DE3423218A1 - Electrical installation apparatus, such as a rotation speed controller or brightness controller, having a circuit arrangement for reducing the heat losses - Google Patents

Abstract

An electrical installation apparatus, such as a rotation speed controller or brightness controller, having a phase-gating controller which has an electronic power circuit breaker, such as a thyristor or triac, and which can be driven with the aid of a triggering circuit which contains an adjustable resistor, and a radio-suppression inductor is provided in series with the electronic power circuit breaker. In order to reduce the heat losses of the electronic power circuit breaker and of the radio-suppression inductor, the adjustable resistor is coupled to a mechanical power circuit breaker, which is arranged in parallel with the load circuit of the installation apparatus and short-circuits the phase-gating controller and the radio-suppression inductor when the adjustable resistor is set to its lowest resistance value.

Description

Electrical installation device, such as

Speed controller or brightness control device, with a circuit arrangement to reduce the heat loss The invention relates to an electrical Installation device such as speed controller or brightness control device with one electronic phase control and one in series with the load Circuit arrangement for radio interference suppression, which has a radio interference suppression choke through which the load current flows contains, the phase control an electronic circuit breaker, like thyristor or TriacX, which with the help of an adjustable resistor containing ignition circuit is controllable.

DE-AS 1 928 270 is a brightness control device of the above described type became known. A metal is used to dissipate the heat loss Front panel connected to a metal base via heat conducting bars. The cage-like Structure takes on all components of the device, whereby the heat-generating components, such as thyristor and radio interference suppression choke, near the front panel or

the base plate are arranged and the heat loss as possible without Direct heat build-up to the cover plate of the device, where it is dissipated to the environment so that no component is excessively heated. A similar training shows DE-OS 21 38 382.

DE-OS 21 54 362 is another installation device of the Become known type described above, in which the radio interference suppression choke between the front panel and the Cover plate is arranged. Through this Training additional heat conduction webs are unnecessary, as the radio interference suppression choke itself is directly exposed to the ambient air and give off its heat loss can. However, this training reduces the overall height of flush-mounted devices however, Angel aims to have a low overall height, so that the device is possible protrudes little above the wall surface.

The object of the invention is to provide an installation device of To create the type described above, in which the generation in the highest load level is greatly reduced by heat loss.

The task wiid according to the invention in an installation device initially characterized by those listed in the characterizing part of the main claim Measures resolved. Further developments of the invention are described in the subclaims.

The inventive design of the installation device is not to be confused with such devices1 in which the setting resistor with one of the position of the setting resistor independent, designed as a pressure switch On-off switch is combined. Such a device is for example by the DE-AS 25 47 595 known In this known installation device, the on-off switch is used to switch the load on and off in any position of the setting resistor.

DE-PS 23 16 827 is an installation device, such as brightness control device or speed controller has become known in which the setting resistor (potentiometer) is combined with a rotating switch contact. The burden is on this Execution in one end position of the setting resistor switched on or off.

The advantage of the invention is that in the load range in in which the installation device is used most frequently, and in which normally most of the heat loss falls, namely in full load operation, the Heat loss is lowest, practically zero, because in this switching stage both the control circuit and the electronic load circuit are out of order and said load current flows through the mechanical switch. By this measure Elaborate constructions to dissipate the heat loss can be omitted, because In the partial load range, only a fraction of the heat loss occurs that in the full load range would be incurred if the electronic circuitry was not switched off.

The embodiment according to claim 1 does not require a mechanical load switch in series with the electronic load switch.

The structure of this device can, for example, be a circuit arrangement as described in DE-AS 24 22 060. There the arrival takes place and switching off the load current by switching the control current on and off by the consumer of the adjustable resistance via the resistance path of the adjustable Resistance is also extended. With this version, however, it should be noted that that the electronic load switch is not galvanically disconnected from the load when the load is switched off Network is disconnected. This is why it is stronger in the event of overvoltages on the network due to "overhead ignition" at risk than with galvanic isolation.

In the embodiment according to claim 2, the electronic Load switch mechanically through both with the load switched off and with full load the two load switches disconnected from the mains.

In the embodiment according to claim 2, the first load switch be a push button switch or a rotary switch.

In any case, the second load switch can be actuated in a rotating manner Switch, for example one as described in DE-PS 23 16 827 is. If the first load switch is a pressure switch, the load can be, for example an incandescent lamp, in each position of the adjustable resistance, i.e. with each any phase angle of the electronic load switching, switched on or off will.

If the first load switch is also a turning bet "af-igL barer Switch is in analogy to DE-AS 24 22 060 with this switch, according to claim 3, the operating mode from "Off" through "Dark" to "Light" is set, then immediately at the stop of the adjustable resistor in the "light" operating state the second mechanical load switch is switched on, which consists of the electronic load circuit from the electronic load switch, the radio interference suppression choke and the ignition circuit, turns off. This second mechanical load switch can also according to the DE-AS 23 16 827 be formed. Of course, the two mechanical Load switch can also be designed differently, for example such that the adjustable Resistance and the two mechanical switches arranged one behind the other like a packet and are operated by a common actuation axis. It is without It is also conceivable that one switch rotates and the other by pressure can be operated or both can be operated rotating, namely the one at the "lower" Stop and the other at the "upper" stop of the adjustable resistor.

Below are two embodiments of the invention with reference to the drawing described in more detail. They show: FIG. 1 a first exemplary embodiment of the invention, Figure 2 shows a second embodiment of the invention.

