NL1019388C2 - Air circulation unit. - Google Patents

Description

Title: Air circulation unit

The invention relates to an air circulation unit with air flow element which forms an exclusive connection between at least two chambers of the air circulation unit which are connected to openings for supply and discharge of air to and from the air circulation unit.

Such an air circulation unit can for instance be a fan unit, an air treatment unit or a heating unit. The air flow element is, for example, a fan that draws air from one of the chambers to another (the 10 chambers can be quite small, sometimes no more than a few centimeters in length). In one embodiment the air circulation unit is a balance ventilation unit with a heat exchanger as air flow element in which an incoming and outgoing air stream are brought into heat contact with each other. Such a balance ventilation unit comprises at least four chambers: supply and discharge chambers for both air flows.

For the efficiency of such air circulation units, it is important that there is no leakage from one chamber to the other outside the air flow element, or from the chambers to the environment of the air circulation unit. It is therefore important that the enclosure of the rooms forms an airtight separation between the rooms and from the rooms to the environment.

In practice, the enclosure has turned out to be an important cost item, precisely because of the need to achieve an airtight seal.

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It is, inter alia, an object of the invention to provide an air circulation unit in which the enclosure can be realized airtightly in a simple manner.

1019388 2

The invention provides an air circulation unit provided with an envelope which forms an outer wall of the air circulation unit with openings for supply and removal of air therein, which envelope encloses two or more chambers and which air circulation unit comprises an air flow element which forms an exclusive connection between at least two of the chambers, in which the air circulation unit is provided with a clamping band and the enclosure comprises separate parts which can be compressed air-tight against each other with the clamping band and the air-flow element for effecting a separation between the chambers.

The components of the casing are preferably somewhat resilient, so that they deform under the pressure of the clamping band and are thereby pressed against each other and the air-flow element.

In an embodiment of the air circulation unit according to the invention, a circumference of the outer wall, around which the clamping band is tensioned, is almost entirely convex in shape. Thus, the force of the clamping band is applied evenly to the parts of the enclosure. As a result, material with limited strength can suffice for the envelope. Moreover, this ensures that connections between the various components and the airflow element are pressed from all directions.

In another embodiment of the air circulation unit according to the invention, the loose parts of the enclosure are made of foamed plastic material. This material appears to be very suitable because it is resilient, light and inexpensive, while it is sufficiently air-sealing.

In another embodiment of the air circulation unit according to the invention, the air flow element is an air-to-air heat exchanger through which two separate air flows run, which exchange heat with each other in the heat exchanger via partition walls. In this embodiment, the aforementioned connection in the heat exchanger connects a first and second of the chambers, and the heat exchanger forms a further connection between a third and a fourth of the chambers. This serves to exchange heat between air flowing through the connection and air flowing through the further connection. A balance ventilation unit with a complex of rooms is thus realized in a simple manner.

A further embodiment of the air circulation unit 10 according to the invention is provided with a first and second fan for displacing air through the connection and the further connection to and from the openings, respectively, wherein the fans contain a housing where the loose parts pass through the clamping band to be pressed against the air. Thus, with the same clamping band, the chambers 15 on the different sides of both the heat exchanger and the two fans are sealed airtightly from each other.

In one embodiment, the clamping band presses the components of the casing against the air flow element under tension, so that the air flow element is compressed between the parts of the casing. Consequently, no further fixing measures are required for the airflow element.

In a further embodiment of the air circulation unit according to the invention, the air circulation unit is designed such that the air flow element can be slid in and out of the air circulation unit without disassembling the parts of the enclosure when the clamping band has been released from tension. Thus, cleaning of the air flow element (e.g. a fan or heat exchanger) during the maintenance of the air circulation unit is easy to carry out.

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These and other objects and advantageous aspects of the air circulation unit according to the invention will be described with reference to the following figures.

