CN111811571A - Expander state detection device and detection system - Google Patents

Abstract

The invention provides an expander state detection device and a detection system, wherein a control unit of the expander state detection device receives a detection instruction sent by a user through a receiving device through a wireless communication unit, starts a detection unit according to the detection instruction, and sends an instruction for acquiring state information of an expander to the detection unit; the detection unit receives the instruction sent by the control unit and then detects the temperature of the upper surface and the distance from the upper surface to the displacement detection module through the temperature detection module and the displacement detection module respectively so as to acquire the state information of the expander; the control unit receives the state information and transmits the state information to the receiving device through the wireless communication unit. The invention can solve the problem that the inspection personnel can not observe the state of the expander, and can realize the detection of the state of the expander, thereby quickly finding the problem when the current transformer has a fault, ensuring the safe operation of a power system and avoiding the occurrence of power accidents and economic loss.

Description

Expander state detection device and detection system

Technical Field

The invention relates to the field of safety detection of power equipment, in particular to an expander state detection device and system.

Background

The current transformer has the functions of current conversion and electrical isolation, and is an important component for safe operation of a power system. Current transformers are classified into oil-immersed current transformers, dry current transformers, and gas-insulated current transformers according to the difference of insulating media. The oil-immersed current transformer takes transformer oil as an insulating medium, has the characteristics of fast heat dissipation, uniform conduction and recoverable insulativity, and is widely applied to power systems.

The upper portion of an oil tank of the oil immersed current transformer is provided with a metal expander as an oil compensator, when the current transformer breaks down, the metal expander causes penetrating discharge, oil is cracked and gasified by electric arc of the metal expander, the internal pressure of the transformer is increased, and compared with a current transformer which does not break down at the same temperature, the length of the expander is stretched. When the sealing performance of the current transformer is damaged, oil leakage occurs, and the length of the expander is contracted when the current transformer does not have a fault at the same temperature. Therefore, whether the electric transformer is normal or not is judged according to the expansion displacement change of the expander at different temperatures, and the method is an effective judgment method.

Under the usual condition, because wiring and safety need, current transformer can be erect in the eminence, and the personnel of patrolling and examining are difficult to observe the state of the expander on the current transformer with the naked eye to because the cycle of patrolling and examining is long, it is big to patrol and examine the degree of difficulty, and the personnel of patrolling and examining can not detect the state of expander in real time, is difficult to find the problem fast when current transformer, has influenced electric power system's safe operation, can lead to the emergence of electric power accident even, causes serious economic loss.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the expander state detection device and the expander state detection system, which are used for remotely receiving a detection instruction sent by a user and sending the state information of the expander, which is acquired by a detection unit, to the user, so that the problem that a patrol worker cannot observe the state of the expander can be solved, and the state of the expander can be detected, so that the problem can be quickly found when a current transformer fails, the safe operation of a power system is ensured, and the occurrence of power accidents and economic loss are avoided.

In order to solve the above problems, the present invention adopts a technical solution as follows: an expander state detection device fixed to a housing of an expander so as to be opposed to an upper surface of the expander, the expander state detection device comprising: the device comprises a wireless communication unit, a control unit and a detection unit, wherein the control unit is respectively connected with the wireless communication unit and the detection unit; the control unit receives a detection instruction sent by a user through a receiving device through the wireless communication unit, starts the detection unit according to the detection instruction, and sends an instruction for acquiring state information of the expander to the detection unit, wherein the state information comprises temperature and displacement information; the detection unit comprises a temperature detection module and a displacement detection module, and after receiving the instruction sent by the control unit, the detection unit respectively detects the temperature of the upper surface and the distance from the upper surface to the displacement detection module through the temperature detection module and the displacement detection module so as to acquire the state information of the expander; the control unit receives the state information sent by the detection unit and sends the state information to a receiving device of a user through the wireless communication unit.

Furthermore, the expander state detection device further comprises a shell and a base, the base penetrates through the outer cover, the shell and one end, located outside the outer cover, of the base are connected to form a cavity, and the control unit and the detection unit are accommodated in the cavity.

Further, the base comprises a bottom plate and a bolt, the bolt penetrates through the bottom plate and the outer cover, and the outer cover is in threaded connection with the bolt.

Further, the expander state detection device further comprises a nut, wherein the nut is located inside the outer cover and in threaded connection with the bolt, and the base is fixed on the outer cover through the nut.

