RU2660166C9 - Device for outdoor lighting cascade network control - Google Patents

Abstract

FIELD: lighting equipment.

SUBSTANCE: invention relates to lighting equipment, in particular to a device for control cascade network of outdoor lighting. Control of network condition is carried out due to interlocks of the first contactors, both closing and breaking, the application of four relays at the end point of the cascade made it possible to create a mode block, supply of which does not depend on external factors. First of these relays does not only monitor and fix the functions of the night-time lighting contactor and, accordingly, control the operation of third and fourth relay of the mode block, but also controls the presence of two phases providing power supply of the end point end lamps. Second relay performs the function of providing the power supply of the night-time lighting contactor, and also controls the presence of the third phase of the final point of supply. When creating an emergency situation in any part of the cascade network corresponding information goes to the control panel to the operator. It is desirable to apply as first and second relays the magnetic starters of the first value of MP 11 type as the most reliable.

EFFECT: increased reliability of operation of outdoor lighting system.

1 cl, 2 dwg

Description

The invention relates to electrical engineering and can be used to control outdoor lighting networks.

USSR copyright certificates No. 1529474 of 04.16.1987 and No. 16252598 of 12.13.1988, based on the fact that the relay operates faster than the contactor, could not be used: the contactors did not meet the technical requirements. Another invention having the modes: “evening”, “night”, “morning”, “disabled”, USSR author's certificate No. 1707783 of 09.10.1989, does not “notice” the accident in the “evening” mode.

A NEW DEVICE for controlling a cascade network of outdoor lighting eliminates previous drawbacks and retains the best.

The purpose of the invention is to increase reliability.

The invention relates to electrical engineering. It contains, head 1, intermediate 2 and final 3 power points. The first contactors 4 (evening), the second contactors 5 (night) are installed on them, and only the first contactors with block contacts are installed.

At all points except the final one, the first conclusions of the coils of the second contactors 5 are connected to one terminal of the parallel and disconnecting block contacts of the first contactor 4, and the other terminal is connected in series to the output of the phase wire 11 of night illumination of the corresponding section, and at the final power point 3, the first output of the coil of the second 5 contactor is connected to one terminal of the parallel-connected make-contact block of the first contactor 4 and the make contact of the auxiliary relay 23, the other in their water is connected to the phase wire 11 of the night illumination of this section, while the relay 23 is connected to the wire 11 through the opening block contact 21 of the contactor 4, at point 3, relays 24 with contacts 27, 33, 34, relay 25 with contacts 26 29 are installed, relay 35 with contacts 28, 30, relay 36 with contact 32 and key 31. Relays 24, 25, 35, 36, key 31 form a block 37, outlined by a dotted line.

In FIG. 1 shows a diagram of a device with three power points. A device for controlling a cascade network of outdoor lighting contains a head 1, intermediate 2 and end 3 power points. At each power point, the first contactors 4 are evening, the second contactors 5 are night, and all contactors 4 have closing and opening block contacts. The main contacts 6 of the contactors 4 are connected between the terminals for connecting phase A and terminal 7 for connecting the first working wires 8.

The main contacts 9 of the contactors 5 are connected between the terminals for connecting phase C and terminal 10 for connecting the second working wires 11.

The coil of the contactor 4 of paragraph 1 is connected to the actuating point 12 of the telemechanical device connected by a communication line 13 to the control panel 14 through the control wire 15. Contact 6 of contactor 4 of item 1 is connected to the signal wire 16, the second output of which is connected to the corresponding signal output of the executive item 12. The second working wire 11 is connected by its other output to the corresponding signal output of the executive item 12 using wire 17. The coil of the contactor 5 of item 1 is connected to terminal 19 for connecting the first terminal of the parallel-connected closing and opening blocking contacts 20 and 21 of the first contactor 4, their second terminal is connected to the wire 11 of the corresponding stka lighting. The coil of the contactor 4 of paragraph 2 is connected to terminal 18 for connecting the first working wire 8 of the previous section of the lighting network. The coil of the contactor 4 of paragraph 3 is connected to a similar terminal 18 of its paragraph. The coil of the contactor 5 of item 2 is connected to terminal 19 for connecting the first terminal of the parallel and disconnecting block contacts 20 and 21 of the first contactor 4 of this section, their second terminal is connected to the wire 11 of the corresponding section of the lighting network. The coil of the contactor 5 of paragraph 3 is connected to terminal 19, for connecting a parallel-connected make contact block of the first contactor of this item and the make contact of an additional unbalance relay 23, their second output is connected to wire 11 and to the series-connected disconnect block contact of the first contactor of item 3, the second the contact of this block contact is connected to the first terminal of the coil of the additional unbalance relay 23, the second terminal of the relay coil is connected to the neutral wire.

