DE4237435A1 - Thermostatic mixing fitting for preparing heated water for showers and baths, - contains housing with inlets and outlets, valve body movable between hot and cold water valve seats - Google Patents

Abstract

The fitting has a housing with feed openings for cold and hot water and an outlet opening for the mixed medium. A thermostat in the housing is controlled by a temp. detection device and is connected to a valve body movable between two valve seats for the cold and hot water. The thermostat with a capsule contg. an expansion medium is arranged essentially in the region of the mixed water. A temp. sensor (5) arranged in the downstream region of the capsule (41) after the expansion material is thermally connected to the capsule. USE/ADVANTAGE - The arrangement achieves improved mixing of hot and cold water e.g. for baths and showers, even under extreme operating conditions.

Description

The invention relates to a thermostatically controlled mixing battery, especially for preparing tempered Hot water for showers, bathtubs, wash basins or the like, with at least one inlet opening for each cold and warm medium as well as a drain opening for the mixed medium housing, in which one adjustable by a temperature preselector Thermostat is provided with one between two Valve seats for the cold and warm medium ver sliding valve body is connected, the Ther mostat with a capsule containing the elastic in the essentially arranged in the area of the mixed medium is not.

Such a mixer tap is known from EP 0242680 A2 known. With this mixer tap is on quickly speaking thermostat with a relatively small tem temperature sensor arranged in the area of the valve body, so that the movable valve elements as a structural unit or as a valve insert in the battery housing are cash. This is very satisfactory in itself  working mixing valve, however, due to the Tempera arranged partially in the valve body range of the thermostat at very unfavorable Relationships, such as B. when the inlet pressure ratio nisse and / or inlet temperatures of the inflowing cold and warm water are very unfavorable and / or the outlet of the mixing valve is throttled, Ab deviations from the setpoint temperature occur because the sensing range of the thermostat at the extreme conditions of not evenly mixed Cold and hot water is applied. That felt Temperature of the insufficiently mixed water can thus from the temperature of the emerging, full constantly mixed water at the above led extreme conditions differentiate what is un wishes.

The invention has for its object in the upper Concept of claim 1 specified thermostat Train the mixer tap so that even in extreme Operating conditions an improved mixed water treatment tion is possible.

This object is achieved in that in the area downstream, behind the expansion material the capsule also has a temperature sensor net and thermally conductive is connected to the capsule. Further refinements of the invention are in the An say 2 to 9.

With another valve (German layout specification 15 50 243) it has become known, the dehnstoffge filled capsule outside the flow to be sensed to arrange the room and a good temperature sensor provide heat-conducting rod. Target this previously it is the relatively sensitive, Protected expansion bellows designed as bellows  to arrange. With this training is however in purchase that they are due to the relatively long distance between the expansion capsule and the feeling area only slowly Temperature changes should respond.

In contrast, the measures according to the invention are used in a generic valve with a quick address thermostats in the area of the ge mixed medium a significant increase in the volume of Mixed medium touched surface reached, the at Orderly temperature sensor body in extreme operating conditions conditions that is completely mixed only further downstream Mixed medium senses temperature and this temperature the expansion agent in the expansion capsule. A nega tive influence on the reaction rate of the Ther Mostaten does not appear in this training.

An embodiment of the invention is in the drawing voltage and is explained in more detail below. It shows

Fig. 1 is a thermostatically controlled mixing tap, in longitudinal section;

Figure 2 shows the thermostat shown in Figure 1 with temperature sensor body in longitudinal section in an enlarged view.

Figure 3 shows the sensing body in Figure 2 shown in a modified form in plan view..;

Figure 4 shows another embodiment of a thermostat in longitudinal section.

Fig. 5 shows another temperature sensor body, partially cut, which can be connected to the thermostat according to FIG. 4.

The mixer shown in Fig. 1 has a housing 1 with an inlet 10 for the cold water and an inlet 11 for the hot water. In addition, an outlet 12 for the mixed water is provided in the housing 1 . In a through hole in the housing 1 a mixing tube 15 is screwed sealed in the central area. To the right of the mixing tube 15 , a temperature preselector 2 with a valve body 3 and a thermostat 4 is arranged in the central bore, as is known from EP 0 242 680 A2. The valve body 3 is arranged between a cold water seat 14 and a hot water seat 13 to be displaceable to a limited extent. On the opposite side of the mixing tube 15 , a shut-off and regulating valve 6 is arranged in the central bore of the housing 1 , which interacts with a valve plate 61 and the downstream end face of the mixing tube 15 designed as a valve seat. With the shut-off and regulating valve 6 , the flow or the exit of tempered mixed water can be regulated or blocked via the outlet 12 .

The valve body 3 can be adjusted with the help of a rotary handle on the temperature selector 2 in its position between the hot water valve seat 13 and the Kaltwas serventilsitz 14 , so that a certain mixture of cold and hot water or a certain tempered mixed water be on the shut-off and Regulating valve 6 can be supplied to the outlet 12 . The cold and warm water mixing in the area of the mixing tube 15 touches a capsule 41 of the thermostat 4 , which is arranged on the upstream side of the mixing tube 15 . An expansion material 42 is arranged in the capsule 41 , which deflects a plunger 43 more or less axially depending on the ambient temperature.

If a deviation from the setpoint temperature set with the temperature preselection device 2 is now determined by the capsule 41, a corresponding deflection of the plunger 43 and the valve body 3 moves in the housing 1 accordingly via an expansion or contraction of the expansion material 41 , so that approximately the setpoint temperature is reached again.

