CN203706001U - Electrical tool and instrument monitoring system - Google Patents
Electrical tool and instrument monitoring system Download PDFInfo
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- CN203706001U CN203706001U CN201420090923.6U CN201420090923U CN203706001U CN 203706001 U CN203706001 U CN 203706001U CN 201420090923 U CN201420090923 U CN 201420090923U CN 203706001 U CN203706001 U CN 203706001U
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Abstract
The utility model relates to an electrical tool and instrument monitoring system which comprises a single-chip microcomputer unit, an infrared distance detection unit, a temperature and humidity detection unit, a temperature and humidity control unit, a voice output unit, a button unit, a display unit, a storage unit and a power supply unit for providing working voltage for the whole electrical tool and instrument monitoring system. The infrared distance detection unit, the temperature and humidity detection unit, the temperature and humidity control unit, the voice output unit, the button unit, the display unit and the storage unit are respectively connected with the single-chip microcomputer unit. According to the utility model, off/on state of electrical tools and instruments and temperature and humidity conditions of storage environments of electrical tools and instruments can be monitored automatically; and temperature and humidity of storage environments of electrical tools and instruments can be automatically adjusted within a standard range through the temperature and humidity control unit. The electrical tool and instrument monitoring system has advantages of high efficiency, accurate data and high reliability, is time-saving and labor-saving, can be used to guarantee insulating property of tools and instruments. Thus, power supply security and life safety of power grid maintenance staff are guaranteed.
Description
Technical field
The utility model relates to the safe storage equipment of electrical network, electric power tool, relates in particular to a kind of electric power instrument supervisory system.
Background technology
The field such as electrical network, electric power requires the preservation environment clean and dry of insulation class Work tool, and Work tool goes out warehouse-in and need have registration, needs regularly test maintenance to Work tool.Management to power grid security Work tool at present, generally record and follow the trail of the Work tool of turnover taking paper document as basis, completely by manually managing, efficiency is extremely low, data fault rate is also high, exist and preserve that environment can not reach country and industry requirement completely, Work tool goes out the problems such as warehouse-in record disappearance and the unreachable position of routine test requirement, thereby cause after Work tool damage all can not knowing in time, affect follow-up operation and use.Along with computer application is universal, the storehouse management data information of most enterprise has started to adopt computer data system management, but data still adopt first paper records, the mode of manual input computing machine gathers and sorting-out in statistics again, this not only causes a large amount of waste of human resource, and due to artificial factor, data input speed is slow, accuracy rate is low, and most of Utilities Electric Co. does not still reach standardization to safe storage managing security tools and instruments, even left unguarded of most of managing security tools and instruments storing compartment, because the temperature and humidity of storage environment can not get good adjusting, make Work tool decreasing insulating, even damage, so direct power supply safety that affects, the serious life that may jeopardize grid maintenance personnel.
Summary of the invention
The utility model mainly solves the inbound/outbound process data of original grid power Work tool by manually managing, and efficiency is extremely low, and data accuracy rate is low, also wastes the technical matters of a large amount of human resources; A kind of electric power instrument supervisory system is provided, and it does not rely on manually, can automatically obtain Work tool from state in place, show the outfit, use of Work tool and apart from information such as inspection times, efficiency is high, data are accurate, reliability is strong, time saving and energy saving.
It is undesirable that the utility model solves the preservation environment of original grid power Work tool simultaneously, the humiture of storage environment can not get fine adjusting, cause Work tool decreasing insulating, even damage, thereby directly affect the technical matters of power supply safety and grid maintenance personnel's life security; A kind of electric power instrument supervisory system is provided, the humiture that it can regulate Work tool storage environment automatically, meets the requirements the preservation environment of Work tool, reaches standard, guarantee the insulating property of Work tool, thereby guarantee power supply safety and grid maintenance personnel's life security.
Above-mentioned technical matters of the present utility model is mainly solved by following technical proposals: the utility model comprises single machine unit, infrared apart from detecting unit, push-button unit, display unit and storage unit and for whole electric power instrument supervisory system provides the power supply unit of operating voltage, described be infraredly connected with described single machine unit respectively apart from detecting unit, push-button unit, display unit and storage unit.Infrared apart from detecting unit automatically monitor electric power instrument from state in place, and flow to single machine unit, through processing, be saved in storage unit, carry out correlation parameter setting by push-button unit, by display unit show the outfit of electric power instrument, from information in place, use with apart from information such as inspection times, efficiency is high, data are accurate, and reliability is strong, time saving and energy saving.
