CN201749360U - Energy system energy-saving management work station device - Google Patents
Energy system energy-saving management work station device Download PDFInfo
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- CN201749360U CN201749360U CN2010205167728U CN201020516772U CN201749360U CN 201749360 U CN201749360 U CN 201749360U CN 2010205167728 U CN2010205167728 U CN 2010205167728U CN 201020516772 U CN201020516772 U CN 201020516772U CN 201749360 U CN201749360 U CN 201749360U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
Provided is an energy system energy-saving management work station device, which relates to the device in the field of energy automatic control, and especially relates to the device capable of remotely monitoring whether each system in the energy system area is normally running. The utility model comprises an energy system and a monitoring station. The utility model is characterized in that the monitoring stations with displays are respectively in an electrical connection with each energy system through each electrical control valve; the electric signal collected by each energy system is connected to the monitoring station with a display through a layered network configuration; the above components are integrated into an energy-saving management work station device which mainly resolves the technical problem of how to design the entire structure of the monitoring station. The utility model has advantages of achieving remote display of each system running parameter; discovering problems and analyzing data in time to monitor the running status of each system; saving labor and time; possessing convenient operation.
Description
Technical field
The utility model relates to the device of the energy, automation field, especially a kind of be mainly used in can remote each energy resource system region of Centralized Monitoring each system, whether its operation monitoring environment such as normal administration of energy conservation workstation.
Background technology
In the energy resource system region, when each energy system operation of energy unit, often have the staff and need come each energy resource system region every now and then, check whether each system moves situations such as normal.So just be unfavorable for monitoring the parameter of each system simultaneously and carrying out remote monitor, relatively waste time and energy, work efficiency is not high, does not still have to realize at present the management work station arrangement of each energy system operation state of remote Centralized Monitoring.
Summary of the invention
In order to overcome above-mentioned weak point, fundamental purpose of the present utility model aims to provide a kind of monitoring station that can realize showing at a distance each system operational parameters, can in time pinpoint the problems again and the timely energy resource system administration of energy conservation workstation device of analyzing each system operation situation of data monitoring.
The technical problems to be solved in the utility model is: mainly solve the one-piece construction problem that how to design monitoring station; How solve monitoring station by collection analysis, order the electronic control valve system that breaks down out of service immediately, and send the relevant technologies problems such as hardware configuration of alarm command abnormal data.
The technical scheme that its technical matters that solves the utility model adopts is: this device comprises: equipment such as energy resource system and monitoring station, also comprise: the monitoring station of band display, the heating power dissipative system, the electric power dissipative system, the plumbing dissipative system, combustion gas dissipative system and air-conditioning dissipative system, the monitoring station of band display is electrically connected with each energy resource system mutually by each electronic control valve is parallel respectively, connect by layered network architecture between the monitoring station of electric signal that each energy resource system collects and band display, above-mentioned each unit construction is holistic administration of energy conservation workstation device, and this device includes at least:
The first via of the monitoring station of one band display is electrically connected with the heating power dissipative system mutually by electronic control valve, the second the tunnel is electrically connected with the electric power dissipative system mutually by electronic control valve, Third Road is electrically connected with the plumbing dissipative system mutually by electronic control valve, the four the tunnel is electrically connected with the combustion gas dissipative system mutually by electronic control valve, and the five the tunnel is electrically connected with the air-conditioning dissipative system mutually by electronic control valve.
Further, be respectively equipped with intelligent video camera head, sensor and electronic control valve in monitoring station, heating power dissipative system, electric power dissipative system, plumbing dissipative system, combustion gas dissipative system and the air-conditioning dissipative system of the band display of described energy resource system administration of energy conservation workstation device, all be electrically connected mutually between described intelligent video camera head, sensor and the electronic control valve, and be fixed on each device interior by lead.
