CN113805096A - Electric leakage detection device for power equipment - Google Patents

Abstract

The invention belongs to the technical field of electric leakage detection of power equipment, and discloses an electric leakage detection device for power equipment. The transmitting assembly is used for transmitting the viscous conductor, the viscous conductor can be bonded with the equipment to be detected, and the transmitting assembly comprises a guide cylinder, a push plate and a slide rod; one end of the guide cylinder is provided with a discharge hole and can accommodate the viscous electric conductor; the push plate is connected in the guide cylinder in a sliding manner and can be abutted against and push the viscous electric conductor to be ejected from the discharge hole; one end of the sliding rod is fixedly connected with the push plate and can slide along the axial direction of the guide cylinder; the feeding assembly is used for providing the viscous electric conductor; the detection assembly comprises a conductive rope, one end of the conductive rope is fixedly connected with the guide cylinder, and the free end of the conductive rope can be connected with the viscous electric conductor and is connected with the equipment to be detected along with the viscous electric conductor. The electric leakage detection device for the power equipment can quickly and visually detect whether the high-altitude power equipment leaks electricity or not, does not need maintainers to climb the altitude, reduces the operation danger and improves the detection efficiency.

Description

Electric leakage detection device for power equipment

Technical Field

The invention relates to the technical field of electric leakage detection of power equipment, in particular to an electric leakage detection device for the power equipment.

Background

Before the electric power equipment is overhauled, firstly, electric leakage detection is usually carried out, if the electric leakage condition of the electric power equipment is not detected, the electric power equipment is dangerous when being maintained subsequently, and an electric shock is easily caused to an overhaul personnel. When the electric leakage of the high-altitude power equipment is detected, because the position of the power equipment is high, a detection person needs to climb to a high place by using a climbing ladder for overhauling, so that the detection is dangerous, time is wasted, and the detection efficiency is low; moreover, the live detection of the power equipment is not intuitive enough, and the detection is carried out by a maintainer by using tools such as a test pencil and the like, which is troublesome; therefore, it is urgently needed to design a leakage detection device for power equipment to detect the leakage problem of high-altitude power equipment.

Disclosure of Invention

The invention aims to provide a leakage detection device for power equipment, which can be used for rapidly and visually detecting whether high-altitude power equipment leaks electricity or not, does not need maintainers to climb a high place, reduces operation danger and improves detection efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

an electrical leakage detection device for an electrical power apparatus, comprising:

a firing assembly configured to fire an adhesive electrical conductor capable of bonding with a device under test, the firing assembly comprising:

a discharge hole is formed in one end of the guide cylinder, and the viscous electric conductor can be accommodated in the guide cylinder;

the push plate is connected in the guide cylinder in a sliding manner and can abut against and push the viscous conductor to be ejected from the discharge hole;

one end of the sliding rod is fixedly connected with the push plate, the other end of the sliding rod extends out of the guide cylinder, and the sliding rod can slide along the axial direction of the guide cylinder;

a feeding assembly fixedly connected with the guide cylinder, wherein the feeding assembly is configured to provide the viscous electric conductor; and

the detection assembly comprises a conductive rope, one end of the conductive rope is fixedly connected to the guide cylinder, and the free end of the conductive rope can be connected with the viscous electric conductor and then connected with the equipment to be detected along with the viscous electric conductor.

As a preferable structure of the invention, the guide cylinder further comprises an end cover, the end cover is detachably connected to the other end of the guide cylinder far away from the discharge hole, and the slide rod penetrates through the end cover in a sliding manner.

As a preferable structure of the present invention, the launching assembly further includes a coil spring, the slide rod is provided with a guide groove, the guide groove extends along an axial direction of the slide rod, the coil spring is disposed in the guide groove, and one end of the coil spring is fixedly connected to an end surface of the guide groove, and the other end of the coil spring is fixedly connected to the end cover.

