DE3300600A1 - Thermostatically controlled mixing valve for cold and hot water - Google Patents

Abstract

The mixing valve for cold and hot water is provided with an automatic temperature regulating device. A temperature adjusting part (8, 9) acts on the temperature regulating device. The latter has a temperature-sensitive element (16) around which the mixed water flows, and two valve devices (14, 18) which are operatively connected to said element. In the event of thermal expansions of the temperature-sensitive element (16) and with a given adjusted temperature value, the inlets (2, 3) of the cold and hot water are matched with respect to one another in a regulating manner by means of the valve devices (14, 18). A delay element (24) is installed between the temperature-sensitive element (16) and the temperature adjusting part (8, 9). In consequence, over and under control of the mixed water temperature can be prevented when the desired value of the mixed water temperature is changed. <IMAGE>

Description

Thermostatically controlled mixing valve for cold and

Hot water The invention relates to a mixing valve for cold and hot water with an automatic temperature control device according to the preamble of Claim 1.

Mixing valves with an automatic one acting on the valve organs Temperature regulation are z. B. from German Offenlegungsschrift 20 35 201 and 22 09 417 known. These mixing valves made with a temperature sensitive Element, usually referred to as a thermostatic expansion element, work, over- or understeer the mixed water temperature setpoint set on the temperature selector handle noticeable when changing the temperature selection from cold to warm and vice versa. this because the temperature-dependent correction stroke of the temperature-sensitive element is much larger and takes more time than that of the valve member. Such, even if short-term temperature deviations are particularly effective when showering uncomfortable to the human body.

The object of the present invention is to provide a thermostatically controlled To create mixing valve in which when the temperature setpoint changes the temperature of the outflowing mixed water does not exceed the set value or falls below. This task is solved by the in the marking of claim 1 defined features.

An exemplary embodiment of the Invention explained in more detail. They show: FIG. 1 a mixing valve in axial section, Fig. 2 shows a section along the line II - II through the mixing valve according to FIG. 1, FIG. 3 shows a section through a valve sealing element, FIG. 4 shows a longitudinal section an embodiment variant of a delay element and FIG. 5 shows a detail from FIG Fig. 4 on a larger scale.

According to the embodiment of the invention illustrated in FIG. 1 a thermostatically controlled mixer fitting has a housing 1, each with one laterally arranged hot water and cold water inlet 2 or 3 as well as with one Mixed water outlet 4 at the end of the housing. The other end of the housing 1 has a connecting thread ring 5 for receiving a control and regulating cartridge 6th

The control and regulation cartridge 6 has on the one adjacent to the housing 1 End of a screw connection 7 to attach to the connecting thread ring 5. It is Furthermore, a temperature regulating device is available with an actuating part 8, with a temperature setting handle 9 and with other, unspecified, known parts. In the cartridge 6 is also a quantity regulator 10 housed with a lever-shaped volume control handle 11 and also with further, unspecified parts.

The quantity regulating device 10 acts on cylindrical housing parts 12, 13, the hot water valve seat 14 being arranged in the housing part 13, which opens the passage to the mixing chamber 15.

A temperature-sensitive element 16, which with a hollow hub 17 and a valve socket 18 is firmly connected, protrudes into the mixing chamber 15. This element can be a thermostatic expansion element, which is arranged within a rigid cylinder. It could not be in either of the type shown in more detail have a package of bimetallic springs, which are below expand and contract under the influence of temperature.

The temperature-sensitive element 16 is connected to the temperature regulating device in operative connection. Its expansion medium calls when the temperature changes in the mixed water an axial movement of a pressure pin 19 out.

The pressure pin 19 is supported on a pressure plate 20, which in Direction against the pressure rod is held by a stop 37 and from the Opposite side is under strong tension of a front overload spring 21. The spring housing 22 sealed in a cold water valve body 23 is in communication with an axis 38 which has a piston-shaped part 39 approximately in the middle. The axis 38 with the piston 39 is part of a delay element 24.

The end of the axle 38 further away from the spring housing 22 is supported on another pressure plate 26, which in turn in the direction against the spring housing 22 is pressed against a stop 40 and on the opposite side under strong Tension of a rear overload spring arrangement 27 is present. To achieve a short The overload spring arrangement 27 consists of an overall length and a large spring force two compression springs lying one inside the other, the housing 28 of which with the actuating part 8 the temperature regulating device is in operative connection.

