CN203773701U - Water leakage prevention monitoring device - Google Patents
Water leakage prevention monitoring device Download PDFInfo
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- CN203773701U CN203773701U CN201420169914.6U CN201420169914U CN203773701U CN 203773701 U CN203773701 U CN 203773701U CN 201420169914 U CN201420169914 U CN 201420169914U CN 203773701 U CN203773701 U CN 203773701U
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 41
- 238000012806 monitoring device Methods 0.000 title claims abstract description 14
- 230000002265 prevention Effects 0.000 title abstract 3
- 238000012544 monitoring process Methods 0.000 claims abstract description 43
- 101100212791 Saccharomyces cerevisiae (strain ATCC 204508 / S288c) YBL068W-A gene Proteins 0.000 claims description 3
- 238000001514 detection method Methods 0.000 claims description 3
- 238000004891 communication Methods 0.000 abstract description 3
- 230000000007 visual effect Effects 0.000 abstract 1
- 238000012800 visualization Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 2
- 238000006073 displacement reaction Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 235000013351 cheese Nutrition 0.000 description 1
- 238000009428 plumbing Methods 0.000 description 1
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Abstract
The utility model relates to a water leakage prevention monitoring device which comprises a main station computer, monitoring devices from first to Nth, a short message module, a mobile phone and a local area network. The first monitoring device comprises a first sub station computer U11, a first interface module U12, a first microcontroller U13 and on-site monitoring units from first to mth UNIT1 to UNITm. The monitoring devices from the first to the Nth share the same structure. The water leakage prevention monitoring device provided by the utility model has the advantages that real-time monitoring can be carried out on a monitored point; if water leakage is found, an acousto-optic alarm can be timely given; a short message is sent to staff, so that alarm information can be sent to the staff in the first time late at night and in holidays; communication is carried out between each monitoring device and the main station computer based on the local area network in a building, which saves the laying of a large number of signal cables; and in addition, the device is provided with a visual interface, thus the staff can remotely observe whether water leakage exists at the monitored point through a computer screen.
Description
Technical field
The utility model relates to a kind of preventing water leakage monitoring device.
Background technology
Along with the development of building intelligent, plumbing, fire-fighting system have been embedded into building interior, bringing convenience and improve in safe and also brought the hidden danger of leaking to a certain degree.Especially on the ground such as laboratory, machine room that is placed with accurate and expensive instrument and equipment, if the consequence of leaking is hardly imaginable, therefore, carries out preventing water leakage monitoring and seem particularly important.Existing water leakage monitoring must staff be monitored to scene, cannot other staff of remote notification after leaking, and make to leak and can not be processed in time.
Utility model content
Technical problem to be solved in the utility model be to provide a kind of without staff to on-the-spot and can carry out preventing water leakage monitoring device Real-Time Monitoring, that can send sound and light alarm and SMS alarm while leaking to monitoring point.
For solving the problems of the technologies described above adopted technical scheme be: a kind of preventing water leakage monitoring device, comprise that master station computer, the 1st is to N monitoring equipment, SMS module, mobile phone and LAN (Local Area Network), wherein N is greater than 1 integer;
Described the 1st output terminal to N monitoring equipment connects respectively the respective input of described master station computer through described LAN (Local Area Network); 232 serial ports of described master station computer are connected with 232 serial ports of described SMS module by serial port connecting wire; The output terminal of described SMS module is connected with described mobile phone wireless;
Described the 1st identical to the structure of N monitoring equipment;
Described the 1st monitoring equipment comprises that the 1st substation computing machine U11, the 1st interface module U12, the 1st single-chip microcomputer U13 and the 1st are to m field monitoring unit UNIT1 ~ UNITm, and wherein m is greater than 1 and be less than 9 integer;
