CH706907A1 - Insulating device for Nachisolation of pipe joints. - Google Patents

Abstract

An insulation device (1) for post-insulation of the joint of pipes (20) comprises at least two abutting cover shells (2), which are intended to receive the tubes and are designed so that they surround the pipes in the assembled state to form a gap with an insulating material (22) is ausschäumbar. Sealing elements (5) are provided at the inlets (12) for the pipes in the insulating device, wherein the sealing elements (5) are multi-part and have at least one annular first part made of hard plastic and at least one second part (9) made of an elastomer which is configured such that by this second part (9) entering the insulating device tube is acted upon the Rohraussenmantel. Thus, a better seal of the insulation device can be achieved, especially if the pipes are corrugated pipes.

Description

Field of the invention

The invention relates to an insulating device for post-insulation of the junction of pipes, comprising at least two mutually mountable cover shells, which are intended to receive the tubes and are designed such that they surround the tubes in the assembled state to form a gap, at least one lockable Filling opening for insulating material and sealing elements at the entries for the pipes in the insulating device, which lie in sealing element recordings of the cover shells. Furthermore, the invention relates to an arrangement of the insulating device and at least two tubes and a sealing element.

background

WO 2008/019 790 and WO 2008/019 791 such insulating devices are known. Such isolation devices have proven themselves in practice.

Presentation of the invention

The object of the present invention is to further improve said isolation devices, in particular, the suitability for pipes with diameter or ovality tolerances or corrugated pipes to be improved with a deep corrugation.

This object is achieved with the above-mentioned insulating device characterized in that the sealing elements are each in several parts and at least one annular first part of hard plastic, which is designed for placement in the Dichtungselementaufnahme and forms a passage for the pipe at the entrance, and at least a second part of an elastomer, which is designed such that through this second part of the entering into the insulating tube is acted upon the Rohraussenmantel.

It turns out that a significantly better seal against leakage of insulating material at the inlets of the tubes can be achieved by this design of the insulating device. In particular, this effect is achieved by the decoupling of the sealing task of the sealing elements which seal on the one hand on the outer circumference against the inner contour of the shell (first part) and on the other hand against the outer contour of the tube (second part). The second part of the sealing element abuts against the tube, this effect being enhanced by the introduced insulating material. This is particularly advantageous if the insulating device is used for corrugated pipes.

In a preferred embodiment of the insulating device, the width of the first part and the second part together is greater than the width of the sealing element receiving, wherein the width of the first part is smaller than the width of the sealing element receiving. The elastic second part makes it possible to carry out the seal so that the second part extends beyond the corresponding receptacle in the cover shell. Thus, a large-area contacting of the tube by means of the second part is possible. For this purpose, further, the second part is conical or such that the inner diameter of the second part corresponds in its contact area to the first part substantially to the inner diameter of the first part and the inner diameter of the second part decreases towards its free end. This allows a large contact surface with the tube outer casing even with corrugated pipes. Preferably, the inner diameter at the free end of the second part is 70% to 80% and in particular about 76% of the inner diameter of the first part. Further directed seals may be provided on the first part for sealing element receptacle, and the second part may also have a seal directed towards the sealing element receptacle. By such embodiments, the seal of the sealing element can be increased.

The invention is further based on the object to provide a sealing element for an insulating device of the type mentioned.

This object is achieved with the sealing element according to claim 10.

Brief description of the drawings

Further embodiments, advantages and applications of the invention will become apparent from the dependent claims and from the following description with reference to the figures. Showing: <Tb> FIG. 1 <SEP> a cover shell of an insulating device in a diagrammatic view; <Tb> FIG. 2 <SEP> an example of a sealing member of the insulating device in a vertical sectional view; <Tb> FIG. 3 <SEP> is a sectional view of the insulating device with the entrance of the tube and a sealing element after the introduction of the insulating material; and <Tb> FIG. 4 <SEP> Another example of a sealing element.