At point 3, the mode unit 37 is installed. It includes relays 24, 25, 35, 36, key 31, relay 24 with contacts 27, 31, 32, it turns on in the presence of phases A and B, relay 25 with contacts 26, 29, relay 35 with contacts 28 and 30, relay 36 with contact 32.

In step 3, cell 20/21 is converted to 20/22, where 22 is the make contact of the unbalance relay 23, which is turned on in the night lighting mode through the block contact 21 of the disconnected contactor 4. Relay 25, with its make contact 26, supplies power to the phase wire of night lighting 11 Relay 25 is connected to phase C via a self-locking circuit: phase C, serial connection: NC 28, relay 35 in the OFF state, NC 29 of relay 25, relay coil 25, the second output of the coil is connected to the neutral wire, relay 24 is connected first with the output of its coil with terminal 7 of phase A, and the second terminal with terminal 7 of phase B. Relay 24 connects the power supply of phase C to relay coil 25 with its make contact 27. Relays 35 and 36 are connected to the neutral wire by their second leads to the coils, and the first lead the relay coil 36 is connected to the wire 11 through the opening contact 34 of the relay 24 of paragraph 3 and is blocked by its contact 32. The first output of the relay coil 35 is connected to the first output of the relay coil 36 through the making contact 33 of the relay 24. The key 31 is connected with its making contact 31 to one of its output to lane to the output terminal of the relay 35, its other output to the first output of the relay coil 36, the relay 35 is blocked by its make contact 30, receiving power from the phase night wire 11.

INCLUDING ALL LIGHTING

The signal to turn on all the illumination comes from the control panel 14 via the communication line 13 to the executive point 12 and by wire 15 to the first output of the coil of the contactor 4, the second output of the coil is connected to the neutral wire. When turned on, contactor 4 will apply voltage to the phase wire 8, which will lead to the inclusion of contactor 4 of intermediate point 2 and so on to end point 3, at the same time, a circuit will be built up to turn on the contactors 5. Turning on contactor 4 at step 3 will turn on relay 24:

phase A, contact 6, terminal 7, the first terminal of the relay coil 24,

phase B, contact 6, terminal 7 second terminal of the relay coil 24.

Turning on, relay 24 will connect relay25 in the circuit:

Phase C, pin 6, pin 7, make contact 27 of relay 24, relay coil 25. Relay 25, turned on, is blocked by the circuit:

Phase C, opening contact 28 of relay 35, which is in the off state, making contact 29 of relay 25, relay coil 25, at the same time it will supply power through its contact 26 to the night phase wire 11, contactor 5 will turn on in step 3, this will turn on the contactor 5 of the intermediate point and so on to the main power point, the contactor 5 will turn on at the head point and, through wire 17, will provide information to point 12 and via communication line 13 to the console 14 about the mode for switching on all the lighting.

INCLUDING NIGHT LIGHTING

It consists in turning off the phase of evening lighting. The signal to turn on night lighting is supplied from the control panel via communication line 13 to executive point 12 and, via line 15, is supplied to the first output of the coil of contactor 4, which releases. This leads to a de-energization of the wire 8, the release of the contactor 4 of the intermediate point 2, and so on to the final point 3, where the contactor 4 also releases. The release of the contactors is constant in time and equal to 0.03 s, at point 3 it will release relay 24, but relay 25 will remain energized, receiving power from the self-locking circuit:

phase C, serially connected opening contact 28 of relay 35, which is in the off state, making contact 29 of relay 25, which is on, and relay 25 will supply power via phase contact 26 to phase wire 11, contactor 5 of point 3 will be energized after 0.12 s. These 0.12 s include the sum of the release times of the first three contactors of the cascade, plus the response time of 0.03 s of the additional unbalance relay 23 installed on end point 3.

At the moment of operation of the contactor 5, point 3, equal to 0.05 s, 0.09 + 0.03 + 0.05 s = 0.17 s will pass, here 0.03 is the response time of the relay 23, 0.09 is the release time of the three contactors of the 4 phase of evening lighting.

For a cascade of ten nutrient points of the evening illumination phase, when switching to night mode, the time of absence of voltage on the wire of 11 points 3 when releasing the contactors 4 is 10 × 0.03 + 0.03 = 0.33 s, and the time of the appearance of voltage on the wire is 11 points 1 will be 10 × 0.05 = 0.5 s, that is, after a period of time equal to the sum of time 0.33 + 0.5 = 0.83 s.