The delay element 24 has a sleeve-shaped housing 41, which is firmly connected by screws to the cold water valve body 23 and on one end is closed with a screw cap 42. The piston 39 is inside of the housing reciprocally mounted, the axis 38 being the bottom of the Housing 41 and the screw cover penetrates and by means of O-rings in these two Share is closely guided.

Between the piston 39 and the inner wall of the housing 41 is a predetermined small gap 43 is present. The remaining cavity 44 between the axis 38 and the housing 41 is filled with a damping fluid, which can flow through the gap 43 when the piston moves relative to the housing.

In order to be able to fill the cavity 44 with the damping fluid, a Vent hole 45 (Figure 5) is attached in the bottom of the housing 41, which closed with a metal ball 46 in a simple manner and with the smallest possible space requirement is. 1s can be a trade standard metal ball, which is pressed into the undersized bore 45. The hole 45 could also be stepped so that the transition edge acts as an additional sealing edge works. The ball could also prevent deformations on the receiving part be made of an adapted, plastically deformable material. This makes a simple, reliable closure guaranteed in the smallest installation space. By the very small application area, larger pressures can also be sealed without that the ball must also be caulked.

In an embodiment of the delay element 24 according to FIG 4, the axis 38 could, for example, in the area of the piston 39 against the inner wall of the housing be sealed by means of O-rings 47, whereby for the passage of the damping fluid an axial bore 48 could be made in the piston. With another, no The variant shown could, for example, be of a purely mechanical nature be provided with a spring-loaded drain or locking mechanism.

The lever-shaped volume control handle 11 acts via the volume control device on the cold water valve body 23 in such a way that it is displaced in the axial direction can be used to directly shut off the cold water inflow 2. The valve body 23 is then pressed against the Waltwasserventilbuchse 18, which in turn against the Hot water valve seat 14 is pushed in order to close the hot water supply 3. The corresponding gap openings for the flow is released or closed. So that the valve seals don't too are highly stressed, is in the quantity adjustment device to limit the stroke a stop ring 29 attached, which with a cam 30 in a slot-shaped Recess 49 in the cylindrical housing part 12 protrudes. The stop ring 29 is provided on the outside with serrations 50, which are connected to the lever-shaped volume control handle 11 is brought into operative connection. With this stop ring 29 is on the other side the largest valve opening is also limited.

After during assembly by the volume control device the Valve seals 14, 18 are pressed onto the mast necessary for sealing, is brought the stop of the stop ring 29 to the slot limit and the volume control handle 11 is pushed onto the serration 50 of the stop ring 29 in the corresponding position. If you turn the volume control handle 11, the stop on the opposite Side brought to rest, the predetermined maximum valve opening is reached. This is a structurally very simple stroke limiter with a squat Overall length. Its purpose is the limited valve seal pressure when shutting off of the water flow to load the valve seal as little as possible, which increased a Lifetime brings with it.

With the same element, on the other hand, the maximum valve opening is also obtained certainly.

In other known mixer fittings of this type, the elastomer valve seals can be used compress with force at will, which shortens the service life. With further known solutions are built in slip clutches to the compression limit, which of course requires a lot more effort. For the purpose of a minor Valve seal loading during shut-off could also be a Spring element (a spring washer) between the saltwater valve and its actuator are provided. On the other hand, a spring-loaded hot water valve could also be used be provided.

The return spring 31 is supported with one end on the outflow side End of the cylindrical housing part 13, with the other end it is in operative connection with a bushing 32 surrounding it, which webs on the side facing the spring 33 has the concentric supports on the temperature-sensitive Element 16 are used. These webs also give the openings for the piping of the mixed water freely on the temperature-sensitive element. The mixed water flow is through the Return spring 31 is not adversely affected by the flow. The training of the socket 32 is designed so that the mixed water is in intensive contact with the sensor part the temperature-sensitive element is brought.

The cold water is after flowing through the valve seat through a opening narrowing in a funnel shape in the hollow hub 1 ~ s and then flows through the radially attached openings 34 with the hot water flow together. This reaches ctuer iIi the cylindrical housing part 13 and is through the upper wall 51 of the hollow hub protruding into the cylindrical housing part 13 17- deflected axially. The cold water is thus fed across the hot water flow, so that a good mixing of these two water streams is ensured, with it the mixed water in the outflow jet has no unequal temperature zones and also impinges on the temperature-sensitive element at a uniform temperature.

