FR3024899A1 - DEVICE FOR NON-HEAT EXCHANGER WITHOUT INSUFFLATION ENGINE, PREHEATING THE NEW AIR HYGIENIC VENTILATION - Google Patents

Abstract

It consists of a set of prefabricated parts comprising two or three concentric envelopes. The internal collector (1) is held in the outer conduit (2) by centralizers (3) clamped and riveted to the two conduits. The outer collector is shorter, and connected by telescoped ferrules (4). The internal and external sealing of the collectors between them is ensured by adhesive strips. The tip (5) of fresh air intake is prefabricated at the factory: the galvanized steel cap is connected to the internal and external ducts with adhesive strips sealed (6), and the fresh air is blown into the room by a stitching (7) on the outer collector. The connection between the double envelope pieces and the three concentric envelope pieces is made with a prefabricated bend (8) in the upper part, the outer envelope being sealed by a cap with silicone seal (9). The energy recovery parts have three envelopes, and comprise two connections (10) one partly other, the other in the lower part, on the outer envelope. On these parts, a third quilting (11) is made in the lower part with an isolation valve (12) for possible recovery of the condensate, and the inner casing is made without plug to allow the recirculation of the air flow in the chamber. intermediate envelope. This device is particularly suitable for individual or collective housing or office buildings, new or to renovate, for low pressure or mechanical ventilation extractions, for electric or gas heating, with auto-type or hygro-adjustable vents.

Description

The present invention relates to a ventilation duct system comprising two or three concentric envelopes, designed to allow the recovery of existing energy in the exhaust air ventilation networks, minimizing electrical consumption, volume losses. habitable constructions, maintenance constraints, and allowing a recovery of water. Today, this energy is systematically lost in technical ducts and unheated volumes. Some installations, known as "double flow", allow thanks to two fans, and compact heat exchangers, to recover a large part of the energy contained in the extracted air: but the actual recovery of energy is not total, the dissociated networks require a significant loss of habitable volume, the electrical consumptions are important, and the machines must be frequently cleaned. The device according to the invention overcomes these disadvantages.

Indeed, the fresh air supply duct is positioned inside the outer casing, at room temperature: this allows, throughout the course, a perfect heat exchange against the current. In the rooms where the extraction is carried out (service parts mainly), the energy recovery is carried out by a vertical collector with three envelopes, the extracted stale air being collected in the external duct: the exhaust air flow is vertical, with heat exchange against the current, air intake in height and connection to the extraction tube at the bottom: this allows a possible condensation of the extracted saturated air, the condensed water being recoverable through a quilting performed in the lower part with isolation valve. Fresh air, at the same time, has an inverted flow through an opening at the bottom of the inner duct. The internal collector is always maintained in the outer duct by centralizers, fixed by collars on the two ducts, and distributed at 120 ° on the generatrix of the tubes. The sealed connection between two collectors is provided with telescoped ferrules and adhesive strips. The new air intake caps have a factory-sealed cap and close the annular gap between the two sleeves with adhesive tape. The end pieces of the three-pipe networks are sealed by an elastomer seal.

The connection between the double-shelled parts and the three-piece concentric parts is made with a prefabricated elbow in the upper part, the outer casing being sealed by a cap with silicone seal. The "reverse-flow" collector thus constituted comprises the all the specific parts allowing to connect all ventilation installations, individual or collective: right length of fresh air, elbow, reduction or tee of fresh air connection, vertical duct of recovery. Figure A represents the entire system. This device is particularly suitable for all housing constructions or offices, any height, new or to renovate, for low-pressure or mechanical ventilation, for electric or hot water heating, with auto or hygro-adjustable vents. It allows a systematic saving of electrical energy and heat consumed, by recovery on the air, and a possible water recovery (non-potable use), without significant maintenance, with a saving of space compared to traditional dual flow solutions.

Claims (10)

CLAIMS1) Energy recovery device characterized in that it comprises an assembly of prefabricated collectors comprising two or three concentric envelopes for connecting the air intake or extraction ports 2) Device according to claim 1) characterized in that the ducts with two concentric envelopes convey fresh air. 3) Device according to claims 1) and 2) characterized in that the collector making "inner envelope" is bonded to the outer casing by centrers fixed at 3 equidistant points on the outer conduit. 4) Device according to claims 1), 2) and 3) characterized in that the ducts with two envelopes are delivered with a shorter outer casing, to allow their connection with a telescopic ferrule 5) Device according to claims 1), 2), 3) and 4), characterized in that the internal and external sealing between the prefabricated ducts is made by telescoped ferrules and adhesive strips 6) Device according to claims 1) and 2), characterized in that the fresh air intake caps have a sealing cap, factory-bonded by adhesive strips, which closes the annular space between the two sleeves 7) Device according to claim 1) characterized in that the ducts with three envelopes are placed vertically and connected to the ducts with two envelopes by a prefabricated elbow in the upper part, the seal on the third outer casing being made through a seal silicone 8) Device according to claims 1) and 7) characterized in that the ducts with three envelopes comprise an inner duct open at the bottom, to allow a recirculation of the fresh air flow in the intermediate casing. 9) Device according to claims 1), 7), 8), characterized in that the outer casing has two connections, one at the top, the other at the bottom, to allow the extraction in reverse flow of stale air. 10) Device according to claims 1), 7), 8), 9), characterized in that the outer casing has at the bottom a stitching with isolation valve, intended to allow the possible evacuation of the condensed water