DE3216997A1 - WINDOW BLOWERS FOR VENTILATION AND AIR CONDITIONING - Google Patents

Abstract

1. Window blower apparatus for ventilating and air conditioning units having a blow-out shaft (13), a primary chamber (5) which extends over the length of the blow-out shaft (13) and which is fed with supply air, primary nozzles (10) through which the supply air is blown as primary air jets from the primary chamber (5) into the blow-out shaft (13), a secondary chamber (6) which extends over the length of the blow-out shaft (13) and which is fed with supply air in a variable volume flow, at least one secondary outlet (12) which is disposed parallel to the primary nozzles (10) and through which the supply air emerges from the secondary chamber (6) and is entrained by induction by the primary air jets, and inlet openings (14) which open into the blow-out shaft (13) in the region of the primary nozzles (10) and through which the air in the room is sucked by induction as tertiary air by the primary air jets, characterised in that a volume flow regulator (3) is provided in the supply line (1) feeding the primary chamber (5), and, in order to feed the secondary chamber (6) with supply air, the said secondary chamber (6) is connected to the primary chamber (5) by way of variable throughflow cross-section.

Description

Schako metal goods factory

Ferdinand Schad KG branch in Kolbingen

7201 Kolbingen

Window blower for ventilation and air conditioning systems

The invention relates to a window blowing device for ventilation and air conditioning systems according to the preamble of claim 1.

Such a window blower is known from DE-OS 30 12 593. In this known window blower is over the primary nozzles blow a constant supply air volume flow into the exhaust duct, via a volume flow controller becomes a second adjustable supply air volume flow of the secondary chamber fed. The supply air exits the secondary chamber via secondary outlets without any significant flow impulses and is induced by the primary air jets taken away. Furthermore, as a tertiary air flow, the induction effect of the primary air jets creates room air sucked in through side inlet openings.

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The constant volume flow of the primary air jets is determined the total amount of air entrained by induction, which varies depending on the setting of the secondary volume flow Ratio of the supply air to the secondary air flow and the circulated room air of the tertiary air flow. The one from the exhaust duct into the room The total volume flow that is blown out is thus practically exclusively determined by the volume flow and the flow velocity of the primary air jets and their induction effect. Since the volume flow and thus also the Constant flow velocity of the primary air jets remains, the total volume flow and the flow velocity also remain the air exiting the exhaust duct is constant. These values can therefore be applied to the for the room ventilation and purging is set to the optimum value will. Nevertheless, it is possible to change the ratio of supply air secondary volume flow to room air tertiary volume flow the total ratio of supply air to room air in the one exiting the exhaust duct Adjust the volume flow to the current cooling or heating load for air conditioning the room.

The well-known window blower is complex in construction because the supply air is supplied via separate lines in the primary chamber and fed to the secondary chamber. In addition, two separate servomotors are required. With a the total supply air volume is set, which the window

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blower is supplied, while the second servomotor feeds a volume flow controller in the di ^ secondary chamber Air supply line adjusts.

The invention is based on the object of a window blowing device of the aforementioned type so that it is constructive while maintaining the advantageous functionality becomes easier and cheaper to manufacture.

According to the invention, this object is achieved by the features of the characterizing part of claim 1.

Advantageous embodiments of the invention are specified in the subclaims.

According to the invention, the supply air of the primary chamber and the Secondary chamber not fed separately. Only a single supply air line is provided through which the supply air is supplied to the primary chamber. The supply air enters the secondary chamber from the primary chamber, whereby the The passage cross-section is adjustable in order to be able to vary the secondary volume flow in the desired manner. In order to avoid the supply of air from the primary nozzles despite the variable amount of supply air branched off from the primary chamber into the secondary chamber The primary chamber is to keep the exiting primary volume flow constant in the required manner feeding air supply line a volume flow controller

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puts. If the passage cross-section between the primary chamber and the secondary chamber is enlarged, so that a larger secondary volume flow is branched off from the primary chamber, that of the primary chamber is controlled by means of this volume flow regulator The amount of air supplied is increased so that the volume flow emerging from the primary nozzles remains constant.

In a structurally particularly simple and thus inexpensive embodiment is a common, in Sheet metal housing extending in the longitudinal direction of the exhaust duct provided, which is divided by a partition into the primary chamber and the secondary chamber. In the Dividing wall are distributed over the longitudinal extent of openings through which the supply air flows evenly over the entire length from the primary chamber into the secondary chamber. One on the partition arranged slotted slide allows a simple and uniform adjustment of the for all openings Passage cross-section.

In this embodiment, the air supply lines that feed the primary chamber are expediently provided The volume flow controller and the slotted gate valve are operated by a common servomotor. This has on the one hand in relation on the manufacturing costs the advantage that only a single servomotor is required and on the other hand results This results in an inevitable coupling of the setting of the supply air volume flow supplied to the primary chamber and

of the secondary volume flow entering the secondary chamber from the primary chamber. The one for the necessary constant maintenance of the volume flow exiting the primary nozzles, it is necessary to coordinate the settings of the volume flow controller and slot slide is thus produced automatically in a particularly simple manner.

In the following the invention is explained in more detail with reference to an embodiment shown in the drawing. Show it :

FIG. 1 shows a side view of a partially cut along the line C-C in FIG Window blower,

FIG. 2 is a plan view partially cut horizontally along the line B-B in FIG on the window blower and

FIG. 3 shows a vertical section of the window blower according to the line A-A in FIG.

