DE2300570A1 - ELECTRICAL INSTALLATION DEVICE - Google Patents

Description

Password: "Floor switch" Electrical installation device The invention relates to an electrical installation device, in particular for use in corridor and stairwell lighting with a controllable device for permanent switching of lighting fixtures and an optionally usable further switching element for adjustable interval lighting.

Such devices have because of the many components and / or because of the required cooling surface of individual components a relatively large housing on. Since there is no space for such large devices in the stairwells and corridors the devices must be installed far away from the lighting fixtures, so that a complex installation is required, which causes considerable costs. Furthermore, when the interval lighting of these devices is switched on, a switching noise occurs, which is perceived by many as annoying, especially at night.

The invention has set itself the task of an electrical installation device of the type mentioned to create a low installation effort and can be installed in a commercially available, preferably in a 55 mm flush-mounted box is.

In addition, when the interval lighting is switched on, there should be no disturbing Noise.

According to the invention, this is essentially achieved in that the electrical installation device is designed as an installation switch, which means Retaining elements such as expanding claws in a standardized installation box in particular The controllable device for the Continuous switching of the lighting fixtures is a bridging switch that can be operated preferably by hand and that the switching element for the adjustable interval lighting is a triac which controls its ignition pulse from a capacitor that is discharged via a diac receives, being parallel to the capacitor via a Graetz bridge rectifier electronic switch for stowing the triac. The one to control the interval lighting required circuit has only a low power consumption, so that the heat generating Parts like diac and triac do not get excessively warm and therefore inside a flush-mounted box can still be easily cooled. The bypass switch allows in a simple manner turn the lighting fixtures on and off. The Haltele wente allow one easy mounting in an installation box. Overall, the installation of the According to the invention, electrical device can be produced easily and cost-effectively, with additional, safe and easy-to-use staircase lighting or Corridor lighting is achieved. The electronic switch preferably consists of a field effect transistor, since the Tdac can be controlled in a simple manner can and the power consumption of the circuit when the lighting fixtures are not switched on remains extremely low.

It is advantageous if the field effect transistor serving as an electronic switch has a control voltage at its gate Blocking via a circuit consists of a chemical resistance of a diode and a capacitor. This ensures that the field effect transistor blocks immediately upon actuation of the switching element for the interval lighting and thus the triac is controlled through and the lighting fixtures are switched on.

The invention has another object. This consists in slowly reducing the brightness of the lighting after an adjustable light phase. According to the invention, this is essentially achieved in that a capacitor is assigned to the gate of the field effect transistor. This capacitor reduces the voltage at the gate of the field effect transistor when it is discharged, so that the field effect transistor slowly becomes conductive and the brightness intensity of the luminaires is slowly reduced as a result. The slow decrease in brightness of the lighting fixtures happens to be evident in the end of the lighting period attention, so that one is not surprised by the sudden switching off of the lighting in the middle between the switches, but can initiate a new light phase in time by actuating the switching element for the interval lighting again. It is recommended that the capacitor assigned to the gate of the field effect transistor has a adjustable resistor is charged, since the duration of the light phase of the lighting fixture can be set in a simple manner. A discharge resistor is expediently assigned to the capacitor in order to easily determine the discharge time of the capacitor. It is advantageous if the charging voltage of the capacitor is limited by a diode, since in this way the capacitor is reliably protected against overcharging, which could lead to its destruction.

According to a special feature of the invention is the field effect transistor or a capacitor in parallel with the capacitor giving the ignition pulse for the triac switched, with this capacitor being charged the ZUndzeitpunkt the Triacs adjusted. In this way it is easily possible to adjust the decreasing brightness intensity to regulate the lighting equipment.

According to a particular embodiment of the invention, the adjustable resistor and the switch for permanent lighting a unit, wherein appropriately the resistance and the switch a common Handle for setting the resistance and for switching the switch on and off have that protrudes from the installation housing. The unit enables a simple version of the installation switch, using the common Handle the switch can be easily operated or the duration of the brightness phase at the interval lighting can be set. In addition, the Installation housing outstanding handle an easily accessible and operable Control of the installation switch.

In the drawings, an embodiment of the invention is shown namely show: Fig. 1 the electrical installation device in a flush-mounted box and FIG. 2 shows the circuit of the installation device.

In Fig. 1, an electrical installation device 3 is shown, the is fastened in a flush-mounted box 4 which is embedded in a wall 5. That Installation device 3 has a two-part housing 6, which by means of a U-shaped Bracket 7 is attached to a support plate 8 and thereby held together. At the Support plate are spreading clamps 9 with bis screws and nuts, the Screws and nuts with the expansion clamp partially into the housing 6 of the installation device 3 protrude. With the expansion clamps 9, the installation device 3 is in the bottom box 4 attached. In the area of the dividing line between the two parts of the housing 6 of the installation device is a printed circuit board lo that shows the various electrical and electronic Components of the installation device carries, arranged.

