TWI660323B - Energy monitoring and management system, and energy monitoring and management method - Google Patents

Abstract

The invention provides an energy monitoring and management system including a store electricity management system, an environmental temperature and humidity meter, a solar power generation system, and an interactive energy-saving information display platform. The interactive energy-saving information display platform is electrically connected to the store electricity management system and an environmental temperature and humidity meter. With solar power system. The store electricity management system provides one store electricity information, the environmental temperature and humidity measurement measures one store temperature information and one store humidity information, the solar power generation system provides one electricity generation information, and the interactive energy-saving information display platform accepts and displays store electricity consumption information , At least one of store temperature information, store humidity information, and power generation information.

Description

Energy monitoring management system and energy monitoring management method

The present invention relates to a system and method, and more particularly, to an energy monitoring and management system and method.

Highway service areas, also known as rest stations, generally appear on higher highways such as expressways. The main purpose is to provide passers-by with short breaks and provide services such as toilets, gas stations, and shops.

At present, the service desk personnel in the service area of the freeway rest store need to adjust the air-conditioning temperature setting value and the air outlet angle of the store when they are on duty to maintain the environment comfort of the store. However, the negligent failure to adjust the air-conditioning set temperature leads to the store. Air conditioners generate unnecessary energy consumption such as overheating or overcooling.

In order to solve the above-mentioned problems, the related fields have made every effort to find a solution, but for a long time, no applicable method has been developed. Therefore, how the store service desk staff can grasp the store environment and power consumption status at any time is really one of the important research and development issues at present, and it has become a target that is in great need of improvement in the related fields.

One aspect of the present invention is to provide an energy monitoring management system and an energy monitoring management method to solve the problems of the prior art.

The energy monitoring and management system provided by the present invention includes a store electricity management system, an environmental temperature and humidity meter, a solar power generation system, and an interactive energy-saving information display platform. The interactive energy-saving information display platform is electrically connected to the store electricity management system and environmental temperature and humidity. Designed with solar power systems. The store electricity management system provides one store electricity information, the environmental temperature and humidity measurement measures one store temperature information and one store humidity information, the solar power generation system provides one electricity generation information, and the interactive energy-saving information display platform accepts and displays store electricity consumption information , At least one of store temperature information, store humidity information, and power generation information.

In one embodiment, the energy monitoring management system further includes a power load prediction module. The power load prediction module analyzes the power consumption information of the store according to Support Vector Regression, and then predicts whether the power consumption of a store exceeds a target value. When the power consumption of the store is expected to exceed the target value, the interactive energy saving information The display platform displays an electric warning information.

In one embodiment, the energy monitoring management system further includes an air conditioning strategy control module. The air-conditioning strategy control module calculates the integrated temperature information based on the store temperature information and supplemented with the store humidity information, and then calculates a manual air-conditioning temperature setting interval from the store temperature information and body temperature information, so that the interactive energy-saving information display platform displays manual Air-conditioning temperature setting interval.

In one embodiment, when the interactive energy-saving information display platform receives an air-conditioning set temperature value within a manual air-conditioning temperature setting interval, the interactive The energy-saving information display platform outputs the air-conditioning set temperature value to the air-conditioning strategy control module, so that the air-conditioning strategy control module adjusts the temperature control input parameters of a store air-conditioner based on the air-conditioning set temperature.

In one embodiment, the interactive energy-saving information display platform further displays a service contact information and a road and other real-time interactive information, receives a passenger message, and then forwards the passenger message to a mobile device.

In one embodiment, the energy monitoring management system further includes a rotating platform. The rotating platform is connected to the interactive energy-saving information display platform, enabling the interactive energy-saving information display platform to rotate 360 degrees.

In another aspect, the energy monitoring and management method provided by the present invention includes The following steps: provide a store electricity consumption information; measure a store temperature information and a store humidity information; provide a power generation information; use an interactive energy-saving information display platform to accept and display store electricity consumption information, store temperature information, store At least one of humidity information and power generation information.

In an embodiment, the energy monitoring management method further includes: Vector regression is used to analyze the electricity consumption information of the store, and then predict whether the electricity consumption of a store exceeds a target value. When the electricity consumption of the store is expected to exceed the target value, the interactive energy-saving information display platform displays a warning message of electricity consumption.

In an embodiment, the energy monitoring and management method further includes: The temperature information is supplemented by the store humidity information to calculate the integrated temperature information, and then a manual air conditioner temperature setting interval is calculated from the store temperature information and the body temperature information, so that the interactive energy saving information display platform displays the manual air conditioner temperature setting interval.

In an embodiment, the energy monitoring and management method further includes: When the energy-saving information display platform receives an air-conditioning set temperature value within a manual air-conditioning temperature setting interval, it adjusts the temperature control input parameters of a store air-conditioner based on the air-conditioning set temperature.

