NL1023473C2 - Conduit system has first conduit provided axially spaced on its outer periphery with firm stops - Google Patents

Abstract

The conduit system has a first conduit (1) provided axially on its outer periphery with firm stops (2). A series of stirrups (3) is furnished for suspension of the conduit. They are fixed to a ceiling (4) or a rigid member. Each stirrup comprises a ring-shaped body, which encloses the conduit so that an axial movement of the conduit in the body is possible. The conduit system has a first conduit (1) provided axially on its outer periphery with firm stops (2). A series of stirrups (3) is furnished for suspension of the conduit. They are fixed to a ceiling (4) or a rigid member. Each stirrup comprises a ring-shaped body, which encloses the conduit so that an axial movement of the conduit in the body is possible. On opposite sides of the stops, a ring-shaped body of the suspension stirrup is fitted against the stop. A second conduit in the system is provided with axial stops, spaced apart, on the outer periphery. A series of second suspension stirrups suspends the second conduit and have first and second ring-shaped bodies connected to each other and are positioned around the first and second conduits.

Description

Short indication: Fixing of pipes.

5

The invention relates to a pipe system comprising: - a first pipe which is provided with stops arranged axially at a distance from one another on the outer circumference, and - a series of first suspension brackets for suspending the pipe, which suspension brackets are fixed to a ceiling or a rigid conductor, each of the suspension brackets comprising an annular body which encloses the conduit such that an axial movement of the tube in the annular body is possible per se.

Such a pipe system is known, for example for the drainage of flat roofs. In this case, funnels that are located in the roof are often connected to a horizontal main pipe that is installed just below the roof. From the horizontal main line, the rainwater is drained via a vertical downcomer or the like to the sewer or another drainage possibility. Normally the funnel is connected to the main pipe under the roof via a connecting pipe with a vertical part, a bend piece and a horizontal part. The horizontal part preferably connects substantially to the main line at 45 °.

It is common to construct the (main) pipes in plastic. Because of the expansion coefficient of the material, these pipes can undergo a considerable variation in length due to temperature differences, certainly in the case of long pipes that are required in large buildings. To accommodate such changes in length, the pipes must be suspended in a suitable manner to prevent large forces from arising on the connecting pipes. For this purpose, in the known systems, suspension brackets are used which are fixed to a ceiling or to a rail and at least a part of which must fix the pipe axially. For this purpose, suspension brackets are used in the known system in which the pipe itself can move axially, but a sleeve, for example a welding sleeve, is arranged around the pipe 1023473-2 on either side of the suspension brackets. The sleeves serve as a stop as a result of which the suspension bracket is axially enclosed and the pipe can therefore no longer move relative to the suspension bracket. The fitting of sleeves around a tube takes a lot of time and the sleeve itself is expensive. Fitting sleeves on either side of the suspension brackets is therefore very expensive.

The object of the invention is to provide a pipe system in which fewer stops per unit length are required.

This object is achieved by a piping system according to the preamble of claim 1, characterized in that an annular body of a suspension bracket is arranged against the stop on either side of the stops.

Because according to the invention the stops are enclosed by two brackets, the line is axially fixed at the location of the stops, while fewer stops are required. Although the suspension system according to the invention requires more suspension brackets for the same number of fixation points than in the known pipe system, this is still more favorable from the point of view of assembly time and costs than the fitting of sleeves around the pipe.

In drainage systems, an overflow is usually applied to the roof 20 in order to be able to drain water from the roof in the event of an emergency such as cloud breaks or blockages of the funnels or pipes of the primary system in order to prevent excessive load and possibly collapse of the roof. The overflow often comprises hoppers that are higher than the hoppers of the normal drainage system. The funnels of the overflow are connected to a secondary piping system.

According to the state of the art, the primary piping system and the secondary piping system are hung separately from, for example, the roof. However, this results in high assembly costs and takes up a lot of space.

