DE10141158B4 - Device for adjusting a gas volume flow - Google Patents

Abstract

contraption (1) having a gas distribution box (33) in which one around a first Axis (29) pivotable throttle valve (5) in a flow cross-section (7) is arranged angle-adjustable, wherein the throttle valve (5) one of the inner wall (45) of the gas distribution box adjacent Having region which is pivotable about a second axis (31), to the gas volume flow, in particular air flow, in one narrow gas distribution box (33) to set in a larger area.

Description

The Invention relates to a device with a gas distribution box, in which a pivotable about a first axis throttle in a flow area is arranged angle adjustable.

From the DE 295 05 070 U1 is a device of the type mentioned above, which has a flow area in which a throttle element is arranged angle adjustable, wherein the angular position determines the gas flow rate. The throttle flap is integrated with a side wall of a gas distribution box and connected to the side wall via opposing, deformable webs of material. The angular adjustment of the throttle valve is carried out by appropriate deformation of the material webs, depending on the angular position of the throttle valve, the flow area is released more or less. It has been shown that the known throttle valve can not be used with narrow gas distribution boxes, since the throttle valve already abuts against an inner wall of the gas distribution box with a small angular adjustment. This has the consequence that not in all cases a desired gas flow throttling can be brought about. In order to adjust the gas flow rate in a wider range by means of the throttle even with narrow Gasverteilkästen, so far an additional throttle valve is used, which is arranged in a the flow cross-section associated gas guide tube. The additional throttle is correspondingly expensive and also has a larger volume compared to the integrated in the side wall of the gas distribution box throttle.

From the DE 199 48 218 A1 a device for adjusting a gas flow rate with a flow cross-section is known in which a throttle valve is arranged angle-adjustable, whose angular position determines the gas flow rate. The throttle valve has at least one displaceable region cooperating with an inner wall at a corresponding opening angle.

From the DE 201 00 634 U1 a control flap is known which is opposite to an opening having a wall. The opening is passed by a volume flow. The control flap can be moved towards the wall for corresponding opening or closing of the opening.

It Object of the invention, a device of the aforementioned To create kind of, that too for narrow gas distribution boxes can be used and preferably has a simple structure.

to solution The object is a device having the features of the claim 1 proposed. This is characterized by the fact that the device a gas distribution box, in which one around a first axis Swiveling throttle in a flow cross-section angle adjustable is arranged, wherein the throttle one of the inner wall of the Gas distribution box has adjacent area, which is around a second axis is pivotable to the gas flow, in particular Air flow, in a narrow gas distribution box in one to set a larger range. By relocating this area, the clear outside dimension of the im Flow area arranged throttle reduced, so that these in a larger angular range is pivotable as known throttle. The invention belonging Throttle is about an imaginary first axis and its displaceable Area in addition pivotable about an imaginary second axis. Due to this configuration is a reproducible angle adjustment of the throttle as well of their displaceable area possible. The displaceable throttle area can depending on the material of the throttle and design of the throttle valve storage be adjusted by bending, twisting, pivoting or the like. The device according to the invention has the particular advantage that even with narrow Gasverteilkästen in one opposite the known device larger area a desired one Gas flow throttling brought about can be adjusted or a desired gas flow rate adjustable is.

The Throttle valve is formed in a preferred embodiment plate-shaped, wherein it is preferably flat in its initial shape. If the first and second axes parallel or approximately parallel to each other, has the throttle at displaced area quasi a crank.

Furthermore, an embodiment of the device is preferred in which the throttle valve has a throttle body, with which the displaceable region is connected via at least one deformable first material web. The throttle body and the displaceable portion may be integrally connected with each other. Preferably, the throttle only consists of the throttle body and the displaceable area. In a displacement of the area relative to the throttle body, the at least one first web of material can deform plastically, that is, the set angular position of the area opposite the throttle body remains intact that additional funds must be used for this purpose. In another embodiment variant, it is provided that, in the case of a displacement of the area relative to the throttle body, the at least one first material web is not deformed plastically, but elastically, so that it automatically springs back into its starting position upon relief due to its material-related restoring forces. In this case, additional means are required to fix the displaced area in a desired displacement position.

Of the At least one first web of material can, for example, by the Inserting at least one, the throttle penetrating Slot be formed.

