SU1269055A1 - Device for checking phase alternation of three-phase network - Google Patents

Abstract

The invention can be used to control the alternation of phases when powering electrical installations, including electric motors, which prevent the reverse order of alternating the phases of a three-phase network. The purpose of the invention in A 8 o D is improving reliability and accuracy. It is achieved by increasing the sensitivity, which provides a clearer recognition of signals in the order of phase rotation. By eliminating complex devices such as thyristors and diodes, the device is simplified. If the phase is correctly sequenced, the voltage between points O and N corresponds to phase voltage and is monitored by indicator 4. In this case, the actuator can be signaled to turn on the consumer. The device contains a resistor 1, a capacitor 2 and 3, a clamp 5 ifi of the neutral wire, a line wire 6 with a leading phase, a line wire (L 7 with a lagging phase. If the phases are not correctly alternated, the executive does not receive a signal and the consumer does not turn on. 3 Il G 9 J C Q7 oo Od o h o ate ate O

Description

The invention relates to electrical engineering, and is intended to control the phase sequence of the network when powering electrical installations, including electric motors that prevent the reverse order of phase rotation of a three-phase network.

The purpose of the invention is to increase reliability and accuracy by increasing sensitivity due to a clearer difference in signals in the order of phase rotation throughout the entire voltage period of the network, as well as simplifying the device by eliminating complex devices such as thyristor and diodes.

Figure 1 presents a diagram of a device; in Fig.2 is a voltage diagram with a direct phase sequence {in Fig. 3 - the same with the reverse phase rotation of the network.

The device contains a series-connected resistor 1 and the first 2 and second 3 capacitors. one terminal of indicator 4 is connected to the common terminals of the first 2 and second 3 capacitors, and the second terminal of indicator 4 is connected to terminal 5 of the neutral wire; while the free output of the resistor 1 is connected to any linear wire 6 with a leading phase, and the free output of the second capacitor 3 is connected to a linear wire 7 with a lagging phase.

The device operates as follows.

With the correct (direct) phase sequence, the voltage between points 0 and N, where indicator 4 is connected, corresponds to the phase voltage. This is achieved by choosing the appropriate relationship between the resistance values of the chain elements. Thus, the resistance of the first capacitor taken as equal to 2 v R ⁼ -ΪΤ ^{'and the second con} d ^ensat ° F ^and h _Y 2R _ a _c? = those. where K is the resistance, re3HCTopa ^J 1.

Indicator 4 signals the presence of the correct (direct) order, the alternation of the phases of the network, while the signal can be sent to the executive body, allowing the inclusion of a starting device for the consumer to work. Figure 2 shows a vector voltage diagram explaining the presence of voltage on the indicator at a direct (correct) order of phase rotation in a three-phase network, while the voltage on the indicator is equal to the phase voltage.

If there is an incorrect (reverse) order of phase rotation, there is no signal between the indicated points 0 hN, indicator 4 indicates an incorrect (reverse) order of alternating phases of the network, there is no signal at the actuator, and it does not allow the device to turn on the consumer.

In Fig. 3, a vector diagram of the voltage diagram is shown for the reverse (wrong) phase sequence of the three-phase network, while the voltage on the indicator is zero = = V _o = 0.

Claims (1)

Fig. 1 The invention relates to electrical engineering and is intended to control the order of alternating the phases of a network when powering electrical installations, including electric motors, which prevent the reverse order of alternating the phases of a three-phase network. The purpose of the invention is to increase reliability and accuracy due to increased sensitivity due to clearer difference of signals in the order of phase alternation during the whole period of network voltage, as well as simplification of the device due to exclusion of complex devices such as thyristor and diodes. Figure 1 presents the scheme of the device; in fig. 2 is a voltage chart for direct order phase alternation {in FIG. 3 - the same, with the reverse phase rotation of the network. The device contains series-connected resistor 1 and first and second 3 capacitors ,. one output of indicator 4 is connected to the common outputs of the first 2 and second 3 capacitors, and the second output of indicator 4 to the terminal 5 of the neutral conductor; while the free output of the resistor 1 is connected to any linear wire 6 with leading phase, and the free output of the second capacitor 3 - to the linear wire 7 with a lagging phase. The device works as follows. With the correct (forward) order of phase alternation, the voltage between points O and N, where the indicator 4 is connected, corresponds to the phase voltage. This is achieved by selecting the appropriate ratio between the resistance values of the chain elements. Thus, the resistance of the first capacitor 2 is taken equal to R X, Tt of the second capacitor 3 V 2R .. with hGl-D resistance; resistor 1, indicator 4 indicates the presence of the correct (direct) order. the alternation of the phases of the network, while the signal can be fed to the executive authority, which allows the activation of the starting device for the work of the consumer. Fig. 2 shows a voltage vector diagram illustrating the presence of a voltage on the indicator in the forward (correct) order of phase alternation in a three-phase network, while the voltage on the indicator is equal to the phase voltage V ,. If the phase alternation is incorrect (reverse), the signal between the indicated points is absent, indicator 4 indicates an incorrect (reverse) phase sequence alternation, there is no signal at the actuator and it does not allow the device to turn on for the consumer to work. FIG. 3 shows a vector diagram of voltages with reverse (wrong) order of alternating phases of a three-phase network, while the voltage on the indicator is zero, Vo 0. Invention Apparatus for controlling the alternation of phases of a three-phase network containing a resistor and an indicator differing from that that, in order to increase reliability and accuracy, the first and second capacitors connected in series are inserted into it, while the free output of the second capacitor is connected to a linear wire with any phase, and the free output of the first terminal The converter is connected to a three-phase leading phase line wire through a resistor, and the indicator is connected between the neutral wire of the network and the common terminals of the first and second capacitors, and the resistance values Xg of the capacitors are selected from the ratio Xc, X where KC ' R is the resistor resistance. and, c & Fig.Z