CN211478638U - Handheld intelligent electric meter carrier module detection device - Google Patents

Abstract

The utility model provides a hand-held type smart electric meter carrier wave module detection device, belong to electric power system detection fortune dimension technical field, which comprises a housing, the inside battery electrical power generating system that is provided with of casing, the liquid crystal display module, the keyboard input module, storage module, the clock unit, the power monitoring unit, state quantity output unit, direct current contravariant AC module, narrowband/broadband signal simulator, signal modem module and core module, be provided with liquid crystal display on the casing, switch, the alarm lamp, the frequency modulation knob, the adjustment key, keyboard interface and power source. The utility model discloses a handheld convenient structural design theory, furthest's optimization structure rational utilization every cun inner space can cover full frequency channel, effectively improves work efficiency, and lightly, safety, and easy operation can take precautions against live working's potential safety hazard.

Description

Handheld intelligent electric meter carrier module detection device

Technical Field

The utility model belongs to the technical field of power system detects fortune dimension, especially involve a hand-held type and reach smart electric meter carrier wave module detection device of carrier wave module type full coverage simultaneously.

Background

With the continuous forward progress of smart grid and ubiquitous power internet of things construction engineering, the smart electric meter is used as a loop of a smart grid and a power internet of things terminal, data transmission is carried out through a power line, and the smart grid and ubiquitous power internet of things intelligent power grid is an important link for realizing the smart grid and ubiquitous power internet of things of a national grid company. The carrier communication module is used as an important component of the intelligent electric energy meter, and when the carrier communication module breaks down, the uploading of the collected data of the intelligent electric energy meter is directly influenced. Whether the communication of collection fortune dimension personnel judgement carrier communication module need use professional detection device when being normal, and current detection device exists bulky, carries inconveniently, and detection device complex operation, live working has the potential safety hazard, can only detect single frequency module, problem that detection efficiency is low. Therefore, there is a need in the art for a new solution to solve this problem.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a hand-held type smart electric meter carrier wave module detection device adopts handheld convenient structural design theory, and furthest's optimization structure rational utilization every cun inner space can cover the full frequency channel, effectively improves work efficiency, and lightly, safety, and easy operation can take precautions against live working's potential safety hazard.

The utility model provides a hand-held type smart electric meter carrier wave module detection device which characterized by: comprises a shell, a storage battery power supply system, a liquid crystal display module, a keyboard input module, a storage module, a clock unit, a power supply monitoring unit, a state quantity output unit, a direct current inversion alternating current module, a narrow-band/broadband signal simulator, a signal modem module and a core module are arranged in the shell,

the storage battery power supply system comprises a charging circuit, a voltage reduction circuit, a direct current inverter circuit and a battery protection circuit, and provides power for the core module and the direct current inverter alternating current module;

the input end of the liquid crystal display module is connected with the core module and comprises a liquid crystal display screen and a liquid crystal display driving circuit;

the output end of the keyboard input module is connected with the core module and comprises a keyboard input circuit and a keyboard interface circuit;

the memory module is connected with the core module and internally provided with a memory unit circuit;

the output end of the clock unit is connected with the core module;

the input end of the power supply monitoring unit is connected with the core module;

the input end of the state quantity output unit is connected with the core module and comprises a voice alarm unit and an indicator light display unit;

the direct current inversion alternating current module is connected with a storage battery power supply system;

the narrow-band/wide-band signal simulator is connected with the signal modem module;

the signal modem module is connected with the core module;

the core module is STM32F302ZET6 singlechip.

And the shell is provided with a liquid crystal display screen, a power switch, an alarm lamp, a frequency modulation knob, an adjusting key, a keyboard interface and a power interface.

The charging circuit of the storage battery power supply system is a circuit for charging management of a 12V lithium battery by commercial power through a charger; the voltage reduction circuit is a circuit of which the voltage is changed into 5V and 3.3V by a 12V power supply through a voltage reduction component; the DC inverter circuit is an AC sine wave circuit for inverting a 12V DC power supply into a 50Hz frequency.

