CN216901393U - Energy-saving device for reducing temperature of electric equipment - Google Patents

Abstract

The utility model discloses an energy-saving device for reducing the temperature of electric equipment, which comprises a single chip microcomputer, an electric power information acquisition chip, a data display device, a data storage device, a wireless communication device, a temperature sensor, a cooling fan, a humidity sensor, a dryer, a flame sensor, an automatic fire extinguisher and the like. In the utility model, not only the temperature acquisition is carried out on the power system (electric equipment and the like), but also the temperature reduction treatment can be carried out on the power system (electric equipment and the like) with overhigh temperature, thus overcoming the defect of the existing temperature control; moreover, for the power system (electric equipment and the like), the temperature acquisition is not enough to eliminate the dangerous hidden danger, and the scheme also provides a humidity sensor and a flame sensor, so that the safety accident caused by overhigh humidity or ignition of the corresponding power system (electric equipment and the like) is avoided.

Description

Energy-saving device for reducing temperature of electric equipment

Technical Field

The utility model belongs to the technical field of electric power industry, and particularly relates to an energy-saving device for reducing the temperature of electric equipment.

Background

The electric meter is an instrument for measuring electric energy, is also called as an electric meter, a fire meter, an electric energy meter and a kilowatt hour meter, is commonly used for industrial and civil meters, is commonly used for collecting resident electricity consumption data, at least one electric meter is arranged in each person, the conventional household electric meter needs to be read manually after the electricity consumption data is collected, generally, workers of an electric power company or community property personnel read the electric energy data to each household, so that the labor cost is higher, and then the electric meter is developed into an intelligent electric meter with a wired data transmission function, but the intelligent electric meter is mainly based on wired data transmission of RS485, RS232 and the like, the transmission distance is short, the interference is easy to occur, and the transmission communication between the local electric meter and a server is limited; in addition, the existing electric meter only collects the electric quantity when collecting the electric quantity, and is practical when reading the electric quantity, but other electric parameters are not collected, so that the analysis of a technician on the whole electric power system cannot be met, and the working condition of the electric meter cannot be mastered by the staff of an electric power company in real time.

In the prior art, a remote power data acquisition system based on a wireless network is provided. The acquisition system comprises an electric power information acquisition chip for acquiring three-phase voltage, three-phase current and other electric power parameters, a temperature acquisition module for acquiring the working temperature of the system, a central processing chip for processing the information acquired by the electric power information acquisition chip and the temperature acquisition module, a wireless transmission module respectively connected with the central processing chip, and a server connected with the wireless transmission module. The utility model adopts the wireless transmission module to transmit the data calculated by the ARM single chip microcomputer to the server for further processing, and the processed data can be displayed on the terminal, so that remote workers can check real-time electric power data and the working state of the system on the terminal, and can develop a set of special APP according to the data, thereby being convenient for users to check the electric power data and being also used for professional technicians to analyze and monitor the whole power grid.

However, the above scheme is only to collect the temperature of the power system (such as the electric equipment), and cannot perform the temperature reduction treatment on the power system (such as the electric equipment) with too high temperature, and has certain temperature control defect; moreover, for power systems (electrical equipment, etc.), temperature acquisition is not sufficient to eliminate the danger and various data parameters need to be detected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving device for reducing the temperature of electric equipment, which is used for solving one of the technical problems in the prior art, such as: the existing scheme is only used for collecting the temperature of an electric power system (electric equipment and the like), and cannot carry out cooling treatment on the corresponding electric power system (electric equipment and the like) with overhigh temperature, so that certain temperature control defects exist; moreover, for power systems (electrical equipment, etc.), temperature acquisition is not sufficient to eliminate the danger and various data parameters need to be detected.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

an energy-saving device for reducing the temperature of electric equipment comprises a single chip microcomputer, an electric power information acquisition chip, a data display device, a data storage device, a wireless communication device, a temperature sensor, a cooling fan, a humidity sensor, a dryer, a flame sensor and an automatic fire extinguisher;

the single chip microcomputer is respectively connected with the electric power information acquisition chip, the data display device, the data storage device, the wireless communication device, the temperature sensor, the cooling fan, the humidity sensor, the dryer, the flame sensor and the automatic fire extinguisher;

the single chip microcomputer is further connected with a remote intelligent terminal through the wireless communication device in a network mode.

