CN115951096A

CN115951096A - Auxiliary device for electrical measurement and using method

Info

Publication number: CN115951096A
Application number: CN202211665458.XA
Authority: CN
Inventors: 闫明文; 田文; 富磊; 胡恒; 王曦; 王宗晶; 康德功; 李琦; 梁言贺; 姚尧
Original assignee: Power Supply Service Center Of State Grid Heilongjiang Electric Power Co ltd; State Grid Corp of China SGCC
Current assignee: Power Supply Service Center Of State Grid Heilongjiang Electric Power Co ltd; State Grid Corp of China SGCC
Priority date: 2022-12-23
Filing date: 2022-12-23
Publication date: 2023-04-11
Anticipated expiration: 2042-12-23
Also published as: CN115951096B

Abstract

An auxiliary device for electrical measurement and a using method thereof belong to the field of auxiliary equipment for electrical measurement. The connecting plate is connected to the inner circular surface of the connecting ring through a bearing, a through hole is formed in the connecting plate, the two hemispherical shells are symmetrically and fixedly connected into the through hole of the connecting plate, a solid ball is fixedly connected to one end of the connecting rod, and a placing plate is fixedly connected to the other end of the connecting rod after penetrating through the gap I; the upper end of each screw is fixedly connected with a corresponding rectangular rod, the lower end of each screw penetrates through the gap I and is fixedly connected with a corresponding rubber pad, and the screws are always in threaded fit with the through holes; each rectangular sleeve is in sliding fit with the corresponding rectangular rod, and the rectangular sleeves are in sliding fit with the corresponding through holes. The horizontal degree of the placing rack can be automatically adjusted along with the inclination angle of the inclined plane, so that the adjusting time is saved, the center of the placing rack can be adjusted backwards when the supporting legs cannot be inserted into the inclined plane of the ground for use, the supporting is assisted, and the damage caused by the toppling of equipment is prevented.

Description

Auxiliary device for electrical measurement and using method

Technical Field

The invention relates to an auxiliary device for electrical measurement and a using method thereof, belonging to the field of auxiliary equipment for electrical measurement.

Background

Electric measuring equipment is in the work use, auxiliary stay equipment mostly need be placed to its lower extreme, and the environment of electric measuring equipment work has probably on the slope, ordinary auxiliary stay equipment is during operation on the slope, need adjust the rack to horizontality, whether the regulation back still need be through the spirit level detection level, it is very troublesome, and when supporting on the slope, if the rubble is more on the slope, lead to the landing leg can not insert the bottom surface, the focus of equipment leans forward again, lead to equipment to topple over very easily, consequently, it is necessary to improve it.

Disclosure of Invention

The present invention is directed to solving the above problems in the prior art, and provides an auxiliary device for electrical measurement and a method of using the same.

The invention realizes the purpose, and adopts the following technical scheme:

an auxiliary device for electrical measurement comprises a supporting device; the supporting device comprises three supporting legs, a connecting ring and an equipment placing device; three support legs are uniformly distributed and hinged on the outer circular surface of the connecting circular ring; the equipment placing device is connected to the inner circular surface of the connecting circular ring through a bearing;

the equipment placing device comprises a connecting plate, two hemispherical shells, a solid ball, a shaft rod, a connecting rod, two rubber pads, a placing plate, two rectangular sleeves, two rectangular rods and two screws; the connecting plate is connected to the inner circular surface of the connecting ring through a bearing, a through hole is formed in the connecting plate, the two hemispherical shells are symmetrically and fixedly connected into the through hole of the connecting plate, and a gap I is reserved between the two hemispherical shells; two ends of the shaft lever are respectively and fixedly connected to the centers of the two hemispherical shells; the connecting rod is connected to the shaft rod through a bearing, one end of the connecting rod is fixedly connected with a solid ball, and the other end of the connecting rod penetrates through the gap I and is fixedly connected with a placing plate; the weight of the solid ball is greater than that of the placing plate; the placing plate is provided with two vertical T-shaped through holes; the upper end of each screw is fixedly connected with a corresponding rectangular rod, the lower end of each screw penetrates through the gap I and is fixedly connected with a corresponding rubber pad, and the screws are always in threaded fit with the through holes; each rectangular sleeve is in sliding fit with the corresponding rectangular rod, and the rectangular sleeves are in sliding fit with the corresponding through holes.