Around the position and the course of the second axis, about which the displaceable Area opposite the throttle body is pivotable, set, the throttle plate at a advantageous embodiment at least one shape on. In this context, under a molding in particular a depression or embossing or understood a place with a smaller material thickness. By the least a shape so the position of the bending edge is set exactly so that when a hit the throttle on the Gasverteilkasteninnenwand the area cooperating with the inner wall is not undefined deformed, but pivoted exactly to the predetermined second axis or is bent over.

Finally will an embodiment the device is preferred, which is characterized in that the Throttle formed integrally with one of the inner wall opposite wall of the gas distribution box is. The throttle is thus worked out of the wall here. In an advantageous embodiment is provided that at least this wall of the gas distribution box a sheet metal part is, so that the throttle valve preferably by Punching can be worked out. Preferably, the first Material webs and second material webs, over which the throttle valve with the Flow area is connected, as well as at least one throttle passing through Flow opening by means created at least one, preferably common punching operation.

Further advantageous embodiments The device result from combinations of those mentioned in the subclaims Features.

The Invention will be described below in several embodiments with reference to the associated drawings explained in more detail. It demonstrate:

1 a plan view of a provided with a throttle plate;

2 a cross section through a gas distribution box with arranged throttle valve according to 1 ;

3 a plan view of a provided with a second embodiment of the throttle plate; and

4 to 6 in each case an embodiment of the device according to the invention.

1 shows a device 1 for adjusting a gas volume flow. The device 1 has a sheet metal 3 on that with a throttle 5 is provided. The throttle 5 is located within a flow cross-section 7 , which is circular here. The throttle 5 also has a circular cross-section, wherein between the outer edge of the throttle 5 and the edge of the flow cross-section 7 There is a small gap to avoid jamming. The throttle 5 has several flow openings 9 on, evenly over the area of the throttle 5 are arranged distributed. The here purely exemplary circular flow openings 9 make sure that even in the 1 illustrated closed position of the throttle 5 in which it the flow cross section 7 essentially covered, a minimum gas flow the throttle 5 can happen.

Again 1 can be clearly seen, the throttle is 5 formed by that from the sheet metal 3 is cut free. This is preferably done by means of one or more punching operations. Here are about semicircular Freischnitte 11 and 13 in the tin 3 formed, with the two free cuts 11 . 13 with their ends 15 However, do not touch, but leave gaps A, creating second material webs 17 be formed, the connecting bridges between the throttle 5 and the remaining areas of the sheet 3 form. In this way are sheet metal 3 , second material webs 17 and throttle 5 integrally connected.

In the throttle 5 is also one, here from a slot 19 formed forming introduced. The slot 19 is essentially parallel to an imaginary, through the second material webs 17 extending straight line is arranged. The slot 19 ends before the outer edge 21 the throttle 5 , whereby first material webs 23 be formed, which are arranged diametrically opposite one another are. The first material webs 23 are deformable, so that here a circular segment-shaped area 25 the throttle 5 opposite to the below as the throttle body 27 significant remaining part of the throttle 5 is relocatable. That is, the area 25 Can with respect to the throttle body 27 be tilted, thereby being the first material webs 23 - Depending on the application of force and inclination - plastically or even elastically deform.

Alternatively, to define a preferred bending edge instead of the slot 19 also at least one indentation, embossing or a material section with a small wall thickness may be provided.

How out 1 readily apparent, the second material webs 17 on the throttle body 27 arranged. Due to this configuration, it follows that the throttle 5 by an imaginary, by the arrangement and design of the second material webs 17 defined first axis 29 and the area 25 by an imaginary, by the arrangement and design of the first material webs 23 defined second axis 31 are pivotable. The imaginary axes 29 . 31 fall so each with the bending edge of the throttle 5 or their area 25 together.

In the 1 illustrated throttle 5 may for example have a diameter of 160 mm.

2 shows a first embodiment of a gas distribution box 33 , the side walls made of sheet metal 35 and 37 has, which run parallel to each other and a gas distribution space 39 limit that on its top by means of a sheet metal part 41 and is closed at its ends by means of further, not shown sheet metal parts. At the lower longitudinal side of the gas distribution box 33 is a gas outlet 43 provided, which has at least one outlet opening through which in the gas distribution space 39 located gas, such as air, flows out, for example, in a room.