Furthermore, the bolt is provided with two through holes which are axially parallel to the bolt, the temperature detection module and the displacement detection module are respectively arranged in different through holes, and the temperature detection module and the displacement detection module are fixed through the through holes.

Furthermore, one end of the through hole, which is close to the upper surface of the expander, is also provided with a waterproof window, and the waterproof window is nested in the through hole.

Further, the expander state detection device further comprises a power supply, and the power supply is respectively connected with the control unit, the wireless communication unit and the detection unit.

Furthermore, the control unit comprises a signal processing module and a control module, the signal processing module is respectively connected with the temperature detection module and the displacement detection module, and the signal processing module converts analog signals sent by the temperature detection module and the displacement detection module into digital signals and sends the digital signals to the control module for processing.

Further, the expander state detection device further comprises a main control board, the wireless communication unit and the control module are fixed on the same side of the main control board, and the signal processing module is fixed on the other side of the main control board.

Based on the same inventive concept, the invention also provides an expander state detection system, which comprises a receiving device and an expander state detection device; the receiving device comprises a processor, a memory and an information transceiver, wherein the processor is respectively connected with the memory and the information transceiver, sends a detection instruction to the expander state detection device through the information transceiver, receives state information returned by the expander state detection device, and stores the state information in the memory; the expander state detection means includes the expander state detection means as described above.

Compared with the prior art, the invention has the beneficial effects that: the detection instruction sent by the user is remotely received through the wireless communication unit, the state information of the expander acquired through the detection unit is sent to the user, the problem that inspection personnel cannot observe the state of the expander can be solved, the state of the expander can be detected, the problem can be rapidly found when the current transformer breaks down, the safe operation of a power system is guaranteed, and the occurrence and economic loss of power accidents are avoided.

Drawings

FIG. 1 is a block diagram of an embodiment of an expander state detection apparatus of the present invention;

FIG. 2 is a front view of one embodiment of the expander state detection apparatus of the present invention;

FIG. 3 is an exploded view of one embodiment of the expander state detection device of the present invention;

FIG. 4 is a block diagram of one embodiment of a portion of the components of the expander state detection apparatus of FIG. 3;

FIG. 5 is a block diagram of another embodiment of a portion of the components of the expander state detection apparatus of FIG. 3;

FIG. 6 is a block diagram of an embodiment of an expander state detection system of the present invention.

In the figure: 1. a control unit; 2. a wireless communication unit; 3. a detection unit; 4. a housing; 5. a housing; 6. a nut; 7. a base; 8. a power source; 9. a waterproof rubber ring; 71. a bolt; 72. a base plate; 10. a waterproof window; 11. a control module; 31. a temperature detection module; 32. a displacement detection module; 12. a signal processing module; 81. a high temperature lithium battery; 82. and (4) a super capacitor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1-5, fig. 1 is a schematic diagram of an embodiment of the expander state detection apparatus according to the present invention; FIG. 2 is a front view of one embodiment of the expander state detection apparatus of the present invention; FIG. 3 is an exploded view of one embodiment of the expander state detection device of the present invention; FIG. 4 is a block diagram of one embodiment of a portion of the components of the expander state detection apparatus of FIG. 3; fig. 5 is a block diagram of another embodiment of a portion of the components of the expander state detection apparatus of fig. 3. The expander state detection apparatus of the present invention will be described in detail with reference to fig. 1 to 5.

In the present embodiment, the expander state detection means is fixed to the cover 5 of the expander so as to be opposed to the upper surface of the expander, and the expander state detection means includes: the device comprises a wireless communication unit 2, a control unit 1 and a detection unit 3, wherein the control unit 1 is respectively connected with the wireless communication unit 2 and the detection unit 3; the control unit 1 receives a detection instruction sent by a user through a receiving device through the wireless communication unit 2, starts the detection unit 3 according to the detection instruction, and sends an instruction for acquiring state information of the expander to the detection unit 3, wherein the state information comprises temperature and displacement information; the detection unit 3 comprises a temperature detection module 31 and a displacement detection module 32, and after receiving the instruction sent by the control unit 1, the detection unit 3 respectively detects the temperature of the upper surface and the distance from the upper surface to the displacement detection module 32 through the temperature detection module 31 and the displacement detection module 32 to acquire the state information of the expander; the control unit 1 receives the status information transmitted by the detection unit 3 and transmits the status information to the receiving device of the user through the wireless communication unit 2.