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Via a supply air line 1, which may have a reheater 2, the supply air is from the duct system of the ventilation or air conditioning system to the window blower fed. In the air supply line 1 is a known per se Volume flow controller 3 used. The volume flow controller 3 is controlled by a thermostat, for example controlled servomotor 4 operated.

The air supply line 1 opens into a primary chamber 5, which extends over the entire length of the window blower, i.e. the width of the window. On the side of the primary chamber 5 and parallel to this is a secondary chamber 6. The primary chamber 5 and the secondary chamber 6 are formed by a common sheet metal housing and separated from one another by a partition 7.

In the partition wall 7 openings 8 are provided, which a passage of the supply air from the primary chamber 5 in the Secondary chamber 6 enable. The openings 8 are rectangular and at equal intervals over the Longitudinal extent of the partition 7 distributed.

A slotted slide 9 is provided adjacent to the partition wall 7, which in the direction of the longitudinal extent of the Partition 7 is slidable. The slot slide 9 has openings corresponding to the openings 8. The slot slide 9 is between a position in which its openings with the openings 8 of the Partition 7 collapse and completely release it, and a position in which its perforations each located between the openings 8 of the partition 7 so that they are completely closed, displaceable. As can be seen from FIGS. 1 and 2, the slotted slide 9 is connected to the servomotor via a rod 4 and is moved by this.

In the top of the primary chamber 5 are formed as slots Primary nozzles 10 are provided in two rows over the entire length of the window blowing device are distributed. The width and the opening cross section of the primary nozzles 10 is dimensioned so that the supply air from the Primary chamber 5 in the form of primary air jets in one above the sheet metal housing of the primary chamber 5 and the secondary chamber 6 arranged mixing chamber 11 is blown. In the upper side of the primary chamber 6 is a secondary outlet 12 in Form of a continuous slot provided over the entire length.

The mixing chamber 11 narrows towards the top into a vertical blow-out duct 13. The secondary outlet 12 is through

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a vertical one, extending over the entire longitudinal extension Expanding baffle separated from the primary nozzles 10, so that the supply air emerging from the secondary outlet 12 is only immediately before the mixing chamber 11 enters the blow-out duct 13 with the nozzles emerging from the primary nozzles 10 Primary air jets combined.

Lateral inlet openings 14 covered by a grille also open into the mixing chamber 11 into the room air can enter as tertiary air.

Through the primary nozzles 10, the supply air exits the primary chamber 5 at a relatively high speed in the form of Primary air jets and is blown through the mixing chamber 11 into the exhaust duct 13. Because of the big Opening cross-section of the formed as a continuous slot Secondary outlet 12, the supply air exits the secondary chamber 6 via the secondary outlet 12 only with very little Flow rate in the mixing chamber 11 and is essentially only through the induction effect of the Primary air jets taken. Next is through the induction effect of the primary air jets, room air is sucked in via the inlet openings 14 and into the exhaust duct 13 taken away.

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The volume flow and the flow rate of the through the primary nozzles 10 in the mixing chamber 11 and the The primary air jets blown in from the blow-out duct 13 determine the total amount of air entrained by induction. If the volume flow and flow speed of the primary air are kept constant, induction also remains total amount of air entrained constant and from the Blow-out shaft 13, a constant total volume flow is blown out at a constant flow rate.

The supply air volume flow exiting via the secondary outlet 12 increases, decreases correspond to ^; the tertiary room air volume flow sucked in via the inlet openings 14, because the entire induction effect of the primary air jets remains constant. If the secondary volume flow is reversed decreases, the tertiary volume flow increases. By changing the secondary volume flow by means of the slotted slide valve 9, the mixing ratio of supply air to circulated room air in the the air flow exiting the exhaust duct 13 can be changed without affecting its total volume and its flow rate be changed.

To the primary air flow emerging from the primary nozzles 10 to keep constant, even if the secondary volume flow, which is branched off from the primary chamber 5, changes

is, the volume flow controller 3 is inevitably operated together with the displacement of the slotted slide 9. Will by moving the slotted slide 9, the passage cross-section between the primary chamber 5 and the secondary chamber 6 and thus the secondary volume flow is increased, that of the primary chamber is simultaneously controlled by the volume flow controller 3 5 supplied air volume increased.

Claims (1)

PATENT CLAIMS Window blowing device for ventilation and air conditioning systems with a blow-out duct, with a primary chamber that extends over the length of the blow-out duct and is fed with supply air, with primary nozzles through which the supply air is blown as primary air jets from the primary chamber into the blow-out duct, with a length of the Exhaust duct extending, in an adjustable volume flow, fed with supply air, with at least one secondary outlet arranged to the side of the primary nozzles, through which the supply air exits the secondary chamber and is entrained by the primary air jets by induction, and with inlet openings opening into the exhaust duct in the area of the primary nozzles, the room air is drawn in as tertiary air by the primary air jets by induction,
characterized, that a volume flow regulator (3) is provided in the supply air line (1) feeding the primary chamber (5) and that to feed the secondary chamber (6) with supply air, this secondary chamber has an adjustable passage cross-section is connected to the primary chamber (5). Postal checking account: Karlsruhe 76979-754 Bank account: Deutsche Bank AG Villingen (BLZ 69470039) 146332 Window blowing device according to claim 1, characterized in that the primary chamber (5) and the secondary chamber (6) separated from one another by a partition (7) with perforations (8) distributed over the longitudinal extension are and that on the partition (7) a slotted slide (9) for the adjustable covering of the openings (8) is arranged. 3. Window blowing device according to claim 2, characterized in that a common servomotor (4) for actuation of the volume flow regulator (3) and for moving the slotted slide (9) is provided.