Described the 1st field monitoring unit UNIT1 comprises the 1st leakage water tester UJ11, the 1st solid-state relay SR11 and the 1st alarm UB1; The detection rope that leaks of described the 1st leakage water tester UJ11 is arranged on the ceiling above monitored instrument or on the floor of monitored instrument surrounding; The relay output normally opened contact NO of described the 1st leakage water tester UJ11 connects the P1.0 port of described the 1st single-chip microcomputer U13; Connect+5V of the relay output common port COM direct supply of described the 1st leakage water tester UJ11; The power lead live wire end L1 of described the 1st alarm UB1 connects 2 pin of described the 1st solid-state relay SR11; The power lead zero line side N1 of described the 1st alarm UB1 meets 220V and exchanges zero line; 1 pin of described the 1st solid-state relay SR11 meets 220V and exchanges live wire; 3 pin of described the 1st solid-state relay SR11 connect the P2.0 pin of described the 1st single-chip microcomputer U13; The 4 pin ground connection of described the 1st solid-state relay SR11;
The P3.0 port of described the 1st single-chip microcomputer U13 connects 9 pin of described the 1st interface module U12; The P3.1 port of described the 1st single-chip microcomputer U13 connects 10 pin of described the 1st interface module U12; 8 pin of described the 1st interface module U12 connect 232 serial ports 3 pin of described the 1st substation computing machine U11; 7 pin of described the 1st interface module U12 connect 232 serial ports 2 pin of described the 1st substation computing machine U11;
The output terminal of described the 1st substation computing machine U11 is the output terminal of described the 1st monitoring equipment UNIT1;
Described the 1st identical to the structure of m field monitoring unit UNIT1 ~ UNITm; Described the 2nd field monitoring unit UNIT2 comprises the 2nd leakage water tester UJ12, the 2nd solid-state relay SR12 and the 2nd alarm UB2;
Described m field monitoring unit UNITm comprises m leakage water tester UJ1m, m solid-state relay SR1m and m alarm UBm.
The model of described master station computer is the RP5800 of Hewlett-Packard; Described SMS module model is JYC301A; The model of described the 1st substation computing machine U11 is the RP5800 of Hewlett-Packard; The model of described the 1st interface module U12 is MAX232; The model of described the 1st single-chip microcomputer U13 is 89C51; The model of described the 1st solid-state relay SR11 is SSR-10 DAH; The model of described the 1st alarm UB1 is LTD-1082J; The model of described the 1st leakage water tester UJ11 is HG-1.
Described LAN (Local Area Network) is Ethernet.
The beneficial effects of the utility model are: the utility model can carry out Real-Time Monitoring to monitoring point; If find to leak, the utility model can send sound and light alarm in time; Also can send note to staff, to can notify staff by warning message in the very first time the late into the night or festivals or holidays simultaneously; Between each monitoring equipment and master station computer, carry out communication based on building interior LAN (Local Area Network), saved the laying of a large amount of signal cables; In addition, the utlity model has visualization interface, can have or not and leak by computer screen remote reviewing monitoring point.
Brief description of the drawings
Fig. 1 is theory diagram of the present utility model.
Fig. 2 is the 1st monitoring equipment schematic diagram of the present utility model.
Embodiment
From the embodiment shown in Fig. 1-2, it comprises that master station computer, the 1st is to N monitoring equipment, SMS module, mobile phone and LAN (Local Area Network), and wherein N is greater than 1 integer;
Described the 1st output terminal to N monitoring equipment connects respectively the respective input of described master station computer through described LAN (Local Area Network); 232 serial ports of described master station computer are connected with 232 serial ports of described SMS module by serial port connecting wire; The output terminal of described SMS module is connected with described mobile phone wireless;
Described the 1st identical to the structure of N monitoring equipment;
Described the 1st monitoring equipment comprises that the 1st substation computing machine U11, the 1st interface module U12, the 1st single-chip microcomputer U13 and the 1st are to m field monitoring unit UNIT1 ~ UNITm, and wherein m is greater than 1 and be less than 9 integer;
