SE541071C2 - Dehumidifier for dehumidifying air, gas or the like in liquid systems - Google Patents

Abstract

Dehumidification device (1) for dehumidifying air, gas, gases or the like, in liquid systems comprising at least one housing (6) with at least one internal space (8) provided with at least one inlet (25) and at least one outlet (26), and at least a cooling element (22) placed in the inner space (8) with which a condensation of moisture in the gas, or the gases in the inner space (8) takes place. The inner space (8) is intended to communicate with the inner space of at least one container (4) for liquid with at least one connecting line, pipe or the like with which air, gas or gases can be passed between the inner space of the container (4). ) and the inner space (8) of the dehumidifying device in the event of a change in the level of the liquid in the container (4). out of in case of level change in the tank.

Description

DEHUMIDIFYING DEVICE FOR DEHUMIDIFYING AIR, GAS OR SIMILAR IN LIQUID SYSTEMS Technical area The present invention relates to a dehumidification device (a drying filter) according to the claims.

Technical background and known technology In a number of different contexts and areas of use, there is a need to dehumidify air, gases and the like. Such a need exists, for example, in connection with air supply to and from a tank with hydraulic oil. The air supply to the tank takes place in connection with the hydraulic oil level varying in connection with the use of functions in the system. Moisture in the hydraulic oil, for example, causes several problems. For example, problems arise with the oil breaking down. Problems can also arise from the fact that the moisture in the oil risks freezing when the temperature is below zero. There are also problems with moisture causing corrosion in the hydraulic system.

The mentioned problems are particularly evident when using vegetable hydraulic oils in the hydraulic systems. This is due to the fact that these hydraulic oils (pressure fluids) usually absorb a larger volume percentage of water than non-vegetable oils absorb.

In day mode, filters are used which absorb moisture from the air. Known filters usually contain water-absorbing pellets, drying balls or the like which absorb moisture from the air. Using this type of water absorption filter causes a number of problems. For example, the use of these means, for example, that a continuous maintenance, such as replacement of the water-absorbing pellets, must take place. The user does not know if the water-absorbing pellets in the filter are saturated with water or not.

Other constructions for dehumidifying air are already known. For example, there are devices and systems that use negative pressure / vacuum to reduce the amount of moisture in hydraulic oils, pressure oils.

Corresponding problems also exist in a number of other technology areas. For example, there is such a problem in connection with brake fluids and other types of fluids which can absorb moisture. The objects of the invention The object of the present invention is to eliminate or reduce at least one of the previously mentioned problems. The object is fulfilled with a dehumidification device in accordance with the claims.

Brief description of figures In the following detailed description of the present invention, references and references to the following figures will occur. These are briefly described in the following list of figures. The embodiments exemplified in the figures are not limiting of the scope of protection of the present patent application. Note that the figures in the patent application are schematic and that details can thus be omitted in them.

Figure 1 shows a first embodiment of the present invention.

Figure 2 shows a cross-section (section) of the first embodiment of the present invention.

Figure 3 shows a second embodiment of the present invention.

Figure 4A shows the second embodiment of the present invention seen from above.

Figures 4B and 4C show sections of the second embodiment.

Detailed description of the invention With reference to the figures, a dehumidification device 1, also alternatively called a drying filter, in accordance with the present invention will be described in more detail.

In the exemplary embodiment, the dehumidifying device 1 is intended to be connected to a hydraulic system 2, for dehumidifying air, which in the event of a change of liquid level 3 in at least one container 4, is introduced into container 4. In the exemplary embodiment, the container 4 consists of a hydraulic tank It is further conceivable that the present invention is used in other uses than those mentioned. Thus, it is conceivable that the present invention is used to separate moisture from brake fluids and or other fluids where moisture is not desired.

The dehumidification device comprises at least one housing 6, casing or the like. The housing 6 is in the exemplary embodiment of a cylindrical shape with a conical lower part 7. However, it is conceivable that the housing 6, in other embodiments, has other shapes suitable for the purpose. The housing 4 comprises at least one inner space 8. The inner space 8 communicates with the inner space of the container 4, such as the hydraulic tank 5, via at least one connecting line 9, pipe, duct or the like. In the exemplary embodiment, the construction comprises at least one connection 10 which in the exemplary embodiment is exemplified by a pipe 11, but may be of a construction other suitable for the purpose. In the exemplary embodiment, the housing 6 comprises at least one flange 12 in its upper, open, part 13. A lid 14 is connectably arranged to the upper open part 13. In the exemplary embodiment, the lid 14 comprises at least one opening 15 for inflow of air. The lid 14 includes a filter (not shown in the figures) for debris, dust and the like.

The construction comprises a channel 16, in the exemplary embodiment located in a tubular member 17, through which a flow of air is intended to be carried from the lid 14 to the lower part 18 of the inner space 8 of the housing 6. One end of the tubular member 17 19, or the proximity of one end 19, is in the exemplary embodiment connected to the lid 14. At its other end 20, the tubular member 17 is free at a distance from the bottom. The tubular member 17 also includes at least one check valve 21 which prevents a flow of air in the wrong direction through the channel of the tubular member.

The structure comprises at least one cooling element 22 such as a flange or other member. In the exemplary embodiment, the cooling element 22 consists of at least one helical member 23 which extends over all or parts of the length (height) of the housing. In the exemplary embodiment, the helical member 23 is connected to the tubular member 17.

The structure further comprises at least one cooling loop 24 or the like. With the cooling coil 24 a condensation of the moisture in the air takes place. In the exemplary embodiment, the cooling loop 24 is cooled via the AC system. In alternative embodiments, however, it is conceivable that the cooling (the cooling effect) takes place (is achieved) with another technology suitable for the purpose. It is conceivable, for example, that the cooling element 22 is constituted (achieved) by a Peltier element or the like.

