FI103154B - Controller and method for flow control - Google Patents

Description

FIELD OF THE INVENTION The present invention relates to a regulator and a method for controlling flow.

The so-called prior art is known from the applicant's prior patent. iris control structure, in which the regulator damper or slats can be positioned as a single louvre damper inside the pipe or the like. The flow cross-sectional area of the semi-cone-shaped structure is adjustable by moving the slatted bundle as a single assembly and influencing the slatted structure by means of a movable spindle placed inside a separate pipe.

This application discloses an improvement to the aforementioned control device structure.

The application discloses the use of a separate yarn placed around a conical louvre bundle, which is twisted to move the louvre assembly from outside the structure, e.g., a pipe. The application thus provides a simple and inexpensive motion mechanism for the iris regulator.

The air flow control device according to the invention is essentially characterized in that there is a wire which is bent and looped through a plurality of slats and is adapted to engage at least one of the slats so that the wire can be pivoted to different adjusting positions.

The method of controlling the flow of air according to the invention is essentially characterized in that the cross-sectional area of the flow path defined by the slats is controlled by twisting the yarn associated with at least one slat, preferably more.

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The invention will now be described with reference to some preferred embodiments of the invention shown in the figures in the accompanying drawings, which are not, however, intended to be limited thereto.

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Figure 1 is an axonometric and sectional view of an adjusting device according to the invention. For illustrative purposes, channel D is shown in two disassembled sections.

Fig. 2 is a perspective view of the engagement of the adjusting member 14 with the sleeve member 13.

Figure 3A is a sectional view I-I of Figure 2.

Figure 3B is a sectional view II-II in Figure 2.

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Figure 4 illustrates another embodiment of the invention in which the adjustment is transferred to the device via a separate additional wire further from the outside of the device.

As shown in Fig. 1, the adjusting device 10 comprises, at its longitudinal edges, overlapping throttling portions of the airflow 15, i.e. slats 11a1, 11a £ · - ·, which are hinged at one end ej, e2 ·. encircle a common looped actuator 12 of the structure. The actuator 12 is a flexible but torsionally rigid wire, preferably a wire or the like. The wire 12 is thus bent into a loop. The thread 12 has a high torsional stiffness. Each slice llaj, lla2 · ..

In addition, a separate sleeve is provided between the end loops ej ... ... bent into a loop. 13a ^, 13a2 .... thread 12 is passed through each end llaj, 11a2 · .. into a looped end edge ej, e2 ... and through each sleeve 13a1, 13a2 ·. The end edge e ^^ - .. bent into the loops of the slats llaj, lla2 · .. is clamped to the yarn 12. In this way, twisting the yarn 12 acts on the slats 11a1, l1a2 · · · simultaneously and rotates them in one bundle to different adjustment positions.

In this way all the slats 11 aj, 1 la2 · - are connected to each other in a circular structure. The regulator 10 operates in such a way that the slats 11a ^ 1 ^ ... of the regulator 10 form a semi-conical tapered flow path downstream. The cone angle 30 of the structure formed by the slats Ι ^, Ι ^ ... is adjusted when adjusting the air flow and its throttling. By adjusting the cone angle, the flow cross sectional area of the regulator outlet end is adjusted. When the slats 11a, 1, 2, 3, 4, 10, 10 103 are placed overlapping at their lateral edges and form such a semi-conical structure, the apparatus can be easily installed in a regular duct D. No need for duct extensions or the like is required for D. The lattice structure 11a-l1a2 · .. can thus be formed into a semi-conical assembly, the half-cone-5 of which is formed by the slats of the cone, which can be adjusted by turning the slat assembly into one of its slats. In the second extreme position of the adjustment, the slats at their surface planes U are parallel to the surface of the associated tubular structure D or duct structure, whereby the slats 11a |, 11a2 · - * do not provide much flow resistance to the flow. At the other end of the adjustment, the cone angle between the slats 11a1, 11a2 --- is maximized, so that the flow cross-sectional area of the flow path A bordering the lattice 10l, ll2a is as small as possible at the outlet end of the lattice structure. The flow is then choked as much as possible.

The apparatus according to the invention comprises an adjusting member 14 which extends partially outside the channel D or 15 through an opening F in the channel. The adjusting member 14 is preferably a swivel castor. By rotating the rotary knob 14, the slats 11a, 1, 2, 3, 4, 6, 6, 6, 6, 6, 6, 2 are exposed to the interconnecting yarn 12 and the slats 11a, 1, -,. The plastic adjusting member 14 engages the sleeve member 13. The sleeve member 13 to which the adjusting member 14 engages is clamped to a thread 12 connecting the slats 11a, 11a2 · .. The wire 1220 is guided through the central holes of the sleeve members 13a1, 13a2 · · lla2- .. looped through the end edges ej ^ .... The yarn 12 is thus looped around the slats. Further, the yarn 12 is clamped along the length of the twisted yarn 12 preferably a plurality of slats llaj, lla2 ··· into a looped end edge ej ^ .... This way, the yarn 12 is rotated throughout the yarn 12 and rotated with the associated slats 1. la, 1 la2____Holk kiosk 13 is preferably a polygonal cross section into which the plastic adjusting member 14, - preferably the squeegee is clickable by a snap connection.

