SU1709463A1 - Device for automatic start of emergency source of electric power - Google Patents

Abstract

The invention relates to power engineering and is intended for the automatic start-up of an emergency source of electricity for an autonomous power station, for example, a ship-based power source. The purpose of the invention is to provide a continuous supply of electricity to consumers. When the technical condition of any source of electrical energy deviates beyond the permissible limits from the output of the corresponding block 2 j-2n, a signal arrives at the first input of the element And 3i-3n. The second inputs of the elements And 3i-3n also receives a signal from the work sensor 4i-4n. The signal from the output of the element OR 5 is fed to the input of the unit, 6 start-up of the emergency source of electricity, which ensures the launch of the emergency source of electricity. 2 il. ^^ ^ ё

Description

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SA) The invention relates to electric power industry and is intended to automatically start an emergency source of electric power of an autonomous power station, such as a ship. The aim of the invention is to provide in an emergency situation a continuous supply of electricity to consumers. The goal is achieved by the fact that the technical condition control units, the AND elements, the operation sensors of the electric power sources, the OR element and the logic block, the output signal of which exists only if when on one of its inputs there is a logical unit signal, and on the others there is a logical zero signal, and the outputs of the control units of the technical state are connected to n The primary inputs of the corresponding AND elements, the outputs of which are connected to the corresponding second inputs of the OR element, the outputs of the sensors for the operation of electric power sources are connected to the corresponding inputs of the logic unit whose output is connected to the second inputs of the AND elements, the input of the network voltage monitoring unit , the output of which is connected to the input of the start block of the emergency source of electricity. Figure 1 presents the structural diagram of the proposed device: figure 2 block diagram of the logic unit. The device for automatic start of the emergency source of electric power (Fig. 1) contains a network voltage monitoring unit 1, by the number of main sources of electric power, the 2i2p technical condition control units, the AND 3t, ..., 3n elements, the 4i4p sensors of the operation of the electric power sources, the OR element 5, the start-up unit 6 of the emergency power source and the logical unit 7. The output of the network voltage control unit 1 is connected to the first input of the element OR 5. The outputs of the technical condition control units 2i, ..., 2n are connected to the first inputs of the corresponding elec ENTOV and 3i, ..., 3n, whose outputs are connected to respective second inputs of the OR element 5. The output 5 is connected to OR b .bloka start emergency source ktroenergii e. The outputs of the sensors 4i, ..., 4n of operation of the sources of electricity are connected to the corresponding inputs of the logic unit 7, the output of which is connected to the second inputs of the I 3iZp elements. Technical condition control blocks are known functional elements that form a signal of a logical unit if the technical condition of the corresponding main source of electricity is out of tolerance (deviation of one of the parameters characterizing the technical state of the source of electricity) and the signal zero if the main source of electricity disabled or working properly. The AND elements and the OR element are known; the first logical elements are used for their intended purpose. Electricity source operation sensors are functional blocks, the outputs of which receive a logical unit signal, if the corresponding source of electrical power is in operation, and a logical zero signal, if the latter is disconnected (known generator circuit breakers can be used as these blocks, for example - contacts of the automatic switch, the relay of control of speed of the diesel, etc.). A logical block generates a signal of a logical unit at its output only if there is a signal of a logical unit at one of its inputs, and the other Hia of its inputs is a signal of a logical zero. This element relates to digital combinational machines, for KOTOpbix, the method of synthesis of their structure by is known. content description of the function. The logical block (for the case when the number of electric power sources of the main power plant is four, i.e., p 4) contains the first 8, second 9, third 10 and fourth 11 elements NOT, first 12, second 13, third 14 and fourth 15 elements And element OR 16. The input of the first element NOT 8 is connected to the first input of the logic unit 7 and the first input of the first element AND 12 The input of the second element NOT 9 is connected to the second input of the logical unit 7 and the second input of the second element And 13. The input of the third element is NOT 10 connected to the third input of the logic unit 7 and the third the input of the third element And 14. The input of the fourth element NOT 11 is connected to the fourth input of the logic unit 7 and the fourth input of the fourth element And 15. The output of the first element NOT 8 is connected to the first inputs of the second 13, third 14 and fourth 15 elements I. The output of the second element is HE 9 connected to the second inputs of the first 12, third 14 and fourth 1y elements I. The output of the third element NOT 10 is connected to the third inputs of the first 12,

the second 13 and fourth 15 elements And, the Output of the fourth element NOT 11 is connected to the fourth inputs of the first 12, second 13 and third 14 elements I.

The outputs of the first 12, second 13, / third 14 and fourth 15 elements And connected with the first, second, third and fourth inputs of the element OR 16, respectively. The output of the element OR 16 is connected to the output of the logic unit 7.

Logical block 7 works as follows.

The signals from the 4i-4n sensors of the work of the sources of electrical energy go to the first, second, third and fourth inputs of the logic element 7 (Fig. 1), and if the 1st source of electrical energy is working, then the output of the corresponding 1st sensor 4i is generated logical unit, otherwise - a logical zero signal.

If there is only one first source of electricity in the power plant, then the first input of logic block 7 receives a signal of a logical unit, and its second, third and fourth inputs receive signals of a logical zero.

