CN111326976A

CN111326976A - Energy-saving system of high-voltage cabinet

Info

Publication number: CN111326976A
Application number: CN202010223964.8A
Authority: CN
Inventors: 胡冠峰; 胡冠鹏
Original assignee: Guangdong Xingdali Construction Engineering Co ltd
Current assignee: Guangdong Xingdali Construction Engineering Co ltd
Priority date: 2020-03-26
Filing date: 2020-03-26
Publication date: 2020-06-23

Abstract

The invention relates to the technical field of high-voltage cabinet control, in particular to an energy-saving system of a high-voltage cabinet, which comprises the following modules: the temperature monitoring module is used for acquiring the equipment temperature in the high-voltage cabinet and a preset temperature threshold in real time; the temperature comparison module is used for comparing the equipment temperature with the temperature threshold, marking the equipment temperature with abnormal temperature if the temperature is abnormal through comparison, and taking equipment information corresponding to the marked equipment temperature as equipment information to be regulated; the identification acquisition module is used for acquiring the temperature control device identification corresponding to the information of the equipment to be adjusted; and the temperature control module is used for generating a corresponding temperature control message according to the temperature control device identifier and controlling the corresponding temperature control device to adjust the temperature of the equipment. The intelligent temperature control system has the advantages of intelligently adjusting the temperature in the high-voltage cabinet and realizing the effects of energy conservation and environmental protection.

Description

Energy-saving system of high-voltage cabinet

Technical Field

The invention relates to the technical field of high-voltage cabinet control, in particular to an energy-saving system of a high-voltage cabinet.

Background

At present, a high-voltage cabinet, namely a high-low voltage switch cabinet, is an electrical device, an external line firstly enters a main control switch in the cabinet and then enters a branch control switch, and each branch is arranged according to the requirement. The high-low voltage switch is usually provided with instruments, an automatic controller, a motor magnetic switch, various alternating current contactors and the like, and some high-voltage switches are also provided with a switch cabinet of a high-voltage chamber and a low-voltage chamber and a high-voltage bus, and the high-voltage switches are also provided with low-cycle load shedding for protecting main equipment in places such as a power plant and the like.

In current high-voltage board, can be provided with a large amount of electrical equipment, and electric current and voltage in the high-voltage board can be bigger usually, and then can produce a large amount of heats, in order to guarantee the equipment normal operating in the high-voltage board, need adopt the heat abstractor that corresponds to cool down in to the high-voltage board.

The above prior art solutions have the following drawbacks:

in order to maintain the temperature in the high-voltage cabinet at a certain temperature, the heat dissipation device in the high-voltage cabinet needs to be continuously opened, but the actual temperature in the high-voltage cabinet is not continuously in a state of needing cooling, and although the continuously opened heat dissipation device can protect equipment in the high-voltage cabinet from overheating, the energy loss can be increased, so that an improvement space is provided.

Disclosure of Invention

The invention aims to provide a high-voltage cabinet energy-saving system which can intelligently adjust the temperature in a high-voltage cabinet and realize energy conservation and environmental protection.

The above object of the present invention is achieved by the following technical solutions:

a high-voltage cabinet energy-saving system comprises a temperature control device and is used for executing the following high-voltage cabinet energy-saving method:

s10: acquiring the equipment temperature and a preset temperature threshold value in the high-voltage cabinet in real time;

s20: comparing the equipment temperature with the temperature threshold, if the temperature is abnormal, marking the equipment temperature with abnormal temperature, and using equipment information corresponding to the marked equipment temperature as equipment information to be regulated;

s30: acquiring a temperature control device identifier corresponding to the information of the equipment to be adjusted;

s40: and generating a corresponding temperature control message according to the temperature control device identification, and controlling the corresponding temperature control device to adjust the temperature of the equipment.

