CN111800926A - Lighting power supply system and method between E-HOUSE indoor equipment - Google Patents

Abstract

The invention provides a lighting power supply system and a method between E-HOUSE indoor equipment, which comprises a power supply unit, a normal lighting system and an emergency lighting system; the power supply unit comprises an emergency distribution board, a transformer and a distribution box; the normal lighting system comprises a lighting loop connected with the emergency distribution board, and the lighting loop comprises a CONDULET BOX, a switch and a lamp; the emergency lighting system comprises a CONDULET BOX and an escape lamp with a battery; the emergency distribution board is directly utilized to supply power to a normal lighting system between the equipment, and the normal lighting system provides the normal illumination requirements of the ground and the equipment operation surface; when the power supply unit is in fault and power failure, the emergency lighting system provides the lowest illumination requirement in an emergency state for the equipment room; the system is simplified and the cost is saved while the basic lighting requirement of the equipment room is met.

Description

Lighting power supply system and method between E-HOUSE indoor equipment

Technical Field

The invention relates to the field of illumination power supply, in particular to an illumination power supply system and method between E-HOUSE indoor equipment.

Background

At present, the conventional design of indoor illumination is a double-path redundant power supply mode of a normal illumination distribution box and an emergency illumination distribution box, and after the double-path power supply is lost, the basic illumination after the power loss is ensured by adopting emergency illumination with a battery or adopting a MINI-INVERTER mode to supply power to the normal illumination. Because the basic illumination requirements of the ground, the equipment operation surface and the escape channel after the main power is lost are provided only when the E-HOUSE indoor equipment room is overhauled, the existing design is actually relatively complex and the cost is higher.

Disclosure of Invention

Aiming at the technical problem, the invention provides an illumination power supply system and method between E-HOUSE indoor equipment.

A lighting power supply system between E-HOUSE indoor equipment comprises a power supply unit, a normal lighting system and an emergency lighting system; the power supply unit comprises an emergency distribution board, a transformer and a distribution box, wherein the transformer and the distribution box are used for supplying power to the emergency distribution board; the normal lighting system comprises a lighting loop connected with the emergency distribution board, wherein the lighting loop comprises a CONDULETBOX, a switch and a lamp; the emergency lighting system comprises a CONDULET BOX and an escape lamp with a battery;

when the power supply unit supplies power normally, the normal lighting system provides the normal illumination requirements of the ground and the equipment operation surface; when the power supply unit is in fault and power failure, the emergency lighting system provides the lowest illumination requirement in an emergency state.

Preferably, the number of the lighting circuits is two, the two lighting circuits are jointly controlled by 2-3 triple switches, and the number of the lamps installed on each lighting circuit is the same.

Preferably, when the power supply unit fails and is powered off, the escape lamp can continuously illuminate for 90 min.

Preferably, the normal lighting system provides an average illumination of 200 LUX.

Preferably, the emergency lighting system provides an average illumination of 10LUX and a minimum illumination of 1 LUX.

A lighting power supply method for E-HOUSE indoor equipment room mainly comprises the following steps:

1) simulating the number, arrangement and illumination angle of normal lighting lamps in the equipment room by using illumination calculation software, and repeatedly debugging until the average illumination of the ground and the equipment operation surface is ensured to be 200 LUX;

2) simulating the number, arrangement and irradiation angle of escape lamps in the equipment room by using illumination calculation software, and repeatedly debugging until the average illumination of an escape passage in an emergency state is 10LUX and the minimum illumination is 1 LUX;

3) installing a normal lighting system according to the distribution condition of the normal lighting lamps simulated in the step 1), and supplying power to the normal lighting system by using an emergency distribution board;

4) and installing an emergency lighting system according to the distribution condition of the escape lamps simulated in the step 2), and ensuring that the escape lamps can continuously illuminate for 90min after the emergency distribution board is powered off.

Preferably, the power of the normal lighting lamp simulated in step 1) is 52W.

Preferably, the power of the escape lamp simulated in the step 2) is 6W.

The invention has the beneficial effects that:

1. the emergency distribution board is directly utilized to supply power to a normal lighting system between the equipment, and the normal lighting system provides the normal illumination requirements of the ground and the equipment operation surface; when the power supply unit is in fault and power failure, the emergency lighting system provides the lowest illumination requirement in an emergency state for the equipment room; the system is simplified and the cost is saved while the basic lighting requirement of the equipment room is met.

2. The lighting circuits are designed to be two, so that the power loss of the whole module caused by the fault of a single circuit is avoided, meanwhile, the lamps with the same number are arranged on each lighting circuit, the load balance is ensured, and the stability of a normal lighting system is effectively ensured.

3. Illumination distribution conditions in the equipment room are simulated by using the illumination calculation software, loads are reasonably distributed according to simulation results, and electricity is taken from the emergency distribution board on the premise of meeting basic illumination requirements, so that the system is simplified, and the illumination cost is saved.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of a lighting power supply system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by those skilled in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

As shown in fig. 1, a lighting power supply system for an E-HOUSE indoor equipment room comprises a power supply unit, a normal lighting system and an emergency lighting system. The power supply unit comprises an emergency distribution board, and a transformer and a distribution box which are used for supplying power to the emergency distribution board.

