CN202178570U - New intelligent network monitoring type power lightning protector system - Google Patents

Abstract

The utility model discloses a new intelligent network monitoring type power lightning protector system, comprising a surge protector sub system, a network service platform sub system and a serial interface sub system, wherein the surge protector sub system is connected with the network service platform sub system via the serial interface sub system. The surge protector sub system further comprises a first surge protector unit, an information collecting unit, a micro processor unit and a data converting unit, wherein the first surge protector unit is connected with the information collecting unit which is connected with the micro processor unit, and the micro processor unit is connected with the data converting unit. The utility model realizes the safe connection between the surge protector sub system and the network service platform sub system, can inquire the thunder count, failure alarm and temperature alarm information on the PC network by the user and also can analyze the local thunderstorm via the data stored in the network.

Description

A kind of novel intelligent network monitoring type power lightning protection protector system

Technical field

The utility model relates to a kind of power lightning protection protector, particularly a kind of novel intelligent network monitoring type power lightning protection protector system.

Background technology

Along with the development of power lightning protection industry, existing lightning protection Surge Protector just relies on simple circuit to realize simple long-range remote signalling warning function and on-the-spot simple data of removing to inquire about single lightning protection Surge Protector.Along with rapid development of network, we also can inquire about through network, each system of monitoring every profession and trade.

Existing lightning protection Surge Protector wants to realize that being connected a large amount of hardware facility of needs with network assists completion (like the lightning protection casing), but this mode can cause the rising of cost and the unsteadiness of data; Also the potential network platform suffers thunder and lightning to pass to the network platform from data transmission unit, causes the thunderstruck risk of the network platform.

Existing surge protector all is to have only lightning protection function and simple warning function, so can only accomplish simple lightning surge protective effect and simple remote signalling Failure Alarm; User such as need go to inquire about thunderbolt number of times and thunderbolt time of Surge Protector etc. during information, need a lot of supplementary module unit realize this function.

The utility model content

In order to overcome the defective of prior art; The utility model provides a kind of novel intelligent network monitoring type power lightning protection protector system, and it is simple in structure, and cost is low; And the safety of Surge Protector subsystem and network service platform subsystem is connected; Make the user can on PC network, inquire information such as counting thunder, Failure Alarm, temperature alarming; And the data that can network store analyze the situation of local Thunderstorm Weather.

The technical scheme of the utility model is following:

A kind of novel intelligent network monitoring type power lightning protection protector system comprises Surge Protector subsystem, network service platform subsystem and serial line interface subsystem;

Said Surge Protector subsystem is connected with said network service platform subsystem through the serial line interface subsystem;

Said Surge Protector subsystem further comprises:

The first Surge Protector unit, information acquisition unit, computer processor unit, Date Conversion Unit; The said first Surge Protector unit is connected with said information acquisition unit; Said information acquisition unit is connected with said computer processor unit; Said computer processor unit is connected with said Date Conversion Unit;

Wherein, said information acquisition unit is used for the thunderbolt information of the first Surge Protector unit is gathered, and gives the computer processor unit information conveyance of gathering;

Said computer processor unit is used for thunderbolt information is analyzed, stored and reports to the police, and gives Date Conversion Unit its thunderbolt message transmission of handling;

Said Date Conversion Unit is used for changing into the compatible signal of computer to the information that obtains from the computer processor unit, and is transferred to the network service platform subsystem to this signal through the serial line interface subsystem;

Said network service platform subsystem is analyzed, is stored and report to the police the information that obtains from Date Conversion Unit, and formulates corresponding data sheet record thunderstorm antenna data, and the relevant inquiring service of thunderstorm data is provided.

Preferably, said information acquisition unit further comprises:

The wireline inspection subelement is used for connecing anti-and earth connection when bad at Surge Protector unit generation circuit, and the information of the first Surge Protector unit is gathered;

The temperature detection subelement under its condition of overhigh temperature, is gathered the information of the first Surge Protector unit when being used for releasing thunder-strike current in the first Surge Protector unit;

The failure detection subelement is used for when the first Surge Protector element failure, the information of the first Surge Protector unit being gathered;

The thunderbolt detection sub-unit is used for when power network line is struck by lightning, and the information of the first Surge Protector unit is gathered;

Said wireline inspection subelement, temperature detection subelement, failure detection subelement and thunderbolt detection sub-unit all are connected with said computer processor unit.

