NL8302412A - AIRFLOW CONTROL. - Google Patents

Description

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Airflow control

The invention has the object of a method and an apparatus for controlling the flow velocity of an air flow of air supply systems, wherein the volume can be varied in accordance with the type concept according to claim 1.

It is already known to constantly close or open outlet openings with the same angle of inclination of the exiting air jets. If air jets with different angles of inclination must emerge from outlet openings, a corresponding design of the relevant air outlet is required for each angle of inclination.

10 That requires very high costs. In addition, very close tolerances must be observed in the manufacture of the air outlets.

The object of the invention is to allow air jets with optionally different inclination angles to exit by means of uniformly designed air outlets.

Starting from a method according to the type concept according to claim 1, according to the invention it is proposed to close off a part of the outlet openings when the volume of the air flow is reduced, while the cross-sectional area of the other, used, exhaust vents remain unchanged.

When using the method according to the invention the flow velocity of the air jets can be kept in a stable range when the total volume of the supplied air flow is reduced. Namely, it is known that air jets become unstable at too low a flow velocity, which gives rise to poor mixing with the ambient air and to the appearance of drafts. As the volume of the airflow decreases, the outflow velocity of the air jets decreases in a proportionally quadratic manner. The cross-sectional area of the exhaust is inversely proportional to the air jet flow rate. By the method according to the invention, on the other hand, it can be achieved that when the total volume of the air flow is reduced, the cross-sectional area of the outlets can also be reduced, so that the flow velocity of the air jets can either be kept constant or in small ... .....--------- 8302412 «, -2- degree can be reduced. This is of significance in the first plate in variable volume airflow systems, where the volume of the airflow is adapted to the desired amount of cooling air in the rooms concerned. The volumes of the airflows can be varied in the range of 100 $ up to 50 $ or even up to 25 $

Embodiments of the method according to the invention are described in claims 2 and 3.

In order to carry out the method according to the invention, the invention starts from an induction outlet in accordance with the type concept according to claim U and it is proposed that each recess of the sliding member extends over two adjacent outlet openings.

Other embodiments of an induction exhaust according to the invention are described in claims 5 to 9. The drawing shows an induction exhaust for carrying out the method according to the invention.

The invention will now be described with reference to the drawing, in which: Fig. 1 is a plan view of a portion of a sliding member 20 according to the invention; FIG. 2 is a top plan view of an outlet reel with the slider of FIG. 1 in the open position; FIG. 3 is a top plan view of the outlet reel of FIG. 2 with the slider in closed position; FIG. ^ Is a perspective view, with parts cut away, of the induction outlet; and FIGS. 5-9 are schematic illustrations of the induction exhaust in cross-section, with the respective air jet characteristic in each case.

The induction outlet is provided with a sliding member 1 with which outlet openings 2 arranged in an outlet reel 3 can be closed. Above the outlet openings 2 which are provided in the outlet reel 3, recesses h formed in the sliding member 1 may be arranged in the longitudinal sides thereof and staggered in two rows so as to effect the formation of separate air jets, correspondingly therewith can alternate linearly on both sides.

8302412 J * -3-

The sliding member set 1 has a meandering shape on its two longitudinal sides, creating recesses U whose width corresponds to the width of the outlet openings 2, while the length thereof extends through two successive outlet openings 2 of a row of openings 5 and the distance between two outlet openings 2 extends.

The recesses h on one side of the sliding member 1 are staggered with respect to the recesses h on the opposite side of the sliding member 1 by approximately the distance between two successive recesses U.

10 Depending on the position of the sliding member 1, the recesses U thereof leave all outlet openings 2 of the outlet reel 3 completely free (fig. 2), or the recesses h leave only every second outlet opening 2 of the outlet reel 3 completely (fig. 3) ).

Therefore, at a volume of the airflow between 100 and 50 # of the maximum 15 volume of the airflow, all the outlet openings 2 can be left open, while at a volume of the airflow of 50-25% of the maximum airflow, only half of the number of outlet openings 2 is left open.

The adjustment of the sliding member 1 can, as can be seen in Fig. K, 20 be made by means of an electric or pneumatic adjusting motor 5.

In order to obtain an even distribution of the volume of the airflow over the length of the induction outlet, a perforated plate 6 is arranged at a certain distance in the direction of direction for the sliding member 1.

Two extruder press profiles 7 extending along the full length of the inductive exhaust sides 7 form together with the outlet reel 3, the sliding member 1 and the perforated plate 6 a construction unit in which the adjusting motor 5 is also included.

The air jet characteristic shown in Fig. 5 is obtained at a volume of the airflow of 100 # and a position of the slider 1 with all the outlet openings 2 open.

Fig. 6 and 7 show the air jet characteristic at a volume of the air flow of 50 # at a position of the sliding member 1 with all outlet openings 2 opened, respectively. half of the number of outlet openings 2 is closed.

Fig. 8 and 9 show the air jet characteristic at a volume of the air flow of 25 # at a position of the sliding member 1 whereby --------- 8302412 & -4-, therefore, all outlet openings 2 are opened, respectively. half of the number of outlet openings 2 is closed.

8302412

Claims (8)

1. A method of controlling the flow rate of an air flow of variable volume air flow systems, wherein the volume of the air flow can be adjusted according to the amount of cooling air that is desirable in a space to be ventilated or in which climate control is to take place and wherein the flow rate of the airflow blown into the space through a number of exhaust vents is kept constant within certain limits, by changing the joint cross-sectional area of the exhaust vents, characterized in that when the volume of the air flow is reduced, part of the exhaust -10 openings are closed, while the cross-sectional area of the other exhaust openings, which are still used, remains unchanged. 2. Method according to claim 1, characterized in that half of the number of outlet openings is closed off when the volume of the air flow is reduced by more than 50% of the maximum volume of the air flow. Method according to claims 1 and 2, characterized in that when closing a part of the outlet openings, one of two adjacent outlet openings is closed off each time. Ij ·. Induction exhaust with exhaust vents (2) for air jets flowing linearly on one side or alternately on both sides and a sliding member (1) with which the joint cross-sectional area of the exhaust openings (2) can be changed, whereby this sliding member ( 1) is provided with recesses (k) which are placed above outlet openings (2) according to the position of the sliding member (1), in accordance with the 25 method according to claim 1, characterized in that each recess (¾) of the sliding member (1) extends over two adjacent outlet openings (2). Inductive outlet according to claim, characterized in that the sliding member (1) is provided with staggered recesses (¾) on its two longitudinal sides with outlet openings 30 (2) arranged alternately on both sides. Induction exhaust according to claims U and 5 », characterized in that the slider (1) consists of a plate which, viewed in the flow direction of the air, is arranged in front of the outlet openings (2) and is disposed in a plane which is parallel to the plane of the cross-sectional surfaces of the exhaust openings. Induction exhaust according to claims 1 and 6, characterized in that the sliding member (-1) communicates with an electrically or pneumatically actuable actuating motor (5) mounted above an exhaust reel forming exhaust on e-5 (2) (3). Inductive outlet according to claims k to 7, characterized in that, viewed in the direction of flow of the air flow, a distance is arranged in front of the outlet reel (3) and parallel to it a perforated plate (6) which serves to equalize the volume of the air flow too divide. Induction exhaust according to claims k to 8, characterized in that the outlet reel (3) with the sliding member (1) and the perforated plate (6) are arranged between two extrusion press profiles (j). 8302412