The side wall 37 of the gas distribution box 33 is from the basis of the 1 described with the throttle 5 provided sheet metal 3 educated. It is readily apparent that the diameter of the throttle 5 is significantly larger than the width B of the gas distribution box 33 ,

Because of the basis of the 1 described embodiment of the sheet 3 or the throttle valve 5 exists now according to the 2 the possibility of deformation of the second material webs 17 the throttle 5 to spend in a desired angular position, wherein a plastic deformation takes place, that is, the set angular position - the gas flow through the flow cross-section 7 determined - is set without the need for additional means to secure this angular position. The second material webs 17 on the one hand form the imaginary first axis 29 for the adjustment of the throttle 5 and on the other hand form a kind of locking elements for the predetermined angular position. Preferably lie - as out 1 visible - the two second material webs 17 regarding the throttle 5 diametrically to each other.

In 2 is the throttle 5 shown with a dashed line in a first angular position, in which they are opposite the side wall 37 or the sheet metal 3 is inclined by an angle α ₁ . In this angular position is the throttle 5 with their relocatable area 25 which, as shown, does not face the throttle body 27 is pivoted, but with this lies in a common imaginary plane, on an inner wall 45 the side wall 35 at. In known throttle this angular position of the throttle would be 5 an end position. However, because the throttle 5 the opposite to the throttle body 27 relocatable area 25 it is possible the throttle 5 in the in 2 to shift position shown by a solid line, in which the throttle 5 opposite the side wall 37 is inclined by an angle α ₂ , which is greater than the angle α ₁ . This is the area 25 by deformation of the first material webs 23 in the in 2 represented angular position, wherein a plastic deformation of the first material webs 23 he follows. In this angular position is the area 25 opposite the throttle body 27 inclined by an angle β. The angle β, the non-displaced area 25 is preferably zero, is dependent on the diameter of the throttle valve 5 and at what angle α the throttle 5 opposite the side wall 37 is inclined. The desired throttle values of the pressure loss determine the angle α of the throttle valve 5 ,

Of the 2 it can also be seen that the sheet metal 3 an air duct 47 can be assigned. This is, for example, by means of a thread-like connection on the sheet 3 held. Other connection types are possible. The air duct 47 can be designed as supply air connection piece, that is, via the air duct 47 an air flow or gas flow is the gas distribution box 33 fed, according to the angular position of the throttle 5 is throttled and then forwarded to fulfill a specific purpose, which - as I said - at the in 2 illustrated embodiment may consist of gas or air through the gas outlet 43 to enter a room.

3 shows a second embodiment of the device 1 , Parts that are already based on the 1 and 2 have been described are provided with the same reference numerals, so that reference is made to the description of the preceding figures. The following section deals only with the differences. The throttle 5 is symmetrical to the imaginary first axis 29 formed and has two, oppositely arranged, circular section-shaped areas 25 on, each about an imaginary second axis 31 relative to the throttle body 27 can be pivoted. The areas 25 are each about three first material webs 23 integral with the throttle body 27 connected, each one of the areas 25 associated first material webs 23 by two at a distance from each other and each from the outer edge 21 the throttle 5 spaced slots 19 are formed.

At the throttle 5 according to 3 There are a total of three ways to adjust the throttle pressure loss, namely by a corresponding angular position of the throttle 5 opposite the flow cross section 7 and by pivoting an area 25 or both areas 25 opposite the throttle body 27 ,

In the 3 illustrated throttle 5 is preferably for smaller flow cross sections 7 used and may have an outer diameter of for example 100 mm.

In 4 is the basis of the 2 described gas distribution box 33 with attached or integrated throttle 5 according to 3 shown. It can be seen that the diameter of the flow cross-section 7 and thus also the throttle 5 is significantly smaller than the one in 2 shown embodiment. The throttle 5 is in 4 shown pivoted in three angular positions I to III. In the first angular position I is the throttle 5 opposite the side wall 37 inclined by egg nen angle α ₁ , resulting in a permanent deformation of the second material webs 17 he follows. The one with the inner wall 45 the side wall 35 cooperating, by means of deformation of the first material webs 23 around the axis 31 swiveling area 25 is opposite the throttle 5 or the throttle body 27 inclined by an angle β ₁ . In this angular position I and with such a bent portion 25 results in a defined first throttle value of the pressure loss. To the throttle 5 starting from the first angular position I to pivot in the second angular position II, in which they are opposite the side wall 37 inclined by an angle α ₂ , the range must be 25 so far as to be bent over with the throttle body 27 includes an angle β ₂ . In the angular position II results in a defined second throttle value of the pressure loss. To the throttle 5 to pivot in the third angular position III, in which they are opposite the side wall 37 is inclined by an angle α ₃ , which is here 90 °, the displaceable area 25 so far as to be bent over with the throttle body 27 an angle β ₃ , which is 90 ° here. In the third angular position III of the throttle 5 is the gas flow through the flow cross section 7 largest, so the throttle values of the pressure loss lowest.