For example, a throttle Dr is mounted under the circuit board lo, while a structural unit 11, which consists of an adjustable resistor R5 and a Bypass switch S is mounted on the circuit board. The structural unit 11 has a threaded extension 12 from which an actuator 13 protrudes. on the actuator 13 is seated in a non-positive manner with a handle 14 during a rotary movement the handle 14 can be adjusted through resistance R5 and with a longitudinal movement The bridging switch S is actuated in the direction of the circuit board lo. The installation device in the flush-mounted box is covered by a cover 15, with only the The actuator 13 and the extension 12 partially protrude from an opening in the cover. The cover 15 is with the help of a nut and with the one on the extension 12 Thread held.

In Fig. 2, the portion framed with dashed lines indicates the the circuit board lo located arrangement of the electrical and electronic components. As can be seen, connection points P, 1, 2 are provided. The connection point P is connected to the live line. Junction 1 joins Switching elements 16 for the interval lighting in connection, the switching elements 16 are connected with their second connection to the neutral conductor Mp. The junction 2 takes the lines of lighting fixtures 17, so that the connection point 2 is connected via the lighting fixture 17 to the neutral conductor Hp. In Fig. 2 are three switching elements 16 and three lighting fixtures 17 only for example shown.

The number of switching elements and lighting fixtures could be independent be increased or decreased from each other.

The connection point P is assigned a fuse Si that controls the circuit to protect against a current overload. Behind the fuse Si there is a junction, which leads to a bridging switch S. Through the bypass switch, r S could the lighting fixtures 17 are turned on and off. Parallel to the bypass switch S a triac Tr is arranged. The triac receives its ignition pulse from an over a diac Di discharging capacitor C2. The capacitor C2 is connected to his a feed line via the fuse Si to the phase line P and with its other Connection via a resistor R1 and the Lighting fixtures 17 to the neutral conductor Mp. Between capacitor C2 and resistor R1 is via the diac Di the control connection of the triac Tr. A Graetz bridge rectifier is parallel to the capacitor C2 D1 ... D4; parallel to the Graetz bridge rectifier D1 ... D4 is a real one electronic switch serving field effect transistor T. To the field effect transistor T is parallel to a capacitor C3, the meaning of which will be described later. In addition, the field effect transistor T is assigned a Zener diode D9.

It is initially assumed that the field effect transistor T blocks, i.e. that there is a negative control voltage on its gate. It follows that by the bridge rectifier D1 ... D4 no current flows. Thus, the capacitor can Charge C2 via resistor R1 at each half-wave until the ignition voltage of the Diacs Di is reached, whereupon it then controls. The charge on the capacitor C2 supplies the necessary ignition pulse for the triac Tr, so that it ignites and thus the lighting fixtures 17 light up.

If there is no voltage at the gate of the field effect transistor T, then flows a current through the bridge rectifier D1 ... D4. The capacitor C2 charges hardly open, and the required voltage of the diac is not reached. The Zener diode D9 connected upstream of the field effect transistor T only lets the current flow from a certain voltage through, this voltage is dimensioned so that it is below the ignition voltage of the Diac Di.

This is done so that the capacitor C2 loads up to a certain value, so that when the field effect transistor is blocked T the ignition voltage of the diac is reached quickly.

The gate of the field effect transistor T is a capacitor C4, a Diode D5 and a resistor R2 are arranged, the capacitor C4 with its second Connection to the Graetz bridge D1 ... D4 is, while the second connection is from the resistor R2 and the diode D5 existing parallel connection connected to a capacitor C5, the time of the lighting duration of the lighting fixture 17 determined. The second connection of the capacitor C5 is connected to the tap connection an adjustable resistor R5, the other two connections of the resistor R5 are on the one hand at the Graetz bridge D1 ... D4 and on the other hand via the diode D7 and resistor R4 connected to connection point 1 of the installation device is.

The Zener diode D8 is arranged parallel to the adjustable resistor R5. In parallel with the series circuit made up of the capacitor C4 and that made up of the Diode 95 and the parallel circuit having the resistor R2 is on the one hand a resistor R3 and on the other hand a diode D6 arranged, one terminal the diode D6 and the resistor R3 is assigned to the capacitor C5.

