NL1034376C2 - Cold and hot water installation for use in building e.g. house, has measuring device including measuring tube connected between pipes, and control device controlling pressure in pipes as function of pressure in one direction - Google Patents

Abstract

The installation has a pipe (1) for supply of cold tap water, and another pipe (2) for supply of hot water. A measuring device (3) measures the pressure in one of the pipes, where the measuring device includes a measuring tube connected between the pipes, and a pressure transmissive membrane (5) provided between the pipes. A control device (10) controls the pressure in the other of the pipes as a function of pressure in one direction. Independent claims are also included for the following: (1) a method for installing pipelines for supply of cold and hot water (2) a method for controlling supply of cold and hot water.

Description

Cold and hot tap water installation

BACKGROUND OF THE INVENTION

The invention relates to a cold and hot tap water installation provided with at least a part of a line for supplying cold tap water, and at least a part of a separate line for supplying hot tap water.

Such an installation is known per se, such as, for example, an installation for separately, and in particular by different parties, supplying cold and hot tap water from outside to a building, such as a house, which building by means of so-called district heating of cold and hot tap water is provided. Here, the cold tap water and the hot tap water are supplied to the building from separate power stations, and if desired, the cold and hot tap water are only mixed in the building. A drawback of supplying hot and cold tap water from separate plants (or batches) is that pressure differences can occur in the supply of the hot and cold tap water. For example, when someone in the building is taking a shower, when the pressure of the cold tap water drops, only hot tap water would be supplied, which could cause a dangerous situation.

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SUMMARY OF THE INVENTION

It is an object of the invention to provide an installation for supplying cold and hot tap water, wherein the loss of pressure in one of the pipes does not or hardly leads to dangerous situations.

It is a further object of the invention to provide an installation for supplying cold and hot tap water, wherein remedying the above-mentioned dangerous situations does not cause legionella contamination.

This object is achieved according to the invention by a cold and hot tap water installation provided with at least a part of a line for supplying cold tap water, at least a part of a separate line for supplying hot tap water, a measuring device for measuring the pressure in one of the pipes, the measuring device comprising a measuring tube connected between the pipes, in which measuring pipe a pressure transmitting membrane is arranged which forms a separation between the pipes, and a control device for controlling the pressure in the other of the pipes depending on the pressure in one pipe. The control device can realize that the pressure of, for example, the hot tap water is dependent on the pressure of the cold tap water, as measured by the measuring device, so that, for example, when reducing the pressure of the cold tap water, the pressure of the hot tap water is also is reduced accordingly. Legionella contamination can be avoided by separation through the membrane.

In an embodiment of a device according to the invention, a first and a second pressure-transmitting membrane are arranged in the measuring tube, an intermediate medium being present between the pressure-transmitting membranes. In this way, the distance between the cold tap water line and the hot tap water line can be selected to be arbitrarily large, while on the one hand the control of the pressures remains guaranteed and, on the other hand, legionella contamination can be avoided despite the stationary medium between the membranes.

In an advantageous embodiment of a device according to the invention, the measuring tube comprises an intermediate line, wherein the intermediate line is formed by the part of the measuring tube located between the membranes, and the measuring device is provided with a pressure measuring chamber with a first measuring chamber half t, which is in communication with one of the conduits via a preferably shortest possible measuring connection, and a second measuring chamber half which is separated from the first measuring chamber half by means of the first pressure-transmitting membrane, a control chamber with a first control chamber half and a second control chamber half, which control chamber halves are separated by the second pressure-transmitting diaphragm, the second control chamber half communicating via the intermediate line with the second measuring chamber half, the control chamber comprising a control valve connected to the second pressure-transmitting membrane 20, which control valve extends via the first control chamber half to the other pipe. This makes it possible to configure the measuring tube in such a way that legionella contamination is avoided, and it is possible to meet the strict requirements set by government authorities with regard to avoiding legionella contamination.

In an advantageous embodiment the control chamber is arranged on the other conduit, the control chamber and the other conduit being provided with a passage which coincides at least substantially, through which a part of the valve extends. A compact construction is hereby obtained.