In the in 4 illustrated third angular position III of the throttle 5 runs their range 25 approximately parallel to the inner wall 45 of the gas distribution box 33 while the throttle body 27 parallel or approximately parallel to a gedach th longitudinal central axis of the air duct 47 runs. It is readily apparent that the distance between the first and second axes 29 . 31 approximately the same size as the width B of the gas distribution box 33 is. The throttle 5 So here is so designed and dimensioned that they are in a fourth angular position as they look 3 shows, the flow cross section 7 essentially completely covering, allowing the gas substantially only through the flow openings 9 and a very small amount through the free cuts 11 . 13 and slits 19 can flow through, while in the third angular position III, the flow cross-section 7 completely releases.

In the in 4 illustrated angular positions of the throttle valve 5 is just the one with the inner wall 45 cooperative area 25 opposite the throttle body 27 bent over in accordance with the desired throttle value of the pressure loss, while the other, oppositely arranged region 25 not bent or tilted and in a common plane with the throttle body 27 located. If necessary, can also be the second area 25 opposite the throttle body 27 be relocated.

The basis of the 1 to 4 described embodiments of the device 1 is common that the throttle 5 at the same distance of the pivot axis 29 to the inner wall 45 relative to known throttle valves in a larger range is pivotable and thus the throttle values of the pressure loss in a wider range are adjustable. In this case, the device 1 a simple and inexpensive and space-saving construction. The inclination, that is the bending angle of the respective area 25 opposite the throttle body 27 can before swiveling the throttle 5 or during that Swiveling the throttle 5 done by adding after hitting the area 25 on the inner wall 45 this at a Weiterverschwenken the throttle 5 is simply bent, the bending edge by the arrangement of the first material webs 23 is fixed.

5 shows a gas distribution box 33 which differs from the gas distribution box described with reference to the preceding figures 33 it differs in that it has a circumferential collar 49 has, on which the throttle 5 having sheet metal 3 is arranged. The throttle 5 is thus located at a distance b from the side wall 37 and thus also the first axis 29 to the the throttle 5 is pivotable. Due to the collar 49 is the distance between the first axis 29 and the inner wall 45 of the gas distribution box 33 larger than the ones based on the 2 and 4 described embodiments. This will achieve that the throttle 5 at the same bending angle of the area 25 is pivotable in a larger angular range.

In the 5 illustrated throttle 5 is preferably formed identically, as based on the 3 described throttle 5 , but can in principle also as the basis of the 1 described throttle 5 be educated. At the throttle 5 , here at her throttle body 27 , is a force attacker 51 arranged, which is designed as a hook. The arrangement of the power means 51 at the throttle 5 Here is chosen so that even with mounted device 1 or gas control box 33 the angular position of the throttle 5 is changeable. This is done with a via the gas outlet 43 in the gas distribution room 39 introduced, here formed by a rod adjustment 53 on the force application 51 attached, wherein at a Zugbeaufschlagung the force application means 51 the throttle 5 counterclockwise around the axis 29 and when pressurized clockwise about the axis 29 is pivoted. Due to this configuration, a subsequent regulation or adjustment of the throttle values of the pressure loss is readily possible. Due to the above-described arrangement and configuration of the force application means 51 are beyond the adjustment means 53 no further means for pivoting the throttle 5 required.

It remains to be noted that the basis of the 1 to 4 described embodiments readily the at least one, above-mentioned force application means 51 may have, so even after installation of the device 1 a subsequent adjustment of the throttle position is possible.

As in 5 shown is the relocatable area 25 independent of the swivel angle of the throttle 5 in a constant position relative to the throttle body 27 tilted, that is, the bending angle of the area 25 is constant. This skew can, for example, in a first-time displacement of the throttle 5 in the third angular position III, in which the gas flow through the flow cross-section 7 is greatest, be achieved because doing the area 25 on the inner wall 45 the side wall 35 abuts and at a Weiterverschwenken the throttle 5 around the first axis 29 along the second axis 31 is bent.

6 shows a further embodiment of the gas distribution box 33 on which a basis of the 1 and 2 described throttle 5 is arranged. The gas distribution box 33 similar to the one based on the 5 described gas distribution box 33 a circumferential collar 49 on, on which the throttle 5 having sheet metal 3 is arranged. The collar 49 serves to increase the distance between the throttle 5 and the inner wall 45 of the gas distribution box 33 to enlarge, so the throttle 5 at the same bending angle β of their range 25 can be adjusted in a larger angular range than in the 2 illustrated embodiment, in which the throttle valve 5 in the sidewall 37 is integrated.

