DE20113730U1 - Tubular heater - Google Patents

Description

2709GM

Tubular radiators

Description

The invention relates to a tubular radiator, in particular a bathroom radiator, with several horizontal pipes arranged one above the other, which are connected with the ends on both sides to vertical distribution pipes, wherein the flow and return connections are arranged on a horizontal pipe and a riser pipe is positioned in one of the vertical distribution pipes, which is connected to the flow connection through an opening provided in the pipe jacket.

Tubular radiators with several horizontal pipes arranged one above the other, which are connected to vertical distribution pipes at their ends on both sides, with the flow and return pipes arranged at the bottom of the distribution pipes or in the middle of the lowest horizontal pipe, are well known from the prior art.

It is also known to insert an inner pipe in one of the vertical distributor pipes, with the lower end of the pipe being connected directly to the flow connection. This inner pipe or riser pipe then ends in the upper area of the radiator, which ensures that the heating fluid introduced through the flow only enters the actual volume of the radiator in the upper area. The disadvantage of this design is that the position of the flow connection, which opens directly into the inner pipe, is fixed. A tubular radiator of this type is also known from EP 0928939 A2. The pipe jacket of the riser pipe is provided with an opening in a lower area through which the interior of the riser pipe is connected to the flow connection. The space in the distributor pipe surrounding the opening is separated from the rest of the volume of the radiator by a partition wall or baffle plate, with the inner pipe being directly connected to the flow connection.

The disadvantage here is the provision of the various baffle plates, which depend on the manifold contour, as well as their relatively complex positioning and fastening in the manifold.

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The object of the invention is to improve the generically known radiators in such a way that the use of a riser pipe is possible without restriction with minimal means and effort, both in the case of a lateral connection through the sleeve in the collecting pipe and in the case of a central connection through the lowest horizontal pipe.

This object is achieved according to the invention in that the horizontal pipe on which the flow and return connections are arranged is extended into the area of the vertical distributor pipe in which the riser pipe is arranged and

&iacgr;&ogr; is closed at the side, with the extension area of the pipe being penetrated by the riser pipe through cross holes arranged in the casing of the area. The pipe casing of the riser pipe is provided with cross holes in the area in which the riser pipe penetrates the horizontal pipe. The horizontal pipe is closed at the side with a cover. With the insertion of the lowest cross pipe, no further work steps are required, and this solution is independent of the respective contour of the collecting pipe.

According to a particularly preferred embodiment, the horizontal pipe is extended by means of a riser sleeve which is closed on one side and is connected to the horizontal pipe, whereby all horizontal pipes have the same length.

The casing of the riser pipe sleeve is provided with at least two cross holes. A particularly advantageous feature is the easy installation of the riser pipe sleeve, which is fixed by simply pushing it onto the cross pipe projection and is then soldered tight during the subsequent soldering of the radiator. Another advantage of the riser pipe sleeve is that it is independent of the manifold contour. In contrast to the baffle plate, the same riser pipe sleeve can always be used for each type.
An embodiment of the invention is shown in the drawings and is described in more detail below.

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Show it

Figure 1: an overall view of a tubular heater according to the invention with the lower left corner of the vertical distributor pipe cut off; Figure 2: a sectional view of the distributor pipe in the lower flow connection area with riser pipe.

Figure 1 shows a tubular heating element 1 with several horizontal pipes 2, which are connected at their ends on both sides to vertical distributor pipes 3 and 4. The flow and return connections 5 and 6 are arranged on the lowest horizontal pipe 2x. A riser pipe 7 is provided in the left-hand side distributor pipe 3, which extends from the lower end of the distributor pipe 3 to the upper end and is connected to the flow connection 5. A separating disk (not shown) is provided between the flow connection and the return connection within the lowest horizontal pipe 2x. Figure 2 shows in detail the lower area of the left-hand distributor pipe 3, which contains the riser pipe 7 inside. A connection sleeve 9 is provided in the manifold cover 8 in the lower end of the distributor pipe 3, through which the riser pipe 7 is introduced into the heating element. The sleeve can be closed with a plug 10, whereby the riser pipe 7 can be locked in the distributor pipe 3 with the plug 10. At the same time, the distributor pipe 3 is sealed to the outside by the plug 10 and possibly other sealing rings (not shown). A connection sleeve 11 is also provided in the right distributor pipe 4. If the flow and return connections 5 and 6 are exchanged, the riser pipe 7 can alternatively be accommodated in the right distributor pipe 4.

The horizontal pipe 2x, on which the flow and return connections 5 and 6 are arranged, is extended into the area of the vertical distributor pipe 3 and closed at the side. In the present embodiment, the extension of the horizontal pipe 2x is carried out by a riser pipe sleeve 15 that is closed on one side and is connected to the horizontal pipe 2x. The casing of the riser pipe sleeve 15 is provided with at least two transverse bores 12. The pipe casing of the riser pipe 7 has transverse bores 13 in the area in which the riser pipe 7 penetrates the horizontal pipe 2x. The interior of the riser pipe

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7 is thereby connected to the flow connection 5. All horizontal pipes 2 have the same standard length.

Claims (5)

1. Tubular heating element with several horizontal pipes arranged one above the other, which are connected with the ends on both sides to vertical distributor pipes, wherein the flow and return connection are arranged on a horizontal pipe and a riser pipe is positioned in one of the vertical distributor pipes, which is connected to the flow connection through an opening provided in the pipe jacket, characterized in that the horizontal pipe ( 2 , 2 x) on which the flow and return connection ( 5 , 6 ) are arranged is extended into the area of the vertical distributor pipe ( 3 , 4 ) in which the riser pipe ( 7 ) is arranged and is closed off at the side, wherein the extension area of the pipe ( 2 , 2 x) is penetrated by the riser pipe ( 7 ) through transverse bores ( 12 ) arranged in the jacket of the area. 2. Tubular heating element according to claim 1, characterized in that the pipe jacket of the riser pipe ( 7 ) has transverse bores ( 13 ) in the region in which the riser pipe ( 7 ) penetrates the horizontal pipe ( 2 , 2 x). 3. Tubular heating element according to one of the above claims, characterized in that the horizontal tube ( 2 , 2 x) is closed laterally with a cover. 4. Tubular heating element according to one of the above claims, characterized in that the extension of the horizontal pipe ( 2 , 2 x) is carried out by a riser pipe sleeve ( 15 ) which is closed on one side and is to be connected to the horizontal pipe ( 2 , 2 x), whereby all horizontal pipes ( 2 , 2 x) have the same length. 5. Tubular heating element according to claim 4, characterized in that the casing of the riser sleeve ( 15 ) is provided with at least two transverse bores ( 12 ).