The direct current inversion alternating current module is used for inverting a direct current power supply into a power carrier communication channel required by single-phase classical 220V sine wave 50Hz alternating current circuit analog carrier communication.

And the narrow-band/wide-band signal simulator is used for adjusting the frequency signal of the detection device to be synchronous with the carrier center frequency of the tested carrier module.

The state quantity output unit is used for detecting ending output.

The power supply monitoring unit is used for detecting the electric quantity of the storage battery power supply system, providing data for the core module and displaying electric quantity information and charging and discharging states on the liquid crystal display screen.

The clock unit is used for generating a central clock signal.

The liquid crystal display driving circuit of the liquid crystal display module comprises a display data driving circuit and a control data circuit;

through the above design scheme, the utility model discloses following beneficial effect can be brought: the utility model provides a hand-held type smart electric meter carrier wave module detection device, adopts handheld convenient structural design theory, and furthest's optimization structure rational utilization every cun inner space can cover the full frequency channel, effectively improves work efficiency, and lightly, safety, and easy operation can take precautions against live working's potential safety hazard.

Furthermore, the utility model also has the following beneficial effects,

1. portable and small structure design

This intelligent carrier module detection device adopts handheld convenient structural design theory, and each cun inner space of furthest's optimization structure rational utilization makes the overall arrangement of each inside functional module more reasonable, finally makes the intelligent carrier module detector that leads to the fact an external dimension and is close to 120 x 210 x 50 (mm).

2. Safe operating voltage

The intelligent carrier module detection device adopts a 12V storage battery as a power supply source of the intelligent carrier module detection device, and the inside of the intelligent carrier module detection device provides final working voltage for each functional module through a direct-current voltage reduction circuit and a direct-current inverter circuit. The DC low-voltage working power supply completely meets the range of human body contact safety voltage. The design scheme ensures that the detection device is safer to use.

3. Carrier communication regulation technology

The intelligent carrier detection device can generate different carrier signal frequencies for detecting the carrier communication module through the combined action of the narrow/wide band carrier signal circuit and the external frequency adjusting knob.

Drawings

The invention is further described with reference to the following drawings and detailed description:

fig. 1 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device outward appearance structure owner looks schematic diagram.

Fig. 2 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device outward appearance structure looks sideways at the schematic diagram.

Fig. 3 is the utility model relates to a handheld smart electric meter carrier wave module detection device outward appearance structure looks up the schematic diagram.

Fig. 4 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device inner structure schematic block diagram.

Fig. 5 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device functional principle block diagram.

Fig. 6 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device liquid crystal display circuit schematic diagram.

Fig. 7 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device liquid crystal display unit shows data drive circuit schematic diagram.

Fig. 8 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device liquid crystal display unit control data circuit schematic diagram.

Fig. 9 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device memory cell circuit schematic diagram.

Fig. 10 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device battery power supply system step-down circuit DC5V changes 3.3V circuit schematic diagram.

Fig. 11 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device battery power supply system step-down circuit DC12V changes 5V circuit schematic diagram.

Fig. 12 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device battery power supply system battery protection circuit schematic diagram.

Fig. 13 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device keyboard input circuit schematic diagram.

Fig. 14 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device keyboard interface circuit schematic diagram.

Fig. 15 is the utility model relates to a hand-held type smart electric meter carrier wave module detection device direct current contravariant exchanges module circuit schematic diagram.

In the figure, 1-a shell, 2-a storage battery power supply system, 3-a liquid crystal display module, 4-a keyboard input module, 5-a storage module, 6-a clock unit, 7-a power supply monitoring unit, 8-a state quantity output unit, 9-a direct current inversion alternating current module, 10-a narrow band/broadband signal simulator, 11-a signal modem module, 12-a core module, 101-a liquid crystal display screen, 102-a power switch, 103-an alarm lamp, 104-a frequency modulation knob, 105-an adjusting key, 106-a keyboard interface and 107-a power supply interface.