By the scheme, not only the temperature of the power system (the electric equipment and the like) is collected, but also the corresponding power system (the electric equipment and the like) with overhigh temperature can be cooled, and the existing temperature control defect is overcome; moreover, for the power system (electric equipment and the like), temperature acquisition is not enough to eliminate dangerous hidden dangers, and the scheme also provides a humidity sensor and a flame sensor, so that safety accidents caused by overhigh humidity or ignition of the corresponding power system (electric equipment and the like) are avoided.

Furthermore, the system also comprises a human-computer interaction device, and the human-computer interaction device is connected with the single chip microcomputer.

Through the scheme, when corresponding workers carry out on-site inspection, manual control can be carried out through the man-machine interaction device.

Furthermore, the human-computer interaction device is a touch screen.

Through above-mentioned scheme, compare in modes such as button, the more convenient intelligence of touch-sensitive screen.

Furthermore, the device also comprises a positioning device, and the positioning device is connected with the single chip microcomputer.

Through the scheme, if potential safety hazards appear in corresponding power systems (electric equipment and the like), workers out of the site can catch up to the site of the potential safety hazards according to the positioning information of the positioning device.

Further, the positioning device is a GPS positioning system.

Through the scheme, the GPS positioning system has higher positioning accuracy.

Furthermore, the device also comprises an image acquisition device, and the image acquisition device is connected with the single chip microcomputer.

By the scheme, when the detection data of other sensors are required to be checked whether to be normal or not, and relevant workers are not on the site of the power system (electric equipment and the like), the image acquisition device can be used for acquiring the images on the site, so that the remote verification of the detection data is performed.

Further, the image acquisition device is a panoramic camera.

Through the scheme, the panoramic camera has a wider image acquisition range.

Further, the intelligent control system also comprises an illuminating device, and the illuminating device is connected with the single chip microcomputer.

Through above-mentioned scheme, lighting device can cooperate image acquisition device to move, avoids influencing the image acquisition process because light temperature.

Further, the lighting device is an energy-saving lamp.

By the scheme, the energy-saving lamp has lower energy consumption, meets the requirements of energy conservation and emission reduction, and is convenient to popularize and use.

Furthermore, the intelligent alarm device also comprises an abnormity alarm device, and the abnormity alarm device is connected with the single chip microcomputer.

Through the scheme, when the related sensors detect abnormality, the related sensors can warn through the abnormality alarming device.

Compared with the prior art, the utility model has the following beneficial effects:

the technical scheme has the innovation points that when the temperature sensor detects that the temperature data of the large-scale electric equipment is higher, the single chip microcomputer starts the cooling fan to cool the large-scale electric equipment; when the humidity sensor detects that the humidity data of the large-scale electric equipment is higher, the single chip starts the dryer to dry the large-scale electric equipment; when the flame sensor detects that the large-scale electric equipment is on fire, the singlechip starts the automatic fire extinguisher to extinguish the fire of the large-scale electric equipment; the detection data corresponding to each sensor can be transmitted to a remote intelligent terminal through a wireless communication device network, so that various data of large-scale electric equipment can be monitored remotely; by the scheme, not only the temperature of the power system (the electric equipment and the like) is collected, but also the corresponding power system (the electric equipment and the like) with overhigh temperature can be cooled, and the existing temperature control defect is overcome; moreover, for the power system (electric equipment and the like), the temperature acquisition is not enough to eliminate the dangerous hidden danger, and the scheme also provides a humidity sensor and a flame sensor, so that the safety accident caused by overhigh humidity or ignition of the corresponding power system (electric equipment and the like) is avoided.

