TWM576310U - Energy control system - Google Patents

Abstract

An energy control system includes a plurality of monitoring devices, a servo host and a manager device. A monitoring device adapted to measure a monitored device and provide an energy consumption information. The servo host is connected to the monitoring device and receives the energy consumption information. The servo host includes a statistical module and a report module. The statistics module collects and stores the energy consumption information. The report module generates an energy consumption report information according to the energy consumption information. The manager device is connected to the server host, and can browse the energy consumption information and the energy consumption report information.

Description

Energy control system

This creation provides a control system, in particular an energy management system.

Energy is one of the important resources of modern life, especially the cost of controlling it in business operations. The amount of household appliances is relatively simple, and it can be monitored from the total electricity consumption. However, some companies or institutions, such as factories, schools, hospitals, etc. Usually there are a lot of equipment that needs energy, or special equipment. For example, large-scale production equipment in factories, special inspection equipment in hospitals, etc.

For these large and special equipments, their energy use is large and needs to be monitored to control the energy costs of enterprises or institutions. The traditional practice is to install monitoring equipment on these devices, and then the personnel will inspect the meter reading registration, and then statistical analysis. However, such a method requires manual execution, and it is impossible to monitor the energy consumption state of the device in real time, and occasionally the problem of personnel reading or registering errors. Moreover, the way of manpower execution is not suitable for a larger group. More equipment means more manpower to execute, and the cost-effectiveness is very low.

Therefore, how to solve the above problems is worthy of consideration in the field of ordinary knowledge.

This creation provides an energy control system that can control the energy consumption status of multiple devices and generate a variety of reports that are not in the same state, which is convenient for managers to browse.

The present invention provides an energy control system comprising a plurality of monitoring devices, a servo host and a manager device. A monitoring device adapted to measure a monitored device and provide an energy consumption information. The servo host is connected to the monitoring device and receives the energy consumption information. The servo host includes a statistical module and a report module. The statistics module collects and stores the energy consumption information. The report module generates an energy consumption report information according to the energy consumption information. The manager device is connected to the server host, and can browse the energy consumption information and the energy consumption report information.

In the above energy control system, the monitoring device further includes a location tag information, and the location tag information is transmitted to the server.

In the above energy control system, the report module receives the location tag information, and generates the energy consumption report information according to the location tag information and the energy consumption information.

In the above energy management system, the energy consumption report information is a location to distinguish each of the energy consumption information.

In the above energy control system, the energy consumption report information distinguishes each energy consumption information by time.

In the above energy control system, the server host further includes a management module adapted to set a plurality of administrator rights.

In the above energy control system, the server further includes a warning module adapted to determine the energy consumption information, and when the energy consumption information exceeds a warning value, transmitting a warning information to the manager device.

10‧‧‧Monitored devices

100‧‧‧Energy Control System

110‧‧‧Monitor

120‧‧‧Servo host

121‧‧‧Statistical Module

122‧‧‧Report Module

123‧‧‧Management module

124‧‧‧ Warning Module

130‧‧‧Administrative device

Figure 1 is a schematic diagram of an energy management system.

2A to 2E are diagrams showing energy consumption reports in different states.

This creation provides an energy control system. By monitoring each energy-consuming node, the energy consumption data is received by the servo host for analysis, integration and display, which is convenient for related personnel management.

Please refer to FIG. 1. FIG. 1 is a schematic diagram of an energy control system. The energy management system 100 includes a plurality of monitoring devices 110, a servo host 120, and a manager device 130. The monitoring device 110 is disposed on a monitored device 10, which is a device that needs to be monitored, such as an air conditioner, a chiller, a production device, and the like. The monitoring device 110 proceeds to monitor the energy consumption state of the monitored device 10, and causes the monitoring device 110 to provide an energy consumption information. In an embodiment, the monitoring device 110 further includes a location tag information, the location tag information records the location of the monitoring device 110, and the location tag information and the energy consumption information are transmitted to the server host 120.

The servo host 120 is the center of the main operation of the energy control system 100, and can be operated by a single server or by a plurality of servers. The servo host 120 is connected to each monitoring device 110 and receives energy consumption information provided by the monitoring device 110. The server host 120 includes a statistics module 121 and a report module 122.

The statistics module 121 is adapted to count and store the energy consumption information provided by the monitoring device 110. That is, the server host 120 can count and calculate energy consumption information through the statistics module 121. The report module 122 is adapted to generate an energy consumption report information according to the energy consumption information. The report module 122 can integrate different parameters to generate reports, or integrate various energy-consuming information to generate reports that are not in the same state.

Please refer to FIG. 2A to FIG. 2E , and FIG. 2A to FIG. 2E are diagrams showing energy consumption reports in different states. Please refer to FIG. 2A. In the embodiment of FIG. 2A, the energy consumption information of each region is presented in a pie chart from the upper position to the lower position according to the plurality of energy consumption information and the corresponding location label information. In the embodiment of FIG. 2A, the energy consumption information is firstly distinguished from the uppermost area, and the energy consumption information is distinguished from the different buildings in the area, and then the energy consumption information is separated from the facilities in the building. Energy consumption information from different locations is presented in a layered pie chart.