As a preferable structure of the present invention, the radiation module further includes:

the mounting frame is fixedly connected to the material guide cylinder;

the first motor is fixed on the mounting frame;

a drive gear connected to an output shaft of the first motor; and

the rack is fixedly connected with the sliding rod and extends along the axial direction of the sliding rod, and the rack is in meshing transmission with the driving gear.

As a preferred structure of the present invention, the supply assembly includes:

an ejector cartridge configured to process and extrude the viscous electrical conductor;

the storage box is communicated with the material outlet box and is configured to store the viscous conductive raw materials.

As a preferred structure of the present invention, the supply assembly further includes:

the material pump is arranged between the material outlet box and the material storage box;

the two ends of the first conduit are respectively communicated with the material pump and the material discharging box;

the two ends of the second conduit are respectively connected with the material pump and the material storage box; and

a tapping pipe disposed on the tapping box, the tapping pipe configured to output the viscous electrical conductor.

As a preferable structure of the present invention, the detection assembly further includes:

the frame is fixedly connected to the material guide cylinder;

the second motor is fixed on the rack;

the turntable is connected to the output shaft of the second motor, one end of the conductive rope is fixed on the turntable and is wound on the turntable, and when the turntable rotates, the conductive rope can be folded or scattered; and

a connection ball fixedly connected to a free end of the conductive cord, the connection ball configured to connect to the adhesive electrical conductor.

As a preferable structure of the present invention, the detection assembly further includes:

the conductive rope penetrates through the contact ring and contacts with the contact ring;

the two ends of the universal rod are respectively and fixedly connected with the guide ring and the material guide cylinder; and

the warning lamp is arranged on the guide ring and electrically connected with the contact ring.

As a preferable structure of the invention, the material guiding cylinder is further provided with a feeding hole, the feeding hole is located on a side wall of the material guiding cylinder, and the feeding hole is configured to introduce the viscous electric conductor.

As a preferable structure of the invention, the material guide device further comprises an operating handle, wherein the operating handle is fixedly connected to the material guide cylinder and comprises a handheld part.

The invention has the beneficial effects that:

according to the leakage detection device for the power equipment, the sliding rod can slide along the axial direction of the guide cylinder and drives the push plate to slide, when the sliding speed of the push plate is high, the viscous electric conductor can be pushed to slide and has high initial acceleration, so that the viscous electric conductor is emitted through the discharge port and is attached to the equipment to be detected, the viscous electric conductor is connected with the electric conduction rope, and the electric communication between the equipment to be detected and the electric conduction rope can be realized; whether the detection conducting rope is electrified can judge whether to wait to detect equipment electric leakage, does not need the maintainer to scramble to the eminence, effectively treats the electric leakage condition of check out test set and carries out visual detection, reduces the operation danger, improves detection efficiency, and simple structure conveniently carries.

Drawings

Fig. 1 is a schematic structural diagram of a leakage detecting device for an electrical power apparatus according to a first embodiment of the present invention;

fig. 2 is a top view of a guide ring according to an embodiment of the present invention.

In the figure:

1. a transmitting assembly; 11. a material guide cylinder; 111. a discharge port; 112. an end cap; 113. a feed inlet; 12. pushing the plate; 13. a slide bar; 131. a guide groove; 14. a coil spring; 15. a mounting frame; 16. a first motor; 17. a drive gear; 18. a rack;

2. a supply assembly; 21. discharging the material box; 22. a storage box; 23. a material pump; 24. a first conduit; 25. a second conduit; 26. a discharge pipe;

3. a detection component; 31. a conductive cord; 32. a frame; 33. a second motor; 34. a turntable; 35. a connecting ball; 36. a guide ring; 37. a contact ring; 38. a gimbal lever; 39. a warning light;

4. a handle is operated.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

Example one

As shown in fig. 1 and fig. 2, an embodiment of the present invention provides an electrical leakage detecting apparatus for an electrical power device, including an emitting assembly 1, a feeding assembly 2, and a detecting assembly 3. The emitting assembly 1 is configured to emit an adhesive electrical conductor which is capable of attracting the device under test. The viscous electric conductor is a viscous and conductive object, preferably a sphere, which is easy to emit to high altitude.