Ways to carry out the invention

Fig. 1 shows one of the cover shells 2 of an embodiment of the insulating device in perspective view. Two such trays 2, which are attached to each other, cover the interconnected pipes or pipe joints and allow their thermal insulation by introducing one of an insulating material into the space between the inner wall of the trays and the pipe joint. The second shell 2 is indicated in Fig. 1 only by a small portion of the shell, which is located at an entrance for a pipe. Such an insulating device is known in particular from WO 2008/019 790, to which reference is made here. The cover shell 2 shown by way of example in FIG. 1 has a T-shape for covering or heat-insulating a 900 branch of a pipeline. It is also possible that the cover shell is designed cross-shaped to cover two opposite 90 ° branches. The cover shell can also be designed straight or arcuate to cover a straight or arcuate connection of two tubes. The cover shell may e.g. made of polypropylene in an injection molding process. The cover shell 2 or the insulating device formed from two such shells preferably has a plurality of stiffening ribs 19. Furthermore, three filling openings 4 for the insulating material are provided in this example.

The insulating device formed with the cover shells further comprises sealing elements, which are arranged at the entries of the tubes in the insulation device. For this purpose, it is preferable for the cover shells to have a receptacle 6 at each inlet 12, which serves to position the respective sealing element. This receptacle 6 may be formed in a simple embodiment of a portion of the inner wall of the cover shell 2 at the respective inlet 12, which is adapted with its inner diameter to the sealing element and a stop 16, which prevents the sealing element from being pushed out of the insulation device be when the two cover shells are closed and the insulation material is introduced. The receptacle 6 may also be formed groove-shaped, wherein a further inside lying in the device 1 formation 13 (Fig. 3) together with the stop 16 forms a groove into which the sealing element can be inserted and in which it against displacement in the respective Longitudinal direction of the tubes entering the device at the entrance 12 is secured in both directions and not only against being pushed out of the insulating device. The sealing elements, which will be described in more detail below, are typically applied to them prior to connection of the tubes. When mounting the insulating device then these sealing elements when inserting the connected pipes in a cover shell, preferably first the lower cover shell, arranged or moved on the tubes, that the corresponding part of the respective sealing element in the receptacle 6 comes to rest and there is positively held against displacement in the tube longitudinal direction. Thereafter, the second, in particular the upper, cover shell is attached, and their shots 6 come into positive connection with the respective sealing elements. Thereafter, the two cover shells are attached to each other and it is an insulating material introduced into the insulating device, which is in particular an expanding material such as polyurethane foam. The sealing elements prevent the leakage of the insulating material at the entrance of the tubes in the insulation device. The foaming of the insulating device is known to those skilled in WO 2008/019790 in principle and will not be explained in detail here. The sealing elements 5 can also be divided or divisible to allow application to the tubes even after their connection, as described in WO 2008/019790.

