DE2703950A1 - Hot and cold water mixing battery - uses temp. sensitive expansion unit pushable on to guide pin in housing insert - Google Patents

Abstract

The thermostatically controlled mixing battery has a temp. sensitive expansion unit connected to a cold and hot water feed hollow cylindrical valve connection. Supports on the valve adjustment spindle are connected to a rotating handle by a pressure pin and a spring. The expansion unit (25) is pushable on to a guide pin (32) in the floor (21) of the cylindrical housing insert (5), and the valve closure part (30) is passed through by the guide pin with a small amount of clearance, and locates on the expansion unit with a ball-shaped surface (33) in a ball bowl (34). It is retained by the adjustment spindle spring (35).

Description

Thermostatically controlled mixer tap

The invention relates to a thermostatically controlled mixer tap with a temperature-sensitive expansion element, which is connected to the cold and Hot water inflow mutually coordinating hollow cylinder valve closure part is connected and t an extendable pressure pin by means of a spring non-positively supported on the setpoint adjustment spindle connected to a rotary handle, the opposite of a hollow cylindrical insert provided in the battery housing is screwable, contains the inflow paths for the water and the valve closure part leads sealed and encloses a mixing chamber receiving the expansion element, as well as at its end facing away from the Bedtennngsseite has a bottom on which holding the expansion element with the setpoint adjustment spindle in a frictional connection Spring supports.

Such a thermostatically controlled Mi schbatterie is through the DT-AS 2 409 129 known. This is the hollow cylindrical valve closure part rigidly connected to the expansion element. Here it can happen that the valve closure part, since it is not out of play in the housing insert when it reaches its end positions corners and then does not close properly.

The object of the invention is to avoid this disadvantage.

This object is achieved according to the invention in that the expansion element on a central one firmly inserted into the bottom of the hollow-cylinder housing insert Guide pin slidably guided and the valve closure part of the guide pin is interspersed with a small radial play and on the expansion element with a spherical end face in a spherical socket rests in a spatially movable manner and therein by the spring applying the expansion element to the setpoint adjustment spindle the expansion element is held in frictional connection.

The valve closure part can now be applied to each of the two Give the valve seats so far that it closes reliably all around.

In a further embodiment of the invention, the spring is the valve closure part holds in frictional connection with the expansion element, surrounded by a bell, which is flown by the hot water from the side. This prevents the spring starts to vibrate in strong currents and makes noises.

Furthermore, a second spring is provided within the housing insert, which then the frictional connection between the expansion element and the valve closure part is maintained when the expansion element is screwed back far back on the setpoint adjustment spindle becomes free from this. In this way, the frictional connection between the expansion element remains and the valve closure part in the ball socket constantly received, and it is prevented that dirt particles and lime settle on the spherical surfaces from the water, which would impair the mobility of space.

The invention is explained below with reference to an axial section in the drawing illustrated embodiment explained in more detail.

The designated 1 battery housing has a connection opening 2 for the cold water supply line, a connection opening 3 offset in the axial direction for the hot water supply and an outlet opening 4 for the mixed water. The housing bore, from which the ö (= - openings 2, 3 and 4 flow out, contains an insertable and removable hollow cylindrical insert 5, which consists of three sleeves screwed together tightly 6, 7 and 8. The middle sleeve 6 delimits the outlet space 9 for the mixed water inside and has in her wall Outlet openings 10. The can 7 is sealed in the housing bore and has a neck extension 12 on which with Steep thread a sleeve-shaped rotary handle 13 can be screwed, which is in the Neck extension 12 protruding setpoint adjustment spindle 14 adjustable and through an adjusting screw 15 is securely screwed. The sleeve 7 is together with a Annular body 16, which limits the angle of rotation of the setpoint setting spindle 14, fixed by means of adjusting screws 17 with respect to the battery housing 1.

As a result, the entire insert 5 is fixed in the housing. The axial stroke the adjusting spindle 14 is supported by an end of the rotary handle sleeve 13 on the housing side provided inward flanging 18 limited in both directions. The can 8 has Cold water inflow openings 19 and is sealed on both sides of the same in the housing. Following this, the sleeve has 8 Warmwasserzuflußöffhungen 20 and is frontal completed by a floor 21.

