CH380338A - Process for securing the shielding effect of an air curtain between two rooms when a pressure difference occurs between these rooms and the device for carrying out the process - Google Patents

Description

  

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 Process for securing the shielding effect of an air curtain between two rooms in the event of a pressure difference between these rooms and means for carrying out the process To prevent the exchange of air between two rooms with different air conditions, between which a passage for people and material must be kept free known to use a shielding means in the form of an air curtain. A prerequisite for the effectiveness of such an air curtain is that the air curtain can pass the passage mentioned without interruption.

   However, it has been shown that changes in wind and temperature that occur can cause a deflection of the air curtain mentioned, which then results in a risk that a greater or lesser exchange of air takes place between the two rooms.



  The subject of the patent is a method for securing the shielding effect of an air curtain between two rooms when a pressure difference occurs between these rooms, in which the air flow forming the air curtain is pivoted from the normal position to the room in which the higher pressure prevails. The method is characterized in that during the swiveling of the air flow, the amount of air generating it is increased proportionally to the extent of the swiveling of the air flow from the normal position by widening the outflow opening for the air flow while keeping the pressure of the supplied air constant.



  The subject of the patent is also a device for carrying out the method, with an air supply duct which has at least one air distribution gap, the length of which corresponds to the desired width of the air curtain and which is limited on its long sides by two pivotably mounted, jointly pivotable guide vanes.

   The device is characterized in that each of these guide vanes has a droplet-like cross-section, which is round on the side facing the flow and wedge-shaped on the other side pointing in the direction of the air flow, and that each guide vane is pivotably mounted about two mutually effective axes is, of which one lies approximately in the center of curvature of the round section of the wing cross-section and forms the pivot center when pivoting the wing in question to the other wing, while the other axis is closer to the round section of the wing cross-section and the pivot center of the wing in question when pivoting from other wing forms away.



  The method according to the invention is described below in an exemplary embodiment with reference to the drawing, which shows a cross section through an air supply channel which is provided with regulating means for the air curtain.



  In the drawing, 1 and 2 denote two rooms with different air conditions between which a shielding air curtain 3 is maintained. 4 denotes an air supply duct which is attached to one side of the free passage between rooms 1 and 2. This air supply channel is provided with an opening 5-5 '. In this opening two rotatably mounted guide vanes 6 and 7 are attached, between which there is a gap 8. The guide vanes 6 and 7 have a drop-like cross-section which is round on the side facing the flow and wedge-shaped on the other side pointing in the direction of the air flow 3.

   Sealing means are denoted by 9, which press resiliently against said guide vanes over their entire length. The guide vanes 6 and 7 are mounted and shaped so that,

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 if they are turned on one of the two sides, e.g. B. in the dot-dashed positions 6 'and 7', the air curtain is then given an oblique direction, the width of the gap 8 between the guide vanes 6 and 7 is increased at the same time. In the embodiment shown, this effect is ensured by the fact that the guide vane 6 or 7 has two alternately effective axes of rotation 6a, 6b or 7a and 7b.

   In order to achieve such a rotation of the guide vane 6, for example, said guide vane is provided at each end with a stub shaft (not shown in detail), which shafts are mounted in the axis of rotation 6b and, when the guide vane 6 is rotated to the left, in a groove 11 slide, which is attached to holding means 10 in the air duct 4 at the two front ends of the guide vanes. 6e denotes a groove made at each end of the guide vane 6 for a corresponding stub shaft fixed on the holding means 10, lying in the axis of rotation 6a, which slides in the mentioned groove when the guide vane is rotated to the right.

   13 denotes a spring, one end of which is fastened to said stub shaft and the other end of which is fastened to the guide vane 6. The purpose of the aforementioned spring is to prevent the stub shaft from sliding in the groove 6e when the guide vane 6 is rotated to the left. The guide vane 7 is provided in the same way with similar elements, which are designated in the drawing with 7a, 7b, 7e, 10, 12 and 14. 15 and 16 designate two toothed rollers attached to one end of each guide vane, the teeth of which are actuated by a toothed rack 17.

   This rod is provided by a rod 18 with an actuating device (not shown, but known per se), which device actuates the said rod in one direction or the other when pressure changes occur between the two spaces 1 and 2 and thus ensures that the Guiding vanes coupled to one another in this way divert the air flow towards the room in which the higher pressure prevails.



  Also arranged in the air duct 4 is a pressure-sensitive element (not shown), known per se, which either regulates the speed of the air duct fan (also not shown) or throttles the amount of air so that the air pressure in the air duct 4 remains constant.



  Instead of just one pair of guide vanes 6, 7, for example two such pairs of guide vanes could also be arranged next to one another in the air duct 4. There would then be two gaps 8, through each of which an air stream exits.

 

Claims (1)

PATENT CLAIMS I. A method for securing the shielding effect of an air curtain between two rooms when a pressure difference occurs between these rooms, in which the air flow forming the air curtain is pivoted from the normal position towards the room in which the higher pressure prevails, characterized in that during the Pivoting the air flow, the amount of air generating it is increased proportionally to the extent of the panning of the air flow from the normal position by widening the outflow opening for the air flow while keeping the pressure of the supplied air constant. 1I. Device for carrying out the method according to claim 1, with an air supply duct which has at least one air distribution gap, the length of which corresponds to the desired width of the air curtain and which is delimited on its longitudinal sides by two pivotably mounted, jointly pivotable guide vanes, characterized in that that each of these guide vanes (6, 7) has a droplet-like cross-section, which is round on the side facing the flow and wedge-shaped on the other side pointing in the direction of the air flow (3), and that each guide vane about two mutually effective axes (6a, 6b ; 7a, 7b) is pivotably mounted, one of which (6b; 7b) lies approximately in the center line of curvature of the round section of the wing cross-section and forms the pivot center when the relevant wing (6 or 7) is pivoted towards the other wing (7 or 6), whereas the other axis (6a; 7a) is closer the round section of the wing cross-section and forms the pivot center of the wing in question (6 or 7) when pivoting away from the other wing (7 or 6). SUBCLAIM Device according to claim 11, characterized in that the one pivot axis (6b; 7b) of each guide vane is formed by bolts attached to the end faces of the guide vane, the holding means (10) arranged in slots (11, 12) of both said end faces for the Engage guide vanes, whereas the other pivot axis (6a; 7a) is formed by bolts attached to the holding means (10) which engage in slots (6c, 7e) in the end faces of the guide vanes, these slots being concentric to the one in the same area of the Guide vane arranged bolts run and the slot ends form stops for the bolts.