As preferably, described electric power instrument supervisory system comprises humiture detecting unit and Temperature and Humidity Control unit, and humiture detecting unit and Temperature and Humidity Control unit are connected with described single machine unit respectively.Temperature Humidity Sensor is automatically monitored the humiture data of electric power instrument storage environment and is flowed to single machine unit, single machine unit is through processing, humiture data are saved in storage unit, and the humiture data that record in real time and predefined humiture standard value are compared, judgement and processing, then export control signal control Temperature and Humidity Control unit (as well heater, dehumidifier) start and stop, the humiture of the storage environment of electric power instrument is kept within the specific limits, thereby reach standard, guarantee the insulating property of electric power instrument, guarantee power supply safety and grid maintenance personnel's life security.
As preferably, described electric power instrument supervisory system comprises voice-output unit, and voice-output unit is connected with described single machine unit.Single machine unit control voice-output unit carries out voice broadcast, automatically reports title, the mode of operation of electric power instrument, and the electric power instrument that need detect is as early as possible carried out to warning reminding.
As preferably, described single machine unit comprises single-chip microcomputer U200, and single-chip microcomputer U200 adopts MSP430F149 single-chip microcomputer, described infraredly comprise infrared distance measurement sensor U100, comparer U101 and ADDA chip U103 apart from detecting unit, infrared distance measurement sensor U100 adopts the infrared distance measurement sensor of GP2D120B, comparer U101 adopts AD8561A chip, and ADDA chip U103 adopts PCF8591 chip, the 2 pin ground connection of infrared distance measurement sensor U100, connect+5V of the 3 pin voltage of infrared distance measurement sensor U100, between 3 pin of infrared distance measurement sensor U100 and 1 pin, be connected with resistance R 100, 1 pin of infrared distance measurement sensor U100 is connected with 3 pin of comparer U101, connect+5V of the 1 pin voltage of comparer U101, 1 pin of comparer U101 is again through the parallel circuit ground connection of capacitor C 101 and electric capacity TC101, 2 pin of comparer U101 are connected with 15 pin of ADDA chip U103 through resistance R 102, 4 pin of comparer U101, 5 pin and the equal ground connection of 6 pin, 7 pin of comparer U101, one tunnel is connected with the positive pole of diode D100, another road is connected with the negative pole of diode D101, also have a road to be connected through 61 pin of resistance R 103 and single-chip microcomputer U200, connect+5V of the negative pole of diode D100 voltage, the plus earth of diode D101, 1 pin of ADDA chip U103, 2 pin, 3 pin, 4 pin, 8 pin and 12 pin, the equal ground connection of 13 pin, 5 pin of ADDA chip U103, 6 pin and 7 pin are respectively through resistance R 104, resistance R 105 and connect+5V of resistance R 106 voltage, 5 pin of ADDA chip U103, 6 pin and 7 pin are again respectively through resistance R 107, resistance R 108 and resistance R 109 ground connection, connect+5V of the 16 pin voltage of ADDA chip U103, 16 pin of ADDA chip U103 are again through the parallel circuit ground connection of capacitor C 102 and electric capacity TC102, 14 pin of ADDA chip U103 are connected with 2 pin of semi-conductor chip U102, semi-conductor chip U102 adopts REF3040A chip, the 2 foot meridian capacitor C104 ground connection of semi-conductor chip U102, the 3 pin ground connection of semi-conductor chip U102, the 1 foot meridian capacitor C103 ground connection of the 1 pin connect+5V voltage of semi-conductor chip U102 and semi-conductor chip U102, 9 pin of ADDA chip U103 are connected with 16 pin of single-chip microcomputer U200, 10 pin of ADDA chip U103 are connected with 17 pin of single-chip microcomputer U200.Circuit is simple, and it is convenient to realize, and reliability is high.
As preferably, described electric power instrument supervisory system comprises humiture detecting unit and Temperature and Humidity Control unit, and humiture detecting unit and Temperature and Humidity Control unit are connected with described single machine unit respectively; Described humiture detecting unit comprises Temperature Humidity Sensor U1, Temperature Humidity Sensor U1 adopts DHT11-1 digital hygro sensor, the 4 pin ground connection of Temperature Humidity Sensor U1, connect+5V of the 1 pin voltage of Temperature Humidity Sensor U1, between 1 pin of Temperature Humidity Sensor U1 and 2 pin, be connected with resistance R 1,2 pin of Temperature Humidity Sensor U1 are connected with 35 pin of single-chip microcomputer U200; Described Temperature and Humidity Control unit comprises dehumidifier and relay, and the drive end of relay is connected with the output terminal of described single machine unit, and the contact switch of relay is connected in the supply line of dehumidifier.Circuit is simple, and it is convenient to realize, and reliability is high.