Drawings

Fig. 1 is a schematic structural diagram of example 1 according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of example 2 according to the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of example 3 according to the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of example 4 according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of example 5 according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 5 of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

the existing scheme is only to collect the temperature of the power system (electric equipment and the like), and can not carry out cooling treatment on the power system (electric equipment and the like) with overhigh temperature, so that certain temperature control defects exist; moreover, for power systems (electrical equipment, etc.), temperature acquisition is not sufficient to eliminate the danger and various data parameters need to be detected. The safety hazard problem of large-scale electric equipment is solved.

As shown in fig. 1, an energy saving device for reducing the temperature of electric equipment is provided, which comprises a single chip microcomputer, an electric power information acquisition chip, a data display device, a data storage device, a wireless communication device, a temperature sensor, a cooling fan, a humidity sensor, a dryer, a flame sensor and an automatic fire extinguisher; the single chip microcomputer is used as a control core of the energy-saving device; the power information acquisition chip is used for acquiring power parameters of the large-scale electric equipment; the data display device is used as a data visualization part of the energy-saving device, preferably an LCD (liquid crystal display) screen, and has higher resolution and definition; the data storage device is used as a storage part of the energy-saving device, preferably an SD card and the like, has the advantage of being detachable and is convenient for data backup; the wireless communication device is used for data transmission of the single chip microcomputer, and preferably performs 4G and 5G matched communication; the temperature sensor is used for detecting temperature data of the large-scale electric equipment and sending the temperature data to the single chip microcomputer; the cooling fan is used for cooling the large-scale electric equipment; the humidity sensor is used for detecting humidity data of the large-scale electric equipment and sending the humidity data to the single chip microcomputer; the dryer is used for drying large-scale electric equipment; flame sensor (flame sensor, flame transducer flame is composed of various combustion products, intermediate, high temperature gas, hydrocarbon and inorganic matter as main high temperature solid particles, the heat radiation of flame has gas radiation of discrete spectrum and solid radiation of continuous spectrum, the flame radiation intensity and wavelength distribution of different combustion products are different, but on the whole, it has maximum radiation intensity corresponding to the near infrared wavelength region of 1-2 μm of flame temperature, such as the wavelength of flame radiation intensity when gasoline is burned, the flame sensor is a sensor specially used by robot to search fire source, of course, the flame sensor can also be used to detect the brightness of light, only the sensor is sensitive to flame, the flame sensor utilizes the characteristic that infrared ray is very sensitive to flame, uses a special infrared receiving tube to detect flame, then the brightness of the flame is converted into a level signal with variable height, and the level signal is input into the singlechip, and the singlechip performs corresponding control processing according to the change of the signal. The scheme of the application preferably selects the far infrared flame sensor, and the far infrared flame sensor can be used for detecting fire sources or other heat sources with the wavelength within the range of 700-1000 nanometers. The principle is introduced that the far infrared flame sensor can detect infrared light with the wavelength within the range of 700 nanometers to 1000 nanometers, the detection angle is 60, and when the wavelength of the infrared light is near 880 nanometers, the sensitivity of the infrared flame sensor reaches the maximum. The far infrared flame probe converts the intensity change of external infrared light into the change of current, and the change is reflected as the change of a numerical value within a range of 0-255 through the A/D converter. The stronger the external infrared light, the smaller the numerical value, and the weaker the infrared light, the larger the numerical value. ) The flame data of the large-scale electric equipment are detected and sent to the single chip microcomputer; the automatic fire extinguisher is used for being matched with the flame sensor to automatically extinguish fire of large-scale electric equipment. The single chip microcomputer is respectively connected with the electric power information acquisition chip, the data display device, the data storage device, the wireless communication device, the temperature sensor, the cooling fan, the humidity sensor, the dryer, the flame sensor and the automatic fire extinguisher; the single chip microcomputer is further connected with a remote intelligent terminal through the wireless communication device in a network mode.