Preferably, said temperature detection subelement includes temperature-sensing element;

The first Surge Protector unit is when the thunder-strike current of releasing big; When the temperature of the device of the first Surge Protector unit is higher than preset temperature; It is too high that the temperature-sensing element of temperature detection subelement detects the device temperature that can detect the first Surge Protector unit, and pass to the computer processor unit to the too high information of temperature.

Preferably, said thunderbolt detection sub-unit includes electromagnetic induction element;

When power network line was struck by lightning, the big electric current that is struck by lightning passed through the first surge protection unit, and generates an electromagnetic field; Electromagnetic induction element in the thunderbolt detection sub-unit is sensed electromagnetic field and is passed to the computer processor unit to the electromagnetic field signal of sensing.

Preferably, said network service platform subsystem comprises:

Main Control Unit, Network Transmission unit, server, terminal inquiry unit, display unit; Said display unit is connected with said Main Control Unit; Said Main Control Unit is connected with said Network Transmission unit; Said Network Transmission unit is connected with said server; Said server is connected with said terminal inquiry unit.

Preferably, said Surge Protector subsystem also comprises the microcomputer display unit, and said microcomputer display unit is connected with said computer processor unit, is used for display alarm information.

Preferably, said Surge Protector subsystem also comprises the microcomputer power supply unit, and said microcomputer power supply unit is connected with the computer processor unit with the said first Surge Protector unit respectively; It is used to the first Surge Protector unit and the power supply of computer processor unit.

Preferably, said serial line interface subsystem comprises input serial line interface, output serial line interface, the second Surge Protector unit; Said output serial line interface is connected with the input serial line interface through the second Surge Protector unit; Said output serial line interface is connected with said Surge Protector subsystem; Said input serial line interface is connected with said network service platform subsystem;

The said second Surge Protector unit is used to prevent that the residual electric current of thunderbolt of Surge Protector subsystem is connected in series to the network service platform subsystem through the serial line interface subsystem.

Preferably, the said first Surge Protector unit and the second Surge Protector unit all comprise a Surge Protector at least.

Compared with prior art, the beneficial effect of the utility model is following:

The first, the utility model is simple in structure, and cost is low.

The second, the utility model has been introduced the second Surge Protector unit in the serial line interface subsystem, has realized that the safety of Surge Protector subsystem and network service platform subsystem is connected.

The 3rd, the utility model makes the user can on PC network, inquire information such as counting thunder, Failure Alarm, temperature alarming; And the data that can network store analyze the situation of local Thunderstorm Weather.

Description of drawings

Fig. 1 is the structural representation of a kind of novel intelligent network monitoring of the utility model embodiment type power lightning protection protector system;

Fig. 2 is the structural representation of the utility model embodiment Surge Protector subsystem;

Fig. 3 is the structural representation of the utility model embodiment network service platform subsystem;

Fig. 4 is the structural representation of the utility model embodiment serial line interface subsystem;

Fig. 5 is the structural representation of the utility model embodiment Information Monitoring unit.

Embodiment

The below combines accompanying drawing and specific embodiment that the utility model specific embodiment is done further description.

Embodiment

Referring to Fig. 1 to Fig. 5, a kind of novel intelligent network monitoring type power lightning protection protector is 100, comprises Surge Protector subsystem 1, network service platform subsystem 3 and serial line interface subsystem 2.Wherein, Surge Protector subsystem 1 is connected with network service platform subsystem 3 through serial line interface subsystem 2.

Surge Protector subsystem 1 further comprises:

The first Surge Protector unit 11, information acquisition unit 12, computer processor unit 13, Date Conversion Unit 14, microcomputer display unit 16 and microcomputer power supply unit 15.The first Surge Protector unit 11 is connected with information acquisition unit 12; Information acquisition unit 12 is connected with computer processor unit 13; Microprocessor 13 is connected with Date Conversion Unit 14; Microcomputer display unit 16 is connected with computer processor unit 13; Microcomputer power supply unit 15 is connected with computer processor unit 13 with the first Surge Protector unit 11 respectively.

