SU762080A1 - Device for protecting electric apparatus from connection of phase voltage to housing - Google Patents

Description

<p> 762080A1_1-1.png "style =" width: 50pt; height: 36pt; "/> <p> The invention relates to electrical engineering and can be used in household electrical appliances, such as network televisions and radio receivers, in which power is supplied according to the best transformer. <sup> 5 </ sup> </ p> <p> A device is known to protect the electrical apparatus from phase voltage on the chassis (housing), which ensures safe switching of the electrical apparatus into the network, in which the chassis is connected to the neutral (neutral) grounded wire of a two-wire single-phase power network [. </ p> <p> This is achieved by unambiguously plugging the plug into the socket of the two-pin mains connector and performing the power rectifier of the power supply unit of the electric apparatus over a one-half wavelength system. </ p> <p> To unambiguously connect the pins of the plug to the pins of the two-pin socket, they are made in different sections, different configurations, or keys are inserted into the connector design. </ p> <p> The disadvantage of such a system is that it is not suitable for operation with unpolarized network jacks (sockets and plugs), which are widespread in the USSR. </ p> <p> Another disadvantage (even in the case of using non-polarized connectors) is the strict control of the correctness of the connection of wires to the outlet when installing internal wiring of residential premises, as well as when installing power cords in the production of equipment. </ p> <p> Random error leads to connecting the chassis not to a neutral grounded, but to a phase conductor. Phase voltage on the housing of an electrical apparatus can hit people doing its repairs. </ P> <p> There are known passive protection devices against the possibility of a phase voltage damage ...... </ p> <p> These devices are included in the scheme of electronic equipment and carry out a visa or 20 </ p> <p> 3. 762080 </ p> <p> This indication or audible alarm in the presence of phase voltage, on, resting on the chassis. </ p> <p> It is also known a device comprising a series circuit comprising a <sub> 5 </ sub> 'metal plate, a safety capacitor and a two-electrode gas-discharge lamp. The chain is connected at one end to the chassis [2]. </ P> <p> If the non-polarized plug is plugged into the mains socket and the finger touches the metal plate with a finger, the gas-discharge lamp lights up, because from the chassis, which is under phase voltage, through the cable starts leakage current safe for humans, the indicator gas-discharge lamp lights up. It is enough for repair personnel to rearrange the plug to the correct position in the socket, heme most by connecting the chassis to a grounded neutral wire of a single-phase two-wire power network. After that, when the metal plate is touched, the visual alarm system of danger does not work, since the person and the chassis are under the common potential of the earth. </ P> <p> The disadvantage of such a device is that the mains voltage is first applied to the electrical device, as a result of which it is possible that repair personnel could be accidentally touched the chassis before touching the plate of the hazard indicator 35 and switching the power plug in the outlet. </ p> <p> The known device £ 2 ^ may contain a metal plastid, a safety capacitor, a 'two-electrode gas-discharge lamp, a resistor connected <sub> 40 </ sub> now in series with each other and at one end to the chassis. The common connection point of the resistor and the safety capacitor is connected to the input of the low-frequency amplifier (ULF) of the electrical apparatus. At <sub> 45 </ sub> another ULF input, a sound signal is received. </ P> <p> The output of the ULF through the transformer is loaded on the voice coil of the loudspeaker. </ p> <p> If the two-pole power plug is not correctly positioned in the outlet, when the phase voltage hits the chassis, and the next contact with the metal plate through the (human) capacitor closes the circuit to the ground, an alternating current of 50 Hz begins to flow along the circuit and in addition to the visual indication gas discharge burning account </ p> <p> 50 </ p> <p> 55 </ p> <p> the lamp can sound the alarm through the loudspeaker, perceiving both the audio signal of the main frequency of 50 Hz and its harmonic components. </ p> <p> When the plug is properly positioned in the outlet, when the chassis is connected to a neutral (zero) grounded wire, there is no audible alarm for danger. </ p> <p> This device has the same drawbacks as the first device. </ p> <p> The known device £ ΐ] can contain a relay with contacts, a two-pin power plug, a half-wave rectifier and a load. The rectifier