DE19811469A1 - Force ventilation of rooms and cabins - Google Patents

Abstract

The blower (3) for the purpose of reversal of the delivery direction is pivotable through approximately 180 degrees. The air feed of the apparatus issues into an air inlet and air outlet (1) angled at approximately 90 degrees to the blowing direction of the pivotable blower. The air feed has a Z-shaped cross-section. The regenerative heat exchanger (6) has a heat conduction of lambda less than or equal to 0.5 W/(m . K) and a specific heat Cp greater than or equal to 1.5 kJ/(kg . K).

Description

The invention relates to an apparatus for ventilation heated rooms with a regenerative heat exchanger Recovery of heat from the exhaust air, which is preferred can be used in the outer walls of buildings.

For inhabited and heated rooms is made of building physics and Adequate ventilation is necessary for hygienic reasons. The ecological requirements for today's construction require the use of ventilation systems with heat recovery. A Appropriate acceptance and dissemination presupposes that such systems have high efficiency with low energy consumption need that they can be used in all residential and commercial buildings ten can be used that they are low planning and Installation effort require that low investment and Operating costs are incurred and that their operation is not disruptive.

DE 41 04 423 C2 characterizes the current state of the art. There is a ventilation unit with heat recovery for installation described in outer walls. This device includes a Axial fan, the axis of which is oriented perpendicular to the wall and a regenerative heat exchanger consisting of three or four individual elements, which are arranged in front of the axial fan and for the necessary prevention of heat dissipation from the warm thermally separated from each other on the cold side by air gaps are. The periodic necessary for regenerative heat exchangers Reversal of the air blowing direction is done by periodic Pole changeover of the blower motor. Due to the wall vertical blowing direction and the resulting arrangement of blowers and heat exchangers in series result in high Sound transmission values high sensitivity to wind pressure and  large space requirement in the wall depth. So this device is not for installation in walls less than 25 cm thick use, especially not for installation in the cavities of prefabricated components, wooden stud walls, sloping ceilings etc. The construction of the heat exchanger is also disadvantageous several individual elements made of aluminum. By dividing up there are many abutting edges in several individual elements, whereby the flow resistance and thus the Fan power consumption increased. The use of aluminum also contradicts an ecological objective. A Possibility of opening the device at the standstill Closing the outside is not described.

The invention has for its object a ventilation device to develop with a regenerative heat exchanger, which also in thin outer walls or other components of approx. 15 to 20 cm Thickness can be built. Furthermore, the sound through gangs values and the wind pressure sensitivity are minimized; when the machine is at a standstill, it should be manual or electromechanical can be closed, the closure device should be windproof and thermally insulated. The supply and exhaust air flows should depending on the air quality by sensors according to free Definition can be controlled.

description

The invention consists of a column-shaped housing with a preferably rectangular cross section, at the ends of which there is an inlet and outlet opening ( 1 ) angled to the room side and to the outside by 90 degrees. The housing can be installed vertically or horizontally in external walls, prefabricated components, etc.

The side of the housing facing the interior is designed as a revision plate ( 2 ) and can be easily removed or folded down, so that all individual components can be easily assembled after removal of the revision plate or removed for maintenance.

A rectangular housing cross section is advantageous proposed a large cross-section with a shallow depth allowed from about 10-15 cm. The device can also be used in very thin outer walls or other components are used. The wide, elongated housing allows the accommodation of one regenerative heat exchanger with large surface and large Mass, and the redirection of the air flow by approx. 90 Degree reduces the passage of sound from outside to inside as well sensitivity to wind pressure.

One or more axial fans ( 3 ) are located in the middle of the housing. It is advantageous to use a plurality of axial fans arranged next to one another, since in this way a large housing cross section is achieved with a small housing depth.

The blowers (or the blower) are mounted in a frame ( 4 ). The change in the blowing direction of the air required for the function of the regenerative heat exchanger is generated by periodically rotating the blowers by approximately 180 degrees about an axis perpendicular to the blowing direction. This is preferably achieved by an electromotive or electromechanical drive ( 5 ) with internal or external control acting directly or indirectly on the axis of rotation. This has the advantage that the blowers only work in one direction of rotation, do not require a change in the direction of rotation and can therefore be optimized with regard to air flow volume, pressure build-up and noise development. Power is transferred to the blowers using elastic cables or slip rings. A regenerative heat exchanger ( 6 ) is located above and below the fans (with the housing in a vertical position). The advantage of this arrangement is that there are largely the same flow resistances in the supply and extract air mode, so that the same amount of air is supplied in the same period in the supply and extract air mode, that the fans are also in the warm area and are therefore protected from condensate, and that have the heat exchangers and blowers easily dismantled for maintenance purposes.

Two identical, undivided heat stores are used as heat exchangers used. It is advantageously suggested that the problem of the desired heat flow in the blowing direction through use of a material with lower compared to aluminum Thermal conductivity with high heat storage capacity to solve.

Polyethylene is used advantageously because its Thermal conductivity 700 times lower than that of Aluminum, the specific heat 2 times higher than that of aluminum. Polyethylene is also ecologically harmless.

This solution has the advantage of being structurally simple and inexpensive to be. The heat stores consist of continuous, in Blowing direction oriented plates or pipes without undersize chung; on the one hand, they have little flow resistance stood, on the other hand, the heat conduction within the Heat exchangers largely avoided.

The closure flap ( 7 ) is located between the lower heat exchanger and the outer opening. The flap is made of a material with low thermal conductivity. In the closed state, the closure flap is tight on the inner side of the housing, in the open state it forms a transition inclined by approximately 45 degrees from the outer opening to the vertical rear of the housing.

The closure flap is operated either manually or with an electromotive or electromechanical drive ( 8 ) in such a way that the flap closes tightly when the apparatus is switched off.

The operation of only one apparatus according to the invention in a room or created in several contiguous rooms, due to the periodic change of supply air and extract air operation, easy Pressure fluctuations in these rooms. An unpressurized loading and Venting requires several, via a central control apparatuses working in opposite directions in pairs.

The temporal relationship between the two blowing directions can be in Dependence on sensor signals controlled in free definition If, for example, the outside air pressure is higher than inside, the temporal portion becomes the outside to the inside directional blowing direction shortened, so even with unequal Equal exhaust air and supply air volumes are promoted inside and outside pressure become.

Claims (5)

1. Apparatus for the forced ventilation of rooms and cabins using an electric blower and a regenerative heat exchanger which is arranged in an outer wall, characterized in that the blower can be pivoted around 180 degrees for the purpose of reversing the conveying direction. 2. Apparatus according to claim 1, characterized in that the air flow of the apparatus into an air inlet and Air outlet opens, which is against the blowing direction of the pivotable fan are angled by about 90 degrees and insofar as it has a Z-shaped cross section. 3. Apparatus according to claim 1 or according to claim 1 and claim 2, characterized in that the regenerative heat exchanger consists of a material whose thermal conductivity λ ≦ 0.5 W / (mK) and whose specific heat C _p ≧ 1.5 kJ / (kg.K) is. 4. Apparatus according to claim 1 or according to claim 1 and claim 2, characterized in that the temporal ratio of the Working direction of the fan is time-controlled and symmetrical. 5. Apparatus according to claim 1 or according to claim 1 and claim 2, characterized in that the air quality of the interior and / or sensors evaluating outside air in free Control definition so that one of the two funding directions preferred in time.