CN109254084B

CN109254084B - GIS tank body ultrasonic testing-based implementation method

Info

Publication number: CN109254084B
Application number: CN201811319330.1A
Authority: CN
Inventors: 周波; 郭超; 杨红权; 蔡川; 杨新春; 程鹏; 宋颖; 罗杨; 刘军军; 林岑; 张剑刚; 刘豫航; 刘佳; 李波
Original assignee: Chengdu Power Supply Co Of State Grid Sichuan Electric Power Corp
Current assignee: Chengdu Power Supply Co Of State Grid Sichuan Electric Power Corp
Priority date: 2018-11-07
Filing date: 2018-11-07
Publication date: 2021-01-01
Anticipated expiration: 2038-11-07
Also published as: CN109254084A

Abstract

The invention discloses a method for realizing ultrasonic testing based on a GIS tank, which comprises a probe, a connecting plate and a shell, wherein a first elastic part is arranged between the connecting plate and the shell, one end of the first elastic part is connected with the connecting plate, the other end of the first elastic part is connected with the shell, a cylinder with a cavity is arranged in the shell, one end of the cylinder is provided with an outlet matched with the probe, the outlet is communicated with the cavity, the inner wall of the cylinder is provided with a channel, one end of the channel is communicated with the cylinder, the other end of the channel is communicated with the cavity, the probe is positioned in the outlet, the connecting plate is provided with a movable rod, the movable rod penetrates through the cavity and is connected with the probe, the movable rod can drive the probe to move in the outlet, the movable rod is further provided with a piston, the piston is positioned. The invention can automatically coat the detection head with silicone grease and can ensure the stability of the detection head during detection.

Description

GIS tank body ultrasonic testing-based implementation method

Technical Field

The invention relates to a probe laminator, in particular to a GIS tank body based ultrasonic testing implementation method.

Background

When GIS ultrasonic wave popularization is carried out, the most repeated action is the attachment of an ultrasonic probe on the surface of a GIS tank body. At present, a common mode is that a tester holds the silicone grease box with the left hand and holds the probe with the right hand, silicone grease is smeared at the end part of the ultrasonic probe during testing, then the probe is attached to the surface of the GIS tank body with the hand, and the motion is kept for at least 15 seconds. This mode inefficiency, when keeping the laminating action, easily cause interference and erroneous judgement because of the shake of hand to ultrasonic signal, tester's both hands stick silicone grease easily simultaneously, clean health inadequately. And to the GIS jar body of eminence, the tester need just can detect the GIS jar body with the help of the ladder, but adopt this kind of mode nevertheless to increase the hand of the people who holds up the ladder, have the casualties risk that the tester eminence falls, need climb up from the ladder and climb down and remove the ladder when changing the measurement station simultaneously, efficiency of software testing is lower.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects in the prior art, and the invention aims to provide the GIS tank body-based ultrasonic testing implementation method, improve the labor efficiency of GIS ultrasonic testing, reduce the interference and misjudgment on the testing and ensure the cleanness and sanitation of testing personnel.

The invention is realized by the following technical scheme:

a GIS tank body ultrasonic testing based implementation method comprises the following steps:

1) keeping the first elastic part in a non-compression state, and introducing silicone grease into the cavity of the cylinder through the feed inlet;

2) after the cavity formed between the piston and the outlet is filled with the silicone grease, stopping introducing the silicone grease into the cavity, and then installing the storage tank filled with the silicone grease on the feeding hole;

3) the length of the telescopic rod is adjusted according to the height of the GIS tank body;

4) a detection person holds the telescopic rod and attaches the support wing to the surface of the GIS tank body;

5) acting force is applied to the connecting plate by the telescopic rod, and the connecting plate compresses the first elastic piece and drives the movable rod to move in the cavity;

6) the piston moves along with the movable rod, compresses the silicone grease in the cavity and forces the silicone grease to flow into the outlet through the channel;

7) when the silicone grease is moved out of the outlet, the pressing block moves to the baffle, and the pressing block presses the baffle downwards under the action of the second elastic piece, so that the storage space of the silicone grease is enlarged, and the piston cannot extrude the silicone grease in the cavity to the outlet from the channel;

