CN110954776A

CN110954776A - Power equipment detection device and method based on automatic wire winding and unwinding and wire switching

Info

Publication number: CN110954776A
Application number: CN201911291821.4A
Authority: CN
Inventors: 宋进良; 曹健; 刘一涛; 孔剑虹; 韩洪刚; 于在明; 赵琦; 张杉杉
Original assignee: State Grid Corp of China SGCC; Liaoning Dongke Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Liaoning Dongke Electric Power Co Ltd
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-04-03
Anticipated expiration: 2039-12-16
Also published as: CN110954776B

Abstract

The invention relates to the field of power equipment detection, in particular to a power equipment detection device and method based on automatic winding and unwinding and switching lines. The invention comprises a take-up and pay-off cabinet, a test connecting wire, a flexible detection system, an automatic switching wire device and an automatic take-up and pay-off device; wherein: an automatic switching wire device and an automatic wire take-up and pay-off device are arranged in the take-up and pay-off cabinet; the automatic take-up and pay-off device leads out a test connecting wire from the take-up and pay-off machine cabinet. The invention has simple structure and reasonable design, can realize that a plurality of detection items can be finished by one-time wiring during the test of the power equipment without human intervention, and ensures the safety, reliability and accuracy of the detection of the power equipment. The invention organically combines the flexible detection system, the automatic winding and unwinding device and the automatic switching wire device together, thereby realizing the full automation of the detection of the power equipment. The detection means of the invention has the advantages of one-time wiring, one-time operation, intelligent test and the like, and can greatly improve the safety, reliability and accuracy in the detection process.

Description

Power equipment detection device and method based on automatic wire winding and unwinding and wire switching

Technical Field

The invention relates to the field of power equipment detection, in particular to a power equipment detection device and method based on automatic winding and unwinding and switching lines.

Background

The detection of the power equipment is an important part for ensuring the operation safety of the power grid, and the safety, reliability and accuracy of the detection of the power equipment are also important guarantees for the safe and stable operation of the power grid. At present, the power equipment detects mainly for manual detection is main, needs manual switching line, manual receipts and releases the line, and different detection project need different wiring mode, and the degree of artificial influence testing result is very high, and putting of a large amount of instrument equipment and connecting wire has the potential safety hazard simultaneously, is difficult to realize automatic detection.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a power equipment detection device and method based on automatic wire winding and unwinding and wire switching. The purpose is in order to provide a simple structure, reasonable in design's detection device to can realize the full automatization that power equipment detected, guarantee security, reliability, the accuracy that power equipment detected.

In order to realize the purpose, the invention is realized by adopting the following technical scheme:

a power equipment detection device based on automatic winding and unwinding and switching lines comprises a winding and unwinding cabinet, a test connecting line, a flexible detection system, an automatic switching line device and an automatic winding and unwinding device; wherein: an automatic switching wire device and an automatic wire take-up and pay-off device are arranged in the take-up and pay-off cabinet; the automatic take-up and pay-off device leads out a test connecting wire from the take-up and pay-off machine cabinet; the flexible system is integrated in a central computer stored in the pay-off and take-up cabinet, and the flexible detection system is connected with the automatic pay-off and take-up device through a local area network.

The test connecting wire is introduced into the automatic wire winding and unwinding device by the automatic switching wire device; test connecting lines led by the switching line device are gathered in a take-up and pay-off cabinet, and the test connecting lines are led out by the take-up and pay-off cabinet; the flexible detection system is connected with the automatic take-up and pay-off device through a local area network.

The automatic wire winding and unwinding device is provided with a PLC, a relay, a bearing motor and a test wire coil, wherein the relay is connected with the bearing motor, and the bearing motor is connected with the test wire coil.

The test wire coil comprises an A-phase test wire coil, a B-phase test wire coil and a C-phase test wire coil, and the test wire coil is connected with a test connecting wire.

The automatic switching line device comprises two cabinets, namely a high-voltage switching line device and a low-voltage switching line device.