In paragraph 3, releasing the relay 24 with its opening contact 34 will connect the relay 36 to the phase wire 11, the relay 36 will operate and is blocked by its contact 32.

Information on the accident will arrive at the executive point 12 via the communication line 13 to the control panel 14 within 0.83 s, indicating the switching of the cascade of ten nutrition points to the night mode of operation.

MORNING MODE

The signal to turn on the morning mode comes from the control panel 14 via the communication line 13 to the executive point 12 and through the wire 15 to the coil of the contactor 4. Turning on, the contactor 4 will supply voltage to the lighting network and through the phase wire 8 the voltage will be supplied to the coil of the contactor 4 of point 2. The contactor 4 of the intermediate point will turn on and so on up to point 3. Having turned on, the contactor 4 of point 3 will cause the relay 24 to turn on, which, by its contact 33, will connect the relay 35 to the first output of the relay coil 36, which is energized. Relay 35 will operate and, with its opening 28 contact, will break the self-locking circuit of relay 25, but will not change its on state, since it will receive power through the closing contact 27 of relay 24, which is in the on state.

Relay 35 will receive power through the self-locking circuit: phase C, phase wire 11, make contact 30 of relay 35, which is in the on state, the first output of relay coil 35. When contactors 4 are turned on, contactors 5 will receive power to their coil through make contact blocks contactors 4 of the corresponding section, through wires 16 and 17 to the control panel 14 via communication line 13, through the executive point 12 information will be received on the inclusion of the morning mode.

DISABLING LIGHTING

The signal to turn off the lighting comes from the control panel 14 via communication line 13 and through the executive point 12 via wire 15 it goes to the coil of contactor 4 of point 1. Having disconnected, contactor 4 will de-energize the phase wire 8, release contactor 4 of intermediate point 2 and so on to point 3 .

In step 3, it will release contactor 4, relay 24 will turn off, and then relay 25, since the self-locking circuit of relay 25 will be broken by contact 28 of relay 35, when it is turned on, turning off relay 25 will disconnect the phase wire for night lighting 11 and all contactors 5 will release , and the executive point 12 through the wire 17 will receive a signal to turn off the lighting, and then through the communication line 13 will go to the console 14.

MODE: ENABLE ALL LIGHTING AND DISABLE

In the mode unit 37, turn on the key 31, from the remote control 14 a signal is sent to turn on all the lighting, it will go through the communication line 13 to the executive point 12 and through the wire 15 to the coil of the contactor 4 of paragraph 1. Turning on, the contactor 4 supplies voltage to the phase wire 8, which leads to the inclusion of contactor 4 of clause 2, etc., in clause 3, contactor 4 will turn on, relay 24 will turn on, and then relay 25, it will be blocked by connecting to phase C with a chain of series-connected contacts of its 29 and 28 relays 35. At the same time, relay 25 feeds from C to the wire 11 of the night illumination, the contactors 5 of the cascade will turn on, and on the remote control 14 there will be information about the inclusion of all the lighting.

DISABLING LIGHTING

The signal to turn off the lighting will come from the remote control 14 via the communication line 13 to the executive point 12 and through the wire 15 to the coil of the contactor 4, point 1. Having disconnected, the contactor 4 de-energizes the phase wire 8, then the contactor 4 of intermediate point 2, etc. to the end point 3. The contactor 4 of paragraph 3, having disconnected, causes the relay 24 to trip, which by its contact 34 connects the relay 36 to the phase wire 11, which is energized. Turning on, relay 36 is blocked by its terminal 32 in the circuit:

phase wire 11, make contact 32 of relay 36, relay coil 36. Since the key 31 is turned on, it will supply voltage to the relay coil 35, and with its contact 28 breaks the relay 25 self-locking circuit, which leads to shutdown of relay 25 and to deenergizing of the phase wire 11, the contactors 5 of the cascade are released, and on the remote control 14 there will be information about the mode of completely disconnecting the network.

Technical description of the time diagram (shown in Fig. 2) when switching the network from the "evening" to "night" mode