Figures la-g illustrate the construction of a ventilation unit

Figure 2 shows a assembled ventilation unit

Figures 1a-g show the structure of a ventilation unit, in this case a balance ventilation unit. In figure la-d, each time a separate part 10, 12, 14, 16 of the envelope is added to the envelope of the ventilation unit. Figure 1-e shows a clamping band and Figure 1-f shows the parts 10, 12, 14, 16 of the envelope with the clamping band 18 around it. In Figure 1g a heat exchanger 19 is added.

Figure 2 shows a assembled ventilation unit, in which a front plate 20 is added to the parts 10, 12, 14, 16, 18 already shown. At the rear of the ventilation unit, a similar rear plate (not shown) is provided. This includes, for example, provisions for suspending the ventilation unit. As shown, the ventilation unit has six inlet and outlet openings 22a-f (also called spouts). In practice, four of these are used, whereby the openings used are chosen depending on the need to have access to and outlets on one side of the ventilation unit, or on opposite sides. Holes are provided in the clamping band 18 through which the spouts 22a-f protrude.

In addition to the shown parts of the casing and the heat exchanger, the ventilation unit also comprises two fans (not shown) which are each accommodated in one of the separate parts of the casing, for example in a cavity such as cavity 11 which forms a connection 30 between a opening 22a-g and the central space between the parts 1019388, 10, 12, 14, 16 of the casing through a hole, such as hole 17 in the relevant part of the casing. (It will be appreciated that each of the parts 10, 12, 16 of the enclosure may contain such cavities 11 and holes 17).

In operation, the ventilation unit is, for example, placed in a home or commercial building and the openings 22a-f are connected to the ventilation system, one opening being connected to a supply of outside air, one to a channel for diffusion of air through the building, one on a channel for sucking in air from the building and one on a discharge to the outside air.

One of the fans (not shown) draws in air from the suction duct from the building and blows this air to the outlet to the outside air. The second fan (not shown) sucks air from the supply of the outside air and blows this air to the channel for diffusion through the building. The two fans direct these two air flows to the central space between the parts 10, 12, 14, 16 of the enclosure in which the heat exchanger 19 is located. The air flows run separately from each other, but with close heat contact through the heat exchanger. In the case of a heated building, heat from the air leaving the building is thus transferred to air entering the building.

It is of course important here that no leaks occur from one air flow to the other, nor between the part of the air flows leaving the heat exchanger 19 and the part of the air flow that flows into the heat exchanger 19. That is, the space between the heat exchanger 19 and the inner wall of the parts 10, 12, 14, 16 and the enclosure must be divided into different, air-tightly separated chambers for, respectively, the supply and discharge of the two air flows. This closure is partly realized by the wall 30 of the parts 10, 12, 14, 16 of the enclosure and by partitions (such as part 24) in the enclosure. The invention ensures that this airtight seal can be realized in a simple manner.

When assembling the ventilation unit, for example, the required fans are first placed in the parts 10, 12, 14, 16 of the enclosure. The individual parts 10, 12, 14, 16 of the enclosure are then assembled. The clamping band 18 is then applied around the loose parts of the enclosure. The heat exchanger is then pushed into the whole unit. Finally, the clamping strap 18 is tightened. This can be done in all kinds of ways, for example with a lever or by screwing on 10, etc.

The parts 10, 12, 14, 16 of the enclosure are preferably of foamed plastic, such as EPP (Expanded PolyPropylene, that is, foamed polypropylene), this material is resilient, well-suited for sealing air chambers and inexpensive. The invention is of course not limited to this material, other foamed carbon polymers with comparable properties can be used very favorably, but non-foamed materials and even non-plastics can also be used.

Due to the force exerted by clamping band 18 on parts 10, 12, 14, 16 of the envelope, the parts are pressed against each other 20 and against the heat exchanger 19, whereby an airtight closure of the different chambers is realized. The front plate 20 and rear plate (not shown) additionally insulate the chambers sideways to the extent necessary, the resilience of the parts 10, 12, 14, 16 of the enclosure for a good seal between the parts and the front and back parts. back plate. The front and back plates are, for example, mounted on the parts 10, 12, 14, 16 of the casing with a bayonet catch.

As shown, the parts 10, 12, 14, 16 of the casing together form a convex circumference around which the clamping band 18 is laid.