The normal lighting system comprises two lighting circuits connected with the emergency distribution board, wherein each lighting circuit comprises a CONDULET BOX, a switch and a lamp. Each lighting loop is jointly controlled by 2-3 triple switches, and lamps installed on the two lighting loops are the same in number, so that load balance is guaranteed. Meanwhile, due to the design of the two lighting loops, the power loss of the whole module caused by the fault of a single loop can be avoided, and the stability of a normal lighting system is effectively ensured. When the power supply unit supplies power normally, the normal lighting system provides the normal illumination requirement (average illumination 200LUX) of the ground and the operation surface of the equipment between the equipment.

The emergency lighting system comprises a CONDULET BOX and an escape lamp with a battery. When the power supply unit fails and is powered off, the emergency lighting system can guarantee that the escape lamp can continuously illuminate for 90min under the condition that the minimum illumination requirement (average illumination 10LUX and minimum illumination 1LUX) in the emergency state is met.

The embodiment of the invention directly utilizes the emergency distribution board to supply power to a normal lighting system between the devices, and provides the normal illumination requirements of the ground and the operation surface of the devices through the normal lighting system; when the power supply unit is in fault and power failure, the emergency lighting system provides the lowest illumination requirement in an emergency state for the equipment room; the system is simplified and the cost is saved while the basic lighting requirement between the devices is met.

A lighting power supply method for E-HOUSE indoor equipment room mainly comprises the following steps:

1) simulating the number, arrangement and illumination angle of 52W normal lighting lamps in the equipment room by using illumination calculation software (such as DIALUX), and repeatedly debugging until the average illumination of the ground and the equipment operation surface is 200 LUX;

2) simulating the number, arrangement and irradiation angle of 6W escape lamps in the equipment room by using illumination calculation software, and repeatedly debugging until the average illumination of an escape passage in an emergency state is 10LUX and the minimum illumination is 1 LUX;

3) installing a normal lighting system according to the distribution condition of the normal lighting lamps simulated in the step 1), and supplying power to the normal lighting system by using an emergency distribution board;

4) and installing an emergency lighting system according to the distribution condition of the escape lamps simulated in the step 2), and ensuring that the escape lamps can continuously illuminate for 90min after the emergency distribution board is powered off.

Illumination distribution conditions in the equipment room are simulated by using the illumination calculation software, loads are reasonably distributed according to simulation results, and electricity is taken from the emergency distribution board on the premise of meeting basic illumination requirements, so that the system is simplified, and the illumination cost is saved.

Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention.

Claims (8)

1. A lighting power supply system between E-HOUSE indoor equipment is characterized in that: the emergency lighting system comprises a power supply unit, a normal lighting system and an emergency lighting system; the power supply unit comprises an emergency distribution board, a transformer and a distribution box, wherein the transformer and the distribution box are used for supplying power to the emergency distribution board; the normal lighting system comprises a lighting loop connected with the emergency distribution board, wherein the lighting loop comprises a CONDULET BOX, a switch and a lamp; the emergency lighting system comprises a CONDULET BOX and an escape lamp with a battery;

when the power supply unit supplies power normally, the normal lighting system provides the normal illumination requirements of the ground and the equipment operation surface; when the power supply unit is in fault and power failure, the emergency lighting system provides the lowest illumination requirement in an emergency state.

2. The system of claim 1, wherein the system comprises: the lighting device is characterized in that the number of the lighting loops is two, the two lighting loops are jointly controlled by 2-3 triple switches, and lamps mounted on each lighting loop are the same in number.

3. The system of claim 1, wherein the system comprises: when the power supply unit is in fault and power failure, the escape lamp can continuously illuminate for 90 min.

4. The system of claim 1, wherein the system comprises: the normal lighting system provides an average illumination of 200 LUX.

5. The system of claim 1, wherein the system comprises: the emergency lighting system provides an average illumination of 10LUX and a minimum illumination of 1 LUX.

6. A lighting power supply method for E-HOUSE indoor equipment room is characterized by mainly comprising the following steps:

1) simulating the number, arrangement and illumination angle of normal lighting lamps in the equipment room by using illumination calculation software, and repeatedly debugging until the average illumination of the ground and the equipment operation surface is ensured to be 200 LUX;

2) simulating the number, arrangement and irradiation angle of escape lamps in the equipment room by using illumination calculation software, and repeatedly debugging until the average illumination of an escape passage in an emergency state is 10LUX and the minimum illumination is 1 LUX;

3) installing a normal lighting system according to the distribution condition of the normal lighting lamps simulated in the step 1), and supplying power to the normal lighting system by using an emergency distribution board;

4) and installing an emergency lighting system according to the distribution condition of the escape lamps simulated in the step 2), and ensuring that the escape lamps can continuously illuminate for 90min after the emergency distribution board is powered off.

7. The method for supplying power to the lighting of the E-HOUSE indoor unit according to claim 6, wherein: the power of the normal lighting lamp simulated in the step 1) is 52W.

8. The method for supplying power to the lighting of the E-HOUSE indoor unit according to claim 6, wherein: the power of the escape lamp simulated in the step 2) is 6W.

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