DE2816420A1 - Power adjustment circuit for hot air dryer - has heating resistor in AC circuit switched at zero voltage by trial ignited by special switch - Google Patents

Abstract

The control for adjusting the power of the heating resistance of hot-air dryers, hoods and fans consists of a heating resistor in an alternating current circuit. A zero voltage circuit breaker is positioned at one point of the circuit. The switch has an input (32) for a temperature signal from a temperature regulator. Another input is for a time signal from a time regulator. The temperature signal generator consists of a temperature regulating part containing an operating amplifier. The time signal generator consists of a time regulator containing another amplifier.

Description

Device for regulating the output of a heating resistor

stands of blow dryers, hoods or heaters.

The invention relates to a device for regulating the power a heating element of a blow dryer, hood dryer or fan heater.

To control and regulate such electrical heating, used, so far, mostly Thagen gate controls. By setting the ignition angle of a Thyritors oc.c-r of a tric can increase the output converted into heating or lowered. However, there are sensitive disadvantages Above all, insufficient constant temperature and necessary elaborate interference suppression measures as well as a too voluminous structure of the device.

It was therefore the task of a control device that was also energy-efficient to create that avoids the disadvantages mentioned. In addition, it should also the growing need to be met, such a control device in such a way that they can be from a desired point in time within a certain period of time in their performance from a predetermined temperature automatically and decreases linearly to a lower temperature. Especially with hair dryers Is it useful and pleasant, yes, often downright necessary when the initially required higher temperature as it progresses Hair drying wheel gradually decreasing.

In order to avoid the feared build-up of heat, one has up to now with hair dryers only tried to make the temperature of the blown air more or less makeshift to keep constant, but of course there was not enough control reliability since they have the reaction of heated hair on one, in the exhaust port of one Hair dryer located SEnsor is of course limited and hardly detectable is. One then helped oneself a little bit by gradually changing the temperature of Flanders has postponed, but require the incessantly undivided attention and Operator effort.

It was therefore created according to the invention a device in which from a desired point in time to the power output by a heating resistor within a given time from an actual value linear to a given one Setpoint is lowered by the fact that the heating resistor located in an alternating current circuit is switched in the zero crossing by a triac, which is switched by a, in a switching part arranged N voltage switch is energized via an output, -which at this Zero voltage switch an input for a temperature signal from a temperature control part and another input for a time signal from a time control part are arranged.

Furthermore, it is inventive, which the temperature signal from a, an operational amplifier containing temperature control part is present, which a Temperaturirtsignal from a temperature sensor with an initial temperature setpoint signal from a potentiometer-compared and has processed and the time signal from one, another The timing part containing the operational amplifier is pending after opening the switch and time linear charging of a capacitor outputs a current linear time voltage.

thus the device according to the invention consists of an arrangement9 where the heating resistance in an alternating current circuit is at zero crossing is switched by a triac, which is located in a switching part by a Zero voltage switch is ignited, one input of which is in Temperaturregeil with a potentiometer that can be adjusted to the initial temperature, a temperature sensor and an operational amplifier, and its other input has a side control part a linearly chargeable capacitor, a switch connected in parallel to this and a further operational amplifier are assigned.

A further development of the invention is that parallel to Series resistor and diode, which are in that input of the zero voltage switch, which supplies it with operating voltage, another resistor to the internal diode bridge circuit is arranged for zero voltage detection.

Also iut e. inventive, if the heating resistor consists of one, on a single or multi-plate support frame connected by connecting webs wound wire, and the zero voltage switch and triac on one Plate of the support structure, if necessary on an attachment attached to this plate, are arranged in the wind tunnel in front of the fan O After all, it is still inventive when the series resistor located in the input of the zero clamping switch a resistor is connected downstream, which in turn is connected upstream of the motor of the device is.

The invention is described below and illustrated by FIGS and 2 explained in their circuit. Figure 3 time as a detail in perspective Supervise the arrangement of the heating resistor, i.e. a wire, on one of the three plates here Support frame, with zero voltage switch and triac arranged on the middle plate are, the circuit itself consists of the connected parts A (switching part), B (temperature control part), C (time control part) and D (a part with voltage switch dividers).

Switching part A is formed from a commercially available integrated Zero voltage switch 1 with the - in the present field] - connection contacts 21, 22, 23, 2A, 30, 31, 32, 33, which iibsr a series resistor 3 controls the triac 2, Triac 2 in turn switches heating resistor 20 to be regulated as a load.

Elements 4, 5, 6, 7 and 8 form the external circuitry of the zero voltage switch lo over the series resistor 4 and the. Diode 5 becomes the zero voltage switch 1 with Operating voltage supplied, The Wide tand 6 feeds an internal diode bridge connection for zero voltage detection.

The capacitor 8 is a filter capacitor for the resulting operating voltage of about 12 V, which apart from the zero voltage switch 1 also includes the entire control circuit for the parts R, C and D feeds, The capacitor 7 sifts the signals for the inputs 32 and 33 of the zero voltage switch lo Part 13 represents the temperature control part part By the temperature sensor 10 from the operation amplifier 9 is a constant Current driven by the resistor 11 and the potentiometer 12 as well as through the voltage Urefl is determined 0 at the output of the operational amplifier 9 arises thus a temperature-dependent voltage that is influenced by the potentiometer 12, d. h can be set. This achieves the initial setpoint temperature.

