SE513559C2 - Apparatus and method for regulating gas flow with a regulating device comprising crane-shaped slats - Google Patents

Abstract

The regulation device (10) comprises slats (11a 1 , 11a 2 ...) which have been installed in the form of a circle. The assembly constituted by the slats (11a 1 , 11a 2 ...)can be installed in the interior of a duct, valve body or equivalent so as to regulate an air flow a gas flow or equivalent. A separate wire loop (12, fig.3) is fitted to be connected with at least one slat (11a 1 ,11a 2 ...) so that, by rotating the wire (12), the slat can be pivoted into different positions of regulation. Further, there is a regulation part (14) by which the wire (12) can be rotated.

Description

The invention is described in the following with reference to some advantageous embodiments of the invention shown in the figures in the accompanying drawings. However, the intention is not to limit the invention only to these embodiments.

Figure 1 shows a section of a control device according to the invention in axonometric projection. For the sake of clarity, a channel D is shown in the form of two parts separated from each other.

Figure 2 shows axonometrically the connection of a control part lä to a sleeve part 13.

Figure 3A shows a section I-I of Figure 2.

Figure 3B shows a section II-II of figure 2.

Figure 4 shows another embodiment of the invention where the regulating movement is transmitted to the device over a separate additional wire at a longer distance from the device.

A control device 10 comprises, as shown in Figure 1, parts or slats 11a1, 11a2 ... for throttling an air stream. The slats overlap each other at the longitudinal edges and the slats are hinged at one end e1, e¿ ... the end e1, e2 ... of each disc-shaped slat is bent to enclose a common, loop-bent functional member 12 in the construction. The functional member 12 consists of a flexible but torsionally rigid wire, advantageously a wire or the like. The wire is thus bent into a loop and the torsional rigidity of the wire 12 is large. Between the slatable end edges of the slats llal, llaz ... is also arranged a The wire 12 is passed through it to a loop the ends e¿, e2 ... separate sleeve 13a1, l3a¿ ... curved end edge e¿ , e2 ... of each lamella 1la1,1la¿ ... and through each sleeve l3a1, l3az ... from one lamella llal to another 10 15 20 25 30 35 513 559 3 llaz ... The to a loop bent end edge e1, e2 ... of the lamella lla1, lla¿ ... is pressed to the thread. By twisting the wire, the slats llal, lla2 ... are thereby affected at the same time and pivoted as a set in different adjustment positions.

All slats lla1, lla2 ... shaped construction. The regulator 10 functions in such a way that it is thus connected to a ring lamella 11a, 11a2 ... in the regulator 10 forming a semi-conical flow path tapered in the flow direction. When regulating and restricting the air flow, the cone angle of that of the slats 1181, 118.2 is set. . . The flow cross-section is regulated by the output end of the regulator. formed the construction. When setting the convex Since the slats 11a1, 11a2 ... overlap each other at the side edges and form the semi-conical construction in question, the device can easily be installed in a standard channel D. The channel D does not need to be provided with channel extensions or the like. From the lamella construction lla¿, lla2 ... a semi-conical composition can thus be formed where the cone angle of the truncated cone formed by the lamellae can be regulated by pivoting the lamellae in the lamella set as a whole. In one extreme control position, the lamellae with their surfaces U lie parallel to the surface of the connecting pipe or duct structure D, the lamellae 11a1, 11a2 ... not appreciably forming any flow resistance for the current. In the second outermost control position, the cone angle between the lamellae 11a1, 11a2 ... is as large as possible, the cross-section of it within the lamellae 1131, The current is thereby throttled to the highest possible degree.

The device according to the invention comprises a control part 14, which extends partly out of the channel D or the like through an opening F received in the channel. The control part 1a is advantageously constituted by a rotatable roller. By rotating the rotatable roller 14 to simultaneously in different, the wire 12 which connects the slats l1a1,1la2 ... to each other is actuated and the slats lla¿, lla2 ... are turned into adjustment positions. The plastic control part 14 is connected to a sleeve part 13. The sleeve part 13 to which the control part is connected is pressed to the wire 12 which joins the slats 118.1, 1132. . . na l3a1, l3a2 ...

The wire 12 is passed through the central holes in the sleeve parts - and also through the end edges bent into a loop. The wire 12 thus, like the e1, e2 ... of the slats llal, llaz ... forms a loop around the lamella set. Several slats 11a1, 11a2 ... are also advantageously pressed to the wire 12 on the stretch of the wire 12 bent to a loop with its end edges e1, e2 bent to a loop ... By influencing the wire 12 in one place along its length the entire trees 12 are thus rotated and the slats 11a, 11a2 connected thereto are pivoted ... The sleeve part 13 advantageously has a polygonal cross-section, in which the adjusting part 14 of plastic, advantageously a regulating roller, can be snapped with snap joints.

The control device 10 according to the invention can be fitted as such in a channel D or the regulator can comprise a separate so-called valve body part D, in which the device is fully inserted.

