CN213582443U - Energy consumption remote acquisition system based on automatic energy management - Google Patents
Energy consumption remote acquisition system based on automatic energy management Download PDFInfo
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- CN213582443U CN213582443U CN202022546518.9U CN202022546518U CN213582443U CN 213582443 U CN213582443 U CN 213582443U CN 202022546518 U CN202022546518 U CN 202022546518U CN 213582443 U CN213582443 U CN 213582443U
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Abstract
The utility model discloses a belong to long-range collection system technical field, specifically be an energy consumption long-range collection system based on automatic energy management, including remote switch, remote monitoring device, water consuming apparatus, power consumptive device, heat consumption device, data acquisition module, data contrast module, outer net server, data receiving module. The utility model discloses a pass through the water consumption that the network was collected remote terminal at local terminal, the power consumption, heat consumption data are collected, the storage, the analysis, browse, and in adding this system with current automatic remote switch, accessible remote switch fires the switch to remote equipment in real time, and through remote monitering system, monitor long-range equipment in real time, and simultaneously, be provided with the data contrast module at remote terminal, when the data discrepancy great with historical data and data acquisition device collection is arrived to the data contrast module, warn through alarm device, the security of device has been improved.
Description
Technical Field
The utility model relates to a long-range collection system technical field specifically is a long-range collection system of energy consumption based on automatic energy management.
Background
An energy source is a resource that is capable of providing energy. The energy herein generally refers to thermal energy, electrical energy, optical energy, mechanical energy, chemical energy, and the like. Energy sources can be divided into three main categories according to sources: (1) energy from the sun. The energy source comprises energy directly from the sun (such as sunlight thermal radiation energy) and energy indirectly from the sun (such as combustible minerals such as coal, oil, natural gas, oil shale and the like, biomass energy such as firewood and the like, water energy, wind energy and the like). (2) Energy from the earth itself. One is geothermal energy stored in the earth, such as underground hot water, underground steam, and dry hot rock mass; the other is nuclear energy stored in nuclear fuel such as uranium, thorium and the like in the crust. (3) The gravitational force of celestial bodies such as moon and sun on the earth generates energy such as tidal energy
In order to effectively manage the operation of the building and guide the building equipment to perform energy-saving optimization, a corresponding energy consumption remote acquisition system needs to be constructed in the building. With the rapid development of green building technology, intelligent building systems are becoming larger and more complex, so subsystems are required to be added to meet functional requirements, and related technologies and equipment are becoming diversified. Because the complexity of the system is higher and higher, the traditional and single analysis method cannot meet the requirements of analysis and management of the system, and therefore, the development of an energy consumption remote acquisition system based on automatic energy management is needed.
SUMMERY OF THE UTILITY MODEL
This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.
In view of the problems existing in the prior art, the utility model discloses.
Therefore, the utility model aims at providing an energy consumption remote acquisition system based on automatic energy management, the water consumption that collects remote terminal through the network at local terminal, the power consumption, heat loss data are collected, the storage, the analysis, browse, and add this system with current automatic remote switch, accessible remote switch fires the switch to remote equipment in real time, and through remote monitoring system, real-time to long-range equipment monitoring, and simultaneously, be provided with the data contrast module at remote terminal, when the data discrepancy great with historical data and data acquisition device collection is followed to the data contrast module, warn through alarm device, the security of device has been improved.