Through adopting above-mentioned technical scheme, acquire the equipment temperature in the high-voltage board in real time, can in time acquire the temperature condition of the electrical components in the high-voltage board, compare with the temperature threshold value that corresponds through with the equipment temperature, can appear unusually when the equipment temperature, in time mark the back, and adjust according to the equipment information of treating after the mark, the temperature regulating device who corresponds through controlling this temperature regulating device sign reduces this equipment temperature, can in time adjust the equipment that the temperature is too high or low excessively, thereby need not to last to keep high-power output to temperature regulating device, only when the temperature appears unusually, the temperature regulating device who appears unusual electrical components to the temperature increases power, the conditioning equipment temperature, can play energy-concerving and environment-protective effect.

The present invention in a preferred example may be further configured to: step S10 includes:

s11: acquiring equipment information in the high-voltage cabinet and function information corresponding to each piece of equipment information;

s12: and dividing the equipment information according to the function information to obtain a temperature monitoring area, and acquiring the equipment temperature of the temperature monitoring area in real time.

By adopting the technical scheme, the temperature monitoring areas are divided in the high-voltage cabinet according to the function information of the equipment, and the temperature control device in the high-voltage cabinet can be coordinated to work.

The present invention in a preferred example may be further configured to: in step S40, generating a corresponding temperature control message according to the temperature control device identifier, specifically including the following steps:

s41: acquiring the temperature monitoring area to which the temperature control device identification belongs according to the temperature control device identification;

s42: and generating a corresponding temperature control message according to the temperature monitoring area.

By adopting the technical scheme, when the equipment temperature is abnormal, the same or related equipment temperature is usually caused to be abnormal, the equipment temperature is regulated according to the temperature monitoring area divided by the function information of the equipment, and the work of electrical components in the high-voltage cabinet can be further ensured.

The present invention in a preferred example may be further configured to: in step S40, controlling the corresponding temperature control device to reduce the temperature of the equipment, specifically including the following steps:

s43: acquiring a corresponding identifier of the device to be regulated according to the temperature control message;

s44: and generating a device power adjusting message according to the identifier of the device to be adjusted, controlling the temperature control device to adjust the output power, and adjusting the temperature of the equipment.

By adopting the technical scheme, the corresponding temperature control device can be controlled to adjust the output power by acquiring the temperature control device identification, so that the temperature of the equipment is reduced.

The present invention in a preferred example may be further configured to: step S44 further includes:

s441: acquiring outdoor climate information, wherein the outdoor climate information comprises outdoor temperature information and outdoor weather information;

s442: and generating a machine room temperature control message according to the outdoor temperature information and the outdoor weather information, and controlling a corresponding machine room temperature adjusting device to adjust the temperature of the machine room.

Through adopting above-mentioned technical scheme, through combining outdoor temperature and outdoor weather to generate the computer lab temperature control message that corresponds, can utilize outdoor temperature to adjust the temperature in the computer lab of depositing the high-voltage board to when can carrying out temperature regulation in needs, when guaranteeing temperature control's effect, reduce temperature regulating device's power output, further promote environmental protection and energy saving's effect.

The second aim of the invention is realized by the following technical scheme:

a high-voltage cabinet energy-saving system comprises the following modules:

the temperature monitoring module is used for acquiring the equipment temperature in the high-voltage cabinet and a preset temperature threshold in real time;

the temperature comparison module is used for comparing the equipment temperature with the temperature threshold, marking the equipment temperature with abnormal temperature if the temperature is abnormal through comparison, and taking equipment information corresponding to the marked equipment temperature as equipment information to be regulated;

the identification acquisition module is used for acquiring the temperature control device identification corresponding to the information of the equipment to be adjusted;

and the temperature control module is used for generating a corresponding temperature control message according to the temperature control device identifier and controlling the corresponding temperature control device to adjust the temperature of the equipment.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the temperature of the equipment is reduced by controlling the temperature control device corresponding to the temperature control device identification, and the equipment with overhigh or overlow temperature can be adjusted in time, so that high-power output of the temperature control device is not required to be continuously kept, the power is increased for the temperature control device of the electrical element with abnormal temperature only when the temperature is abnormal, the temperature of the equipment is adjusted, and the effects of energy conservation and environmental protection can be achieved;

2. dividing temperature monitoring areas in the high-voltage cabinet according to the functional information of the equipment, and coordinating a temperature control device in the high-voltage cabinet to work;

3. through combining outdoor temperature and outdoor weather to generate the computer lab temperature control message that corresponds, can utilize outdoor temperature to adjust the temperature in the computer lab of depositing the high-voltage board to when can carrying out temperature regulation in needs, when guaranteeing temperature control's effect, reduce temperature regulating device's output, further promote environmental protection and energy saving.