A use method of an auxiliary device for electrical measurement comprises the following steps: the method comprises the following steps:

the method comprises the following steps: starting a hydraulic cylinder I to move the support leg to a proper position, and then placing the support leg on the ground;

step two: standing for a period of time to enable the solid balls and the cylinder to slide to be static under the action of gravity;

step three: rotating the rectangular sleeve to enable the rubber pad to be tightly close to the upper end of the inner wall of the hemispherical shell, and then adding water into the cylinder;

step four: the hydraulic cylinder II is started, so that the transmission block drives the cylinder to rotate, the cylinder drives the fixed cone to move downwards through the threads and penetrate into the ground, and the stability is improved;

step five: the electrical measurement equipment is fixed on the upper end of the placing frame.

Compared with the prior art, the invention has the beneficial effects that: the horizontal degree of the placing rack can be automatically adjusted along with the inclination angle of the inclined plane, so that the adjusting time is saved, the center of the placing rack can be adjusted backwards when the supporting legs cannot be inserted into the inclined plane of the ground for use, the supporting is assisted, and the damage caused by the toppling of equipment is prevented.

Drawings

FIG. 1 is a front view of an auxiliary device for electrical measurement according to the present invention;

FIG. 2 is a front view of a supporting device of an auxiliary device for electrical measurement of the present invention;

FIG. 3 is a front view of an apparatus placement device of an auxiliary device for electrical measurement according to the present invention;

FIG. 4 is a side view of a hemispherical housing of an auxiliary device for electrical measurements of the present invention;

FIG. 5 is a front view of an auxiliary supporting device of an auxiliary device for electrical measurement according to the present invention;

FIG. 6 is a front view of a fixture of an auxiliary device for electrical measurement of the present invention;

FIG. 7 is a side view of a fixture for an auxiliary device for electrical measurements of the present invention;

FIG. 8 is a top view of a fixture for an auxiliary device for electrical measurements according to the present invention;

FIG. 9 is a front view of the biasing device of the auxiliary device for electrical measurement of the present invention;

FIG. 10 is a side view of a cylinder of an auxiliary device for electrical measurements of the present invention;

fig. 11 is a front view of an adjusting device of an auxiliary device for electrical measurement according to the present invention.

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the invention, rather than all embodiments, and all other embodiments obtained by those skilled in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

The first embodiment is as follows: as shown in fig. 1 to 5, the present embodiment describes an auxiliary device for electrical measurement, including a support device 1; the supporting device 1 comprises three supporting legs 11, a connecting ring 12 and a device placing device 13; three supporting legs 11 are uniformly distributed and hinged on the outer circular surface of the connecting circular ring 12; the equipment placing device 13 is connected to the inner circular surface of the connecting circular ring 12 through a bearing;

the device placing device 13 comprises a connecting plate 131, two hemispherical shells 132, a solid ball 133, a shaft rod 134, a connecting rod 135, two rubber pads 136, a placing plate 137, two rectangular sleeves 138, two rectangular rods 139 and two screws 1310; the connecting plate 131 is connected to the inner circular surface of the connecting ring 12 through a bearing, a through hole is formed in the connecting plate 131, the two hemispherical shells 132 are symmetrically and fixedly connected in the through hole of the connecting plate 131, and a gap I1311 is reserved between the two hemispherical shells 132; the two ends of the shaft rod 134 are respectively fixedly connected to the centers of the two hemispherical shells 132; the connecting rod 135 is connected to the shaft rod 134 through a bearing, one end of the connecting rod 135 is fixedly connected with the solid ball 133, and the other end of the connecting rod 135 penetrates through the gap I1311 and is fixedly connected with a placing plate 137; the weight of the solid ball 133 is greater than that of the placing plate 137; the placing plate 137 is provided with two vertical T-shaped through holes; the upper end of each screw 1310 is fixedly connected with a corresponding rectangular rod 139, the lower end of each screw 1310 penetrates through the gap I1311 to be fixedly connected with a corresponding rubber pad 136, and the screws 1310 are in threaded fit with the through holes all the time; each of the rectangular sleeves 138 is slidably fitted with a corresponding rectangular rod 139, and the rectangular sleeves 138 are slidably fitted with corresponding through holes. The equipment placing device 13 can ensure that the placing frame 137 is always parallel to the horizontal plane, thereby ensuring that the equipment can be normally used on a slope. The connecting plate 131 is connected with the connecting ring 12 in a rotating mode, so that the supporting legs 11 can be conveniently placed, and the orientation of the two hemispherical shells 132 can be adjusted, so that the device is wider in application range.