Detailed Description

A hand-held intelligent ammeter carrier module detection device is shown in figures 1-15, and comprises a casing 1, a storage battery power supply system 2, a liquid crystal display module 3, a keyboard input module 4, a storage module 5, a clock unit 6, a power supply monitoring unit 7, a state quantity output unit 8, a direct current inversion alternating current module 9, a narrow-band/broadband signal simulator 10, a signal modem module 11 and a core module 12 are arranged in the casing 1,

as shown in fig. 1 to 3, the housing 1 is made of phenolic plastic with high mechanical strength, toughness, wear resistance, dimensional stability, corrosion resistance, and excellent electrical insulation properties, and is used for electrically isolating electronic components from a user. The casing 1 is provided with a liquid crystal display 101, a power switch 102, an alarm lamp 103, a frequency adjustment knob 104, an adjustment key 105, a keyboard interface 106, and a power interface 107.

As shown in fig. 4 to fig. 15, the storage battery power supply system 2 includes a charging circuit, a voltage reducing circuit, a dc inverter circuit, and a battery protection circuit, and the storage battery power supply system 2 provides power for the core module 12 and the dc inverter ac module 9; the charging circuit is a circuit for charging management of a 12V lithium battery by commercial power through a special charger; the voltage reduction circuit is a circuit which supplies working power to different functional modules when a 12V power supply is used for reducing the voltage to be 5V and 3.3V through a voltage reduction component; the direct current inverter circuit is an alternating current sine wave circuit which inverts a 12V direct current power supply into a frequency of 50 Hz.

The input end of the liquid crystal display module 3 is connected with the core module 12 and comprises a liquid crystal display screen 101 and a liquid crystal display driving circuit; the liquid crystal display module 3 displays real-time visual information of working parameters and working conditions of the detection device.

The output end of the keyboard input module 4 is connected with the core module 12 and comprises a keyboard input circuit and a keyboard interface circuit; the keyboard input module 4 is used for controlling the input of working parameters and control commands of the detection device.

The memory module 5 is connected with the core module 12, and a memory cell circuit is arranged in the memory module and is a data center processed and analyzed by the core module 12.

The output end of the clock unit 6 is connected with the core module 12, and is a unit circuit for generating a central clock of the detection device.

The input end of the power monitoring unit 7 is connected with the core module 12, and the battery management unit of the detection device detects the electric quantity condition of the battery and provides related data to the core module 12 so as to display related electric quantity information and charge and discharge states on the liquid crystal display screen 101.

The input end of the state quantity output unit 8 is connected with the core module 12, and comprises a voice alarm unit and an indicator light display unit, wherein the voice alarm unit is a detection result output unit of the detection device and can broadcast 'module normal', 'module fault', 'low electric quantity and charging request', the indicator light display unit displays that the module is normal and the module is in green light flashing, and displays that the module is in red light flashing.

The direct current inversion alternating current module 9 is connected with the storage battery power supply system 2; the direct-current power supply in the detection device is inverted into a power carrier communication channel required by single-phase classical 220V sine wave 50Hz alternating-current circuit analog carrier communication.

The narrowband/broadband signal simulator 10 is connected with a signal modem module 11; the carrier signal analog circuit of the detection device can generate modulation signals with different frequencies by matching with a knob switch to be used for synchronizing the carrier center frequency of the carrier module to be detected.

The signal modem module 11 is connected with the core module 12;

the core module 12 is an STM32F302ZET6 single chip microcomputer, and is a management center for normal operation of a control center, an information processing center and each functional module of the detection device.

The utility model discloses a theory of operation does: the communication frequency is changed through button coarse adjustment and frequency modulation knob fine adjustment, so that the modulation signal and the carrier module to be detected have the same frequency, the core module 12 sends a control command to the carrier communication module to be detected through the modulation signal, the carrier communication module exchanges data with the core module 12 through a keyboard interface 106 on the detection device, the core module 12 compares the returned data of the carrier module to be detected with database data and analyzes the data, the core module 12 stores the comparison result into the storage module 5 and transmits the analysis result to the state quantity output unit 8, the voice broadcast detection result simultaneously indicates a lamp synchronous detection result, and the detection of the carrier communication module can be completed at the moment.