Further, the layered network architecture of described energy resource system administration of energy conservation workstation device comprises at least: client computer, ethernet concentrator A, ethernet concentrator B and ethernet concentrator C, ethernet concentrator C is electrically connected with each ethernet communication mouth mutually by the Distribution Layer communication, each ethernet communication mouth is electrically connected with each Access Layer communication link mutually by gateway, each ethernet communication mouth is electrically connected with each communication port mutually by the Access Layer communication, wherein:
Be electrically connected mutually by lead between one client computer and the ethernet concentrator A;
Be electrically connected mutually by lead between one ethernet concentrator A and the ethernet concentrator B, be electrically connected mutually by lead between ethernet concentrator A and the ethernet concentrator C,
The output terminal of this LAN (Local Area Network) of remote access is electrically connected mutually with the input end of ethernet concentrator A;
One ethernet concentrator B output terminal is electrically connected mutually with the input end of other communication apparatus;
One ethernet concentrator C is electrically connected with ethernet communication mouth A, ethernet communication mouth B and ethernet communication mouth C mutually by optical fiber is parallel successively respectively;
One ethernet communication mouth A is electrically connected with communication port A, communication port B and communication port C mutually by Access Layer communication link A is parallel successively respectively;
One ethernet communication mouth B is electrically connected with communication port D and communication port E mutually by Access Layer communication link B is parallel successively respectively;
One ethernet communication mouth C is electrically connected with communication port F, communication port G and communication port H mutually by Access Layer communication link C is parallel successively respectively.
The beneficial effects of the utility model are: when this device abnormal failure occurs when a certain system of energy resource system region, monitoring station can be by data analysis, the operation of halt system in time, make the staff can check maintenance work in time, be convenient to the operation conditions that remote Centralized Monitoring writes down each system; Can realize showing at a distance each system operational parameters, can in time pinpoint the problems again and in time analyze the management work station of each system operation situation of data monitoring, advantage such as it is time saving and energy saving to have, easy to operate.
Description of drawings
Accompanying drawing 1 is an one-piece construction synoptic diagram of the present utility model;
Accompanying drawing 2 is structural representations of the utility model layered network architecture;
Label declaration in the accompanying drawing:
The monitoring station of 1-band display; 42-ethernet communication mouth B;
2-heating power dissipative system; 52-Access Layer communication link B;
3-electric power dissipative system; 421-communication port D;
4-plumbing dissipative system; 422-communication port E;
5-combustion gas dissipative system; 43-ethernet communication mouth C;
6-air-conditioning dissipative system; 53-Access Layer communication link C;
7-electronic control valve; 431-communication port F;
10-client computer; 432-communication port G;
20-ethernet concentrator A; 433-communication port H;
30-ethernet concentrator B; This LAN (Local Area Network) of 61-remote access;
40-and ethernet concentrator C; 62-optical fiber;
41-ethernet communication mouth A; 63-other communication apparatus;
51-Access Layer communication link A; The communication of 64-Distribution Layer;
411-communication port A; 65-gateway;
412-communication port B; The communication of 73-Access Layer;
413-communication port C;
Embodiment
Below in conjunction with drawings and Examples the utility model is further specified.
See also accompanying drawing 1, shown in 2, the utility model is to comprise: equipment such as energy resource system and monitoring station, also comprise: the monitoring station 1 of band display, heating power dissipative system 2, electric power dissipative system 3, plumbing dissipative system 4, combustion gas dissipative system 5 and air-conditioning dissipative system 6, the monitoring station 1 of band display is electrically connected with each energy resource system mutually by each electronic control valve 7 is parallel respectively, connect by layered network architecture between the monitoring station 1 of electric signal that each energy resource system collects and band display, above-mentioned each unit construction is holistic administration of energy conservation workstation device, and this device includes at least:
The first via of the monitoring station 1 of one band display is electrically connected with heating power dissipative system 2 mutually by electronic control valve 7, the second the tunnel passes through electronic control valve 7 is electrically connected mutually with electric power dissipative system 3, Third Road is electrically connected with plumbing dissipative system 4 mutually by electronic control valve 7, the four the tunnel passes through electronic control valve 7 is electrically connected mutually with combustion gas dissipative system 5, and the five the tunnel passes through electronic control valve 7 is electrically connected mutually with air-conditioning dissipative system 6.
