SE534657C2 - Heat exchanger of duct discs in polycarbonate - Google Patents

Abstract

Heat exchanger used in a ventilation system for a building. The heat exchanger comprises a plurality of parallel plates assembled by stripes of an adhesive, wherein the plates are channel plates (2) comprising longitudinal air channels (5), the adhesive stripes (3, 4) are arranged perpendicular to the channels in the plates, and the outgoing air flow (12, 14) is perpendicular to the incoming air flow (10, 11). The adhesive stripes comprise a polymer adhesive.

Description

534 B57 The exchanger is made of duct plastic sheets which are joined with strands of MS polymer across the duct direction in the sheets. The MS polymer is applied with a machine that ensures the right amount and the right surface. After the duct plastic plate has been applied, lift it out of the assembly table. In the pattern of strands on the discs with the MS polymer and placed on one, the distance between the curing process is ensured by placing a number of spacers between the application machine, joining the discs in the discs which are then removed after the polymer has cured.

The distance is equal between each disc and this distance thereby forms an air chamber.

The adhesive pattern is designed so that when the unit is assembled, you get two chambers that allow the unit to form a 2-stage exchanger directly without two separate exchangers being mounted in series. The design also means that the temperature differences between supply air and exhaust air through the exchanger are limited, which means that the so-called freezing is at such a low level that the normal technical solutions for defrosting exchangers can be completely avoided.

The use of MS polymer in the application ensures that the dimensions of the exchanger do not change due to temperature variations and that sufficient adhesion is achieved so that the tightness of the exchanger is guaranteed over time. The glue strings also mean that the tightness of the exchanger can be guaranteed internally in the exchanger and thus meet the requirements where return air from premises must not occur.

Description of drawings Fig. 1 illustrates machine for applying MS-polymer adhesive strings to duct plastic sheets. The duct board (1) is placed on the surface and sucked in with negative pressure via holes (2) in the table top. The application head (3) which is attached to the X-Y cradle (4) moves across the surface and applies the polymer according to a pre-programmed pattern. 5 5134 B57 Fig. 2 illustrates the basic construction of the heat exchanger. Hot exhaust air from the property (5) passes through the first stage of the cross-flow exchanger.

The air turns in the chamber on the opposite side (6). Exhaust air (7) passes out through the second stage of the exchanger. Outdoor air (8) passes in through the exchanger and is heated by convection between the parts of the exchanger. Heated air (9) to the property.

Fig. 3 illustrates patterns for applying glue. Channel disc (10).

Adhesive string (11) for sealing between the two stages of the heat exchanger and against air outside the exchanger unit. Spacer gluing (12) in 100 mm long strands placed with c-c dimensions that do not cause densification so that pressure drop increases.

Claims (1)

1. 0 15 534 B57 PATENT REQUIREMENTS Heat exchanger, built up of fl your boards joined by strings of glue, the heat exchanger being characterized in that the boards are duct boards (10) which are made of plastic and that the boards are joined by means of a glue pattern comprising polymer strings transverse to the channel direction of the channel board in such a way that a gap is formed between the boards, and that the adhesive pattern comprises three solid adhesive strands (11) arranged transversely on the channel board from its one edge to the other opposite edge, which three adhesive strands (11) are the duct sheets form two chambers in the heat exchanger, and that the adhesive pattern further comprises interrupted adhesive strands (12) comprising adhesive strand segments arranged at a distance from each other along a line transverse to the duct plate between the three adhesive strands (1 1). Heat exchanger, according to claim 1, characterized in that the duct sheets (10) are made of polycarbonate.