PL126019B2 - Method of remote pulse monitoring of measurements of physical quantities of electric energy - Google Patents

Description

The subject of the invention is a method of telepulse control of measurements of physical quantities, especially electric energy. The use of the method of remote transmission of signals and control of measured values by means of radio or telephone communication is particularly important in unmanned workplaces, in endangered places and in particularly important systems. There are methods of measuring electricity, for example from the Polish notification P.203 094 The measurement in a known method consists in the use of electric energy meters and specially built impulse lines and power indicators. The aim of the invention is to use the commonly used means of radio or telephone communication to transmit and convert the measured physical quantity into acoustic pulses proportional to it. This goal was fully achieved by converting the pulses from a size meter into acoustic pulses. Acoustic impulses, after amplification, are sent to the impulse transmitter - located near the telephone set's microphone. In a known manner, the acoustic signal is transmitted through the telephone exchange to the subscriber's telephone. The subscriber's handset is coupled to a microphone sensor, which transmits an acoustic impulse of a given frequency to an amplifier that converts acoustic impulses into an electrical signal - recorded by a meter. The actuation of the pulse transmitter allows the handset to be lifted - caused by an electromagnet that switches itself on automatically after dialing the telephone number of the telephone installed at the measuring point. This actuation is controlled by a control unit which also signals the time to start the actual measurement. This solution is characterized by great versatility and reliability in the control of any kind of measuring pulses, for example magnetic, electric, light and mechanical. At the same time, there is no need to make special impulse lines, which, in the conditions of considerable distances and branching of the system, makes the control method simple and cheap. The subject of the invention is illustrated in an exemplary system in the drawing, which shows a block diagram of a telepulse electrical power measurement system. Electric energy meter 126 019 LE is connected to the pulse amplifier Wi, which converts the measured power into acoustic pulses through the Ni transmitter. Acoustic pulses with a frequency proportional to the measured power are given by the microphone M of the telephone T and the telephone exchange CT to the telephone of the subscriber Tn. The receiver S of the subscriber's telephone Tn cooperates with the microphone sensor Mi, which transmits the acoustic impulse to the amplifier WA, and after converting the acoustic impulses into electric, they go to the meter Li recording the measurement in output units. The method is used to dial the telephone number of the T telephone from the telephone set Tn subscriber. Then the control unit St of the T phone automatically starts the measurement cycle by picking up the M-S handset, measuring the exposure time of the measurement and sending a separate sound signal to the S receiver of any telephone Tn subscriber, thus indicating the moment of starting the measurement. Acoustic pulses with a specific frequency are proportional to the amount of power measured by the LE meter and are transmitted until the automatic interruption of transmission and the shutdown of the system by the control unit. in which the impulses are obtained from a quantity meter, characterized in that the measuring impulse is converted into an acoustic impulse by the impulse amplifier (Wi) and the impulse transmitter (Ni), transmitted to the telephone set (T) by the telephone exchange (CT) supplied to the telephone set subscriber (Tn), where the microphone sensor (Mi) cooperating with the pulse amplifier (WA) converts acoustic pulses into pulses proportional to the frequency of acoustic pulses, but expressed in units of the measured quantity, and records them by a counter (Li). The method according to claim 1, characterized in that the activation of the pulse transmitter (Ni) takes place after selecting the telephone number (T) from the subscriber's telephone (Tn), which causes the automatic lifting of the telephone handset (M-S) of the telephone (T) by means of an electromagnet armature controlled from the adapter (St). 3. The method according to p. A method according to claim 1 or 2, characterized in that the commencement of the actual measurement is signaled by a separate acoustic signal transmitted to the receiver (S) of the subscriber's telephone (Tn). 126 019 H kW ~ \ i e -— i er i— * i 1 PL

Claims (3)

Claims 1. A method of telepulse control of measurements of physical quantities, especially of electric energy, in which the pulses are obtained from a quantity meter, characterized in that the measuring pulse is converted into an acoustic pulse by a pulse amplifier (Wi) and a pulse transmitter (Ni), transmitted to the telephone set (T) by the telephone exchange (CT) fed to the subscriber's telephone set (Tn) where the microphone sensor (Mi) cooperating with the pulse amplifier (WA) converts acoustic pulses into pulses proportional to the frequency of acoustic pulses, but expressed in units of the measured value and recorded by the numerator (Li) 2. The method according to p. The method according to claim 1, characterized in that the activation of the pulse transmitter (Ni) takes place after selecting the telephone number (T) from the subscriber's telephone (Tn), which causes the automatic lifting of the telephone handset (M-S) of the telephone (T) by means of an electromagnet armature controlled from the adapter (St). 3. The method according to p. A method according to claim 1 or 2, characterized in that the commencement of the actual measurement is signaled by a separate acoustic signal transmitted to the receiver (S) of the subscriber's telephone (Tn). 126 019 H kW ~ \ i e -— i er i— * i 1 PL