The beneficial effects of the utility model are: by infrared apart from detecting unit automatically monitor electric power instrument from state in place, automatically monitor the humiture situation of electric power instrument storage environment by humiture detecting unit, carry out correlation parameter setting by push-button unit, shown the outfit of electric power instrument by display unit, from information in place, use and apart from the humiture data of the information such as inspection time and electric power instrument storage environment, and energy automatic start-stop Temperature and Humidity Control unit, the humiture of electric power instrument storage environment is kept relative stability, reach standard, efficiency is high, data are accurate, reliability is strong, time saving and energy saving, guarantee the insulating property of Work tool, thereby guarantee power supply safety and grid maintenance personnel's life security.
Brief description of the drawings
Fig. 1 is a kind of circuit theory syndeton block diagram of the present utility model;
Fig. 2 is a kind of circuit theory diagrams of single machine unit in the utility model;
Fig. 3 and Fig. 4 are a kind of circuit theory diagrams of single machine unit peripheral circuit in the utility model;
Fig. 5 is a kind of circuit theory diagrams of clock part and the storage unit of single machine unit in the utility model;
Fig. 6 is a kind of circuit theory diagrams of push-button unit in the utility model;
Fig. 7 is a kind of circuit theory diagrams of display unit in the utility model;
Fig. 8 is infrared a kind of circuit theory diagrams apart from detecting unit and humiture detecting unit in the utility model;
A kind of circuit theory diagrams of voice-output unit in Fig. 9 the utility model;
Figure 10 and Figure 11 are a kind of circuit theory diagrams of power supply unit in the utility model.
1. single machine unit in figure, 2. infrared apart from detecting unit, 3. push-button unit, 4. display unit, 5. storage unit, 6. power supply unit, 7. humiture detecting unit, 8. Temperature and Humidity Control unit, 9. voice-output unit, 81. dehumidifiers, 82. relays.
Embodiment
Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.
Embodiment: the electric power instrument supervisory system of the present embodiment, as shown in Figure 1, comprise single machine unit 1, infrared apart from detecting unit 2, humiture detecting unit 7, Temperature and Humidity Control unit 8, voice-output unit 9, push-button unit 3, display unit 4 and storage unit 5 and for whole electric power instrument supervisory system provides the power supply unit 6 of operating voltage, be infraredly connected with single machine unit 1 respectively apart from detecting unit 2, humiture detecting unit 7, Temperature and Humidity Control unit 8, voice-output unit 9, push-button unit 3, display unit 4 and storage unit 5.Temperature and Humidity Control unit 8 comprises dehumidifier 81 and relay 82, and the drive end of relay 82 is connected with the output terminal of single machine unit 1, and one group of contact switch of relay 82 is connected in the supply line of dehumidifier 81.
As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 8, Figure 10 and Figure 11, single machine unit 1 comprises single-chip microcomputer U200, and single-chip microcomputer U200 adopts MSP430F149 single-chip microcomputer; Infraredly comprise infrared distance measurement sensor U100, comparer U101 and ADDA chip U103 apart from detecting unit 2, infrared distance measurement sensor U100 adopts the infrared distance measurement sensor of GP2D120B, comparer U101 adopts AD8561A chip, and ADDA chip U103 adopts PCF8591 chip; Humiture detecting unit 7 comprises Temperature Humidity Sensor U1, and Temperature Humidity Sensor U1 adopts DHT11-1 digital hygro sensor.The 2 pin ground connection of infrared distance measurement sensor U100, connect+5V of the 3 pin voltage of infrared distance measurement sensor U100, between 3 pin of infrared distance measurement sensor U100 and 1 pin, be connected with resistance R 100, 1 pin of infrared distance measurement sensor U100 is connected with 3 pin of comparer U101, connect+5V of the 1 pin voltage of comparer U101, 1 pin of comparer U101 is again through the parallel circuit ground connection of capacitor C 101 and electric capacity TC101, 2 pin of comparer U101 are connected with 15 pin of ADDA chip U103 through resistance R 102, 4 pin of comparer U101, 5 pin and the equal ground connection of 6 pin, 7 pin of comparer U101, one tunnel is connected with the positive pole of diode D100, another road is connected with the negative pole of diode D101, also have a road to be connected through 61 pin of resistance R 103 and single-chip microcomputer U200, connect+5V of the negative pole of diode D100 voltage, the plus earth of diode D101, 1 pin of ADDA chip U103, 2 pin, 3 pin, 4 pin, 8 pin and 12 pin, the equal ground