For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:
a remote energy consumption acquisition system based on automatic energy management comprises a remote switch, a remote monitoring device, a water consumption device, an electricity consumption device, a heat consumption device, a data acquisition module, a data comparison module, an external network server and a data receiving module;
the remote switch is connected to the water consumption device, the power consumption device and the heat consumption device, and is used for realizing remote control on or off of the water consumption device, the power consumption device and the heat consumption device through a local terminal;
the remote monitoring device is connected to the water consumption device, the power consumption device and the heat consumption device, and is used for remotely monitoring the field operation conditions of the water consumption device, the power consumption device and the heat consumption device through a local terminal;
the water consumption device is provided with a water flow meter which is connected to a water consumption totaling module and is used for recording the water consumption of the water consumption device;
the power consumption device is provided with an ammeter instrument, the ammeter instrument is connected to a power consumption totaling module, and the ammeter instrument is used for recording the power consumption of the power consumption device;
the heat consumption device is provided with a heat meter, the heat meter is connected to a heat consumption totaling module, and the heat meter is used for recording the heat consumption of the heat consumption device;
the water consumption totaling module is connected to a plurality of water flow meters and is used for realizing the total addition of the water consumption of the corresponding water consumption devices recorded by the plurality of water flow meters;
the power consumption totaling module is connected to the plurality of electric meter instruments and is used for realizing the total addition of the water consumption of the corresponding power consumption devices recorded by the plurality of electric meter instruments;
the heat consumption totalizing module is connected to a plurality of heat meters and is used for realizing the total addition of the water consumption of the corresponding heat consumption devices recorded by the plurality of heat meters;
the water consumption totaling module, the power consumption totaling module and the heat consumption totaling module are connected to the data acquisition module;
the data acquisition module is connected to the data uploading module and the data comparison module, and is used for acquiring data calculated by the water consumption totaling module, the power consumption totaling module and the heat consumption totaling module;
the data comparison module is connected to the first data storage module and the alarm device and is used for comparing data acquired by the data acquisition module with historical data stored in the first data storage module;
the alarm device is used for alarming when the history data compared by the data comparison module and the data acquired by the data acquisition module have larger access;
the data uploading module is connected to the extranet server, the extranet server is connected to the local network connection module, and the data uploading module is used for transmitting the data acquired by the data acquisition module to the data receiving module through the extranet server and the local network connection module;
the data receiving module is connected to the central processing unit and is used for acquiring the data transmitted by the data uploading module;
the central processing unit is connected to the second data storage module and is used for processing and analyzing the data received by the data receiving module;
the second data storage module is connected to the query display module and is used for storing the data analyzed and processed by the central processing unit;
the query display module is connected to the second data storage module and is used for enabling a user to read the data stored in the second data storage module.
As an automatic energy management based energy consumption remote acquisition system's an preferred scheme, wherein: the first data storage module and the second data storage module are both solid-state storage hard disks.
As an automatic energy management based energy consumption remote acquisition system's an preferred scheme, wherein: the alarm device is provided with a sound and light alarm.
As an automatic energy management based energy consumption remote acquisition system's an preferred scheme, wherein: the local network connection module has a router and a gateway.
Compared with the prior art, the beneficial effects of the utility model are that: the water consumption that collects remote terminal at local terminal through the network, the power consumption, heat consumption data are collected, the storage, the analysis, browse, and add present automatic remote switch in this system, accessible remote switch closes on fire to remote equipment in real time, and through remote monitering system, real-time remote equipment is monitored, and simultaneously, be provided with data contrast module at remote terminal, when data access great with historical data and data acquisition device collection is compared to the module, warn through alarm device, the security of device has been improved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor. Wherein:
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is a system block diagram of the present invention.
In the figure: the remote switch 100, the remote monitoring device 200, the water consumption device 300, the water flow meter 310, the water consumption totaling module 320, the power consumption device 400, the electric meter instrument 410, the power consumption totaling module 420, the heat consumption device 500, the heat meter 510, the heat consumption totaling module 520, the data acquisition module 600, the data uploading module 610, the data comparison module 700, the first data storage module 710, the alarm device 720, the extranet server 800, the local network connection module 810, the data receiving module 900, the central processing unit 910, the second data storage module 920 and the query display module 930.
Detailed Description
In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways than those specifically described herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.
Next, the present invention will be described in detail with reference to the schematic drawings, and in the detailed description of the embodiments of the present invention, for convenience of explanation, the sectional view showing the device structure will not be partially enlarged according to the general scale, and the schematic drawings are only examples, and should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.
In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.
The utility model provides a following technical scheme: the utility model provides an energy consumption remote acquisition system based on automatic energy management, in the use, the water consumption that collects remote terminal at local terminal through the network, the power consumption, heat consumption data are collected, the storage, the analysis, browse, and in adding this system with current automatic remote switch, accessible remote switch fires the switch to remote equipment in real time, and through remote monitoring system, real-time long-range equipment is monitored, and simultaneously, be provided with the data contrast module at remote terminal, when the data discrepancy great with historical data and data acquisition device collection is gathered to the data contrast module, warn through alarm device, the security of device has been improved.