In this embodiment, the viscous electric conductor is a mud ball, the raw material source is wide, the processing and manufacturing are easy, the electric conductivity is good due to the moisture, and the viscous electric conductor can be well adhered to the surface of the device to be detected.

In other embodiments, the adhesive conductor may also be a rubber clay ball or other adhesive conductor, and the embodiment is not limited herein.

The launching assembly 1 comprises a material guide cylinder 11, a push plate 12 and a slide rod 13; one end of the material guiding cylinder 11 is provided with a discharge hole 111, the material guiding cylinder 11 can accommodate a viscous electric conductor, and preferably, the material guiding cylinder 11 is a cylinder. The push plate 12 is connected in the guide cylinder 11 in a sliding manner, and the push plate 12 can be abutted and push the viscous electric conductor to be ejected from the discharge hole 111; when the discharge port 111 of the guide cylinder 11 is aligned with the device to be inspected in the air, the ejected viscous conductive body can be adsorbed on the surface of the device to be inspected. Preferably, the push plate 12 is an L-shaped plate, and a side plate having an arc shape abuts against the inner wall of the guide cylinder 11 and can slide along the inner wall of the guide cylinder 11, so that the sliding stability of the push plate 12 is increased. One end of the slide rod 13 is fixedly connected with the push plate 12, and the other end of the slide rod extends out of the material guide cylinder 11, the slide rod 13 can slide along the axial direction of the material guide cylinder 11 and drive the push plate 12 to slide, when the sliding speed of the push plate 12 is high, the slide rod can push the viscous electric conductor to slide and enable the viscous electric conductor to have high initial acceleration, and therefore the viscous electric conductor is emitted through the discharge hole 111.

The feeding assembly 2 is fixedly connected to the guiding cylinder 11, and the feeding assembly 2 is configured to provide a viscous electric conductor, in this embodiment, the feeding assembly 2 can process the raw material into a spherical viscous electric conductor for convenient use. The detection assembly 3 comprises a conductive rope 31, one end of the conductive rope 31 is fixedly connected to the guide cylinder 11, the free end of the conductive rope 31 can be connected with a viscous electric conductor, the viscous electric conductor is emitted out of the guide cylinder 11, the free end of the conductive rope 31 can be driven to move to the high altitude, and the conductive rope 31 and the guide cylinder are connected with the device to be detected. Preferably, the conductive rope 31 is made of copper wire, has good conductivity and strong fatigue resistance, can be repeatedly bent, and is not easy to break.

According to the electric leakage detection device for the power equipment, the electric communication between the equipment to be detected and the conductive rope 31 is realized by adhering the viscous electric conductor to the equipment to be detected, whether the conductive rope 31 is electrified or not is detected, whether the electric leakage of the equipment to be detected exists or not can be judged, a maintenance worker does not need to climb to a high place, the electric leakage condition of the equipment to be detected is effectively and visually detected, the operation danger is reduced, the detection efficiency is improved, and the electric leakage detection device is simple in structure and convenient to carry.

Further, the guide cylinder 11 further comprises an end cover 112, the end cover 112 is detachably connected to one end of the guide cylinder 11 far away from the discharge hole 111, and the sliding rod 13 slides through the end cover 112. The end cover 112 can guide the sliding direction of the sliding rod 13, and prevent the sliding rod 13 from inclining to cause the movement jamming of the push plate 12. Preferably, the end cap 112 is provided with a hole through which the sliding rod 13 passes.