In summary, the technical solution of the present invention has obvious advantages and beneficial effects compared with the prior art. With the above technical solution, considerable technical progress can be achieved and it has extensive industrial use value. It has at least the following advantages: 1. Store desk staff can always grasp the temperature and humidity of the store environment and the electricity consumption of the store. Calculate the manual air-conditioning temperature setting interval with the body temperature, and dynamically adjust the air-conditioning set temperature; and 2. Value-added services including passengers can get real-time interactive information such as service contact information and highways when the service desk personnel leave, passengers can use the platform Leave a message and send it to the help desk staff or security staff on the mobile device via the Internet, which can instantly grasp the needs of travelers and consumers.

The above description will be described in detail in the following embodiments, and further explanation will be provided for the technical solution of the present invention.

In order to make the above and other objects, features, advantages, and embodiments of the present invention more comprehensible, the description of the attached symbols is as follows:

100‧‧‧ Energy Monitoring Management System

110‧‧‧ Interactive energy-saving information display platform

120‧‧‧store electricity management system

130‧‧‧Ambient Temperature and Hygrometer

140‧‧‧solar power system

150‧‧‧ Electric Load Forecasting Module

160‧‧‧Air conditioning strategy control module

170‧‧‧store air conditioner

180‧‧‧ mobile device

210‧‧‧Manual air conditioner temperature setting interval

300‧‧‧Rotary platform

310‧‧‧base

320‧‧‧rotation axis

330‧‧‧Connection Department

340‧‧‧First arm

350‧‧‧ second arm

360‧‧‧ Crossbar

370‧‧‧Fixed section

In order to make the above and other objects, features, advantages, and embodiments of the present invention more comprehensible, the description of the drawings is as follows: FIG. 1 is a block diagram of an energy monitoring and management system according to an embodiment of the present invention; 2 is a schematic diagram of an interactive energy-saving information display platform according to an embodiment of the present invention; FIG. 3A is a perspective view of a rotary platform according to an embodiment of the present invention at a viewing angle; and FIG. 3B is a perspective view of a rotary platform according to another embodiment of the present invention at another viewing angle.

In order to make the description of the present invention more detailed and complete, reference may be made to the accompanying drawings and various embodiments described below. The same numbers in the drawings represent the same or similar elements. On the other hand, well-known elements and steps have not been described in the embodiments, so as to avoid unnecessary limitation to the present invention.

FIG. 1 is a block diagram of an energy monitoring and management system 100 according to an embodiment of the present invention. As shown in FIG. 1, the energy monitoring management system 100 includes an interactive energy-saving information display platform 110, a store electricity management system 120, an environmental temperature and humidity meter 130, and a solar power generation system 140. Architecturally, the interactive energy-saving information display platform 110 is electrically connected to the store power management system 120, the environmental temperature and humidity meter 130, and the solar power generation system 140.

In use, the store electricity management system 120 provides a store electricity information, the environmental temperature and humidity meter 130 measures a store temperature information and a store humidity information, the solar power generation system 140 provides a power generation information, an interactive energy-saving information display platform 110 Accept and display at least one of the information on electricity consumption in the store, temperature information on the store, humidity information on the store, and power generation information. In this way, the store service personnel can dynamically adjust the air-conditioning set temperature according to the on-site air conditioning coldness requirements, the store environment temperature and humidity, and solar power generation conditions, so as to meet the service desk staff's maintenance comfort maintenance requirements.

In order to achieve the energy consumption management of the store, in one embodiment, the energy monitoring management system 100 further includes a power load prediction module 150. Structurally, the electric load prediction module 150 is electrically connected to the interactive energy-saving information display platform 110. In use, the power load prediction module 150 analyzes the power consumption information of the store according to Support Vector Regression, and then predicts whether the power consumption of a store exceeds a target value. When the power consumption of the store is expected to exceed the target value, The interactive energy-saving information display platform 110 displays a warning message of electricity consumption. This helps store service personnel to know early if the electricity consumption forecast of the store exceeds the target value. The target value can be flexibly adjusted by the system manager or other personnel according to the actual application. Furthermore, using theoretical models such as support vector regression machine learning to make hourly energy consumption predictions in the next 30 days.

Because the store space is equipped with an environmental temperature and humidity meter 130, Using the store temperature and humidity information, in one embodiment, the energy monitoring management system 100 further includes an air conditioning strategy control module 160. Structurally, the air-conditioning strategy control module 160 is electrically connected to the interactive energy-saving information display platform 110. In use, the air-conditioning strategy control module 160 calculates the integrated temperature information based on the store temperature information and supplemented with the store humidity information to reflect the temperature feeling of the store staff on hot and cold. At high temperature, the relative humidity increases and the human body truly feels The heat will exceed the actual temperature. Therefore, the air-conditioning strategy control module 160 calculates a manual air-conditioning temperature setting interval 210 (shown in FIG. 2) from the store temperature information and body temperature information, so that the interactive energy-saving information display platform 110 displays the manual air-conditioning temperature setting interval. In order to form a manual operation instrument, as a reference for the air-conditioning temperature input of the store personnel, to meet the comfort and energy saving requirements of the store's air-conditioning.