The core working principle of this embodiment is briefly described as follows:

when the temperature sensor detects that the temperature data of the large-scale electric equipment is higher, the single chip starts the cooling fan to cool the large-scale electric equipment; when the humidity sensor detects that the humidity data of the large-scale electric equipment is higher, the single chip starts the dryer to dry the large-scale electric equipment; when the flame sensor detects that the large-scale electric equipment is on fire, the singlechip starts the automatic fire extinguisher to extinguish the fire of the large-scale electric equipment; the detection data corresponding to each sensor can be transmitted to a remote intelligent terminal through a wireless communication device network, so that various data of large-scale electric equipment can be monitored remotely; the working principle of the power information acquisition chip, the data display device, the data storage device, the wireless communication device and the temperature sensor is taken as the part of the prior art, which is not the key point of the scheme of the application and is not repeated here.

By adopting the scheme, not only can the temperature of the power system (such as electric equipment) be acquired, but also the corresponding power system (such as electric equipment) with overhigh temperature can be cooled, and the existing temperature control defect is overcome; moreover, for the power system (electric equipment and the like), the temperature acquisition is not enough to eliminate the dangerous hidden danger, and the scheme also provides a humidity sensor and a flame sensor, so that the safety accident caused by overhigh humidity or ignition of the corresponding power system (electric equipment and the like) is avoided.

Example 2:

as shown in fig. 2, further on the basis of embodiment 1, the system further comprises a human-computer interaction device, and the human-computer interaction device is connected with the single chip microcomputer.

Through the scheme, when corresponding workers carry out on-site inspection, manual control can be carried out through the man-machine interaction device.

Furthermore, the human-computer interaction device is a touch screen. Touch screen (also called touch screen or touch panel) is an inductive liquid crystal display device capable of receiving input signals such as touch, when touching graphic buttons on the screen, the touch feedback system on the screen can drive various connecting devices according to a pre-programmed program, and can replace a mechanical button panel and produce vivid video and audio effects by the liquid crystal display picture. As a latest computer input device, the touch screen is the simplest, convenient and natural man-machine interaction mode at present. Endows a brand-new face of man-machine interaction, and is brand-new man-machine interaction equipment with great attraction.

Through above-mentioned scheme, compare in modes such as button, the more convenient intelligence of touch-sensitive screen.

Example 3:

as shown in fig. 3, further on the basis of embodiment 2, the device further comprises a positioning device, and the positioning device is connected with the single chip microcomputer.

Through the scheme, if potential safety hazards appear in corresponding power systems (electric equipment and the like), workers out of the site can catch up to the site of the potential safety hazards according to the positioning information of the positioning device.

Further, the positioning device is a GPS positioning system.

Through the scheme, the GPS positioning system has higher positioning accuracy.

Example 4:

as shown in fig. 4, further on the basis of embodiment 3, the system further comprises an image acquisition device, and the image acquisition device is connected with the single chip microcomputer.

By the scheme, when the detection data of other sensors are required to be checked whether to be normal or not, and relevant workers are not on the site of the power system (electric equipment and the like), the image acquisition device can be used for acquiring the images on the site, so that the remote verification of the detection data is performed.

Further, the image acquisition device is a panoramic camera. The 360-degree panoramic camera can monitor and cover a scene without blind spots, is provided with a fisheye lens, or a reflecting mirror (such as a parabola, a hyperbolic mirror and the like), or is formed by splicing a plurality of common lenses facing different directions, and has a 360-degree panoramic View Field (FOV). A panoramic camera can replace a plurality of common monitoring cameras, seamless monitoring is achieved, new monitoring application is achieved, and the panoramic camera is applied to various fields. An omni-directional Multi-camera System (OMS) is one type of panoramic camera, and a plurality of sensors in different directions are packaged in the OMS, so that a panoramic effect is obtained by performing image splicing operation on split pictures. The mainstream product is structured by packaging a plurality of sensors with two million images and a short-focus lens with independent field angle in a uniform shell. The core technologies of digital processing, compression and the like are integrated on the front-end firmware, a plurality of independent pictures are integrated into a high-definition panoramic picture of 180 degrees or 360 degrees according to the requirements of users, and then the high-definition panoramic picture is transmitted to a back-end management platform through a network or a high-speed bus.

