FI77501B - Sewer ventilation pipe - Google Patents

Abstract

The subject of this invention is a sewer ventilation pipe with a vertical pipe (1) protruding above the roof. During cold weather, freezing occurs around the opening of the ventilation pipe, which can completely block the ventilation pipe. The blocking hazard is lessened in this invention by increasing the length of the opening by fitting a horizontal end pipe (2) to the end of the vertical pipe (1), which is open in both ends (3).<IMAGE>

Description

1 77501

The present invention relates to a sewer ventilation pipe consisting of a substantially vertical pipe 5 which communicates at its lower end with the sewer.

For sewer water traps to work, the air pressure in the apartments must be approximately the same as the gas pressure in the sewer. To this end, the drains are connected to the outside air by ventilation ducts, which are usually placed on the roof of the buildings so that they protrude somewhat above the ceiling level.

There is a lot of water vapor in the sewers, which cools as it flows through the ventilation pipe. Under winter conditions, the temperature of the steam often drops below zero while the steam 15 is still in the ventilation pipe, as a result of which ice often forms on the inner surface of the upper end of the ventilation pipe. When the outside temperature is low, the ice layer can grow so thick that the ventilation pipe freezes, clogging the pipe.

FI patent publication 52757 discloses a ventilation pipe surrounded by a heat insulating layer which reduces the condensation of steam on the inner surface of the ventilation pipe. However, practice has shown that the thermal insulation layer does not have a large effect on the susceptibility of the pipe to freezing.

It is an object of the present invention to provide an exhaust ventilation pipe which is effectively prevented from freezing. The ventilation pipe according to the invention is characterized in that the upper end of the vertical pipe is associated with a substantially horizontal end pipe which is open at both ends and through which the interior of the vertical pipe communicates with the environment.

By placing a horizontal end pipe open at both ends at the upper end of the ventilation pipe, the ventilation pipe is prevented from freezing. The beneficial effect of the end pipe 35 is based on the fact that the water vapors in the sewer can pass into the environment 2 77501 through two openings and since freezing occurs specifically at the mouth of the pipe, the risk of freezing is lower than if the ventilation pipe had only one orifice. The mouthpiece used by the water vapor is determined by the direction of the wind 5, which often varies. On hard frosty days, there is often calm, with steam flowing from both mouths.

In order for both mouths to freeze approximately equally, it is preferred that the vertical tube opens into the end tube 10 in its plane of symmetry.

The circumference of the orifice can be further increased by beveling the ends of the end tube so that the lower part of the tube is shorter than its upper part. The ventilation pipe thus shaped has considerably more edge edge at which the freezing takes place than in the previously known ventilation pipes. The oblique shape of the ends also causes the steam condensed on the inner surface of the end pipe to flow as water to the lower part of the pipe and drip from it onto the roof. This effect can be enhanced by the lower wall of the end tube extending from the junction of the vertical tube 20 to the end tube towards the end of the end tube.

In order to prevent freezing already occurring in the vertical pipe of the ventilation pipe, it is desirable for the vertical pipe to be surrounded by an outer jacket. In this case, it is desirable that the space between the vertical pipe and the jacket be in contact with the source of dry and / or warm air and the interior of the end pipe. This keeps the walls of the vertical pipe reasonably warm, thus ensuring that the water vapor condenses and freezes only in the end pipe.

One preferred embodiment 30 of a ventilation pipe according to the invention will now be described in more detail with reference to the accompanying drawing, in which Fig. 1 shows a ventilation pipe according to the invention in vertical section, Fig. 2 shows the ventilation pipe in vertical section at the end and Fig. 3 is a cross-section of dry line III. III along.

The sewer ventilation pipe shown in the drawing comprises a substantially vertical pipe 1, which is connected at its lower end to the sewer and which is also open at its upper end.

According to the invention, a substantially horizontal end tube 2 is attached to the upper end of the vertical tube so that the vertical tube 1 opens into the end tube 2 through this hole in the end tube in the plane of symmetry. The end tube is open at both ends 3 and the ends are chamfered so that the lower part of the tube is shorter than its upper part. The lower wall 4 of the end tube 2 extends from the junction of the tube 1 and the end tube towards the ends 3 of the end tube. The pipes 1 and 15 2 are connected to each other by means of a neck 5.

The vertical pipe 1 is surrounded by a jacket 6 spaced from the outer surface of the pipe 1, so that a space 7 is formed between the jacket and the pipe, extending over the entire length of the pipe 1 above the roof. through the grommet 8. The jacket 6 rests at its upper end on the pipe 1 by means of knobs 9, between which the air of the space 7 can flow into the end pipe 2.

Contrary to the above, the ends 3 25 of the end tube 2 can be made straight and the lower edge 4 of the tube horizontal. The jacket 6 may also be omitted in some cases, although it promotes the transfer of the freezing point to the orifices of the end tube.

Claims (5)

A sewer ventilation pipe consisting of a substantially vertical pipe (1) communicating with the sewer at its lower end 5, characterized in that a substantially horizontal end pipe (2) is connected to the upper end of the vertical pipe (1) and is open at both ends (3). the interior of the vertical pipe (1) is in contact with the environment. Ventilation pipe according to Claim 1, characterized in that the vertical pipe (1) opens into the end pipe (2) in its plane of symmetry. Ventilation pipe according to Claim 1, characterized in that the ends (3) of the end pipe are chamfered so that the lower part of the pipe is shorter than its upper part. Ventilation pipe according to Claim 1, characterized in that the lower wall (4) of the end pipe extends from the junction of the vertical pipe (1) and the end pipe (2) towards the end (3) of the end pipe. Ventilation pipe according to claim 1, wherein the vertical pipe (1) is surrounded by a jacket (6), characterized in that the space (7) between the vertical pipe and the jacket communicates with a source of dry and / or warm air and the interior of the end pipe (2). .