CN115389876B - Intelligent comprehensive tester for integrated spacer equipment and testing method - Google Patents

Abstract

The invention discloses an integrated intelligent comprehensive tester for spacing equipment and a testing method, belonging to the technical field of integrated spacing equipment testing, and solves the problems that when the tester is conducting an inspection test, the wiring harness is prone to bending, accumulation and damage, which affects the service life of the tester and is prone to leakage risk, and if the insulation performance of the spacing equipment decreases, when the staff uses the tester for detection, the high voltage risk in the detection area is high. The technical scheme is as follows: it includes a test base frame, a support table, an intelligent tester, a control component and a temperature test module; the testing method of the integrated intelligent comprehensive tester for spacing equipment can synchronously drive the temperature test module, the humidity test module and the local discharge detection module to move by driving the connecting frame to move, and gradually move the temperature sensor, the humidity sensor and the local discharge detection sensor at the integrated spacing equipment to detect the surrounding environment of the integrated spacing equipment.

Description

An integrated intelligent comprehensive tester for spacing equipment and a test method thereof

Technical Field

The present invention relates to the technical field of integrated spacer equipment testing, and in particular to an integrated spacer equipment intelligent comprehensive testing instrument and a testing method.

Background technique

The integrated interval equipment is an electrical equipment installed in the high-voltage room to ensure the safe and smooth distribution of high-voltage electricity in the high-voltage room and to achieve insulation protection between the high-voltage room and the outside world. In order to ensure the safe and stable operation of the integrated interval equipment, it is necessary to conduct regular inspection and maintenance on the integrated interval equipment, and use an intelligent comprehensive tester to test and detect the integrated interval equipment in order to troubleshoot problems with the interval equipment.

Since the temperature and humidity in the operating space of the integrated spacer equipment will affect its performance during long-term operation, the surrounding operating environment can be tested simultaneously when testing the insulation performance of the integrated spacer equipment to check the impact of the surrounding environment on the spacer equipment so as to take timely measures. When using the tester for troubleshooting tests, the detection head can be gradually inserted into the spacer equipment so that the detection head can contact the spacer equipment for testing. In this process, the wiring harness is prone to bending and accumulation, and the wiring harness is damaged, which affects the service life of the tester and is prone to leakage. In addition, if the insulation performance of the spacer equipment is reduced, when the staff uses the tester for testing, the high voltage risk in the detection area is high.

Therefore, we proposed an integrated intelligent comprehensive tester and test method for interval equipment to solve the above-mentioned problems.

Summary of the invention

The purpose of the present invention is to provide an integrated intelligent comprehensive tester and test method for spacing equipment, so as to solve the problem raised by the above-mentioned background technology that when the tester is used for troubleshooting tests in the current market, the detection head can be gradually inserted into the spacing equipment to facilitate the contact between the detection head and the spacing equipment for testing. In this process, the wiring harness is prone to bending and accumulation, and the wiring harness is damaged, which affects the service life of the tester and is prone to leakage risks. Moreover, if the insulation performance of the spacing equipment is reduced, when the staff uses the tester for detection, the high voltage risk in the detection area is relatively high.

To achieve the above object, the present invention provides the following technical solutions: an integrated intelligent comprehensive tester for spacing equipment and a test method, comprising a test chassis, a support platform is installed on the upper left side of the test chassis, and an intelligent tester is installed on the upper left side of the support platform;

Also includes:

A control assembly is installed on the upper right side of the support platform;

A temperature test module is slidably connected to the upper rear portion of the left side of the intelligent tester, and a humidity test module is slidably connected to the lower rear portion of the left side of the intelligent tester, and a partial discharge detection module is slidably connected to the front middle portion of the left side of the intelligent tester, a temperature sensor for temperature detection is installed at the left end of the temperature test module, a humidity sensor for humidity detection is installed at the left end of the humidity test module, and a partial discharge detection sensor for partial discharge detection is installed at the left end of the partial discharge detection module;

A connecting harness is connected between the temperature test module, the humidity test module, the partial discharge detection module and the control component, and one end of the connecting harness close to the control component passes through the right side wall of the intelligent tester;