The second embodiment is as follows: as shown in fig. 6 and 7, the present embodiment is further described with respect to the first embodiment, and further includes an auxiliary supporting device 2; the auxiliary supporting device 2 comprises a fixing device 21 and a deviation device 22; the fixing device 21 is fixedly connected to the lower end of the connecting disc 131; the offset means 22 is fixedly attached to the side of the fixing means 21.

The third concrete implementation mode: as shown in fig. 1 to 11, this embodiment is further described as a first embodiment, and the fixing device 21 includes a fixing rod 211, three hydraulic cylinders i 212, a connecting ring 213, a fixing ring 214, and two arc-shaped housings 215; an annular groove is formed in the upper end face of the fixing ring 214, and the connecting ring 213 is connected into the annular groove in the upper end face of the fixing ring 214 through a bearing; one end of each hydraulic cylinder I212 is hinged to the connecting ring 213, and the other end of each hydraulic cylinder I212 is fixedly connected to the corresponding support leg 11; the upper end surface of the fixing ring 214 is also fixedly connected with a fixing rod 211, and the upper end of the fixing rod 211 is fixedly connected to the connecting plate 131; the two arc-shaped shells 215 are symmetrically and fixedly connected to the lower end of the fixing ring 214, a gap II 216 is reserved between the two arc-shaped shells 215, and the gap II 216 and the gap I1311 are on the same plane. For fixing the legs 11.

The fourth concrete implementation mode: as shown in fig. 10 and 11, the present embodiment is further described with respect to the first embodiment, the shifting apparatus 22 includes two water tanks 221, a movable plate i 223, a movable plate ii 224, a movable plate iii 225, a movable plate iv 226, two communicating pipes 227, a fixed cone 228, a cylinder 229, a rectangular block 2210, a baffle 2211, an annular stop 2212 and a limiting rod 2213; the lower end of the cylinder 229 is connected with a fixed cone 228 through threads, and the side surface of the top end of the cylinder 229 is fixedly connected with an annular baffle 2212; the rectangular block 2210 is provided with a vertical through hole which is in sliding fit with the cylinder 229 and the annular blocking piece 2212, the top end of the side surface of the rectangular block 2210 is fixedly connected with a baffle 2211, the rectangular block 2210 is in sliding fit with the gap II 216, and the baffle 2211 is positioned on the inner circular surfaces of the two arc-shaped shells 215; one end of the limiting rod 2213 is fixedly connected to the lower end of the rectangular block 2210, and the other end of the limiting rod 2213 is inserted into the fixed cone 228; threads are arranged on the inner wall of the cylinder 229; the two communicating pipes 227 are symmetrically and fixedly connected to the outer circumferential surface of the cylinder 229 and are communicated with the inside of the cylinder 229, and the other end of the communicating pipe 227 is fixedly connected with the water tank 221; an air hole 222 is formed in the upper end of the water tank 221, the water tank 221 is fixedly connected to the outer sides of the two arc-shaped shells 215, and a connecting line of the midpoints of the two water tanks 221 is located in the gap II 216; the movable plates III 225 and IV 226 are arranged at intervals, the adjacent movable plates III 225 and IV 226 are hinged, the movable plate III 225 close to the water tank 221 and the cylinder 229 is hinged on the corresponding water tank 221 and the corresponding cylinder 229, sleeve holes are further formed in the movable plates III 225 and IV 226, and the communicating pipe 227 penetrates through the sleeve hole in each movable plate III 225 and IV 226; the joint of the movable plate I223 and the movable plate II 224 is hinged, the other ends of the movable plate I223 and the movable plate II 224 are hinged to the movable plate III 225 and the movable plate IV 226 respectively, the movable plate I223 and the movable plate II 224 are arranged at the opening of the movable plate III 225 and the movable plate IV 226, which is far away from the cylinder 229, and the joint of the movable plate I223 and the movable plate II 224 is propped against the communicating pipe 227.

The fifth concrete implementation mode: as shown in fig. 1 to 11, the present embodiment is further described with respect to the first embodiment, and the length of the communication pipe 227 is greater than the diameter of the fixing ring 214.

The sixth specific implementation mode: as shown in fig. 1-11, this embodiment is further described as an embodiment one, and the baffle 2211 is provided in an arc shape matching the arc of the inner surface of the arc-shaped housing 215.

The seventh embodiment: as shown in fig. 1 to 11, this embodiment is further described with respect to the first embodiment, and when the cylinder 229 is located at the middle position of the two water tanks 221, the two communication pipes 227 are both in a state of hanging naturally and communicating with the water tanks 221.