In this embodiment, the expander state detection device further includes a housing 4 and a base 7, the base 7 penetrates through the housing 5, the housing 4 and one end of the base 7 located outside the housing 5 are connected to form a cavity, and the control unit 1 and the detection unit 3 are accommodated in the cavity.

In a specific embodiment, the housing 4 is made of a nylon fiber waterproof material of PA66+30GF + flame retardant + anti-aging agent, and has better corrosion resistance and anti-aging performance, so as to provide protection for the whole device.

In this embodiment, the wireless communication unit 2 adopts a LoRa wireless module in a 470MHz frequency band, and the control unit 1 transmits the temperature and distance data collected by the detection unit 3 or the alarm information processed by the control unit 1 to the receiving device through the wireless communication unit 2 via a wireless link, so that the user can obtain the status information of the expander or receive the alarm information.

In this embodiment, the temperature detection module 31 employs a non-contact infrared temperature measurement probe for measuring the temperature of the upper surface of the expander, and since the distance between the temperature detection module 31 and the measured object changes, the temperature collected by the temperature detection unit 3 will have an error increased due to the increase of the distance, so that the distance value measured by the displacement detection module 32 corrects the temperature value to achieve a better temperature accuracy (about ± 2 ℃ in the temperature accuracy of 500 mm) in the full range.

In the present embodiment, the displacement detection module 32 employs a laser ranging probe (with a laser wavelength of 930nm) for measuring the relative distance between the upper surface and the sensing device, and has a good measurement accuracy (with an accuracy of ± 2mm in a range of 1 meter).

The base 7 comprises a bottom plate 72 and a bolt 71, and is a main body for bearing other devices of the detection device, the bolt 71 penetrates through the bottom plate 72 and the outer cover 5, and the shell 4 is in threaded connection with one end of the bolt 71, which is positioned outside the outer cover 5.

In the present embodiment, a waterproof rubber ring 9 is provided between the housing 4 and the bottom plate 72 for waterproofing.

In this embodiment, the bottom plate 72 and the bolt 71 may be integrally formed or connected by clamping, welding or other means.

In a specific embodiment, the base 7 is made of stainless steel 304.

In this embodiment, the expander state detection device further includes a nut 6, where the nut 6 is made of stainless steel material, is located inside the housing 5, is sleeved on the bolt 71, is in threaded connection with the bolt 71, and fixes the base 7 on the housing 5 through the nut 6.

In order to be able to detect the temperature of the expander and the displacement of the upper surface by means of the detection unit 3. Two through holes which are parallel to the axial direction of the bolt 71 are formed in the bolt 71, the through holes are opposite to the upper surface of the expander, the temperature detection module 31 and the displacement detection module 32 are respectively arranged in different through holes, and the temperature detection module 31 and the displacement detection module 32 are fixed through the through holes.

In this embodiment, in order to protect the temperature detection module 31 and the displacement detection module 32, a waterproof window 10 is further disposed at one end of the through hole close to the upper surface of the expander, and the waterproof window 10 is nested in the through hole. The temperature detection module 31 and the displacement detection module 32 are disposed on a side of the waterproof window 10 away from the upper surface of the expander.

In this embodiment, in order to further waterproof and fix the waterproof window 10, a waterproof rubber ring 9 is further provided between the waterproof window 10 and the through hole, and water and other liquids are prevented from contacting the temperature detection module 31 and the displacement detection module 32 through the through hole by the waterproof window 10 and the waterproof rubber ring 9.

In the present embodiment, the waterproof window 10 is waterproof glass, and in other embodiments, it may also be a transparent plastic plate, quartz, or other waterproof transparent materials.

In a specific embodiment, the waterproof window 10 covering one side of the temperature detection module 31 is made of germanium glass material (with a coating), which enhances the transmittance of long infrared wavelength (5.5um to 14um, the transmittance is greater than 90%), the waterproof window 10 covering one side of the displacement detection module 32 is made of infrared-transparent black glass material (without a coating), which enhances the short infrared wavelength (780nm to 2500nm, the transmittance is greater than 90%), visible light is cut off, the light environment anti-interference capability of the laser probe of the displacement detection module 32 is enhanced, and the working stability of the displacement detection module 32 is improved.