The high-voltage switching line device comprises: the high-voltage current switching and switching relay K1 and the high-voltage switching and switching relay K2 are respectively used for controlling the connection of the high-voltage side voltage or current of the instrument; the testing device also comprises a direct resistance high-voltage control relay K4, a transformation ratio high-voltage control relay K5, a parameter changer high-voltage control relay K6 and a load switch tester high-voltage side control relay K7, wherein the K4-K7 are respectively used for switching different testing items; the low-voltage switching line device includes: the sampling module control relay K3, the direct resistance low-voltage control relay K8, the transformation ratio low-voltage control relay K9 and the transformation parameter instrument low-voltage control relay K10; the low-voltage switching device is used for a short-circuit low-voltage coil during load loss test, when short circuit is needed, the sampling module controls the relay K3 to be closed, short circuit is achieved, and the current detection unit monitors short-circuit current.

The high-voltage current switching-on and switching-off relay K1, the high-voltage switching-on and switching-off relay K2 and the test connecting wires led out from the sampling module control relay K3 are connected to the high-voltage side and the low-voltage side of the tested product at the same time; when a direct resistance test is carried out, a control signal sent by the flexible system is transmitted to the automatic switching device, the high-voltage current on-off relay K1, the high-voltage on-off relay K2 and the sampling module control relay K3 in the high-low voltage switching device are closed, and the direct resistance high-voltage control relay K4 and the direct resistance low-voltage control relay K8 are closed, so that the connection between a direct resistance instrument and a tested product is realized, the direct resistance test is carried out, and the disconnection of an electric appliance after the test is completed; and when different tests are carried out, the corresponding relays are closed, and the corresponding tests are completed.

The flexible detection system transmits a control signal to a PLC (programmable logic controller) in the automatic wire winding and unwinding device through a local area network communication protocol, the PLC receives the signal and then controls a relay to supply power, the relay is attracted to a bearing motor to be started after being powered on, the bearing motor rotates to respectively drive an A-phase test wire coil, a B-phase test wire coil and a C-phase test wire coil to rotate, and the test connecting wires are wound and unwound along the wire coils.

A power equipment detection method based on automatic line winding and unwinding and line switching comprises the following steps: the flexible detection system main control computer transmits a control signal to a test through a local area network, after receiving the signal at a test station, the test station transmits the control signal to the automatic switching line device and the automatic line winding and unwinding device through the local area network according to a preset program, and the automatic line winding and unwinding device operates after receiving the signal and unwinding a test connecting line; meanwhile, the flexible detection system transmits control signals to the automatic switching line device according to different test items, and the automatic switching line device selects the on-off of different test lines according to different signal actions so as to meet the requirements of different tests; after all tests are finished, signals collected by the automatic switching line device and the automatic winding and unwinding device are returned to the flexible detection system through the same channel; the flexible detection system controls the transmission of control signals to the take-up and pay-off cabinet, and the automatic take-up and pay-off device in the take-up and pay-off cabinet runs after receiving the signals and receives the test connecting wires.

Compared with the prior art, the power equipment detection method based on automatic wire take-up and pay-off and wire switching has the following advantages and beneficial technical effects that during an empty load test, the flexible detection system sends control signals to the three-phase variable frequency power supply and the parameter test module, the three-phase variable frequency power supply and the parameter test module are started, the test module controls the power supply to output corresponding voltage and current according to parameters of a tested product, and the voltage and current are transmitted to the tested product through the automatic wire switching device:

the detection device provided by the invention has the advantages that the structure is simple, the design is reasonable, a plurality of detection items can be completed by one-time wiring during the power equipment test, the manual intervention is not needed, and the safety, the reliability and the accuracy of the power equipment detection are ensured. The invention organically combines the flexible detection system, the automatic winding and unwinding device and the automatic switching wire device together, thereby realizing the full automation of the detection of the power equipment.

The flexible detection system is an intelligent detection system capable of automatically providing a detection scheme according to the types of materials and detection requirements. The flexible detection system is in a production line mode, various electrical test items are organically softened on the same production line, control, measurement, analysis and management of test data and final generation of a detection report of various test items can be automatically completed, and the mode of a single type of traditional electrical test is thoroughly changed. The automatic take-up and pay-off device is used for automatically lowering the test wire set required by the test article by the system, and after the test is finished and the wire is withdrawn by a tester, the system automatically takes back the wire set upwards. The automatic switching line device is divided into two cabinet designs, a high-voltage switching line device and a low-voltage switching line device. After a detected sample enters a detection station, the high-voltage terminal and the low-voltage terminal are connected with the output terminals of the high-voltage switching wire device and the low-voltage switching wire device in a one-to-one correspondence mode, the switching wire device is automatically started by the flexible detection system according to test items detected by the sample, manual operation is not needed by automatic wire switching, and all tests can be completed by one-time wiring.