Wherein, information acquisition unit 12 is used for the thunderbolt information of the first Surge Protector unit 11 is gathered, and gives computer processor unit 13 information conveyance of gathering.

Computer processor unit 13 is used for thunderbolt information is analyzed, stored and reports to the police, and gives Date Conversion Unit 14 its thunderbolt message transmission of handling.

Date Conversion Unit 14 is used for changing into the compatible signal of computer to the information that obtains from computer processor unit 13, and is transferred to network service platform subsystem 3 to this signal through serial line interface subsystem 2.

Microcomputer display unit 16 is used for display alarm information.

Microcomputer power supply unit 15 is used to the first Surge Protector unit and the power supply of computer processor unit.

Serial line interface subsystem 2 further comprises:

Input serial line interface 23, output serial line interface 21, the second Surge Protector unit 22; Output serial line interface 21 is connected with input serial line interface 23 through the second Surge Protector unit 22; Output serial line interface 21 is connected with Surge Protector subsystem 1; Input serial line interface 23 is connected with network service platform subsystem 3.Wherein, the second Surge Protector unit 22 is used to prevent that the residual electric current of thunderbolt of Surge Protector subsystem 1 is connected in series to network service platform subsystem 3 through serial line interface subsystem 2.

Network service platform subsystem 3 further comprises:

Main Control Unit 31, Network Transmission unit 32, server 33, terminal inquiry unit 34, display unit 35; Display unit 35 is connected with Main Control Unit 31; Main Control Unit 31 is connected with Network Transmission unit 32; Network Transmission unit 32 is connected with server 33; Server 33 is connected with terminal inquiry unit 34.

Network service platform subsystem 3 is analyzed, is stored and report to the police the information that obtains from Date Conversion Unit 14, and formulates corresponding data sheet record thunderstorm antenna data, and the relevant inquiring service of thunderstorm data is provided.

Wherein, the first Surge Protector unit 11 and the second Surge Protector unit 22 all comprise a Surge Protector at least.

In the present embodiment, the first Surge Protector unit 11 and the second Surge Protector unit 22 include a Surge Protector.

The terminals of the Surge Protector of the first Surge Protector unit 11 insert live wire end and zero line side respectively; Its earth terminal earth connection.

The earth terminal ground connection of the Surge Protector of the Surge Protector of the second Surge Protector unit 22; It provides two serial ports to be connected with output serial line interface 21 with input serial line interface 23 respectively simultaneously.

Wherein, information acquisition unit 12 further comprises:

Wireline inspection subelement 121 is used for connecing anti-and earth connection when bad at Surge Protector unit generation circuit, and the information of the first Surge Protector unit 11 is gathered;

Temperature detection subelement 122 under its condition of overhigh temperature, is gathered the information of the first Surge Protector unit 11 when being used for releasing thunder-strike current in the first Surge Protector unit;

Failure detection subelement 123 is used for when the first Surge Protector element failure, the information of the first Surge Protector unit 11 being gathered;

Thunderbolt detection sub-unit 124 is used for when power network line is struck by lightning, and the information of the first Surge Protector unit 11 is gathered;

Wireline inspection subelement 121, temperature detection subelement 122, failure detection subelement 123 and thunderbolt detection sub-unit 124 all are connected with computer processor unit 13.

Wherein, temperature detection subelement 122 includes temperature-sensing element.Its effect is: the first Surge Protector unit is when the thunder-strike current of releasing big; When the temperature of the device of the first Surge Protector unit is higher than preset temperature; It is too high that the temperature-sensing element of temperature detection subelement detects the device temperature that can detect the first Surge Protector unit, and pass to the computer processor unit to the too high information of temperature.