In the present embodiment, the expander state detection apparatus further includes a power supply 8, the power supply 8 is connected to the control unit 1, the wireless communication unit 2, and the detection unit 3, respectively, and power is supplied to the devices in the expander state detection apparatus through the power supply 8.

In the present embodiment, the power supply 8 includes a high-temperature lithium battery 81 and a super capacitor 82, and the power supply capacity of the power supply 8 in a short time is improved by the super capacitor 82.

In a specific embodiment, the high temperature lithium battery 81 is a disposable high temperature lithium battery 81 having a capacity of 1200mAh and a power supply voltage of 3.6V.

In this embodiment, the control unit 1 includes a signal processing module 12 and a control module 11, the signal processing module 12 is connected to the temperature detection module 31 and the displacement detection module 32, respectively, and the signal processing module 12 converts analog signals sent by the temperature detection module 31 and the displacement detection module 32 into digital signals and sends the digital signals to the control module 11 for processing.

In this embodiment, the control module 11 is a low power consumption microprocessor, the control module 11 communicates with the wireless communication unit 2 through various interfaces (including I2C, SPI, UART, etc.), the detection unit 3 communicates, the control unit 1 controls the operation process of the whole apparatus, and also determines whether displacement occurs and sends alarm information when the displacement exceeds a preset value by converting the digital signal transmitted from the detection unit 3 (the temperature detection module 31, the displacement detection module 32) or the signal processing module 12 into a value of a corresponding physical quantity (the temperature value of the upper surface measured by the temperature detection module 31, the distance from the upper surface measured by the displacement detection module 32 to the apparatus) and comparing the distance with the distance from the expander to the expander state detection apparatus when the expander is not expanded.

In this embodiment, the signal processing module 12 converts the temperature data of the upper surface of the expander from an analog signal to a digital signal, and the digital signal is verified by the control module 11 to calculate the ambient temperature value.

In this embodiment, the expander state detection device further comprises a main control board, the wireless communication unit 2 and the control module 11 are fixed on the same side of the main control board, and the signal processing module 12 is fixed on the other side of the main control board.

In a specific embodiment, the signal processing module 12 is disposed on the same side of the main control board as the power supply 8.

In this embodiment, the expander state detection device further includes a first circuit board and a second circuit board, wherein the temperature detection module 31 is fixed on the first circuit board, the displacement detection module 32 is fixed on the second circuit board, the first circuit board is fixed on one side of the main control board and perpendicular to the main control board, the two are connected through the pin header and the bus header, and the second circuit board is connected with the first circuit board through the wire.

In a specific embodiment, the signal processing module 12 is connected to the temperature detecting module 31, the displacement detecting module 32, and the control module 11, and includes a low noise amplifier, a filter, a digital-to-analog converter, and a digital signal processor, and mainly functions to convert analog signals output by the temperature detecting module 31 and the displacement detecting module 32 into digital signals and output the digital signals to the control module 11, and the signal processing module 12 may form a module independently, or may be included in the detecting unit 3 or the control unit 1.

In a specific embodiment, the temperature detection module 31 is connected to the signal processing module 12 and the control module 11, the temperature detection module 31 mainly comprises an infrared sensitive thermopile detector and a signal conditioner, and the temperature detection module collects an upper surface temperature analog signal of the current transformer expander by an infrared temperature measurement method, transmits the temperature analog signal containing temperature data to the signal processing module 12, sequentially passes through a low noise amplifier, a filter, an analog converter and a digital signal processor, converts the temperature analog signal into a temperature digital signal containing temperature data, and finally reads the temperature digital signal by the control module 11. The temperature detecting module 31 enters a sleep mode after one measurement is finished, and the control module 11 wakes up the temperature detecting unit 3 when another measurement task comes.

The displacement detection module 32 is connected with the signal processing module 12 and the control module 11, the displacement detection module 32 is composed of a laser generator and a single photon avalanche diode receiving array, and the distance from the upper surface of the current transformer expander to the device is calculated by measuring the time required by the laser pulse to be emitted to the upper surface and reflected back to the distance, so as to detect the change of the expansion position of the expander. The displacement detection module 32 enters a sleep mode after one measurement is completed until it is awakened by the control module 11 for the next measurement.