Referring to fig. 1 to 2, the system includes a remote switch 100, a remote monitoring device 200, a water consumption device 300, a power consumption device 400, a heat consumption device 500, a data acquisition module 600, a data comparison module 700, an external network server 800, and a data receiving module 900;
referring to fig. 1 again, the remote switch 100 is connected to the water consumption device 300, the power consumption device 400, and the heat consumption device 500, and the remote switch 100 is used to remotely control the on or off of the water consumption device 300, the power consumption device 400, and the heat consumption device 500 through a local terminal;
the remote monitoring device 200 is connected to the water consumption device 300, the power consumption device 400 and the heat consumption device 500, and the remote monitoring device 200 is used for remotely monitoring the real running conditions of the water consumption device 300, the power consumption device 400 and the heat consumption device 500 through a local terminal;
the water consumption device 300 is provided with a water flow meter 310, the water flow meter 310 is connected to a water consumption totaling module 320, and the water flow meter 310 is used for recording the water consumption of the water consumption device 300;
the power consumption device 400 is provided with an electric meter instrument 410, the electric meter instrument 410 is connected to a power consumption totaling module 420, and the electric meter instrument 410 is used for recording the power consumption of the power consumption device 400;
the heat consumption device 500 is provided with a heat meter 510, the heat meter 510 is connected to a heat consumption totaling module 520, and the heat meter 510 is used for recording the heat consumption of the heat consumption device 500;
a water consumption totaling module 320 connected to the plurality of water flow meters 310, the water consumption totaling module 320 being configured to realize total addition of the water consumption of the corresponding water consumption devices 300 recorded by the plurality of water flow meters 310;
a power consumption totaling module 420 connected to the plurality of electric meter instruments 410, wherein the power consumption totaling module 420 is used for realizing total addition of the water consumption of the corresponding power consumption devices 400 recorded by the plurality of electric meter instruments 410;
a heat consumption totaling module 520 connected to the plurality of heat meters 510, the heat consumption totaling module 520 being configured to realize total addition of the water consumption of the corresponding heat consumption devices 500 recorded by the plurality of heat meters 510;
the water consumption totaling module 320, the power consumption totaling module 420 and the heat consumption totaling module 520 are connected to the data acquisition module 600;
the data acquisition module 600 is connected to the data uploading module 610 and the data comparison module 700, and the data acquisition module 600 is used for acquiring data calculated by the water consumption totaling module 320, the power consumption totaling module 420 and the heat consumption totaling module 520;
the data comparison module 700 is connected to the first data storage module 710 and the alarm device 720, and the data comparison module 700 is used for comparing the data acquired by the data acquisition module 600 with the historical data stored in the first data storage module 710;
the alarm device 720 is used for alarming through the alarm device 720 when the history data after being compared by the data comparison module 700 and the data acquired by the data acquisition module 600 have larger access, and the alarm device 720 is provided with a sound and light alarm;
the data uploading module 610 is connected to the extranet server 800, the extranet server 800 is connected to the local network connection module 810, the data uploading module 610 is used for transmitting the data acquired by the data acquisition module 600 to the data receiving module 900 through the extranet server 800 and the local network connection module 810, and the local network connection module 810 is provided with a router and a gateway;
the data receiving module 900 is connected to the central processor 910, and the data receiving module 900 is configured to obtain the data transmitted by the data uploading module 610;
the central processing unit 910 is connected to the second data storage module 920, the central processing unit 910 is configured to perform processing and analysis on the data received by the data receiving module 900, and the first data storage module 710 and the second data storage module 920 are both solid state storage hard disks;
a second data storage module 920, connected to the query display module 930, where the second data storage module 920 is used to store the data analyzed and processed by the central processing unit 910;
and the query display module 930 is connected to the second data storage module 920, and the query display module 930 is used for enabling a user to read the data stored in the second data storage module 920.
In specific use, as needs the utility model discloses the in-process that uses, the water consumption that collects remote terminal through the network at local terminal, the power consumption, heat loss data are collected, the storage, the analysis, browse, and in adding this system with current automatic remote switch, accessible remote switch fires the switch to remote equipment in real time, and through remote monitoring system, real-time equipment to long-range is monitored, and simultaneously, be provided with the data contrast module at remote terminal, when the data discrepancy great with historical data and data acquisition device collection is gathered to the data contrast module, warn through alarm device, the security of device has been improved.