Compared with the traditional detection means, the invention has the advantages of one-time wiring, one-time operation, intelligent test and the like. The safety, reliability and accuracy in the detection process are greatly improved.

Drawings

The invention will be described in further detail with reference to the drawings and specific embodiments for facilitating understanding and practicing of the invention by those of ordinary skill in the art, but it should be understood that the scope of the invention is not limited by the specific embodiments.

FIG. 1 is a schematic view of an automatic take-up and pay-off device of the present invention;

fig. 2 is a schematic diagram of an automatic switching line device of the present invention.

FIG. 3 is a schematic diagram of the flexible detection system controlling the automatic line switching and take-up and pay-off devices of the present invention;

fig. 4 is a schematic structural diagram of the automatic winding and unwinding device of the present invention.

In the figure: the device comprises a take-up and pay-off cabinet 1, a test connecting wire 2, a flexible detection system 11, an automatic switching wire device 12 and an automatic take-up and pay-off device 13.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. 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 the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention relates to a power equipment detection device based on automatic winding and unwinding and switching of a wire, which is shown in figure 1, wherein figure 1 is a schematic diagram of an automatic winding and unwinding device. The invention comprises a take-up and pay-off cabinet 1, a test connecting wire 2, a flexible detection system 11, an automatic switching wire device 12 and an automatic take-up and pay-off device 13. Wherein: an automatic switching device 12 and an automatic take-up and pay-off device 13 are arranged in the take-up and pay-off cabinet 1.

The automatic take-up and pay-off device 13 leads out the test connecting wire 2 from the take-up and pay-off cabinet 1.

The automatic take-up and pay-off device 13 is internally provided with a PLC, a relay, a bearing motor and a test wire coil, wherein the relay is connected with the bearing motor, and the bearing motor drives the test wire coil. The test wire coil comprises an A-phase test wire coil, a B-phase test wire coil and a C-phase test wire coil, and the test wire coil is connected with a test connecting wire 2.

After the sample is in place, the flexible detection system 11 controls the transmission of a control signal to the take-up and pay-off cabinet, the automatic take-up and pay-off device 13 in the take-up and pay-off cabinet 1 operates after receiving the signal, and the test connecting wire 2 is paid off; meanwhile, the flexible detection system 11 transmits control signals to the automatic switching line device 12 according to different test items, and the automatic switching line device 12 selects the on-off of different test lines according to different signal actions so as to meet the requirements of different tests; after all tests are finished, the flexible detection system 11 controls the transmission of control signals to the take-up and pay-off cabinet 1, and the automatic take-up and pay-off device 13 in the take-up and pay-off cabinet 1 runs after receiving the signals to take up and pay off the test connecting wires.

As shown in fig. 4, fig. 4 is a schematic structural view of the automatic winding and unwinding device of the present invention. The automatic take-up and pay-off device 13 is arranged in the take-up and pay-off cabinet 1, and two test connecting wires 2 are led out from the take-up and pay-off cabinet 1. The test connection line 2 is a test connection line which is introduced into the automatic take-up and pay-off device 13 by the automatic switching line device 12. The test connecting wires 2 introduced by the switching wire device 12 are collected in the take-up and pay-off cabinet 1, and then the test connecting wires 2 are led out from the take-up and pay-off cabinet 1 to be connected with the tested object.

The automatic winding and unwinding device 13 is located on a special overhaul channel above a detection station, after the detected equipment is transported to the detection station, the automatic winding and unwinding device 13 can automatically put down a detection item test line required to be carried out by the detected equipment at the detection station, test personnel can be prevented from selecting a wrong test line, and after the test is finished, the automatic winding and unwinding device 13 automatically winds up the test line.

The flexible system 11 is integrated in a central computer stored in the pay-off and take-up machine cabinet 1, and the flexible system sends out an instruction to other equipment in the machine cabinet 1 through the central computer.

The flexible detection system 11 transmits a control signal to a PLC (programmable logic controller) in the automatic winding and unwinding device 13 through a local area network communication protocol, the PLC receives the signal and then controls a relay to supply power, a bearing motor is attracted to start after the relay supplies power, the bearing motor rotates to respectively drive an A-phase test line wire coil, a B-phase test line wire coil and a C-phase test line wire coil to rotate, and the test connecting wire 2 is wound and unwound along the wire coils.

