TECHNICAL FIELD

The present invention relates to an apparatus for realizing, in the tapping of liquid, e.g. water, a continuous liquid flow at a controlled temperature, also in the event of large variations in the liquid flow.

BACKGROUND ART

There is, in many contexts, a need for an apparatus according to the preceding paragraph, for example in industrial applications, in the domestic environment, in the hospital environment, etc. In particular in practical applications in which it must be possible to vary the size of the liquid flow between large and small values, and in which only slight deviations from adjusted temperatures (norm values) are acceptable in the liquid in the flow discharged from the apparatus, extreme demands are placed on the function of the apparatus. Mixers designed for large liquid flows and disposed to emit, in large flow volumes, liquid within a narrow temperature range are not suitable for use in small liquid flows, since the deviations from preset norm values will, as a rule, be unaccaptably large. The same naturally applies that if mixers designed to emit liquid at small liquid flows with slight deviation from the norm value are upgraded in dimensions so as to permit large liquid flows, the mixer in small liquid flows will lose exactness in temperature control and emit liquid at a temperature which often considerably deviates from the norm values. Mixers designed to emit liquid within a narrow temperature range in both small and large liquid flows are unknown in the art.

Patent specification EP 0 187 484 describes a technique in which computer control is employed to adjust the temperature of an emitted liquid flow to a determined value. The apparatus comprises a multiplicity of valves which are connected pairwise to a supply conduit for hot water and a supply conduit for cold water. From each one of the valves, the water is led to a common tapping conduit.

A temperature sensor is provided in the tap conduit and feeds back detected temperature to a control unit. Via control devices, the control unit selectively controls the opening and closing of the valves which, in such instance, either assume fully closed position or fully open position. In the use of the apparatus, the temperature of the liquid departing from the apparatus is controlled in that a number of valves connected to the supply conduit for cold water and a number of valves connected to the supply conduit for hot water are opened. In response to the information which the detector feeds back to the control unit, this unit modifies, when necessary, the relationship between the number of open valves for cold and hot water so that the mixture of water which is supplied to the tapping conduit will have the correct temperature. In such an apparatus, it is not possible on each individual tapping occasion individually to regulate the flow quantity in those valves which are pairwise connected to supply conduits for cold and hot water, respectively, in order, by such regulation, to achieve a desired temperature on the individual tapping occasion of that flow which departs from each pair of valves. The apparatus is primarily intended for relatively large flows, and temperature control is effected by wholly throttling and/or wholly opening the flow in one or more valves which are connected to the supply conduit for cold water and/or the supply conduit for hot water.

BRIEF SUMMARY OF THE INVENTION

The present invention discloses a simple and reliable solution to the problem considered in the foregoing, this problem being achieved by means of the technique as disclosed in the characterizing clauses of the independent Claims.

Expedient embodiments of the present invention are disclosed in the appended subclaims.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWING

The present invention will now be described in greater detail hereinbelow, with particular reference to the accompanying Drawing, in which:

Fig. 1 shows a skeleton diagram of one embodiment of the apparatus according to the present invention.

DESCRIPTION OF PREFERRED EMBODIMENT

In the embodiment of the present invention illustrated in Fig. 1, there is shown a mixer 30 including a first part mixer 1 and a second part mixer 2. The mixer 30 is connected to a supply conduit 3 for cold liquid and a supply conduit 4 for hot liquid. A first tapping conduit 9 and a second tapping conduit 11 are connected to the mixer 30, in addition to which each respective tapping conduit is provided with its run-off tap 10 and 12, respectively, hereinafter generally designated first tap 10 and second tap 12. In certain embodiments, more than one tap is disposed in each tap conduit. In such instance, the taps are arranged such that the taps in open position tap liquid out of each respective tapping conduit irrespective of whether other taps are in the closed or opened position. The first tapping conduit 9 is dimensioned for a larger maximum liquid flow than the second tapping conduit 11. When, for example, the mixer is used in a bathroom, the first tapping conduit is suitable for use for filling a bath, while the second tapping conduit is connected to the bathroom shower.

The first part mixer 1 is connected, by means of a connecting conduit 18, to the supply conduit 3 for cold liquid and, by means of a connecting conduit 19, connected to the supply conduit 4 for hot liquid. The second part mixer 2 is correspondingly connected, by means of a connecting conduit 20, to the supply conduit 3 for cold liquid and, by means of a connecting conduit 21, is connected to the supply conduit 4 for hot liquid. In the connecting conduits 18,19 of the first part mixer 1, there are disposed non-return valves 14 and 15,

respectively, and in the connecting conduits 20,21 of the second part mixer, there are similarly provided non return valves 16 and 17. respectively. The non-return valves are turned such that they prevent liquid flow from each respective part mixer to the supply conduits for hot and cold liquid, respectively.

The first part mixer 1 is provided with an outlet 5 which is connected to a first outlet conduit 7. The second part mixer 2 is provided with an outlet 6 which is connected to a second outlet conduit 8. The just mentioned two outlet conduits are connected to the first tapping conduit 9 of the mixer, which tapping conduit is, thus, interconnected with the outlet 5 of the first part mixer and with the outlet 6 of the second part mixer. A non return valve or shut-off valve 13 is disposed in the outlet conduit 7 of the first part mixer, in those practical applications in which the non-return valve is employed, this is turned so as to prevent liquid flow in a direction towards the first part mixer. Jn certain embodiments, a shut-off valve 31 is disposed in the second outlet conduit 8. i.e. in the flow direction ahead of the connection of the second part mixer 2 to first tapping conduit 9.

In Fig. 1. the mixer 30 is shown in one embodiment in which the second tapping conduit 11 is connected to the mixer and is terminated by the second run off tap 12. As disclosed above, this second tapping conduit is intended to be employed when only a relatively slight liquid flow is required, for example a water flow v/hich corresponds to that which is normally used when showering.

