DE19508295A1 - Humidifying, cooling and filtering appliance for room - Google Patents

Abstract

The appliance consists of a fan unit which draws in ambient air through an activated acrylic filter material which is stretched over a framework to provide a large surface area, the lower part of which is in contact with a tray of water. Capillary action ensures that the passing air is humidified without the need for atomising sprays. The unit includes a fan (3), control unit (6), a regulator unit (4) with electrodes (13) as well as an air control (5). The filter unit (8) has its lower edges (10) in contact with the surface (19) of water in a tray (11). Room air is drawn over the filter element above the water level and collects water droplets before discharge into the room.

Description

The invention relates to a device and an associated Process for humidifying, cooling and filtering Indoor air.

Air cooling or humidification are usually used Surface cooler or wet cooler used. The latter point a flowing or atomized liquid medium (e.g. Water). The atomization of the liquid medium he follows, for example, using nozzles in one Air duct. In this context, the disadvantage is disadvantageous Maneuverability of using drip catchers to avoid the penetration of atomizing drops into unwanted loading range of the device. There is also a risk of Calcification of the small geometric atomizing nozzles.

The invention is based on the object, a front offer direction and an associated process, wel non-atomizing humidification, cooling and Filtering of room air enables.

The task is performed with regard to the device characterizing features of claim 1 solved. Before partial embodiments with regard to the device are realized by subclaims 2-12. There visually of the procedure, the task is characterized by the Drawing features of claim 13 solved. Un Claims relating to the procedure are set out in An sayings 14-17 realized.  

The device according to the invention has at least one Water-filled basin in which at least one Device for clamping activated acrylic fibers is recorded. The activation of the acrylic fibers takes place by a lye treatment, which is not described here in more detail to be received. By activating the Acrylfa The readiness of the acrylic fibers to absorb Moisture increased. By using the jig for the acrylic fibers are partially wetted with water (i.e. e.g. B. in the lower area in a water bath) the acrylic fibers (e.g. in the lower area) di wetted with water. By activating the Acrylfa Now the moisture penetrates quickly due to capillary action also in those areas of acrylic fibers that are not directly wetted with water.

Such activated and partly by capillary action moistened acrylic fibers are now one by a Ven air flow caused by indoor air puts. Due to the enforcement of the fixture Activation of the activated acrylic fibers through indoor air takes place for example, cooling and moistening the door indoor air instead. For example, there is room air relatively high temperature and low relative humidity (by giving off thermal energy and by taking in Moisture) in exiting air with significantly lower Temperature with significantly higher relative humidity changed delt. Such cooling and humidification processes can as is known in the h-x diagram for moist air according to Mollier.

Through direct contact and capillary action caused humidification of the activated acrylic fibers occurs during the operation of the Vorrich invention a lowering of the water level in the pool. The  The device according to the invention therefore advantageously comprises as a control device for monitoring the Water level in the pool, which advantageously with a valve element for opening or closing one Water supply to change the water level in the pool is connected and if necessary by supplying water a return to the desired water level Level effects. The components of the device according to the invention (ventilation element, Control device and valve element) are with a Control device in connection and are via this control or adjustable. The device is advantageously for Activated acrylic fibers as a frame element formed, which has struts for reinforcement and around which the activated acrylic fibers are wrapped. Such a frame element has an effective area through which the sucked room air passes through, whereupon due to the interaction with the humidified activated acrylic fibers the desired cooling or Humidification of the room air occurs. When passing through the Room air through this effective area is simultaneously a Filtering the room air and it will be, for example Dust particles on the activated acrylic fibers deposit, filtered out.

The activated acrylic fibers are, for example, on their one end with the frame element and are firmly connected then in a simple manner continuously around the frame element finally wrapped around after complete wrapping again to be firmly connected to the frame element. Step between the individual acrylic fibers wrapped around no gaps or spaces, so that for example Dirt particles from the air conveyed through are filtered out and directly on the acrylic fibers deposit.  