Drawings

FIG. 1 is a flowchart of a method for saving energy in a high voltage cabinet according to an embodiment of the present invention;

fig. 2 is a flowchart of implementing step S10 in the energy saving method for the high voltage cabinet according to an embodiment of the present invention;

fig. 3 is a flowchart of implementing step S40 in the energy saving method for the high voltage cabinet according to an embodiment of the present invention;

fig. 4 is a flowchart of another implementation of step S40 in the energy saving method for the high voltage cabinet according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating another implementation of step S44 in the energy saving method for a high voltage cabinet according to an embodiment of the present invention;

fig. 6 is a schematic block diagram of an energy saving system of a high voltage cabinet according to an embodiment of the present invention.

Detailed Description

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

The first embodiment is as follows:

in an embodiment, as shown in fig. 1, the invention discloses a high-voltage cabinet energy saving method, which specifically includes the following steps:

s10: and acquiring the equipment temperature and a preset temperature threshold value in the high-voltage cabinet in real time.

In the present embodiment, the device temperature refers to the temperature of the electrical components inside the high-voltage cabinet. The temperature threshold is a standard value for determining whether the temperature of the electrical components in the high-voltage board is abnormal.

Specifically, the device or equipment for monitoring the temperature, such as a temperature sensor, is arranged in the high-voltage cabinet, so that the temperature of the equipment in the high-voltage cabinet is acquired. Meanwhile, a corresponding temperature threshold value is set for each electrical component, the temperature threshold values are stored in a corresponding database or a corresponding memory, and the temperature threshold value corresponding to each electrical component in the high-voltage cabinet is obtained from the database or the corresponding memory.

S20: and comparing the equipment temperature with the temperature threshold, if the temperature is abnormal, marking the equipment temperature with abnormal temperature, and taking the equipment information corresponding to the marked equipment temperature as the equipment information to be regulated.

In the present embodiment, the temperature abnormality refers to a device temperature higher or lower than a temperature threshold. The device information is information in the electrical components in the high-voltage board, and includes information such as the model, function, and installation position of the corresponding electrical components in the high-voltage board. The device information to be regulated refers to information of an electrical component that needs to be temperature-regulated.

Specifically, the device temperature of each electrical component is compared with a corresponding temperature threshold, and if the device temperature is higher or lower than the temperature threshold, it is determined that the device temperature of the electrical component is abnormal. It should be noted that the temperature threshold may be a specific temperature value or a temperature range, and since the operation of the high-voltage board has corresponding requirements for humidity besides ensuring that the temperature cannot be too high, moisture and salt mist may affect the use of the device, especially moisture condensation may directly affect the action of the mechanism, may cause a creepage and flashover accident, especially for some small moving contact mechanisms, may cause a logic error, and may affect the stable operation of electrical components, therefore, when the humidity of the environment where the high-voltage board is located is higher than a preset value or the temperature is lower than the lowest value of the temperature threshold, a heating device needs to be started, and when the temperature of the device of the high-voltage board is higher than the highest value of the temperature threshold, a corresponding cooling device needs to be started, for example, a cooling fan installed in the high-voltage board, and an air conditioner and other devices in a machine room in which the high-voltage board is stored.

Further, the temperature of the equipment with abnormal temperature is marked, and the equipment information of the electrical component to which the marked equipment temperature belongs is searched to serve as the equipment information to be regulated.

S30: and acquiring the temperature control device identifier corresponding to the information of the equipment to be regulated.

