NL9301661A - Multiple gas curtain. - Google Patents

Abstract

The invention relates to a method for keeping separated the gas atmospheres, for instance at the location of a passage opening in a building, comprising of forming a gas curtain, such as an air curtain, between the gas atmospheres, wherein the gas curtain is composed of a number of parallel gas flows which extend adjacently of each other. The gas curtain is composed of at least three gas flows with the same speed and direction which are differently conditioned. <IMAGE>

Description

MULTIPLE GAS CURTAIN

The invention relates to a method for keeping gas atmospheres separate. Such a method is known, for example, for keeping the interior and exterior atmosphere of a building separate at the entrance by means of an air curtain. An air curtain device using the above method is known from applicant's EP-A-0 362 958.

With such an air curtain, the air flow should extend as far as possible over the entire passage opening, down to the bottom in order to achieve proper operation. In the prior art this is achieved by a good rectification of the airflow, whereby a minimum turbulence occurs at the interface between the airflow and the ambient air, so that the airflow retains its energy and composition for as long as possible.

A further improvement is achieved with the invention as characterized in claim 1. Parallel gas flows are very difficult to mix, as a result of which there is little mixing at the interface and the gas flow therefore retains its energy and composition for a relatively long time.

The measure of claim 2 is preferably applied. The inner gas flow or flows is or are bounded on both sides by parallel gas flows, so that this inner gas flow or gas flows can or can extend almost undisturbed to the opposite end of, for instance, a passage opening. This achieves a very good separation of the gas atmospheres on both sides.

A further development is characterized in claim 3. In case of a temperature difference of the gas atmospheres on both sides, the parallel gas flows can be conditioned such that a gradual temperature transition occurs.

The measure of claim 4 is preferably applied. The outer gas streams form nprotection gas streams of the inner gas stream or streams. At the interfaces between the outer gas streams and the adjacent gas atmospheres, turbulence and mixing occurs, but this does not adversely affect the energy content and composition of the innermost gas flow or flows, which remain or remain virtually undisturbed.

Claim 6 gives a particularly suitable application of the method according to the invention. This makes it possible to keep a freezer compartment with a temperature of the order of -20 ° C effectively separated from the outside atmosphere with, for example, a temperature of +20 ° C. Due to the low temperature, the air in the freezer compartment contains in absolute sense only very little moisture By forming the at least one intermediate gas flow of heated air extracted from the freezer space, this intermediate gas flow thus obtains a very low relative humidity, thus preventing moisture in the interface between the atmosphere and the outside atmosphere. adjacent outer gas stream and the adjacent inner gas stream condenses to effectively prevent fog formation.

The measure of claim 7 is preferably applied. An optimum effect of the method according to the invention is hereby achieved.

The invention also relates to and provides a gas curtain device as characterized in claim 8. Advantageous embodiments of the gas curtain device according to the invention are characterized in the further subclaims.

The invention will be further elucidated in the following description with reference to the attached schematic figure of an exemplary embodiment.

The figure shows the application of the method by means of a device 4 according to the method at the location of a passage opening 3 between a freezer space 1 and an outside atmosphere 2.

The gas atmosphere in the freezer compartment 1 is representative of an air atmosphere of -20eC. Given the low temperature, the water content of the air is extremely low.

The gas atmosphere in the outdoor space 2 is the usual outdoor air atmosphere. Given the higher temperature, the air contains a considerably larger amount of water per unit volume.

It goes without saying that it is undesirable that air from the outside space 2 ends up in the freezer space 1 and vice versa, that air from the freezer space 1 escapes to the outside space 2. Firstly, the loss of air from the freezer space 1 would cause a loss of heat mean that the replacement air must again be cooled to the desired low temperature and, moreover, the penetration of air from the outside space into the freezer space 1 would lead to fog and frost formation in this freezer space 1.

The method according to the invention is now used to separate the gas atmospheres in the freezer space 1 and the outside space 2. At the location of the passage opening 3, a gas curtain is formed, in this case an air curtain, which is composed of a number of parallel gas flows 5, 6 and 7 extending side by side.

These three parallel gas flows 5-7 are formed by means of a gas curtain device 4, which comprises gas transporting means 12-14, which at the bottom end into elongated elongated gas blowers.