Also in 6 illustrated throttle 5 indicates the throttle body 27 attached force attack 51 on, on the one above the gas outlet 43 in the gas distribution box 33 introduced adjustment 53 for the purpose of pivoting the throttle 5 in and counterclockwise around the axis 29 attacks.

All embodiments of the device described with reference to FIGS 1 is common that their throttle 5 each at least one, at a corresponding opening angle α with the inner wall 45 of the gas distribution box 33 interacting, relocatable area 25 having.

The throttle 5 is easy to produce, especially if it is made of sheet metal and optionally in one piece with a wall, for example, the side wall 37 of the gas distribution box 33 is trained. The throttle 5 However, it does not necessarily have to be integrally formed, that is, the displaceable area 25 and the throttle body 27 can also be formed as separate parts, which are connected by suitable means in at least one place so that the area 25 deformable, preferably with respect to the throttle body 27 is pivotable to allow the angular range in the the throttle 5 is pivotable to enlarge. The connection between the area 25 and the throttle body 27 can be done for example via a hinge or the like.

Claims (18)

Contraption ( 1 ) with a gas distribution box ( 33 ), in which one about a first axis ( 29 ) swiveling throttle valve ( 5 ) in a flow cross-section ( 7 ) is arranged angle adjustable, wherein the throttle ( 5 ) one of the inner wall ( 45 ) of the gas distribution box adjacent to a second axis ( 31 ) is pivotable to the gas volume flow, in particular air flow, in a narrow gas distribution box ( 33 ) in a wider range. Apparatus according to claim 1, characterized in that the first and the second axis ( 29 . 31 ) parallel or approximately parallel to each other. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) a throttle body ( 27 ), with which the displaceable area ( 25 ) via at least one deformable first material web ( 23 ) connected is. Apparatus according to claim 3, characterized in that the at least one, first material web ( 23 ) in one piece with the displaceable area ( 25 ) and / or the throttle body ( 27 ) is trained. Device according to one of the preceding claims, characterized in that the at least one, first material web ( 23 ) in relation to the throttle body ( 27 ) shifted area ( 25 ) is plastically deformed or elastically deformed. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) at least one, the arrangement and the course of the second axis ( 31 ) determining shaping ( 19 ) having. Device according to one of the preceding claims, characterized in that the area ( 25 ) relative to the throttle body ( 27 ) is displaceable by an angle (β) which is at least in a range of 0 ° and 90 °. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) in a first position the flow cross-section ( 7 ) at least substantially covers and is inclined in a second position relative to the flow direction of the gas. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) in a third position, the flow cross-section ( 7 ) at least substantially completely releases. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) over diametrically opposite de, deformable second material webs ( 17 ) with the flow cross-section ( 7 ) and that the second material webs ( 17 ) integral with the throttle body ( 27 ) and / or with the flow cross-section ( 7 ) are formed. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) with one of the inner wall ( 45 ) opposite wall ( 37 ) of the gas distribution box ( 33 ) is integrally formed. Device according to one of the preceding claims 1 to 11, characterized in that the throttle valve ( 5 ) opposite to the inner wall ( 45 ) of the gas distribution box ( 33 ) opposite wall ( 37 ) is offset at a distance (b). Device according to one of the preceding claims, characterized in that the flow cross-section ( 7 ) an air duct ( 47 ) assigned. Device according to claim 13, characterized in that the throttle valve ( 5 ) in the air supply pipe ( 47 ) is arranged angle adjustable. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ), in particular its throttle body ( 27 ) and the at least one displaceable area ( 25 ), and / or at least one wall ( 35 . 37 . 41 ) of the gas distribution box ( 33 ) are formed of sheet metal parts. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) of at least one flow opening ( 9 ) is interspersed. Device according to one of the preceding claims, characterized in that the throttle valve ( 5 ) at least one force application means ( 51 ), on which an adjusting means ( 53 ) for the purpose of adjusting the angle of the throttle valve ( 5 ) and / or the relocation of the area ( 25 ) relative to the throttle body ( 27 ) is attachable. Device according to one of the preceding claims, characterized in that the adjusting means ( 53 ) via a gas outlet ( 43 ) of the gas distribution box ( 33 ) is insertable in these.