In this embodiment, the temperature control device identifier refers to an identifier of a temperature control device corresponding to an electrical component in the high-voltage board.

Specifically, according to the information of the device to be regulated, the temperature control device identifier corresponding to the electrical component requiring temperature regulation is obtained.

In this embodiment, the temperature control message is a message specifically used for controlling the temperature control device to adjust the temperature of the electrical component with abnormal temperature.

Specifically, according to the temperature control device identifier, positioning to a specific temperature control device, and obtaining a control interface of the temperature control device corresponding to the temperature control device identifier; further, the abnormal condition of the temperature of the electrical component is determined through the abnormal device temperature marked in step S20, that is, whether the device temperature is too high or too low, and the conditions of the control interface and the abnormal temperature form the temperature control message, the temperature control device is controlled to adjust the temperature of the electrical component according to the abnormal temperature condition in the temperature control message, if the device temperature is too high, the temperature control device for cooling is controlled to reduce the device temperature, and if the temperature is too low, the temperature control device for heating is controlled to increase the device temperature.

In this embodiment, acquire the equipment temperature in the high-voltage board in real time, can in time acquire the temperature condition of electrical components in the high-voltage board, compare with the temperature threshold value that corresponds through with the equipment temperature, when the equipment temperature appears unusually, in time mark the back, and adjust according to the equipment information of treating after the mark, the temperature regulating device who corresponds through controlling this temperature regulating device sign reduces this equipment temperature, can in time adjust the equipment that the temperature is too high or low excessively, thereby need not to last to keep high-power output to temperature regulating device, only when the temperature appears unusually, the temperature regulating device who appears unusual electrical components to the temperature increases power, the regulating device temperature, can play energy-concerving and environment-protective effect.

In an embodiment, as shown in fig. 2, in step S10, the method for acquiring the temperature of the equipment in the high-voltage board and the preset temperature threshold in real time specifically includes the following steps:

s11: and acquiring the equipment information in the high-voltage cabinet and the function information corresponding to each equipment information.

In this embodiment, the function information refers to information of functions implemented by electrical components in the high-voltage board.

Specifically, the information of the devices in the high-voltage board and the function information corresponding to each device information are acquired by installing or designing an information table of the high-voltage board.

In the present embodiment, the temperature monitoring area refers to an area divided in the high voltage cabinet for monitoring the temperature of the electrical components.

Specifically, the same or associated electrical components are classified into one type according to the function information. The association may be a functional association, or an installation position or an installation manner in the high-voltage cabinet.

Furthermore, after the device information is divided according to the function information, a temperature monitoring area is obtained, and the device temperature of the temperature monitoring area is obtained in real time.

In an embodiment, as shown in fig. 3, in step S40, the generating the corresponding temperature control message according to the temperature control device identifier specifically includes the following steps:

s41: and acquiring a temperature monitoring area to which the temperature control device identifier belongs according to the temperature control device identifier.

Specifically, since there may be a plurality of temperature control devices in each temperature monitoring area, the obtained identifiers of the temperature control devices may also be one or more of the temperature monitoring areas, and meanwhile, if a plurality of identifiers of the temperature control devices are obtained, the temperature monitoring areas to which the temperature control devices belong may also be a plurality of identifiers, after the identifiers of the temperature control devices are obtained, the temperature monitoring areas to which the temperature control devices corresponding to each identifier of the temperature control device belong are obtained, and if the obtained temperature monitoring areas are repeated, the repeated temperature monitoring areas are merged.

Specifically, all the acquired temperature control devices in the temperature monitoring area constitute the temperature control message.

In an embodiment, as shown in fig. 4, in step S40, controlling the corresponding temperature control device to adjust the temperature of the equipment specifically includes the following steps:

s43: and acquiring a corresponding identifier of the device to be regulated according to the temperature control message.

In this embodiment, the identifier of the device to be regulated refers to an identifier of the temperature control device that needs to be power-adjusted.

Specifically, in the temperature control message, an identifier of the temperature control device whose power output needs to be adjusted is obtained as the identifier of the device to be adjusted. It should be noted that the adjustment of the power output may be to adjust the output power of the temperature control device that has been turned on, or to adjust the temperature control device that is in the off state to the operating state.

