CN218276176U - Power supply and distribution energy-saving system for machine room - Google Patents

Abstract

The utility model discloses a computer lab supplies distribution economizer system belongs to energy-conserving field, computer lab supply distribution economizer system include power supply system, energy storage system, air conditioning system, control system, monitoring system, energy allotment system, power supply system be connected with energy storage system and computer lab equipment, air conditioning system through energy allotment system, monitoring system is connected with energy storage system and computer lab equipment, the monitoring system output is connected with control system, the control system output is connected with energy allotment system. The utility model discloses an energy storage system, energy recovery system, energy allotment system carry out the power supply in with the computer lab from new distribution, according to the power consumption of computer lab equipment, distribution power supply has reached the purpose of energy saving.

Description

Power supply and distribution energy-saving system for machine room

Technical Field

The utility model belongs to the energy-conserving field, more specifically the utility model relates to a computer lab supplies distribution economizer system that says so.

Background

The existing energy-saving system of the machine room saves energy for an air conditioning system of the machine room, reduces temperature by opening a window for ventilation in summer, and heats up by heat generated by running equipment in the machine room in winter, thereby saving energy consumption of the air conditioning system. For the power supply of a machine room, the air conditioning system only consumes a part of electric energy, and the other part of computers are consumed through equipment, the equipment per se has different energy consumption conditions in each day due to different running conditions, when the equipment per se enters a low-energy consumption stage, the electric energy required to be consumed can be greatly reduced, and when the equipment enters a high-energy consumption stage, a large burden can be generated on a single power supply line. The energy saving of the power supply system of the equipment is a large part of the energy saving of the machine room.

If the system for managing the power supply energy consumption of all equipment in the machine room can be involved, the loss of electric energy can be greatly saved, and the energy consumption and use cost of the machine room are reduced.

Disclosure of Invention

The utility model discloses a design one kind can the energy storage, carries out the power supply and distribution system from new distribution to energy, under the circumstances of guaranteeing computer lab equipment normal operating, very big saving the power supply power consumption, reduced the use cost of computer lab, let the power supply of computer lab more stable.

In order to realize the purpose, the utility model discloses an adopt following technical scheme to realize: the power supply and distribution energy-saving system for the machine room comprises a power supply system 1, an energy storage system 2, an air conditioning system 3, a control system 4, a monitoring system 5 and an energy allocation system 6, wherein the power supply system 1 is connected with the energy storage system 2, the machine room equipment 8 and the air conditioning system 3 through the energy allocation system 6, the monitoring system 5 is connected with the energy storage system 2 and the machine room equipment 8, the output end of the monitoring system 5 is connected with the control system 4, and the output end of the control system 4 is connected with the energy allocation system 6.

Further, the power supply system 1 comprises a mains supply system 1 and a solar power supply system 1, the mains supply system is connected with the machine room equipment 8 and the air conditioning system 3 and used for supplying power to the high-power electric equipment, and the solar power supply system 1 is connected with the machine room lighting equipment 9 and the energy storage system 2 and used for lighting the machine room and charging the energy storage system 2.

Furthermore, the energy storage system 2 stores energy by using a storage battery, and the monitoring system 5 is used for being installed in a power supply section of each large-scale device in the machine room, monitoring the power consumption of the device, and calculating the power consumption peak of the device.

Furthermore, the control system 4 adopts the DCS control system 4, and can remotely switch each power supply switch and remotely control the on/off of various devices in the machine room.

Further, the energy allocation system 6 can include an intelligent switch, and the control system 4 can remotely control the switch of the energy allocation system 6 to switch the power supply line of the device.

Further, air conditioning system 3 include cold wind air conditioner and warm braw air conditioner, monitoring system 5 still include indoor temperature and humidity sensor 7, temperature and humidity sensor 7 output is connected with control system 4 for monitor indoor humiture.

The utility model discloses beneficial effect:

the utility model discloses a design one kind can the energy storage, carries out the power supply and distribution system from new distribution to energy, under the circumstances of guaranteeing 8 normal operating of computer lab equipment, very big saving the power consumption that supplies power, reduced the use cost of computer lab, let the power supply of computer lab more stable.