According to the present invention, the sealing elements 5 are specially designed to achieve the advantages mentioned above. Fig. 2 shows an embodiment of such a sealing element 5. This sealing element is formed from at least two parts. A first annular part 7 is made of a hard plastic, e.g. of polypropylene or preferably of acrylonitrile-butadiene-styrene (ABS) or another hard plastic known to the person skilled in the art. This annular first part 7 is designed and dimensioned so that it can be inserted in the manner described in the receptacle 6 in the cover shells 2. The annular part 7 forms a passage 8 for the respective tube, which enters the insulating device at the entrances 12 and the sealing element 5 can be pushed onto the respective tube with the annular part 7, which has a larger inner diameter than the outer diameter of the tube be before the pipes are connected together. The passage 8 preferably has a constant width or the inner diameter D of the hard plastic part 7 is constant. The sealing element 5 further comprises at least one further part 9, which is formed from an elastomer, e.g. made of polyoxymethylene (POM). This part 9 made of elastomer is preferably positively and / or non-positively connected to the part 7 made of hard plastic. But it could also be two separate, adjacent in the seal member receptacle 6 parts that are held only by the receptacle 6 adjacent to each other. The elastic, annular part 9 is arranged so that it acts on the respective tube when the tube passes through the sealing element and thus forms in the end position a resting on the Rohraussenmantel sleeve for the pipe. The elastic part 9 is thereby deformed by the tube. The elastic member 9 could be another cylindrical ring, which is connected via a vertical shoulder with the part 7. Preferably, however, the inner diameter of the elastic member 9 is not constant and then begins at the part 7 substantially with its inner diameter and then decreases, the farther the part 7 facing away from the end 11 of the part 9 is removed from the part 7. The part 9 may be straight and conical, but preferably has a curved profile in cross-section, as shown in Fig. 2. While the inner diameter D of the annular part 7 is greater than the outer diameter of the pipes to be joined, thus the smallest inner diameter d of the part 9 of the elastomer is smaller than the outer diameter of the pipes to be joined. This smallest inner diameter is preferably present at the free edge or free end 11 of the elastic part 9. Preferably, the smallest inner diameter d of the part 9 is 80% to 90% of the largest outside diameter of the tube and in particular about 85% of the tube. Based on the inner diameter D of the part 7 and on the size of the passage 8, the value of d is 70% to 80% and in particular about 76%. With such values, a concern of the deformed sleeve 9 and the part 9 at the tube over a sufficient length is achieved so that a deformation of the sleeve by the expanding insulating material is possible, which will be explained with reference to FIG. 3. The width of the first part 7 and the width of the second part 9 may be chosen so that the two parts are substantially the same width.

On the sealing element 5 ribs 17, 18 may be provided, which then rest in the receptacle 6 on the inner wall of the respective shell 2 and in the case of the rib 18 and abut against the stop 16. In this case, there are recesses between the ribs, in each of which a seal, e.g. in the form of an O-ring or in another form, e.g. can be arranged with a lip with the form shown at the sealing ring 15. It can be provided in all recesses between the ribs or only in individual recesses such seals. These can also be formed from POM. In the example shown, a cover lip facing towards the sealing lip 14 is also arranged on part 9, which is a preferred embodiment.

The sealing element 5 is preferably designed so that the width of the parts 7 and 9 together is greater than the width of the receptacle 6 in the cover shells, which width is entered in Fig. 2 as B for explanation.

Fig. 3 shows a vertical section through a part of the insulating device 1 with a pipe arranged therein and already made insulation, with only the upper cover shell 2 is shown in the region of the sealing element 5. The tube 20 is only partially shown, both in length and in construction. The tube is shown as a corrugated pipe and the insulation device is particularly suitable for such pipes, but can also be used for non-corrugated pipes. The tube has an outer shell 25 and an only indicated thermal insulation layer 26, which surrounds an unillustrated, the medium to be transported leading inner tube or more inner tubes, as is known in the art. Since at the connection point of the pipes, not shown, the outer jacket and the thermal insulation layer must be removed in order to connect the inner tubes, the insulating material 22 is subsequently introduced into the insulating device 1. This surrounds the inner tubes, but also fills the insulation device to near the entrances 12, in which the outer jacket 25 of the tube and its heat-insulating layer is still present. This is shown in FIG. The sealing element 5 arranged at the inlet 12 in the insulating device prevents the leakage of the insulating material from the device 1. The sealing element 5 is arranged in the sealing element receptacle 6 of the insulating device 1, which is bounded here by the stop 16 and the projection 13. The sealing element 5 is constructed with the two parts 7 and 9, as explained above. It can be seen that the elastic part 9 of the sealing element 5 has been deformed on the one hand by the tube 20, but on the other hand by the insulating material, which is usually an expanding foam. The sleeve formed by the part 9 is initially without the expanding foam at least with its front portion on the tube and is there already deformed by the tube, so that this elastic part 9 rests on the pipe. In the rear area, however, the elastic part 9 will generally rest against the projection 13 if such is provided or continue to have the curved course shown in FIG. With the filling of the expanding insulating material of the elastic member 9 is also deformed by the insulating material and thereby passes even closer to the abutment against the tube and assumes the illustrated in Fig. 3 or a similar shape. In this way results in a much better seal the entry points 12 than in the isolation device according to the prior art. This especially with corrugated pipes.