The specific implementation mode is eight: as shown in fig. 1 to 11, in this embodiment, which is a further description of the first embodiment, when the cylinder 229 is deflected toward one of the water tanks 221 by gravity, the connection pipe 227 connected to the one water tank 221 is folded and blocked, and the other connection pipe 227 is still connected.

The specific implementation method nine: as shown in fig. 1 to 11, the present embodiment is further described with respect to the first embodiment, and further includes an adjusting device 3; the adjusting device 3 comprises a hydraulic cylinder II 31 and a transmission block 32; the II 31 fixed connection of pneumatic cylinder is at the lower extreme of solid sphere 133, and the cooperation that II 31 of pneumatic cylinder and the I1311 in space are good, and the lower extreme fixedly connected with transmission piece 32 of II 31 of pneumatic cylinder is equipped with the screw thread on the excircle face of transmission piece 32, and transmission piece 32 and drum 229 threaded connection.

The specific implementation mode is ten: as shown in fig. 1 to 11, the present embodiment describes a method for using an electrical measurement assist device, the method including the steps of:

the method comprises the following steps: actuating the hydraulic cylinder I212 to move the support leg 11 to a proper position, and then placing the support leg 11 on the ground;

step two: standing for a period of time to allow the solid sphere 133 and the cylinder 229 to slide to rest under the force of gravity;

step three: rotating the rectangular sleeve 138 to bring the rubber pad 136 into close proximity with the upper end of the inner wall of the hemispherical shell 132, and then adding water to the cylinder 229;

step four: the hydraulic cylinder II 31 is started, the transmission block 32 drives the cylinder 229 to rotate, the cylinder 229 drives the fixed cone 228 to move downwards through threads and penetrate into the ground, and stability is improved;

step five: the electrical measuring device is fixed on the upper end of the placing frame 137.

The working principle of the invention is as follows: when the device is used, the hydraulic cylinder I212 is started, the supporting leg 11 is moved to a proper position, and then the supporting leg 11 is placed on the ground;

standing for a period of time to enable the solid ball 133 to slide on the inner circular surface of the hemispherical shell 132 under the action of gravity, and the cylinder 229 slides along the inner circular surface of the arc-shaped shell 215 under the action of gravity while the sliding solid ball 133 slides, and both slide to the bottommost end under the action of gravity until the sliding solid ball and the arc-shaped shell are static; when the solid ball 133 slides, the placing plate 137 is driven to move through the connecting rod 135, and when the solid ball 133 is static, the placing plate 137 is always parallel to the horizontal plane, so that the time for adjusting the placing plate 137 is shortened, and the use is convenient;

then, the rectangular sleeve 138 is pulled upwards to be separated from the placing plate 137, the rectangular sleeve 138 is rotated, the rectangular sleeve 138 drives the rectangular rod 139 to rotate, the screw 1310 is driven to rotate, the screw 1310 drives the rubber pad 136 to move upwards, the rubber pad 136 abuts against the upper end of the inner wall of the hemispherical shell 132 to increase friction, the placing plate 137 is limited to move through the screw 1310, so that the electrical detection equipment can be installed, and the placing plate 137 is guaranteed not to shake when the equipment is used;

then water is added into the cylinder 229, because the legs 11 are placed on the inclined plane, the connecting ring 12 is also inclined, and further the connecting plate 131 is inclined, the connecting plate 131 drives the fixing ring 214 to incline through the fixing rod 211, the fixing ring 214 drives the water tank 211 and the arc-shaped shell 215 to incline, after the inclination, the cylinder 229, the rectangular block 2210, the baffle 2211 and the fixing cone 228 enable the tip of the fixing cone 228 to be always vertically downward under the action of gravity, so that the cylinder 229 can approach one of the water tanks 221, when the cylinder 229 slides on the arc-shaped shell 215 and approaches one of the water tanks 221, the movable plate I223, the movable plate II 224, the movable plate III 225 and the movable plate IV 226 between the cylinder 229 and the nearest water tank 221 move, and because the distance between the cylinder 229 and the water tank 221 is constantly close during the movement, therefore, the distance between the movable plate i 223, the movable plate ii 224, the movable plate iii 225 and the movable plate iv 226 is continuously reduced, so that the connection position of the movable plate i 223 and the movable plate ii 224 presses the communication pipe 227, the communication pipe 227 is blocked, the communication pipe 227 connected with the other water tank 221 is still communicated, (the blocked water tank 221 is the water tank 221 with a relatively low height), when the hydraulic cylinder ii 31 is started, because the arc-shaped shell 215 is concentric with the hemispherical shell 132, after the hydraulic cylinder ii 31 and the cylinder 229 are inclined, the hydraulic cylinder ii 31 and the cylinder 229 are on the same straight line, the hydraulic cylinder ii 31 drives the transmission block 32 to move into the cylinder 229, then the cylinder 229 is driven to rotate by the screw, the cylinder 229 drives the fixing cone 228 to move by the screw, and because of the setting of the limit rod 2213, the fixing cone 228 moves downwards and pierces the ground, so that the stability is increased; meanwhile, when the transmission block 32 moves downwards, water in the cylinder 229 is pushed into the water tank 221 at a high point through the communication pipe 227, so that the center of gravity of the whole body moves to the high point of the slope, and the equipment is prevented from being damaged due to falling caused by unstable center of gravity;

