CN214669332U - Ground induction type nuclear phase device - Google Patents

Abstract

The utility model discloses a ground induction type nuclear phase device, which comprises a first nuclear phase module, a second nuclear phase module, a first ground induction module and a second ground induction module; the first ground sensing module comprises a first sensing unit and a first communication assembly, and the first communication assembly comprises a first acquisition unit for acquiring a first voltage signal and a first transmitting unit for transmitting the signal; the second ground sensing module comprises a second sensing unit and a second communication assembly, and the second communication assembly comprises a second acquisition unit and a second sending unit which are used for acquiring a second voltage signal; the first phase checking module comprises a first receiving and transmitting unit for receiving and transmitting a first voltage signal; the second phase checking module comprises a second transceiving unit for receiving the first voltage signal and the second voltage signal and a second processing unit for calculating the phase difference, so that the phase checking can be realized only by reaching a specified area, the convenience and trouble saving are realized, and the accuracy of collecting the voltage signals is improved on the premise of ensuring the safety.

Description

Ground induction type nuclear phase device

Technical Field

The utility model relates to the technical field of nuclear phase device especially involves ground induction type nuclear phase device.

Background

Generally, a nuclear phase test is required after the electric line is built to ensure that the electric line can work normally, wherein the nuclear phase refers to whether phases at two ends of the tested electric line are consistent, and at present, the detection is basically performed through a nuclear phase device, for example, a specific nuclear phase device is used for detecting a contact type nuclear phase or a non-contact type nuclear phase under high pressure and contacting the nuclear phase under low pressure, wherein the contact type nuclear phase is easy to cause instrument damage, so that the nuclear phase test cannot be completed, resources are wasted, and the test personnel are extremely dangerous; and the non-contact nuclear phase is tested by using a battery induction principle, so that the nuclear phase is easily influenced by the outside to cause inaccurate measurement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a safe and test more accurate ground induction type nuclear phase device.

Based on the above purpose, the utility model provides a ground induction type nuclear phase device, including a ground induction type nuclear phase device, characterized in that, include at least first nuclear phase module, second nuclear phase module, set up respectively in the first ground induction module of first appointed area and set up in the second ground induction module of second appointed area;

the first ground induction module at least comprises a first induction unit and a first communication assembly which are sequentially and electrically connected, the first communication assembly comprises a first acquisition unit and a first sending unit, the first induction unit is used for triggering the first acquisition unit to acquire a first voltage signal, and the first sending unit is used for sending the first voltage signal out;

the second ground sensing module at least comprises a second sensing unit and a second communication assembly which are electrically connected in sequence, the second communication assembly comprises a second acquisition unit and a second sending unit, the second sensing unit is used for triggering the second acquisition unit to acquire a second voltage signal, and the second sending unit is used for sending the second voltage signal out;

the first phase checking module at least comprises a first transceiver unit, and the first transceiver unit is used for receiving a first voltage signal sent by the first ground induction module and sending the first voltage signal to the second phase checking module;

the second phase checking module at least comprises a second transceiver unit and a second processing unit connected with the second transceiver unit, the second transceiver unit is used for receiving a first voltage signal sent by the first phase checking module and a second voltage signal sent by the second ground sensing module, and the second processing unit is used for calculating the phase difference between the first voltage signal and the second voltage signal.

Further, the first phase checking module further includes a first processing unit, the first processing unit is connected to the first transceiver unit, the first transceiver unit is configured to receive a second voltage signal sent by the second phase checking module and send the second voltage signal to the first processing unit, and the first processing unit is configured to calculate a phase difference between the first voltage signal and the second voltage signal.

Further, first collection unit includes binding post and voltage acquisition circuit, binding post connects the voltage circuit that awaits measuring, binding post with voltage acquisition circuit connects.

Further, the device also comprises a nuclear phase processing device;

the nuclear phase processing device comprises a processing chip and is used for receiving a first voltage signal sent by a first nuclear phase module and a second voltage signal sent by a second nuclear phase module and calculating the phase difference between the first voltage signal and the second voltage signal.

Furthermore, the nuclear phase processing device also comprises a display screen, and the display screen is electrically connected with the processing chip.

Furthermore, the first nuclear phase module and the second nuclear phase module both comprise a battery and a wireless charging module, and the wireless charging module is electrically connected with the battery.

Further, the first sensing unit is a pedal electronic sensor or a pressure sensor, and the second sensing unit is a pedal electronic sensor or a pressure sensor.

Further, the first phase checking module and the second phase checking module both comprise electronic display screens.