A moving rod is installed on the right outer side of the temperature test module, the humidity test module and the partial discharge detection module, and a tooth block is installed on the outer side of the moving rod, and a gear is meshed and connected to the outer side of the tooth block, and a rotating shaft is connected to the inner side of the gear, and the rotating shaft is rotatably connected to the inside of the intelligent tester, and a combing plate is installed on the outer side of the rotating shaft, and a combing hole is opened at the other end of the combing plate;

A power controller is installed above the control component, and a processor is installed below the control component;

A main insulating baffle is installed on the right side of the test chassis, and a display screen is installed on the upper right side of the main insulating baffle;

An electric telescopic rod is installed on the right side wall inside the intelligent tester, and the output end of the electric telescopic rod is connected to a connecting frame, and the ends of the connecting frame are respectively installed with the temperature test module, the humidity test module and the partial discharge detection module.

Preferably, the main insulating baffle further comprises a secondary insulating baffle, and the secondary insulating baffle is slidably connected to the interior of the front and rear ends of the main insulating baffle;

The main insulating baffle is internally rotatably connected with a screw rod, and the outer side of the screw rod is threadedly connected with an adjustment ring, and the front and rear sides of the adjustment ring are both hingedly connected with a driving rod, and the other end of the driving rod is hingedly connected to the auxiliary insulating baffle.

Preferably, the temperature test module, the humidity test module and the partial discharge detection module are distributed in a triangular shape on the left side of the intelligent tester, and the temperature test module, the humidity test module and the partial discharge detection module all pass through the left side of the intelligent tester. This design can assemble the temperature test module, the humidity test module and the partial discharge detection module separately to avoid mutual blocking among the three, and the positions of the temperature test module, the humidity test module and the partial discharge detection module can be smoothly moved to test the interval equipment.

Preferably, the connecting wire harness passes through the combing hole and the right side wall of the intelligent tester in sequence, and the interior of the combing hole is a smooth structure. This design can reduce the wear of the combing hole on the connecting wire harness and ensure that the connecting wire harness slides smoothly between the combing hole and the right side wall of the intelligent tester.

Preferably, two adjacent moving rods and the combing plates are staggered with each other, and the tooth blocks are evenly spaced at the connection between the moving rod and the gear. This design can avoid jamming of the moving rod and the rotation of the combing plate, and smoothly utilize the movement of the moving rod to drive the gear to rotate.

Preferably, the gear and the combing plate are coaxially connected, and the combing plate and the intelligent tester form a rotating structure, and the combing plate and the temperature test module, the humidity test module and the partial discharge detection module are arranged in corresponding positions. This design can link the combing plate to rotate when the gear rotates, and use the combing plate to comb the connecting wire harness at the test module.

Preferably, the secondary insulating baffle is symmetrically arranged about the longitudinal center line of the main insulating baffle, and the top section of the secondary insulating baffle at the rear position is a "7" shaped structure, and the shortest distance between the symmetrically distributed secondary insulating baffles is greater than the width of the test chassis. This design can enclose the tester between the insulating baffles and use the insulating baffles for insulation protection.

Preferably, the side profile of the connecting frame is a "cross" shaped structure, and the connecting frame is connected between the temperature test module, the humidity test module and the partial discharge detection module. This design can synchronously realize the movement of the temperature test module, the humidity test module and the partial discharge detection module by driving the connecting frame to move.

In order to better achieve the above-mentioned purpose of the invention, the present invention also provides a testing method of an integrated spacing equipment intelligent comprehensive tester, comprising the following steps:

S1: Move the test chassis to the high-voltage chamber, with the three test modules facing the high-voltage chamber. At this time, the intelligent tester can be used to test the interval equipment;

S2: Turn the screw rod, which controls the adjustment ring connected with the outer thread to move downward. The adjustment ring controls the rotation of the drive rods hinged on the front and rear sides. The drive rods push the two symmetrically distributed auxiliary insulation baffles to move forward and backward. At this time, the auxiliary insulation baffles slide inside the main insulation baffles, increasing the enclosure range of the insulation baffles, separating the detection area, and improving the safety of the staff when performing test operations;