In this embodiment, the wireless communication unit 2 is configured to perform bidirectional wireless communication with a receiving device, the wireless communication unit 2 may send the measured state information to the receiving device, and the receiving device transmits the state information to a server or a mobile terminal through a 4G network or an ethernet network, so as to enable an inspector to remotely check the state of the current transformer expander in real time, and also receive an instruction from the receiving device, thereby triggering a data measurement.

In this embodiment, the control module 11 is configured to configure the operating parameters of the temperature detection module 31, the displacement detection module 32, and the wireless communication unit 2, control the measurement periods of the temperature detection module 31 and the displacement detection module 32, and calibrate and store the measured temperature data and the measured distance data.

In a preferred embodiment, the expander state detection device supplies power to the whole device through the power supply 8, in order to reduce the overall power consumption of the system, the temperature detection module 31, the displacement detection module 32, the wireless communication unit 2 and the control module 11 may all adopt low-power consumption devices, when there is no measurement task, the temperature detection module 31, the displacement detection module 32 and the control module 11 are all in a sleep mode, when the wireless communication unit 2 receives a measurement instruction sent by an external receiving device, the wireless communication unit 2 wakes up the control module 11, and the control module 11 wakes up the temperature detection module 31 and the displacement detection module 32 again for measurement.

In a particular embodiment, the receiving means comprises a processor, a memory, an information transceiver. The processor is respectively connected with the memory and the information transceiver and is used for configuring and controlling the memory and the information transceiver and processing the state information of the expander of the current transformer. The memory is connected with the processor and used for storing the current and historical state information of the current transformer expander. The information transceiver is connected with the processor and used for establishing a bidirectional wireless communication channel with the wireless communication unit 2 of the expander state detection device, receiving data from the expander state detection device and sending instructions to the expander state detection device.

In this embodiment, the receiving device further includes a data transmitter, where the data transmitter is connected to the processor and is configured to transmit the state information of the current transformer expander or the alarm information determined and processed by the processor to the receiving terminal.

In this embodiment, the receiving terminal may be a server or a handheld device. In other embodiments, the receiving terminal may also be directly connected to the expander state detection device through the wireless communication unit 2, sending instructions thereto and receiving return state data and alarm information thereto.

Has the advantages that: the expander state detection device remotely receives the detection instruction sent by the user and sends the expander state information acquired by the detection unit to the user, so that the problem that inspection personnel cannot observe the state of the expander can be solved, the expander state detection can be realized, the problem can be quickly found when the current transformer fails, the safe operation of a power system is ensured, and the occurrence of power accidents and economic loss are avoided.

Based on the same inventive concept, the present invention further provides an expander state detection system, please refer to fig. 6, and fig. 6 is a structural diagram of an embodiment of the expander state detection system of the present invention. The expander state detection system of the present invention is described in detail with reference to fig. 6.

The expander state detection system comprises a receiving device and an expander state detection device; the receiving device comprises a processor, a memory and an information transceiver, wherein the processor is respectively connected with the memory and the information transceiver, sends a detection instruction to the expander state detection device through the information transceiver, receives state information returned by the expander state detection device, and stores the state information in the memory.

Wherein, the expander state detection device further comprises the expander state detection device as described in the above embodiments.

In a specific embodiment, the processor of the receiving device is respectively connected with the memory and the information transceiver, and is used for configuring and controlling the memory, the information transceiver and the processing of the expander state information of the current transformer. The memory is connected with the processor and used for storing the received current and historical state information of the current transformer expander. The information transceiver is connected with the processor and used for establishing a bidirectional wireless communication channel with the wireless communication unit of the expander state detection device, receiving data sent by the expander state detection device and sending instructions to the expander state detection device.

In this embodiment, the receiving apparatus further includes a data transmitter, where the data transmitter is connected to the processor and is configured to transmit the state information of the current transformer expander or the alarm information determined and processed by the processor to the receiving terminal.

In this embodiment, the receiving terminal may be a server or a handheld device. In other embodiments, the receiving terminal can also be directly connected with the expander state detection device through the wireless communication unit, and sends instructions to the expander state detection device and receives return state data and alarm information of the expander state detection device.