A few larger ones can be used to increase the effective area Frame elements are used. But it is special before partial, a larger number relatively smaller with activate to use frame elements covered with acrylic fibers, which in the lower area on the bottom of the water basin sit on top and in pairs in the upper area mig lie together or are in contact. The at such as each arranged in a row Frame elements forming pairs of roof shape point into overall a significant effective area.

In such a row and multiple Dachkon structure is, for example, the air in the room the "gables" of the roofs, which lie side by side in pairs forming frame elements sucked in, then through the "Roof areas" (which are identical to the effective areas of the Frame elements are) to be sucked through and thus with the moistened acrylic fibers in the desired way to come into active contact.

For cleaning or exchange, the inventive Frame elements by simply pushing them in or out pull easily and can be removed without tools.

To determine the water level in the pool mentioned control device, for example electrodes, so that in this way a certain value is undershot can be determined and for example a trained as a solenoid valve (especially solenoid valve) tes valve element is operated and a water supply to restore the (by evaporation or capillary reduced water level in the pool.

The device according to the invention is advantageous  still equipped with sensors via which measured variables (e.g. Temperature and humidity) of the room air before or after Pass through the activated acrylic fiber elements can be determined.

The method according to the invention provides suction of the Room air through the ventilation element. Follow on Passing the room air through the water of the pool and otherwise due to Ka pillar effect moistened at least one device for Activated acrylic fibers are stretched and the (cooled, humidified and filtered) air.

Both the method according to the invention and that already thus achieved device according to the invention cooling, humidification and filtering of the room air non-atomizing way. The effective area of the use The activated acrylic fibers is only partially by the direct water wetting in the floor area is reduced and is otherwise almost full for the passage of indoor air always available.

Through the regulating and / or control device and / or that Valve element is the water level in the pool on a adjustable level is maintained, whereby a regionally Be wetting the at least one device for clamping the activated acrylic fibers is ensured. Depending on the requirements for the operation of the invention The method according to the invention can therefore be in one direction Water level at an elevated or a lowered level operate.

When using and evaluating the sensors from the he Measured variables determined according to the device according to the invention can partially a control of the inventions  be carried out according to the invention in that the level of water in the pool or activity (e.g. the speed) of the ventilation element becomes. Based on specific requirements and users desire (e.g. reaching a certain room temperature and relative humidity in the room within a certain Time) can be a by using the measured quantities of the sensors Matching the activity of the ventilation element with the Height of the water level in the pool. The The inventive method is thus variable, programming bar and adaptable to different user requests.

The invention is based on exemplary embodiments in the Drawing figures explained in more detail. Show it:

Fig. 1 is a plan view of a frame element for a tension-activated acrylic fibers,

Fig. 2 is a section AA of Fig. 1,

Fig. 3 is a plan view of a Acrylfa with activated fibers continuously wound frame member,

Fig. 4 is a section BB of Fig. 3,

Fig. 5 is a longitudinal sectional view of the device according to the invention,

Fig. 6 is a side view of FIG. 5 and

Fig. 7 is a section CC in FIG. 5.

Fig. 1 and 2 show a frame member 8 with reinforcing struts 9. This frame element according to FIGS. 1 and 2 is covered with circulating activated acrylic fibers 2 in FIGS. 3 and 4. This creates an active surface 14 for each frame element 8 , through which the room air passes and comes into active contact with the activated acrylic fibers 2 .

Fig. 5 shows a longitudinal section through the device according to the invention and shows the ventilation element 3 , the control device 6 , a control device 4 with electrodes 13 and a valve element 5 . In the pool 1 filled to the water level 19 , the frame elements 8 described in FIGS . 1-4 - with the lower regions 10 lying on the floor 11 and with the upper regions 12 leaning against one another in pairs - are shown in a lateral view. The air sucked in by the ventilation element 3 enters the device 15 according to the invention via the suction direction 15 , then penetrates the active surfaces 14 of the frame elements 8 covered with activated acrylic fibers 2 (with cooling, humidification and filtering of the room air) and then the device according to the invention in Exit direction 18 to leave sen ( Fig. 6).

Fig. 7 shows the covered with activated acrylic fibers 2 and only partially designated frame elements 8, which are provided in pairs to each other roof-shaped, a series shaped large total effective area of the summation of the individual active surfaces 14 thereby obtained.

