DE3800291A1 - Electrical safety circuit - Google Patents

Abstract

The described electrical safety circuit operates in a very simple manner and is particularly suitable for defence against hazards. A relay is used as the disconnection device and draws the voltage required for this connection from a voltage divider. If a disconnection is intended to be carried out as a result of a defined operating state discrepancy, the relay coil receives the voltage necessary for this purpose from either one pole or the other of the power supply source, that is to say the disconnection is carried out irrespective of the current behaviour or of the plug position. The disconnection can be triggered by a probe which responds to moisture, liquid, and temperature or other physical or chemical states. In particular, the circuit also operates in the case of an interruption in the neutral conductor, in the case of a high network loop resistance, and in the case of two-phase alternating-current operation. The safety circuit can be used, for example, in a hair dryer and prevents a lethal electrical accident if the appliance is dropped into a bathtub which is filled with water.

Description

The invention relates to an electrical safety circuit according to the preamble of claim 1, as derived from the "Electrical Review ", Dec. 19, 1958, pp. 1143, 1144. As a special The hair dryer is used as an example to protect against the Electricity death is realized in the event that the hair dryer in the bathtub filled with water falls.

A number of protective measures are already known to protect the Prevent fatal electrical accidents from the hairdryer in the bathtub should.

The use of the sensitive residual current circuit breaker (nominal residual current e.g. 30 mA) is currently officially state of the art. A major disadvantage is the fact that it is practical is only possible for new installations, since retrofitting is also possible is associated with high costs, especially in the case of old systems (with classic zeroing). In addition, the question is whether the sensitive Residual current circuit breaker in the bathtub can prevent all possible current path constellations at all, by no means clarified, since the basis of this circuit breaker Current hazard curve (IEC publication 64.353, see e.g. VDE- Series 9/1983, p. 74) was derived from animal experiments (i.e. in no way assured of transferability to humans is), this only for adults and especially only for the current path left hand-feet applies. It has been scientifically proven several times that the lethal electricity hazard threshold is all the lower  is closer to the heart of the power entry and exit points (see Osypha, P .: measurement investigations on current strength, Duration of exposure and current path in electrical AC accidents of humans and animals. Electromedicine, 1963, Issue 3 and 4). As the evaluation of the electrical accidents shows (own investigations), the hairdryer is often in Close to the heart, e.g. B. if a person is connected to the socket Hair dryer accidentally falls out of your hand and into the bathtub in which another person is located.

The doubts cited about the effectiveness of the sensitive Residual current circuit breakers in bathtub accidents are used in specialist circles also expressed openly, e.g. B.

• ) "Electrical engineering and mechanical engineering 1971", page 113 (G. Biegelmeier): "... Kouwenhoven 's experiments prove that stimuli of the duration of half a period of technical alternating current 50 Hz, i.e. 0.01 s, with a correspondingly high current density in the heart can lead to ventricular fibrillation. . . e.g. B. also in the low-voltage accident . . . e.g. B. in the bathtub. In these cases you can Do not protect circuit breakers as their switch-off times are hardly less than 30 ms. "
• 2) "DIN IEC 601 Part 1 / VDE 0750 Part 1 / 05.1982", page 14: "The Lack of adequate scientific documentation on sensitivity of the heart against currents, the ventricular fibrillation cause is still a problem. "
• 3) VDE publication series No. 9, page 42: "Protective measures against  dangerous body currents according to DIN 57 100 / VDE 0100 part 410 and Part 540 ", page 42:" Even with functional residual current Protective device I = 30 mA is the protection with direct Not expected to touch in all cases. So z. B. unsettled, whether such protection for all conceivable constellations of the bathtub accident. "

A fatal accident cannot be ruled out if the Bathtub is insulated, a fact in most countries is given, because here the artificial earthing of the bathtub is not is prescribed and the drain pipes in many cases made of insulating Are plastic. In this case, the sensitive residual current Do not turn off the circuit breaker. It is the one in the bath water current flowing around the hair dryer (like your own Measurements showed) as flowing to an earthed tub; but in this case comes the one that mentioned above and greatly increases the risk Circumstance close to the heart, which is why a fatal Effects due to heart fibrillation cannot be excluded, especially when the first power surge enters the vulnerable phase falls. It should also be borne in mind that in many cases, unconsciousness or / and muscle cramp occurs (like the accident evaluations show) and that is why a drowning death is not excluded can be.

Another disadvantage of the leakage current currently on the market Circuit breakers is their relatively high failure rate Protective function, which is in the range between 1 and 3% (see e.g. B. etz-b, 1978, p. 348).  

Furthermore, special circuits have been proposed to prevent the death of electricity should prevent in the bathtub.

These protective measures also have serious disadvantages and are therefore hardly acceptable for general use.

In a proposal (DE-OS 31 16 285) are in front of the air inlet and outlet openings grounded metal grids. These Solution requires a three-wire lead and a Schuko plug, which greatly reduces the handiness of the device. Another is protection not given if the protective conductor is interrupted or with the outer conductor is connected.

Other known solutions are too expensive, z. B. are at a suggestion even a separate container and a 4-core supply line required (EP 1831).

In another proposal (DE-PS 30 38 101) is due to the action of water a short circuit triggered the upstream fuse triggers. There is no shutdown here the neutral conductor is interrupted or if the network loop resistance is too high.

Another proposal (DE 34 90 593) is also very expensive (including three-core device cable and two special cables are required) and has additional disadvantages: it is a poled Plug required and if there is an open circuit, the Circuit without protective function.

