to the mist-generating mixture of Container, where it is housed to drive to the heat exchanger, has the advantage of minimizing corrosion problems can be. At the temperatures in the heat exchanger stay behind Glycol compounds are oxidized, decompose, and bring them Corrosion problems with it. The inventor has observed that, after mist has been generated and expelled and the container with the mist-generating mixture is closed again, as before a little of the mist-generating alcohol mixture following between container and the heat exchanger as well as in the heat exchanger itself remains behind. The inventor has now found that the heat exchanger through the use a propellant gas as blowing agent freed from the remaining alcohol mixture what he explains as follows.

After the mist is ejected, the pressure inside the heat exchanger drops to a value approaching the atmospheric pressure. At atmospheric pressure, the propellant gas dissolved in the alcohol mixture expands and escapes, forcing the flow of any mist-generating mixture remaining in the heat exchanger to the outlet of the heat exchanger. If the heat exchanger is freed from the remaining alcohol mixture, the Risk of corrosion to a minimum.

The Use of a propellant gas as a means for driving the mist-generating Alcohol mixture has the advantage that an improved expansion of the mist-generating mixture and a mist with a prolonged Life with a reduced tendency to lift, can be obtained can. Without a restriction to intend to do so, the inventor believes that this effect is three Appearances can be attributed to each other in one Relationship.

First have partially halogenated hydrocarbons at room temperature a high vapor pressure, usually over 8 or 10 bar. When opening the container with the mist-generating mixture, the propellant gas generates a high Expansion coefficient. The extent of the alcohol mixture, if this from the outlet of the heat exchanger pushed out will, seems stronger to be, as with the device of the prior art, and improved dispersion of the hot Alcohol mixture to a mist with droplets with a smaller one Average size too bring. The smaller average size of the droplets results in a mist whose Properties approximate the properties of an aerosol, with Particles with an improved tendency to float and a reduced tendency Tendency to strike down.

Secondly it has been found that the cloud of fog is at a temperature which is not far from the ambient temperature. This can explained as follows become. The evaporation of the alcohol mixture while passing through the heat exchanger flows, brings an increase in pressure and overheating of the propellant gas yourself. As a result, both the propellant dissolved in the alcohol mixture show as well as the presence in the gas phase share a strong expansion, and can it be called exploding out of its state, if it is from the outlet of the heat exchanger pushed out becomes. The for This explosion of propellant energy needed is the hot alcohol mist withdrawn, which in turn cooled becomes. The result is a cloud of fog with a temperature that approaching the ambient temperature, with a limited tendency to move towards the ceiling. ever the better the expansion of the propellant, the better the cooling and the better the aerosol properties, the quality and the lifetime of the fog.

thirdly indicates the fog with the device of this Invention can be obtained, a lower water content than the fog of the prior art with a reduced tendency, to strike down, and a prolonged fallout delay on. At the device In the prior art, the presence of water in the fog-producing Mixture needed, to the Aufbrechwirkung the mist-generating mixture too small Droplets too strengthen when the fog is ejected becomes. At the present device the propellant produces this effect, so that on the use of Water for this purpose mostly can be waived.

Of the The inventor has also observed that the cloud of fog the considerable Position about between the ground and two or three meters above it and at this remains. This is the significant position that the position the size of a burglar or something more than that approximates.

At the Device this Invention reaches the volume ratio the amount of propellant in relation to the amount of alcohol preferably from 2 to 30 and preferably from about 10 to 25%. Changing the Amount of blowing agent allows controlling the temperature of Mist cloud and adapting their temperature to the temperature of the Environment to the quality and to improve the life of the cloud of mist. Be under 2% dissatisfaction breaking up and dispersing, and over 30% the density of the mist becomes insufficient.

Preferably is the container with the mist-generating mixture and the propellant gas in a housing, The removable to the heat exchanger can be connected. The use of a detachable unit allows the reuse of the fogger after it has been put into operation and improving the security of the device. In the previous device was the fog-generating Alcohol mixture at an elevated temperature in the container accommodated. Before refilling Care had to be taken that the first container was sufficient cooled down was added before new alcohol was added or before it was removed and was replaced by new ones. Since the mist-generating alcohol mixture housed at room temperature in the present invention can, the precautions, the in the known device needed become redundant.

description the figures

The The invention is described in the accompanying figures and the description closer to the figures explained.

1 shows a cross-section of a preferred embodiment of the device of this invention.

