SK10094A3 - Flanged profile for mutual connection of parts of air pipe - Google Patents

Abstract

The invention relates to a flange profile for a flange connection for the mutual fastening of cross-sectionally essentially rectangular air-duct portions consisting of sheet metal. The object of the invention is to ensure secure mounting of the flange profile on the air-duct portion, the intention being, in particular, for a durable, air-tight connection to be produced between the flange profile and the air-duct portion and between the air-duct portions themselves. In this arrangement, the sealing action of the sealing composition is to be durably elastic, and account is to be taken of fitting properties, adequate for technical requirements, in manufacture and mounting of the flange profile. The object is achieved according to the invention in that the vertex of the bead rebate is covered by an elastic layer, and the layer is formed so that it bears elastically and without interruption on the inner side of the opposite leg part. <IMAGE>

Description

Technical field

The invention relates to a flange profile of a flange joint for fastening to each other substantially rectangular sheet metal air duct components, in particular for high pressure air devices.

BACKGROUND OF THE INVENTION

It is known to connect pipe sections of this kind to frame angular profiles.

DE-A-27 58 295 discloses a flange profile which enables, as a frame with an air duct part, the air duct parts to be joined. In this case, the air duct profile sheet is inserted between two approximately parallel flange arms. In order to prevent leakage, a flexible seal is inserted into the mutually opposed flange arms of the flange arms which are located opposite one another. The disadvantage is the considerable spatial dimension of the sealant.

In addition, it does not guarantee the continuous and complete tightness of the air duct components with its in-line inset bridges.

DE-PS 35 12 669 discloses the construction of air duct profiles. wherein the flange shaped to join the air duct components is formed into a closed form to the air duct sheets.

The air duct plates bend in the form of a flange and form a spatially closed structural part. The end flange of the shaped flange has a tooth located at the point of arrival, adapted to the shape of the air duct sheet.

The design largely prevents air leakage from the air duct profiles, but is technologically difficult to manufacture and requires considerable manufacturing costs. Such large-scale air ducts are only possible at high cost.

The patent SU 15 74 184 A 3 shows a flange profile which has a bead in which a sealant is inserted between pairs of arms running parallel to the air pipe sheet. The sealant has a lip directed against the expected air flow and seals the inserted air duct profile sheet against the remaining air duct flange portion. However, the design according to the patent solution is not functionally safe with respect to the technical implementation, since when the air pipe sheet is inserted between the profile arms, the sealant is pulled out of the overhead and fed into the flange.

Another disadvantage of the lack of functional certainty during assembly is the inaccurate fitting of the flange profile to the air duct element. Furthermore, the protruding bead in the air duct has significant functional deficiencies, which create considerable air vortices in the bead area, which in turn cause dirt accumulation by their return flows and adversely affect the overall functionality of the air duct.

US PS 50 54 843 shows the location of an air duct flange on an air duct element. The flange profile is set on the air duct element, the contact edge of the air duct plate strikes against the inner guiding edge of the flange. On the perpendicular protruding leg of the profile flange, the bead placed inwards. The effective surface of the bead is located with some play above the air pipe sheet.

In order to prevent air from escaping from the flange element, this play is compensated by a seal in the region between the bead and the air duct sheet.

The arrangement in the manner described in the US PS has the disadvantage that the additional insertion of the sealing element between the air pipe sheet and the effective surface of the bead is very complex. If the sealing element is mounted on the air duct sheet prior to assembly, it is a condition that the insertion of the air duct sheet into the area between the lower arm and the sealing element in the air duct flange has to be met with great sensitivity. otherwise the sealing element is displaced and rendered ineffective.

DE PS 23 13 425 shows the location of the bead above the horizontal leg of the air duct profile on which the parallel running sheet of the air duct part is inserted. The spout protrudes into the inner space of the flange and forms a tapered seating element of the air duct sheet.

The smallest spacing of the tapered receiving element is slightly less than or equal to the thickness of the air duct sheet. On insertion, the sheet gets between the inner surface of the arms and the bead, thus sealing the bottom flange without guaranteeing that the flange is firmly fitted, fits flush with the air duct sheet and cannot release because of the dynamic load that may be caused by thermal action, the point load created on the contact edge is reduced and the flange then does not fully touch the air pipe sheet.