Further, the band display of described energy resource system administration of energy conservation workstation device
Be respectively equipped with intelligent video camera head, sensor and electronic control valve in monitoring station 1, heating power dissipative system 2, electric power dissipative system 3, plumbing dissipative system 4, combustion gas dissipative system 5 and the air-conditioning dissipative system 6, all be electrically connected mutually between described intelligent video camera head, sensor and the electronic control valve, and be fixed on each device interior by lead.
Further, the layered network architecture of described energy resource system administration of energy conservation workstation device comprises at least: client computer 10, ethernet concentrator A 20, ethernet concentrator B 30 and ethernet concentrator C 40, ethernet concentrator C 40 is electrically connected with each ethernet communication mouth mutually by Distribution Layer communication 64, each ethernet communication mouth is electrically connected with each Access Layer communication link mutually by gateway 65, each ethernet communication mouth is electrically connected with each communication port mutually by Access Layer communication 73, wherein:
Be electrically connected mutually by lead between one client computer 10 and the ethernet concentrator A 20;
Be electrically connected mutually by lead between one ethernet concentrator A 20 and the ethernet concentrator B 30, be electrically connected mutually by lead between ethernet concentrator A 20 and the ethernet concentrator C 40, the output terminal of this LAN (Local Area Network) of remote access 61 is electrically connected mutually with the input end of ethernet concentrator A 20;
One ethernet concentrator B, 30 output terminals are electrically connected mutually with the input end of other communication apparatus 63;
One ethernet concentrator C 40 is electrically connected with ethernet communication mouth A 41, ethernet communication mouth B 42 and ethernet communication mouth C 43 mutually by optical fiber 62 is parallel successively respectively;
One ethernet communication mouth A 41 is electrically connected with communication port A 411, communication port B 412 and communication port C 413 mutually by Access Layer communication link A 51 is parallel successively respectively;
One ethernet communication mouth B 42 is electrically connected with communication port D 421 and communication port E 422 mutually by Access Layer communication link B 52 is parallel successively respectively;
One ethernet communication mouth C 43 is electrically connected with communication port F 431, communication port G 432 and communication port H 433 mutually by Access Layer communication link C 53 is parallel successively respectively.
Following embodiment does not limit content of the present utility model.
As shown in Figure 1, energy resource system administration of energy conservation workstation device mainly is made up of the monitoring station of intelligent video camera head, sensor, lead, electronic control valve, band display.Intelligent video camera head, sensor are installed in the inside, equipment place of each system, can monitor the situation of each system's operation at any time, are transferred to Surveillance center by lead then, and Surveillance center monitors the operation of all systems by data analysis.When a certain system went wrong, monitoring station was ordered the electronic control valve system that breaks down out of service immediately, and is sent alarm command by the collection analysis to abnormal data, makes the staff can reconnoitre maintenance in time.
The utility model patent is to write down the operation conditions of each system for the ease of remote Centralized Monitoring, reaches time saving and energy saving, easy to operate purpose.When abnormal failure appearred in certain system, monitoring station was by data analysis, and in time maintenance is checked in the operation of halt system.
Claims (3)
1. energy resource system administration of energy conservation workstation device, this device comprises: energy resource system and monitoring station, it is characterized in that also comprising: the monitoring station (1) of band display, heating power dissipative system (2), electric power dissipative system (3), plumbing dissipative system (4), combustion gas dissipative system (5) and air-conditioning dissipative system (6), the monitoring station (1) of band display is electrically connected with each energy resource system mutually by each electronic control valve (7) is parallel respectively, connect by layered network architecture between the monitoring station (1) of electric signal that each energy resource system collects and band display, above-mentioned each unit construction is holistic administration of energy conservation workstation device, and this device includes at least:
The first via of the monitoring station (1) of one band display is electrically connected with heating power dissipative system (2) mutually by electronic control valve (7), the second the tunnel passes through electronic control valve (7) is electrically connected mutually with electric power dissipative system (3), Third Road is electrically connected with plumbing dissipative system (4) mutually by electronic control valve (7), the four the tunnel passes through electronic control valve (7) is electrically connected mutually with combustion gas dissipative system (5), and the five the tunnel passes through electronic control valve (7) is electrically connected mutually with air-conditioning dissipative system (6).