8) when the movable rod drives the detecting head to move in the outlet, the silicone grease flowing into the outlet is attached to the detecting head, then the detecting head extends out of the outlet, and the detecting head is attached to the GIS tank body;

9) attaching the probe to the GIS tank body for 15-20 seconds to complete the ultrasonic testing of the GIS tank body;

10) the support wing is moved away from the GIS tank body, the movable rod is driven to restore to the initial position under the action of the first elastic piece, and the movable rod drives the pressing block to move to the initial position together in the moving process, so that the ultrasonic testing of the GIS tank body is completed;

11) treat piston (6) and remove when initial position, the push pedal in the bin will hold the silicone grease of intracavity and enter into the cavity through the feed inlet in, be full of the silicone grease benefit in the cavity, be convenient for detect the other positions of the GIS jar body of eminence.

Further, including the detecting head, still include connecting plate and casing, be equipped with first elastic component between connecting plate and the casing, the one end and the connecting plate of first elastic component are connected, and the other end is connected with the casing, be equipped with the barrel that has the cavity in the casing, the one end of barrel is equipped with the export that matches with the detecting head, export and cavity intercommunication, be equipped with the passageway on the inner wall of barrel, passageway one end and barrel, the other end and cavity intercommunication, the detecting head is located the export, be equipped with the movable rod on the connecting plate, the movable rod runs through the cavity and is connected with the detecting head, and the movable rod can drive the detecting head and remove in the export, still be equipped with the piston on the movable rod, the piston is located the cavity, and the piston housing is on the movable rod.

Further, still be equipped with the connecting block on the movable rod, the connecting block cover is on the movable rod to the connecting block is located between export and the piston, and the connecting block can follow the movable rod and remove together, still be equipped with second elastic component and briquetting between the cavity of connecting block and barrel, second elastic component one end is connected with the connecting block, and the other end is connected with the briquetting, and the second elastic component extrudes the briquetting on the inner wall of cavity.

Further, still be equipped with the recess on the inner wall of cavity, the recess is close to the export, be equipped with a plurality of third elastic component on the inner bottom of recess, be equipped with the baffle that matches with the recess on the third elastic component, the baffle flushes with the inner wall of cavity under the effect of third elastic component.

Further, the sum of the elastic forces of the third elastic members in the groove is smaller than the elastic force of the second elastic member.

Furthermore, an inclined plane is arranged between the groove and the inner wall of the cavity.

Further, still be equipped with the feed inlet on the barrel, feed inlet and cavity intercommunication are equipped with first check valve in the feed inlet.

Furthermore, the shell is also provided with two support wings of an arc structure, the support wings are elastic, and the two support wings are respectively positioned at two sides of the axis of the movable rod.

Furthermore, a telescopic rod is further arranged on the connecting plate, and the telescopic rod is hinged with the connecting plate.

Furthermore, a storage box is further arranged on the outer wall of the barrel, a connecting pipe is arranged on the storage box, one end of the connecting pipe is connected with the feeding hole through threads, the other end of the connecting pipe is communicated with the accommodating cavity of the storage box, a second one-way valve and a sealing element are further arranged in the connecting pipe, the sealing element is connected with the connecting pipe through threads, and the connecting pipe can be sealed through the sealing element; a plurality of fourth elastic pieces are further arranged in the storage box, and push plates are arranged on the fourth elastic pieces; the storage box is also provided with an inlet, and a sealing plug is arranged in the inlet.