Fig. 4 shows a further variant of a sealing element 5. The same reference numerals as used previously, denote the same or functionally identical elements. It is also provided the rigid part 7 made of hard plastic and the second part 9 of elastomer, which here has a different shape than the sealing element 5 of Fig. 2nd Also, the part 9 connects in another way to the part 7. While in the embodiment of Fig. 2, the part 9 is shown as the part 7 across and in Fig. 3 additionally a positive connection is indicated, so in Fig. 4, a connection of the part 9 is shown below the part 7. The compound of Part 7 and Part 9, if provided, can be done in any manner known to the skilled person, which also applies to the previous variants. In particular, the part 9 can be molded on the part 7 during production in a mold. In addition to the aforementioned seals 15 to the cover shells out of Fig. 4, a further seal 24 is provided to the tube. This is also made of an elastomer.

Claims (11)

An insulating device (1) for post-insulation of the joint of pipes (20) comprising at least two cover shells (2) which can be fitted to one another and which are designed to receive the pipes and are designed such that, in the installed state, the pipes form a space ( 3), at least one closable filling opening (4) for insulation material and sealing elements (5) at the inlets (12) for the tubes in the insulating device, which lie in sealing element receptacles (6) of the cover shells, characterized in that the sealing elements (5) are each in several parts and in each case at least one annular first part (7) made of hard plastic, which is designed for placement in the Dichtungselementaufnahme (6) and a passage (8) for the tube at the entrance forms, and at least one second part (9) of a Have elastomer, which is designed such that through this second part in the insulation svorrichtung entering tube on Rohraussenmantel can be acted upon. 2. Insulating device (1) according to claim 1, characterized in that the width of the first part (7) and the second part (9) together is greater than the width (B) of the Dichtungselementaufnahme (6), wherein the width of the first part (7) is smaller than the width (B) of the sealing element receptacle (6). 3. Insulating device (1) according to claim 1 or 2, characterized in that the inner diameter of the second part (9) in its contact region to the first part (7) substantially corresponds to the inner diameter of the first part (7) and the inner diameter of the second Part (9) reduced towards its free end (11). 4. insulating device (1) according to claim 3, characterized in that the inner diameter (d) at the free end (11) of the second part (9) 70% to 80% and in particular about 76% of the inner diameter (D) of the first part (7). 5. insulating device (1) according to one of claims 1 to 4, characterized in that on the first part (7) for sealing element receiving (6) directed towards seals (14, 15) are provided. 6. insulating device (1) according to claim 5, characterized in that the second part (9) has a sealing element for receiving (6) directed towards seal (14). 7. insulating device (1) according to one of claims 1 to 6, characterized in that, the sealing element (5) has a further seal (24) made of an elastomer which is directed towards the pipe and which on the first part (7) spaced from the second part (9) is arranged. 8. Arrangement of an insulating device according to one of claims 1 to 7 and at least two interconnected pipes. 9. Arrangement according to claim 8, wherein the tubes are corrugated tubes (20). 10. Sealing element (5) characterized by an annular first part (7) made of hard plastic, and an annular second part (9) made of an elastomer, wherein the inner diameter of the second part (9) at the junction of the two parts (7, 9) substantially corresponds to the inner diameter of the first part and the inner diameter of the second part (9) decreases towards its free end (11), the inner diameter (d) at the free end (11) of the second part (9) being 70% to 80% and in particular about 76% of the inner diameter (D) of the first part (7). 11. Sealing element (5) according to claim 10, characterized in that on the first part (7) further seals (15) are arranged, which are directed from the first part (7) radially outward.