DE102009032047B4 - Air exchange device for loading and / or venting a room - Google Patents

Abstract

Air exchange device for ventilating and / or venting a room, in which the energy content of the warm, used exhaust air (2) can be used at least partially by means of a heat exchanger (3) for heating the fresh outside air (5) or supply air (4), with a The device (12) assigned to the heat exchanger (3) for discharging the condensate (13) which forms during operation of the heat exchanger (3) and a fan (10) arranged downstream of the heat exchanger (3) in the flow direction of the exhaust air (2) that the exhaust air (2) leaving the heat exchanger (3), now called exhaust air (22), is deflected (23) towards the fan (10), and which the exhaust air (22) via an exhaust air pipe (11) into the Ambient atmosphere (21) promotes, characterized in that the condensate drain device (12) has an outlet (15) which is connected via the exhaust air pipe (11) to the atmosphere surrounding the room (21).

Description

The invention relates to an air exchange device for loading and / or venting a room according to the preamble of patent claim 1.

For example, from the EP 1 488 175 B1 known air exchange device, the heat exchanger is arranged so that forming condensate passes by gravity down into the region of the blades of the fan and can be conveyed by the movement of the fan blades in an exhaust air opening. In this respect, the condensate drips from the heat exchanger directly into the fan in this air exchange device, whereby the fan can easily pollute and corrode. This can limit the life of the fan.

From the aforementioned document is also known to collect the condensate in a container, which is, however, regularly empty at great expense.

In the JP 2005 036 996 A an air exchange device is shown attached to a wall. The wall has a through opening, over which a tube connected to a collecting tub is guided to the outside. According to this document, it depends on a proper right-angled kinking of the hose on the outside of the wall. For this purpose, a holder is used, with the help of a bulge of the condensate hose and thus a condensate collection is to be avoided within the tube.

According to the DE 197 05 206 A1 For example, the air routed via a cross heat exchanger and an evaporator is not completely cooled down to the temperature of these cold surfaces. The air leaving the evaporator is therefore still able to absorb moisture and transport away. By a guide plate, the flow cross section of the exhaust air is greatly reduced, whereby the flow rate of the exhaust air increases considerably. As a result, a larger volume of the exhaust air comes directly into contact with the surface of the condensate collected in a collecting trough. This is intended to increase the moisture absorption of the exhaust air and thus the evaporation of the condensed water. The moisture-laden exhaust air is transported away through the exhaust air opening to the outside. If there is an increased accumulation of condensate, the condensation water is passed through an overflow into a heating bath, where it is evaporated by an additional heater.

An air exchange device having the features of the preamble of claim 1 is known from DE 10 2005 011 222 A1 known. This air exchange device has a condensate drainage device in the form of a condensate pan, which has a condensate connection. The condensate is led out of the ventilation system via respective condensate connections.

The invention has for its object to provide an air exchange device of the type mentioned, which is simpler in design and manageable.

This object is achieved by an air exchange device with the features of claim 1.

Advantageous developments are the subject of the dependent claims.

Namely, the condensate drainage device has a drain connected to the atmosphere surrounding the space via the exhaust air tube.

Advantageously, the condensate drainage device has a collecting trough whose outlet is connected to the atmosphere surrounding the space. In this respect, the condensate from the heat exchanger, for example, drop by gravity into the sump, so that in a simple way, a separation of the liquid phase, namely the condensate, from the gaseous phase, namely the exhaust air occurs. The exhaust air is therefore much less loaded with liquid droplets of the condensate, so that drier air than in the case of the aforementioned prior art in the fan and from there into the surrounding atmosphere passes. A fan is therefore exposed to no or a much smaller amount of liquid, which contributes to a trouble-free, permanent operation of the fan. The fan is thus less prone to repair and maintenance, or it can be a fan used, which is designed less expensive than that of the prior art. According to the collecting trough is connected to the surrounding atmosphere, so that the collecting tray according to the invention is not to be emptied, but rather works selbstentleerend. The condensate can therefore be derived in a simple and unproblematic way into the atmosphere.

Advantageously, the drip pan has a bottom which is inclined towards the drain in two respects, namely in the transverse and in the longitudinal direction of the trough. This ensures that condensate reaching into the drip pan can immediately flow away, so that the residence time of the condensate in the tank can be kept low. This clearly prevents contamination of the tub opposite. In this respect, usually only small amounts of condensate are contained in the tub.

According to one embodiment of the invention, the Kondensatableiteinrichtung a gutter that connects the flow of the sump with an opening into the surrounding atmosphere exhaust pipe. The gutter and exhaust duct may be simply formed parts which allow smooth operation of the steam trap and the air exchange apparatus as a whole.

Advantageously, the inner space between the heat exchanger and the fan, preferably between a heat exchanger, drip pan and fan is largely hermetically sealed and the exhaust air leaving the fan is preferably via the exhaust air pipe to the surrounding atmosphere derived. Due to the largely airtight completion of the interior leakage currents are largely excluded, so the fan draws the exhaust air from the room to be ventilated via the heat exchanger and promotes this as exhaust air to the surrounding atmosphere.