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

1. when the GIS tank body is detected, silicone grease is injected into a cavity of a cylinder body by using a feeding hole, then a connecting plate drives a movable rod to move in the cavity of the cylinder body, a piston moves towards an outlet in the moving process of the movable rod, the silicone grease is compressed by the piston in the moving process of the piston, the silicone grease in the cavity is forced to flow into the outlet through a channel, when a detecting head is pushed by the movable rod to move in the outlet, the silicone grease flowing into the outlet is naturally attached to the detecting head, and the detecting head attached with the silicone grease is attached to the GIS tank body after penetrating through the outlet, so that the GIS tank body is detected;

2. according to the method for realizing the ultrasonic testing based on the GIS tank body, when the movable rod moves in the cylinder body and the pressing block moves to the baffle, the baffle is pressed under the action of the second elastic piece, so that the storage space of the silicone grease is increased, the piston does not extrude the silicone grease from the channel to the outlet in the moving process of the piston, and the waste of the silicone grease is avoided;

3. according to the method for realizing the ultrasonic testing based on the GIS tank, the arranged telescopic rod is convenient to detect the GIS tank at a high position;

4. the invention relates to a method for realizing ultrasonic testing based on a GIS tank body, wherein when a first elastic part is converted from a compression state to a non-compression state, a piston moves towards a direction away from an outlet, negative pressure is generated in a cavity of a cylinder body, so that silicone grease in a storage tank enters the cavity of the cylinder body through a one-way valve and a feed inlet under the action of a fourth elastic part, an automatic filling function is realized, preparation for next testing is well made, and when the silicone grease in the storage tank is used up, the storage tank filled with the silicone grease can be quickly replaced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the inside of the cartridge according to the present invention;

FIG. 3 is a schematic structural view of the cartridge of the present invention in another state;

FIG. 4 is an enlarged view of part A of the present invention;

FIG. 5 is a schematic view of the present invention in use;

FIG. 6 is a schematic view of the present invention in use;

fig. 7 is a schematic view showing the structure of the storage box of the present invention.

Reference numbers and corresponding part names in the drawings:

1-telescopic rod, 2-connecting plate, 3-first elastic element, 4-shell, 5-supporting wing, 6-barrel, 7-probe, 8-GIS tank, 9-movable rod, 10-first one-way valve, 11-feed inlet, 12-third elastic element, 13-baffle, 14-piston, 15-connecting block, 16-channel, 17-second elastic element, 19-pressing block, 20-groove, 21-cavity, 22-outlet, 23-inclined plane, 24-storage tank, 25-fourth elastic element, 26-push plate, 27-containing cavity, 28-sealing plug, 29-sealing element, 30-connecting pipe and 31-second one-way valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Examples