connection of 13 pin, 5 pin of ADDA chip U103, 6 pin and 7 pin are respectively through resistance R 104, resistance R 105 and connect+5V of resistance R 106 voltage, 5 pin of ADDA chip U103, 6 pin and 7 pin are again respectively through resistance R 107, resistance R 108 and resistance R 109 ground connection, connect+5V of the 16 pin voltage of ADDA chip U103, 16 pin of ADDA chip U103 are again through the parallel circuit ground connection of capacitor C 102 and electric capacity TC102, 14 pin of ADDA chip U103 are connected with 2 pin of semi-conductor chip U102, semi-conductor chip U102 adopts REF3040A chip, the 2 foot meridian capacitor C104 ground connection of semi-conductor chip U102, the 3 pin ground connection of semi-conductor chip U102, the 1 foot meridian capacitor C103 ground connection of the 1 pin connect+5V voltage of semi-conductor chip U102 and semi-conductor chip U102, 9 pin of ADDA chip U103 are connected with 16 pin of single-chip microcomputer U200, 10 pin of ADDA chip U103 are connected with 17 pin of single-chip microcomputer U200.The 4 pin ground connection of Temperature Humidity Sensor U1, connect+5V of the 1 pin voltage of Temperature Humidity Sensor U1, is connected with resistance R 1 between 1 pin of Temperature Humidity Sensor U1 and 2 pin, and 2 pin of Temperature Humidity Sensor U1 are connected with 35 pin of single-chip microcomputer U200.
As shown in Figure 6, push-button unit 3 has ten six press keys, is respectively 0~9 key and A~F key; As shown in Figure 7, display unit 4 adopts LCDs, and as shown in Figure 5, storage unit 5 adopts AT24C32 storage chip.As shown in Figure 9, voice-output unit 9 comprises connected voice module and power amplifier module, and the output terminal of single machine unit 1 is connected with the input end of voice module, and the output terminal of voice module is connected with the input end of power amplifier module.Voice module comprises speech chip U207, and power amplifier module comprises audio-frequency power amplifier U209 and loudspeaker U210 and U211, and speech chip U207 adopts WT588D speech chip, and audio-frequency power amplifier U209 adopts TPA3123D2 audio-frequency power amplifier.
Infrared distance measurement sensor automatically monitor electric power instrument from status information in place and flow to single-chip microcomputer, Temperature Humidity Sensor is automatically monitored the humiture data of electric power instrument storage environment and is flowed to single-chip microcomputer, single-chip microcomputer is processed the information and the data that obtain, the humiture data from information in place and storage environment of electric power instrument are saved in storage chip, and the humiture data that record in real time and predefined humiture standard value are compared, judgement and processing, then export the start and stop of control signal control dehumidifier, the humiture of the storage environment of electric power instrument is kept within the specific limits, thereby meet relevant criterion.By operation push-button unit, control the outfit, use of LCDs displaying calendar, clock, humiture and electric power instrument, apart from information such as inspection times.Voice module carries out audio frequency output by power amplifier module, can automatically report title, the mode of operation of electric power instrument, carries out voice message, and the electric power instrument that need detect is as early as possible carried out to warning reminding.
The utility model does not rely on manually, and monitoring and control complete completely automatically, and efficiency is high, and data are accurate, and reliability is strong, time saving and energy saving, and guarantees the insulating property of electric power instrument, thereby guarantees power supply safety and grid maintenance personnel's life security.
Claims (5)
1. an electric power instrument supervisory system, it is characterized in that comprising single machine unit (1), infrared apart from detecting unit (2), push-button unit (3), display unit (4) and storage unit (5) and for whole electric power instrument supervisory system provides the power supply unit (6) of operating voltage, described be infraredly connected with described single machine unit (1) respectively apart from detecting unit (1), push-button unit (3), display unit (4) and storage unit (5).
2. electric power instrument supervisory system according to claim 1, it is characterized in that comprising humiture detecting unit (7) and Temperature and Humidity Control unit (8), humiture detecting unit (7) and Temperature and Humidity Control unit (8) are connected with described single machine unit (1) respectively.
3. electric power instrument supervisory system according to claim 1 and 2, is characterized in that comprising voice-output unit (9), and voice-output unit (9) is connected with described single machine unit (1).
