Siphon

Abstract

A siphon includes a feed area for feeding a liquid, a downpipe connecting to the feed area, extended from top to bottom in a use position of the siphon, a deflection pipe filled with liquid during stationary operation on the end of the downpipe facing away from the feed area connecting to this, a riser pipe on the end of the deflection pipe facing away from the downpipe, and connecting to this, extended from bottom to top in the use position, and a discharge area connecting to the end of the riser pipe facing away from the deflection pipe for discharging liquid. A storage tank arranged on the siphon between the feed area and the discharge area is hydraulically connected to the deflection pipe and designed to automatically fill with liquid during stationary operation and to automatically empty into the deflection pipe following a pressure surge affecting the siphon.

Claims

1. A siphon comprising a feed area for feeding a liquid, a downpipe connecting to the feed area, extended from top to bottom in a position of use of the siphon, a deflection pipe filled with the liquid during stationary operation on an end of the downpipe facing away from the feed area connecting to this, a riser pipe on an end of the deflection pipe facing away from the downpipe, and connecting to this, extended from bottom to top in the position of use of the siphon, and a discharge area connecting to an end of the riser pipe facing away from the deflection pipe for discharging the liquid wherein, on the siphon, between the feed area and the discharge area, a storage tank is arranged, which is hydraulically connected to the deflection pipe, is designed to automatically fill with the liquid during stationary operation and to automatically empty into the deflection pipe following a pressure surge that affects the siphon, and wherein the downpipe, starting from the feed area comprises a first, straight downpipe section and a second downpipe section adjoining the first, straight downpipe section and running in a meander-like manner, connected to the deflection pipe and at a transition area between the first, straight downpipe section and the second downpipe section, a trap is arranged that is hydraulically connected to the downpipe, sealed at a lower end of the trap, and extended vertically during use of the siphon.

2. The siphon according to claim 1, wherein the storage tank is arranged on the riser pipe.

3. The siphon according to claim 1, wherein the storage tank is formed from a spatial expansion of the riser pipe.

4. The siphon according to claim 1, wherein the storage tank is located closer to the discharge area than to the deflection pipe.

5. The siphon according to claim 1, wherein the storage tank is rectangular.

6. The siphon according to claim 1, wherein an additional deflection pipe is arranged at the discharge area.

7. The siphon according to claim 6, wherein an additional downpipe is arranged at an end of the additional deflection pipe facing away from the discharge area that begins there and runs vertically downwards during the intended operation of the siphon.

8. The siphon according to claim 7, wherein a pipe discharge connection is provided on an end of the additional downpipe facing away from the additional deflection pipe.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The siphon according to the invention including its favourable further developments is explained in more detail below on the basis of the drawing of a preferred exemplary embodiment.

(2) The figures show:

(3) FIG. 1 perspectively, the siphon according to the invention;

(4) FIG. 2 in a top view, the siphon in accordance with

(5) FIG. 1;

(6) FIG. 3 in a side view of the siphon in accordance with

(7) FIG. 1; and

(8) FIG. 4 in a sectional view, the siphon in accordance with FIG. 1, along the cutting line A-A in FIG. 3.

DETAILED DESCRIPTION OF THE DRAWINGS

(9) The siphon shown in the figures, which is intended, in particular, for an oil- or gas-powered boiler, consists in a manner known per se of a feed area 1 for feeding a liquid, a downpipe 2 connecting to the feed area 1, extended from top to bottom in the position of use of the siphon, a deflection pipe 3 filled with liquid during stationary operation on the end of the downpipe 2 facing away from the feed area 1 and connecting to this, a riser pipe 4 on the end of the deflection pipe 3 facing away from the downpipe 2 connecting to this and extended from bottom to top in the position of use of the siphon, and a discharge area 5 connecting to the end of the riser pipe 4 facing away from the deflection pipe 3 for discharging the liquid.

(10) As is immediately evident, in particular, it is preferably provided that the feed area 1 is formed as a pipe connection. Via this pipe connection, the siphon is connected, for example or preferably, at the lower end of an exhaust gas jacket of a boiler.

(11) Furthermore, in particular, it is preferably provided that the siphon is formed in a single piece as a plastic injection-moulded part.

(12) It is now essential for the siphon according to the invention that, at this, between the feed area 1 and the discharge area 5, a storage tank 6 is arranged, which is hydraulically connected to the deflection pipe 3, is designed to automatically fill with the liquid during stationary operation and to automatically empty into the deflection pipe 3 following a pressure surge that affects the siphon. As explained at the beginning, this provision of the invention serves to ensure that the siphon can refill itself at least once, preferably a plurality of times, after a pressure surge, as it repeatedly occurs, in particular, in the case of heating systems.

(13) Being particularly preferred, it is provided that the storage tank 6 is arranged on the riser pipe 4.

(14) Furthermore, it is preferably provided that the storage tank 6 is formed from a spatial expansion of the riser pipe 4, meaning, the riser pipe 4 and the storage tank 6 materially merge into each other.

(15) In addition, it is preferably provided that the storage tank 4 is arranged closer to the discharge area 5 than to the deflection pipe 3.

(16) For a particularly compact design, it is also preferably provided that the storage tank 6 is rectangular.

(17) Furthermore, being particularly preferred, it is provided that the downpipe 2 starting from the feed area 1 comprises a first, straight downpipe section 2.1 and a second downpipe section 2.2 adjoining it and running in a meander-like manner, connected to the deflection pipe 3. The meander shape is chosen to counteract a possible pressure surge with more friction. For this purpose, it is also preferably provided that the second, meander-like downpipe section 2.2 comprises at least three horizontal and three vertical intermediate sections when the siphon is operated as intended. Furthermore, it is preferably provided in this context that the downpipe section 2.2 is angled by 90 at transitions between the horizontally and vertically running intermediate sections.

(18) In addition, as can be seen from the figures, it is preferably provided that the first downpipe section 2.1 has a length of to and the second downpipe section 2.2 correspondingly has a length of to of the length of the downpipe 2.

(19) In addition, it is preferably provided that the storage tank 4 is formed in the area of the first downpipe section 2.1 or parallel to this.

(20) In order to be able to intercept contaminants, in particular, alluvial particles, from the exhaust system of the above-mentioned boiler and thus to ensure the longest possible, trouble-free operation, in particular, it is also preferably provided that, at the transition area between the first and second downpipe section 2.1, 2.2, a trap 7 is arranged that is hydraulically connected to the downpipe 2, sealed at its lower end, and extended vertically during the intended use of the siphon. This siphon 7 preferably has a length of 75 to 100% of the length of the second downpipe section 2.2. In addition, it is preferably provided that the trap 7 is designed to adjoin vertically on the first downpipe section 2.1 and the second downpipe section 2.2 is designed to adjoin horizontally on the first downpipe section 2.1.

(21) In order to ultimately be able to connect the siphon with a sewer system, furthermore, an additional deflection pipe 8 is preferably arranged at the discharge area 5. In addition, an additional downpipe 9 is arranged at the end of the additional deflection pipe 8 facing away from the discharge area that begins there and runs vertically downwards during the intended operation of the siphon, wherein, furthermore, a pipe discharge connection 10 is provided on the end of the additional downpipe 9 facing away from the additional deflection pipe 8. Via this pipe outlet connection 10, the siphon is preferably connected to the said sewer system.

(22) TABLE-US-00001 Reference list 1 feed area 2 downpipe 2.1 first downpipe section 2.2 second downpipe section 3 deflection pipe 4 riser pipe 5 discharge area 6 storage tanks 7 siphon 8 additional deflection pipe 9 additional downpipe 10 pipe discharge connection