capacitor and the load are connected to the chassis, and other terminals to the rectifier valve. </ P> <p> The device provides for the obligatory grounding of the chassis of the electric apparatus with the third wire, bypassing the bipolar network connector. </ p> <p> Between the phase and third wires and between the neutral (neutral) and the third one: the windings of two relays or two windings of a polarized relay are connected to them with wires. </ p> <p> When you turn on an unpolarized mains plug, one of two relays is triggered or a polarized relay takes one of two positions and connects the phase wire to the rectifier valve with its contacts, and the neutral (neutral) wire to the chassis. </ p> <p> This is triggered by a relay whose phase voltage is initially applied to the winding relative to a grounded third wire. </ p> <p> The disadvantage of the device is the mandatory requirement for reliable grounding of the electric device using the third wire. </ p> <p> Violation of the conductivity of this wire leads to failure of the device due to the failure of the relay and the possibility of the appearance of phase voltage on the chassis. Another disadvantage is the low reliability of the system due to the use of a relay. </ P> <p> The known device [2} may contain a metal plate, a safety capacitor, a gas-discharge two-electrode lamp, a resistive divider connected in series with each other and connected to the chassis of the electric apparatus, </ p> <p> as well as amplifiers and switches, made in the form of relay contacts, </ p> <p> Resistive divider connected to </ p> <p> to the input of the amplifier, to the output of which pod5 762080 </ p> <p> The relay coil is turned on. The amplifier and the relay are powered by a rectifier, which is part of an electrical apparatus. </ P> <p> The relay contains two pairs of power contacts for two positions with self-locking 5th. </ p> <p> * A wrong position of the bipolar non-biased power plug and when the person’s finger touches the metal plate through the capacitance (person) an electrical circuit closes on the ground, while the gas-discharge lamp lights up, the current causes a signal at the amplifier input and turns on the winding through the amplifier relay. 15 </ p> <p> The relay contacts are switched, self-blocked and connected to the chassis via a network connector to a grounded zero (neutral) power line wire. </ p> <p> The disadvantage of the device is the lack of high safety of repair and adjustment work, since there is a danger of electric shock from the power network of repair personnel in the event that someone for some reason forgot to touch a nonmetallic plate, for the electric device is supplied with mains voltage and the presence of phase voltage is likely on the chassis. 30 </ p> <p> Another drawback is the relatively low reliability of the device as a result of the use of a mechanical relay and. complex auxiliary circuits (amplifier, power supply relay). <sup> 35 </ sup> </ p> <p> The prototype of the proposed device is a device for protecting an electric apparatus from phase voltage hitting a case containing an unpolished bipolar network connector with a switch made in the form of two symmetrical thyristors, a sensitive element with metal plates made in the form of a sensor trigger, the cathode of the first tirathron of which— <sup> 45 </ sup> pogo connected to the phase pole of the connector, the power supply circuit of the trigger through a rectifier connected to the other pole of the connector, two inputs of the trigger connected to the metal plate <sup> 50 </ sup> to us, the cathode of the second thyratron is connected to the control electrode of one of two oppositely connected thyristors, which are included in the dissecting of the phase wire | D]. </ p> <p> For any &quot; plugging a non-polarized network connector into a two-wire </ p> <p> the power network is fixed to the on-state condition of the touch trigger, in which the thyristor switches are turned off and the voltage does not flow to the load. </ p> <p> The conditions for switching the trigger and the entire system to the operating mode are the presence of gas discharge thyratrons of phase voltage in the cathodes and subsequent contact with a metal plate connected through a high-resistance safety resistor to the grid of the working thyratron. </ p> <p> In this case, the electrical apparatus chassis is connected to a grounded mains wire: if the plug is incorrectly positioned, the working thyratron cannot be turned on, and the electrical apparatus is protected from phase voltage on the case due to the high resistances of closed symmetric thyristors. </ p> <p> A disadvantage of this device is the need to strictly control the resistance value of a high-resistance safety resistor of a sensitive element during production