S3: Connect the electric telescopic rod to the power supply, control the connection frame to move left, drive the temperature test module, humidity test module and partial discharge detection module to move left, and the moving rod moves left synchronously. The tooth block installed on the outside of the moving rod is meshed with the gear, so the gear can be controlled to rotate. The gear controls the combing plate to rotate, releases the support of the combing plate to the connecting harness, and stretches the connecting harness;

S4: The test module is gradually pushed into the spacer device, and the temperature and humidity of the operating environment around the spacer device are detected by using the temperature sensor installed at the left end of the temperature test module and the humidity sensor installed at the left end of the humidity test module. The local discharge detection sensor installed at the left end of the local discharge detection module can detect whether local discharge occurs in the spacer device to detect the insulation of the spacer device. The detected data is transmitted to the control component, and the processor in the control component receives and processes it, and transmits the processed data to the display screen for display.

Compared with the prior art, the present invention has the following beneficial effects:

(1) The integrated spacer equipment intelligent comprehensive tester and test method are provided with a combing plate, which can synchronously drive the temperature test module, humidity test module and partial discharge detection module to move by driving the connecting frame to move, and gradually move the temperature sensor, humidity sensor and partial discharge detection sensor at the integrated spacer equipment to detect the surrounding environment of the integrated spacer equipment, and detect whether the integrated spacer equipment has partial discharge phenomenon to detect the insulation of the spacer equipment, so that the data detected by the tester is diversified, which is conducive to the maintenance and troubleshooting of the integrated spacer equipment. When the detection module performs mobile detection, the movement of the moving rod can be used in conjunction with the use of the tooth block to drive the gear to rotate, thereby controlling the rotation of the combing plate and adjusting the angle of the combing plate, so as to realize the retraction and release of the connecting harness, ensure the straight extension and storage of the connecting harness, avoid bending and stacking of the connecting harness, increase the service life of the connecting harness, and avoid the risk of leakage caused by damage to the connecting harness;

(2) The integrated intelligent comprehensive tester and test method for interval equipment is provided with a main insulating baffle and a secondary insulating baffle. By driving the lead screw to rotate, the adjusting ring can be controlled to move vertically, thereby controlling the rotation of the driving rod to push the secondary insulating baffle, and adjusting the distance between the two secondary insulating baffles. Increasing the distance between the two symmetrically distributed secondary insulating baffles can increase the enclosure area of the main insulating baffle and the secondary insulating baffle, and separate the high-voltage detection area, thereby improving the safety of the staff during the test operation.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the main structure of the present invention;

FIG2 is a schematic diagram of the front view of the test chassis of the present invention;

FIG3 is a schematic diagram of a side cross-sectional structure of the intelligent testing instrument of the present invention;

FIG4 is a schematic diagram of the main cross-sectional structure of the intelligent testing instrument of the present invention;

FIG5 is a schematic diagram of a top-sectional structure of the present invention;

FIG6 is a schematic diagram of a side cross-sectional structure of a main insulating baffle of the present invention;

FIG7 is a schematic diagram of the side view of the main insulating baffle of the present invention;

FIG8 is a schematic diagram of the internal structure of the control assembly of the present invention;

FIG. 9 is a schematic diagram of the system flow structure of the present invention.

Among them, the accompanying drawings are marked as follows: 1. test base frame; 2. support table; 3. intelligent test instrument; 4. control component; 5. temperature test module; 6. humidity test module; 7. partial discharge detection module; 8. temperature sensor; 9. humidity sensor; 10. partial discharge detection sensor; 11. connecting harness; 12. moving rod; 13. gear block; 14. rotating shaft; 15. gear; 16. combing plate; 17. combing hole; 18. power controller; 19. processor; 20. main insulating baffle; 21. screw; 22. adjusting ring; 23. driving rod; 24. auxiliary insulating baffle; 25. display screen; 26. connecting frame; 27. electric telescopic rod.

