DE3424393A1 - Mixer valve - Google Patents

Abstract

A mixer valve has a mixing temperature curve which runs in a straight line without a kink from a temperature of, for example, 45 DEG C to the cold temperature. Above the said temperature, the mixing temperature curve is considerably steeper. The arrangement of the kink is preferably chosen such that this kink occurs at a temperature of 45 DEG C, assuming a flow temperature of 60 DEG C. <IMAGE>

Description

Mi faucet

The invention relates to a mixer fitting in which the temperature of the outflowing water can be selected with the help of a control element and the dependency the mixed temperature from the position of the control element at least piece by piece linear is and has a kink at a maximum acceptable temperature, where im Range to higher temperature the dependency of the mixing temperature on the position of the control element has a greater slope in terms of amount.

It is already known in the case of single-lever mixer taps, the mixing characteristics to be interpreted in such a way that the mixing temperature is proportional to the movement path of the control element is.

In other words, the dependency of the mixing temperature on the position of the control element is represented by a straight line. This training has the Advantage that in all temperature ranges the temperature with the same accuracy can be adjusted. The disadvantage of this training is that in the Areas in which an exact temperature setting is not required, too a precise setting is possible so that for the temperature range, in which the exact setting is desired, only a relatively small movement path of the control element is available.

It has therefore already been suggested that the range of about 45 "C up to about 30 "C, in which the temperature is set for a shower or bath can be to spread, so that more movement path of the control element for this area is available. As a result, the mixed temperature curve points in this area the shape of a straight line with a smaller slope, while in the curve drops more sharply in the areas above 45 "C and below 30" C. This training is based on the idea that nobody is at a temperature of more than 45 "can shower or bath and that is why a fine adjustment in this one Area is not required.

It has now been found that this solution, which has proven itself in itself then leads to disadvantages if the flow temperature of the hot water is lowered. Then the range shifts between 45 and 30 "C in the adjustment range of the Control element, which is intended for the cold water area at a higher flow temperature whale, namely below 30 OC. If the flow temperature is lower, it is no longer possible to make a fine adjustment in the area of the lukewarm water, because then the area with a steep drop has already been reached. It is also special with the Showers are often desirable, the temperature in the range between cold (about 120) and warm (approx. 30 °) to be set sensitively.

The invention is based on the object of a mixer fitting, in particular a single-lever mixer tap to be designed in such a way that it is also not constant Flow temperature always gives the user the opportunity in the interesting Temperature range set the mixed water temperature as precisely as possible. In particular, this should be done in Towards the cold end of the temperature range may be possible. Such a one different flow temperatures come about, for example, when off To save energy, increase the flow temperature in the warmer season approx.

50C, while in winter it is around 60C - 70C.

To solve this problem, the invention provides that the Dependence of the mixing temperature on the position of the control element on the kink runs in one piece in a straight line up to the setting of the minimum temperature, i.e. none Has more kink. If the flow temperature is reduced, it becomes the one in question Temperature range with respect to the position of the control element shifted towards cold values, so it always remains in the area of the setting curve in which there is no kink is.

The adjustment of the kink can be made so that this is placed at the maximum allowable temperature of about 45 "C, with one Flow temperature of 80C, for example, can be assumed. Then the Mixing valve operated at a lower flow temperature, so are the above Advantages given. The only remaining kink is then something temperature lower than 45 °, for example at 40 °. However, it turned out that this value is still sufficient and that a slightly higher setting is also possible is.

However, it is particularly favorable if the adjustment of the kink is made at 45C at a lower flow temperature, for example with advantage at 60 °. In this Case lies the remaining one only kink when working with a higher flow temperature, at higher temperatures than 45 °, so that the linear course of the Mixing curve is given.

The invention also provides that the area of dependency with a constant slope extends over about 90% of the adjustment path of the operating lever. It has been found that this is a particularly favorable value.

In a further development it can be provided that in the position of the control element, where the kink is in the mixing curve, a notch or something similar to be overcome Stop is provided to alert the operator that now the area of steeper slope has been reached.

Further features, details and advantages of the invention result from the following description of a preferred embodiment as well as with reference to FIG Drawing. They show: FIG. 1 a mixed curve; 2 schematically shows one possibility for realizing the mixing curve according to FIG. 1 in a mixer.