Somatosensory temperature is mainly affected by air temperature and humidity, and also affected by wind speed and radiation. A certain wind speed can make people feel that the airflow is flowing, and the heat emitted by the body is blown off the body surface, even though the temperature is high, but it is relatively dry; the solar radiation directly feels uncomfortable if it is under the shade of the tree Or under the awning, it feels completely different from the direct radiation of the sun. Generally, the temperature difference between cloudy and sunny days is 4-6 ° C, or even greater. Therefore, in an embodiment, the air-conditioning strategy control module 160 calculates the sense of unity based on the store temperature and humidity information measured by the ambient temperature and humidity meter 130, the wind speed information of the store air conditioner 170, and the radiation information provided by the solar power generation system 140. Temperature information, and then calculate a manual air-conditioning temperature setting interval 210 (shown in Figure 2) from the store temperature information and body temperature information.

In the above, the store personnel can set the temperature range of the manual air conditioner. Any of the air conditioner set temperature values can be flexibly selected as input in 210. When the interactive energy saving information display platform 110 receives an air conditioner set temperature value in the manual air conditioner temperature setting interval 210, the interactive energy saving information display platform 110 outputs the air conditioner set temperature. Value to the air-conditioning strategy control module 160, so that the air-conditioning strategy control module 160 adjusts the temperature control input parameters of the store air conditioner 170 based on the air-conditioning set temperature to avoid unnecessary energy consumption such as over-heating or over-cooling in the store air-conditioning, and In the case of affecting the comfort of the air-conditioning environment, it is possible to prevent the air conditioner 170 of the store from overcharging the electricity, thereby achieving the purpose of energy saving.

Furthermore, the interactive energy-saving information display platform 110 can be used as a passenger An interactive medium for information display and communication between the customer and the help desk staff. In one embodiment, the interactive energy-saving information display platform 110 displays a service contact information and a real-time interactive information such as a highway, so that passengers can use the help desk staff Get real-time interactive information when you leave. Passengers can leave a message on the interactive energy-saving information display platform 110. The interactive energy-saving information display platform 110 receives the passenger's message, and then forwards the passenger's message to the mobile device 180 of the help desk or security personnel via the network for real-time grasp. Passenger consumer demand. On the other hand, the conventional technology uses a single-handed cardboard display, which cannot update relevant information in real time, such as temporarily leaving for a few minutes, contact person information, etc., and passengers cannot be notified immediately to obtain a reply; therefore, the present invention provides a Service response needs, message service, and store comfort maintenance needs of service desk staff.

Interactive energy-saving information display platform 110 can be connected to the rotary platform 300, as shown in Figures 3A and 3B, so that the interactive energy-saving information display platform can be rotated 360 degrees, and the rest shop desk staff or passengers can rotate to watch at different angles, which is very convenient.

Specifically, the rotary platform 300 includes a base 310 and a rotation axis. 320, the connecting portion 330, the first arm portion 340, the second arm portion 350, the cross bar 360, and the fixing portion 370. Structurally, the rotation shaft 320 is pivotally connected to the base 310, the center of the connection portion 330 is connected to the rotation shaft 320, the first arm portion 340 and the second arm portion 350 are respectively disposed on opposite sides of the connection portion 330, and the cross bar 360 is roughly Parallel to the connecting portion 330, two ends of the cross bar 360 are connected to the top portions of the first and second arm portions 340 and 350, respectively. The fixed portion 370 is disposed on the cross bar 360 and is used for detachable joint interactive energy saving information display. Platform 110.

In practice, the interactive energy-saving information display platform 110 may be a tablet computer or a similar device. Specific implementations of the electric load prediction module 150 and the air conditioning strategy control module 160 may be software, hardware, and / or hardware. For example Say, if speed and accuracy are the primary considerations, these modules can basically use hardware and / or corpuscle; if design flexibility is the primary consideration, these modules can basically use software Or, these modules can work together with software, hardware and carcass. It should be understood that the examples mentioned above are not so-called superior or inferior, nor are they intended to limit the present invention. Those skilled in the art should flexibly choose the specific implementation modes of these modules as needed at the time. In one embodiment, the electric load prediction module 150 and the air-conditioning strategy control module 160 may be integrated into a computer system.