Detailed ways

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Please refer to Figures 1-9. The present invention provides the following technical solutions: an integrated intelligent comprehensive tester and test method for spacing equipment,

Embodiment 1:

During the long-term operation of the integrated spacer equipment, the temperature and humidity in the operating space will affect the performance of the integrated spacer equipment. When testing the insulation performance of the integrated spacer equipment, the surrounding operating environment can be tested simultaneously to check the impact of the surrounding environment on the spacer equipment so as to take timely measures. When using the tester for troubleshooting tests, the detection head can be gradually inserted into the spacer equipment so that the detection head and the spacer equipment can be contacted for testing. In this process, the wiring harness is prone to bending and accumulation, and the wiring harness is damaged, which affects the service life of the tester and is prone to leakage. Electric danger, so in order to solve this technical problem, the present embodiment also includes a test chassis 1, a support platform 2 is installed on the upper left side of the test chassis 1, and an intelligent test instrument 3 is installed on the upper left side of the support platform 2; a control component 4 is installed on the upper right side of the support platform 2; a temperature test module 5 is slidably connected to the upper rear of the left side of the intelligent test instrument 3, and a humidity test module 6 is slidably connected to the lower rear of the left side of the intelligent test instrument 3, and a partial discharge detection module 7 is slidably connected to the front middle of the left side of the intelligent test instrument 3, a temperature sensor 8 for temperature detection is installed on the left end of the temperature test module 5, and the left end of the humidity test module 6 A humidity sensor 9 for humidity detection is installed at the left end of the partial discharge detection module 7, and a partial discharge detection sensor 10 for partial discharge detection is installed at the left end of the partial discharge detection module 7; a connecting harness 11 is connected between the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 and the control component 4, and the end of the connecting harness 11 close to the control component 4 passes through the right side wall of the intelligent tester 3; a moving rod 12 is installed on the outside of the right side of the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7, and a tooth block 13 is installed on the outside of the moving rod 12, and the outer side of the tooth block 13 is meshed with a gear 1 5, the inner key of the gear 15 is connected with the rotating shaft 14, and the rotating shaft 14 is rotatably connected to the inside of the intelligent tester 3, and a combing plate 16 is installed on the outer side of the rotating shaft 14, and a combing hole 17 is opened at the other end of the combing plate 16; the power controller 18 is installed at the upper part of the control component 4, and the processor 19 is installed at the lower part of the control component 4; the electric telescopic rod 27 is installed on the right side wall inside the intelligent tester 3, and the output end of the electric telescopic rod 27 is connected to the connecting frame 26, and the ends of the connecting frame 26 are respectively installed with the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7.

The temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 are triangularly distributed on the left side of the intelligent tester 3, and the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 all pass through the left side of the intelligent tester 3. The connecting harness 11 passes through the combing hole 17 and the right side wall of the intelligent tester 3 in sequence, and the interior of the combing hole 17 is a smooth structure. The two adjacent moving rods 12 and the combing plate 16 are staggered with each other, and the connection between the moving rod 12 and the gear 15 is evenly spaced with tooth blocks 13. The gear 15 and the combing plate 16 are coaxially connected, and the combing plate 16 and the intelligent tester 3 form a rotating structure, and the combing plate 16 and the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 are arranged in a corresponding position. The side profile of the connecting frame 26 is a "cross" structure, and the connecting frame 26 is connected between the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7.