As a result, the clamping strap 18 makes as much as possible even contact with the 1019388 7 envelope. For this, it is of course not necessary for the clamping band 18 to exert force everywhere on the periphery. For example, no force is exerted where the spouts 22a-f protrude. Occasionally, a concave part can be arranged elsewhere on the circumference, as a result of which the clamping band there lies away from the circumference. This can be done, for example, around the seams between the various parts 10, 12, 14, 16 of the covering.

For the shown division of the casing into parts 10, 12, 14, 16, with seams substantially perpendicular to each other between the parts 10, 12, 14, 16 and the heat exchanger, the circumference preferably comprises convex parts, each with an arc shape with range of normal vectors (perpendicular to the surface of the convex part), so that the normal on the seams runs parallel to a normal vector within that range. Thus, enclosure is in a stable manner in compression on the seams, thereby compressing them airtightly.

In the embodiment shown, the circumference is somewhat quadrilateral, with sides running perpendicular to the seams in the center and bending convexly from the center toward the next side. This provides the desired stable compression on the seams, whereby they are compressed airtightly.

The invention is of course not limited to the order of assembly described. For example, the heat exchanger 19 can be applied earlier, even before all parts of the enclosure are joined together. For cleaning the heat exchanger 17 during maintenance of the ventilation unit, however, it is advantageous that the heat exchanger can be slid in and out without having to remove the parts 10, 12, 14, 16 from the enclosure after the tension of the clamping band 18 has decreased. A simple maintenance of the heat exchanger 19 is thus possible by removing the tension from the clamping band 18, removing the heat exchanger 19, cleaning or replacing the heat exchanger 19, replacing and re-tensioning the clamping band 18. Thereby the central space between parts 10, 12, 14, 16 of the enclosure also becomes accessible for cleaning.

The fans (not shown) are each preferably mounted in an opening in a plate (one plate per fan or one plate for both fans). This plate is arranged between the parts 10, 12, 14, 16 of the casing such that the edge of the plate is completely between different parts. The plate is thus clamped when the clamping band 18 is brought under tension so that no air can escape past the fans.

It will be clear that, although the invention is eminently suitable for a ventilation unit of the type shown with heat exchanger 19 and around it four chambers for the supply and discharge of two air flows, the invention is also suitable for more complicated or simpler ventilation units or more generally for air circulation units, including heating units, such as for example a two-chamber ventilation unit with a fan between them to suck air from one chamber to the other, or a closed boiler with a supply for combustion air and a discharge of flue gas.

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Claims (7)

1. Air circulation unit provided with an enclosure forming an outer wall of the air circulation unit with openings for supply and removal of air therein, which enclosure encloses two or more chambers and which air circulation unit comprises an air flow element that forms an exclusive connection between at least two of the chambers, in which the air circulation unit is provided with a clamping band and the envelope comprises separate parts which are air-tight against the clamping band against each other and the air-flow element for causing separation between the chambers. Air circulation unit according to claim 1, that a circumference of the outer wall, around which the clamping band is tensioned, is almost entirely convex in shape. Air circulation unit according to claim 1 or 2, wherein the loose parts of the enclosure are made of foamed plastic material. Air circulation unit according to any one of the preceding claims, wherein the air flow element is a heat exchanger, wherein a first and second of the chambers connect at the connection, and wherein the heat exchanger forms a further connection between a third and a fourth of the chambers for exchanging heat between air flowing through the connection and air flowing through the further connection. 5. Air circulation unit as claimed in claim 4, provided with a first and a second fan for displacing air through the connection and the further connection to and from the openings, respectively, wherein the fans comprise a housing against which the loose parts are air-tight against the clamping band. are pressed. An air circulation unit according to any one of the preceding claims, wherein the clamping band presses the components of the envelope against the airflow element under tension so that the air flow element is compressed between the components of the envelope. 7. Air circulation unit according to claim 6, embodied such that the air flow element can be slid in and out of the air circulation unit without disassembling the parts of the envelope when the clamping band has been released from tension. 1 01 9 3 8 3