When inserting the control device 10 into the channel D, it can be fitted in a sickle Q formed by rolling inside the channel D. For the control part or the control roller 14 or the like, a feed-through opening F can be accommodated in the side surface of the channel D. The control roller 14 is located halfway inside in the duct D in the construction and half outside the duct D. The regulation can thus be carried out from the outside of the duct D by turning the regulating roller 14.

Figure 2 shows the connection of the regulating part 14 to the sleeve 13.

The adjusting part 14, preferably an adjusting roller, is attached to the sleeve 13, the outer circumference of which has a polygonal cross-section.

The sleeve 13 encloses the wire and is attached to it with a press fit.

Several slats lla1, lla¿ ... are also fixedly connected to the wire 12 with their lamella end edges e1, e¿ ...

Figure 3A shows a section II of Figure 2. When the adjusting roller 14 is rotated (arrow S1), the wire 12 connected thereto and further (arrow S2) the structures or slats 11a connected thereto are rotated. 1la¿ ... so that all slats lla1, lla2 ... are set in motion at the same time. The movement of the slats 1la1, lla2 ... is promoted by the slats lla1, lla2 ... overlapping or lying on top of each other at their longitudinal edges f, whereby when a slat 11a1,11a2 ... all other slats llal, llaz .. also move. moves automatically. In order for the slats lla1, lla2 ... to be able to move at the same time, the regulating force should act simultaneously on different sides of the slat ring.

This has been made possible by the wire construction according to the invention by connecting the wire 12 to several different lamellae 11a1,1la2 ... at even distances along the lamella ring.

Figure 3B shows a section II-II of figure 2. As shown in figure 3B, the wire 12 is connected to the lamella 11a in such a way that the root end e3 of the lamella 11a is bent into a loop around the wire 12. Between the wire 12 and the end e3 of lamella lla3 there is a press fit. The press fit shown in Figure 3B advantageously occurs between the wire 12 and the root end el, e2 ... of several lamellae 11a1, 11a2 ... 12. In this way the torque can be distributed evenly on all lamellae 113.1, 11.32. . . evenly spaced along the entire circumference of the wire Figure 4 shows another embodiment of the invention. By turning a control knob 16, a wire 17, a gear wheel 15 and a further control part 14 engaging therewith are rotated, which in this embodiment have a gear ring 14 '. The adjusting part 14 is connected in the manner explained above to the wire 12, which encloses the lamella set 11 which can be adjusted as a semi-conical construction.

The wire 12 is connected to the slats lla1, lla2 ... in the manner indicated above.

Claims (8)

10 15 20 25 30 515 559 ß Patent claim A control device (10) for regulating an air flow, a gas flow or the like, which control device (10) comprises circumferentially arranged lamellae (11a1, 11a2 ...), the one of the lanes (11a1, 1 lag...) The composition formed is insertable into a duct (D), a valve body or the like for regulating an air flow a gas flow or the like, characterized in that the device has a wire (12) which is bent into a loop and arranged connected to lamellae (1 laj, 11a2 ...) in such a way that the slats can be pivoted by rotating the wire (12) into different control positions, that the device has a control part (14) with which the wire (12) can be rotated, and that the wire (12) is passed via fl your slats (11a1, 1la2 ...) and is fixedly connected to olika your different slats (11a1, 11a2 ...) in such a way that by turning the wire they are attached to the wire (12) connected slats (1 lat, 1 1a2 ...) in motion simultaneously. 2. Adjusting device according to claim 1, characterized in that the wire (12) is made of metal. Adjusting device according to one of the preceding claims, characterized in that the wire (12) is connected to a sleeve part (13) arranged between the lamellae (1 laj, 1 lag. _.), Which is connected to the thread (12) with press fit. Control device according to one of the preceding claims, characterized in that the lamella part (1 laj, 11a2 ...) is connected to the wire (12) with its end edge bent to a loop (e1, eg.. _) . Control device according to one of the preceding claims, characterized in that the wire (12) and the lamellae connected to it ((11a1, 11a2 ...) can be inserted into a groove (Q), a sickle or the like. formed in the channel (D). Control device according to one of the preceding claims, characterized in that the control part (14), which rotates the wire (12) and is connected directly or indirectly thereto, is a rotating roller which extends partly outside the channel (D ) through an opening in the channel (F). Control device according to one of the preceding claims, characterized in that the control part (14) connected to the wire (12) is a gear which is set in motion by means of another gear (15), which second gear (15) in turn is set in motion with a control knob (16) or the like and that a wire (17) or the like is arranged between the gear (15) and the control knob (16). A method for regulating air flow, gas or any other gaseous flow medium, in which method a lamellar array assembly is used as regulator, which can \\ FSERVER \ USERS \ E.TP \ DOK \ WORD-DOK \ P33389, kr.doc 515 559 '11 is moved in different control positions in a flow channel (D) or the like by pivoting the lamellae (1 lal, 11a2 ...), characterized in that the flow cross-section of one of the lamellae (11a ) limited flow path (A) is regulated by twisting a wire (12), which is connected to at least one lamella (l lal, l1a; _...), advantageously to fl era. \\ FSERVER \ USERS \ EIP \ DOK \ WORD-DOK \ P33389.kr.doc