In the exemplary embodiment, the construction comprises at least one non-return valve 25. The non-return valve 25 means that condensed liquid can be discharged from the unit via the non-return valve 25. In the exemplary embodiment, the non-return valve 25 consists of a spring-loaded ball which abuts a valve seat. In alternative embodiments, other types of non-return valves suitable for the purpose may be used. At overpressure above a certain level, the valve opens and condensed liquid in the inner chamber exits via the outlet.

For supply of air to the filter there is at least one inlet 26. For discharge of air from the filter there is at least one outlet 27. In alternative embodiments it is conceivable that the number of inlets 26 and outlet 27, respectively, is more than one. In the exemplary embodiment, the air is introduced into the device via at least one dust filter, which filters out dust and the like. In the exemplary embodiment, the filter is located in the lid 14. In alternative embodiments, the filter may be located in another location, position or the like suitable for the purpose.

Referring to Figures 1 and 2, an alternative embodiment of the present invention is shown which comprises at least one expandable space 28 in at least one expandable body 29, "lung" to which air is supplied from and to the hydraulic tank. As the volume of hydraulic oil in the hydraulic tank increases, the expandable body 29 will expand. The expandable body 29 is of an expandable material. Through the construction, the air in the tank will not, or substantially will not, be carried out of the filter but will be reciprocated an arbitrary number of times to the expandable space 28 in the expandable body 29.

Referring to Figures 3 and 4C, a third embodiment of the present invention is shown. The construction comprises an alternative variant of a housing 6. The housing 6 comprises at least one inner space 8. The inner space 8 is connected to the surroundings via at least one inlet 26. The inner space 8 is further connected to the surroundings via at least one outlet 27. The construction comprises furthermore at least one cooling element 22. The cooling element 22 can for instance consist of a Peltier element 30 or the like. In the figure, a connecting electrical line 31 to the Peltier element 30. is shown. In alternative embodiments, it is conceivable that some other cooling technique suitable for the purpose is used for cooling (condensation of moisture). It is thus conceivable that the cooling element 22 consists of at least one cooling loop connected to the AC. Housing 6 and cover 14 can in the embodiment be integrated with each other. The shape of the dehumidification device can vary greatly within the scope of protection. The inlet 26 and / or the outlet 27 may in alternative embodiments be provided with a non-return valve or non-return valves.

In the alternative embodiment, the expandable space is created in that at least one wall 32 of the walls which form the inner space consists of, or comprises, a flexible and / or expandable material. In the alternative embodiment, the expandable space is constituted by the inner space or substantially the inner space.

In the detailed description of the present invention, construction details may be omitted which will be apparent to a person skilled in the art in the field to which the device relates.

Such obvious design details are included to the extent required to obtain a satisfactory function. Although certain preferred embodiments have been shown in more detail, variations and modifications of the method and apparatus may be apparent to those skilled in the art to which the invention pertains. All such modifications and variations are considered to fall within the scope of the appended claims.

Advantages of the invention With the present invention a number of advantages are achieved. The most obvious advantage of the present invention is that at least one of the aforementioned problems is eliminated or substantially reduced.

Claims (9)

Patent claims Dehumidifying device (1) for dehumidifying air, gas, gases or the like, in liquid systems comprising at least one housing (6) with at least one internal space (8) provided with at least one inlet (26) and at least one outlet (27), and at least one cooling element (22) placed in the inner space (8) with which a condensation of moisture in the air, gases or the gases in the inner space (8) takes place, and that the inner space (8) is intended to be in communication with the inner space of at least one container (4), for liquid, with at least one connecting line (9), pipes or the like with which air, gas or gases can be passed between the inner space of the container (4) and the inner space (8 ) in the dehumidification device in the event of a level change of the liquid in the container (4) and that the dehumidification device (1) comprises at least one expandable space (28) in at least one expandable body (29) whose expandable space (28) communicates with the inner space in the container (4) via the inner space (8) of the housing (6) and connection the duct (9), so that air can be passed between the inner space (8) of the container (4) and the expandable space (28) via the inner space (8) and the connecting duct (9), characterized in that the housing (6) in its upper open part (13) comprises a flange (12) to which a lid (14), comprising at least one opening (15) for the supply of air, is connectably arranged and that the dehumidifying device (1) comprises a tubular member (17) which in its one end (19), or the proximity of the end is connected to the lid (14) and the other end (20) of the tubular member (17) is placed freely, the tubular member (17) of which comprises at least one channel (16) through which a flow of air is intended to be carried from the cover (14) to the lower part (18) of the inner space (8) of the housing (6). Dehumidification device (1) according to claim 1, characterized in that the expandable body (29) consists of a bellows. Dehumidification device (1) according to at least one of the preceding claims, characterized in that the outlet (27) of the expandable body (29) comprises at least one non-return valve (25). Dehumidification device (1) according to at least one of the preceding claims, characterized in that the cooling element (22) is helically shaped. Dehumidification device (1) according to at least one of the preceding claims, characterized in that the cooling element (22) is connected to the tubular member (17). Dehumidification device (1) according to at least one of the preceding claims, characterized in that the cooling element (22) comprises at least one cooling loop. Dehumidification device (1) according to claim 6, characterized in that the cooling loop is connected to an AC system. Dehumidification device (1) according to at least one of the preceding claims, characterized in that the cooling element (22) comprises at least one Peltier element. Dehumidification device (1) according to at least one of the preceding claims, characterized in that the container (4) consists of a hydraulic tank (5).