S44: and generating a device power regulation message according to the identifier of the device to be regulated, controlling the temperature control device to regulate the output power, and regulating the temperature of the equipment.

Specifically, a device power adjustment message is generated according to the identifier of the device to be adjusted, the temperature control device corresponding to the identifier of the device to be adjusted is controlled to adjust the output power, and the temperature of the equipment is adjusted.

In an embodiment, as shown in fig. 5, in step S44, generating a device power adjustment message according to the device identifier to be adjusted, controlling the temperature control device to adjust the output power, and adjusting the temperature of the equipment, further includes the following steps:

s441: and acquiring outdoor climate information, wherein the outdoor climate information comprises outdoor temperature information and outdoor weather information.

In this embodiment, the outdoor climate information refers to weather information outside the machine room where the high-voltage board is located. The outdoor temperature information is the outdoor temperature in the outdoor climate information. The outdoor weather information refers to outdoor humidity in the outdoor weather information.

Specifically, the outdoor temperature information and the outdoor weather information may be acquired by installing sensors for detecting temperature and humidity outside the machine room, and constitute the outdoor climate information.

S442: and generating a machine room temperature control message according to the outdoor temperature information and the outdoor weather information, and controlling the corresponding machine room temperature adjusting device to adjust the temperature of the machine room.

In this embodiment, the room temperature control message refers to a message for adjusting the temperature in the room. The machine room temperature adjusting device is specifically used for adjusting the temperature in the machine room, wherein the machine room temperature adjusting device may include an air conditioner and a device for controlling opening and closing of a window in the machine room.

Specifically, a device for controlling the opening and closing of a window may be installed in advance in a window of a machine room, and a sensor for receiving a signal for controlling the operation of the device may be provided in the device.

Further, when the electrical components in the high-voltage cabinet need to be cooled, by combining the outdoor temperature information and the outdoor weather information, if the temperature outside the machine room, which is displayed in the outdoor temperature information, is within the temperature threshold value corresponding to the electrical components with abnormal temperature, and in the outdoor weather information, the humidity outside the machine room is lower than a preset value, that is, the machine room is not rained or is not in a wet state, a machine room temperature control message is generated.

Further, send this computer lab temperature control message to the inductor that the window of control computer lab was opened and close, install on the computer lab window through inductor control for the device work that the control window was opened and close, make the window of computer lab open, thereby the air outside the computer lab can get into the computer lab, has utilized outdoor natural condition, and for cooling down in the computer lab, further promoted energy-conserving effect.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

Example two:

in an embodiment, an energy saving system for a high voltage cabinet is provided, and the energy saving system for a high voltage cabinet corresponds to the energy saving method for a high voltage cabinet in the above embodiment one to one. As shown in fig. 6, the energy saving system of the high voltage cabinet includes a temperature monitoring module 10, a temperature comparison module 20, an identifier obtaining module 30, and a temperature control module 40. The functional modules are explained in detail as follows:

the temperature monitoring module 10 is used for acquiring the equipment temperature in the high-voltage cabinet and a preset temperature threshold in real time;

the temperature comparison module 20 is configured to compare the device temperature with a temperature threshold, mark the device temperature with abnormal temperature if the temperature is abnormal, and use device information corresponding to the marked device temperature as device information to be adjusted;

the identifier obtaining module 30 is configured to obtain a temperature control device identifier corresponding to the information of the device to be adjusted;

and the temperature control module 40 is configured to generate a corresponding temperature control message according to the temperature control device identifier, and control the corresponding temperature control device to adjust the temperature of the equipment.

Preferably, the temperature monitoring module 10 comprises:

the function information acquisition submodule 11 is used for acquiring the equipment information in the high-voltage cabinet and the function information corresponding to each equipment information;

and the area division submodule 12 is used for dividing the equipment information according to the function information to obtain a temperature monitoring area and acquiring the equipment temperature of the temperature monitoring area in real time.