4. electric power instrument supervisory system according to claim 1 and 2, is characterized in that described single machine unit (1) comprises single-chip microcomputer U200, and single-chip microcomputer U200 adopts MSP430F149 single-chip microcomputer, described infraredly comprise infrared distance measurement sensor U100, comparer U101 and ADDA chip U103 apart from detecting unit (2), infrared distance measurement sensor U100 adopts the infrared distance measurement sensor of GP2D120B, comparer U101 adopts AD8561A chip, and ADDA chip U103 adopts PCF8591 chip, the 2 pin ground connection of infrared distance measurement sensor U100, connect+5V of the 3 pin voltage of infrared distance measurement sensor U100, between 3 pin of infrared distance measurement sensor U100 and 1 pin, be connected with resistance R 100, 1 pin of infrared distance measurement sensor U100 is connected with 3 pin of comparer U101, connect+5V of the 1 pin voltage of comparer U101, 1 pin of comparer U101 is again through the parallel circuit ground connection of capacitor C 101 and electric capacity TC101, 2 pin of comparer U101 are connected with 15 pin of ADDA chip U103 through resistance R 102, 4 pin of comparer U101, 5 pin and the equal ground connection of 6 pin, 7 pin of comparer U101, one tunnel is connected with the positive pole of diode D100, another road is connected with the negative pole of diode D101, also have a road to be connected through 61 pin of resistance R 103 and single-chip microcomputer U200, connect+5V of the negative pole of diode D100 voltage, the plus earth of diode D101, 1 pin of ADDA chip U103, 2 pin, 3 pin, 4 pin, 8 pin and 12 pin, the equal ground connection of 13 pin, 5 pin of ADDA chip U103, 6 pin and 7 pin are respectively through resistance R 104, resistance R 105 and connect+5V of resistance R 106 voltage, 5 pin of ADDA chip U103, 6 pin and 7 pin are again respectively through resistance R 107, resistance R 108 and resistance R 109 ground connection, connect+5V of the 16 pin voltage of ADDA chip U103, 16 pin of ADDA chip U103 are again through the parallel circuit ground connection of capacitor C 102 and electric capacity TC102, 14 pin of ADDA chip U103 are connected with 2 pin of semi-conductor chip U102, semi-conductor chip U102 adopts REF3040A chip, the 2 foot meridian capacitor C104 ground connection of semi-conductor chip U102, the 3 pin ground connection of semi-conductor chip U102, the 1 foot meridian capacitor C103 ground connection of the 1 pin connect+5V voltage of semi-conductor chip U102 and semi-conductor chip U102, 9 pin of ADDA chip U103 are connected with 16 pin of single-chip microcomputer U200, 10 pin of ADDA chip U103 are connected with 17 pin of single-chip microcomputer U200.
5. electric power instrument supervisory system according to claim 4, it is characterized in that comprising humiture detecting unit (7) and Temperature and Humidity Control unit (8), humiture detecting unit (7) and Temperature and Humidity Control unit (8) are connected with described single machine unit (1) respectively; Described humiture detecting unit (7) comprises Temperature Humidity Sensor U1, Temperature Humidity Sensor U1 adopts DHT11-1 digital hygro sensor, the 4 pin ground connection of Temperature Humidity Sensor U1, connect+5V of the 1 pin voltage of Temperature Humidity Sensor U1, between 1 pin of Temperature Humidity Sensor U1 and 2 pin, be connected with resistance R 1,2 pin of Temperature Humidity Sensor U1 are connected with 35 pin of single-chip microcomputer U200; Described Temperature and Humidity Control unit (8) comprises dehumidifier (81) and relay (82), the output terminal of the drive end of relay (82) and described single machine unit (1) is connected, and the contact switch of relay (82) is connected in the supply line of dehumidifier (81).
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CN201420090923.6U CN203706001U (en) | 2014-03-03 | 2014-03-03 | Electrical tool and instrument monitoring system |
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CN201420090923.6U CN203706001U (en) | 2014-03-03 | 2014-03-03 | Electrical tool and instrument monitoring system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106647455A (en) * | 2016-11-21 | 2017-05-10 | 国网山东省电力公司东营供电公司 | Automatic drying system and method of live working device |
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2014
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106647455A (en) * | 2016-11-21 | 2017-05-10 | 国网山东省电力公司东营供电公司 | Automatic drying system and method of live working device |
CN106647455B (en) * | 2016-11-21 | 2019-05-07 | 国网山东省电力公司东营供电公司 | A kind of automatic drying system and method for livewire work equipment |
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