The expansion element, designated as a whole by 25, extends in the cavities of the sleeves 6 and 7. It consists of a housing 26 and one as Temperature sensor serving hollow cylindrical expansion chamber 27. The latter is within the housing 26 in a manner known per se by a not shown The membrane is closed on a push pin which can be pushed out of the housing 26 28 acts. With the pressure pin 28, the expansion element 25 is supported on the setpoint adjustment spindle 14 from. The pressure pin 28 is guided in a sealed manner in the neck extension 12 of the sleeve 7. Within the sleeve 8, a hollow cylindrical valve closure part 30 is displaceable in a sealed manner out, the with the housing 26 of the expansion element 25 via an intermediate piece 31 connection. With the intermediate piece 31, the expansion element 25 is on a guided in the bottom 21 of the sleeve 8 firmly inserted central guide pin 32, which penetrates the valve closure part 30 with a small radial play. That Valve closure part 30 has a spherical end face 33 on a ball socket 34 of the intermediate piece 31 firmly connected to the expansion element and is with this by a helical compression spring supported on the bottom 21 of the sleeve 8 35 held in force. The spring 35 simultaneously holds the expansion element 25 via the pressure pin 28 with the setpoint adjustment spindle t4 in frictional connection.

The valve closure part 30 acts with the Kaltwasserzuflußöffnur gene 19 and seat surfaces 36 and 37 associated with the hot water inflow openings 20. The drawing shows the closed position of the valve closure part 30 on the hot water inflow and the full open position on the cold water flow.

The cold water flows out of the housing opening 2 over the seat surface 36 directly into the can 6 and the warm water from the housing opening 3 over the seat surface 37 into the cavity of the valve closure part 30 and from this over Wall openings 38 also in the sleeve 6. The two streams of water come inside the Bush 6 in one of the expansion chamber 27 of the expansion element 25 upstream Mixing chamber 39 together, outside and inside the hollow cylindrical Expansion chamber continues. The entered into the cavity of the expansion chamber 27 Mixed water flow flows through sleeves penetrating the double wall of the expansion chamber 40 and together with the mixed water flow flowing outside of the Dehnstoffkam mer through the outlet openings 10 of the sleeve 6 via the outlet space 9 and the outlet opening 4 of the battery housing 1.

The spring 35 is within the hollow valve closure part 30 of FIG a bell 42 surrounded by the entering through the seat 37 hot water is flown sideways.

Within the cavity of the sleeve 7 is one on the housing 26 of the Dehnstoffelementes 25 acting helical compression spring 43 provided that of the spring 35 counteracts and the expansion element when it is screwed back far the setpoint adjustment spindle 14 is free of this, with the valve closure part 30 holds in the spherical surfaces 33 and 34 in a frictional connection.

The one inserted into a groove of the setpoint setting spindle 14 Ring body 45 made of an elastically resilient material acts as a braking member that the lack of self-locking of the coarse thread between the neck extension 12 of the sleeve 7 and the twist grip sleeve 13 replaced.

Claims (3)

Protection claims 1. Thermostatically controlled mixer tap with a temperature-sensitive expansion element that is connected to the cold and hot water supply mutually coordinating hollow cylindrical valve closure part is connected and with an extendable pressure pin by means of a spring on the with a turning handle connected to the setpoint adjustment spindle supported opposite a hollow cylindrical insert provided in the battery housing is sharp, contains the inflow paths for the water and the valve closure part is sealed and encloses a mixing chamber receiving the expansion element, as well as at his the end facing away from the operator side has a base on which the expansion element is located with the set point adjustment spindle in force-locking spring supported, thereby characterized in that the expansion element (25) on one in the bottom (21) of the hollow cylindrical Housing insert (5) firmly inserted central guide pin (32) slidably guided and the valve plug (30) from the guide pin with a small one radial Game is interspersed and on the expansion element with a spherical face (33) rests in a spatially movable manner in a ball socket (34) and in it through which the expansion element the spring (35) with the expansion element resting against the setpoint adjustment spindle (14) is held in force. 2. Thermostatically controlled mixer tap according to claim 1, characterized characterized in that the spring (35) connecting the valve closure part (30) to the expansion element (25) and holds the latter in frictional connection with the setpoint adjustment spindle (14), is surrounded by a bell (42), which is laterally flown by the hot water. 3. Thermostatically controlled mixer tap according to claim 1 and 2, characterized in that a second spring is inside the housing insert (5) (43) is provided, the frictional connection between the expansion element (25) and the valve closure part (30) then maintains when the expansion element through further screwing back the setpoint adjustment spindle (14) becomes free of it.