In the preferred embodiment shown, the gas transporting means 12, 13 and 14 are dimensioned and set that the gas flows 5, 6 and 7 have a substantially equal speed and direction. The gas stream 5, which adjoins the freezer compartment 1, is formed from air drawn directly from the freezer compartment 1. Likewise, the gas flow 7 adjacent to the atmosphere of the outer space 2 is formed by air extracted directly from the outer space 2. In this exemplary embodiment, the inner gas stream 6 is formed of air which is also sucked in from the freezer space 1 via the suction opening 16. The gas transport means 13 comprise gas conditioning means formed here by heating means. The cold dry air from the freezer space is heated by these heating means to a temperature between that of the freezer space 1 and the outside space 2. The heated air in the gas stream 6 has a very low relative humidity.

The parallel gas flows 5, 6 and 7 have substantially equal speed and direction. As a result, at the area of the interfaces 9 and 10 between the gas flows 5 and 6 and the gas flows 6 and 7, respectively, only a little turbulence and mixing occurs. The middle gas stream 6 retains its energy and composition almost to the bottom of the opening 3, whereby an effective separation is obtained.

At the area of the interfaces 8 and 11 between the gas flow 5 with the freezer space 1 and the gas flow 7 with the outside space 2, a speed difference occurs, as a result of which greater turbulence and mixing occur. This is not objectionable, however, since the gas flow 5 is equal in composition and conditioning to the gas atmosphere of the freezer space 1 and the gas flow 7 in conditioning and composition is equal to the gas atmosphere of the outside space 2. The air for the gas flow 7 is sucked in from the space 2 via the suction opening 15 and is expelled from the blow-out opening at the bottom by the gas transport means 14.

Because the middle gas flow 6 consists of conditioned dry air in the manner described, fog formation is prevented. When displaced through the passage opening 3, for example of a forklift truck, a stronger mixing of the respective gas flows occurs at the area of the interfaces 9 and 10, but the transport of air from the outer space 2 to the freezer space 1 is minimal, so that the said fog formation is eliminated. remains.

Although an exemplary embodiment has been discussed above for keeping the atmosphere separate in a freezer compartment and an outdoor atmosphere, the method and device according to the invention are also suitable for other applications. The invention is also readily applicable in the conventional use of air curtains for keeping the interior and exterior atmosphere of a building separate, as conventionally used for retail buildings and the like. The heat loss through the escape of warm air to the outside is very small with the invention.

The method and device are not limited to use with air as gas in the gas flows. Other gas atmospheres can also be kept separated in a suitable manner. An example of application can be in a production process in which certain operations have to take place in certain gas atmospheres. The different gas atmospheres for the different processing steps can be kept well separated with the method and device according to the invention.

Optionally, gas can be extracted on the side of the opening where the gas flows are directed. In particular, the middle gas stream or streams can then be extracted, so that little or no other conditioned gas ends up in the adjacent gas atmospheres.

Claims (12)

A method for keeping the gas atmospheres separate on either side of the opening, comprising forming a gas curtain, such as an air curtain, wherein the gas curtain is composed of a plurality of parallel, parallel gas streams. A method according to claim 1, wherein the gas curtain is composed of at least three parallel gas flows. A method according to claim 1 or 2, wherein the gas flows are differently conditioned. The method of claim 3, wherein the outer gas streams are each conditioned the same as the directly adjacent gas atmosphere. The method of claim 4, wherein the outer gas flows are formed from gas extracted directly from the adjacent gas atmospheres. A method according to claim 5 for keeping the atmosphere separate in a freezer compartment and an outside atmosphere, wherein the at least one intermediate gas stream is formed from heated air extracted from the freezer compartment. A method according to any one of the preceding claims, wherein the parallel gas flows have equal speed and direction. Gas curtain device comprising gas transport means having a plurality of parallel, elongated, elongated gas blowers for generating a plurality of parallel, parallel gas streams. A gas curtain device according to claim 8, comprising at least three parallel gas blowers. Gas curtain device according to claim 8 or 9, comprising gas conditioning means for conditioning at least one of the gas flows. Gas curtain device according to either of Claims 9 or 10, for keeping the atmosphere in a freezer space and an outside atmosphere separate, wherein the gas conditioning means comprise heating means in a gas channel leading to the at least one intermediate gas blow-out member. Gas curtain device according to any of the claims 8-11, wherein the gas transporting means are dimensioned and adjusted such that the generated parallel gas flows have an equal speed and direction.