The control device 10 according to the invention can be fitted as such inside the channel D or the controller 30 comprises a separate so-called control device. valve body part D, into which it is pre-assembled. When fitted to the channel D, the adjusting device 10 can be placed inside the channel D in a corrugated Q. By means of the adjusting member 14, i.e. the impeller or the like, a through hole F can be cut on the side surface of the channel D. The adjustment can thus be made from the outside of the channel D by turning the adjusting wheel 14. , 5

Figure 2 shows the engagement of the adjusting member 14 with the sleeve 13. The adjusting member 14, preferably the adjusting wheel, is attached to the sleeve 13 having a polygonal outer circumference.

The sleeve 13 surrounds the thread 12 and is secured thereto by a press fit. A plurality of slats 11a1, 11a2 · .., 11a, 11a2 · .., 10 of its bent end edges e1i-1, are connected to thread 12

Fig. 3A is a sectional view II of Fig. 2. As the adjusting wheel 14 is rotated (arrow Sj), its associated thread 12 and further (arrow S2) are rotated with its associated structures, i.e., slats 11a ..., so that all slats 11a1 are moved. lla2 ··.

15 simultaneously. The movement of the slats 11a ^, 11a2 - - - is facilitated by the fact that the slats llaj, lla2 · .. are overlapped by their longitudinal edges, i.e. overlaps, so that when automatically moving one slice Ι ^, Ι ^ ..., all the slats are moved. In order to move the slats 11a ^ 1 ^ ... simultaneously, the adjusting force must be applied simultaneously to different parts of the vane. This is made possible by the yarn structure according to the invention by joining 20 yarns 12 to several different louvres 1 kind, 11a2 - evenly over the vane.

Fig. 3B is a sectional view II-II in Fig. 2. As shown in Fig. 3B, thread 12 engages with rib 11a3 so that the base end 63 of the rib 11a3 is bent to loop around thread 12. There is a compression fit between wire 12 and end 63 of rib 11a3. Preferably, Fig. 3B shows a press fit shown at the base end of the wire 12 and the plurality of slats 11a, 11a2; ej, e2 · .. evenly across the 12 circles of the wire. Then the rotational force can be distributed evenly over all the slats llaj, lla2 ···

Figure 4 illustrates another embodiment of the invention. Turning the adjusting knob 16 rotates the wire 17, the gear 15 and the further adjusting member 14 which in this embodiment comprises a gear ring 14 '. The adjusting member 14 is connected as described above with 5 103154 to the thread 12 which surrounds the bundle 11 which can be positioned as a semic conical structure. The thread 12 engages with the slats 1, 11a2 as described above.

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Claims (9)

A control device (10) for controlling an air flow, gas flow or the like, which control device (10) comprises circumferentially arranged slats (11a ^ 1 ^ ...), whereby the configuration of the slats (11a ^, 11a2 ·. ·) 5 is adjustable. D), inside the valve body or the like for controlling air flow, gas flow or the like, characterized in that there is a wire (12) which is looped and passed through a plurality of slats (IIa ^ 1 ^ .. ·) and arranged to join at least one , 11a2 ...) such that by rotating the yarn (12) the slat is pivotable to different adjusting positions and there is an adjusting member (14) with which the yarn (12) is rotatable. Adjustment device according to the preceding claim, characterized in that the thread is fixedly connected to a plurality of different slats (Ι ^, Ι ^ ...) so that the threads (11a ^ lh ^ ··) are simultaneously moved by twisting the wire. ). 15 Adjusting device according to one of the preceding claims, characterized in that the wire (12) is made of metal. Adjusting device according to one of the preceding claims, characterized in that the thread (12) is connected to a sleeve part (13) between the slats (11a1, 11a2 · ..), which sleeve part (13) is connected to the thread (12). An adjusting device according to any one of the preceding claims, characterized in that the slatted portion (11a1, 11a2 · ..) is connected by a looped end (25) to its thread 25 (ej, e2 ·. ·). An adjusting device according to any one of the preceding claims, characterized in that the wire (12) and the slats (11a-1 ..) connected thereto are adjustable in a groove (Q), a corrugation or the like made in the channel (D). 30 7 103154 6, 103154 Adjusting device according to one of the preceding claims, characterized in that the adjusting part (14) which rotates the yarn (12) and which is directly or indirectly connected therewith is a pivoting wheel which extends partially outside the channel (D) through the opening (F) in the channel. Adjustment device according to one of the preceding claims, characterized in that the adjustment part (14) connected to the thread (12) is a gear which is moved by a second gear (15) which is further moved by the adjustment knob (16) or the like. between the gear (15) and the adjusting knob (16) is a wire (17) or the like. 10 A method for regulating an air flow, gas or other gaseous flow medium, which method uses a slider assembly that is adjustable in a flow duct (D) or the like by rotating the slats (IIa, IIa), characterized in that the .) the cross-sectional area of the flow path 15 (A) delimited is twisted by twisting the yarn (12) associated with at least one of the ribs (11a1, 11a2 · ..). preferably more. w 8 103154