NL1011384C2 - Heat exchanger for general building use comprizes heating and cooling chambers and inlet and outlet held apart by corrugated paper spacers and wrapped in fleece to make up stack cassette. - Google Patents

Abstract

The heat exchanger has gas inlet and outlet to include heat-up (17) and cooling (16) chambers complete with corrugated spacers (18). The chambers are preferably stacked in rows with fleece material (19) which is placed round the chamber and fixed to the respective spacers. The chambers are fixed by stacked arrangement of spacers and joined by fleece materials as secured to any one spacer in each case. Inlets and outlets should be arranged at right angles to one another and the chambers complete an exchangeable cassette to fit into a heat exchanger.

Description

HEAT EXCHANGER FOR GASES AND A CASSETTE THEREFOR

The present invention relates to a heat exchanger and a heat exchanger cassette therefor.

When heat exchanging gases it may be desirable that as much heat as possible is transferred between the gases in the cheapest possible manner. This occurs, for example, in the ventilation of buildings, such as houses and offices, where fresh fresh air must be added continuously. In order to avoid a relatively large heat loss, it makes sense to place a heat exchanger between the incoming outside air and the outgoing building air. The heat exchanger should have a relatively good heat exchanging capacity, but also with the cheapest possible construction.

The present invention addresses this need and provides a gas heat exchanger having an inlet and outlet for gas to be heated and gas to be cooled, comprising at least one warming gas chamber and at least one cooling gas chamber, the heat exchanging surface between the chambers sheet material and the chambers are provided with a wave-shaped spacer. By using two chambers which are built up and kept at a distance from each other by a wave-shaped spacer and whose heat-exchanging surface is formed by a sheet-like material, which must have heat-exchanging properties, a relatively cheap, flat heat exchanger is created with a relatively good heat exchange capacity.

To increase the capacity of such a heat exchanger, it is further preferred that a number of heating gas chambers and a number of cooling gas chambers be stacked. Due to the flat structure of the wave-shaped 101 1384 2 spacers and the sheet-like materials located between them, it is possible to stack a very large number of chambers on top of each other and thereby considerably increase the heat-exchanging surface without the volume of the heat exchanger being too much rises.

For construction of such a heat exchanger, it is further preferred that the sheet-like material is wrapped around the wave-shaped spacer of successive chambers. A large number of chambers can thus be stacked on top of one another in a very simple manner, while in a zigzag configuration the sheet-shaped material now extends as a web.

The construction of the heat exchanger is further improved considerably by providing a recess in the wave-shaped spacer for a gas inlet and a gas outlet. This can be done for the gas to be heated as well as for the gas to be cooled. It is thus ensured that the gas flows are continuously in the same or counter-flow on both sides of the sheet-like material, but nevertheless do not have to be added in the same place to the wave-shaped spacer, which therefore also functions as a conductor for the gas flows. A particularly simple construction of the heat exchanger is obtained if, furthermore, preferably the inlets and outlets for heating gas and cooling gas are transverse to each other. Thus, the inlets and outlets can be located on different sides of the block-shaped heat exchanger. It is also more preferably possible to orient the inlets and outlets of one of the gas streams on one side of the heat exchanger.

It is further preferred that the chambers form an exchangeable cassette and are placed in a heat exchanger housing. It is thus possible to exchange cassettes 35 which, due to contamination or possible attack by condensation, have obtained a reduced heat exchange capacity.

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A particularly advantageous construction results if corrugated cardboard is used for the corrugated spacer, preferably corrugated cardboard that is moisture-resistant.

However, it is noted that any type of corrugated material which can act as a spacer and conductor for the gas streams can be used in the invention.

Another aspect of the invention relates to a heat exchanger cassette which can be used in the heat exchanger according to the invention.

Mentioned and other features of the heat exchanger and cassette according to the invention will be further elucidated hereinafter on the basis of a number of exemplary embodiments without the invention being deemed to be limited thereto.

Figure 1 shows a partly bent away perspective view of a heat exchanger according to the invention;

Figure 2 is a view according to the arrow II of Figure 1, in which the heat exchanger housing is opened and the heat exchanger cassette is visible,

Figure 3 shows the stacked heat exchanger according to the invention;

Figure 4 shows in an exploded view the construction of the heat exchanger cassette of Figure 3; Figure 5 shows a detail V from figure 4; and

Figure 6 shows a variant of figure 5.