The design according to the solution of this DE PS does not guarantee safe and functional assembly, as manufacturing inaccuracies that cannot be excluded have a negative effect on the correct position of the bead in relation to the flange arm.

DS OS 33 13 235 shows a flange joint for a rectangular, four-wall air conditioning duct having four flange profiles fitted with four rectangular portions of the angle on the front of the air duct member. The flange profiles are approximately angular hollow profiles which are mounted on one wall of the air duct and fixed there by several spot welds.

The sealing between the flange profile arms and the pipe wall seems to be problematic, as air can flow into the free space between the inner flange profile arms and the pipe wall as a result of spaced spot welds. In order to achieve a better seal, according to DE OS, from the front radial leg of the pipe profile, a bead is bent into the hollow profile with a bias towards the horizontal flange leg. The inside bead of the bead rests on the inner side of the wall of the air duct by clamping it against the inner longitudinal arm of the flange. This is to achieve a seal. which is durable and easy to manufacture. The bead may be made in a variety of horizontally extending sizes. The size can also be of a large horizontal extent up to the opposite leg of the flange profile. However, practice has shown that the specific clamping effect does not produce the expected clamping and sealing effect.

Production tolerances for pulling flange profiles are not always so low. that a smooth insertion of the pipe wall plates into the flange is possible.

It turned out. that if the bias of the bead is too strong, the pipe sheet cannot be inserted between the bead and the arm, but that the sheet bumps into them. First, the expected sealing effect is not achieved, and secondly, the interaction of the pipe wall and the flange element is not effective.

If the bead is preformed too far from the lower arm, there is no clamping and sealing. In both cases it is necessary to note that the effect according to the invention, ie the sealing of the air duct in the flange profile, cannot be guaranteed because the solution is technically well illustrated and thought out, but the technological possibilities of flange profile production bring too large tolerance deviations the solution according to the invention.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The object of the present invention is to provide, particularly for high-pressure air guide systems, a flange profile for a flange joint of cross-sectional interconnection of substantially rectangular sheet metal duct components which ensures secure and accurate flange profile mounting on a sub-air duct. with the air duct component as well as the interconnection of the air duct components, whereby the elastic action of the gasket is retained and is to meet the technical requirements for sufficient accuracy in the production of the flange profile and its assembly.

According to the invention, the problem is solved by the fact that the top of the flange profile of the flush bead is covered with an elastic layer, which layer resiliently abutting on the inner side of the opposite arm portion hermetically closes the gap between the opposite arm portion and the bead crest.

It is an object of the invention that the elastic layer is applied to the top of the bead of the bead continuously and connected to the opposite arm portion. The shape of the invention is. that the part of the arm opposite to the top of the bead is a spacer which spans the X-ku between the two arms, is inclined at an angle between the two arms and increases the stability of the flange profile.

The invention is preferably carried out if the flexible layer is continuously applied to the inner side of the spacer adjacent to the bend deflection apex.

A meaningful embodiment of the solution according to the invention is in that. that the thickness of the elastic layer has a continuous thickness of 1-5 mm in the region of the apex. The cardinality of the elastic layer preferably depends on the extent to which the movement of the arms and the extent of the gap width tolerance at the top of the bead are necessary.

An equally preferred embodiment is if the elastic layer has a cardinality of 2 mm, but according to the invention it is inserted in a cardinality range of 1-5 mm. A particular embodiment of the invention is if the elastic layer is an aging-resistant sealant.

Preferred embodiments of the invention can be seen in this. that the sealant is temperature resistant up to 100 ° C and retains its flexible consistency.

Overview of pictures on the roof

The invention will be explained in more detail by way of example. In the respective roofs, they show: FIG. 1 shows a flange profile in side view, FIG. 2 shows the representation of FIG. 1 with the air duct sheet retracted.

DETAILED DESCRIPTION OF THE INVENTION

The flange profile is formed by pairs of arms 2, 3. 4. 5. The pair of arms 2,3 is open at its front end, the pair of arms 4, 5 is continuously connected and concave on its upper side.

A spacer 9 is arranged between the arms 2, 4, in the X-to-pair of arms. The arm 5 is arranged at right angles to the arms 3.