Through the scheme, the panoramic camera has a wider image acquisition range.

Further, the intelligent control system also comprises an illuminating device, and the illuminating device is connected with the single chip microcomputer.

Through above-mentioned scheme, lighting device can cooperate image acquisition device to move, avoids influencing the image acquisition process because light temperature.

Further, the lighting device is an energy-saving lamp. Energy-saving lamps, also known as power-saving bulbs, electronic bulbs, compact fluorescent lamps and integral fluorescent lamps, refer to lighting devices in which a fluorescent lamp and a ballast (ballast) are combined into a whole.

Through the scheme, the energy-saving lamp has lower energy consumption, accords with energy conservation and emission reduction, and is convenient to popularize and use.

Example 5:

as shown in fig. 5, further on the basis of embodiment 4, the system further comprises an abnormality alarm device, and the abnormality alarm device is connected with the single chip microcomputer. An abnormality alarm device is an electronic product that reminds or warns people of certain actions in the form of sound, light, air pressure and the like in order to prevent or prevent the consequences caused by certain events. The alarm (alarm) is divided into a mechanical alarm and an electronic alarm. With the progress of science and technology, mechanical alarms are increasingly replaced by advanced electronic alarms, are often applied to the fields of system faults, safety precaution, transportation, medical treatment and rescue, emergency relief, induction detection and the like, and are inseparable from social production. Such as: a door magnetic sensor and a gas sensing alarm. The electronic alarm is preferably used in the scheme of the application.

Through the scheme, when the related sensors detect abnormality, the related sensors can warn through the abnormality alarming device.

It is worth noting that: the single chip microcomputer, the electric power information acquisition chip, the data display device, the data storage device, the wireless communication device, the temperature sensor, the cooling fan, the humidity sensor, the dryer, the flame sensor, the automatic fire extinguisher and the like in the scheme are all circuits or devices in the prior art, and the innovation of the scheme is not on a single circuit, but the plurality of circuits or devices are matched for use to achieve the purpose of the utility model and creation.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (10)

1. An energy-saving device for reducing the temperature of electric equipment comprises a single chip microcomputer, an electric power information acquisition chip, a data display device, a data storage device, a wireless communication device and a temperature sensor, and is characterized by further comprising a cooling fan, a humidity sensor, a dryer, a flame sensor and an automatic fire extinguisher;

the single chip microcomputer is respectively connected with the electric power information acquisition chip, the data display device, the data storage device, the wireless communication device, the temperature sensor, the cooling fan, the humidity sensor, the dryer, the flame sensor and the automatic fire extinguisher;

the single chip microcomputer is further connected with a remote intelligent terminal through the wireless communication device in a network mode.

2. The energy-saving device for reducing the temperature of electric equipment according to claim 1, further comprising a human-computer interaction device, wherein the human-computer interaction device is connected with the single chip microcomputer.

3. The energy-saving device for reducing the temperature of electric equipment according to claim 2, wherein the human-computer interaction device is a touch screen.

4. The energy-saving device for reducing the temperature of electric equipment according to claim 1, further comprising a positioning device, wherein the positioning device is connected with the single chip microcomputer.

5. The energy saving device for reducing the temperature of electric equipment according to claim 4, wherein the positioning device is a GPS positioning system.

6. The energy-saving device for reducing the temperature of electric equipment according to claim 1, further comprising an image acquisition device, wherein the image acquisition device is connected with the single chip microcomputer.

7. The energy-saving device for reducing the temperature of electric equipment according to claim 6, wherein the image acquisition device is a panoramic camera.

8. The energy-saving device for reducing the temperature of electric equipment according to claim 1, further comprising a lighting device, wherein the lighting device is connected with the single chip microcomputer.

9. The energy saving device for reducing the temperature of electric equipment according to claim 8, wherein the lighting device is an energy saving lamp.

10. The energy-saving device for reducing the temperature of electric equipment according to any one of claims 1 to 9, further comprising an abnormality alarm device, wherein the abnormality alarm device is connected with the single chip microcomputer.

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