NL2001545C2 - Heat exchanger for ventilation pipe, has rotatable wheel including rim, spokes and sectors, where sectors are filled with layer of air-permeable and heat transfer material - Google Patents

Abstract

The exchanger (1) has a rotatable wheel including a rim (2), spokes (3), and sectors (4), where the sectors are filled with a layer of air-permeable and heat transfer material. Sealants (5, 6) are provided to partially cover two sides of the rim and the spokes of the wheel.

Description

HEAT EXCHANGER FOR A VENTILATION PIPE

The invention relates to a heat exchanger for a ventilation duct, comprising a rotatable wheel which is essentially composed of a rim and at least four spokes which delimit at least four sectors, which sectors are filled with a layer of a gas-permeable and heat-exchanging material.

Such a heat exchanger is known from WO 98/20285, and is intended to be placed transversely of two parallel air lines which form a supply channel and a discharge channel for respectively fresh (relatively cold) air to be supplied and (relatively warm) air to be discharged. from an interior. The wheel in the known heat exchanger comprises 12 segments, in each of which a layer of a synthetic heat and moisture-exchanging fiber material is included. A partition wall between the supply channel and the discharge channel is interrupted by that heat exchanger at the location of the heat exchanger, a gap between the respective parts of the partition wall and the heat exchanger being sealed with a band based on TEFLON® material.

The known heat exchanger has the disadvantage that it causes an inherent leak between the supply channel and the discharge channel, because leakage via the gas-permeable material between the sectors is not prevented with the aforementioned sealing tape on the partition walls. As a result, a ventilation line with the known heat exchanger has such a low energy performance coefficient (EPC) that it is not permissible in many countries, at least in residential construction, due to current regulations.

It is an object of the invention to provide a heat exchanger for a ventilation duct that does not cause at least a negligible inherent leak between a supply and a discharge line. The gas flow through such a heat exchanger must be high both in the supply channel and in the discharge channel.

It is furthermore an object to provide a heat exchanger that is compatible with conventional ventilation systems. This heat exchanger must be able to be manufactured and installed in a simple manner and at relatively low costs.

These objectives are achieved, and further advantages are achieved, with a heat exchanger of the type mentioned in the preamble, wherein according to the invention the wheel 10 is provided on its two side surfaces with sealing means extending radially and circumferentially and bounding the sectors, and two sealing surfaces directed towards said side surfaces and cooperating with said sealing means are provided which partially cover the wheel and are provided at passage locations with passage surfaces for respectively an incoming and an outgoing gas flow, said cooperating sealing means and sealing surfaces providing a separation wall between the form the gas stream to be discharged.

In such a heat exchanger, the sealing surfaces and the co-operating seals that define the sectors prevent the occurrence of a gas leak between a supply channel and a discharge channel via the layer of air-permeable material in the sectors, with which a heat exchanger with a particularly good EPC is obtained.

In an embodiment of a heat exchanger according to the invention, the sealing surfaces have dimensions such that each of these sealing surfaces co-operates with at least one sealing means of each of at least two non-adjacent sectors at each rotational position of the wheel.

In this embodiment, the separation between a supply channel and a discharge channel each passes through two non-adjacent sectors, and the gas to be supplied and the discharged pass through the heat exchanger via the passage openings 35 in the sealing surfaces and sectors bounded by said sectors.

In an advantageous embodiment of this last 3 heat exchanger, the number of spokes is an even number, the spokes are regularly distributed in circumferential direction of the wheel, and the sealing surfaces have dimensions such that each of these sealing surfaces cooperates with at least each rotational position of the wheel 5. one sealant from each of two opposite sectors.

The sealing surface in such a heat exchanger is, for example, in the form of two symmetrically shaped circle segments directed towards each other. These two circle segments are sufficiently large to completely cover two corresponding segments of the wheel, as a result of which, at each rotational position of the wheel, one of the seals of two corresponding wheel segments co-operates with the circle segments of the sealing surface.

In a practically advantageous embodiment, the sealing surfaces are connectable and, in the coupled state, form a housing in which the wheel is accommodated.

Such a housing is for instance provided with at least one opening at the location of the rim of the wheel for arranging a driving means for the wheel cooperating with the rim.

In yet another embodiment of a heat exchanger according to the invention, the sealing surfaces are provided on their side remote from the wheel with a receiving profile for receiving a gas-tight partition wall therein.

The sealing means are for instance manufactured from rubber or from a plastic material.

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The sealing surfaces are, for example, manufactured from a metal or from a plastic material.

The invention will be elucidated hereinbelow on the basis of an exemplary embodiment, with reference to the drawings.

Show in the drawings

FIG. 1 shows in perspective top view a part of an embodiment of a heat exchanger according to the invention, provided on one side with a sealing surface, and

FIG. 2 shows the heat exchanger shown in fig. 1, with a 4 wheel provided with a sealing surface on the two side surfaces.

Corresponding components are designated in the figures with the same reference numerals.