How out 1 it can be seen that includes Apparatus of this invention a container 1 passing through a pipe 3 to a heat exchanger 2 connected. The container 1 contains a mixture 4 to create the fog. The container 1 is preferably mounted in a housing passing through a fitting 9 removable to the heat exchanger 2 can be connected. The heat exchanger 2 is provided to the mist-generating mixture 4 that in the container 1 is contained, to evaporate. The heat exchanger 2 provides access to an outlet port 6 , from the fog 7 can be expelled into the environment.

The container 1 is through a valve 8th locked. The valve 8th is provided to be opened upon actuation to flow the mist-generating mixture 4 from the container 1 to the heat exchanger 2 to allow. This can be done by the valve 8th for example, be coupled to an alarm device and opened when actuated by the alarm device. The valve is provided to return to the container after a preset period of time, preferably after a predetermined amount of the mist-generating mixture 1 has left and a predetermined amount of fog was generated, to be closed. A timer attached to the valve 8th connected, for example, can close the valve 8th effect after a preset period of time. This allows reuse of the device without the need to replenish the mist-generating mixture each time. The amount of released mist is determined by the opening time of the valve 8th , the total resistance of the valves and pipes, and the pressure of the propellant can be determined.

To the flow of mist-generating mixture 4 from the container 1 to the heat exchanger 2 to force, if this is open, contains the container 1 a propellant 5 for driving the mist-generating mixture 4 , The propellant 5 comprises an amount of a propellant gas, at least a part of which is dissolved in at least one constituent of the alcohol mixture responsible for generating the mist. The pressure of the propellant gas is regulated to a value which may be slightly lower than the vapor pressure of the propellant gas, but preferably approaches it. With this vapor pressure optimum expansion and disruption of the vaporized mist-generating mixture can be obtained.

The Mist generation is by choosing the nature of the propellant gas in such a way that at least a part of it in at least one part of the fog-producing Mixture soluble is, and by optimizing the amount of blowing agent in the fog-producing Optimized mixture. Suitable propellant gases for use with this Invention include the group of partially halogenated, preferably partially fluorinated, hydrocarbons, since these are a relatively high Vapor pressure at room temperature, d. h., a vapor pressure above 4, preferably 8, and in particular 10 bar. Below 4 bar becomes the expansion coefficient the blowing agent is low, and over 10 bar is found optimal fog generation.

The amount of propellant gas in the tank 1 exists, can be changed within wide ranges. In general, however, care will be taken that as much propellant gas as possible is dissolved in the alcohol mixture and the dissolved propellant is in equilibrium with the propellant in the gas phase.

Preferred propellant gases are the so-called partially fluorinated hydrocarbon HFC gases, or mixtures containing one or more HFC gases. Preferred HFC gases include difluoromethane, trifluoroethane, CH3-CF3, 1,1,1,2-tetrafluoroethane, pentafluoroethane, CHF2-CF3, 1,1,1,2,3,3,3-heptafluoropropane, and mixtures of two or more of these connections. These mixtures are generally as, for example, R125, or as so-called Solkane ^® , z. Solkane 410A, Solkane 507, etc., commercially available from Solvay.

What the mist-generating mixture 4 may be made of the mixtures, which are generally known to a person skilled in the art. The mist-generating mixture suitable for use with the apparatus of this invention will usually contain water, at least one alcohol and at least one glycol. If desired, mixtures of two or more alcohols and mixtures of two or more glycols may be used. However, to optimize the quality of the mist, the mist-generating mixture preferably contains about 5 to 15% by volume of water, 7.5 to 25% by volume of ethanol, and 50 to 80% by volume of glycol. The glycol may be a mixture of 10 to 25% by volume of triethylene glycol and the remainder dipropylene glycol, although other glycols and glycol mixtures may be used. An example of a very suitable mist-producing alcohol mixture is: 10% by volume of water, 16.5% by volume of ethanol, 10% by volume of triethylene glycol and 63% by volume of dipropylene glycol. An example of another suitable mist-generating mixture is 14.3 vol.% Ethanol, 54.8% dipropylene glycol, 8.8% triethylene glycol, 8.8% water and 13.3% HFC R-125.

Ethanol is added because it is a solvent for the propellant gas. However, other alcohols may be used as well. The presence of dipropylene glycol is preferred over low glycols such as diethylene glycol, for example, since the former hardly reacts with water at the temperatures remaining in the apparatus, while the latter is water reactive, to be corrosive Create connections. The presence of triethylene glycol is preferred because it allows increasing the density of the mist. The presence of dipropylene glycol is preferred because its lower boiling point and viscosity make it easier to convert this compound to an aerosol. The presence of dipropylene glycol entails the formation of droplets of relatively smaller size compared to triethylene glycol, thereby reducing the transparency of the mist. The result of using this mixture is a dense, barely transparent mist with a delayed tendency to precipitate.

