NL8006060A - CONCENTRATION CONTROLLER INTENDED FOR A DEVICE FOR REMOVING MOISTURE FROM A ROOM. - Google Patents

Description

iS «* • X NT" '--- PHN 9875 1 N.V. Philips * Incandescent light factories in Eindhoven

Concentration regulator intended for a device for removing moisture from a room.

The invention relates to a device for removing moisture from a room, which device comprises a closed circuit in which a hygroscopic liquid is circulated by means of a pump and in which there is a first moisture-absorbing element 5, placed in said space where moisture is the hygroscopic liquid is received, in which circuit there is a second moisture-absorbing element, placed in a second space, where the moisture evaporates from the hygroscopic liquid, as well as a reservoir for the hygroscopic liquid.

Such a device is known from Dutch patent application no. 7701242 (PHN 8669).

A problem which arises with this known device is that the evaporation process proceeds so well that the hygroscopic liquid becomes too concentrated, causing difficulties in the first space where the moisture is absorbed into the hygroscopic liquid because the solute in the hygroscopic liquid liquid can crystallize, especially when the temperature in the first room is low. The first moisture-absorbing element could become blocked as a result of which the device no longer functions properly.

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The object of the invention is to provide a solution to this problem. To this end, the device is characterized in that the circuit incorporates a concentration regulator, which is formed by an immersion body arranged in the reservoir and by a valve, which is controlled by the immersion body, which valve, depending on the concentration of the hygroscopic liquid in the reservoir, controls the size of the liquid flow to the second moisture absorbing element.

With this regulator it is possible to keep the concentration of the hygroscopic liquid in the reservoir below a desired value.

A preferred embodiment of the device according to the invention is characterized in that a circulation channel, the passage of which through the valve is controllable, is arranged parallel to the second moisture-absorbing element.

Preferably, the circulation channel is formed by a tube, which is arranged vertically on the reservoir, in the top of which tube there is a chamber, which has one inlet opening and two outlet openings, a first outlet opening of which communicates with the second moisture-absorbing element and a second outlet opening of which communicates with said tube, the first of which. outlet opening is at a higher level than the second outlet opening, wherein the valve is arranged in the second outlet opening and is connected to the vapor body by means of a rod passing through the tube.

The invention will now be further elucidated on the basis of an exemplary embodiment shown in a schematic drawing, in which; Figure 1 is a side view of a refrigerator in which the concentration controller device is mounted and Figure 2 is a rear view of the refrigerator of Figure 1.

Reference numeral 3 shows the insulated housing of the refrigerator 20. The space inside the refrigerator, the cooling space, is the first space 1 from which the moisture must be removed and the space outside the refrigerator is the second space 2 where the moisture is transported and evaporated.

The hygroscopic liquid, for example a calcium bromide-25 solution, is circulated in the closed circuit 5 by means of a pump 4. Included in the circuit is a first moisture absorbing element 6 placed in the cooling space 1 of the refrigerator against the evaporator tubes 7. The first moisture absorbing element actually consists of three parts, namely one part 6a for the top and back 30 and two parts 6b and 6c for the two sides. In the two spaces outside the refrigerator, a second moisture absorbing element 8 is included in the circuit, which is placed against the condenser 9. The moisture absorbing elements can for instance be made of cellulose, such as blotting paper or of nylon or of glass fiber. Furthermore, the circuit is a reservoir 10 for the hygroscopic fluid.

The hygroscopic liquid is pumped by means of the pump 4 from the reservoir 10 through a pipe 11 to a distribution element 12 and from there to three pipes 13, 14 and 15, the pipe of which is 8006060 '. 4 »PHN 9875 3 is divided into two rooms. From the tubes 13/14 and 15 the hygroscopic liquid flows under the influence of its own weight through the moisture-absorbing elements 6a, 6b and 6c down into three other tubes, respectively 16, 17 and 18. The ends of the moisture-absorbing elements protrude each through a slit (not shown) in the respective tube. The moisture-absorbing elements are fastened close to the diffuser tubes 7.

