DE1164779B - Thermostat-controlled continuous mixer for cold and hot water with pre-setting of the amount - Google Patents

Description

Thermostat-regulated flow mixing means for hot and cold water with presetting of the amount of addition to Patent: 1097 227 The invention relates to a further development of the thermostat-controlled flow mixing means according to Patent 1 097 227. In the continuous mixing device according to this patent, the inlets for the flow of cold and warm water concentrically into a mixing chamber and are controlled by a hollow valve closure body which is loaded on the one hand by a resilient, externally adjustable thermostat, on the other hand by a spring and which slides in one inlet and has a collar, one side of which is a sealing surface with the mouth of the outer inlet and the other side of which cooperates with an externally adjustable seat. The invention consists in that the externally adjustable seat can be adjusted from the outside by a spindle and that this spindle is concentrically surrounded by the thermostat designed as a bimetallic spring column, the seat and the bimetal spring column being arranged coaxially with the valve closure body.

The development according to the invention has due to the equiaxed Arrangement of all built-in parts takes up very little space for the entire valve result, so that the valve can be used as a concealed valve. Its dimensions differ little from that of a normal concealed valve. It also facilitates Coaxial arrangement of the built-in parts makes it easy to replace individual parts including the non-return valves in the cold and hot water supply, which in a preferred embodiment are arranged on the insert sleeve in which the valve closure body is led.

The A b b. 1 to 3 show the valve of the invention in this embodiment as a concealed valve in section, the A b b. 2 and 3 each show the upper and lower halves on a larger scale for better understanding.

The valve housing 1 has two inlets 2 and 3 and an outlet 4. The housing 1 consists of a single hollow body in which all organs are arranged centrally. In the lower part of the bore of the valve housing 1 , part 5 is screwed in. Part 5 is the carrier of the two check valves 6 and 7. The check valve 7, which is formed by a simple rubber membrane, is screwed to the body 5 through part 8 . Part 8 has for sealing off a round rubber ring 9 and can be with part 5 in the housing screwing and unscrewing. The parts 5 and 8 have a bore 10 for receiving the double-sided hollow valve closure body 11. The upper edge of this bore 10 in part 8 forms the control edge for the inflow of warm water. Inside the hollow valve closure body 11 is the compression spring 13, one end of which is supported in part 5 . The valve closure body 11 has a funnel-shaped expansion which has a cylindrical extension. Flow bores 27 are provided in this cylindrical part of the valve closure body 11 . The cylindrical end of the valve closure body 11 , together with the cover disk 14, forms a cavity into which the quantity regulating spindle 15 protrudes. At the end of the quantity regulating spindle 15 is the disc 16, the lower edge of which forms the control edge for the second inflow (for cold water). In order to achieve a completely pressure-relieved valve system, the diameter of the lower edge of the disk 16 and the upper control edge of the part 8 with the lower collar of the valve closure body 11 must exactly match. This ensures that the pressurization of the valve closure body 11 is completely balanced in both directions and pressure differences in the two feed lines cannot have any effect. The thermostat consists of bimetallic disc springs 17, which are penetrated by the flow control spindle 15 in central bores. This thermostat, consisting of disc springs 17 , rests on the one hand on the cover plate 14 and on the other end on the pressure piece 18 . The pressure piece 18 is z. B. positively connected to the spindle 19 by a spline connection. The quantity regulating spindle 15 is screwed into the spindle 19 and sealed to the outside with a round rubber ring. The actuation button 20 is fastened to the spindle 19 with the screw 21. The scale ring 22 is attached to the upper part 23 by corrugation. Within the scale ring 22 there is a stop 24 which is used to limit the temperature. The counter-stop is formed by a stud screw 25 , which in turn is screwed to the spring-loaded push button 26. This gives the possibility, if higher temperatures are deliberately desired, to switch off the effectiveness of the stop 25 by pressing the push button 26.

The inlet of the water proceeds as follows: The cold water flows into the valve housing at 2, flows through the check valve 6, flows through the hollow valve closure body 11, passes the control edge 16 and passes through the bores 27 into the mixing chamber 28. The warm Water enters at 3 , passes the check valve 7 and flows over the control edge of part 8 into the mixing chamber 28. In order to force the mixed water to come into close contact with the bimetal discs, a water guide tube 29 is provided. The total flow rate is determined by the position of disk 16 . The position of the disk 16 can be changed by means of the volume control spindle 15 after the fastening screw 21 has been removed.

The temperature control proceeds as follows: By means of the actuating button 20, the pressure piece 18 is brought into the position corresponding to the desired temperature. As soon as the flowing mixed water flows over the bimetal disc springs 17 , the valve closure body 11 is pressed into the corresponding position by the corresponding deflection of the bimetal.

Claims (2)

Claims: 1. Therrnostat-controlled continuous mixing device for cold and hot water, in which according to patent 1097 227 the cold and hot water inlets flow concentrically into a mixing chamber and are controlled by a hollow valve closure body, which is loaded on the one hand by a resilient, externally adjustable thermostat, on the other hand by a spring and in which there slides an inlet and a collar having, cooperating with one side as a sealing surface with the mouth of the outer inlet, on the other side with an adjustable from outside the valve seat, d a d u rch in that the external adjustable seat (16) can be adjusted from the outside in a known manner by a spindle (15) and that this spindle is concentrically surrounded in a manner known per se by the thermostat designed as a bimetallic spring column (17) , the seat and bimetallic spring column being known per se Way coaxially to the valve closure body (11) are arranged. 2. Thermostat-controlled continuous mixing device according to claim 1, characterized in that the spindle (15) for setting the flow rate is arranged in a manner known per se in the hollow, non-rising spindle (19) for setting the temperature, the spindle for setting the flow rate adjusts the valve seat and is screwed to set the temperature with a non-rotatable ascending and descending abutment (18) for the bimetallic spring column (17). 3. Thermostat-controlled continuous mixing device according to claim 2, characterized in that the spindle (15) for adjusting the flow rate is arranged covered in the hollow spindle (19) for adjusting the temperature. 4. Thermostat-controlled continuous mixing device according to claim 1 to 3, characterized in that the diameter of the seat (16, 8) designed as a control edge for the hot and cold water inlet is the same or approximately as large as the diameter of the bore (10) of the inlet, in which the hollow valve closure body (11) slides. Considered publications: German Patent Nos. 399 091, 725 331; Swiss Patent No. 337 346; British Patent Nos. 539,659, 798,427 ; USA.- Pat. No. 1338 024th