When one of the switching elements 16 is actuated, the capacitor C5 is charged via the current-limiting resistor R4 and the two rectifying diodes D7 and D6. The level of the charging voltage of the capacitor C5 determines the duration of the lighting fixture 17, the charging voltage being adjustable by the adjustable resistor R5 and its Naximaiwet being limited by the Zener diode D8. The circuit, which consists of the diode D5, the capacitor C4 and dDm resistor R2, ensures that the gate electrode of the field effect transistor T immediately Pressing one of the keys is negative, so that the transistor blocks, so that, as already described, the triac is ignited and the lighting fixtures 17 are switched on. When the switching element 16 is released, the current is interrupted and the capacitor C5 discharges through the resistor R3. The total discharge time of the resistor C5 determines the duration of the lighting fixture 17. If a certain voltage is reached during discharge, the field effect transistor becomes weakly conductive. This has the consequence that at the end of each half-cycle of the current the capacitor C3 partially discharges and at the beginning of each half-cycle it is partially charged again. As a result, the diac Di reaches its breakdown voltage at a later point in time with each half-wave, so that the ignition point of the triac is reached later with each half-wave, so that overall the current flow angle is smaller and thus the power supplied to the load is lower, so that the lighting fixture 17 is slow In this corridor lighting, attention is drawn to the fact that the corridor lighting will soon go out, so that you can initiate a new light phase in time by pressing one of the switching elements 16 again.

If the switching element 16 is not actuated again, the field transistor becomes T finally conductive to the extent that all of the supplied via resistor R1 Current flows through the field effect transistor, so that the ignition voltage across the capacitor C2 of the diac Di is no longer reached, and thus an ignition of the triac Tr does not occur and thus the lighting fixtures 17 are switched off.

It should also be mentioned that the triac Tr is used for radio interference suppression Choke is assigned to Dr. An interference suppression capacitor C1 is also parallel to the circuit consisting of the triac Tr and the choke Dr.

Another question is that the capacitors C3, C4 and C5, as in shown in the drawing, consist of electrolytic capacitors, so that for this Capacitors a particularly small design is achieved.

As already mentioned, the embodiment shown is only an example Realization of the invention. This is not limited to this. Rather, they are many other designs and applications are possible. For example the resistor R5 cannot be adjusted, but the resistor R3, so that the capacitor C5 is always charged constantly during the duration of the lighting phase is determined by the rate of discharge of the capacitor C5.

Claims (9)

Expectations: 1. Electrical installation device in particular for use with Corridor and stairwell lighting with a controllable device for permanent switching of lighting fixtures and an optionally usable further switching element for adjustable interval lighting that the electrical installation device (3) is designed as an installation switch is, which by means of holding elements such as expanding claws (9) in a standardized installation box (4) in particular can be installed in a 55 mm flush-mounted box and that the controllable Device for the permanent switching of the lighting (17), preferably by hand operable bypass switch (S) and that the switching element (16) for the adjustable interval lighting controls a triac (Tr), which controls its ignition pulse from a capacitor (C2) discharging via a diac (Di), being in parallel to the capacitor (C2) via a Graetz bridge rectifier (D1 ... D4) an electronic Switch (T) for controlling the triac (Tr) is located. 2. Electrical installation device according to claim 1, characterized in that that the electrical switch (T) consists of a field effect transistor (T). 3. Electrical installation device according to claim 1 or 2, characterized characterized in that the field effect transistor serving as an electronic switch (T) receives a star voltage at its gate to block it via a circuit, which consists of an ohmic resistor XR2) a diode (D5) and a capacitor (C4) consists. 4. Electrical installation device according to one or more of the claims 1 to 3, characterized in that the gate of the field effect transistor (T) is a capacitor (C5) is assigned. 5. Electrical installation device according to claim 4, characterized in that that the capacitor (C5) can be charged via an adjustable resistor (R5). 6. Electrical installation device according to claim 4 or 5, characterized characterized in that the capacitor (C5) is assigned a discharge resistor (R3). 7. Electrical installation device according to one or more of the claims 4 to 6, characterized in that the charging voltage of the capacitor (C5) by a diode (D8) is limited. 8. Electrical installation device according to one or more of the claims 1 to 7, characterized in that to the field. effect transistor (T) and a capacitor for the capacitor (C2) (C3) is connected in parallel, the capacitor (C3) being charged The ignition timing of the triac (Tr) has been adjusted. 9. Electrical installation device according to claims 1 and 5, characterized characterized in that the adjustable resistor (R5) and the switch (S) are a structural unit forms. lo. Electrical installation device according to Claim 9, characterized in that that the resistor (R5) and the switch (S) have a common handle (14) for setting of the resistor (R5) and for switching the switch (S) on and off, which protrudes from the installation housing.