Claim 2 defines a further embodiment of the invention that provides a solution for this. In this embodiment, the pipe system further comprises: - a second pipe which is provided with stops arranged axially at a distance from one another on the outer circumference, - a series of second suspension brackets for suspending the second pipe, said suspension brackets a first and a second - 3 - ring-shaped body which are connected to each other and which are arranged around the first resp. second conduit, wherein in the second conduit a second annular body of the second suspension bracket 5 is arranged against the stop on each side of the stops, wherein in the first conduit a first annular body of the second bracket is provided on either side of the stops. is arranged against the stop, and wherein the annular bodies of the first suspension brackets are arranged on either side of the stops against the second annular bodies 10 of the second suspension brackets situated against them.

This construction has the advantage that the forces created by the expansion of the first and second pipes are absorbed by two brackets per stop on the first pipe.

The invention further relates to a method for suspending a conduit according to claim 9.

The invention will be further elucidated in the description below with reference to the drawing, in which: Fig. 1 schematically shows a part of a pipe system according to the invention, Fig. 2 shows a part of a further embodiment of the invention, and Figs. 3 shows a part of another embodiment of the invention.

Fig. 1 shows a pipe system comprising a pipe 1. The pipe 1 is preferably made from a thermoplastic plastic such as PE or PVC. The conduit 1 is provided with axially spaced sleeves 2, one of which is shown in FIG. If the pipe 1 is made of PE, the sleeve 2 may be in the form of a welding sleeve. If the pipe 1 is made of PVC, the sleeve can be designed as a glue sleeve.

In the example shown in Fig. 1, the pipe 1 is suspended from a plurality of suspension brackets 3 which are attached to the ceiling 4. The suspension brackets 3 have an annular body 3a that surrounds the conduit 1 and a threaded rod 3b or the like with which the annular body 3a is connected to the ceiling 4. The pipe 1 is surrounded by the annular bodies 3a of the suspension brackets 3 in such a way that the pipe 1 per se can still slide in the bracket 3.

1 9 973 I - 4 - I The sleeve 2 is enclosed between two suspension brackets 3 and serves as a stop for the annular bodies 3a of the suspension brackets arranged on either side thereof 3. Because the sleeve 2 is enclosed I by two brackets 3, that suspension point of the pipe 1 fixed in the axial direction and will not move under the influence of expansion or shrinking of the pipe material in the event of temperature differences.

The pipe 1 can be formed by connecting several pipe sections with each other. In the case of a PE pipe, the connection can be realized by means of welding sleeves which at the same time also serve as stops for the suspension brackets. With PVC pipes, the connections can of course be realized through glue sleeves. Other versions of the connection sleeves, provided that they are sufficiently tensile, are also conceivable in principle.

In Fig. 2, a part of a pipe system comprises an upper pipe 21 and a lower pipe 22. For example, in an I drainage system, the lower pipe 22 can form part of a primary pipe system for normal water drainage and the upper I pipe 21 of the secondary pipeline system for emergency discharge. In the example shown, the upper pipe 21 has a larger diameter than the lower pipe 22, but it is of course also possible that the diameters are the same or that the lower pipe 21 has a larger diameter than the upper pipe 22.

The upper and lower conduits 21 and 22 are made of plastic, preferably PE or PVC. Axial spaced apart sleeves 212 are arranged on the upper conduit, one of which is shown in FIG. These sleeves 212 can be a welding sleeve or a glue sleeve, depending on the pipe material. Mounted on the lower conduit 22 are axially spaced sleeves 222, one of which is shown in FIG. Depending on the pipe material, these sleeves 222 can be a welding sleeve I or a glue sleeve. The sleeves 212 and 222 are arranged approximately straight above each other on the respective lines 21 and 22.

The upper conduit 21 is suspended from a series of upper suspension brackets. Two such suspension brackets 23 are shown in FIG. In the example shown, the suspension brackets 23 are fixedly attached to a steel pipe 24. The suspension brackets 23 comprise an annular body 23a which encloses the upper pipe 21 in such a way that an axial movement of the pipe 21 in the bracket is possible per se. The bracket 23 further comprises a second annular body 23c which grips around the steel pipe 24 and a threaded rod 23b connects the annular bodies 23a and 23c to each other. The second annular body 23c is preferably secured relative to the steel pipe 24 with a suitable locking means so that no movement of the bracket in the axial direction is possible. In the example shown, the suspension brackets are suspended from a steel pipe 24, but it is also possible to suspend them from another rigid conductor such as, for example, a profile rail or to hang them directly from the ceiling as shown in Fig. 1. .

