NL2011953C2 - DRAIN PUT WITH SIPHON. - Google Patents

Abstract

The invention relates to a drain, comprising: - a collecting housing with an inflow opening on the upper side, an outflow opening and a tunnel extending to the outflow opening, wherein the outflow opening debouches in the tunnel; - a siphon cover arranged over the outflow opening, wherein during use the edge of the siphon cover is located lower than the outflow opening; and - a bridge part hanging over the tunnel and having a first end arranged on the outer side of the siphon cover, wherein the other end of the bridge part further lies sealingly against the inner wall of the collecting housing.

Description

Drainage pit with siphon

The invention relates to a drain comprising: - a receiving housing with an inflow opening at the top, an outflow opening and a tunnel extending towards the outflow opening, wherein the outflow opening opens into the tunnel; - a siphon hood arranged over the outflow opening, wherein in use the edge of the siphon hood is lower than the outflow opening;

Such a drain is known from EP 1518969. With this drain, both a vertical drain pipe and a horizontal drain pipe with bend can be inserted into the outflow opening. With the horizontal drain pipe, the rising bottom ensures that a relatively flat drain with siphon is obtained, while the collecting housing still has a large maximum depth, so that a relatively high water seal can be obtained.

The siphon cap is fitted over the upright wall and, together with the upright wall and the collecting housing, ensures siphon operation. The siphon cover extends over the upright wall and has hanging wall parts that extend to just above the bottom of the receiving housing.

With this known drain, the hanging wall parts of the siphon cap must connect sealingly to the raised bottom to guarantee a full height of the water seal. The theoretical height of the airlock is determined by the lowest point of the bottom of the siphon cap and the top edge of the upright wall around the outflow opening. However, practice shows that the siphon cap does not connect sealingly to the raised bottom, whereby air leakage occurs and the effective height of the airlock is determined by the highest point of the siphon cover at the raised bottom and the top edge of the upright wall around the outlet opening . As a result of the air leak, unpleasant odors can escape from the sewer through the siphon.

It can also happen that an overpressure is created in the sewer. A minimum water height must be present to prevent the water from being squeezed away in the siphon. This minimum water height is typically 4 centimeters.

Furthermore, it is known to use a bend piece with this known siphon, which has a narrowed part at the height of the raised bottom. This allows the installation depth including the bend to be reduced. However, the disadvantage is that a narrowing is formed in the discharge pipe, which impedes the flow.

It is now an object of the invention to reduce or even prevent the abovementioned disadvantages.

This object is achieved with a drain according to the preamble, which is characterized by a bridge part hanging over the tunnel with a first end arranged on the outside of the siphon cap, the bridge part further sealingly seated against the inner wall of the receiving housing with the other end .

Because the bridge part runs between the outside of the siphon cap and the inner wall of the receiving housing, the tunnel can be brought within the space enclosed by the siphon cap. The hanging wall of the siphon cap is in fact no longer interrupted by the tunnel part because the siphon cap is sealingly abutting against the inner wall of the receiving housing via the bridge part.

With the drain according to the invention, it is possible for the tunnel to have a substantially the same height as the drain, so that a drain pipe can run through the tunnel to the outflow opening, without restrictions having to be made in the drain pipe, such as at the position of technology.

The tunnel can either be incorporated in the bottom of the receiving housing or be provided as a tube protruding through the side wall of the housing and opening into the outflow opening.

An embodiment of the drain according to the invention further comprises a circumferential wall arranged around the siphon cap, which sealingly connects to the inner wall of the receiving housing and wherein the other end of the bridge part is arranged on the circumferential wall.

The circumferential wall can easily be formed so that a reliable seal can be obtained on the inner wall of the receiving housing. Afterwards the circumferential wall forms a good basis for attaching the bridge part with the siphon cap to it. The siphon cap can then be further supported by partitions arranged between the siphon cap and the peripheral wall.

In a further embodiment of the drain according to the invention, the circumferential wall comprises in the upper edge an external groove and a seal arranged therein for sealing against the inner wall of the receiving housing.

When the peripheral wall is placed in the housing, the seal in the external groove will provide a reliable seal between the peripheral wall and the inner wall of the receiving housing. Moreover, as a result, the circumferential wall and thus the siphon cap and the bridge part can easily be taken out if the drain is cleaned or when access has to be gained to the drain pipe via the outlet opening.

In yet another embodiment of the drain according to the invention, the bridge part comprises an upper wall arranged above the tunnel and sidewalls hanging down from the upper wall on either side next to the tunnel.

With such a bridge part a siphon cap is provided, which is kept outside the raised bottom part in front of the tunnel, so that the problem of sealing no longer arises.

In yet another embodiment of the drain according to the invention, the lower edge of the hanging side walls is substantially flush with the edge of the siphon cap.

Since, in fact, the bridge part is part of the siphon cover, so as to keep the tunnel within the space enclosed by the siphon cover, the smallest height of the hanging wall of both the siphon cover and the tunnel determines the effective height of the airlock formed in the drain. is becoming.

In a further preferred embodiment of the drain according to the invention, the tunnel is arranged in the bottom of the receiving housing for receiving a discharge pipe arranged on the outflow opening.

With this embodiment it is possible to connect a vertical discharge pipe to the outflow opening or a horizontal discharge pipe, wherein the horizontal pipe is received in the tunnel.

