PL85243B1 - - Google Patents

Description

The subject of the invention is a protection device to prevent excessive growth or decline voltage and lighting control and the doors of the wagons.

Previously known security solutions against excessive voltage rise or loss Bodies are based on continuous measure comparison voltages with a reference voltage that can be to be e.g. the voltage of a zener diode.

As soon as the measured voltage exceeds the reference voltage, the device switches their contacts, causing the appropriate switching in external circuits. Previous solutions bonds, acting on the above principle, for example they are used to work with too high voltages feed cuts are not accurate enough over a wide temperature range as well as not they ensure galvanic separation of the circuit elements measurement and executive, which is necessary in some applications.

Known solutions for control devices lighting and closing car doors are based on the use of electrical relays thromagnetic, hence they have 25 with a whole series of flaws inherent in them kom, namely: large dimensions, large weight, high power consumption, low speed action, small sensitivity and accuracy as well sensitive to vibrations and shocks. thirty 2 The object of the invention is to avoid the disadvantages described and inconvenience, and the technical task - to develop universal device based on the principle of comparing the measured voltage and the voltage carrying, to protect against excessive increase or loss of voltage in electrical systems and with galvanically separated circuits with measuring and working waters to the control unit lighting and closing the doors new moon.

This aim was achieved in the device according to the inventions the chair, equipped with a measuring element Tricky flip-flop made e.g. of the coating, having an input connected to the through the zener diode two series connected connections tenciometers, one of which is short-circuited with at the output relay, connecting a member measuring device is connected to the separator by in the LC generator system, the secondary of which the winding is connected to the input of the element made on a thick-heating element system, consisting of the NOR system and amplifier, between which the transitions are connected stor as a diode and capacitor, while do the output of the delay member is a connected member executive made as an amplifier in tech thick film with an output relay dim. Secondary devices in the second version the winding of the LC generator is connected to the front the starting point, in the third version it is 852433 the measuring device is connected to the input of the delay element act, while in the fourth version, measuring instrument is connected directly to the device output nu.

According to the invention, the relay enables six rokim, the scope of regulation of the starting voltage and return. Its measuring member has the meaning total resistance, therefore to a small extent it is charged by the source controlling it. Galva separation number of measuring and actuating elements allows you to match the relay to the circuits remote control of lights and shaft doors gon. The relay can work in a wide range temperature range, maintaining high stability of its own parameters. It has a small size, small weight, low power consumption, insensitive to vibrations and shocks.

The subject of the invention is shown in the example as shown in the drawing block diagram of the most complex transformer kaznika. The device consists of four parts new moon: measuring P, separating S, time lag Z and executive W. The measuring member consists of: Ei flip-flop built on the basis of the element thick film E100-C1H, and a resistance divider (resistor Rx and potentiometers R2 and R3) fields connected via a Zener diode Dx with a flip-flop.

The output of the flip-flop is connected to the se¬ evaporating S, in which the Col- pitts G. Secondary winding Z2 of transformer Tr generator is connected to the element input speed Z, in which the thick element works layered E100-03H. Capacitor C and resistance R4 nickers indicate the amount of the delay time. System NOR is used for the rapid discharge of condensate path C, while the Zener voltage connects the emitter - transistor base T: defines the threshold Amplifier W ^ Output of the Wi-field amplifier is connected with the input of the W executive member, which works as an amplifier W2 element thick-layer EP-12H.

In the de-energized state of the relay, that is when the voltage measured is less than the voltage threshold operation of the measuring element P, the diode D1 works in the range of voltages lower than its voltage Zene¬ ra. The first transistor of the Ex trigger is turned on woven, the second saturated. Generator G is not working, in connection with what on its secondary winding Z2 there is no tension. NOR circuit is clogged, LED Reverse biasing D2 and capacitor C is charged to approximately equal voltage supply voltage. Junction emitter - base tran¬ The reverse biased switch T1 works in a surge end, transistors Wx amplifiers are in saturation and member state the output doesn't work.