The lower conduit 22 is suspended from a series of lower suspension brackets 203. In Fig. 2, two such suspension brackets 203 are shown. The suspension brackets 203 comprise an annular body 203c which encloses the upper conduit 21 in such a way that an axial movement of the conduit 21 in the bracket 203 is possible per se. The bracket 203 further comprises a second annular body 203a which grips around the lower pipe 22 so that an axial movement of the pipe 22 in the bracket 203 per se is possible. Furthermore, the bracket comprises a threaded rod 203b which connects the annular bodies 203a and 203c with each other.

In the lower conduit 22, the lower annular body 203a of the lower suspension bracket 203 is arranged against the sleeve 222 on either side of the sleeves 222. At the upper conduit 21, an upper annular body 203b of the lower bracket 203 is arranged on each side of the sleeve 212 against the sleeves 212. The annular bodies 23a of the upper suspension brackets 23 are arranged on either side of the sleeves 212 against the upper annular bodies 203b of the lower suspension brackets 203 located against them.

As with the example shown in Fig. 1, part of the sleeves 212 and 222 can be designed as a connecting sleeve for connecting pipe sections from which the pipes 21 and 22 are formed.

In the example of Fig. 2, the sleeves 212 and 222 of the lines 21 and 16 are respectively. 22 approximately the same width, so that the upper resp. lower annular bodies 203b resp. 203a both against sleeves 212 resp. 222. In practice it may of course occur that, for example, the sleeve on the lower pipe 22 is narrower than the sleeve on the upper pipe 21. In order to ensure that in this situation the lower ring body 203a the axial space between the sleeve 222 and the lower annular bodies 203a can be filled with pipe sections 205 arranged around the lower conduit 22, as shown in Fig. 3.

Claims (10)

A pipe system comprising: 5. a first pipe which is provided with stops arranged axially at a distance from one another on the outer circumference, and - a series of first suspension brackets for suspending the pipe, said suspension brackets being fixed to a ceiling or a rigid guide are attached, each of the suspension brackets comprising an annular body which encloses the conduit such that an axial movement of the tube in the annular body is possible per se, characterized in that an annular body is provided on either side of the stops of a suspension bracket against the stop. 2. Pipe system as claimed in claim 1, characterized in that the pipe system further comprises: - a second pipe which is provided with stops arranged axially at a distance from one another on the outer circumference, - a series of second suspension brackets for suspending the second conduit, which suspension brackets comprise a first and a second annular body which are connected to each other and which are arranged around the first and the second respectively. second conduit, wherein in the second conduit on both sides of the stops 30 a second annular body of the second suspension bracket is arranged against the stop, wherein in the first conduit on each side of the stops a first annular body of the second bracket is arranged against the stop, and wherein the annular bodies of the first suspension brackets are arranged on either side of the stops against the second annular bodies of the second suspension brackets situated against it. 1 no 3 A 7Q - 8 - 3. Pipe system according to claim 1 or 2, characterized in that the first pipe is made of plastic. 4. Pipe system according to claim 2 or 3, characterized in that the second pipe is made of plastic. 5. Pipe system according to claim 3 or 4, characterized in that the stops are formed by sleeves arranged around the pipe. 6. Pipe system according to claim 5, characterized in that welding sleeves are arranged around the pipe. 7. Pipe system as claimed in claim 5, characterized in that glue sleeves are arranged around the pipe. 15 8. Pipe system as claimed in any of the claims 5-7, characterized in that a number of the sleeves are designed as connecting sleeves for connecting leading pieces. Pipe system according to claim 2, characterized in that the first pipe has a larger diameter than the second pipe. Rainwater drainage system provided with a piping system according to one of the preceding claims. 25 11. Method for suspending a pipe, wherein: - a number of stops are fixed axially at a distance from each other on the outer circumference of the pipe, - suspension brackets on either side of the stops are placed against the stops against and around the pipe. and - the suspension brackets are hung on another object. 10. Method as claimed in claim 9, wherein two or more pipes are suspended above each other, wherein the upper pipe is suspended from a 35 - 9 ceiling or a rigid conductor and the lower pipe is suspended from the upper pipe.