and finally, fixing the electrical measuring equipment at the upper end of the placing rack 137 for use.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. An auxiliary device for electrical measurement, characterized in that: comprising a support device (1); the supporting device (1) comprises three supporting legs (11), a connecting circular ring (12) and an equipment placing device (13); three supporting legs (11) are uniformly distributed on the outer circular surface of the connecting circular ring (12) and hinged with the outer circular surface of the connecting circular ring; the equipment placing device (13) is connected to the inner circular surface of the connecting circular ring (12) through a bearing;

the equipment placing device (13) comprises a connecting plate (131), two hemispherical shells (132), a solid ball (133), a shaft rod (134), a connecting rod (135), two rubber pads (136), a placing plate (137), two rectangular sleeves (138), two rectangular rods (139) and two screws (1310); the connecting plate (131) is connected to the inner circular surface of the connecting ring (12) through a bearing, a through hole is formed in the connecting plate (131), the two hemispherical shells (132) are symmetrically and fixedly connected into the through hole of the connecting plate (131), and a gap I (1311) is reserved between the two hemispherical shells (132); two ends of the shaft lever (134) are respectively and fixedly connected with the centers of the two hemispherical shells (132); the connecting rod (135) is connected to the shaft rod (134) through a bearing, one end of the connecting rod (135) is fixedly connected with the solid ball (133), and the other end of the connecting rod (135) penetrates through the gap I (1311) and is fixedly connected with a placing plate (137); the weight of the solid ball (133) is greater than that of the placing plate (137); the placing plate (137) is provided with two vertical T-shaped through holes; the upper end of each screw (1310) is fixedly connected with a corresponding rectangular rod (139), the lower end of each screw (1310) penetrates through the gap I (1311) to be fixedly connected with a corresponding rubber pad (136), and the screws (1310) are in threaded fit with the through holes all the time; each rectangular sleeve (138) is in sliding fit with a corresponding rectangular rod (139), and each rectangular sleeve (138) is in sliding fit with a corresponding through hole.

2. An auxiliary device for electrical measurement according to claim 1, characterized in that: also comprises an auxiliary supporting device (2); the auxiliary support device (2) comprises a fixing device (21) and a deviation device (22); the fixing device (21) is fixedly connected to the lower end of the connecting disc (131); the offset device (22) is fixedly connected to the side surface of the fixing device (21).

3. An auxiliary device for electrical measurement according to claim 2, characterized in that: the fixing device (21) comprises a fixing rod (211), three hydraulic cylinders I (212), a connecting ring (213), a fixing ring (214) and two arc-shaped shells (215); an annular groove is formed in the upper end face of the fixing ring (214), and the connecting ring (213) is connected into the annular groove in the upper end face of the fixing ring (214) through a bearing; one end of each hydraulic cylinder I (212) is hinged to the connecting ring (213), and the other end of each hydraulic cylinder I (212) is fixedly connected to the corresponding supporting leg (11); the upper end face of the fixing ring (214) is also fixedly connected with a fixing rod (211), and the upper end of the fixing rod (211) is fixedly connected to the connecting plate (131); the two arc-shaped shells (215) are symmetrically and fixedly connected to the lower end of the fixing ring (214), a gap II (216) is reserved between the two arc-shaped shells (215), and the gap II (216) and the gap I (1311) are on the same plane.