In the Figure, the second tapping conduit 11 is shown connected to the first part mixer 1 via a second outlet 32 thereof. In the Figure, the second outlet is shown as mechanically discrete from the previously disclosed first outlet 5 of the part mixer. In such instance, a connecting conduit 11a is generally connected between the second outlet 32 and the second tapping conduit 11. However, it will be obvious to a person skilled in the art that, in certain applications. the second tapping conduit 11 is connected to the first outlet 5 of the first part mixer. In embodiments in which the first part mixer 1 is only provided with the first outlet 5, a cross coupling lib -. ^' shown

by broken lines in the Figure) is generally provided between the first outlet 5 and the second tapping conduit 11.

Fig. 1 also shows an embodiment in which a central unit 22, for example an operating unit, is provided for simultaneous or separate adjustment of the first part mixer 1 and/or the second part mixer 2 to the desired norm value. In an extremely simple embodiment, both of the part mixers are adjusted by means of mechanical transmission, while in other embodiments, at least one signal interconnection 23,24 is provided and is coupled to an operating device 25,26 disposed at at least one of the part mixers 1,2.

In one preferred embodiment, temperature sensors 33,34 are provided in the first and in the second tapping conduit 9,11, respectively. Each respective temperature sensor is connected to the central unit 22 by means of signal communications 35,36.

Fig. 1 shows one embodiment in which a norm value indicator 27 is connected to the central unit 22. As a rule, the norm value indicator is adjustable to the norm value relevant on each individual occasion of use, which, in one preferred embodiment, is transmitted to the central unit 22" by means of a signal communication 37. As a rule, both the norm value indicator and the central unit are provided with electric circuits which cater for the requisite calculations for comparison between received norm values and temperature information received from the temperature sensors 33,34 and which transmit requisite signals for switching of the part mixers 1,2.

It will further be obvious to a person skilled in the art that more than two part mixers 1,2 may be included in the mixer 30 according to the present invention.

On employment of the apparatus for tapping liquid through the first tapping conduit 9, the first tap 10 is opened in the first tapping conduit, and also the shut-off valve 31 in those embodiments in which this valve is provided after the second part mixer 2. In those embodiments in which the first outlet conduit 7 is provided with the shut-off valve 12, this is opened as well. With this setting of the valves and taps, liquid will pass through both the first part mixer

1 and the second part mixer 2. On opening of the tap, the part mixers are set to emit liquid at a predetermined temperature. On opening of the tap, the pressure in the outlets 5 and 6 of the first and second part mixers falls, whereby liquid is forced from the supply conduit 3 for cold liquid and from the supply conduit 4 for hot liquid via the connecting conduits 18-21 of the first part mixer 1 and the second part mixer 2 into the part mixers, hot and cold liquid being mixed in proportions which entail that that liquid which departs from each respective part mixer via their outlets, 5,6 is at a temperature corresponding to the adjustment setting of each respective part mixer.

When a slight flow of liquid is desired, only the second tap 12 is opened, liquid passing only through the first part mixer. The closed first tap 10, the shut-off valve 31 and/or the non-return valves 16,17 in the connecting conduits of the second part mixer to the supply conduits for cold and hot liquid, respectively, prevent liquid from flowing through the non-return valve 13 in the first outlet conduit 7 and through the second part mixer 2. Since liquid passes through the first part mixer and this is, as a rule, dimensioned for a relatively slight liquid flow, the desired effect of reliable temperature control will also be achieved in applications in which the liquid flow is slight.

In embodiments in which the shut-off valve 31 is disposed between the second part mixer 2 and the first tapping conduit 9, the situation will be achieved, with the above-mentioned valve in the closed position, with the second tap 12 in the closed position and with the first valve 10 in the opened position, that only the first part mixer 1 is passed by liquid which, in such instance, is led to the first tapping conduit 9. It will hereby be ensured that a slight liquid flow at a temperature which has minor deviations from the adjusted value passes out through the first tapping conduit 9.

In those embodiments of the valve in which temperature sensors are included, continuous information is fed back from the temperature sensors 33,34 to the central unit 22, relating to the temperature of the liquid flow which passes through each respective tapping conduit.

The central unit 22 compares this temperature information with adjusted norm values and, when necessary, corrects the adjustment setting of each respective part mixer in that signals are transmitted to operating devices 25 and 26, respectively, for switching the part mixers.

In certain practical applications, the second part mixer 2 is set at a temperature close to the norm value and, as a rule, slightly less than this value. Fine adjustment of the temperature takes place by means of the first part mixer 1 which regulates on a relatively slight liquid flow. Since the liquid from the second part mixer 2 is mixed with liquid from the first part mixer 1, the temperature of the liquid which flows through the first tapping conduit will be adjusted at values which have but minor deviations from the intended value. By means of signals received from the temperature sensor 33 in the first tapping conduit 9, information is fed back to the central unit 22 on the liquid temperature in the first tapping conduit. In the event of deviations from the norm value, the central unit primarily corrects the adjustment of the first part mixer 1 in that signals are transmitted to the operating device 25 of the first part mixer. In the event of major deviations from the norm value, the central unit transmits signals also to the operating device 26 of the second part mixer 2 for readjustment of the second part mixer.

Even though the first part mixer 1 and the second part mixer 2 are shown in Fig. 1 as separate units, it will be obvious to a person skilled in the art that the units as such may, in certain embodiments, be accommodated in the same housing.

The above detailed description has referred to but a limited number of embodiments of the present invention, but a person skilled in the art will readily perceive that the present invention encompasses a large number of embodiments without departing from the spirit and scope of the appended Claims.