Further, the launching assembly 1 further comprises a coil spring 14, the sliding rod 13 is provided with a guide groove 131, the guide groove 131 extends along the axial direction of the sliding rod 13, the coil spring 14 is arranged in the guide groove 131, and one end of the coil spring is fixedly connected with the end surface of the guide groove 131 while the other end of the coil spring is fixedly connected with the end cover 112. Preferably, a guide rod is arranged in the guide groove 131, and the spiral spring 14 is sleeved on the guide rod to increase stability. When the sliding rod 13 is pulled in a direction away from the discharge port 111 of the guide cylinder 11, the coil spring 14 is simultaneously stretched and elastically deformed, and when the sliding rod 13 is released, the coil spring 14 is reset to drive the sliding rod 13 to rapidly move in a direction close to the discharge port 111, so that the viscous conductor is rapidly ejected through the push plate 12. The coil spring 14 can accumulate large elastic deformation energy and quickly convert the elastic deformation energy into kinetic energy of the slide rod 13, and the firing action is simple, so that the initial acceleration of the slide rod 13 is large.

Further, the launching assembly 1 further comprises a mounting frame 15, a first motor 16, a driving gear 17 and a rack 18. The mounting frame 15 is fixedly connected to the material guide cylinder 11; the first motor 16 is fixed on the mounting frame 15; the drive gear 17 is connected to an output shaft of the first motor 16; the rack 18 is fixedly connected with the sliding rod 13 and extends along the axial direction of the sliding rod 13, and the rack 18 is in meshing transmission with the driving gear 17. Preferably, the driving gear 17 is a sector gear, and an output shaft of the first motor 16 drives the driving gear 17 to rotate, and gear teeth of the driving gear 17 are engaged with the rack 18 and drive the sliding rod 13 to move. When the sector gear teeth are meshed with the rack 18, the sliding rod 13 continuously slides and stretches the spiral spring 14; when the sector gear teeth are no longer engaged with the rack 18, the sliding rod 13 is disengaged from the driving gear 17 and moves in reverse under the action of the elastic restoring force of the coil spring 14, so as to launch the viscous electric conductor. Preferably, the elastic deformation of the spiral spring 14 can be controlled by adjusting the sector angle of the driving gear 17, so that the initial acceleration of the viscous electric conductor can be controlled, the viscous electric conductor is suitable for devices to be detected with different heights, and the adjustment is convenient.

Further, the supply assembly 2 comprises a discharge box 21 and a storage box 22. The discharge box 21 is configured to process and extrude the viscous electric conductor; the storage box 22 is communicated with the material outlet box 21, and the storage box 22 is configured to store the viscous conductive raw material. In this embodiment, the storage case 22 stores therein a clay raw material, and can convey the feeding case 21, and the feeding case 21 can process the clay raw material into a spherical clay conductor. The processing principle and structure of the discharging box 21 are the prior art, and the description of the embodiment is omitted here.

Furthermore, the feed assembly 2 further comprises a material pump 23, a first conduit 24, a second conduit 25 and a discharge pipe 26. The material pump 23 is arranged between the material outlet box 21 and the material storage box 22; the material pump 23 can convey the viscous conductive raw material in the storage box 22 to the material discharging box 21 and provide processing power for the material discharging box 21, so that the material discharging box 21 can process the raw material into a spherical viscous electric conductor, the raw material is not easy to loosen, the free end of the conductive rope 31 can be firmly wrapped, and the launching process is more reliable. Two ends of the first conduit 24 are respectively communicated with the material pump 23 and the discharging box 21; two ends of the second conduit 25 are respectively connected with the material pump 23 and the material storage box 22; the transport of the viscous conductive material is achieved through a first conduit 24 and a second conduit 25. The discharge pipe 26 is provided on the discharge box 21, the discharge pipe 26 is configured to output a viscous electric conductor, and the discharge box 21 can extrude the viscous electric conductor through the discharge pipe 26. Preferably, the feeding assembly 2 is further provided with two fixing frames, which are respectively used for fixing the material pump 23 and the discharging box 21 on the material guide cylinder 11, so that the use is convenient.