The utility model provides a ground induction type nuclear phase device, including ground induction module and nuclear phase module, through induction unit in the ground induction module, acquisition unit and sending unit, when the people when appointed region on earth, induction unit in the ground induction module senses and triggers acquisition unit and gather voltage signal, then send to nuclear phase module through sending unit, then nuclear phase is gone on again, only need reach appointed region like this and can realize nuclear phase, convenient trouble-saving, on the basis that need not artificial contact test, direct voltage signal through the acquisition unit collection voltage circuit, not only guarantee the security, and still improve the accuracy of gathering voltage signal greatly.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the ground induction type nuclear phase device of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the ground induction type nuclear phase device of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that the description relating to "first", "second", etc. in the present invention is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In this embodiment, referring to fig. 1, the ground induction type phase checking device includes at least a first phase checking module 3, a second phase checking module 4, a first ground induction module 1 disposed in a first designated area, and a second ground induction module 2 disposed in a second designated area; wherein, above-mentioned first appointed region and second appointed region are safe and are close to the region of electric wire netting relatively, set up respectively at the high-tension line's that awaits measuring both ends like first appointed region and second appointed region, of course the utility model provides a ground induction type nuclear phase device does not restrict test high-tension line, also can measure low-tension line.

Specifically, the first ground sensing module 1 at least comprises a first sensing unit 11 and a first communication assembly 12 which are electrically connected in sequence, specifically, the first sensing unit 11 can be a pedal electronic sensor or a pressure sensor, the first communication assembly 12 comprises a first acquisition unit 121 and a first transmission unit 122, the first acquisition unit 121 is used for acquiring a first voltage signal, and the first transmission unit 122 is used for transmitting the first voltage signal; when the first sensing unit 11 senses pressure, the first collecting unit 121 is triggered to work, and if the trigger switch is turned on, the first collecting unit 121 collects a first voltage signal, the first collecting unit 121 comprises a connecting terminal connected with a voltage line to be detected and a voltage collecting circuit, and the connecting terminal is connected with the voltage collecting circuit; in order to improve the safety, the first collecting unit 121 may further include an overvoltage protection circuit, so that the voltage line to be tested is directly connected to the connecting terminal to collect the voltage signal, and the obtained collecting result is more accurate.

In another embodiment, the first collecting unit 121 may also be an induction coil or a magnetic sensor, and obtains a voltage signal by inducing a change of an environmental electromagnetic field in a voltage line to be measured; the first sending unit 122 may be a radio frequency emitting unit, the first sending unit 122 is in communication connection with the first nuclear phase module 3, and after the first collecting unit 121 collects the first voltage signal, the first voltage signal is sent to the first sending unit 122, and is sent by the first sending unit 122.

The second ground sensing module 2 is the same as the first ground sensing module 1, and also at least comprises a second sensing unit 21 and a second communication component 22 which are electrically connected in sequence, the second communication component 22 comprises a second acquisition unit 221 and a second sending unit 222, the second sensing unit 21 is used for triggering the second acquisition unit 221 to acquire a first voltage signal, and the second sending unit 222 is used for sending the first voltage signal out.

Specifically, the first ground sensing module 1 and the second sensing module are respectively disposed on the ground in a first designated area and a second designated area, for example, in the floor, and are both provided with an insulating layer and a waterproof layer at the periphery.

In this embodiment, the first phase checking module 3 at least includes a first transceiver unit 31, where the first transceiver unit 31 is configured to receive a first voltage signal sent by the first ground induction module 1, and send the first voltage signal to the second phase checking module 4; the first transceiver unit 31 may be a wireless radio transceiver chip. In another embodiment, the first phase-checking module 3 further includes a first processing unit 32, which may be a single chip, and the first processing unit 32 is connected to the first transceiver unit 31 and controls the first transceiver unit 31 to receive a voltage signal and send a voltage signal.

The second phase checking module 4 is in communication connection with the first phase checking module 3, the second phase checking module 4 at least includes a second transceiver unit 41 and a second processing unit 42, similarly, the second transceiver unit 41 may be a radio frequency transceiver chip, the second processing unit 42 may be a single chip, the second transceiver unit 41 is configured to receive a first voltage signal sent by the first phase checking module 3 and a second voltage signal sent by the second ground sensing module 2, and the second processing unit 42 is configured to calculate a phase difference between the first voltage signal and the second voltage signal, thereby completing phase checking.

The utility model provides a ground induction type nuclear phase device, including ground induction module and nuclear phase module, through induction unit in the ground induction module, acquisition unit and sending unit, when the people when appointed region on earth, induction unit in the ground induction module senses and triggers acquisition unit and gather voltage signal, then send to nuclear phase module through sending unit, then nuclear phase is gone on again, only need reach appointed region like this and can realize nuclear phase, convenient trouble-saving, on the basis that need not artificial contact test, direct voltage signal through the acquisition unit collection voltage circuit, not only guarantee the security, and still improve the accuracy of gathering voltage signal greatly.

In another embodiment, when the first phase-checking module 3 includes the first processing unit 32, the first transceiver unit 31 may further receive a second voltage signal sent by the second phase-checking module 4, send the second voltage signal to the first processing unit 32, and calculate a phase difference between the first voltage signal and the second voltage signal through the first processing unit 32.

Specifically, the first phase-checking module 3 and the second phase-checking module 4 are both provided with a control switch, the control switch in the first phase-checking module 3 is connected to the first processing unit 32 and is configured to control the first processing unit 32 to start phase-checking calculation, and the control switch in the second phase-checking module 4 is connected to the second processing unit 42 and is configured to control the second processing unit 42 to start phase-checking.

