NL1025451C2 - Ventilation unit for e.g. mounting in veranda roof, contains hinged air inlet and outlet valves controlled by printed electronic circuit - Google Patents

Abstract

A hinged inlet valve (4) is used to close the air inlet opening (2) and a hinged outlet valve (5) is used to close the air outlet opening (3). The two valves and fan (8) are controlled via an integral printed electronic circuit inside the unit.

Description

MECHANICAL VENTILATION UNIT

The invention relates to a mechanical ventilation unit for discharging air or other gases, usually used in the roof of a veranda, comprising a housing provided with an air inlet opening and an air outlet opening, both openings being closed by means of a hinged valve, both driven by a separate motor or plunger, and preferably comprising a tangential or roller fan inside the housing that allows to suck in air or gases via the air inlet opening and to blow them out again via the air outlet opening.

DE 38 28 852 describes a ventilation device that can be used both in a window and in a facade construction. The ventilation device is provided with a multifunctional housing which at the same time is designed as a space in the form of a rolling slag. A ventilation fan and weather protection are provided in this roller slag. In this ventilation device, only an outer valve and no inner valve are provided. A grille is provided on the inside of the ventilation device.

With this ventilation device, it is not possible to make it controllable depending on the climate conditions outside and inside (temperature, humidity, gas concentration, etc.), the occupancy rate in the room, etc.

This problem is partially solved in US 1,828,016. In this patent application 25 an automatic ventilation unit for a kitchen is described. The inlet opening and outlet opening of this ventilation unit are limited by means of ventilation slats. The movement of the ventilation slats and the fan can be controlled by means of a thermostat. However, the thermostat used for this is fully mechanical, so that it is not possible to install or connect additional H sensors in order to control the ventilation unit depending on several factors.

Furthermore, systems already exist that are provided with an inner valve for closing off the air inlet opening and an outer valve for closing off the air outlet opening. A disadvantage of these mechanisms is that the flow rate supplied by the built-in fan is limited by the shape of the inner element and the nature of the valve that closes the air inlet and / or outlet opening.

An additional disadvantage of these mechanical ventilation units is that the service life H of the valve motors and the fan is due to operating conditions that are not in accordance with or outside the technical specifications of the valve motors H and / or fan (such as the operating time, the control, the prevailing climate conditions within the ventilation unit, ...) is strongly limited.

The object of the invention is to provide a mechanical ventilation unit which does not have the aforementioned disadvantages.

The object of the invention is achieved by providing a mechanical ventilation unit for discharging air and / or gases, comprising a housing provided with an air inlet opening and an air outlet opening and comprising a fan I inside the housing which allows to sucking in air or gases via the air inlet opening and blowing them out again via the air outlet opening, wherein a hinged inlet valve is provided to close the air inlet opening, and a hinged outlet valve is provided to close the air outlet opening, and wherein both the inlet and outlet valves and the fan were approved via a built-in electronic circuit board in the ventilation unit.

3

In a preferred embodiment of a mechanical ventilation unit according to the invention, said inlet valve and outlet valve are each driven by a stepper motor.

In a preferred embodiment of a mechanical ventilation unit according to the invention, said fan operates tangentially.

The ventilation unit is preferably further provided with means for reducing condensation in the ventilation unit.

10

The mechanical ventilation unit according to the invention is preferably provided in the roof of a veranda.

This invention is further clarified in the following description of the mechanical ventilation unit. In this description reference is made to the figures attached here by reference numerals, in which: -Figure 1 shows a cross-section of the invention, the inlet and outlet valves being open and the fan not being shown.

Figure 2 shows a perspective view of the invention, comprising the various components, except inter alia the stepper motors and the springs.

Figure 3 shows a perspective view of the invention, comprising an outside view of the invention after mounting on a roofing element.

The invention relates to a mechanical ventilation unit for discharging air or other gases, usually used in the roof of a veranda, comprising a housing (1) provided with an air inlet opening (2) and an air outlet opening (3), both of which openings can be closed by means of an inlet valve (4) and an outlet valve (5) respectively, both hinged and driven by a separate stepper motor (6) and (7), respectively, and comprising a tangential H fan (8) inside the housing (1) that allows air or gases to be sucked in through the air inlet opening (2) and blown out again through I through the air outlet opening (3). The stepper motors (6) and (7) serve to open or close the inlet valve (4) and the outlet valve (5), respectively. The spring force generated via the springs (9) and (10) ensures that the inlet valve (4) and the outlet valve (5) respectively are permanently pressed against the shaft end of stepper motor (6) and (7) respectively, both during moving the valves as a standstill.

The mechanical ventilation unit is built up from an inner element (11) and an outer element (12) which is fixed against the inside and the outside of the roof covering element (14), which is located in the opening (13), respectively. By means of screw connections (20) which are arranged through the roof covering element (14) and which allow to accommodate a varying thickness of the roof covering element (14), the inner element (11) and the outer element (12) become ) attached to each other. An opening (15) bounded by the screw holes (21) is provided in the roofing element (14). Both the inner element (11) and the outer element (12) are closed off along the sides by end plates or end elements (16, 17, 18, 19). The head partitions of the inner element, namely the head partitions (18) and (19), are arranged by means of screw connections (22), I 20 through the covering element (14), connected to the head partitions (16) and (17), respectively. .

Sealing elements prevent precipitation either via the outer flap (5) and the inner flap (4), both in closed position, nor via the connection of the outer element (12) and the inner element (11) to the roof element (14) can penetrate into the ventilated area and in this way the service life of the fan (8) and I valve motors (6) and (7) is not reduced.

5

Additionally, a heat insulating element is provided against the outer valve (5) to prevent or delay condensation. In addition, a dew sensor is also built into the mechanical ventilation unit that makes it possible to detect any condensation on the inside of the housing and to control the fan and the valve motors in such a way on the basis of this detection that the formation and the presence of this condensation is eliminated.

The mechanical ventilation unit is produced in different lengths depending on the required ventilation flow rate produced by the fan (8).

10

Both the valves and the fan can be controlled manually or automatically via a built-in electronic print in the ventilation unit. The control can be done, inter alia, on the basis of detection of one or more of the following parameters: air temperature, air humidity, solar radiation, precipitation, wind speed, wind direction, gas concentration, presence.

Claims (4)

Mechanical ventilation unit for discharging air and / or gases, comprising a housing (1) provided with an air inlet opening (2) and an air outlet opening (3) and comprising a fan (8) inside the housing which allows air or gases to be sucked in via the air inlet opening (2) and to be blown out again via the air outlet opening (3), characterized in that a hinged inlet valve (4) is provided for closing off the air inlet opening (2), 10 and a hinged outlet valve (5) is provided to close the air outlet opening (3), and both the inlet and outlet valve (4, 5) and the fan (8) are controlled via a built-in electronic print in the ventilation unit. A mechanical ventilation unit according to claim 1, characterized in that said inlet valve (4) and outlet valve (5) are each driven by a stepper motor (6) and (7) respectively. Mechanical ventilation unit according to claim 1 or 2, characterized in that said fan (8) operates tangentially. I 20 Mechanical ventilation unit according to one of claims 1 to 3, characterized in that the ventilation unit is further provided with means for reducing condensation in the ventilation unit. I 25 s. Mechanical ventilation unit according to one of the preceding claims, characterized in that it is provided in the roof of a veranda.