Working principle of this embodiment: As shown in FIG1 , the test chassis 1 is moved to the high-voltage chamber through the moving wheels with self-locking function arranged at the bottom, and the three test modules are facing the high-voltage chamber. At this time, the intelligent tester 3 can be used to test the interval equipment. In combination with FIG2 and FIG4 , the electric telescopic rod 27 is powered on, and the electric telescopic rod 27 controls the connecting frame 26 connected to the output end to move left, and the connecting frame 26 controls the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 installed at the end to move left. When moving left, the moving rod 12 installed on the right outer side is synchronously controlled to move left, and the tooth block 13 installed on the outer side of the moving rod 12 is meshed and connected with the gear 15, so the gear 15 can be controlled to rotate, and the gear 15 controls the rotation of the rotating shaft 14 connected to the inner key. The rotating shaft 14 controls the combing plate 16 installed on the outer side to rotate toward the end position of the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 close to the corresponding position. As the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 move to the left, the support of the combing plate 16 on the connecting harness 11 is gradually released, and the connecting harness 11 is pulled When the test module is gradually pushed into the spacing device, the straight combing of the connecting wire harness 11 is ensured. The temperature sensor 8 installed at the left end of the temperature test module 5 and the humidity sensor 9 installed at the left end of the humidity test module 6 are used to detect the operating environment temperature and humidity around the spacing device. The detected data is transmitted to the control component 4. The processor 19 in the control component 4 receives and processes it, and transmits the processed data to the display screen 25 for display. The local discharge detection sensor 10 installed at the left end of the local discharge detection module 7 can detect whether the spacing device has a local discharge phenomenon to detect the insulation of the spacing device. The detected data is transmitted to the processor 19 and displayed on the display screen 25. The power controller 18 in the control component 4 can supply power for the operation of the intelligent tester 3. Subsequently, the electric telescopic rod 27 is directly controlled to drive the connecting frame 26 to move right, thereby controlling the temperature test module 5, the humidity test module 6 and the local discharge detection module 7 to move right and retract. At this time, the moving rod 12 is controlled to move right, and the driving gear 15 rotates in the opposite direction, thereby controlling the coaxially connected combing plate 16 to reverse, and the loose connecting wire harness 11 is supported straight to avoid bending and accumulation of the connecting wire harness 11.

Embodiment 2:

During the long-term operation of the integrated spacer device, the temperature and humidity in the operating space will affect the performance of the integrated spacer device. If the insulation performance of the spacer device decreases, when the staff uses the tester for detection, the high voltage risk in the detection area is relatively high. Therefore, in order to solve this technical problem, the present embodiment also includes a main insulating baffle 20, which is installed on the right side of the test base frame 1, and a display screen 25 is installed on the upper right side of the main insulating baffle 20; the main insulating baffle 20 also includes a secondary insulating baffle 24, which is slidably connected to the inside of the front and rear ends of the main insulating baffle 20; the main insulating baffle 20 is internally rotatably connected to a screw rod 21, and the outer side of the screw rod 21 is threadedly connected to an adjustment ring 22, and the front and rear sides of the adjustment ring 22 are hingedly connected to a drive rod 23, and the other end of the drive rod 23 is hingedly connected to the secondary insulating baffle 24.

The secondary insulating baffles 24 are symmetrically arranged about the longitudinal center line of the main insulating baffle 20 , and the top section of the secondary insulating baffle 24 at the rear position is a "7"-shaped structure, and the shortest distance between the symmetrically distributed secondary insulating baffles 24 is greater than the width of the test chassis 1 .

Working principle of this embodiment: as shown in Figures 5-6, the screw rod 21 can be rotated, and the screw rod 21 controls the adjustment ring 22 connected by the outer thread to move downward, and the adjustment ring 22 controls the rotation of the driving rod 23 hingedly connected on the front and rear sides. The other end of the driving rod 23 is hingedly connected to the auxiliary insulating baffle 24, which can push the two symmetrically distributed auxiliary insulating baffles 24 to move forward and backward. At this time, the auxiliary insulating baffle 24 slides in the main insulating baffle 20, increasing the enclosure range of the insulating baffle, separating the detection area, and improving the safety of the staff when performing test operations. Subsequently, it is only necessary to rotate the screw rod 21 in the opposite direction to control the adjustment ring 22 to move upward, thereby controlling the driving rod 23 to rotate in the opposite direction, pulling the auxiliary insulating baffle 24 to fold, shortening the unfolded position of the insulating baffle, and facilitating the transfer of the entire device.

A testing method of an integrated spacer equipment intelligent comprehensive tester comprises the following steps:

S1: Move the test chassis 1 to the high-voltage chamber, with the three test modules facing the high-voltage chamber. At this time, the intelligent tester 3 can be used to test the spacing equipment;

S2: Rotate the screw rod 21, the screw rod 21 controls the adjustment ring 22 connected with the outer thread to move downward, the adjustment ring 22 controls the driving rod 23 hingedly connected on the front and rear sides to rotate, and the driving rod 23 pushes the two symmetrically distributed auxiliary insulation baffles 24 to move forward and backward. At this time, the auxiliary insulation baffles 24 slide in the main insulation baffle 20, increasing the enclosure range of the insulation baffles, separating the detection area, and improving the safety of the staff when performing test operations;