Drawings

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a wiring diagram of the control system of the present invention;

fig. 3 is a circuit diagram of the monitoring module of the present invention.

In the figure, 1 is a power supply system, 2 is an energy storage system, 3 is an air conditioning system, 4 is a control system, 5 is a monitoring system, 6 is an energy allocation system, 7 is a temperature and humidity sensor, 8 is machine room equipment, and 9 is lighting equipment.

Detailed Description

Embodiments of the present disclosure will be described with reference to the accompanying drawings, and for the purpose of clarity, numerous implementation details will be set forth in the description below. It should be understood, however, that these implementation details should not be used to limit the disclosure. That is, such practical details are not necessary in some embodiments of the present disclosure. In addition, some conventional structures and elements are shown in the drawings in a simple schematic manner for the sake of simplifying the drawings.

The machine room power supply and distribution energy-saving system comprises a power supply system 1, an energy storage system 2, an air conditioning system 3, a control system 4, a monitoring system 5 and an energy allocation system 6, wherein the power supply system 1 is connected with the energy storage system 2, the machine room equipment 8 and the air conditioning system 3 through the energy allocation system 6, the monitoring system 5 is connected with the energy storage system 2 and the machine room equipment 8, the output end of the monitoring system 5 is connected with the control system 4, and the output end of the control system 4 is connected with the energy allocation system 6.

The power supply system 1 comprises a mains supply system 1 and a solar power supply system 1, wherein the mains supply system 1 is connected with the machine room equipment 8 and the air conditioning system 3 and used for supplying power to high-power electric equipment, and the solar power supply system 1 is connected with the machine room lighting equipment 99 and the energy storage system 2 and used for lighting the machine room and charging the energy storage system 2. The most safe and reliable power supply capable of guaranteeing long-term stable operation under most conditions of mains supply is mains supply. Some communication devices of a communication station (station) adopt a direct current power supply to supply power, and some communication devices adopt an alternating current power supply to supply power. In the case of an ac power supply, a dc power supply required for the communication apparatus may rectify the ac power into dc power through a rectifier. For large-capacity electric equipment such as special air conditioners for machine rooms, machine room illumination, fire-fighting water pumps and the like which need to guarantee power supply, an alternating-current power supply is generally required to supply power directly, and the occupied proportion of the equipment is large. Therefore, in order to ensure proper operation of the communication equipment, the need for ac power by the communication station (station) is self evident.

The solar-powered solar photovoltaic power generation has a number of unique advantages: 1. moreover, the solar photovoltaic power generation is safe and reliable, and cannot be influenced by energy crisis and unstable factors in the fuel market; 2. the solar photovoltaic power generation is particularly suitable for remote areas without electricity, and can reduce the construction of long-distance power grids and the electric energy loss on power transmission lines; 3. the solar energy is generated without fuel, so that the operation cost is greatly reduced; 4. besides the tracking type, the solar photovoltaic power generation has no moving part, so the solar photovoltaic power generation is not easy to damage, is relatively easy to install and is simple to maintain; 5. the solar photovoltaic power generation does not generate any waste, does not generate noise, greenhouse and toxic gas, and is ideal clean energy. A1 KW photovoltaic power generation system is installed, and CO 2600-2300kg, NOx16kg, SOx9kg and other particles 0.6kg can be discharged less each year; 6. the roof and the wall of a building can be effectively utilized, a large amount of land is not required to be occupied, and the solar power generation panel can directly absorb solar energy, so that the temperature of the wall and the roof is reduced, and the load of an indoor air conditioner is reduced; 7. the solar photovoltaic power generation system has short construction period, the power generation assembly has long service life, the power generation mode is more flexible, and the energy recovery period of the power generation system is short; 8. the method is not limited by resource distribution regions; the power can be generated nearby at the power utilization place.

The energy storage system 2 stores energy by adopting a storage battery, and the monitoring system 5 is used for being installed at a power supply section of each large-scale device in the machine room and used for monitoring the power consumption of the device and calculating the power consumption peak of the device. The air conditioning system 3 comprises a cold air conditioner and a warm air conditioner, the monitoring system 5 further comprises an indoor temperature and humidity sensor 7, and the output end of the temperature and humidity sensor 7 is connected with the control system 4 and used for monitoring indoor temperature and humidity. The UPS power supply is adopted for storage battery energy storage, high-capacity energy storage can be carried out, charging can also be carried out, and power can be supplied to the machine room under the condition of machine room power failure.