Elastomer valve seals are used to seal the two water inlets 35 (Figure 3), which are designed as profile rings, their shape for anchoring the dovetail groove is adapted in the receiving part and additionally by a (Tension) sleeve 36 is secured. The sealing lips of the profile ring are semicircular Profile. The profile ring has a small volume, so with temperature differences If possible, there is no change in the flow rate. Due to their shape, with simple means an optimal stable anchoring in the receiving part causes what is necessary for precise temperature control. The shape of the sealing lip stands out advantageously compared to known designs in which an O-ring (O-ring) is used for sealing purposes with the disadvantage that the O-ring is used for simple Anchoring, so that it is not loosened by the water flow, pressed more tightly and has to be deformed, which understandably shortens its service life.

With regard to the front overload spring 21 it should also be noted that this prevents too great a force from acting on the temperature-sensitive element with quick actuation of the volume control from large to small tongue or when the water flow is completely shut off.

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Claims (14)

PATENT CLAIMS Mixing valve for cold and hot water with an automatic Temperature regulating device and a temperature setting part acting on it, wherein the regulating device is a temperature-sensitive one around which the mixed water flows Has element and two valve members that are operatively connected to this as a function of the thermal expansion of the element and for a given temperature setting coordinate the inflows of cold and hot water against each other in a regulating manner, thereby characterized in that between the temperature sensitive element (16) and the temperature setting part (8, 9) a delay element (24) is installed. 2. Mixing valve according to claim 1, wherein the in a mixing chamber (15) mounted temperature-sensitive element (16) a transferring the heat expansions having axially displaceable pressure pin (19), characterized in that the pressure pin (19) is supported on a transmission part (20), which with a Axis (38) of the delay element (24) is connected. 3. Mixing valve according to claim 2, characterized in that the delay element (16) has a housing (41) filled with a damping fluid, in which the axis (38) is mounted so as to be movable back and forth, wherein it is in the housing bottom parts is carried out tightly that a piston (39) is arranged on the axis (38), which divides the cavity (44) of the housing (41), and that at least one the Passage (43, 48) for the damping fluid connecting the two cavity parts is available. 4. Mixing valve according to claim 3, characterized in that the piston (38) mounted with play in the housing (41) is, where the Clearance given gap (43) is the passage for the damping fluid, or that the piston (38) is sealed against the inner wall of the housing and one as a passage has certain axial bore (48). 5. Mixing valve according to claim 1, wherein the water inlets (2, 3) laterally arranged in the valve housing (1) and the mixed water outlet (4) at the end of the housing are, characterized in that one (2) of the water inlets (2, 3) transversely into a cylindrical housing part (13) containing the mixing chamber opens that deflection means (51) are provided in order to axially flow the first water flow into the mixing chamber (15) steer that one with the deflection means (51) provided, conically tapering Hollow hub (17) protrudes into the cylindrical housing part (13) that the other water inlet (3) opens into the enlarged part of the hollow hub (17), and that the tapered part the hollow hub (17) is provided with radially arranged openings (34) so that the second water stream opens transversely into the axially flowing first water stream. 6. Mixing valve according to claim 2, characterized in that between the transmission part (20) and the end of the axle (38) a front overload spring (21) is arranged, which is housed in a spring housing (22). 7. Mixing valve according to claim 2, characterized in that the the end of the axle (38) remote from the pressure pin (19) against a rear overload spring (27) is pressed. 8. Mixing valve according to claim 7, characterized in that the rear Overload spring (27) consists of two compression springs pushed into one another. 9. Mixing valve according to claim 1, characterized in that the delay element is a spring-loaded sequence or locking gear. 10. Mixing valve according to claim 5, characterized in that the temperature-sensitive element (16) is housed in a socket (32) which concentric to cylindrical housing part (13) is arranged, that between the bush (32) and the housing part (13) a return spring (31) is arranged, and that the socket (32) is provided with webs (33) for the purpose of guidance of the mixed water and for the purpose of concentric support on the temperature-sensitive Element. 11. Mixing valve according to claim 1, characterized in that the Valve seals of the valve organs are designed as profile rings (35), which in are anchored in a dovetail groove and one on the outside for further security Have attached clamping sleeve (36). 12. Mixing valve according to claim 1, characterized in that one Quantity setting device is provided, which stroke limiting means (29, 30, 49) has for the purpose of limiting the valve seal pressure and determining the maximum Valve opening. 13. Mixing valve according to claim 12, characterized in that a Stop ring (29) of the stroke limiter with an externally attached serration (SO) with the volume control handle (11) is in operative connection and with an internally attached cam (30) in a slot-shaped recess of a cylindrical housing part (12) protrudes through which the total stroke is determined is. 14. Mixing valve according to claim 3, characterized in that the Delay element (16) has a venting and filling hole (26) which is closed with a metal ball.