Preferably, the temperature control module 40 includes:

the area obtaining submodule 41 is configured to obtain, according to the temperature control device identifier, a temperature monitoring area to which the temperature control device identifier belongs;

and the temperature control submodule 42 is used for generating a corresponding temperature control message according to the temperature monitoring area.

Preferably, the temperature control module 40 further comprises:

the adjusting device obtaining submodule 43 is configured to obtain a corresponding identifier of the device to be adjusted according to the temperature control message;

and the temperature adjusting submodule 44 is configured to generate a device power adjusting message according to the identifier of the device to be adjusted, control the temperature control device to adjust the output power, and adjust the temperature of the equipment.

Preferably, the temperature adjustment submodule 44 further comprises:

an outdoor climate obtaining unit 441, configured to obtain outdoor climate information, where the outdoor climate information includes outdoor temperature information and outdoor weather information;

and the machine room temperature adjusting unit 442 is configured to generate a machine room temperature control message according to the outdoor air temperature information and the outdoor weather information, and control the corresponding machine room temperature adjusting device to adjust the temperature of the machine room.

For specific limitations of the energy saving system of the high-voltage cabinet, reference may be made to the above limitations of the energy saving method of the high-voltage cabinet, and details are not repeated here. All or part of the modules in the energy-saving system of the high-voltage cabinet can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

Claims

1. The energy-saving system for the high-voltage cabinet is characterized by comprising a temperature control device and a high-voltage cabinet energy-saving method, wherein the temperature control device is used for executing the following energy-saving method for the high-voltage cabinet:

2. The energy saving system for high-voltage cabinets according to claim 1, wherein the step S10 comprises:

s12: dividing the equipment information according to the function information to obtain a temperature monitoring area, and acquiring the equipment temperature of the temperature monitoring area in real time.

3. The energy saving system for a high voltage cabinet according to claim 2, wherein in step S40, the step of generating the corresponding temperature control message according to the temperature control device identifier specifically includes the following steps:

4. The energy-saving system for the high-voltage cabinet according to claim 1, wherein in step S40, the step of controlling the corresponding temperature control device to reduce the temperature of the equipment specifically comprises the following steps:

5. The energy saving system for high voltage cabinets according to claim 4, wherein the step S44 further comprises:

6. The energy saving system for the high-voltage cabinet as claimed in claim 1, wherein: the energy-saving system of the high-voltage cabinet comprises the following modules:

7. The energy saving system for high voltage cabinets according to claim 6, wherein said temperature monitoring module comprises:

the function information acquisition submodule is used for acquiring the equipment information in the high-voltage cabinet and the function information corresponding to each piece of equipment information;

and the area division submodule is used for dividing the equipment information according to the function information to obtain a temperature monitoring area and acquiring the equipment temperature of the temperature monitoring area in real time.

8. The energy saving system for high-voltage cabinets according to claim 7, wherein the temperature control module comprises:

the area acquisition submodule is used for acquiring the temperature monitoring area to which the temperature control device identifier belongs according to the temperature control device identifier;

and the temperature control submodule is used for generating a corresponding temperature control message according to the temperature monitoring area.

9. The energy saving system for high voltage cabinets of claim 6, wherein said temperature control module further comprises:

the adjusting device obtaining submodule is used for obtaining a corresponding to-be-adjusted device identifier according to the temperature control message;

and the temperature adjusting submodule is used for generating a device power adjusting message according to the identifier of the device to be adjusted, controlling the temperature control device to adjust the output power and adjusting the temperature of the equipment.

10. The high-voltage cabinet energy-saving system of claim 9, wherein the temperature regulation sub-module further comprises:

the outdoor climate acquiring unit is used for acquiring outdoor climate information, and the outdoor climate information comprises outdoor temperature information and outdoor weather information;

and the machine room temperature adjusting unit is used for generating a machine room temperature control message according to the outdoor air temperature information and the outdoor weather information and controlling the corresponding machine room temperature adjusting device to adjust the temperature of the machine room.