DE1779595U - SETPOINT ADJUSTER, IN PARTICULAR FOR TEMPERATURE CONTROLLER. - Google Patents

Description

Utility model registration Especially for. central perature The present innovation relates to setpoint regulators in particular for temperature controllers, e.g. for the water flow temperature in boilers or for the room temperature in heating stoves with an automatic setting of the temperature setpoint caused by an electrical control current, for example as a function of the weather, the innovation aims to reduce the technical effort :, which one, until now, believed to have to be demanded in order to achieve a functional setpoint adjustment o Because of the many inertia factors in a system of this type to be monitored on the one hand and because of the delay in the effect of the disturbance variables, see Be the weather on the other hand, influences this system is a such effort0 of the sB by an inertial worker automatic setpoint adjustment would be necessary, absolutely un- appropriate and even ultimately harmful Progress is achieved in accordance with the innovation <= like the figure on execution. Example of a water flow temperature controller for the boiler is shown by the setpoint adjuster essentially. from one heated by the control current 8a 8b 8c and organ acting through thermal expansion, see gust from a di- metal 13 is made by means of a transmission member 13a specifies the temperature setpoint on controller 7.

As is generally the case, the rule is that nical reasons, the combustion by adjusting the air supply depending on the heat demand of the Controller 7 by means of a servomotor-s 5 controlled the z. Bc via a linkage 4, the air flap 3 in front of the inlet opening tion 2 is operated on the boiler or He-isofen. For transmission b. b the control pulses auf'den servomotor 5 is an electrical one Work. its circuit ia i4b 14c. The regulator ? who in the loading Example written on the water inlet connection 6 of the tilting sels i with close uärEie & ontaIct is attached and the udrswas sertemperaturüberuacht works z. Bo according to the two-point principle zip and can be made from a bimetallic spiral 7c with a contact end Ta and a mating contact Tb exist., If the value falls below a certain temperature of the hot water because of the "Thermal expansion of the bimetal spring Tc the contacts 7a'fIt ge = closed and the servomotor 5-electrified so that he the air flap 3 opens Mn & thus the combustion in the furnace or boiler 1 is started until the water i. u Vorlaufstutsen reaches and exceeds a certain higher temperature. Then the two contacts open and the servomotor closes again'die inlet opening 2 for the combustion air except for one generally required to maintain the fire . the opening degree. Because of the delay in the yfarm over- passage from the water inlet connection 6 to the regulator. 7 open the two contacts 7a 7b at a temperature of the hot water, the temperature leading to the closing of the contacts - yatur higher lying I. According to the innovation, the adjustment of the controller is now carried out a control circuit 8a 8b 80 caused by on him heat sensitive member 13, see Fig. a bimetal is heated, The thermal expansion "leads to a curvature of the bimetal and this transmits-mitt, -ls transmission member 13a On the control panel, the rotational position of the Bimetal spiral 7o by changing the position of the lever arm mes 7d, to which the 'spi? "s-. 3. e is attached, changed so that the working current at correspondingly different temperatures opens and closes o However, it can also change the location of the mating contact 7b are changed, on a scale 7e the temperature values can be read off. The temperature setpoint is preferably dependent on the weather set wozM a weather sensor 11 was used derv as the dashed dividing line 10 indicated on the External wall of the building is attached. In the control circuit 8a »8b2 So, furthermore, the electrical resistance 12 for the target value actuator. DoI'Witterungsfuhler ii is expedient from a semiconductor resistor with a negative temperature coefficient served educated. The heating resistor 12 then also acts as Stabilization resistance. The outside sensor that through the control current heated wirög acts, thereby less by the Influence of the outside temperature, but rather by that of the weather-dependent cooling. Because of the high tenpera ture sensitivity de available on the market today Semiconductor resistance, a large gain degrees for the electrical current in the control circuit 8a, 8b 8ei so that this directly the setpoint adjuster by means of a Hels and stabilization resistor 12 can serve. To with. To work low voltage, the control current is over a transformer 9 taken from the power grid through various A temperature preselection can be used for the taps on the secondary side A day or night operation can be selected accordingly. The individual organs of a temperature control system structured in this way Fourth setting, ZOBO in Dependency on V.'itt.mng can be coordinated in this way;, that as a result de ent by various inertia factors standing delay. ?. change of furnace or boiler line stng exactly, at the time of the effectiveness of the jittering flüsa @ entry ,. to disse immediately a. ss5g3. calibrate without time to hurry ahead or

Claims (1)

Claim T .- & A? j) L && Ä SSS Setpoint adjusters, especially for temperature controllers, see Bo for the water supply temperature for hot furnaces where the tempering = J target value depending on the weather, for example automatically with the help of an electrical control current set wrdg characterized in that the setpoint adj It is essentially made up of iron from the control current Sa 8bJ 8c heated organ acting through thermal expansion, z "ß. consists of a bimetal 13, which by means of a transmission member 13a specifies the temperature solIert on controller 7 to