While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.
Claims (4)
1. The utility model provides a remote energy consumption acquisition system based on automatic energy management which characterized in that: the system comprises a remote switch (100), a remote monitoring device (200), a water consumption device (300), a power consumption device (400), a heat consumption device (500), a data acquisition module (600), a data comparison module (700), an external network server (800) and a data receiving module (900);
the remote switch (100) is connected to the water consumption device (300), the power consumption device (400) and the heat consumption device (500), and the remote switch (100) is used for realizing the remote control of the on or off of the water consumption device (300), the power consumption device (400) and the heat consumption device (500) through a local terminal;
the remote monitoring device (200) is connected to the water consumption device (300), the power consumption device (400) and the heat consumption device (500), and the remote monitoring device (200) is used for remotely monitoring the field operation conditions of the water consumption device (300), the power consumption device (400) and the heat consumption device (500) through a local terminal;
the water consumption device (300) is provided with a water flow meter (310), the water flow meter (310) is connected to a water consumption totaling module (320), and the water flow meter (310) is used for recording the water consumption of the water consumption device (300);
the power consumption device (400) is provided with an electric meter instrument (410), the electric meter instrument (410) is connected to a power consumption totaling module (420), and the electric meter instrument (410) is used for recording the power consumption of the power consumption device (400);
the heat consumption device (500) is provided with a heat meter (510), the heat meter (510) is connected to a heat consumption totalization module (520), and the heat meter (510) is used for recording the heat consumption of the heat consumption device (500);
the water consumption totaling module (320) is connected to a plurality of water flow meters (310), and the water consumption totaling module (320) is used for realizing the total addition amount of the water consumption of the corresponding water consumption device (300) recorded by the plurality of water flow meters (310);
the electricity consumption totaling module (420) is connected to the plurality of electric meter instruments (410), and the electricity consumption totaling module (420) is used for realizing the total addition amount of the water consumption amount of the corresponding electric consumption device (400) recorded by the plurality of electric meter instruments (410);
the heat consumption totalizing module (520) is connected to a plurality of heat consumption meters (510), and the heat consumption totalizing module (520) is used for realizing the total addition amount of the water consumption of the corresponding heat consumption device (500) recorded by the plurality of heat consumption meters (510);
the water consumption totaling module (320), the electricity consumption totaling module (420) and the heat consumption totaling module (520) are connected to the data acquisition module (600);
the data acquisition module (600) is connected to the data uploading module (610) and the data comparison module (700), and the data acquisition module (600) is used for acquiring data calculated by the water consumption totaling module (320), the power consumption totaling module (420) and the heat consumption totaling module (520);
the data comparison module (700) is connected to the first data storage module (710) and the alarm device (720), and the data comparison module (700) is used for comparing the data acquired by the data acquisition module (600) with the historical data stored in the first data storage module (710);
the alarm device (720) is used for alarming through the alarm device (720) when the history data after being compared by the data comparison module (700) and the data collected by the data collection module (600) have larger access;
the data uploading module (610) is connected to the extranet server (800), the extranet server (800) is connected to a local network connection module (810), and the data uploading module (610) is used for transmitting the data collected by the data collecting module (600) to the data receiving module (900) through the extranet server (800) and the local network connection module (810);
the data receiving module (900) is connected to the central processing unit (910), and the data receiving module (900) is used for acquiring the data transmitted by the data uploading module (610);
the central processing unit (910) is connected to the second data storage module (920), and the central processing unit (910) is used for processing and analyzing the data received by the data receiving module (900);
the second data storage module (920) is connected to the query display module (930), and the second data storage module (920) is used for storing the data analyzed and processed by the central processing unit (910);
the query display module (930) is connected to the second data storage module (920), and the query display module (930) is used for enabling a user to read data stored in the second data storage module (920).
2. The system according to claim 1, wherein the system comprises: the first data storage module (710) and the second data storage module (920) are both solid state storage hard disks.
3. The system according to claim 1, wherein the system comprises: the alarm device (720) is provided with an alarm with sound and light.
4. The system according to claim 1, wherein the system comprises: the local network connection module (810) has a router and a gateway.
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CN113741243A (en) * | 2021-08-05 | 2021-12-03 | 海澜智云科技有限公司 | Enterprise comprehensive energy management and control system and method |
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