Referring to FIG. 2B, in the embodiment of FIG. 2B, it is arranged according to a plurality of energy consumption information, and according to energy consumption information of different regions but the same facilities, and is presented in the form of a segmented bar graph. In the embodiment of Fig. 2B, the electricity consumption of the general ward, the intensive care unit and the open ward of Taipei, Keelung and Yunlin are respectively compared, and the manager can present the data in a segmented bar chart. The chart compares the electricity consumption of general wards, intensive care units, and open wards in Taipei, Keelung, and Yunlin.

Referring to FIG. 2C, in the embodiment of FIG. 2C, the energy consumption information of different facilities in the same area is compared, and parameters can be added to calculate different data. In the embodiment of Figure 2C, the amount of electricity or water consumption (energy consumption information) can be divided by the number of people or the area of the facility. Further, the average electricity consumption per person, or the electricity consumption per unit area and water consumption. It is also presented in the form of a segmented bar chart, which is convenient for comparing the energy consumption information of the general ward, the intensive care unit and the open ward.

Referring to FIG. 2D, in the embodiment of FIG. 2D, the same monitored device 10 is compared, but the energy consumption information at different time points is compared, and the difference between the upper time point and the lower time point, that is, the month and the day, Rendered as a graph. In the embodiment of Fig. 2D, the energy consumption curve of the chiller is compared, and the two curves are divided into two months to observe the daily energy consumption state of the month, and the two curves are on the same graph, and the two months are compared. Daily energy consumption changes.

Referring to FIG. 2E, the embodiment of FIG. E is a relatively traditional form in which the location, equipment, power consumption, and electricity cost are used as comparison items. Among them, the electricity fee is to bring in the cost per unit, so that the report module 122 calculates the monthly electricity fee of the device when generating the energy consumption report information, and presents it in a form, so that the manager can browse the electricity consumption and electricity fee calculation of the equipment in different regions. .

Therefore, it can be seen from the embodiment of FIGS. 2A to 2E. The report module 122 generates the energy consumption report information, and the manager can select the required energy consumption information, parameters, location label information, and chart appearance. For example, energy consumption information by location; or energy consumption information by time. In turn, a report that is convenient for the manager to browse or compare is generated.

In addition to the statistics module 121 and the report module 122, in some embodiments, the server host 120 further includes a management module 123 and a warning module 124. The management module 123 is adapted to set a plurality of manager authority information, that is, if there are multiple managers in the energy control system 100, the rights of different managers can be set from the management module 123. Manager authority information will affect the energy consumption information or energy consumption report information that these managers can browse. For example, the facility supervisor can only view the energy consumption information of the affiliated units, and cannot access the energy consumption information of other regions, and the top management. The management module 123 can be used to set the manager authority information corresponding to the subordinates.

The alert module 124 is adapted to determine the received energy consumption information and transmit an alert message to the administrator device 130 when the energy consumption information exceeds a warning value. That is, the server host 120 can monitor the energy consumption information from each monitoring device 110 through the alert module 124. Once the energy consumption information exceeds the warning value, the warning module 124 immediately sends the warning information to the manager device 130 to notify the manager of the next step.

The manager device 130 is a device used by the administrator, such as a personal computer or a smart phone. The manager device 130 is connected to the server host 120 and reads data from the server host 120, or uses the management module 123 to set administrator rights. Therefore, the manager device 130 can browse energy consumption information, energy consumption report information, and the like. That is, the administrator can browse the energy consumption information and the energy consumption report information in the server host 120 through the manager device 130, and use the report module 122 to set the required parameters, and generate corresponding energy consumption report information, which is convenient for management. The person reviews the status of the monitored device 10.

The energy management system 100 of the present invention monitors the energy consumption state of the monitored device 10 through a plurality of monitoring devices 110. The energy consumption information of the monitoring device 110 is collected by the statistical module 121 and the report module 122 of the server host 120, and the energy consumption report information is generated, and the energy consumption report information can be changed according to the manager's needs. In this way, the manager can control the monitored device 10, which can save the time and cost of manual meter reading and improve the management efficiency of the business.

The present invention is described above by way of example, but it is not intended to limit the scope of patent rights claimed herein. The scope of patent protection is subject to the scope of the patent application and its equivalent fields. Any changes or modifications made by those skilled in the art without departing from the spirit or scope of this patent are subject to the equivalent changes or designs made in the spirit of the present disclosure and should be included in the scope of the patent application below. Inside.

Claims (7)

An energy control system includes: a plurality of monitoring devices adapted to measure a monitored device and provide a power consumption information; a servo host connected to the monitoring device and receiving the energy consumption information, the servo host includes: a statistical module that counts and stores the energy consumption information; and a report module that generates an energy consumption report information based on the energy consumption information; and an administrator device that is connected to the server and can browse the energy consumption information and The energy consumption report information. The energy control system of claim 1, wherein the monitoring device further includes a location tag information, and the location tag information is transmitted to the server. The energy control system of claim 2, wherein the report module receives the location tag information, and generates the energy consumption report information according to the location tag information and the energy consumption information. For example, the energy control system described in claim 3, wherein the energy consumption report information distinguishes each energy consumption information by location. For example, in the energy control system described in claim 1, wherein the energy consumption report information distinguishes each of the energy consumption information by time. The energy control system of claim 1, wherein the server further includes a management module adapted to set a plurality of manager rights. The energy control system of claim 1, wherein the servo host further includes a warning module adapted to determine the energy consumption information, and when the energy consumption information exceeds a warning value, transmitting a warning information to The manager device.