An accurate control of the pressure can be realized when the valve is provided with a valve valve located entirely in the other line, the other line being provided with a valve seat surrounding an opening, the valve valve being in contact with 4 and out of contact is movable with the valve seat. Here, in particular, the valve valve and the valve seat are configured such that the size of the flow opening is dependent on the distance from the valve valve to the valve seat. As a result, it can be realized in a simple manner that when at least virtually no pressure is present in one line, the valve valve is completely in contact with the valve seat, so that the size of the flow-through opening is zero, so that no pressure is present in the other line either. .

It is advantageous if the intermediate medium is water. It is furthermore advantageous if the one pipe is the cold tap water pipe.

The invention also relates to a building with a line for supplying cold tap water and a separate line for supplying hot tap water, which lines extend from inside the building to outside the building, the building comprising an installation according to the invention.

The invention further relates to a method for controlling the supply of cold and hot tap water, in which method an installation according to the invention is used, wherein each of the pipes has an end of use, the method comprising the step of measuring of the pressure in the one line and the step of controlling the pressure at the end of use of the other line by the control device such that it is substantially equal to the pressure in the one line.

The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can where possible also be applied separately from each other. Those individual aspects, such as the pressure measurement with a separating membrane and the use of an intermediate line, and other aspects may be the subject of split-off patent applications directed thereto. This applies in particular to the measures and aspects described per se in the subclaims.

BRIEF DESCRIPTION OF THE DRAWINGS 5

The invention will be elucidated on the basis of a number of exemplary embodiments shown in the accompanying drawings. Shown is:

Figure 1 shows a schematic representation of an installation for supplying cold and hot tap water, wherein the device is provided with at least a part of a line for supplying cold tap water and at least a part of a separate line for supplying hot tap water.

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DETAILED DESCRIPTION OF THE DRAWINGS

Figure 1 schematically shows an installation for supplying cold and hot tap water according to the invention. The device is provided with a line 1 (part of which is shown) for supplying cold tap water and a separate line 2 (part of which is shown) for supplying hot tap water.

A measuring device 3 is arranged between the pipes 1 and 2 and measures the pressure in one of the pipes (in the exemplary embodiment shown the pipe 1).

The measuring device 3 comprises a measuring tube (formed by the tube parts 4a, 4b to be explained later), which is connected between the lines 1 and 2. In the measuring tube 4a, 4b a first pressure-transmitting membrane 5 and a second pressure-transmitting membrane 6 are arranged which form a separation between the pipes 1, 2. The material from which the pressure-transmitting membranes are made is chosen such that pressure change on one side of the membrane is transferred to the other side of the membrane. Such membranes are known per se and can for instance be made of rubber, metal or the like. The result of such membranes is usually a maximum of a few millimeters. Such membranes are also impermeable to the legionary bacteria.

The measuring tube comprises a measuring connection 4b, preferably as short as possible, and an intermediate line 4a, wherein the intermediate line 4a is formed by the part of the measuring tube located between the membranes 1 and 2. In the intermediate line 4a an intermediate medium is present, which intermediate medium can be water or another liquid. Although in an alternative embodiment the use of one membrane may be sufficient to prevent legionella contamination, the use of two membranes has constructive advantages. On the one hand the pressure measurement and the pressure control dependent on it can take place over an arbitrary distance between the pipes, and on the other hand the dimensions (length and cross-section) of the measuring connection 4b can be optimally adjusted to prevent legionella contamination.

A pressure measuring chamber 7 has a first measuring chamber half 8, which is in communication with the line 1 via the measuring connection 4b. The pressure measuring chamber 7 also has a second measuring chamber half 9 which is separated from the first measuring chamber half 8 by means of the first pressure transmitting membrane 5 A control chamber 10 has a first control chamber half 11 and a second control chamber half 12, which control chamber halves 11, 12 are separated by the second pressure transmitting membrane 6. The second control chamber half 12 communicates via the intermediate line 4a with the second measuring chamber half 9.

A control valve 13 connected to the second pressure transmitting diaphragm 6 is accommodated in the control chamber 10, which control valve 13 extends via the first control chamber half into the pipe 2. The control chamber 10 is arranged on the pipe 2, the control chamber 10 and the pipe 2 are provided with an at least substantially 7 coincident passage 14 through which a part of the valve 13 extends. The valve 13 is provided with a valve valve 15 located entirely in the pipe 2. The pipe 2 is provided with a valve seat 16 surrounding an opening 17, the valve valve 15 being movable in and out of contact with the valve seat 16. The valve valve 15 and the valve seat 16 are configured such that the size of the flow opening is dependent on the distance from the valve valve 15 to the valve seat 16. Such assemblies of valve seats and valve valves are known per se. The flow opening is zero when the valve valve abuts the valve seat, and the flow opening increases with the distance between the valve valve and the valve seat. However, it will be clear to a person skilled in the art that other types of valve valves and seats can also be used within the invention.