Thunderbolt detection sub-unit 124 includes electromagnetic induction element.Its effect is: when power network line was struck by lightning, the big electric current that is struck by lightning passed through the first surge protection unit, and generates an electromagnetic field; Electromagnetic induction element in the thunderbolt detection sub-unit is sensed electromagnetic field and is passed to the computer processor unit to the electromagnetic field signal of sensing.

Introduce the operation principle of the utility model specific embodiment below in detail.

(1) operation principle of Surge Protector subsystem 1 is described below.

When power network line was responded to the thunder thunderbolt, the first Surge Protector unit 11 generated an electromagnetic field when releasing ground wire to the thunderbolt super-high-current, and the electromagnetic induction element in the information acquisition unit 12 collects lightning strike signals and passes to computer processor unit 13.

Computer processor unit 13 is through microcomputer power supply unit 15 powered operation.Computer processor unit 13 receives the lightning strike signals that signal gathering unit 12 is delivered to; Computer processor unit 13 offers microcomputer display unit 16 by the information of internal preset program after lightning strike signals analysis and storage and shows with numeral and report to the police.

The lightning strike signals analysis that computer processor unit 13 passes over signal gathering unit 12 stores and converts thunderbolt information via Date Conversion Unit 14 to computer compatible signal.After Date Conversion Unit 14 becomes the compatible signal of computer to information translation, pass to the second Surge Protector unit 22 to thunderbolt information via output serial line interface 21, and finally input to network service platform subsystem 3 through input serial line interface 23.

(2) operation principle of signal gathering unit 12 is described below.

Wireline inspection subelement 121: when the positive and negative polarities of circuit connect the ground connection loose contact in anti-or the circuit, triode conducting in the circuit of wireline inspection subelement 121 inside, (it is positive and negative that the base terminal of triode is connected circuit, the output of ground connection detecting unit; Its collection utmost point of triode is connected the input of computer processor) its signal is input to computer processor; When signal is delivered to computer processor unit 13; Circuit is judged according to the program that is provided with in advance in computer processor unit 13; Whether ground connection was lost efficacy, and computer processor unit 13 is through the program conversion, and was presented at data on the microcomputer display unit 16 and sends warning.

Temperature detection subelement 122: operation principle is for after thunderbolt; When ground is released down with thunder-strike current in the first Surge Protector unit 11; Produce big heat; When big heat reached certain temperature, it is too high that the temperature sensitive member in the temperature detection subelement 122 detects the temperature of the first Surge Protector unit 11, and pass to computer processor unit 13 to the too high information of temperature; Computer processor unit 13 is information storage and passing to microcomputer display unit 16 after the information data conversion, and microcomputer display unit 16 demonstrates alarm temperature and sends warning.

Failure detection subelement 123: the trip gear of the first Surge Protector unit 11 separates after thunderbolt; The closed energising of switch element in the failure detection subelement 123 back is sent signal and is given computer processor unit 13; Computer processor unit 13 is through the program conversion, and is presented at data on the microcomputer display unit 16 and sends warning.

Thunderbolt detection sub-unit 124: after power network line was struck by lightning, the big electric current that is struck by lightning passed through the first Surge Protector unit 11, and produces big electromagnetic field; Electromagnetic induction components and parts in the thunderbolt detection sub-unit 124; Sense electromagnetic field and pass to computer processor unit 13 to the electromagnetic field signal of sensing; The computer processor unit is through program conversion, and is presented at data on the microcomputer display unit 16 and sends warning.

(3) operation principle of network service platform subsystem 3 is described below.

Pass to network service platform subsystem 3 to lightning strike signals at Surge Protector subsystem 1 through serial line interface subsystem 2.The second Surge Protector unit 22 in the serial line interface subsystem 2 prevents that the residual electric current of the thunderbolt of Surge Protector subsystem 1 is connected in series to network service platform subsystem 3 through serial line interface subsystem 2, has played the effect of protection Main Control Unit 31.