Described the 1st field monitoring unit UNIT1 comprises the 1st leakage water tester UJ11, the 1st solid-state relay SR11 and the 1st alarm UB1; The detection rope that leaks of described the 1st leakage water tester UJ11 is arranged on the ceiling above monitored instrument or on the floor of monitored instrument surrounding; The relay output normally opened contact NO of described the 1st leakage water tester UJ11 connects the P1.0 port of described the 1st single-chip microcomputer U13; Connect+5V of the relay output common port COM direct supply of described the 1st leakage water tester UJ11; The power lead live wire end L1 of described the 1st alarm UB1 connects 2 pin of described the 1st solid-state relay SR11; The power lead zero line side N1 of described the 1st alarm UB1 meets 220V and exchanges zero line; 1 pin of described the 1st solid-state relay SR11 meets 220V and exchanges live wire; 3 pin of described the 1st solid-state relay SR11 connect the P2.0 pin of described the 1st single-chip microcomputer U13; The 4 pin ground connection of described the 1st solid-state relay SR11;
The P3.0 port of described the 1st single-chip microcomputer U13 connects 9 pin of described the 1st interface module U12; The P3.1 port of described the 1st single-chip microcomputer U13 connects 10 pin of described the 1st interface module U12; 8 pin of described the 1st interface module U12 connect 232 serial ports 3 pin of described the 1st substation computing machine U11; 7 pin of described the 1st interface module U12 connect 232 serial ports 2 pin of described the 1st substation computing machine U11;
The output terminal of described the 1st substation computing machine U11 is the output terminal of described the 1st monitoring equipment UNIT1;
Described the 1st identical to the structure of m field monitoring unit UNIT1 ~ UNITm; Described the 2nd field monitoring unit UNIT2 comprises the 2nd leakage water tester UJ12, the 2nd solid-state relay SR12 and the 2nd alarm UB2;
Described m field monitoring unit UNITm comprises m leakage water tester UJ1m, m solid-state relay SR1m and m alarm UBm.
The model of described master station computer is the RP5800 of Hewlett-Packard; Described SMS module model is JYC301A; The model of described the 1st substation computing machine U11 is the RP5800 of Hewlett-Packard; The model of described the 1st interface module U12 is MAX232; The model of described the 1st single-chip microcomputer U13 is 89C51; The model of described the 1st solid-state relay SR11 is SSR-10 DAH; The model of described the 1st alarm UB1 is LTD-1082J; The model of described the 1st leakage water tester UJ11 is HG-1.
Described LAN (Local Area Network) is Ethernet.
The course of work of the present utility model is as follows: the sensor of leakage water tester is rope form, leak and detect rope, in the time that the utility model is implemented, detect cheese on the ceiling above instrument and equipment or on the floor of instrument and equipment surrounding by leaking, when have water to leak to leak detect rope can be by this sensor senses when upper.After the sensor (leak and detect rope) of leakage water tester monitors and leaks, leakage water tester relay node generation displacement (normal opened contact closure), displacement signal is sent to single-chip microcomputer by signal cable, single-chip microcomputer will leak information reporting to substation computing machine and trigger solid-state relay, make the conducting of alarm current supply circuit, alarm sends sound and light alarm, substation computing machine is uploaded to master station computer by the information of leaking again, master station computer sends note to staff, to can notify staff by warning message in the very first time the late into the night or festivals or holidays.
Substation computing machine and master station computer are carried out communication based on Ethernet, have saved the laying of a large amount of signal cables.In addition, the utility model substation computing machine and master station computer all have visualization interface, substation computing machine can be shown to the information of leaking from single-chip microcomputer on visualization interface in real time, can whether leak by the corresponding water leakage monitoring point of real-time monitored by this visualization interface user, whether master station computer can will be shown on visualization interface in real time from the information of leaking of substation computing machine, can leak by all water leakage monitoring points of real-time monitored by this interface user.Because master station computer is connected by Ethernet with substation computing machine, so master station computer can corresponding multiple substations computing machine, can monitor multiple regions simultaneously.