and operation. Accidental installation of a low-resistance resistor worsens the electric locomotive hazard, since the phase voltage of the network is brought to the metal sensor plates and can create a current above the safety standards. </ P> <p> Another disadvantage of the prototype is the inconvenience of operation. when you turn on the device in the network: in addition, you must touch the metal touch plate. </ p> <p> The aim of the invention is to increase: electrical safety and simplification in handling an electric device when it is turned on. </ p> <p> This is achieved by the fact that in the device for protection of the electrical apparatus from the phase voltage on the case, containing a non-polarized bipolar network connector connected in series with a switch made in the form of two simisgors, two opposite-connected thyristors in cutting the phase wire between the bipolar a network connector and, a switch, to the output of which a protected electric device is connected, a rectifying diode and a sensitive element, made on two cold cathode tiratrons, are anodic feed circuit which via a common resistor and the rectifier diode connected to the mains neutral pole connector, a first cathode thyratron connected </ p> <p> 00 '', / / 7.. ‘.. ......... '7Г2С </ p> <p> with the “phase pole of the network connector, and the cathode of the second thyratron is connected to the control electrode of one of the thyristors, and the anode circuit of the first and second thyratrons are connected to * PC chains, the capacitor is connected between the grid and the anode of the first thyratron, and A thyratron is connected to a segment of a conductor whose capacity relative to the earth is sufficient to ignite the thyratron. 1 </ p> <p> Such an implementation of the device with the correct position of the power plug in the socket allows the supply of the network voltage to the load, while the switching is carried out automatically 1 without touching the elements of the device by a human, and the chassis is connected to the grounded wire through the network connector. If the power plug is in the wrong position in the socket under &amp; voltage - 2, the load becomes impossible, which ensures that there is no phase voltage on the chassis. </ P> <p> The drawing shows a circuit diagram of the proposed device. </ p> <p> The device for protecting the electric device 1 from phase voltage on the housing 2 contains a depolarized bipolar network connector 3, to the contacts of which the phase wire 4 and the neutral wire 5 are connected. In series, the phase wires 4 are connected to the triode thyristors 6 and 7 along counter-parallel circuit and triode triac 8. In the circuit of the neutral wire </ p> <p> 5 included triode triac 9. Control electrodes 10, 11 triac 8, </ p> <p> 9 are interconnected via control circuit 12. </ p> <p> The control electrode 13 of the thyristor 7 is connected to the neutral wire 5 through a control circuit 14 containing, for example, a diode, a charging capacitor and a limiting resistor, the capacitor being connected to the cathode of the thyristic &lt; pa, the resistor to the <sub> (</ sub> control electrode 13 of the thyristor 7, and the diode connected to the neutral wire 5. The second terminals of the resistor, capacitor and diode are connected to each other. </ p> <p> To the control electrode of the thyristor </ p> <p> 6 the cathode of the second thyratron 15 is connected, the anode of the thyratron is connected through a parallel-connected resistor 16 and a capacitor 17 to the common teratron point / ^^^ to the grid of the thyratron is connected a segment of conductor 18, having a certain capacity of OTH'7 ', 7-g- \ · </ P> <p> niggly &quot; land. The output of the device is connected to the power input of the device -. that 1, and the neutral wire 5 through a triac!) is connected to the terminal 1H, ime - </ p> <p> <sub>; </ sub> direct connection to the housing (chassis), and the phase conductor through thyristors 6, 7 and triac 8 is connected to terminal 20. Between terminals 19 and 20, the load is turned on. The first tiratron 21 </ p> <p> > the grid is connected to the anode through a capacitor 22, and the “C-chain of parallel-connected resistors 23 and capacitor 24 is connected to the anode circuit, the common supply circuit of the anodes is connected via </ p> <p> [resistors 25, 26 and diode 27 to neutral wire 5, between the cathode and common point · resistors 25 and 26 include a capacitor 28, and between the common point of diode 27 and resistor 26 and the cathode on - </ p> <p>, chen condenser 29, the cathode of the thyratron 21 is connected to the phase wire 4. </ p> <p> The device works as follows. </ p> <p> The inclusion of a thyratron 21 is accomplished — by charging through a resistor 23 and </ p> <p> a capacitor 24 