On the other hand, the present invention also provides an energy monitoring and management method, which includes the following steps: providing a store's electricity consumption information; measuring a store's temperature information and a store's humidity information; providing a power generation amount information; using an interactive energy-saving information The display platform 110 receives and displays at least one of the information on power consumption of the store, temperature information on the store, humidity information on the store, and power generation information.

In one embodiment, the energy monitoring management method further includes: analyzing the power consumption information of the store based on support vector regression, and then predicting whether the power consumption of a store exceeds a target value. When the power consumption of the store is expected to exceed the target value, interactive energy saving The information display platform 110 displays an electric warning information.

In one embodiment, the energy monitoring and management method further includes: calculating the integrated temperature information based on the store temperature information and supplemented with the store humidity information, and then calculating a manual air-conditioning temperature setting interval from the store temperature information and the body temperature information to enable interaction. The energy-saving information display platform 110 displays a manual air-conditioning temperature setting interval.

In an embodiment, the energy monitoring and management method further includes: when the interactive energy-saving information display platform 110 receives the temperature within the manual air-conditioning setting range When one of the air conditioner sets a temperature value, the temperature control input parameters of a store air conditioner are adjusted based on the air conditioner set temperature.

It should be understood that the steps mentioned in this energy monitoring and management method can be adjusted according to actual needs, except for those whose order is specifically stated, and can even be performed simultaneously or partially. As for the hardware device that implements these steps, since the above embodiments have been specifically disclosed, they will not be repeated here.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any person skilled in the art can make various modifications and retouches without departing from the spirit and scope of the present invention. Therefore, the protection of the present invention The scope shall be determined by the scope of the attached patent application.

Claims (6)

An energy monitoring and management system includes: a store electricity management system that provides information on a store's electricity consumption; an environmental temperature and humidity meter that measures a store temperature information and a store humidity information; a solar power generation system that provides a power generation information And a radiation information; a store air conditioner that provides a wind speed information; an interactive energy-saving information display platform that electrically connects the store's electricity management system, the environmental temperature and humidity meter, and the solar power generation system for receiving and displaying the At least one of the electricity consumption information of the store, the temperature information of the store, the humidity information of the store, and the power generation information; an electricity load prediction module that analyzes the electricity consumption information of the store according to Support Vector Regression, It then predicts whether the electricity consumption of a store exceeds a target value. When the electricity consumption of the store is expected to exceed the target value, the interactive energy-saving information display platform displays an electricity warning information; and an air conditioning strategy control module based on the The temperature information of the store measured by the ambient temperature and humidity meter, the humidity information of the store, the wind of the store air conditioner Information and the radiation information provided by the solar power generation system to calculate integrated temperature information, and then calculate a manual air-conditioning temperature setting interval from the store temperature information and the somatosensory temperature information, so that the interactive energy-saving information display platform displays the Manual air-conditioning temperature setting interval. The energy monitoring management system according to claim 1, wherein when the interactive energy-saving information display platform receives an air-conditioning set temperature value within the manual air-conditioning temperature setting interval, the interactive energy-saving information display platform outputs the air-conditioning setting The temperature value reaches the air conditioning strategy control module, so that the air conditioning strategy control module adjusts a temperature control input parameter of a store air conditioner based on the air conditioning set temperature. The energy monitoring and management system according to claim 1, wherein the interactive energy-saving information display platform further displays a service contact information and a highway and other real-time interactive information, and receives a passenger message, and then forwards the passenger message to a Mobile device. The energy monitoring and management system according to claim 1, further comprising: a rotating platform connected to the interactive energy-saving information display platform, so that the interactive energy-saving information display platform can rotate 360 degrees. An energy monitoring and management method includes: providing a store electricity consumption information; measuring an store temperature information and a store humidity information through an environmental temperature and humidity measurement; providing a power generation information and a radiation information through a solar power generation system; providing a One wind speed information of the store air conditioner; use an interactive energy-saving information display platform to receive and display at least one of the store's power consumption information, the store's temperature information, the store's humidity information and the power generation information; regression based on support vector To analyze the electricity consumption information of the store, and then predict whether the electricity consumption of a store exceeds a target value. When the electricity consumption of the store is expected to exceed the target value, the interactive energy-saving information display platform displays a warning message of electricity consumption; and based on The temperature information of the store measured by the ambient temperature and humidity meter and the store humidity information, the wind speed information of the store air conditioner, and the radiation information provided by the solar power generation system are used to calculate integrated temperature information, and then the store temperature Information and the somatosensory temperature information to calculate a manual air-conditioning temperature setting interval, so that the Saving information display platform movable display setting of the manual air-conditioning temperature range. The energy monitoring and management method according to claim 5, further comprising: when the interactive energy-saving information display platform receives an air-conditioning set temperature value within the manual air-conditioning temperature setting interval, adjusting a store based on the air-conditioning set temperature Air conditioner temperature control input parameters.