In an embodiment, for convenience of testing, the ground induction type phase-checking device may further include a phase-checking processing device 5, referring to fig. 2, the phase-checking processing device 5 is respectively connected to the first phase-checking module 3 and the second phase-checking module 4 in a communication manner, specifically, the phase-checking processing device 5 includes a processing chip 51, configured to receive a first voltage signal sent by the first phase-checking module 3 and a second voltage signal sent by the second phase-checking module 4, and calculate a phase difference between the first voltage signal and the second voltage signal, where the processing chip 51 includes a wireless antenna, a wireless radio frequency module, and the like.

In one embodiment, the nuclear phase processing device 5 further includes a display screen 52, the display screen 52 is electrically connected to the processing chip 51, and when the processing chip 51 calculates the phase difference between the first voltage signal and the second voltage signal, the calculation result can be displayed on the display screen 52.

In one embodiment, in order to improve convenience, the first nuclear phase module 3 and the second nuclear phase module 4 each include a battery, the battery in the first nuclear phase module 3 is electrically connected to the first processing unit 32 thereof, and the battery in the second nuclear phase module 4 is electrically connected to the second processing unit 42 thereof, and in another embodiment, the first nuclear phase module 3 and the second nuclear phase module 4 each include a wireless charging module, and the wireless charging module is electrically connected to the battery, and the battery is charged through the wireless charging module.

In an embodiment, the user experience is improved, the first phase checking module 3 and the second phase checking module 4 both include an electronic display screen 52, the electronic display screen 52 in the first phase checking module 3 is connected to the first processing unit 32, when the first processing unit 32 calculates the phase difference between the first voltage signal and the second voltage signal, the calculation result may be displayed on the electronic display screen 52, the electronic display screen 52 in the second phase checking module 4 is connected to the second processing unit 42, and when the second processing unit 42 calculates the phase difference between the first voltage signal and the second voltage signal, the calculation result may be displayed on the electronic display screen 52, so as to further improve the convenience of use.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (8)

1. A ground induction type nuclear phase device is characterized by at least comprising a first nuclear phase module, a second nuclear phase module, a first ground induction module and a second ground induction module, wherein the first ground induction module and the second ground induction module are respectively arranged in a first designated area;

the first ground induction module at least comprises a first induction unit and a first communication assembly which are sequentially and electrically connected, the first communication assembly comprises a first acquisition unit and a first sending unit, the first induction unit is used for triggering the first acquisition unit to acquire a first voltage signal, and the first sending unit is used for sending the first voltage signal out;

the second ground sensing module at least comprises a second sensing unit and a second communication assembly which are electrically connected in sequence, the second communication assembly comprises a second acquisition unit and a second sending unit, the second sensing unit is used for triggering the second acquisition unit to acquire a second voltage signal, and the second sending unit is used for sending the second voltage signal out;

the first phase checking module at least comprises a first transceiver unit, and the first transceiver unit is used for receiving a first voltage signal sent by the first ground induction module and sending the first voltage signal to the second phase checking module;

the second phase checking module at least comprises a second transceiver unit and a second processing unit connected with the second transceiver unit, the second transceiver unit is used for receiving a first voltage signal sent by the first phase checking module and a second voltage signal sent by the second ground sensing module, and the second processing unit is used for calculating the phase difference between the first voltage signal and the second voltage signal.

2. The ground induction type nuclear phase device according to claim 1, wherein the first nuclear phase module further includes a first processing unit, the first processing unit is connected to the first transceiver unit, the first transceiver unit is configured to receive the second voltage signal sent by the second nuclear phase module and send the second voltage signal to the first processing unit, and the first processing unit is configured to calculate a phase difference between the first voltage signal and the second voltage signal.

3. The ground induction type nuclear phase device as claimed in claim 1, wherein the first collecting unit comprises a connecting terminal and a voltage collecting circuit, the connecting terminal is connected with a voltage line to be measured, and the connecting terminal is connected with the voltage collecting circuit.

4. The ground induction type nuclear phase apparatus according to claim 1, further comprising a nuclear phase processing means;

the nuclear phase processing device comprises a processing chip and is used for receiving a first voltage signal sent by a first nuclear phase module and a second voltage signal sent by a second nuclear phase module and calculating the phase difference between the first voltage signal and the second voltage signal.

5. The ground-induction-type nuclear phase device of claim 4, wherein the nuclear phase processing device further comprises a display screen, and the display screen is electrically connected with the processing chip.

6. The ground-based induction nuclear phase apparatus of claim 2, wherein the first nuclear phase module and the second nuclear phase module each comprise a battery and a wireless charging module electrically connected to the battery.

7. The ground-induction-type nuclear phase device according to claim 1, wherein the first induction unit is a pedal-type electronic inductor or a pressure inductor, and the second induction unit is a pedal-type electronic inductor or a pressure inductor.

8. The ground-induction-type phase-checking apparatus of claim 2, wherein the first phase-checking module and the second phase-checking module each comprise an electronic display screen.

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