Part C is the automatic timing. When switch 14 is closed at the output of the operational amplifier 13 a voltage that corresponds to the voltage Uref2 corresponds. The overall circuit works as long as switch 14 is closed is, as a temperature control circuit, doho at each zero crossing becomes the heating resistor 20 energy supplied to the same extent as the temperature control of the temperature control part B makes necessary. If the switch 14 is opened, the capacitor 15 of charged a constant current, the magnitude of which is determined by the resistor 16, which may be can also be adjustable, and Urefo is determined. Because the charging of the capacitor 15 takes place linearly in time, arises at the output of the operational amplifier 13 for this Time a linearly decreasing voltage, this causes in zero voltage switch 1 a linear change in the reference variable for temperature control, the resistance 14 a protects the switch 14 from discharge currents from the capacitor 15o part D contains Voltage divider with resistors t7, 18 and 19, and generates the voltages Urefl and Uref2 for the operational amplifiers 9 and 13.

The puncture of the device according to the invention is thus clear recognizable. Before the switch 14 is switched on, it is through the heating resistor 20 output power can be given as constant as it is given by the temperaw tur control part 8, so ultimately by setting the potentiometer 12, as desired is set 0 As soon as switch 14 is switched on, takes place. a linear one Lowering the temperature. The speed of lowering is of course through the dimensions of the individual parts of the time control part C are given as well as the final temperature, in which the heating resistor 20 then finally recharges the capacitor 15 remains. Before heating up again, the switch 14 must of course again 0 The installation of the heating resistor 20 on the support frame 41, and the arrangement of zero voltage switch 1 and triac 2 on a plate of this Support frames 41 are extremely advantageous for the use of space and favorable for the length of the connection lines Ss can also be seen: If the input 22 of the zero voltage switch 1, the series resistor 4 is connected upstream of the resistor 4a, which is also connected upstream of the motor 34 of the device, this resistance waste heat is also when the resistor 4a is arranged in the wind tunnel, next to the heating resistor 20 in the Intervene control process and from the temperature sensor 10 at the output of the actual channel measured and reported, this results in additional inclination savings The device according to the invention is therefore not only space-saving and energy-saving. It is also easy to use and allows from a desired point in time, simply after activity a switch, a time-linear temperature decrease corresponding to the progressive Degree of dryness of the hair, this is the damaging temperature build-up on the hair reliably avoided, S reliable solely through sensor-related temperature constancy cannot be reached 0

Claims (6)

Claims 1. Device for regulating the output of a heater rider of blow dryers, hoods or heating fans, characterized in that the in an alternating current circuit lying heating resistor (20) in the zero crossing of one Triac (2) is switched by a zero voltage switch arranged in a switching part (A) (1) is ignited via an output (30), with zero voltage switch at this (1) an input (32) for a temperature signal from a temperature control part (3), and another input (33) for a time signal from a timing control part (C) is arranged are, 2. Device for regulating the output of a heating resistor in a blow dryer, Drying hoods or fan heaters according to claim 1, characterized in that the Temperature signal from a temperature control part containing an operational amplifier (9) (B) protrudes, which the Temperaturietsignal from a temperature sensor (10) with the The initial temperature setpoint signal from a potentiometer (12) is compared and processed has, and the time signal from a, a further operational amplifier (13) containing Time control part (0) is pending after opening a switch (14) and time linear Charging a capacitor (15) emits a current of linear voltage, 30 device to regulate the output of a heating unit of blow dryers, hoods or Fan heaters according to Claims 1 and 2, characterized in that the in an alternating current circuit lying heating resistor (20) is switched in the zero crossing by a triac, which triggered by a zero voltage switch (|) located in a switching part (A) its one entrance (32) with a temperature control part (B) a potentiometer (12) that can be adjusted to the initial setpoint temperature, a temperature sensor (10) and an operational amplifier (9), and its other input (33) is a timing control part (C) with a linearly chargeable capacitor (15), one connected in parallel to this Switch (14) and a further operational amplifier (13) are assigned, 4. Device for regulating the output of a heating element in blow dryers, hoods or fan heaters according to claims 1 to 3, characterized in that parallel to the series resistor (4) and to diode (5) a resistor (6) to the internal diode bridge circuit for the Zero voltage detection is arranged0 5. Device for regulating the power a heating resistor of blow dryers, hoods or fan heaters according to claims 1 to 3, characterized in that the resistor (20) consists of a single or multi-plate support framework, optionally connected by connecting tees (41) is made of coiled wire, and the zero voltage switch (1) and the triac (2) on a plate of the support framework (41), optionally on one of these plates attached approach, located in the wind tunnel in front of the fan, 6. Device to regulate the power of a heating resistor of blow dryers, hoods or Fan heaters according to Claims 1 to 3, characterized in that the in the entrance (22) of the zero voltage switch (1) Series resistor (4) a resistor (4a) is connected downstream, which in turn the motor (34) de device is upstream.