Install expander state detection device on the dustcoat of current transformer expander through the bolt, utilize the device to measure current transformer expander upper surface to detection device's relative distance and current transformer expander's surface temperature, and send current transformer expander displacement information and temperature information to receiving arrangement in order to convey server or receiving terminal through the wireless communication unit, the personnel of patrolling and examining can be long-range through equipment such as computers or cell-phones, real-time, convenient, audio-visual position and the temperature information of understanding current transformer expander, in time discover current transformer's fault information, thereby in time get rid of current transformer's potential safety hazard, guarantee current transformer's safe operation. Expander state detection device passes through the bolt and the nut is fixed on outside cover, and the installation is convenient and does not change current transformer original seal structure and use mains operated and wireless communication's mode transmission data, complicated power cord and signal line wiring when avoiding the installation.

Has the advantages that: the expander state detection system remotely receives the detection instruction sent by the user and sends the expander state information acquired by the detection unit to the user, so that the problem that inspection personnel cannot observe the state of the expander can be solved, the expander state can be detected, the problem can be quickly found when the current transformer fails, the safe operation of a power system is ensured, and the occurrence of power accidents and economic loss are avoided.

In the embodiments provided in the present invention, it should be understood that the disclosed devices, modules and units may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the modules or partitions described are merely one logical division, and other divisions may be realized in practice, for example, multiple modules or modules may be combined or integrated with another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, devices or indirect coupling or communication connection, and may be in an electrical, mechanical or other form.

The components described as separate parts may or may not be physically separate, and the components shown may or may not be physically separate, may be located in one place, or may be distributed in a plurality of places. Some or all of them can be selected according to actual needs to achieve the purpose of the embodiment.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. An expander state detection device, wherein the expander state detection device is fixed to a housing of the expander so as to be opposed to an upper surface of the expander, the expander state detection device comprising: the device comprises a wireless communication unit, a control unit and a detection unit, wherein the control unit is respectively connected with the wireless communication unit and the detection unit;

the control unit receives a detection instruction sent by a user through a receiving device through the wireless communication unit, starts the detection unit according to the detection instruction, and sends an instruction for acquiring state information of the expander to the detection unit, wherein the state information comprises temperature and displacement information;

the detection unit comprises a temperature detection module and a displacement detection module, and after receiving the instruction sent by the control unit, the detection unit respectively detects the temperature of the upper surface and the distance from the upper surface to the displacement detection module through the temperature detection module and the displacement detection module so as to acquire the state information of the expander;

the control unit receives the state information sent by the detection unit and sends the state information to a receiving device of a user through the wireless communication unit.

2. The expander state detection device of claim 1, further comprising a housing and a base, wherein the base extends through the housing, the housing and the base are connected at an end of the housing exterior to form a cavity, and the control unit and the detection unit are received in the cavity.

3. The expander state detection device according to claim 2, wherein the base includes a base plate and a bolt extending through the base plate and the housing, the housing being threadedly coupled to the bolt.

4. The expander state detection device according to claim 3, further comprising a nut, which is located inside the housing, and is screw-coupled to the bolt, and the base is fixed to the housing by the nut.

5. The expander state detection device according to claim 3, wherein the bolt is provided with two through holes axially parallel to the bolt, and the temperature detection module and the displacement detection module are respectively provided in different through holes, and the temperature detection module and the displacement detection module are fixed by the through holes.

6. The expander state detection device of claim 5, wherein the through hole is further provided with a waterproof window at an end thereof adjacent to the upper surface of the expander, and the waterproof window is nested in the through hole.

7. The expander state detection device according to claim 1, further comprising a power supply connected to the control unit, the wireless communication unit, and the detection unit, respectively.

8. The expander state detection device according to claim 1, wherein the control unit comprises a signal processing module and a control module, the signal processing module is respectively connected with the temperature detection module and the displacement detection module, and the signal processing module converts analog signals sent by the temperature detection module and the displacement detection module into digital signals and sends the digital signals to the control module for processing.

9. The expander state detection device according to claim 8, further comprising a main control board, wherein the wireless communication unit is fixed to the same side of the main control board as the control module, and the signal processing module is fixed to the other side of the main control board.

10. An expander state detection system, comprising receiving means, expander state detection means;

the receiving device comprises a processor, a memory and an information transceiver, wherein the processor is respectively connected with the memory and the information transceiver, sends a detection instruction to the expander state detection device through the information transceiver, receives state information returned by the expander state detection device, and stores the state information in the memory;

the expander state detection device includes the expander state detection device according to any one of claims 1 to 9.

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