According to another embodiment of the invention prevails in the interior during operation of the fan, a negative pressure such that the condensate from the sump only expires when the static pressure of the water column in the sump is greater than the negative pressure. This development makes it possible for a small amount of water to remain in the collecting trough, so that the fan does not convey any air through the drain of the condensate tray, which would reduce the efficiency of the fan by a small amount. Furthermore, a circulatory operation of the fan is largely prevented, so that this is less likely to be exposed in cycle operation resulting temperature increases. This feature also contributes to a long service life of the fan.

According to a preferred embodiment of the invention, a temperature sensor is provided for determining the temperature of the exhaust air, which is preferably poured into the sump, more preferably in the upper, the drain remote floor area. In this respect, the drip tray serves in terms of a double effect not only to catch the liquid condensate but also to attach and hold the temperature sensor. Since this is provided in the upper floor area and thus close to the heat exchanger, a determination of the temperature of the exhaust air leaving the heat exchanger is made possible in a simple manner.

According to another embodiment of the invention, the drip pan on a heating element, which is preferably arranged at the bottom of the tub near the drain. The drip pan therefore also serves to receive and hold the heating element. The latter prevents under all operating conditions from starting or freezing of the condensate in the sump and thus clogging the flow of the same. In this respect, it is ensured that the condensate can be collected dripping from the heat exchanger even under extreme conditions of use and discharged in a simple and uncomplicated manner into the surrounding atmosphere.

Embodiments of the subject invention are explained in more detail with reference to the drawing, wherein all described and / or illustrated features alone or in any combination form the subject matter of the present invention, regardless of their combination in the claims or their dependency. Show it:

1 a schematic side view of an air exchange device for loading and / or venting a room;

2 a partial, schematic section along the line II-II in 1 ;

three an enlarged, schematic representation of the detail III in 2 ; and

4 a partially sectioned, schematic representation along the line IV-IV in 2 ,

In 1 is an air exchange device 1 for loading and / or venting a not shown room, for example, a building shown in a schematic side view. Preferably, the ventilation process takes place simultaneously. A partial schematic section along the line II-II through the device according to 1 is in 2 shown. At the air exchange device 1 is the energy content of the warm, exhausted exhaust air 2 by means of a heat exchanger three at least partially for heating the fresh outside air 5 available.

In addition fresh fresh air flows 5 over an outer tube 6 to a first fan 7 , also referred to as outside air fan below. From there, the outside air 5 in the heat exchanger three where, as previously mentioned, at least part of the energy content of the warm, spent exhaust air 2 receives. After leaving the heat exchanger three the outside air is now supply air 4 and the exhaust now exhaust air 22 called.

Further, enters the heat exchanger three , as previously indicated, the warm, exhausted exhaust air 2 a, which their energy content to the outside air or Supply air is discharged and by means of a second fan 10 , also referred to as exhaust air fan, via an exhaust air pipe 11 to the atmosphere surrounding the room not shown in detail 21 is dissipated. The heat exchanger three is, for example, a cross-countercurrent heat exchanger. The fans 7 . 10 are for example DC centrifugal fans.

The air exchange device 1 also has a heat exchanger three associated device 12 for deriving the, during operation of the heat exchanger three forming condensate 13 to the atmosphere surrounding the room 21 out.

The condensate drainage device 12 has a drip tray 14 on, whose expiration 15 with the atmosphere surrounding the room 21 connected is. The enlarged partial view III in 2 is more accurate in three shown. The drip tray 14 has a floor 16 , This floor 16 is to expire 15 in two respects, namely in the transverse and longitudinal direction of the tub 14 , inclined. A cross section through the drip pan 14 is in three , a longitudinal section through the tub in 4 shown. The representation in three clarifies that the ground 16 the drain pan 14 strong to the expiration 15 inclined, which is in three near a steeply rising side wall 17 located. In that sense, the process is 15 at the lowest point of the drip tray 14 arranged.

The condensate drainage device 12 also has a gutter 20 that the process 15 the drip tray 14 with the in the surrounding atmosphere 21 opening exhaust pipe 11 combines. three and 4 clarify that gutter 20 and exhaust pipe 11 to the surrounding atmosphere 21 fall down, ie are inclined so that the free end of the gutter and exhaust pipe is located lower than the other, opposite end to the outside.

In the flow direction of the exhaust air 2 and the heat exchanger three downstream is the second fan 10 arranged. This exhaust air fan is installed so that the heat exchanger three leaving exhaust air, now exhaust air 22 called, to the fan 10 a diversion 23 learns, with the drip pan 14 According to a particularly preferred embodiment of the invention in the area below the deflection 23 is provided. The interior 24 between heat exchangers three and exhaust air fan 10 , preferably between heat exchangers three , Drip tray 14 and exhaust air fan 10 , is largely hermetically sealed. The exhaust air 22 occurs after the diversion 23 along the arrow A in the exhaust air fan 10 and in the radial direction along the arrow B from the fan 10 out. Then this is the exhaust air fan 10 leaving exhaust air 22 according to a preferred embodiment of the invention on the exhaust pipe 11 to the surrounding atmosphere 21 derivable.