S3: The electric telescopic rod 27 is powered on to control the connection frame 26 to move left, drive the temperature test module 5, the humidity test module 6 and the partial discharge detection module 7 to move left, and the moving rod 12 moves left synchronously. The tooth block 13 installed on the outer side of the moving rod 12 is meshed and connected with the gear 15, so the gear 15 can be controlled to rotate. The gear 15 controls the combing plate 16 to rotate, releases the support of the combing plate 16 on the connecting harness 11, and stretches the connecting harness 11;

S4: The test module is gradually pushed into the spacer device, and the temperature sensor 8 installed at the left end of the temperature test module 5 and the humidity sensor 9 installed at the left end of the humidity test module 6 are used to detect the operating environment temperature and humidity around the spacer device. The local discharge detection sensor 10 installed at the left end of the local discharge detection module 7 can detect whether local discharge occurs in the spacer device to detect the insulation of the spacer device. The detected data is transmitted to the control component 4, and the processor 19 in the control component 4 receives and processes it, and transmits the processed data to the display screen 25 for display.

The contents not described in detail in this specification belong to the prior art known to professional and technical personnel in this field.

Although the present invention has been described in detail with reference to the aforementioned embodiments, it is still possible for those skilled in the art to modify the technical solutions described in the aforementioned embodiments, or to make equivalent substitutions for some of the technical features therein. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The intelligent comprehensive tester for the integrated spacer equipment comprises a test underframe (1), wherein a supporting table (2) is arranged on the upper left side of the test underframe (1), and an intelligent tester (3) is arranged on the upper left side of the supporting table (2);

The method is characterized in that: further comprises:

The control assembly (4) is arranged on the upper right side of the supporting table (2);

The intelligent tester comprises a temperature testing module (5), wherein the temperature testing module is slidably connected to the rear upper part of the left side of the intelligent tester (3), a humidity testing module (6) is slidably connected to the rear lower part of the left side of the intelligent tester (3), a partial discharge detection module (7) is slidably connected to the front middle part of the left side of the intelligent tester (3), a temperature sensor (8) for temperature detection is arranged at the left end of the temperature testing module (5), a humidity sensor (9) for humidity detection is arranged at the left end of the humidity testing module (6), and a partial discharge detection sensor (10) for partial discharge detection is arranged at the left end of the partial discharge detection module (7);

The connecting wire harness (11) is connected among the temperature testing module (5), the humidity testing module (6), the partial discharge detection module (7) and the control assembly (4), and one end, close to the control assembly (4), of the connecting wire harness (11) penetrates through the right side wall of the intelligent tester (3);

The movable rod (12) is installed on the right outer side of the temperature test module (5), the humidity test module (6) and the partial discharge detection module (7), the tooth block (13) is installed on the outer side of the movable rod (12), a gear (15) is connected to the outer side of the tooth block (13) in a meshed mode, a rotating shaft (14) is connected to an inner side key of the gear (15), the rotating shaft (14) is connected to the inside of the intelligent tester (3) in a rotating mode, a carding plate (16) is installed on the outer side of the rotating shaft (14), and carding holes (17) are formed in the other end of the carding plate (16);

A power supply controller (18) which is arranged above the inside of the control assembly (4), and a processor (19) is arranged below the inside of the control assembly (4);

The main insulating baffle (20) is arranged on the right side of the test underframe (1), and a display screen (25) is arranged on the upper right side of the main insulating baffle (20);

The electric telescopic rod (27) is arranged on the right side wall inside the intelligent tester (3), the output end of the electric telescopic rod (27) is connected with a connecting frame (26), and the end parts of the connecting frame (26) are respectively provided with the temperature test module (5), the humidity test module (6) and the partial discharge detection module (7);

The connecting wire harness (11) sequentially penetrates through the carding hole (17) and the right side wall of the intelligent tester (3), and the inside of the carding hole (17) is of a smooth structure.