Figure 1 shows a heat exchanger 1 according to the invention, which comprises a housing 2 provided with an inlet 3 and an outlet 4 for gas to be heated 5 and an inlet 6 and an outlet 7 for gas to be cooled 8. In case the heat exchanger 1 is used in a house or building, the gas 8 is from the house and the gas 5 is gas from outside. The heat exchanger is capable of heating outside air from 10 ° to 35 ° C to 18 ° C with a gas flow of 450 mVu while simultaneously cooling air from the home from 20 ° C to 12 ° C.

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The gas 5 is supplied to the heating gas inlet 9, including heat exchanger cassette 10, from this cassette 10 via the heating gas outlet 11. The cassette is further provided with a cooling gas inlet 12, not shown, and a cooling gas outlet 13.

Figure 2 shows from the other side the heat exchanger 1, whereby a door 14 of the heat exchanger housing 2 is opened, so that the heat exchanger cassette 10 can easily be placed in and out of 10 and connects well to the inlets and outlets 9, 11, 12 and 13 and heating gas and cooling gas.

Figure 3 shows in more detail the heat exchanger cassette 10. The cassette 10 consists of a stack of alternating cooling gas chambers 16 and 15 heating gas churns 17.

Each chamber is formed by a wave-shaped spacer 18, while the chambers are separated by a sheet-like material 19 wrapped around it in stacked chamber 16 and 17 in a zigzag motion.

In the side face 20 of the heat exchanger cassette 10, the heating gas chamber sections are closed and the cooling gas chamber sections are open. The cooling gas thus flows through the heat exchanger cassette 10 of figure 3 from right to left.

The warm-up gas chariots are provided with an inlet 9 and an outlet 11 on the side 23. Thus, the inlets and outlets of the warm-up gas on the one hand and the cooling gas on the other hand are transverse to each other, while nevertheless the two gas flows are parallel and optionally the same or in counterflow , in this case countercurrent.

Figure 4 shows in more detail the construction of the heat exchanger cassette 10. As shown, the sheet 19, 35 in this case is aluminum foil, wrapped around wave-shaped spacers 22 and 23, thereby forming the heat exchanging surface between the chambers 16 and 17. For the heating chamber 17, the wave-shaped spacer is provided with two recesses 24 and 25, which form the inlet 9 and the outlet 11. In order to avoid an outflow of heating gas to the outside, as shown in Figure 5, on the sides for the cooling gas inlet and outlet, the wave-shaped spacer 22 closed by the cavities is filled with filling material 26, in this case glue.

Figure 6 shows a variant in which the recesses 24 and 25 of the wave-shaped spacer 22 are bounded by a strip 26 of other material 10 which is not gas-permeable, so that a lateral flow of gas is avoided.

It will be clear that a number of constructional changes can be made without departing from the scope of the invention.

For example, as described above, it is possible to change the directions for cooling gas and heating gas, or to let the gases flow in direct current or also in cross flow, whereby the gases pass through the cassettes in the transverse direction once.

In the construction described above, construction of the heat exchanger with dimensions of 40 x 40 x 40 cm, a heat exchanger is formed which has a heat transfer of 1.2 kilowatts at a speed of 1.5 m / sec. It is thus possible to obtain a ventilation speed of 450 m3 / h.

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Claims (9)

1. Heat exchanger for gases with an inlet and outlet for gas to be heated and for gas to be cooled, comprising at least one heating gas chamber and at least one cooling gas chamber, the heat exchanging surface between the chambers comprising a sheet material and the chambers being provided of a wave-shaped spacer. 2. Heat exchanger according to claim 1, wherein a number of heating gas chambers and a number of cooling gas chambers 10 are stacked. A heat exchanger according to claim 2, wherein the sheet material is wrapped around the wavy spacer of successive chambers. 4. Heat exchanger as claimed in claims 1-3, 15, wherein a gas inlet and a gas outlet are released in the wave-shaped spacer. Heat exchanger according to claims 1-4, wherein the inlets and outlets for heating gas and cooling gas are transverse to each other. Heat exchanger according to claims 1-5, wherein the chambers form an exchangeable cassette and are placed in a heat exchanger housing. 7. Heat exchanger according to claims 1-6, wherein the corrugated spacer is made of corrugated cardboard, preferably moisture-resistant corrugated cardboard. 8. Heat exchanger cassette, comprising at least one heating chamber and at least one cooling gas chamber, the heat exchanging surface between the chambers comprising a sheet material and the chambers being provided with a wave-shaped spacer. Heat exchanger cassette according to claim for use in a heat exchanger according to claims 2-7. 1011384