As shown in fig. 1 to 7, the method for implementing GIS tank based ultrasonic testing of the present invention includes a probe 7, where the probe 7 is a prior art for performing GIS ultrasonic testing on a GIS tank, a connecting plate 2 and a housing 4, a plurality of first elastic members 3 are disposed between the connecting plate 2 and the housing 4, one end of each first elastic member 3 is connected to the connecting plate 2, and the other end is connected to the housing 4, each first elastic member 3 is a spring and has a certain elasticity, the connecting plate 2 can compress the first elastic member 3 towards the housing 4, so that the connecting plate 2 moves towards the housing 4, support wings 5 having an arc structure are disposed on both sides of the housing 4, and the support wings 5 have a certain elasticity, a cylinder 6 is disposed in the housing 4, the cylinder 6 penetrates the housing 4, a cavity 21 is disposed in the cylinder 6, an outlet 22 is disposed at one end of the cylinder 6, the outlet 22 is communicated with the cavity 21, the detecting head 7 is positioned in the outlet 22, the diameter of the detecting head 7 is consistent with that of the outlet 22, the detecting head 7 can move in the outlet 22 to extend the detecting head 7 out of the barrel body 6, the cavity 21 of the barrel body 6 is also internally provided with a movable rod 9, one end of the movable rod 9 is connected with the detecting head 7, the other end of the movable rod 9 is connected with a connecting plate 2, the connecting plate 2 can drive the movable rod 9 to move in the cavity 21 so as to extend the detecting head 7 out of the outlet 22, the inner wall of the cavity 21 of the barrel body 6 is also provided with a channel 16, one end of the channel 16 is connected with the inner wall of the cavity 21, the other end of the channel is communicated with the outlet 22, the movable rod 9 is also provided with a piston 14, the piston 14 is sleeved on the movable rod 9 and is matched with the cavity 21, the piston 14 can be sealed with the inner, still be equipped with connecting block 15 on the movable rod 9, connecting block 15 also overlaps on movable rod 9 to connecting block 15 is located between piston 14 and the export 22, and movable block 15 can follow movable rod 9 and remove together, be equipped with second elastic component 17 on movable block 15, second elastic component 17 is the spring, has certain elasticity, second elastic component 17 one end is connected with movable block 15, is equipped with briquetting 19 on the other end, briquetting 19 under the effect of second elastic component 17, briquetting 19 can compress tightly on the inner wall of cavity 21, still be equipped with recess 20 on the inner wall of cavity 21, recess 20 is close to in export 22, be equipped with a plurality of third elastic components 12 on the insole of recess 20, third elastic component 12 also is the spring, and third elastic component 12 one end is connected with the insole of recess 20, is equipped with baffle 13 on the other end, the cross sectional dimension of baffle 13 is unanimous with the cross sectional dimension of recess 20, and the four sides of the baffle 14 are sealed with the inner wall of the groove 20, when the third elastic member 12 is compressed, the baffle 13 can move into the groove 20, the upper surface of the baffle 13 is flush with the inner wall of the cavity 21 under the action of no external force on the third elastic member 12, an inclined surface 23 is further arranged between the groove 20 and the inner wall of the cavity 21, and the sum of the elastic forces of all the third elastic members 12 is smaller than that of the second elastic member 17, so that when the movable rod 9 pushes the probe 7 to move, when the pressing block 19 moves onto the baffle 13, because the elastic force of the second elastic member 17 is larger than the sum of the elastic forces of the third elastic members 12, the pressing block 19 generated by the second elastic member 17 can press the baffle 13 downwards, so that the baffle 13 retracts into the groove 20, when the pressing block 19 moves away from the baffle 13, the baffle 13 is restored to the initial position under the action of the third elastic member 12, the inclined surface 23 is arranged, so that the pressing block 19 can slide to the inner wall of the cavity 21 through the inclined surface; the silicone grease feeding device is characterized in that a feeding hole 11 is further formed in the barrel 6, the feeding hole 11 is communicated with the cavity 21, the cavity 21 is communicated with the outside through the feeding hole 11, silicone grease can be conveyed into the cavity 21 through the feeding hole 11, a first one-way valve 10 is arranged in the feeding hole 11, the first one-way valve 10 can ensure that the silicone grease can enter the cavity 21 through the feeding hole 11, and meanwhile, the silicone grease in the cavity 21 cannot flow back out through the feeding hole 11; the probing tip 7 is positioned in the outlet 22 under the condition that the first elastic member 3 is not applied with external force, the tail end of the probing tip 7 is positioned at the inner side of the port of the channel 16, and the piston 14 is positioned at the outer side of the other end of the channel 16; the connecting plate 2 is also provided with a telescopic rod 1, the telescopic rod 1 is in the prior art and can adjust the length of the telescopic rod 1, and the connecting plate 2 is hinged with the connecting plate 2; the outer wall of the cylinder 6 is further provided with a storage box 24, a containing cavity 27 is arranged in the storage box 24 and used for storing silicone grease in a centralized mode, a plurality of fourth elastic pieces 25 are arranged on the inner bottom of the containing cavity 27, the fourth elastic pieces 25 are springs, a push plate 26 is arranged on the fourth elastic pieces 25, a connecting pipe 30 is arranged on the storage box 24, the connecting pipe 30 is communicated with the containing cavity 27, the connecting pipe 30 is communicated with the feed inlet 11 through threads, the storage box 24 can be fixed on the cylinder 6, an inlet is further arranged on the storage box 24 and communicated with the containing cavity 27, silicone grease can be filled into the storage box 24 through the inlet, a sealing plug 28 is arranged in the inlet and prevents the silicone grease from flowing out from the inlet, a second one-way valve 31 is arranged in the connecting pipe 30, the second one-way valve 31 can enable the push plate 26 to press the silicone grease in the containing cavity 27 into the feed inlet 11, and then, the connecting pipe 30 is further provided with a sealing element 29, the sealing element 29 is connected with the side wall of the connecting pipe 30 through threads, the sealing element 29 is rotated, the connecting pipe 30 can be sealed by the sealing element 29, and when silicone grease is poured into the storage tank 24, the silicone grease is prevented from flowing out of the connecting pipe 30.

