DE102007027840A1 - Rotating heat exchanger and ventilation system hereby - Google Patents

Abstract

The invention relates to a rotary heat exchanger (1) with a housing (2) in which two separate channels (5a, 5b) are formed for the passage of a respective air stream, and with a heat exchanger element (3) rotatably in the housing (2 ) is stored. The heat exchanger element (3) is in contact with both channels (5a, 5b), wherein the heat exchanger element (3) is associated with a drive device (4, 11) for generating a rotation.

Description

The The invention relates to a rotary heat exchanger with a housing in which two separate channels are designed for the passage of each air stream, and with a, for example, drum-like heat exchanger element, which is rotatably provided in the housing such that the Heat exchanger element with each of the two channels is in contact, wherein the heat exchanger element is a drive device associated with generating a rotation of the heat exchanger element is.

rotating Heat exchangers of the type mentioned are heat exchangers, where a primary media flow and a secondary media flow mutually the same heat exchanger surfaces flow through and thereby heat or cold energy transferred to these surfaces or from these Pick up surfaces. This is a transfer of heat energy for example, by the exhaust air from a building part formed secondary media flow on the example primary formed by the supply air in a building part Media Flow. The reciprocal flow becomes doing so by the mutual rotation of the heat exchanger or parts of the heat exchanger by the primary or secondary air flow causes.

From the EP 1 486 747 A2 a rotary heat exchanger of the aforementioned type is known, in which the rotation of the heat exchanger element is generated by an electromotive rotary drive. The space required for this engine and the cost of the engine in the manufacture and operation of the heat exchanger are felt in many cases to be detrimental.

In the EP 1 029 202 B1 For example, there is proposed a rotary heat exchanger in which a swirling air flow, which is the direct outflow of an axial fan, is passed through a heat exchanger drum and caused to rotate due to frictional forces between the air flow and the drum. This design not only requires that the fan is placed in the immediate vicinity of the heat exchanger, which is often not possible due to the installation situation, but it also the drive due to the very small transmission of the swirl of the air flow to the heat exchanger element is considered disadvantageous ,

task In contrast, the present invention is a rotating one To propose heat exchangers of the type mentioned, which in a compact design inexpensive to manufacture and in operation and at the same time a particularly effective rotary drive allows the heat exchanger element.

These Task is according to the invention essentially thereby solved that the drive means one, in particular designed as an attachment roll, turbomachine and means for transmitting a torque from the turbomachine has on the heat exchanger element. In the inventive rotating heat exchanger will therefore be the primary and / or the secondary air flow inherent flow energy used in part to the rotational movement of the heat exchanger element to create. A turbomachine is within the meaning of the present Invention, a device which an axial, radial and / or uses tangential airflow to move by means of wings, Shovels or the like to generate a rotation. After a particularly preferred embodiment of the invention on the one end side of the housing coaxial with the axis of rotation the heat exchanger element arranged an attachment roller, that for generating the rotation of the heat exchanger element is flown by one of the two air streams. When the turbomachine is designed as a repeller is, the rotation of the heat exchanger element by Inflating the repeller with an axial air flow of at least one of the two air streams are generated. This can, for example, be done by an attachment roller with frontal impinged propeller blades on or in the housing is provided, wherein by the flow through the attachment roller with one of the two air streams the torque to the drive the heat exchanger element is generated.

Around this torque is not due to the corresponding effect of the reverse flow of air is canceled it is preferred if the channels relative to the turbomachine in such a way are arranged that only one of the two air streams up the turbomachine works while the other the two air streams from the turbomachine is diverted and / or foreclosed against this becomes. So one of the two air streams can essentially be passed axially through the housing without deflection and drive the turbomachine while the other air flow within the housing is deflected by 90 °, so as not to come into contact with the turbomachine.

According to a further embodiment of the invention, the turbomachine is a turbine driven by at least one of the two air streams through radial and / or tangential air flow. In this case, the attachment roller can be formed as a turbine blade, which, for example, flows radially against it, the air flow driving the turbomachine moving laterally into the housing of the heat exchange can be initiated.