The arm 5 incorporates a horizontal and parallel to the arm 3 a bending of the bead 7 which extends into the interior of the profile 1 formed between the arms 4, 5 and the spacer 9. The bending of the bead runs parallel to the arm 3. 3 and a flange side 13 of the bead 7 is provided with a guide 8. The bend tip 14 of the bead 7 extends by its dimension up to the inner surface of the spacer 9, but does not touch it.

The resilient sealant 15 connects the bead 14 of the bead 7 to the inner surface of the spacer 9. The arms 2, 3 extend approximately parallel to each other and are angled at the inner ends. The arm 3 tilts at its end at an angle to the arm 2; the arm 2 deflects at an angle from the arm 3. At point 16, the two arms 2, 3 touch and abut one another. When sliding the flange profile onto the air duct sheet, the air duct sheet 12 first passes along point 16, thereby spreading the arms 23 from each other and then sliding the bead 13 of the bead 7 into the duct 8 by the side 13.

Figure 2 shows the air pipe 12 already inserted in the conduit 8. In this case, by opening the arms 2, 3 the gap 11 is slightly enlarged and the sealant 15 is elongated in the gap 11. The sealing and clamping action of the arms 2, 3 is now completely formed at points 16, 16 as well as between the seam flank 13 and the inner surface of the arm 3 and between the end face of the air duct 12 on the inner side of the arm 5, the sealant 15 between by the apex 14 of the bead of the bead 7 and the inner side of the spacer 9.

By the action of the sealing elements 8, 15, 16, 16, air leaks are largely eliminated. The arrangement of the sealant 15 in the gap 11 in the region of the deflection apex 14 of the bead 7, and its permanent elasticity, allows to absorb preferably dynamic oscillations. At the same time, the exceedance of the production or material-related tolerances is resiliently compensated. Arrangement of the bend of the bead 7, in its horizontal dimension, with the flank 13 running parallel to the inner side of the arm 3, is advantageous because it is possible with a tolerance range that allows easy insertion of the air duct sheet up to the inner side of the arm 5 in side area.

This option is:

1. a flange profile clearly fixed to the air duct; and

2. later assembly differences are excluded in advance.

3. By sealing the sealing elements 8, 16, 16I and the sealing compound 15 inserted between the bend of the bead 7 and the spacer 9, a hermetic sealing of the air duct is provided.

The space between the arms 45 for receiving the angle is formed by the bend of the bead 7, the wall 17 and the sealant 15, and is completely separated from the air flowing parts. No more air can enter this and through this region since the elastic sealing action of the sealant 15 is achieved. even when the flange profile oscillates, the area between arms 2 and 3 is permanently closed.

Claims (8)

PATENT CLAIMS 1. A flange profile of a flange joint for attaching to each other a sheet metal, substantially rectangular air duct for high pressure air equipment, consisting of angular profiles designed in the form of a frame to be attached at the ends of air duct components with flange profiles perpendicular and parallel to the respective side wall air ducts intended to accommodate the sections of the mounting angles which can be inserted into the profiles, whereby in the perpendicular to the walls of the air ducts of the standing flanges of the flange profiles a bottom directed over the entire length of the flange profile extends piping and whose dimension extends as close as possible to the opposite part of the arm, the bend of the bead in its horizontal dimension having a thickness of the side wall of the air duct corresponding to the distance from the arm, to which the side wall of the air duct adjoins, characterized in that the tip (14) of the bend of the bead (7) is covered with a resilient layer and that the layer is arranged so that it adheres to the inner side of the opposite arm without gaps and resiliently. A flange belts according to claim 1, characterized in that the elastic layer is applied continuously to the bend apex (14) of the bead (7) and is connected to the opposite part of the arm. ph> {i The flange-like flange according to claim 1, characterized in that the opposite part of the arm is a spacer (9). Flange joint according to claim 1, characterized in that the elastic layer is applied continuously to the inner side of the spacer (9) opposite to the bend tip (14) of the bead (7). f ^r ' 5. A flange assembly according to claim 1, wherein the thickness of the elastic layer has a thickness of from 1 mm to 5 mm. 6. A flange connection as claimed in claim 1, characterized in that the flange connection is in accordance with claim 1. The elastic layer has a thickness of 2 mm. A flange according to claims 1 to 6, characterized in that it has a flange. The elastic layer is formed by a sealant (15). pr.fíf 8. A flange according to claim 7, characterized in that the flange is as follows. that the sealant (15) is temperature resistant in the range up to 100 C.