In Fig. 1, in a coordinate system, the abscissa of which is the angle setting of the control element and its ordinate represents the mixed temperature, the dependency the mixing temperature from the angle setting of the control element in the form of a Curve 11 is shown. The curve 11 exists from two rectilinear Sections 12 and 13 that meet at the break point P1. The section 13 above of the bend P1 has a greater slope in terms of amount than the section 12 at lower temperature values.

The angular positions are plotted in percent on the abscissa.

No absolute temperature values are given on the ordinate, rather if the temperature values are plotted on an inclined axis 14, see above that the curve can be viewed for different temperatures.

The intersection of section 13 with the ordinate represents a Temperature value T1, while the kink P1 at a second temperature value T2 lies.

In a preferred embodiment of the invention, the kink is P1 placed so that it is 45C at a flow temperature of 60C. In this Case means T1 is equal to 60 °, while T2 means 45C. To now in a temperature value between 45 and 30C, the control element is completely in the kinkless section 12 of the dependency curve 11. Since the kink P1 at a Angle value of about 10% is therefore available for setting a temperature 45 "C 80% still available in total.

If the flow temperature is now, for example in winter operation, raised to 70C, the 45 "value moves according to the dashed line Connection line 15 to point T3, which corresponds to an angle value of about 25%.

It therefore stands for the temperature setting below 45 CC still 65% available, with the setting also in the colder area precisely is possible.

If the mixer designed in this way is operated at a flow temperature from 80 "C, the temperature value moves from 45" C according to the dashed line shown line 16 to the temperature value T4, which is approximately an angular position of 37C corresponds. Here too, around 60% of the adjustment path is still available for adjustment the temperature available.

FIG. 2 now shows, purely schematically, one possibility, a mixed curve to be realized as shown in FIG. There are two water inlet openings 20, 21 provided, the opening 20 for hot and the opening 21 for cold water should be provided. Both openings are roughly rectangular in shape Triangle, with the longer cathets 22, 23 of each opening running parallel to one another.

The same applies to the other cathets 24, 25. The hypotenuse 26 the inlet port 21 for cold water is parallel to the hypotenuse 27 of the other Inlet opening, the two hypotenuses being separated by a narrow web 28.

The tip of the triangular shape of the inlet opening 21 on the left in FIG cut off, so that here a short side running parallel to the cathetus 25 29 is given. Approximately in this area, the hypotenuse 27 has a kink 30, beyond that, the cross section of the water inlet opening 20 for hot water becomes stronger enlarged.

A slide 31 is arranged in front of the water inlet openings 20, 21, which has an approximately oval opening 32 in its center. The water can come from the Inlet openings 21 and 20 emerge only through opening 32 of slide 31. It is to see that when the slide 31 from right to left over the stationary arranged water inlet openings 20, 21 is pushed in accordance with with the opening 32 standing cross section of the cold water inlet opening 21 is linear decreased, while the corresponding cross section of the hot water opening 20 enlarged. As a result, the straight section 12 of the curve 11 in FIG. 1 is realized. If the bend 30 is reached when the slide 31 is moved to the left, it is enlarged the cross-section of the passage of hot water is stronger than before, while the cross-section of the passage of cold water is reduced more than before. This causes the bend P1 to be seen in FIG. 1.

It should also be noted that section 13 of the mixing curve does not have to run in a straight line according to FIG. 1, since there is no exact mixing setting in this area more is required as a user will probably not be at a temperature greater than that than 45C shower or bath.

- blank page -

Claims (5)

Mixer fitting CLAIMS 1. Mixer fitting at which the temperature of the outflowing. Water can be selected with the help of a control element and the dependency the mixed temperature from the position of the control element at least piece by piece linear and a kink (P1) at the maximum allowable temperature (T2) has, with im. In the area to a higher temperature, the dependency curve is an absolute value has greater slope, characterized in that from the kink (P1) to When the minimum temperature is set, the dependency curve is continuously linear. 2. Mixer fitting according to claim 1, characterized in that the arrangement of the knee (P1) is selected for a flow temperature of approx. 60 OC. 3. Mixer fitting according to claim 1 or 2, characterized in that the area of continuously constant slope of the dependency curve between temperature and position of the control element extends over about 90% of the adjustment path. 4. Mixer fitting according to one of the preceding claims that the maximum acceptable temperature (T2) is about 45 "C. 5. Mixer fitting according to one of the preceding claims, characterized in that that they have a stop, a detent or the like at the bend (P1). having.