As shown in fig. 3, fig. 3 is a schematic diagram of the flexible detection system controlling the automatic switching line and the line winding and unwinding device of the present invention. The flexible detection system 11 of the invention is a software and hardware combined system, a main control computer transmits a control signal to a test through a local area network, after receiving the signal at a test station, the control signal is transmitted to the automatic switching line device 12 and the automatic line winding and unwinding device 13 through the local area network according to a preset program, and the signals collected by the automatic switching line device 12 and the automatic line winding and unwinding device 13 are returned to the flexible detection system 11 through the same channel. The flexible detection system 11 integrates multiple professional tests in one station in a server control mode, and automatic detection is realized through different devices.

As shown in fig. 2, fig. 2 is a schematic diagram of an automatic switching line device of the present invention. The automatic switching line device 12 includes two cabinets, which are a high voltage switching line device and a low voltage switching line device, respectively. Which comprises the following steps: the high-voltage current switching relay K1, the high-voltage switching relay K2, the sampling module control relay K3, the direct-resistance high-voltage control relay K4, the transformation ratio high-voltage control relay K5, the transformation parameter instrument high-voltage control relay K6, the on-load switch tester high-voltage side control relay K7 and the on-load switch tester high-voltage side control relay K7 are reserved; a direct resistance low-voltage control relay K8, a transformation ratio low-voltage control relay K9 and a parameter transformer low-voltage control relay K10.

The high-voltage switching wire of the automatic switching wire device is provided with a high-voltage current switching relay K1 and a high-voltage switching relay K2 for controlling the connection of the voltage or current of the high-voltage side of the instrument respectively because the high-voltage end has high-voltage output during a no-load test. The high-voltage side switch groups K4-K7 are respectively used for switching different test items.

The low-voltage switching device of the automatic switching wire device is used for short-circuiting a low-voltage coil during a load loss test, and because the impedance of a short-circuit lead wire can influence a measurement result, a voltage and current detection unit is designed for detecting the additional loss of the measurement lead wire, and the error caused by the measurement lead wire can be automatically deducted under the cooperation of software. When short circuit is needed, the sampling module controls the relay K3 to be closed, short circuit is achieved, and the current detection unit monitors short circuit current.

All test current lines and voltage lines are separated, so that the influence of the length of the test lines on test results in the test process is avoided.

And test connecting wires led out from the high-voltage current switching relay K1, the high-voltage switching relay K2 and the sampling module control relay K3 are simultaneously connected to the high-voltage side and the low-voltage side of the tested product. When a direct resistance test is carried out, a control signal sent by the flexible system is transmitted to the automatic switching device, the high-voltage current switching-on and switching-off relay K1, the high-voltage switching-on and switching-off relay K2 and the sampling module control relay K3 in the high-voltage and low-voltage switching device are switched on, and the direct resistance high-voltage control relay K4 and the direct resistance low-voltage control relay K8 are switched on, so that the connection between a direct resistance instrument and a tested product is realized, the direct resistance test is carried out, and the subsequent electric appliance disconnection of the test is completed. And when different tests are carried out, the corresponding relays are closed, and the corresponding tests are completed.

During the empty load test, the flexible detection system 11 sends control signals to the three-phase variable frequency power supply and the parameter testing module, the three-phase variable frequency power supply and the parameter testing module are started, the testing module controls the power supply to output corresponding voltage and current according to parameters of a tested object, and the voltage and the current are conveyed to the tested object through the automatic switching line device 12.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The embodiments of the invention are intended to embrace all such alternatives, modifications and variances that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides an electrical equipment detection device based on receive and release line and switching wire automatically, characterized by: the device comprises a take-up and pay-off cabinet (1), a test connecting wire (2), a flexible detection system (11), an automatic switching wire device (12) and an automatic take-up and pay-off device (13); wherein: an automatic switching line device (12) and an automatic winding and unwinding device (13) are arranged in the winding and unwinding cabinet (1); the automatic take-up and pay-off device (13) leads out a test connecting wire (2) from the take-up and pay-off cabinet (1); the flexible system (11) is integrated in a central computer stored in the take-up and pay-off cabinet (1), and the flexible detection system (11) is connected with the automatic take-up and pay-off device (13) through a local area network.

2. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 1, wherein: the test connecting wire (2) is introduced into the automatic take-up and pay-off device (13) by the automatic switching device (12); test connecting wires (2) led in by the switching wire device (12) are gathered in the take-up and pay-off cabinet (1), and the test connecting wires (2) are led out by the take-up and pay-off cabinet (1); the flexible detection system (11) is connected with an automatic take-up and pay-off device (13) through a local area network.

3. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 1, wherein: the automatic winding and unwinding device (13) is internally provided with a PLC, a relay, a bearing motor and a test line wire coil, wherein the relay is connected with the bearing motor, and the bearing motor is connected with the test line wire coil.

4. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 3, wherein: the test wire coil comprises an A-phase test wire coil, a B-phase test wire coil and a C-phase test wire coil, and the test wire coil is connected with a test connecting wire (2).

5. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 1, wherein: the automatic switching line device (12) comprises two cabinets, namely a high-voltage switching line device and a low-voltage switching line device.

6. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 5, wherein: the high-voltage switching line device comprises: the high-voltage current switching and switching relay K1 and the high-voltage switching and switching relay K2 are respectively used for controlling the connection of the high-voltage side voltage or current of the instrument; the testing device also comprises a direct resistance high-voltage control relay K4, a transformation ratio high-voltage control relay K5, a parameter changer high-voltage control relay K6 and a load switch tester high-voltage side control relay K7, wherein the K4-K7 are respectively used for switching different testing items;

the low-voltage switching line device includes: the sampling module control relay K3, the direct resistance low-voltage control relay K8, the transformation ratio low-voltage control relay K9 and the transformation parameter instrument low-voltage control relay K10; the low-voltage switching device is used for a short-circuit low-voltage coil during load loss test, when short circuit is needed, the sampling module controls the relay K3 to be closed, short circuit is achieved, and the current detection unit monitors short-circuit current.

7. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 6, wherein: the high-voltage current switching-on and switching-off relay K1, the high-voltage switching-on and switching-off relay K2 and the test connecting wires led out from the sampling module control relay K3 are connected to the high-voltage side and the low-voltage side of the tested product at the same time; when a direct resistance test is carried out, a control signal sent by the flexible system is transmitted to the automatic switching device, the high-voltage current on-off relay K1, the high-voltage on-off relay K2 and the sampling module control relay K3 in the high-low voltage switching device are closed, and the direct resistance high-voltage control relay K4 and the direct resistance low-voltage control relay K8 are closed, so that the connection between a direct resistance instrument and a tested product is realized, the direct resistance test is carried out, and the disconnection of an electric appliance after the test is completed; and when different tests are carried out, the corresponding relays are closed, and the corresponding tests are completed.

8. The electrical equipment detection device based on the automatic take-up and pay-off and switching wire as claimed in claim 1, wherein: the flexible detection system transmits a control signal to a PLC (programmable logic controller) in the automatic wire winding and unwinding device through a local area network communication protocol, the PLC receives the signal and then controls a relay to supply power, the relay is attracted to a bearing motor to be started after being powered on, the bearing motor rotates to respectively drive an A-phase test wire coil, a B-phase test wire coil and a C-phase test wire coil to rotate, and the test connecting wires are wound and unwound along the wire coils.

9. A power equipment detection method based on automatic line winding and unwinding and line switching is characterized in that: the method comprises the following steps: the flexible detection system main control computer transmits a control signal to a test through a local area network, after receiving the signal at a test station, the test station transmits the control signal to the automatic switching line device and the automatic line winding and unwinding device through the local area network according to a preset program, and the automatic line winding and unwinding device operates after receiving the signal and unwinding a test connecting line; meanwhile, the flexible detection system transmits control signals to the automatic switching line device according to different test items, and the automatic switching line device selects the on-off of different test lines according to different signal actions so as to meet the requirements of different tests; after all tests are finished, signals collected by the automatic switching line device and the automatic winding and unwinding device are returned to the flexible detection system through the same channel; the flexible detection system controls the transmission of control signals to the take-up and pay-off cabinet, and the automatic take-up and pay-off device in the take-up and pay-off cabinet runs after receiving the signals and receives the test connecting wires.

10. The method for detecting the electric power equipment based on the automatic take-up and pay-off line and the switching line as claimed in claim 9, wherein the method comprises the following steps: during the empty load test, the flexible detection system sends control signals to the three-phase variable frequency power supply and the parameter testing module, the three-phase variable frequency power supply and the parameter testing module are started, the testing module controls the power supply to output corresponding voltage and current according to parameters of a tested object, and the voltage and the current are conveyed to the tested object through the automatic switching line device.