The specific use method of the hair dye comprises the following steps: the length of the telescopic rod 1 is adjusted, so that the support wing 7 is attached to the GIS tank body, the telescopic rod 1 is utilized to push the connecting plate 2 to compress the first elastic part 3, when the connecting plate 2 compresses the first elastic part 3, the movable rod 9 moves in the cavity 21, the piston 14 compresses the silicone grease in the cavity 21 in the moving process, the silicone grease is forced to flow into the opening 22 through the channel 16, when the end head of the probe 7 moves in the opening 22, the silicone grease flowing into the opening 22 is attached to the end head of the probe 7, the probe 7 attached with the silicone grease extends out of the cylinder 6 and is attached to the GIS tank body to detect the GIS tank body, automatic silicone grease application to the probe 7 is realized, and when the pressing block 19 moves to the baffle 13, the pressing block 19 presses down the baffle 13, when the probe 7 finishes the detection of the GIS tank body, the movable rod 9 retracts under the action of the first elastic part, the pressing block 19 moves along the inclined plane 23 to the inner wall of the cavity 21 again, the baffle 13 returns to the original position to complete the detection of the GIS tank body, and meanwhile, when the baffle piston 14 returns to the original position, because the volume of the silicone grease stored in the cylinder 6 is increased, the fourth elastic part 25 arranged in the storage box 24 can push the push plate 26 to press the silicone grease in the accommodating cavity 27 into the feed port 11, and the silicone grease in the feed port 11 enters the cavity 21 in the cylinder 6 again, and the silicone grease in the cavity 21 is complemented, so that the detection of other positions of the GIS tank body at the high position is convenient.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A method for realizing ultrasonic testing based on a GIS tank body is characterized by comprising the following steps:

1) keeping the first elastic part (3) in a non-compression state, and introducing silicone grease into the cavity (21) of the cylinder body (6) through the feed port (11);

2) after the cavity (21) formed between the piston (14) and the outlet (22) is filled with the silicone grease, stopping introducing the silicone grease into the cavity (21), and then installing a storage tank (24) filled with the silicone grease on the feeding hole (11);

3) the length of the telescopic rod (1) is adjusted according to the height of the GIS tank body;

4) a detection person holds the telescopic rod (1) and attaches the support wing (5) to the surface of the GIS tank body;

5) acting force is applied to the connecting plate (2) by using the telescopic rod (1), and the connecting plate (2) compresses the first elastic piece (3) and simultaneously drives the movable rod (9) to move in the cavity (21);

6) the piston (6) moves along with the movable rod (9), and the piston (6) compresses the silicone grease in the cavity (21) to force the silicone grease to flow into the outlet (22) through the channel (16);

7) when the silicone grease is removed from the outlet (22), the pressing block (19) moves to the baffle (13), and the pressing block (19) presses the baffle (13) downwards under the action of the second elastic piece (17), so that the storage space of the silicone grease is enlarged, and the silicone grease in the cavity (21) cannot be extruded to the outlet (22) from the channel (16) by the piston (6);

8) when the movable rod (9) drives the detecting head (7) to move in the outlet (22), the silicone grease flowing into the outlet (22) is attached to the detecting head (7), then the detecting head (7) extends out of the outlet (22), and the detecting head (7) is attached to the GIS tank body;

9) attaching the probe (7) to the GIS tank body for 15-20 seconds to finish the test of the GIS tank body ultrasonic wave;

10) the support wing (5) is moved away from the GIS tank body, the movable rod (9) is driven to restore to the initial position under the action of the first elastic piece (3), the movable rod (9) drives the pressing block (19) to move to the initial position together in the moving process, and the ultrasonic testing of the GIS tank body is completed;