The circuit arrangement according to Figure 1 of the drawing consists of a electronic phase control 3, which has an electronic circuit breaker, Has triac 4, which with the help of an adjustable resistor 5 containing Ignition circuit 6 can be controlled. In series with aem consumer 7, a glow or Fluorescent lamp, a radio interference suppression choke 8 is connected, which together with the Capacitor 9 forms a low-pass filter. The triac 4 is in series with the consumer 7, the power consumption of which is to be regulated. The trigger impulses are with Help of the R.C element, consisting of the series resistor 10, the adjustable bare Resistor 5, the capacitor 11 and the diac 12 won and the gate of the triac's 4 supplied. The trigger capacitor 11 is set by the adjustable resistor 5 charged. When the ignition voltage of the diac 12 is reached, it becomes conductive and switches the triac 4 through. The duration of the capacitor charging is determined by the setting of the adjustable resistor 5 is determined. The capacitor 11.

is charged to the ignition value as quickly as possible if the adjustable Resistor 5 is set to the lowest resistance value. The triac 4 ignites then already at a small phase angle and is for the entire duration of the half-wave the AC voltage is fully switched through. With a higher resistance value of the adjustable resistor 5, the ignition voltage is only at a later point in time achieved. The power consumption of the consumer is lower. Parallel to the series connection A mechanical circuit breaker 13 consists of radio interference suppression choke 8 and triac 4 on the one hand on the phase and on the other hand on the load. It is mechanical with the adjustable Resistor 5 is coupled and is open when the adjustable resistor is 5'in a range that goes from its highest resistance value to just before its lowest resistance value is set. The mechanical switch 13 is then closed by actuating the adjustable resistor 5 if the adjustable resistor 5 is set to its lowest value, the electronic one Switch (Triac 4) would therefore be fully connected. In this operating phase So the function of the electronic switch 4 by the mechanical switch 13 taken over.

The entire electronic part of the circuit arrangement and the low-pass filter are short-circuited.

The embodiment of Figure 2 of the drawing differs in its structure from the embodiment of Figure 1 in that between the mechanical load switch 13 and the phase terminal 14 a further mechanical load switch 15 'is arranged, and both switches 13, 15 together form a series circuit, and that the mechanical load switch 13 of the electronic load switch 4 parallel- switched is. In this exemplary embodiment, both internal load switches 13, 15 are included the adjustable resistor 5 coupled. Two versions are possible: 1. The mechanical load switch 15 is a pressure switch, the mechanical load switch 13 is a rotary switch.

2. The mechanical load switch 15 is a rotary switch, the mechanical one Load switch 13 is a rotary switch.

In the first case, the consumer 7 can be independent of the set Switch the resistance value of the adjustable resistance 5 on and off. The mechanical one Load switch 13 short-circuits the electronic load switch 4 when the adjustable Resistor 5 is set to the lowest resistance value.

In the second case, the consumer 7 cannot be independent of the set Switch the resistance value of the adjustable resistor 5 on and off. Much more an inevitable order is provided. With the mechanical load switch 15, the consumer 7 can then be switched on and off when the adjustable Resistor 5 is set to the highest resistance value, and the electronic Load switch 4 is through the mechanical load switch 13 in the opposite End position of the adjustable resistor 5, namely at its lowest resistance value, shorted.

Claims (3)

Claims: 1.) Electrical installation device for control of electrical devices or electrical consumers, for example speed controllers or brightness control device, with an electronic phase control, which has an electronic power switch, such as thyristor or triac, with the help of an adjustable resistor (potentiometer) containing Ignition circuit can be controlled, with one in series with the electrical consumer Circuit arrangement for radio interference suppression is provided, which has a load current flowing through it Contains choke coil, characterized in that the installation device has a, with the adjustable resistor (5) mechanically coupled on / off switch (13) contains which is arranged parallel to the load circuit and the phase control and the radio interference suppression choke (8J short-circuits when the adjustable resistor (5) is set to its lowest resistance value. 2.) Electrical installation device for controlling electrical Devices or electrical consumers, for example speed controllers or brightness control devices, with an electronic phase control that has an electronic circuit breaker, like thyristor or triacJ, a mechanical one in series with the electronic one Circuit breaker arranged on-off switch and a circuit arrangement for Radio interference suppression, one in series and between the electronic load switch and the mechanical load switch contains a choke coil, the electronic Load switch with the help of an adjustable Resistance (potentiometer) Containing ignition circuit is controllable and the mechanical load switch, the can be a push button or rotary switch, in the manner with the adjustable resistor (Potentiometer) is coupled that the load is independent of the position of the adjustable Resistance or in an end position of the adjustable resistance on or off can be switched off, characterized in that in series with the mechanical Load switch (15) another mechanical load switch (13) that can be actuated in a rotating manner is arranged to which the electronic load switch (4) is connected in parallel and the adjustable resistor (5) (potentiometer) with the two mechanical load switches (13,15) is coupled so that the second mechanical load switch (13) the electronic Load switch (4) and the radio interference suppression choke (8) short-circuits when the adjustable Resistor (5) is set to its lowest resistance value. 3.) Electrical installation device according to claim 2, characterized in that that the load circuit controlled by the electronic load switch (4) is in the end position the adjustable resistor (5) through the first mechanical load switch (15) is switched on or off, in which the adjustable resistor (5) on its the highest resistance value is set.