AT225120B - Thermostatically controlled mixer tap - Google Patents

Thermostatically controlled mixer tap

Info

Publication number
AT225120B
AT225120B AT128061A AT128061A AT225120B AT 225120 B AT225120 B AT 225120B AT 128061 A AT128061 A AT 128061A AT 128061 A AT128061 A AT 128061A AT 225120 B AT225120 B AT 225120B
Authority
AT
Austria
Prior art keywords
thermostatically controlled
mixer tap
controlled mixer
valve
nipples
Prior art date
Application number
AT128061A
Other languages
German (de)
Original Assignee
Ideal Standard Ges M B H
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ideal Standard Ges M B H filed Critical Ideal Standard Ges M B H
Application granted granted Critical
Publication of AT225120B publication Critical patent/AT225120B/en

Links

Landscapes

  • Temperature-Responsive Valves (AREA)

Description

  

   <Desc/Clms Page number 1> 
 



  Thermostatisch gesteuerte Mischbatterie 
 EMI1.1 
 

 <Desc/Clms Page number 2> 

 strömt. Das Wasser gelangt von den Stutzen in   denBatteriesteuerteil   5 und wird je nach der Stellung der beiden Ventile 6 der Mischkammer 7 zugeführt. Von hier aus umströmt das Wasser den Thermostaten 10 und wird einen senkrecht zum Ventilsteuerorgan 11 angeordneten, in den Anmeldungsunterlagen'nicht dargestellten Auslaufstutzen zugeleitet. Der Thermostat stellt also über das Steuerorgan 11 bei Änderungen der Vordrücke der Kalt- und Warmwasserleitung sowie bei Temperaturschwankungen des Wassers immer wieder die gewünschte und eingestellte Mischtemperatur ein, indem er das Ventilsteuerorgan hebt oder senkt und so über die Bohrungen 12 bzw. die Nippel 13 die Ventile 6 öffnet oder schliesst. 



   In Fig. 2 werden die Nippel 16 der höhenversetzt zueinander angeordneten Ventile 17 von einer quer zur Längsrichtung des Ventilsteuerorgans 26 verlaufenden Bohrung 18 aufgenommen. Es ist ersichtlich, dass mit dieser Ausführung dieselbe Wirkung erzielt wird wie mit der Batterie gemäss Fig.   l.   



   Die Fig. 3 zeigt eine Ausbildung, bei der die Nippel 19 höhenversetzt zueinander angeordnet sind, während die Ventile 20 in gleicher Höhe liegen. Die Nippel 19 greifen wiederum in eine quer zur Längsrichtung des Ventilsteuerorgans 27 verlaufenden Bohrung 21. 



   In Fig. 4 ist ein Batteriesteuerteil gezeigt, bei dem Nippel 22 der höhenversetzt zueinander angeordneten Ventile 23 übereinanderliegen und mittels eines zwischen ihnen liegenden, mit dem Steuerorgan 24 in Verbindung stehenden Stiftes od. dgl.   25   betätigt werden. Auch hiebei wird'auf einfache Art und Weise jede beliebige Mischung von kaltem und warmem Wasser erreicht. 



   Die dargestellten und beschriebenen Ausführungsformen sind nur Beispiele zur Verwirklichung der Erfindung, diese ist selbstverständlich nicht darauf beschränkt. Vielmehr sind im Rahmen der Erfindung noch andere Ausführungsformen und Anwendungen möglich. So könnte beispielsweise ein thermostatisch regelbares Ventil für Wärmeaustauscher geschaffen werden, bei dem die Ventilbetätigung nach Art der Erfindung vorgenommen wird. 
 EMI2.1 




   <Desc / Clms Page number 1>
 



  Thermostatically controlled mixer tap
 EMI1.1
 

 <Desc / Clms Page number 2>

 flows. The water enters the battery control part 5 from the nozzle and is fed to the mixing chamber 7 depending on the position of the two valves 6. From here the water flows around the thermostat 10 and is fed to an outlet connection which is arranged perpendicular to the valve control element 11 and is not shown in the application documents. The thermostat thus sets the desired and set mixed temperature again and again via the control element 11 when there are changes in the inlet pressures of the cold and hot water pipes and when the water temperature fluctuates, by raising or lowering the valve control element and thus via the bores 12 or the nipple 13 Valve 6 opens or closes.



   In FIG. 2, the nipples 16 of the vertically offset valves 17 are received by a bore 18 running transversely to the longitudinal direction of the valve control member 26. It can be seen that the same effect is achieved with this embodiment as with the battery according to FIG.



   3 shows an embodiment in which the nipples 19 are arranged offset in height from one another, while the valves 20 are at the same height. The nipples 19 in turn engage in a bore 21 extending transversely to the longitudinal direction of the valve control member 27.



   4 shows a battery control part in which the nipples 22 of the vertically offset valves 23 lie one above the other and are actuated by means of a pin or the like 25 located between them and connected to the control element 24. Here, too, any desired mixture of cold and warm water is achieved in a simple manner.



   The illustrated and described embodiments are only examples for realizing the invention; it is of course not restricted thereto. Rather, other embodiments and applications are also possible within the scope of the invention. For example, a thermostatically controllable valve for heat exchangers could be created in which the valve is actuated in the manner of the invention.
 EMI2.1
AT128061A 1960-02-19 1961-02-15 Thermostatically controlled mixer tap AT225120B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE225120X 1960-02-19

Publications (1)

Publication Number Publication Date
AT225120B true AT225120B (en) 1962-12-27

Family

ID=5859452

Family Applications (1)

Application Number Title Priority Date Filing Date
AT128061A AT225120B (en) 1960-02-19 1961-02-15 Thermostatically controlled mixer tap

Country Status (1)

Country Link
AT (1) AT225120B (en)

Similar Documents

Publication Publication Date Title
DE69929351T2 (en) ELECTRIC VALVE FOR WATER TEMPERATURE CONTROL
AT225120B (en) Thermostatically controlled mixer tap
DE2945879A1 (en) Water mixer tap e.g. for shower - has thermostat valve controlling cold water flow according to hot water feed temp.
DE3036252C2 (en) Mixer tap for a hot water supply system
AT271810B (en) Mixing valve with swivel shaft for one-hand operation for use with pressureless hot water storage tanks
DE1810587U (en) THERMOSTATICALLY CONTROLLED MIXING BATTERY.
DE690413C (en) Hot water heating system with connected service water generation
DE1170136B (en) Return mixing valve for hot water heating systems
AT229542B (en) Control thermostat for radiator valves
AT206153B (en) Central heating system with a serpentine water heater protruding into the boiler&#39;s water space
AT215364B (en) Mixer faucet for hot water storage tanks that work according to the overflow principle
DE765615C (en)
AT203677B (en) Return mixing valve for hot water heating systems
DE2361952C3 (en) Circulation pump for hot water heating systems
DE1098777B (en) Temperature regulators, especially mixed temperature regulators for flowing liquids
AT281363B (en) Multi-way valve for connecting radiators to the pipe network of heating systems
AT239491B (en) Particularly for pressureless overflow storage tanks, a thermostat-controlled water mixing valve
AT203240B (en) Temperature controller
AT159103B (en) Mixing device for cold and warm water.
CH395879A (en) Mixer tap
AT221763B (en) Automatic control device for central heating systems
DE1114296B (en) Hot water heating system with a heat exchanger of high temperature and a heating network with a lower flow temperature
DE817127C (en) Mixer tap
AT160081B (en) Control device operated with pressure oil, in particular for internal combustion engines.
DE1112273B (en) Return water admixing device for setting the flow temperature of hot water collective heating systems