Claims (3)
1. a preventing water leakage monitoring device, is characterized in that: comprise that master station computer, the 1st is to N monitoring equipment, SMS module, mobile phone and LAN (Local Area Network), wherein N is greater than 1 integer;
Described the 1st output terminal to N monitoring equipment connects respectively the respective input of described master station computer through described LAN (Local Area Network); 232 serial ports of described master station computer are connected with 232 serial ports of described SMS module by serial port connecting wire; The output terminal of described SMS module is connected with described mobile phone wireless;
Described the 1st identical to the structure of N monitoring equipment;
Described the 1st monitoring equipment comprises that the 1st substation computing machine U11, the 1st interface module U12, the 1st single-chip microcomputer U13 and the 1st are to m field monitoring unit UNIT1 ~ UNITm, and wherein m is greater than 1 and be less than 9 integer;
Described the 1st field monitoring unit UNIT1 comprises the 1st leakage water tester UJ11, the 1st solid-state relay SR11 and the 1st alarm UB1; The detection rope that leaks of described the 1st leakage water tester UJ11 is arranged on the ceiling above monitored instrument or on the floor of monitored instrument surrounding; The relay output normally opened contact NO of described the 1st leakage water tester UJ11 connects the P1.0 port of described the 1st single-chip microcomputer U13; Connect+5V of the relay output common port COM direct supply of described the 1st leakage water tester UJ11; The power lead live wire end L1 of described the 1st alarm UB1 connects 2 pin of described the 1st solid-state relay SR11; The power lead zero line side N1 of described the 1st alarm UB1 meets 220V and exchanges zero line; 1 pin of described the 1st solid-state relay SR11 meets 220V and exchanges live wire; 3 pin of described the 1st solid-state relay SR11 connect the P2.0 pin of described the 1st single-chip microcomputer U13; The 4 pin ground connection of described the 1st solid-state relay SR11;
The P3.0 port of described the 1st single-chip microcomputer U13 connects 9 pin of described the 1st interface module U12; The P3.1 port of described the 1st single-chip microcomputer U13 connects 10 pin of described the 1st interface module U12; 8 pin of described the 1st interface module U12 connect 232 serial ports 3 pin of described the 1st substation computing machine U11; 7 pin of described the 1st interface module U12 connect 232 serial ports 2 pin of described the 1st substation computing machine U11;
The output terminal of described the 1st substation computing machine U11 is the output terminal of described the 1st monitoring equipment UNIT1;
Described the 1st identical to the structure of m field monitoring unit UNIT1 ~ UNITm; Described the 2nd field monitoring unit UNIT2 comprises the 2nd leakage water tester UJ12, the 2nd solid-state relay SR12 and the 2nd alarm UB2;
Described m field monitoring unit UNITm comprises m leakage water tester UJ1m, m solid-state relay SR1m and m alarm UBm.
2. a kind of preventing water leakage monitoring device according to claim 1, is characterized in that: the model of described master station computer is the RP5800 of Hewlett-Packard; Described SMS module model is JYC301A; The model of described the 1st substation computing machine U11 is the RP5800 of Hewlett-Packard; The model of described the 1st interface module U12 is MAX232; The model of described the 1st single-chip microcomputer U13 is 89C51; The model of described the 1st solid-state relay SR11 is SSR-10 DAH; The model of described the 1st alarm UB1 is LTD-1082J; The model of described the 1st leakage water tester UJ11 is HG-1.
3. a kind of preventing water leakage monitoring device according to claim 2, is characterized in that: described LAN (Local Area Network) is Ethernet.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420169914.6U CN203773701U (en) | 2014-04-10 | 2014-04-10 | Water leakage prevention monitoring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420169914.6U CN203773701U (en) | 2014-04-10 | 2014-04-10 | Water leakage prevention monitoring device |
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CN203773701U true CN203773701U (en) | 2014-08-13 |
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CN201420169914.6U Expired - Fee Related CN203773701U (en) | 2014-04-10 | 2014-04-10 | Water leakage prevention monitoring device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10031041B2 (en) | 2016-06-17 | 2018-07-24 | Hewlett Packard Enterprise Development Lp | Rope leak sensor holder |
CN115440009A (en) * | 2022-08-05 | 2022-12-06 | 华能太仓发电有限责任公司 | Water leakage alarm system |
-
2014
- 2014-04-10 CN CN201420169914.6U patent/CN203773701U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10031041B2 (en) | 2016-06-17 | 2018-07-24 | Hewlett Packard Enterprise Development Lp | Rope leak sensor holder |
CN115440009A (en) * | 2022-08-05 | 2022-12-06 | 华能太仓发电有限责任公司 | Water leakage alarm system |
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Legal Events
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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 | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140813 Termination date: 20160410 |