To improve the actual temperature of the discharged mixed water temperature sensing is a body 5 is disposed coaxially with the mixing tube 15 and heat-conductively connected with the capsule 41 to the capsule 41st The temperature sensor body 5 is, as can be seen in particular from FIG. 2, integrally formed with the capsule 41 in the form of a jacket tube 51 . In the upper region of the casing tube 51 , the capsule 41 is provided with the receiving chamber for the expansion material 42 , a membrane 44 and the plunger 43 for connection to the temperature selector 2 . At the lower area of the capsule 42 , the casing tube 51 has a sudden diameter reduction 510 , in the area of which a bottom 53 is soldered, which delimits the capsule 41 as a receiving space for the expansion material 42 . The bottom 53 can be softly soldered into the jacket tube 51 , the jacket tube 51 and the bottom 53 are expediently made of electrolytic copper, which has a high thermal conductivity. Below the floor 53 has the center axis to open to the bottom casing 51 in parallel with the with the slots 511, so that the flowing along the jacket pipe 51 of mixed water can along stress both on the outside and on the inside of the casing tube 51 in unte ren area. The sensed actual mixed water temperature is transferred to the capsule 42 and from here, in particular via heat conducting plates 45 soldered to the casing tube 51 , to the expansion material 42 .

The one-piece manufacture of the capsule 41 with the temperature sensor body 5 with the help of the casing tube 51 can be done in a relatively simple, inexpensive manner, since a soft soldering operation is required for the capsule 41 for the heat conducting plates 45 , in which case the bottom 53 can also be soldered in .

To further improve the mixing of cold and hot water and therefore a better Erfühlung fact extraneous actual temperature of the discharged mixed water, a modified temperature sensing body 5 may a be hen vorgese, wherein the jacket pipe 51 downstream of the capsule 41 by an approximately symmetrical arrangement of four longitudinal slits in the wall is divided into elements 512 which have a deformation as can be seen from FIG. 3.

In Figs. 4 and 5, another embodiment of the thermostat 4 with the temperature sensing body 5 is shows ge b. At the bottom 42 of the pot-shaped capsule 41 , a threaded attachment 52 is fixed by brazing 521 . At the threaded neck 52 , a temperature sensing body 5 b as shown in FIG. 5 with a corresponding threaded bore 54 can be connected to the capsule 41 in a heat-conducting manner. To enlarge the surface, the temperature sensor body 5 b is provided with longitudinal grooves 520 on the circumference.

In the embodiment shown in FIGS. 4 and 5 of the capsule 41 and the temperature sensor body 5 b, it is possible that a standard thermostat 4 with the cap sel 41 can be provided with different temperature sensor bodies 5 b, each of which can be adapted to different mixing battery types can, so that a simple storage is possible.

The temperature sensor body 5 , 5 a, 5 b can preferably be produced from electrolytic copper with a high thermal conductivity. To improve the mixing of cold and hot water and a surface enlargement tion, the temperature sensor body 5 , 5 a, 5 b grooves, star shape, holes, slots. The grooves, slots or the star shape can also be twisted on the surface.

Claims (9)

1.Thermostat-controlled mixer tap, in particular for preparing tempered hot water for showers, bathtubs, sinks or the like, with a little at least one inlet opening for the cold and the warm medium and one outlet opening for the mixed medium housing, in which a of a temperature preselector adjustable thermostat is provided, which is connected to a valve body for the cold and the warm media displaceable valve body, where the thermostat is arranged with a capsule containing the expansion agent essentially in the region of the mixed medium, thereby characterized marked that in addition, a temperature sensor ( 5 , 5 a, 5 b) is arranged on the downstream of the expansion material ( 41 ) located area of the capsule ( 41 ) and is connected in a heat-conducting manner to the capsule ( 41 ). 2. Thermostat-controlled mixer tap according to claim 1, characterized in that the capsule ( 41 ) and the temperature sensor body ( 5 ) are made in one piece essentially from a jacket tube ( 51 ), the jacket tube ( 51 ) downstream of the expansion material area a sudden diameter reduction ( 510 ) and slots ( 511 ), so that the mixed medium touches both the outer and the inner wall of the region of the jacket tube ( 51 ) which acts as a temperature sensor body ( 5 ). 3. Thermostat-controlled mixer tap according to claim 2, characterized in that the body acting as a temperature sensor ( 5 a, 5 b) area of the casing tube ( 51 ) is deformed and / or twisted. 4. Thermostat-controlled mixer tap according to claim 2 or 3, characterized in that a bottom ( 53 ) for limiting the receiving space for the expansion material ( 42 ) in the jacket tube ( 51 ) is soldered before the reduction in diameter ( 510 ). 5. Thermostat-controlled mixer tap according to claim 1, characterized in that on the downstream end of the capsule ( 41 ) a threaded approach ( 52 ) is formed on which the additional temperature sensor body ( 5 b) can be screwed. 6. Thermostat-controlled mixer tap according to claim 5, characterized in that the Temperaturfühlkör by ( 5 b) on the surface has longitudinal grooves ( 520 ) or twisted grooves. 7. Thermostat-controlled mixer tap according to claim 5, characterized in that the threaded extension ( 52 ) on the end face of the capsule ( 41 ) is soldered. 8. Thermostat-controlled mixer tap according to claim 5, characterized in that the temperature sensor is star-shaped in cross section. 9. Thermostat-controlled mixer tap according to one of claims 1 to 8, characterized in that the temperature sensor body ( 5 , 5 a, 5 b) is made of good heat-conducting material, such as electrolytic copper.