FIG. 1 shows a heat exchanger 1 for a ventilation duct, with a rotatable wheel with a rim 2 and six spokes 3, which are regularly distributed in the circumferential direction of the wheel 2, and which together define six sectors 4. The sectors 4, in this case the spaces between the spokes 3 and the rim 2, are filled with a layer of a gas-permeable and heat-exchanging material (not shown), which is enclosed between gratings 10, one of which is shown. The spokes 3 and the rim 2 are provided on the two sides which form the side faces of the wheel 2, 3 with seals 5, 6 which are, for example, designed as grooves in rubber O-shaped cables or tires or suitable plastic material. These seals 5, 6 cooperate with two sealing faces 7 facing the side faces of the wheel 2, 3, one of which is shown. Each of the sealing surfaces 7 has the shape of two symmetrically shaped circle segments 7a, 7b facing each other, which form the boundary of passage surfaces 8, 9 for an incoming and an outgoing gas flow, respectively. The sealing surfaces 7 have dimensions such that each of these sealing surfaces 7 cooperates with at least one seal 5a, 5b, 6 of each of two opposite sectors 4a, 4b at each rotational position of the wheel 2, 3, so that at each rotational position of the wheels 2, 3, so at any time, a partition wall between the incoming and the outgoing gas stream is formed by the respective passage surfaces 8, 9. The sealing surfaces 7, 7 'are provided with a peripheral beach 14 on which protrusions 11 are formed, provided with a bore, in order to be able to couple these sealing surfaces 7, 7' to a housing, as shown in Fig. 2. The wheel is freely rotatable about a central axis 12, and can be driven by a drive roller (not shown) which cooperates with the rim 2 and which can be arranged on the rim 2 via an opening 13 in the peripheral edge 14.

FIG. 2 shows the wheel 2, 3 of FIG. 1, provided with two mutually coupled sealing surfaces 7, 7 ', which together form a housing for the wheel 2, 3, and which are each on their side remote from the wheel 2, 3 provided with a receiving profile 15, 15 'for receiving a gas-tight partition wall therein.

Claims (11)

A heat exchanger (1) for a ventilation duct, comprising a rotatable wheel (2, 3) which is essentially composed of a rim (2) and at least four spokes (3) delimiting at least four sectors (4), which sectors 5 (4) are filled with a layer of a gas-permeable and heat-exchanging material, characterized in that the wheel (2, 3) is provided on its two side surfaces with sealing means (5, 6 extending radially and circumferentially and defining the sectors) ), and two sealing surfaces (7, 7 ') directed towards said side surfaces and cooperating with said sealing means (5, 6) are provided which partially cover the wheel (2, 3) and which are provided with passage surfaces (8 at corresponding locations) , 9) for an incoming and an outgoing gas stream, respectively, which cooperating sealing means (5, 6) and sealing surfaces (7, 7 ') form a partition between the incoming and the outgoing gas stream. 2. Heat exchanger (1) according to claim 1, characterized in that the sealing surfaces (7, 7 ') have dimensions such that each of these sealing surfaces (7, 7') cooperates with each rotational position of the wheel (2, 3) with at least one sealant (5a, 5b, 6) from each of at least two non-adjacent sectors (4a, 4b). 3. Heat exchanger (1) according to claim 2, characterized in that the number of spokes (3) is an even number, the spokes (3) are regularly distributed in the circumferential direction of the wheel (2), and the sealing surfaces (7). 7 ') have dimensions such that each of these sealing surfaces (7, 7') cooperates with at least one sealing means (5a, 5b, 6) of each of two opposite sectors (4a) at each rotational position of the wheel (2, 3) , 4b). A heat exchanger (1) according to claim 3, characterized in that each of the sealing surfaces (7, 7 ') has the shape of two symmetrically shaped circle segments (7a, 7b) facing each other. A heat exchanger (1) according to any one of claims 1-4, characterized in that the sealing surfaces (7, 7 ') are connectable and form a housing (7, 7') in the coupled state in which the wheel (2, 3) ) is included. A heat exchanger (1) according to claim 5, characterized in that the housing (7, 7 ') is provided with at least one opening (13) at the location of the rim (2) of the wheel (2, 3) arranging a driving means for the wheel (2, 3) cooperating with the rim (2). A heat exchanger (1) according to one of claims 1 to 6, characterized in that the sealing surfaces (7, 7 ') are provided with a receiving profile (15, 15) on their side remote from the wheel (2, 3). for receiving a gas-tight partition wall therein. A heat exchanger (1) according to any one of claims 1-7, characterized in that the sealing means (5, 6) are made of rubber. Heat exchanger (1) according to one of claims 1 to 7, characterized in that the sealing means (5, 6) are made of a plastic material. Heat exchanger (1) according to one of claims 1 to 9, characterized in that the sealing surfaces (7, 7 ') are made from a metal. A heat exchanger (1) according to any one of claims 1-9, characterized in that the sealing surfaces (7, 7 ') are made from a plastic material