of a capacitor 22, which ignites a grid-cathode portion having a low ignition potential. A burning thyratron 21 captures the enabled </ p> <p> I state of the thyratron 15, since the constant voltage in its anode, which is determined by the voltage at the common connection point of resistors 25, 23 and capacitor 24, is not enough for ignition </ p> <p> <sub>; </ sub> thyratron 15 at the anode. </ p> <p> In this case, the thyristors 6, 7 and symmetrical triacs 8, 9 are turned off, the voltage does not reach the load, and the case 2 of the electric apparatus 1 is disconnected from the phase voltage present on the neutral; wire 5 due to the high resistance of closed symmetric thyristors. </ p> <p>; To connect the housing of the electrical apparatus to the grounded neutral wire of the power network, it is necessary to change the position of the plug in the socket of connector 3 to the opposite. At the same time, a phase voltage appears at each of the two thyratrons 15 and 21. </ P> <p> In the initial stage, the thyratron 21 is switched on briefly </ p> <p> • The charge on the capacitor 22, as described, but then the thyratron 15 is ignited, and the thyratron 21 goes out due to a negative voltage jump on the common anode resistor 25. </ p> <p> </ p> <p> 762080 </ p> <p> Ignition of the working thyratron 15 when the network connector is correctly positioned is a result of the grid – ground section being ignited: phase voltage is applied to the cathode, and a distributed capacitance relative to the ground is connected to the grid by connecting a segment of conductor 18 to the grid. < / p> <p> The switched on state of the thyratron 15 and the switched off thyratron 21 is fixed, u </ p> <p> The cathode current of the thyratron 15 flows through the section of the control electrode - the cathode of the thyratron 6 and prepares its inclusion. The inclusion is carried out by a positive half-wave network, voltage, applied to the anode of the thyristor 6 through control circuits 12 and 14 from the wire 5. </ p> <p> Turning on the thyristor b provides 20 preparation. Turning on the thyristor 7 and turning on the triacs 8 and 9, as a result of which the half-wave of the mains current flows through the load of the electric apparatus </ p> <p> 1. The other half-wave of the mains voltage is applied to the load through the open thyristor 7 and the triacs 8, 9, causing a current that flows through the load of the electric apparatus 1 nd in the opposite direction. 30 </ p> <p> A periodic change in the voltage of the control current of symmetrical triacs 8, 9 flowing through control circuit 12 ensures their two-sided CONDUCTIVITY. 35 </ p> <p> The conductivity of thyristor 7 is provided by the discharge of &quot; capacitor through a resistor and circuit: control electrode-cathode. A capacitor charge is possible if the thyristor 6 conducts 40 periodically. </ P> <p> Thus, turning on the thyristor 6 supplies the alternating voltage of the network to the load of the electrical device — 45 and 1, while its case 2 is turned on through the neutral wire 5 and the contact of the connector 3 to the grounded power network wire. </ p> <p> Using the device creates 50 technical 'effect, which consists in increasing electrical safety when pa10 </ p> <p> human bot, as well as simplification in the handling of electrical equipment due to the fact that if the network connector is turned on incorrectly, the voltage does not flow to the load, and when properly applied it goes without additional manipulations, i.e. there is no need for a person to touch elements of the device that is in the on state. </ p>

Claims (1)

Claim A device for protecting an electric device against phase voltage on a case containing a non-polarized bipolar network connector connected in series with a switch made in the form of two triacs, two anti-parallel connected thyristors in cutting the phase wire between the connector and the switch to the output of which the protected device is connected, rectifying diode and sensing element, made on two cold cathode thyratrons, the anode power circuit of which through a common resistor and rectifier the diode is connected to the neutral pole of the network connector, the cathode of the first thyratron is connected to the phase pole of the network connector, and the cathode of the second thyratron is connected to the control electrode of one of the thyristors, characterized in that, in order to increase electrical safety and ease of operation, into the anode circuit of the first and second thyratrons 1? C-chains are connected, between the grid and the anode of the first t, the iratron includes a capacitor, and a segment of the conductor is connected to the grid of the second thyratron, the capacity of which relative to the ground is sufficient for ignition of t ratrona.