The signal of the logical unit is fed to the input of the first element is NOT 8 and the first input of the first element And 12 (figure 2).

The signals of logical zero from the second, third and fourth part of logical block 7 arrive at the second input of the second element And 13, the third input of the third element And 14 and the fourth input of the fourth element And 15, respectively.

From the output of the second element NOT 9, the signal of the logical unit goes to the second input of the first element I 12, from the output of the third element NOT 10 the signal of the logical unit goes to the third input of the first element 12, from the output of the fourth element NOT 11 the signal of the logical unit goes to the fourth input of the first element AND 12. Since all four inputs of the first element AND 12 contain signals of a logical unit, a signal of a logical unit appears at its output, which arrives at the first input of the element OR 16, the output of which is a signal cash logical units received at the output of logic block 7,

Since at least one of the inputs of the second 13, third 14 and fourth 15 elements of And receives the signal of logical zero, the output of the corresponding elements has a signal of logical zero.

If the power plant is not one source of electricity, and two (first and second), the signal of the logical unit is supplied to the second input of the logical unit 7.,

The signal of the logical unit from the second input of the logic unit 7 is fed to the second input of the second element AND 13 and to the input of the second element NOT 9, the output of which has a logical zero signal, which is fed to the input of the first element And 12.

The logical zero signal from the output of the first element is NOT 8 is fed to the first input of the second element And 13.

Consequently, if at least one of the inputs 6 of the first 12, second 13, third 14 and fourth 15 elements is received, the logical zero signal arrives; then, at the output of the corresponding elements, the signals of a logical zero appear, which arrive at the corresponding inputs of the element OR 16, and at its output a signal of a logical zero appears.

Thus, when a logical unit signal arrives at only one of the four inputs of logic block 7 (all other inputs of the logical block are logical zeros), a logical unit signal appears at its output, and when signals of a logical unit are received at several inputs of the logical block 7 a logical zero signal appears at its output.

The device for automatic start of the emergency source of electricity (Fig. 1) works as follows.

When only one of the 1st source of electricity (the rest are disabled) at the outputs of the 1st sensor 4 | the work of the latter appears in a logical unit, and at the outputs of the others - a signal of logical zero.

This information is fed to the inputs of the logic unit 7, and at its output a signal of a logical unit appears, which is fed to the second inputs of the And 3i, ..., 3n elements.

At the output of the network voltage control unit 1, a signal of the long zero (the network voltage is within the specified range) is detected, which is fed to the first input of the element OR 5.

At the outputs of the control units

of the technical state, the signals of the logical zero are recorded, which arrive at the first inputs of the corresponding elements AND 3i, ..., 3n, at the outputs of which appear the signals of the logical zero arriving at the second inputs of the element OR 5.

Since all the inputs of the element OR 5 receive logical zero signals, its

The output appears logical zero, which is fed to the input of the block 6 start emergency power source, and the emergency source of electricity does not start.

If the technical condition of the 1st electric power source deviates beyond the permissible limits (for example, during operation of the vessel, the diesel engine oil temperature exceeds 70 ° C) at the output of the 1st unit 2 | control of the technical state of the signal appears a logical unit, which is fed to the first input of the 1st element, and

Since the second inputs of the elements And 3i, ..., 3n receive signals of a logical unit, a signal of a logical unit is generated at both inputs of the second element, And 3i, therefore, a signal of a logical unit appears at its output, which arrives at the second input element OR 5.

At the output of the element OR 5, a signal of a logical unit appears, which is fed to the input of the emergency power source start unit 6, which ensures the start of the emergency power source.

When several sources of electricity are operating, the signal of a logical unit is fixed at the corresponding inputs of logic unit 7, and at its output is a signal of logical zero, which is fed to the second inputs of logic elements AND 3iSp

and blocks the start of the emergency source of electricity in the event of a deviation of the technical state of one of the operating sources of electricity beyond permissible limits.

In the event of an accident at the main power station (fire, flooding, etc.), the mains voltage disappears and the output of block 1 of the mains voltage control generates a signal of a logical unit which is fed to the first input of the element OR 5, at the output of which a logical signal appears units coming into the input of the start-up unit 6 of the emergency source of electrical power, and the emergency source is started.

Claims (1)

Invention Formula  A device for automatically starting an emergency source of electrical energy, comprising a network voltage control unit and a starting unit for an emergency source of electrical energy, characterized in that, in order to ensure a continuous supply of electricity to consumers, the device is additionally entered by number The 20 main sources of electric power are the technical condition control units, the AND elements, the sensors for the operation of the electric power sources, the OR element and the logic block, the output of which exists only when a signal of a logical unit is present at one of its inputs, and a logical zero signal at the others. , wherein the outputs of the technical condition control units are connected to the first inputs 30 corresponding elements AND, the outputs of which are connected to the corresponding second inputs of the OR element, the outputs of the sensors of the electric energy sources are connected to the corresponding inputs of the logic unit, the output of which is connected to the second inputs of the AND elements, the output of the network voltage control unit connected to the first input of the OR element, input which is connected to the input of the start block 40 emergency source of electricity. 12 ten 1U 15 Shig2