11) when the piston (6) moves to the initial position, a push plate (26) in the storage box (24) enables the silicone grease in the containing cavity (27) to enter the cavity (21) through the feeding hole (11) and fills up the silicone grease in the cavity (21);

a first elastic part (3) is arranged between the connecting plate (2) and the shell (4), one end of the first elastic part (3) is connected with the connecting plate (2), the other end of the first elastic part is connected with the shell (4), a barrel body (6) with a cavity (21) is arranged in the shell (4), one end of the barrel body (6) is provided with an outlet (22) matched with the detecting head (7), the outlet (22) is communicated with the cavity (21), the inner wall of the barrel body (6) is provided with a channel (16), one end of the channel (16) is communicated with the barrel body (6), the other end of the channel is communicated with the cavity (21), the detecting head (7) is positioned in the outlet (22), the connecting plate (2) is provided with a movable rod (9) which penetrates through the cavity (21) to be connected with the detecting head (7), the movable rod (9) can drive the detecting head (7) to move in the outlet (22), and a piston (, the piston (14) is positioned in the cavity (21), the piston (14) is sleeved on the movable rod (9), and the piston (14) can move along with the movable rod (9);

still be equipped with connecting block (15) on movable rod (9), connecting block (15) cover is on movable rod (9) to connecting block (15) are located between export (22) and piston (14), and connecting block (15) can follow movable rod (9) and remove together, still be equipped with second elastic component (17) and briquetting (19) between cavity (21) of connecting block (15) and barrel (6), second elastic component (17) one end is connected with connecting block (15), and the other end is connected with briquetting (19), and second elastic component (17) extrude briquetting (19) on the inner wall of cavity (21).

2. The GIS tank body ultrasonic testing-based realization method according to claim 1, characterized in that the inner wall of the cavity (21) is further provided with a groove (20), the groove (20) is close to the outlet (22), the inner bottom of the groove (20) is provided with a plurality of third elastic members (12), the third elastic members (12) are provided with baffles (13) matched with the groove (20), and the baffles (13) are flush with the inner wall of the cavity (21) under the action of the third elastic members (12).

3. The method for realizing the GIS tank based ultrasonic testing is characterized in that the sum of the elastic forces of the third elastic members (12) in the groove (20) is smaller than the elastic force of the second elastic member (17).

4. The GIS tank based ultrasonic testing implementation method according to claim 2, characterized in that an inclined plane (23) is further arranged between the groove (20) and the inner wall of the cavity (21).

5. The GIS tank body ultrasonic testing-based realization method according to claim 1, characterized in that the cylinder body (6) is further provided with a feed port (11), the feed port (11) is communicated with the cavity (21), and the feed port (11) is internally provided with a first check valve (10).

6. The GIS tank body ultrasonic testing-based realization method according to claim 1, characterized in that the housing (4) is further provided with two support wings (5) of arc structure, the support wings (5) have elasticity, and the two support wings (5) are respectively located at two sides of the axis of the movable rod (9).

7. The GIS tank body ultrasonic testing-based realization method according to claim 1, characterized in that the connection plate (2) is further provided with a telescopic rod (1), and the telescopic rod (1) is hinged with the connection plate (2).

8. The GIS tank body ultrasonic testing-based realization method according to claim 1, characterized in that the outer wall of the cylinder body (6) is further provided with a storage tank (24), the storage tank (24) is provided with a connecting pipe (30), one end of the connecting pipe (30) is connected with the feed port (11) through a thread, the other end of the connecting pipe is communicated with the accommodating cavity (27) of the storage tank (24), the connecting pipe (30) is further provided with a second one-way valve (31) and a sealing element (29), the sealing element (29) is connected with the connecting pipe (30) through a thread, and the sealing element (29) can seal the connecting pipe (30); a plurality of fourth elastic pieces (25) are further arranged in the storage box (24), and push plates (26) are arranged on the fourth elastic pieces (25); the storage tank (24) is also provided with an inlet, and a sealing plug (28) is arranged in the inlet.