2. The intelligent integrated distance equipment comprehensive tester according to claim 1, wherein: the main insulating baffle (20) further comprises a secondary insulating baffle (24), and the secondary insulating baffle (24) is connected inside the front end and the rear end of the main insulating baffle (20) in a sliding manner;

the inside rotation of main insulating baffle (20) is connected with lead screw (21), just the outside threaded connection of lead screw (21) has adjusting ring (22), and both sides all articulate around adjusting ring (22) are connected with actuating lever (23), the other end of actuating lever (23) with vice insulating baffle (24) are articulated to be connected.

3. The intelligent integrated distance equipment comprehensive tester according to claim 1, wherein: the temperature test module (5), the humidity test module (6) and the partial discharge detection module (7) are distributed on the left side face of the intelligent tester (3) in a triangular mode, and the temperature test module (5), the humidity test module (6) and the partial discharge detection module (7) penetrate through the left side face of the intelligent tester (3).

4. The intelligent integrated distance equipment comprehensive tester according to claim 1, wherein: the adjacent 2 movable rods (12) and the carding plates (16) are distributed in a staggered mode, and the tooth blocks (13) are distributed at the joint of the movable rods (12) and the gear (15) at equal intervals.

5. The intelligent integrated distance equipment comprehensive tester according to claim 1, wherein: the gear (15) and the carding plate (16) are coaxially connected, the carding plate (16) and the intelligent tester (3) form a rotating structure, and the carding plate (16) and the temperature test module (5), the humidity test module (6) and the partial discharge detection module (7) are correspondingly arranged in position.

6. The intelligent integrated distance equipment comprehensive tester according to claim 2, wherein: the auxiliary insulating baffles (24) are symmetrically arranged about the longitudinal center line of the main insulating baffle (20), the depression section of the auxiliary insulating baffles (24) at the rear position is of a 7-shaped structure, and the shortest distance between the symmetrically distributed auxiliary insulating baffles (24) is larger than the width of the test underframe (1).

7. The intelligent integrated distance equipment comprehensive tester according to claim 1, wherein: the side section of the connecting frame (26) is of a cross-shaped structure, and the connecting frame (26) is connected among the temperature testing module (5), the humidity testing module (6) and the partial discharge detection module (7).

8. The test method of the intelligent integrated tester for the integrated spacer device according to claim 1 or 2, wherein the test method comprises the following steps: the method comprises the following steps:

S1: the test underframe (1) is moved to the high-pressure chamber, and 3 test modules are opposite to the high-pressure chamber, so that the intelligent tester (3) can be used for testing the spacer equipment;

S2: the screw rod (21) is rotated, the screw rod (21) controls an adjusting ring (22) in threaded connection at the outer side to move downwards, the adjusting ring (22) controls a driving rod (23) in hinged connection with the front side and the rear side to rotate, the driving rod (23) pushes 2 auxiliary insulating baffles (24) which are symmetrically distributed to move forwards and backwards, at the moment, the auxiliary insulating baffles (24) slide in a main insulating baffle (20), the enclosing range of the insulating baffles is increased, a detection area is partitioned, and the safety of workers in test operation is improved;

S3: the electric telescopic rod (27) is powered on, the control connecting frame (26) moves left, the temperature testing module (5), the humidity testing module (6) and the partial discharge detecting module (7) are driven to move left, the moving rod (12) moves left synchronously, the tooth block (13) arranged on the outer side of the moving rod (12) is meshed with the gear (15), so that the gear (15) can be controlled to rotate, the gear (15) controls the carding plate (16) to rotate, the support of the carding plate (16) on the connecting wire harness (11) is released, and the connecting wire harness (11) is stretched;

S4: the testing module is gradually pushed into the spacing equipment, the temperature sensor (8) arranged at the left end of the temperature testing module (5) and the humidity sensor (9) arranged at the left end of the humidity testing module (6) are used for detecting the peripheral running environment temperature and humidity of the spacing equipment, the partial discharge detection sensor (10) arranged at the left end of the partial discharge detection module (7) can detect whether the spacing equipment has a partial discharge phenomenon or not so as to detect the insulativity of the spacing equipment, detected data are transmitted to the control component (4), the processor (19) in the control component (4) receives and processes the data, and the processed data are transmitted to the display screen (25) for displaying.