The Presence of water is preferred as this makes the mixture incombustible power. However, it is preferred that the amount of water in the fog-producing Mixture to a value below 15 vol.%, Preferably below 10 or 5 vol.%, To restrict to limit the decomposition of the glycol when heated, and to extend the life of the cloud of mist.

The mist-generating alcohol mixture can also, if desired, additional Compounds include. Suitable examples include menthol, tear gas, etc.

It is important that when removing the container 1 the escape of any mist-generating mixture in the container 1 is left behind, as far as possible restricted to the environment. To achieve this, the container comprises a valve 8th which remains closed as long as the device is not activated to produce fog and is closed again after being opened for a preset period of time to allow fog generation. This can be done, for example, by providing an electrical current to the valve 8th be achieved when operating the device. As long as there is no electric current to the valve 8th is present, the valve remains 8th it closes and closes the container 1 , As soon as it receives electricity, the valve becomes 8th open to a stream from the container 1 to allow. The time that the valve 8th remains open, is preferably z. B. controlled by a timer to prevent the entire mist-generating mixture is consumed in one fell swoop. However, the same effect can also be achieved in a purely mechanical way, with a valve coming from outside the container 1 can be actuated.

The removable connection of the container 1 to the heat exchanger 2 Facilitates the filling of the mist-generating mixture after it has been consumed and increases the safety of the device. It is intended that the container 1 is replaced as a whole, to avoid filling the alcohol mixture as such. Thus, there is no need to take care that the alcohol mixture has cooled to a sufficient extent before filling, which was the case with the prior art device.

The use of a propellant gas as a means to force the mist-generating mixture from the container 1 to and through the heat exchanger 2 to flow, has several advantages.

The device of this invention is energy efficient compared to the prior art device, principally for two reasons. The apparatus of this invention is therefore capable of producing a sufficiently high pressure from its own components. The use of a propellant gas as a means to drive the mist-generating mixture entails that the mist-generating mixture in a simple opening of the container 1 is forced to leave the container. The propellant plays the key role in increasing the pressure when the container 1 is opened, in the heat exchanger, as well as breaking the liquid alcohol mixture to form the mist. Thus, the use of steam for this purpose can be dispensed with. Second, by using a propellant gas as the propellant, there is no longer the need to accommodate the fog-producing alcohol mixture at a high temperature in the first container.

In Lack of the need to produce steam, the Dimensions of the device reduced become. The inventor has also found out that in fog-producing Mixture dissolved Propellant compared to steam has a significantly higher Aufbrechkapazität which means that a pre-set amount of fog now with a smaller amount of mist-generating mixture can be produced. This has the advantage that the amount of the alcohol mixture, those in the container is housed, can be reduced, as well as the dimensions of the device can be reduced without this happening at the expense of the amount of mist produced. It does not exist anymore either the need to increase the mist-generating alcohol mixture at elevated temperatures to shorten the response time, making the device economical Cheap power.

The use of propellant gas as a means for propelling the alcohol mixture from the first container 1 to the heat exchanger 2 allows to reduce the residence time of the mist-generating mixture in the heat exchanger, since the propellant gas has a larger expansion coefficient. The reduced residence time together with the reduced water content allows the risk of undesirable side reactions, the decomposition of the mist-generating alcohol mixture in the heat exchanger is reduced to a minimum. Moreover, by reducing the risk of the presence of residual alcohol mixture when the device is not in use, the risk of corrosion is minimized. Therefore, the heat exchanger from the cheaper ordinary materials, eg. Normal steel, and no longer requires the use of high quality stainless steel.

The use of propellant as a means for propelling the alcohol mixture from the first container 1 to the heat exchanger 2 results in improved dispersion of the mist-generating mixture when it is expelled. The reduced water at the same time adds to the fact that the droplet size can be reduced even further when the mist is ejected.

The Use of a propellant gas as a propellant allows the improvement the safety of the device. The propellants used with the present invention are incombustible, have fire-extinguishing Properties, and reduce the risk of explosions.