2. energy resource system administration of energy conservation workstation device according to claim 1, it is characterized in that: be respectively equipped with intelligent video camera head, sensor and electronic control valve in the monitoring station of described band display (1), heating power dissipative system (2), electric power dissipative system (3), plumbing dissipative system (4), combustion gas dissipative system (5) and the air-conditioning dissipative system (6), all be electrically connected mutually between described intelligent video camera head, sensor and the electronic control valve, and be fixed on each device interior by lead.
3. energy resource system administration of energy conservation workstation device according to claim 1, it is characterized in that: described layered network architecture comprises at least: client computer (10), ethernet concentrator A(20), ethernet concentrator B(30) and ethernet concentrator C(40), ethernet concentrator C(40) be electrically connected mutually with each ethernet communication mouth by Distribution Layer communication (64), each ethernet communication mouth by gateway (65) and each Access Layer communication link mutually
Be electrically connected mutually, each ethernet communication mouth is electrically connected with each communication port mutually by Access Layer communication (73), wherein:
One client computer (10) and ethernet concentrator A(20) between be electrically connected mutually by lead;
One ethernet concentrator A(20) with ethernet concentrator B(30) between be electrically connected mutually by lead, ethernet concentrator A(20) with ethernet concentrator C(40) between be electrically connected output terminal of this LAN (Local Area Network) of remote access (61) and ethernet concentrator A(20 mutually by lead) input end be electrically connected mutually;
One ethernet concentrator B(30) output terminal is electrically connected mutually with the input end of other communication apparatus (63);
One ethernet concentrator C(40) ethernet communication mouth the B(42 respectively parallel successively and ethernet communication mouth A(41 by optical fiber (62))) and ethernet communication mouth C(43) be electrically connected mutually;
One ethernet communication mouth A(41) by Access Layer communication link A(51) parallel successively respectively and communication port A(411), communication port B(412) and communication port C(413) be electrically connected mutually;
One ethernet communication mouth B(42) by Access Layer communication link B(52) walk abreast and communication port D(421 successively respectively) and communication port E(422) be electrically connected mutually;
One ethernet communication mouth C(43) by Access Layer communication link C(53) parallel successively respectively and communication port F(431), communication port G(432) and communication port H(433) be electrically connected mutually.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010205167728U CN201749360U (en) | 2010-09-05 | 2010-09-05 | Energy system energy-saving management work station device |
Applications Claiming Priority (1)
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CN2010205167728U CN201749360U (en) | 2010-09-05 | 2010-09-05 | Energy system energy-saving management work station device |
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CN201749360U true CN201749360U (en) | 2011-02-16 |
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CN2010205167728U Expired - Fee Related CN201749360U (en) | 2010-09-05 | 2010-09-05 | Energy system energy-saving management work station device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104281109A (en) * | 2013-07-05 | 2015-01-14 | 厦门市博维科技有限公司 | Energy data collecting device and method |
CN104298205A (en) * | 2014-10-24 | 2015-01-21 | 青海中力电气电子科技有限公司 | System with electrical fire monitoring and energy management functions |
-
2010
- 2010-09-05 CN CN2010205167728U patent/CN201749360U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104281109A (en) * | 2013-07-05 | 2015-01-14 | 厦门市博维科技有限公司 | Energy data collecting device and method |
CN104298205A (en) * | 2014-10-24 | 2015-01-21 | 青海中力电气电子科技有限公司 | System with electrical fire monitoring and energy management functions |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110216 Termination date: 20180905 |
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CF01 | Termination of patent right due to non-payment of annual fee |