In In many cases it is preferred when the heat exchanger operated in countercurrent, d. H. when the air flows the housing at least partially in the opposite direction Flow through the direction.

Around Too fast rotation of the heat exchanger element to avoid, is according to an advantageous embodiment of the invention additionally a, in particular mechanical, braking device provided, which defines the rotation of the heat exchanger element decelerates and / or stops at predetermined time intervals. In this way may be an intermittent rotation of the heat exchanger element be generated. It is particularly preferred if the heat exchanger element clocked by a mechanical device or the braking device each performs a rotation of 180 °.

Of the Heat exchanger according to the invention is preferred formed such that the heat exchanger element in its Rotation axis is mounted so that the rotational movement as low as possible Resistance is opposed. To get through the required Sealing the air flows against each other as possible low frictional resistance, it is preferred if the channels by means of at least one front-side sealing roller sealed against each other. Sealing rolls are characterized by their synchronous with the heat exchanger element rotational movement a comparatively low frictional resistance.

The The invention further relates to a ventilation system with at least a rotary heat exchanger of the type mentioned above, wherein at least one fan is provided, the at least one of the two air streams through one of the channels of the Heat exchanger promotes. The fan delivers while the required for the rotational drive of the heat exchanger element Flow energy.

The recuperative properties of the rotating heat exchanger are in addition to size, design, surface texture and used material of the heat exchanger element also depends on the rotational speed. At this to the self-rotating heat exchanger according to the invention The number, shape, size are preferably optimized and the arrangement of the wings in the attachment roller or the Turbomachine designed and designed so that the corresponding to the respective air flow rotational speed the desired or optimal rotational speed as possible corresponds.

The Rotation speed of the heat exchanger element can be adjusted by the rotation speed means a suitable sensor and determined by an example digital electronic control for optimization the heat energy transfer or recovery process is used by the rotational speed of the heat exchanger element by fine control of the flow velocity of the air streams is agreed. For this purpose, the heat exchanger is preferred at least one sensor for detecting the rotational speed of Assigned heat exchanger element, which with a device connected to control or regulate the fan. To this Way the energy contents, the temperatures, the condition, the moisture or consistency, as well as the flow velocity Set the air flows defined.

These Embodiment of the ventilation system according to the invention not only allows optimization of purely thermal Heat energy transfer or recovery, but also allows for optimization of dehumidification or rewetting in a rotating air heat exchanger.

The ventilation system according to the invention additionally at least one sensor for detecting the temperature and / or the humidity of the heat exchanger element and / or have at least one of the two air streams, wherein the sensor with a device for controlling or regulating the fan connected is.

The Control can also be used to increase if necessary Overcome start-up resistance of the heat exchanger element by pulsating a momentarily higher air flow through the Fan is generated. Also the clock frequency or the controller the rotation through 180 ° of the heat exchanger element can over the z. B. digital electronic control of Ventilation system done.

The Invention will be described below with reference to an embodiment and explained in more detail with reference to the drawing. In this case, all described and / or illustrated Features alone or in any combination the object of the invention, regardless of their summary in the claims or their relationship.

It demonstrate:

1 in perspective view of a heat exchanger according to the invention and

2 a longitudinal section through the heat exchanger after 1 ,

The heat exchanger shown in the figures 1 consists essentially of a box-like housing 2 , a heat exchanger element arranged therein 3 as well as a turbomachine 4 , In the case 2 are two channels 5a . 5b formed, which extend in regions parallel to each other.

The channels 5a and 5b For example, are part of a ventilation system not shown in the figures, wherein in the illustrated embodiment, exhaust air from a building through the channel 5a flows and outside air over the channel 5b is introduced into the building. As from the representation of 2 it can be seen, the first channel runs 5a for the exhaust air between an inlet opening 6a and an outlet opening 7a essentially parallel to the channel 5b , At the outlet 7a of the first channel 5a closes a deflection section 8th on, so that the exhaust air flow in 1 upwards out of the case 2 can escape. In contrast, the outside air flow passes from an inlet 6b to an outlet 7b of the second channel 5b essentially without deflection in the axial direction. The channels 5a and 5b are doing so through a central pier 9 separated from each other.