As soon as the measured voltage exceeds threshold of the measurement element P, that is when the voltage across the diode D: exceeds the value its zener voltage, through the diode D: starts flowing electricity Ex flip-flop changes its state, ge¬ the nerator starts to work and on its winding on the secondary side, there is a tension that is released application and filtration introduces the transistor of the circuit NOR into saturation. Capacitor C discharging 85243 4 is quickly available through the D2 diode, the emitter junction - the base of the transistor T1 ceases to conduct, amplifies The Wx switch is clogged and the output amplifier works W2 bias by energizing the intermediate relay P, which switches its contacts.

The return to the inactivated state occurs after the voltage drops below the measured voltage system return. The generator stops working, NOR transistor clogs and starts and the charging of the capacitor C through the resistor R4 to the Zener voltage it connects the emitter-base transistor ra Tx. The current flowing through this junction violently increases, introducing the transistors of the amplifier W] _ into saturation. W2 amplifier clogs and the intermediate relay switches its contacts in the rest position.

For the first device variant operation and return of the relay to its initial state this is done without delay, because the The transformer path C Tr is directly attributable to connected to input F of the W executive member, with the omission of the delay member Z. In the second A variant of the relay, output A of the measuring element P is connected to point D of the system NOR, skipping the separating member S. Operation The casting of the relay is the same as the devices basic. In the third variant of the device the output A of the measuring element is connected to input F of the output element, with the bypass separating and delaying members. Operation and after the return of the relay to the initial state takes place without delay.

Claims (4)

Patent claims 1. A device for protection against excessive voltage increase or loss and for controlling the lighting and the doors of the cars, consisting of 40 switching and generating systems, amplifiers and intermediate transmitters. characterized in that the measuring member (P) containing the trigger (Ei) has at its input two control potentiometers (R2 and R3) connected in series via the Zener diode (Dx), one of which, for example (R3) is closed by the contact (St) of the output relay (Pwy), and the output (A) of the measuring element (P) is connected to the input (B) of the separator (S), whose point (C) 50 of the secondary winding ( Z2) is connected to the input (D) of the delay member (Z) consisting of. from the circuit (NOR) and the amplifier, between which the transistor (T ^ as a zener diode and capacitor (C) are connected, while the input (F) of the output stage (W) is connected to the output (E) 55 of the delay element (Z) with an intermediate relay (Pwy). 2. A device protecting against excessive voltage increase or loss and controlling the lighting and doors of wagons, consisting of flip-flops, generators, amplifiers and intermediate transmitters, characterized by that the measuring unit (P) the flip-flop (Ex) has at its input two control potentiometers (R2 and R3) connected in series 85243 connected via a zener diode (D {), one of which, for example (R3), is closed with the contact (St) of the output relay ( P), and the output (A) of the measuring element (P) is connected to the input (B) of the separator (S), the point (C) of the secondary winding (Z2) of which is connected directly to the input (F) of the output element. go (W) with an intermediate relay (P.). 3. A device protecting against excessive increase or loss of voltage and controlling the lighting and doors of wagons, consisting of trigger systems, amplifiers and intermediate relays, characterized by the fact that a measuring unit (P) containing a flip-flop (E ^ ma at the input is connected through a Zener diode ( Dx) two series-connected control potentiometers (R2 and R3), one of which, for example (R3), is closed with the contact (St) of the output relay (Pwy) and the output (A) of the measuring element (P) is connected to the input (D) of the delayed element (Z) consisting of the circuit (NOR) and the amplifier, between which the transistor (T :) is connected as a zener diode, and the capacitor (C), and to the output (E) the delay element (Z) is connected to the input (F) of the output element (W) with an intermediate relay (Pwv). 4. A device protecting against excessive voltage increase or loss and controlling the lighting and doors of wagons, consisting of trigger systems, amplifiers and intermediate relays, characterized in that the measuring unit (P) containing the flip-flop (E {) has an input connected through a Zener diode (D |) two control potentiometers connected in series (R2 and R3), one of which, for example (R3), is closed with a contact (St) of the output relay (Pwy), while the output (A) of the measuring element (P ) is connected directly to the input (F) of the output stage (W) with an intermediate relay (P). r at 1 ° L \ r \ N ™ l * '* l Vf S ^ *