And the control system 4 adopts a DCS control system 4, can remotely switch each power supply switch and remotely control the on-off of various equipment of the computer room. The method adopts the basic design idea of controlling dispersion, operation and management centralization and adopts a structural form of multilayer grading, cooperation and autonomy. Its main features are its centralized management and decentralized control. DCS has been widely used in various industries such as electric power, metallurgy, and petrochemical industry. The energy allocation system 6 can comprise an intelligent switch, and the control system 4 can remotely control the switch of the energy allocation system 6 to switch the power supply circuit of the equipment.

The utility model discloses the working process: the temperature and humidity in the machine room and the power consumption of the equipment are monitored in real time through the monitoring system 5, the solar energy in the power supply system 1 supplies power to the energy storage system 2 for storage at ordinary times, the energy storage system 2 is charged, when the monitoring system 5 monitors that certain machine room equipment 8 operates at low energy consumption, information is sent to the DCS control system 4, the DCS control system 4 controls the intelligent switch in the energy allocation system 6 to switch the power supply of the low-power-consumption equipment from mains supply to the energy storage system 2, therefore, the consumption of the mains supply is saved, and the use cost of the mains supply is reduced. The lighting system of computer lab is in lower position because the energy consumption always, so adopts solar energy direct power supply always, and when indoor humiture exceeds standard, DCS control system 4 carries out work through control air conditioning system 3, the humiture in the control room. When the indoor temperature and humidity do not exceed the standard and the temperature and humidity need to be maintained, the energy consumption of the air conditioning system 3 is low at the moment, and the DCS control system 4 switches the power supply of the air conditioning system 3 to the power supply of the energy storage system 2, so that the purpose of saving electric energy is achieved.

It should be understood that the above detailed description of the technical solution of the present invention with the help of preferred embodiments is illustrative and not restrictive. On reading the description of the present invention, those skilled in the art may modify the technical solutions described in the embodiments, or may substitute some technical features of the embodiments; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (6)

1. The utility model provides a computer lab power supply and distribution economizer system which characterized in that: computer lab power supply and distribution economizer system include power supply system (1), energy storage system (2), air conditioning system (3), control system (4), monitoring system (5), energy allotment system (6), power supply system (1) be connected with energy storage system (2) and computer lab equipment (8), air conditioning system (3) through energy allotment system (6), monitoring system (5) are connected with energy storage system (2) and computer lab equipment (8), monitoring system (5) output is connected with control system (4), control system (4) output is connected with energy allotment system (6).

2. The power supply and distribution energy-saving system for the machine room, according to claim 1, wherein: the power supply system (1) comprises a mains supply and a solar power supply system (1), wherein the mains supply is connected with the machine room equipment (8) and the air conditioning system (3) and used for supplying power to the high-power electric equipment, and the solar power supply system (1) is connected with the machine room lighting equipment (9) and the energy storage system (2) and used for machine room lighting and charging the energy storage system (2).

3. The power supply and distribution energy-saving system for the machine room, as claimed in claim 1, wherein: the energy storage system (2) stores energy by adopting a UPS power supply, and the monitoring system (5) is used for being installed at the power supply section of each large-scale device in the machine room and used for monitoring the power consumption of the device and calculating the power consumption peak of the device.

4. The power supply and distribution energy-saving system for the machine room, according to claim 1, wherein: and the control system (4) adopts a DCS control system, can remotely switch each power supply switch and remotely control the on-off of various equipment of the computer room.

5. The power supply and distribution energy-saving system for the machine room, according to claim 1, wherein: the energy allocation system (6) can comprise an intelligent change-over switch, and the control system (4) can remotely control the change-over switch of the energy allocation system (6) to switch the power supply line of the equipment.

6. The power supply and distribution energy-saving system for the machine room, as claimed in claim 1, wherein: air conditioning system (3) including cold wind air conditioner and warm braw air conditioner, monitoring system (5) still include indoor temperature and humidity sensor (7), temperature and humidity sensor (7) output is connected with control system (4) for monitor indoor humiture.

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