The heat exchanger element 3 is in the case 2 on an axis 10 standing in the plane of the jetty 9 lies, rotatably mounted. The in the embodiment shown as an attachment roller with propeller blades 11 configured turbomachine 4 is also on the road 10 rotatably mounted and rotatably in a suitable manner with the heat exchanger element 3 connected, so that a rotation of the turbomachine 4 a rotation of the heat exchanger element 3 causes.

The propeller blades 11 the turbomachine 4 be like in 2 indicated, frontal flowed through the outside air flow, the propeller blades 11 are configured such that thereby a rotation of the turbomachine 4 and thus a rotation of the heat exchanger element 3 is effected. In contrast, the exhaust air flow through the deflection 8th such from the turbomachine 4 sealed off, that the exhaust air flow is not due to the corresponding effect of the turbomachine 4 decelerating.

1

heat exchangers

2

casing

3

Heat exchanger element

4

flow machine

5a, 5b

channel

6a

Inlet of the first channel 5a

6b

Inlet of the second channel 5b

7a

Outlet of the first channel 5a

7b

Outlet of the second channel 5b

8th

deflecting

9

divider

10

axis

11

propeller blades

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1486747 A2 [0003]
• - EP 1029202 B1 [0004]

Claims (10)

Rotating heat exchanger with a housing ( 2 ), in which two separate channels ( 5a . 5b ) are formed for the passage of a respective air stream, and with a. For example, drum-like heat exchanger element ( 3 ) rotatably so in the housing ( 2 ) is provided that the heat exchanger element ( 3 ) with each of the two channels ( 5a . 5b ), wherein the heat exchanger element ( 3 ) a drive device ( 4 . 10 . 11 ) for generating a rotation of the heat exchanger element ( 3 ), characterized in that the drive device is a turbomachine (in particular designed as an attachment roller) ( 4 ) and means ( 10 ) for transmitting a torque from the turbomachine ( 4 ) on the heat exchanger element ( 3 ) having. Rotary heat exchanger according to claim 1, characterized in that the turbomachine ( 4 ) is a driven by axial air flow repeller of at least one of the two air streams. Rotary heat exchanger according to claim 2, characterized in that the channels ( 5a . 5b ) relative to the turbomachine ( 4 ) are arranged such that only one of the two air streams to the turbomachine ( 4 ), while the other of the two air streams from the turbomachine ( 4 ) is routed away and / or foreclosed against it. Rotary heat exchanger according to claim 1, characterized in that the turbomachine ( 4 ) is a turbine driven by at least one of the two air streams by radial air flow. Rotary heat exchanger according to one of the preceding claims, characterized in that the air flows the housing ( 2 ) at least partially flow through in the opposite direction. Rotary heat exchanger according to one of the preceding claims, characterized in that in addition a, in particular mechanical, braking device is provided, which controls the rotation of the heat exchanger element ( 3 ) defines decelerates and / or stops at predetermined time intervals. Rotary heat exchanger according to one of the preceding claims, characterized in that the channels ( 5a . 5b ) are sealed against each other by means of at least one front-side sealing roller. Ventilation system with at least one rotating heat exchanger according to one of the preceding claims, characterized in that at least one fan is provided, the at least one of the two air streams through one of the channels ( 5a . 5b ) of the heat exchanger ( 1 ) promotes. Ventilation system according to claim 8, characterized in that the heat exchanger at least one sensor for detecting the rotational speed of the heat exchanger element ( 3 ), which is connected to a device for controlling or regulating the fan. Ventilation system according to one of claims 8 or 9, characterized in that the heat exchanger at least one sensor for detecting the temperature and / or humidity of the heat exchanger element ( 3 ) and / or at least one of the two air streams is associated, which is connected to a device for controlling or regulating the fan.