In this respect prevails in the interior 24 during operation of the exhaust air fan 10 a negative pressure such that the condensate 13 from the drip tray 14 only then expires when the static pressure of the water column in the sump greater than that of the fan 10 generated negative pressure is.

Furthermore, as in the 2 and three indicated, for determining the temperature of the exhaust air 22 a temperature sensor 25 intended. According to a preferred embodiment of the invention, this sensor is in the sump, more preferably in the upper, the drain 15 secluded ground area 26 , poured. Furthermore, the drip tray has 14 a heating element 27 according to a particularly preferred embodiment of the invention on the ground 16 the tub 14 near the drain 15 is arranged.

At the housing 30 the air exchange device 1 are ventilation slots 31 provided by which the exhaust air 2 withdrawn from the room or through the on the opposite, other side of the housing 30 supply air 4 is supplied to the room. In 1 are in the illustrated side view only the ventilation slots 31 for the supply air 4 shown.

As in three shown is the ground 16 the drip tray 14 at least partially in the direction of the flow of exhaust air 22 inclined, with the towering sidewall 17 the drip tray 14 how a kind of baffle can work. The diversion 23 the heat exchanger three leaving exhaust air 22 to the exhaust air fan 10 is for example about 90 °. The fan 10 in the direction of arrow B away funded exhaust air 22 gets over the gutter 20 in the exhaust pipe 11 and from there to the surrounding atmosphere 21 , The gutter 20 is in the exhaust pipe 11 put in and by means of a seal 32 sealed.

The with the heat exchanger three recoverable heat recovery is preferably 80 to 95%. The performance of the heating element 27 can be for example 1 watt. The heating element is used to prevent icing of the heat exchanger and the drip pan. For example, the condensate can only drain from the sump when the static pressure 20 mm water column.

For an air exchange device is created, which is simpler in design and manageable.

Claims (9)

Air exchange device for loading and / or venting a room, wherein the energy content of the warm, exhausted exhaust air ( 2 ) by means of a heat exchanger ( three ) at least partially for heating the fresh outside air ( 5 ) or supply air ( 4 ) is usable, with a heat exchanger ( three ) associated device ( 12 ) for deriving the operation of the heat exchanger ( three ) forming condensate ( 13 ) and one in the flow direction of the exhaust air ( 2 ) the heat exchanger ( three ) downstream fan ( 10 ), which is arranged such that the heat exchanger ( three ) leaving exhaust air ( 2 ), now exhaust air ( 22 ), to the fan ( 10 ) a diversion ( 23 ), and which the exhaust air ( 22 ) via an exhaust pipe ( 11 ) in the atmosphere surrounding the room ( 21 ), characterized in that the Kondensatableiteiteinrichtung ( 12 ) a process ( 15 ), which via the exhaust pipe ( 11 ) with the atmosphere surrounding the room ( 21 ) connected is. Air exchange device according to claim 1, characterized in that the condensate drainage device ( 12 ) a drip tray ( 14 ) whose expiration ( 15 ) with the atmosphere surrounding the space ( 21 ) connected is. Air exchange device according to claim 2, characterized in that the drip pan ( 14 ) a floor ( 16 ), which leads to the expiration ( 15 ) in two respects, namely in the transverse and longitudinal direction of the tub ( 14 ), is inclined. Air exchange device according to claim 2 or 3, characterized in that the condensate drainage device ( 12 ) a gutter ( 20 ), which is the process ( 15 ) of the drip tray ( 14 ) into the surrounding atmosphere ( 21 ) leaving exhaust pipe ( 11 ) connects. Air exchange device according to one of claims 2 to 4, characterized in that the collecting trough ( 14 ) in the area below the deflection ( 23 ) is provided. Air exchange device according to one of claims 1 to 5, characterized in that the interior ( 24 ) between heat exchangers ( three ) and fan ( 10 ), preferably between heat exchangers ( three ), Drip tray ( 14 ) and fan ( 10 ), largely hermetically sealed. Air exchange device according to claim 6, characterized in that in the interior ( 24 ) during operation of the fan ( 10 ) a negative pressure prevails in such a way that the condensate ( 13 ) from the drip tray ( 14 ) expires only when the static pressure of the water column in the drip pan ( 14 ) is greater than the negative pressure. Air exchange device according to one of the preceding claims, characterized in that for determining the temperature of the exhaust air ( 22 ) a temperature sensor ( 25 ) is provided, which preferably in the drip pan ( 14 ), particularly preferably in its upper, the sequence ( 15 ) remote ground area ( 26 ) is poured. Air exchange device according to one of claims 2 to 8, characterized in that the collecting trough ( 14 ) a heating element ( 27 ), preferably at the bottom ( 16 ) of the tub ( 14 ) near the process ( 15 ) is arranged.

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