All this is arranged and configured such that when there is virtually no pressure in the cold tap water line 1, this is via the first membrane 5, the intermediate medium in the intermediate pipe 4a and the second membrane 6 and the valve 13 therefor. ensures that the valve valve 15 lies completely against the valve seat 16, so that the size of the through-flow opening is zero, and accordingly there is also no hot tap water pressure in the line 2.

The invention can be used in particular in a building with a pipe for supplying cold tap water and a separate pipe for supplying hot tap water, which pipes extend from inside the building to outside the building, wherein the building has an installation such as described herein. By using the installation described herein (wherein each of the pipes has a use end 1Θ, 19, optionally provided with a tap 35 or the like), a method for controlling the supply of cold and hot tap water is made possible, the method includes the step of measuring the δ pressure in one line and the step of regulating the pressure at the end of use of the other line by the control device so that it is substantially equal to the pressure in the one line.

The above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be evident to those skilled in the art that fall within the spirit and scope of the present invention, in particular as defined in the appended claims. For example, it will be clear that the pipe to be regulated can also be the other pipe (i.e. the cold water pipe, wherein the hot tap water pressure is measured).

1034376:

Claims (11)

Cold and hot tap water installation provided with: - at least a part of a line for supplying cold tap water, - at least a part of a separate line for supplying hot tap water, - a measuring device for measuring the pressure in one of the pipes, wherein the measuring device comprises a measuring tube connected between the pipes, in which measuring pipe a pressure-transmitting membrane is arranged which forms a separation between the pipes, and - a control device for controlling the pressure in the other of the pipes depending on the pressure in one pipe. 2. Installation as claimed in claim 1, wherein a first and a second pressure-transmitting membrane are arranged in the measuring tube, wherein an intermediate medium is present between the pressure-transmitting membranes. 3. Installation as claimed in claim 2, wherein the measuring tube comprises an intermediate line, wherein the intermediate line is formed by the part of the measuring tube located between the membranes, and the measuring device is provided with: a pressure measuring chamber with a first measuring chamber half, which via a measuring connection is preferably in communication with one of the pipes, and a second measuring chamber half which is separated from the first measuring chamber half by means of the first pressure-transmitting membrane, - a control chamber with a first control chamber half and a second control chamber half which control chamber halves 30 are separated by the second pressure-transmitting diaphragm, the second control chamber half communicating via the intermediate line 1034376 with the second measuring chamber half, the control chamber comprising a control valve connected to the second pressure-transmitting diaphragm, which control valve extends through the first control chamber half into the other leadership. Installation as claimed in claim 3, wherein the control chamber is arranged on the other pipe, wherein the control chamber and the other pipe are provided with a substantially coincident passage through which a part of the valve extends. Installation according to claim 3 or 4, wherein the valve is provided with a valve valve located entirely in the other conduit, the other conduit being provided with a valve seat surrounding an opening, the valve valve coming in and out of contact with the valve. 15 seat is movable. Installation according to claim 5, wherein the valve valve and the valve seat are configured such that the size of the flow opening is dependent on the distance from the valve valve to the valve seat. Installation as claimed in claim 5 or 6, wherein when at least virtually no pressure is present in the one line, the valve valve is completely in contact with the valve seat, so that the size of the flow opening is zero. 8. Installation as claimed in any of the foregoing claims, wherein the intermediate medium is water. Installation according to one of the preceding claims, wherein the one pipe is the cold tap water pipe. 10. Building with a line for supplying cold tap water and a separate line for supplying hot tap water, which lines extend from inside the building to outside the building, the building comprising an installation according to one of the preceding claims. 11. Method for controlling the supply of cold and hot tap water, in which method an installation according to any of claims 1 to 9 is used, wherein each of the pipes has an end of use, the method comprising the step of measuring the pressure in one line and the step of controlling the pressure at the end of use of the other line by the control device such that it is substantially equal to the pressure in the one line. -o-o-o-o-o-o-o-AS / HZ 1034376