To prevent the upper tubes 13/14 and 15 from containing so much liquid that they overflow, overflow channels 19 and 20 are arranged between the tubes 13-16 and 10-17. No overflow channel is required between pipes 15-18, because pipe 15 communicates with pipes 13 and 14.

The hygroscopic liquid in tubes 16 and 17 flows to tube 18 and from there through a line 21a and 21b to space 2 outside 15 the refrigerator to tube 22 and then through the second moisture absorbing element 8 to tube 23. The ends of this each insert the same way as the ends of the first elements through a slit of the respective tube. The second moisture-absorbing element 8 is mounted close to the condenser 9. Here again an overflow 20 channel 24 is provided. From the tube 23, the liquid flows back to the reservoir 10.

In the first space, the cooling space, the moisture at the location of the first moisture-absorbing elements 6a, 6b and 6c is absorbed in the hygroscopic liquid. In the second space 2 outside the refrigerator, the moisture absorbed at the location of the second moisture-absorbing element 8 is again evaporated from the hygroscopic liquid.

This evaporation sometimes occurs so well that the hygroscopic liquid becomes too concentrated, which causes the above crystallization problem. According to the invention this is solved by using a concentration controller 25. This concentration regulator is formed by a circulating body 26 arranged in the reservoir 10, to which a valve 27 is connected by means of a rod 28. This rod passes through a tube 29 arranged vertically on the reservoir 10, which has a chamber 30 at its top. The chamber is placed in the conduit 35 between the tubes 18 and 23 and therefore has an inlet opening 31 to which the conduit 21a is connected and a first outlet opening 32 to which the conduit 21b is connected. Between chamber 30 and tube 29 is 8006060 PHN 9875 4 * a second outlet opening 33, the passage of which through valve 27 is adjustable.

The hygroscopic fluid in chamber 30 can either return through the first outlet opening 32 to the second moisture absorbing element 8 and from there to the reservoir 10 or flow back through the second outlet opening 33 and the tube 29 directly to the reservoir 10. The amount of liquid that flows through the tube 29 is now controllable by means of the valve 27, and consequently also the amount of liquid which flows through the second moisture-absorbing element. The tube 29 therefore functions as a kind of ramp, parallel over the second moisture-absorbing element 8.

By selecting the weight of the dipping body 26 such that the immersion body floats in the liquid at a desired concentration of the liquid, it can be achieved that the concentration does not become too high. Namely, if the concentration of the liquid in the reservoir exceeds the desired value because too much water has evaporated, the specific gravity of the liquid increases, The immersion body 26 will move upwards, opening the valve 27 and liquid with a low concentration flows directly back to the reservoir 10 and is not further evaporated. If the concentration decreases again, the valve will close again and all the liquid will flow to the evaporation section at the warm condenser.

The application of the invention is not limited to refrigerators. The invention can also be applied to air-conditioning units.

30 35 8008060

Claims (3)

1. Device for removing moisture from a space, which device comprises a closed circuit in which a hygroscopic liquid is circulated by means of a pump and in which there is a first moisture-absorbing element, placed in said space where moisture is introduced into the hygroscopic liquid. included, in which circuit there is a second moisture-absorbing element, placed in a second space, where the moisture evaporates from the hygroscopic liquid, and a reservoir for the hygroscopic liquid, which is characterized in that a concentration regulator is incorporated in the circuit, which is formed by a nozzle body arranged in the reservoir and by a valve controlled by the nozzle body, which valve, depending on the concentration of the hygroscopic liquid in the reservoir, controls the size of the liquid flow to the second moisture-absorbing element . Device as claimed in claim 1, characterized in that a circulation channel, the passage of which through the valve is adjustable, is arranged parallel to the second moisture-absorbing element. 3. Device as claimed in claim 2, characterized in that the 20 ° circulation channel is formed by a tube, which is arranged vertically on the reservoir, in the top of which tube there is a chamber, which has one inlet opening and two outlet openings, of which one first outlet opening communicates with the second moisture absorbing element and of which a second outlet opening communicates with said tube, said first outlet opening being at a higher level than the second outlet opening, the valve being arranged in the second outlet opening and by means of a rod, which runs through the tube, is connected to the drop body. 30 35 §009060