Arrived the Main Control Unit 31 of network service platform subsystem 3 through serial line interface subsystem 2 when lightning strike signals.Main Control Unit 31 is analyzed lightning strike signals information through in house softwares and by the lightning strike signals classification and storage; Main Control Unit 31 is given display unit 35 data passes, provides to show that being convenient to the user consults the thunderbolt data.Main Control Unit 31 is the signal storage analysis of each thunderbolt, and the data analysis of formulating the Thunderstorm Weather of corresponding data sheet and analysis user environment for use.Main Control Unit 31 is uploaded data sheet of analyzing and thunderbolt information data on the webserver 33 through Network Transmission unit 32; When user such as need are inquired about thunderbolt information or the Thunderstorm Weather data message of the first Surge Protector unit 11, can go to inquire about relevant data through the network terminal of terminal inquiry unit 34.

The user is through this network service platform subsystem 3; Can realize the counting thunder of network inquiry Surge Protector; A series of parameters such as thunderbolt time and thunderbolt warning also can be worked out the analytical statement of local Thunderstorm Weather through the data of network platform subsystem 3 storages.

In the present embodiment, Main Control Unit 31 can be the master controller of computer.

Compared with prior art, the beneficial effect of present embodiment is following:

The first, the utility model is simple in structure, and cost is low.

The second, the utility model has been introduced the second Surge Protector unit in the serial line interface subsystem, has realized that the safety of Surge Protector subsystem and network service platform subsystem is connected.

The 3rd, the utility model makes the user can on PC network, inquire information such as counting thunder, Failure Alarm, temperature alarming; And the data that can network store analyze the situation of local Thunderstorm Weather.

The utility model preferred embodiment just is used for helping to set forth the utility model.Preferred embodiment does not have all details of detailed descriptionthe, does not limit this utility model yet and is merely described embodiment.Obviously, according to the content of this specification, can do a lot of modifications and variation.These embodiment are chosen and specifically described to this specification, is principle and practical application in order to explain the utility model better, thereby person skilled can be utilized the utility model well under making.The utility model only receives the restriction of claims and four corner and equivalent.

Claims (9)

1. a novel intelligent network monitoring type power lightning protection protector system is characterized in that, comprises Surge Protector subsystem, network service platform subsystem and serial line interface subsystem;

Said Surge Protector subsystem is connected with said network service platform subsystem through the serial line interface subsystem;

Said Surge Protector subsystem further comprises:

The first Surge Protector unit, information acquisition unit, computer processor unit, Date Conversion Unit; The said first Surge Protector unit is connected with said information acquisition unit; Said information acquisition unit is connected with said computer processor unit; Said computer processor unit is connected with said Date Conversion Unit.

2. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system is characterized in that said information acquisition unit further comprises:

The wireline inspection subelement, temperature detection subelement, failure detection subelement, thunderbolt detection sub-unit;

Said wireline inspection subelement, temperature detection subelement, failure detection subelement and thunderbolt detection sub-unit all are connected with said computer processor unit.

3. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 2 system is characterized in that said temperature detection subelement includes temperature-sensing element.

4. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 2 system is characterized in that said thunderbolt detection sub-unit includes electromagnetic induction element.

5. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system is characterized in that said network service platform subsystem comprises:

Main Control Unit, Network Transmission unit, server, terminal inquiry unit, display unit; Said display unit is connected with said Main Control Unit; Said Main Control Unit is connected with said Network Transmission unit; Said Network Transmission unit is connected with said server; Said server is connected with said terminal inquiry unit.

6. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system is characterized in that said Surge Protector subsystem also comprises the microcomputer display unit, and said microcomputer display unit is connected with said computer processor unit.

7. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system; It is characterized in that; Said Surge Protector subsystem also comprises the microcomputer power supply unit, and said microcomputer power supply unit is connected with the computer processor unit with the said first Surge Protector unit respectively.

8. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system is characterized in that said serial line interface subsystem comprises input serial line interface, output serial line interface, the second Surge Protector unit; Said output serial line interface is connected with the input serial line interface through the second Surge Protector unit; Said output serial line interface is connected with said Surge Protector subsystem; Said input serial line interface is connected with said network service platform subsystem.

9. a kind of novel intelligent network monitoring type power lightning protection protector according to claim 1 system is characterized in that the said first Surge Protector unit and the second Surge Protector unit all comprise a Surge Protector at least.

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