The corresponding signal will be received from the control panel 14 through the communication line 13 to the executive 12 point, and the wire 15 will be de-energized, the contactor 4 of point 1 will turn off (the time for switching off the contactors 4 is 0.03 s), which leads to the disconnection of contactors 4 at points 2 and 3 At point 3, relay 24 will be released, but relay 25 will be energized due to the self-locking circuit, and relay 25 will supply power to phase 11 wire through its contact 26, contactor 5 of step 3 will be energized after 0.12 s. These 0.12 s include the sum of the release times of the first three 4 contactors, 0.03 × 3 = 0.09 s plus the response time of relay 23 equal to 0.03 s, 0.09 + 0.03 = 0.12 s. Contactor 5 (operation 0.05 s) will work, and the second 5 contactors of points 2 and 1 will turn on, 0.05 × 3 = 0.15 s. The total time for switching off the lighting during switching is 0.12 + 0.15 = 0.27 s. For a standard cascade of ten nutrient points, the phase of evening lighting when switching to night mode, item 3 when releasing the contactors 4 will be 10 × 0.03 + 0.03 = 0.33 s, and the time of voltage on the 11 wire of point 1 will be 10 × 0.05 = 0.5 s. The total time to turn off the lighting when switching a cascade of 10 power points will be 0.33 + 0.5 = 0.83 s.

Moreover, in accordance with FIG. 1 at step 3 of relay 24 of block 37, having released, with its opening contact 34 it will connect relay 36 to phase 11 wire, relay 36 will operate and be blocked by its contact 32.

Information on the accident will be received at executive point 12 on the 17th wire, and it will be transmitted via the communication line 13 to the control panel 14. This signal with a duration of 0.83 s will indicate that the cascade of ten nutrient points has switched to night mode.

Claims (1)

A device for controlling a cascade network of outdoor lighting, contains a head, intermediate and end points, two contactors are installed at all power points, and all first contactors must have closing and opening block contacts, the main contacts of the first contactors of all power points are connected between the terminals for connection one of the network phases and terminals for connecting the first working wires of the corresponding section of the lighting network, the main contacts of the second contactors of all points are connected between the terminals To connect a different phase of the network and terminals for connecting the second working wires of the previous section of the lighting network, the head power point is equipped with a terminal for connecting the first control wire, which is connected to one of the terminals of the coil of the first contactor, while one of the terminals of the coil of the first contactor of each power point, in addition to the main one, it is connected with the terminals for connecting the first working wires of the previous section of the lighting network, and one of the terminals of the coil of the second contactor of each power point, except for the terminal point NKTA is connected to the parallel opening and closing block contacts of the first contactor, in each section their other output is connected to the terminal for connecting the second working wires of the corresponding section of the lighting network, and at the final point one of the terminals of the coil of the second contactor is connected to the second working wire through the closing contact block of the first contactor and through the closing contact of the additional relay connected to the second working wire using the opening block contact of the first contactor, Moreover, four relays are installed at the end point in the unit, which makes it possible to make their power supply independent of external factors, the coil of the first one is connected to the main terminal of one phase of the first contactor, the second terminal of the relay coil is connected to the main terminal of another phase of the first contactor , and the coil of the second relay with one of its outputs is connected to the main terminal of the third phase of the first contactor, through the make contact of the first relay, in addition, through a series-connected circuit consisting of a solid-state make contact, the second contact of which is connected to the first make contact of the third relay, the second contact of which is connected directly to the third phase, which through the make contact of the second relay enters the second working wire, the second output of the second relay coil is connected to the neutral wire, the third and fourth coils the relays are connected by their second output to the neutral wire, and the first output of the third relay coil is connected to the first output of the fourth relay coil through the make contact the first relay and the second working wire through its make contact, in addition, between the first terminals of the coils of the third and fourth relay, a key with a make contact is connected, while the first output of the fourth relay coil is connected to the second working wire through the make contact of the first relay and through its make contact, and the second conclusions of the coils of contactors and relays, with the exception of the coil of the first relay, are connected to the neutral wire, characterized in that in order to increase reliability at the final power point of the second The live wire supplies power to the second contactor through the closing block contact of the first contactor, the second contact of this block contact is connected to the first terminal of the coil of the second contactor, the second terminal of the coil of which is connected to the neutral wire, and the first terminal of the coil of the second contactor is connected to the closing contact of the unbalance relay , the second contact of which is connected to the second working wire, and the imbalance relay is connected to the second working wire using the opening block contact of the first contactor, and between the first outputs of the coils of the third and fourth relays of the mode unit, a key is connected with its make contact, and one contact of this key is connected to the first output of the coil of the third relay, and the second contact is connected to the first output of the coil of the fourth relay, and at the intermediate point the power to the coil of the second contactor is supplied from the second working wire using parallel connected closing and opening block contacts of the first contactor of the corresponding section, they are connected with one output s with the second wire, and the other with the first output of the coil of the second contactor, the second output of the coil of which is connected to the neutral wire, at the head point, as well as at the intermediate point, the closing and opening block contacts of the first contactor are connected in parallel, they are one with their output connected to the first output of the coil of the second contactor, and the other to the second acting phase working wire, the second output of the coil of the second contactor is connected to the neutral wire.

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