The lack of a protective function when the neutral conductor is interrupted is also given in another proposal (DE 35 14 135).

The invention has for its object, with little effort one in the event of a defined state change on the equipment side and switch-off device that is reliably responsive under all circuit circumstances to accomplish.

This object is achieved by the in the characterizing part of the claim 1 included features solved. The following sub-claims contain advantageous developments of the invention.

The functional analysis of the proposed circuit shows that the Protection is also provided if the neutral conductor is interrupted (e.g. by wire break, fuse or switch) if the network loop impedance has a high value when the bathtub is isolated or when there is a two-phase operation. In the Drawings are exemplary embodiments of the invention.

In Fig. 1, the resource 4 , z. B. a hair dryer, connected to the power socket S , which is fed by the power transformer T. The relay coil 1 of the relay, for. B. a monostable neutral relay with two break contacts 2, 3 , is connected with one end 9 to the center 7 of the voltage divider 6, 8 and with the other end 5 to a sensor 10 . In the hair dryer, sensors (e.g. wires or conductive surfaces) are arranged in a touch-proof manner at all points where liquid can penetrate so that a penetrating liquid first touches a sensor before it reaches a live point, e.g. B. reaches the heating winding.

If the hair dryer falls into the bathtub filled with water and conductive water reaches the sensor from the earthed bathtub and / or from the heating coil, the relay coil 1 receives voltage (regardless of the plug position!) And the contacts 2 switch off with two poles and 3 . The switch-off remains as long as the water that has penetrated creates the conductive connection and as long as the hairdryer is connected to the mains. By appropriate dimensioning of the relay coil resistance, possibly with the insertion of a corresponding series resistance, the current flowing through the probe is limited to such an extent that it is harmless.

If the hair dryer is disconnected from the mains when wet, contacts 2 and 3 switch on again. However, it is switched off again when it is connected to the mains again when wet. Only when the water is removed, e.g. B. by evaporation, turn on contacts 2 and 3 again and the hairdryer is back in operation. The problem of automatic reclosure given in other proposals is solved here without additional effort.

In FIG. 2, the relay coil 1 via a full-wave rectifier 11, 12, 13 fed, 14. In this way, a relatively short switch-off time is achieved even when using a polarized relay.

In Fig. 3 the voltage divider 16 consists of two opposite directions switched rectifiers and 17. The advantage of this circuit arrangement is that there is no appreciable heat development and that a higher switch-off pulse voltage is generated and thus a switch-off is achieved even with higher water resistances. The circuit is suitable for monostable polarized relays. So that there is no relay drop in the current pauses (consequence: relay flutter with arc), a capacitor 19 is connected in parallel with the relay coil 1 or the capacitor 19 is first charged and in the charged state via the voltage threshold switch 18 , for. B. a diac, discharged through the relay coil 1 , which leads to a strong switching of the relay.

Furthermore, a thermistor 20 is connected from the sensor connection to the one pole, which is accommodated in a suitable place in the hairdryer. If the permissible temperature is exceeded in the hairdryer, the resistance of the thermistor is reduced accordingly and the device is switched off.

Claims (8)

1. Electrical safety circuit with a relay ( 1, 2, 3 ) for separating an item of equipment ( 4 ) connected to an electrical voltage source (T ) from the source when a defined state change occurs on the item of equipment, one end ( 5 ) of which causes the shutdown Relay coil ( 1 ) is connected to the internal tap ( 7 ) of a voltage divider ( 6, 7, 8 ), characterized in that the other end of the relay coil ( 9 ) has a trigger element ( 10 ) with a pole of the voltage source which becomes effective when the operating state changes receives a sufficiently conductive connection. 2. Safety circuit according to claim 1, characterized in that the voltage divider ( 6, 7, 8 ) before the relay switch contacts ( 2, 3 ) and that the resistance of the voltage divider ( 6, 8 ) and / or the relay coil ( 1 ) , optionally together with an additional series resistor, is at least so large that the current still flowing after switching off in the equipment ( 4 ) is harmless or cannot have any other undesirable effects. 3. Safety circuit according to claim 1 or 2, characterized in that the relay coil ( 1 ) by one ( 10 ) or more sensors can be set in function, the z. B. react to moisture, liquid, temperature or other physical or chemical conditions. 4. Safety circuit according to one of the preceding claims, characterized in that the relay coil ( 1 ) is fed via a full-wave rectifier ( 11, 12, 13, 14 ) and parallel to the relay coil ( 1 ) is a capacitor ( 15 ). 5. Safety circuit according to one of the preceding claims, characterized in that the voltage divider consists of two rectifiers ( 16, 17 ) connected in opposite directions to one another. 6. Safety circuit according to one of the preceding claims, characterized in that in series with the relay coil ( 1 ) is a voltage threshold switch ( 18 ) and in parallel with this series circuit is a capacitor ( 19 ). 7. Safety circuit according to one of the preceding claims, characterized in that these are in an electrical hand-held device, e.g. B. a hairdryer, a hand drill or a hedge trimmer is installed and conductive as sensors Surfaces that are touch-proof anywhere in the device and are installed in such a way that penetrating liquid first with the sensors and then with live ones Share comes into contact. 8. Safety circuit according to one of the preceding claims, characterized in that a temperature switch, for. B. a thermistor ( 20 ) is used, which also takes over the temperature monitoring and at overtemperature the consumer, for. B. turns off the hairdryer.