The inventor further observed that after the mist was ejected and the valve 8th is closed, still remains a little of the mist-generating alcohol mixture in the connection between the container and the heat exchanger as well as in the heat exchanger itself. In the device of the prior art, this alcohol mixture is in the heat exchanger 2 decomposes because it is still at a high temperature. In the present invention, this problem can be overcome because the majority of the mist-generating mixture that would remain in the heat exchanger is forced by the propellant gas to exit the heat exchanger. Namely, the inventor has come to realize that after the mist is ejected, the pressure inside the heat exchanger drops to a value approaching the atmospheric pressure. At atmospheric pressure, the propellant gas dissolved in the alcohol mixture expands and escapes, forcing it to flow any mist-generating mixture between the valve 8th and the outlet 6 in the heat exchanger 2 remains behind, to the outlet 6 of the heat exchanger 2 ,

Of the Operation of the device This invention can be described as follows.

The container 1 contains an amount of an alcohol mixture as described above and an amount of propellant gas having a vapor pressure of over 10 bar at room temperature. The propellant gas above the liquid phase is in equilibrium with the propellant dissolved in the alcohol mixture. Usually it is at the bottom of the tank 1 a layer of liquid propellant.

Upon actuation by an alarm device, the valve becomes the interior of the container 1 closes, opened. This brings about a sudden expansion of the propellant gas, which is present in the gas phase and in the liquid phase, at the same time and a momentary transfer of an amount of the entire alcohol mixture 4 from the container 1 through the valve 8th and the connection 3 to the heat exchanger 2 out with him. In the heat exchanger 2 First of all, the ethanol will first be evaporated, followed by the water and the glycol, although these phenomena occur almost simultaneously, causing the formation of a fine haze. Due to the high temperature remaining therein, the pressure increases and, as a result, the vapor becomes at high velocity as an aerosol of fine liquid particles through the outlet orifice 6 pushed out. The expansion of the propellant gas as it exits the exhaust port causes the alcohol-glycol vapor to cool to a temperature approaching ambient temperature. The ejected mist is a dense white mist occupying a position between approximately the ground and 2 to 3 meters above it to remain there for a prolonged period of time.

If the predetermined amount of the alcohol mixture has been forced to leave the container, the device is automatically cleaned of any remaining alcohol mixture by the propellant gas. Once the predetermined amount of alcohol has left the container and has been expelled, heating of the heat exchanger is discontinued. The pressure inside the heat exchanger drops to a value approaching the atmospheric pressure. The propellant, which is dissolved in the alcohol mixture, which in the tube 3 remains, expands and forces any remaining mist-generating mixture to the outlet 6 of the heat exchanger 2 to stream.

Claims (9)

Fogger comprising a container ( 1 ) with an alcoholic mixture ( 4 ) for producing the mist and a means ( 5 ) for driving the alcohol mixture from the container ( 1 ) to a heat exchanger ( 2 ) for evaporating the alcohol mixture ( 4 ), wherein the heat exchanger ( 2 ) to an outlet port ( 6 ) to expel the fog ( 7 ) is connected under pressure, the agent ( 5 ) for driving the alcohol mixture comprises an amount of a propellant gas, characterized in that the propellant gas is selected from the group of partially halogenated hydrocarbons and is present at a pressure which is equal to its vapor pressure approaches, wherein the propellant gas at least partially in at least one component of the liquid alcohol mixture ( 4 ) is dissolved, wherein the dissolved propellant gas in the liquid alcohol mixture ( 4 ) in equilibrium with propellant gas in the gas phase over the liquid alcohol mixture ( 4 ) is located. fogger according to claim 1, characterized in that the volume ratio of Amount of propellant relative to the amount of alcohol mixture from 2 to 30 vol.% Is enough. fogger according to claim 1 or 2, characterized in that the propellant gas from the group of partially halogenated hydrocarbons and Mixtures of one or more partially halogenated hydrocarbons chosen which is at least about a room temperature vapor pressure 4 bar and preferably at least about 10 bar. fogger according to claim 3, characterized in that the propellant gas from the group partially fluorinated hydrocarbons and mixtures thereof chosen becomes. fogger according to one of the claims 1 to 4, characterized in that the propellant gas from the group partially fluorinated ethane or methane is selected. fogger according to one of the claims 1 to 5, characterized in that the container is mounted in a housing that is removable to the heat exchanger can be connected. fogger according to one of the claims 1 to 6, characterized in that the alcohol mixture at least contains an alcohol and at least one glycol. Fog device according to one of claims 1 to 7, characterized in that the mist-generating mixture ( 4 ) comprises about 5 to 15% by volume of water, 15 to 15% by volume of ethanol and 10 to 20% by volume of triethylene glycol, and the remainder is dipropylene glycol. Fog device according to one of claims 1 to 8, characterized in that the container ( 1 ) through a valve ( 8th ), which is provided to be closed after a preset period of time to close the container ( 1 ) from the environment.