The intelligent detection device for the carrier module has the following main functions: function detection of narrow-band carrier communication modules of different communication frequencies: function detection of broadband carrier communication modules of different communication frequencies: the detection result of the intelligent detection device for the carrier module has an acousto-optic broadcast function; the detection device has the functions of battery state monitoring and low-power voice alarm; the detection device has the function of statistical analysis of the detection result of the detected module.

What has been described above is merely a preferred embodiment of the present intelligent detection device. It should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the overall concept of the detection device, and these should be considered as the protection scope of the practical training device.

Claims (9)

1. The utility model provides a hand-held type smart electric meter carrier wave module detection device which characterized by: comprises a shell (1), a storage battery power supply system (2), a liquid crystal display module (3), a keyboard input module (4), a storage module (5), a clock unit (6), a power supply monitoring unit (7), a state quantity output unit (8), a direct current inversion alternating current module (9), a narrow-band/broadband signal simulator (10), a signal modem module (11) and a core module (12) are arranged in the shell (1),

the storage battery power supply system (2) comprises a charging circuit, a voltage reduction circuit, a direct current inversion circuit and a battery protection circuit, and the storage battery power supply system (2) provides power for the core module (12) and the direct current inversion alternating current module (9);

the input end of the liquid crystal display module (3) is connected with the core module (12) and comprises a liquid crystal display screen (101) and a liquid crystal display driving circuit;

the output end of the keyboard input module (4) is connected with the core module (12) and comprises a keyboard input circuit and a keyboard interface circuit;

the memory module (5) is connected with the core module (12), and a memory unit circuit is arranged in the memory module;

the output end of the clock unit (6) is connected with the core module (12);

the input end of the power supply monitoring unit (7) is connected with the core module (12);

the input end of the state quantity output unit (8) is connected with the core module (12) and comprises a voice alarm unit and an indicator light display unit;

the direct current inversion alternating current module (9) is connected with the storage battery power supply system (2);

the narrow-band/wide-band signal simulator (10) is connected with a signal modem module (11);

the signal modem module (11) is connected with the core module (12);

the core module (12) is an STM32F302ZET6 single chip microcomputer.

2. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the shell (1) is provided with a liquid crystal display screen (101), a power switch (102), an alarm lamp (103), a frequency modulation knob (104), an adjusting key (105), a keyboard interface (106) and a power interface (107).

3. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the charging circuit of the storage battery power supply system (2) is a circuit for charging management of a 12V lithium battery by commercial power through a charger; the voltage reduction circuit is a circuit of which the voltage is changed into 5V and 3.3V by a 12V power supply through a voltage reduction component; the DC inverter circuit is an AC sine wave circuit for inverting a 12V DC power supply into a 50Hz frequency.

4. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the direct current inversion alternating current module (9) is used for inverting a direct current power supply into a power carrier communication channel required by single-phase classical 220V sine wave 50Hz alternating current circuit analog carrier communication.

5. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the narrow-band/wide-band signal simulator (10) is used for adjusting the frequency signal of the detection device to be synchronous with the carrier center frequency of the tested carrier module.

6. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the state quantity output unit (8) is used for detecting ending output.

7. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the power supply monitoring unit (7) is used for detecting the electric quantity of the storage battery power supply system (2), providing data to the core module (12) and displaying electric quantity information and charging and discharging states on the liquid crystal display screen (101).

8. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the clock unit (6) is used for generating a central clock signal.

9. The device for detecting the carrier module of the handheld intelligent electric meter as claimed in claim 1, wherein: the liquid crystal display driving circuit of the liquid crystal display module (3) comprises a display data driving circuit and a control data circuit.

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