Reference list

1 pool
2 activated acrylic fibers
3 ventilation element
4 control device
5 valve element
6 control device
7 clamping device
8 frame element
9 strut
10 lower area
11 floor
12 upper area
13 electrode
14 effective area
15 suction direction
16 direction of penetration

Claims (17)

1. Device for humidifying, cooling and filtering room air, characterized by the following features:

• - A device ( 7 ) on which acrylic fibers ( 2 ) activated by means of prior treatment in a lye are spanned and / or arranged, the device ( 7 ) being partially immersed in the water of a basin ( 1 ), as a result of which part of the acrylic fibers ( 2 ) is wetted,
• - A ventilation element ( 3 ), which sucks in air and through the active surface ( 14 ) of the Acrylfa fibers ( 2 ) of the device ( 7 ).

2. Device according to claim 1, characterized by the following features:

• - At least one control device ( 4 ) for monitoring the water level in the pool ( 1 ),
• - At least one valve element ( 5 ) for opening or closing a water supply to change the water level of the basin ( 1 ) and
• - With the ventilation element ( 3 ), the control device ( 4 ) and the valve element ( 5 ) in connection control device ( 6 ).

3. Device according to one of the preceding claims, characterized in that the device ( 7 ) for clamping activated th acrylic fibers ( 2 ) is designed as a frame element ( 8 ). 4. The device according to claim 3, characterized in that the frame element ( 8 ) has struts ( 9 ). 5. Device according to one of claims 3-4, characterized in that the activated acrylic fibers ( 2 ) are continuously wrapped around the frame element ( 8 ), wherein between the individual acrylic fibers ( 2 ) no empty spaces occur. 6. Device according to claims 3-5, characterized in that the basin ( 1 ) has a plurality of inclined frame elements ( 8 ), each frame element ( 8 ) in a lower region ( 10 ) on the bottom ( 11 ) of the basin ( 1 ) sits on. 7. Apparatus according to claim 6, characterized in that each frame member (8) rests in an upper region (12) at the upper portion (12) of an adjacent frame element (8). 8. Apparatus according to claim 6 or 7, characterized in that the upper regions ( 12 ) of neighboring Rahmenele elements ( 8 ) touch in pairs and support each other. 9. Device according to one of claims 3-8, characterized in that the frame elements ( 8 ) (for cleaning or exchange) can be removed. 10. Device according to one of the preceding claims, characterized in that the control device ( 4 ) has electrodes ( 13 ). 11. Device according to one of the preceding claims, characterized in that the valve element ( 5 ) is designed as a solenoid valve (in particular a solenoid valve). 12. Device according to one of the preceding claims, characterized in that sensors ( 17 ) for determining measured variables (z. B. temperature, humidity) are provided. 13. A method for humidifying, cooling and filtering room air, in particular using an on device according to one of claims 1-12, characterized in that room air is wetted by at least one of the basin water ( 1 ) and otherwise wetted as a result of capillary action flat arrangement acrylic fibers ( 2 ) activated by lye treatment is passed through. 14. The method according to claim 13, characterized in that via the control device ( 4 ) and / or Steuerervor direction ( 6 ) and / or valve element ( 5 ) the water in the basin ( 1 ) is kept at an adjustable level, which a regionally Wetting of the at least one device ( 7 ) for clamping activated acrylic fibers ( 2 ) is ensured. 15. The method according to any one of claims 13 or 14, characterized in that the ambient air through the activated with Acrylfa sern ( 2 ) continuously spanned and spanned by the frame element active surface ( 14 ) is passed. 16. The method according to any one of claims 13-15, characterized in that the suction of the room air takes place in the suction direction ( 15 ) and the passage of the room air through the active surface ( 14 ) in the penetration direction ( 16 ). 17. The method according to any one of claims 13-16, characterized in that the height of the water level in the pool ( 1 ) and / or the activity (z. B. speed) of the Ventilationsele element ( 5 ) as a function of the sensors ( 17th ) determined measured variables are controlled or regulated.