In a further embodiment of the drain according to the invention, the tunnel is tubular. Such an embodiment is particularly suitable for connection to a horizontal tube, since the tubular tunnel also opens out horizontally.

The invention further relates to a combination of a drain according to the invention and a drain pipe, wherein the drain pipe is inserted into the outflow opening.

In a preferred embodiment of the combination according to the invention, the discharge tube comprises a bend piece and tube parts arranged on either side of the bend piece, wherein a first tube part is inserted into the outflow opening and wherein the second tube part is received in the tunnel.

Because the second pipe part is included in the tunnel, the total installation depth of the drain is no more than the height of the drain itself. This is particularly advantageous when the floor thickness is limited.

With this construction according to the invention it is also possible to construct the siphon in a continuous pipe. A double tunnel must then be provided, so that the continuous pipe can run through it.

These and other features of the invention are further elucidated with reference to the accompanying drawings.

Figure 1 shows a perspective view with exploded parts of a first embodiment of the drain according to the invention.

Figure 2 shows a cross-sectional view of the embodiment according to Figure 1.

Figure 3 shows a perspective view of a second embodiment according to the invention.

Figures 4A and 4B show a third embodiment of a drain according to the invention.

Figure 1 shows a perspective view of a first embodiment of the drain 1 according to the invention. The drain 1 has a receiving housing 2 with an inflow opening at the top, which is bounded by a square peripheral flange 3, on which, for example, a grid can be placed. The receiving housing 2 further has an outflow opening 4, to which a tubular tunnel 5 is connected. A discharge pipe can be connected to the tubular tunnel 5.

A siphon cap 6 is provided over the outflow opening 4. A circumferential wall 7 is arranged around the siphon cap 6, which wall wall is connected to the siphon cap via a bridge part 8 and partitions 9.

Figure 2 shows a cross-sectional view of the embodiment 1 according to figure 1. The siphon cap 6 with the peripheral wall 7 and the bridge part 8 is placed in the receiving housing 2. Provided in the peripheral wall 7 is an external groove 10, in which a seal 11 is accommodated, which provides a seal on the inner wall of the receiving housing 2.

A grid 12 is further arranged over the siphon cap 6 and the peripheral flange 3.

Water W which flows through the grid 12 into the inflow opening of the receiving housing will then flow down between the circumferential wall 7 and the siphon cap 6 and then flow up into the siphon cap 6 to the outflow opening 4, whereafter the water flows via the tubular tunnel 5 .

Figure 3 shows a perspective view of a second embodiment of a drain 20 according to the invention. In the figure, only the receiving housing 21 is shown, without a siphon cap, which may be shaped similarly to the siphon cap 6 according to figure 1.

The receiving housing 21 has an outflow opening 22, which is connected to two tubular tunnels 23, 24. The advantage of this embodiment is that the drain 20 can be arranged in a continuous drain pipe, without the flow of the drain pipe through the drain 20 being impeded. is becoming.

Figures 4A and 4B show a third embodiment of a drain 30 according to the invention. The drain 30 has a receiving housing 31 with a square flange 32, on which a grid can be placed. An outflow opening 32 is provided in the drain housing 31, which outlet rests against the side of the drain housing 31. The outflow opening 32 is connected via a narrow tunnel 33 to a continuous discharge pipe 34.

In Fig. 4B a siphon cap 35 is placed in the discharge housing 31 over the outflow opening 32. The siphon cap 35 is connected to a peripheral wall 36 which connects to the inner wall of the drain housing 31.

The siphon cap 35 also rests against the peripheral wall 36, the transition of the two parts forming a bridge part at the same time.

Claims (9)

A drain well comprising: - a receiving housing with an inflow opening at the top, an outflow opening and a tunnel extending towards the outflow opening, wherein the outflow opening opens into the tunnel; - a siphon hood arranged over the outflow opening, wherein in use the edge of the siphon hood is lower than the outflow opening; characterized by - a bridge part hanging over the tunnel with a first end arranged on the outside of the siphon cap, the bridge part further sealingly abuts the inner wall of the receiving housing with the other end. 2. Drainage pit according to claim 1, further comprising a circumferential wall arranged around the siphon cap, which sealingly connects to the inner wall of the receiving housing and wherein the other end of the bridge part is arranged on the circumferential wall. 3. Drainage pit according to claim 2, wherein the circumferential wall in the upper edge comprises an external groove and a seal arranged therein for sealing against the inner wall of the receiving housing. 4. Drainage pit according to one of the preceding claims, wherein the bridge part comprises an upper wall arranged above the tunnel and side walls hanging down on either side next to the tunnel. 5. Drainage pit according to claim 4, wherein the lower edge of the hanging side walls is substantially flush with the edge of the siphon cap. Drainage pit according to one of the preceding claims, wherein the tunnel is arranged in the bottom of the receiving housing for receiving a drainage pipe arranged on the outflow opening. The drain well of claim 6, wherein the tunnel is tubular. 8. Combination of a drain according to one of the preceding claims and a drain pipe, wherein the drain pipe is inserted into the outflow opening. 9. Combination as claimed in claim 8, wherein the discharge tube comprises a bend piece and tube parts arranged on either side of the bend piece, wherein a first tube part is inserted into the outflow opening and wherein the second tube part is received in the tunnel.