4. An auxiliary device for electrical measurement according to claim 3, wherein: the offset device (22) comprises two water tanks (221), a movable plate I (223), a movable plate II (224), a movable plate III (225), a movable plate IV (226), two communicating pipes (227), a fixed cone (228), a cylinder (229), a rectangular block (2210), a baffle plate (2211), an annular baffle plate (2212) and a limiting rod (2213); the lower end of the cylinder (229) is connected with a fixed cone (228) through threads, and the side surface of the top end of the cylinder (229) is fixedly connected with an annular baffle plate (2212); the rectangular block (2210) is provided with a vertical through hole in sliding fit with the cylinder (229) and the annular baffle plate (2212), the top end of the side surface of the rectangular block (2210) is fixedly connected with a baffle plate (2211), the rectangular block (2210) is in sliding fit with the gap II (216), and the baffle plate (2211) is positioned on the inner circular surfaces of the two arc-shaped shells (215); one end of the limiting rod (2213) is fixedly connected to the lower end of the rectangular block (2210), and the other end of the limiting rod (2213) is inserted into the fixed cone (228); the inner wall of the cylinder (229) is provided with threads; the two communicating pipes (227) are symmetrically and fixedly connected to the outer circular surface of the cylinder (229) and are communicated with the inside of the cylinder (229), and the other end of each communicating pipe (227) is fixedly connected with a water tank (221); an air hole (222) is formed in the upper end of the water tank (221), the water tank (221) is fixedly connected to the outer sides of the two arc-shaped shells (215), and a connecting line of the middle points of the two water tanks (221) is located in the gap II (216); the movable plates III (225) and the movable plates IV (226) are arranged at intervals, the adjacent movable plates III (225) and the adjacent movable plates IV (226) are hinged, the movable plates III (225) close to the water tank (221) and the cylinder (229) are hinged to the corresponding water tank (221) and the corresponding cylinder (229), sleeve holes are further formed in the movable plates III (225) and the movable plates IV (226), and the communicating pipe (227) penetrates through the sleeve holes in each movable plate III (225) and the movable plate IV (226); the joint of the movable plate I (223) and the movable plate II (224) is hinged, the other ends of the movable plate I (223) and the movable plate II (224) are hinged to the movable plate III (225) and the movable plate IV (226) respectively, the movable plate I (223) and the movable plate II (224) are arranged at the opening of the movable plate III (225) and the movable plate IV (226) far away from the cylinder (229), and the joint of the movable plate I (223) and the movable plate II (224) abuts against the communicating pipe (227).

5. An auxiliary device for electrical measurement according to claim 4, wherein: the length of the communication pipe (227) is larger than the diameter of the fixing ring (214).

6. An auxiliary device for electrical measurement according to claim 4, wherein: the baffle (2211) is in an arc shape matched with the radian of the inner circular surface of the arc-shaped shell (215).

7. An auxiliary device for electrical measurement according to claim 4, wherein: when the cylinder (229) is positioned at the middle position of the two water tanks (221), the two communicating pipes (227) are both in a state of naturally drooping and communicating with the water tanks (221).

8. An auxiliary device for electrical measurement according to claim 4, wherein: when the cylinder (229) is deflected in the direction of one water tank (221) by gravity, the connection pipe (227) connected to the water tank (221) is folded and blocked, and the other connection pipe (227) is still connected.

9. An auxiliary device for electrical measurement according to claim 8, wherein: also comprises an adjusting device (3); the adjusting device (3) comprises a hydraulic cylinder II (31) and a transmission block (32); pneumatic cylinder II (31) fixed connection is at the lower extreme of solid sphere (133), and pneumatic cylinder II (31) and the good cooperation in space I (1311), the lower extreme fixedly connected with transmission piece (32) of pneumatic cylinder II (31), are equipped with the screw thread on the excircle face of transmission piece (32), and transmission piece (32) and drum (229) threaded connection.

10. The method for using an auxiliary device for electrical measurement according to claim 9, wherein: the using method comprises the following steps:

the method comprises the following steps: starting a hydraulic cylinder I (212), moving the support leg (11) to a proper position, and then placing the support leg (11) on the ground;

step two: standing for a period of time to enable the solid ball (133) and the cylinder (229) to slide to be static under the action of gravity;

step three: rotating the rectangular sleeve (138) to bring the rubber pad (136) into close proximity with the upper end of the inner wall of the hemispherical shell (132), and then adding water into the cylinder (229);

step four: the hydraulic cylinder II (31) is started, the transmission block (32) drives the cylinder (229) to rotate, the cylinder (229) drives the fixed cone (228) to move downwards through threads and penetrate into the ground, and stability is improved;

step five: the electrical measuring equipment is fixed at the upper end of the placing rack (137).