Further, the detecting assembly 3 further includes a frame 32, a second motor 33, a turntable 34 and a connecting ball 35. The frame 32 is fixedly connected to the material guide cylinder 11; the second motor 33 is fixed on the frame 32; the rotating disc 34 is connected to an output shaft of the second motor 33, one end of the conductive rope 31 is fixed on the rotating disc 34 and is wound on the rotating disc 34, and when the rotating disc 34 rotates, the conductive rope 31 can be collected or scattered; the conductive cord 31 can be housed by the dial 34. When the viscous conductor drives the free end of the conductive rope 31 to emit to the equipment to be detected, the turntable 34 rotates simultaneously, so that the influence on the movement of the conductive rope 31 is avoided; when the conductive rope 31 needs to be retracted, the second motor 33 drives the turntable 34 to rotate, so as to rapidly retract the conductive rope 31. A connecting ball 35 is fixedly attached to the other end of the conductive cord 31 remote from the dial 34, the connecting ball 35 being configured to connect to an adhesive electrical conductor. Preferably, the material of the connecting ball 35 is copper, so that the connecting ball has good conductivity, and the viscous conductor can be wrapped on the connecting ball 35, so that the contact area between the conductive rope 31 and the viscous conductor is increased, and the detection of the device to be detected is more accurate.

Further, the detecting assembly 3 further includes a guide ring 36, a universal rod 38 and a warning light 39. A contact ring 37 is arranged in the guide ring 36, and the conductive rope 31 passes through the contact ring 37 and contacts with the contact ring 37; the warning lamp 39 is disposed on the guide ring 36, and the warning lamp 39 is electrically connected to the contact ring 37. If wait to detect equipment electric leakage, the conducting rope 31 will give the power supply of warning light 39 through contact ring 37, makes warning light 39 luminous, and whether the inspection equipment is leaked electricity is examined in the visual judgement of the maintainer of being convenient for, and detection efficiency is high, and the testing result is more directly perceived, reliable. Two ends of the universal rod 38 are respectively and fixedly connected with the guide ring 36 and the material guide cylinder 11; preferably, the universal rod 38 adopts an aluminum alloy rod core, can rotate universally, is convenient for correspondingly adjusting the position of the guide ring 36 according to the position of the device to be detected, and avoids influencing the action of the conductive rope 31.

Further, the material guiding cylinder 11 is further provided with a feeding hole 113, the feeding hole 113 is located on the side wall of the material guiding cylinder 11, and the feeding hole 113 is configured to introduce the viscous electric conductor. The maintainer puts the viscous conductor output by the discharge pipe 26 into the guide cylinder 11 from the feed inlet 113, puts the conductive rope 31 into the guide cylinder 11 from the discharge outlet 111, and pushes the connecting ball 35 against the viscous conductor to be wrapped by the viscous conductor, so as to prepare for the launching action.

Further, the leakage detection device for the power equipment further comprises an operating handle 4, the operating handle 4 is fixedly connected to the material guide cylinder 11, and the operating handle 4 comprises a handheld portion. Preferably, the operating handle 4 is L-shaped, and the holding part is positioned at the tail end of the L-shaped handle, so that the maintenance personnel can conveniently hold the operating handle.

Example two

In the embodiment of the present invention, the electrical leakage detecting apparatus for an electrical power device has the same transmitting assembly 1, feeding assembly 2 and detecting assembly 3 as in the first embodiment. The launching assembly 1 comprises a guide cylinder 11, a push plate 12 and a slide rod 13, the material supply assembly 2 can process raw materials into a viscous electric conductor, and a conductive rope 31 of the detection assembly 3 can be connected with equipment to be detected through the viscous electric conductor and can indicate whether the equipment to be detected leaks electricity. The difference of this embodiment and embodiment one lies in, electric leakage detection device for power equipment still is provided with aims the subassembly, aims the subassembly including being fixed in the base on guide cylinder 11 and installing the gun sight on the base, and the gun sight is used for observing and waits to examine equipment, and convenient to overhaul personnel aligns guide cylinder 11 and waits to examine the position of examining the equipment on easily bonding viscidity electric conductor, accurate transmission, and the bonding of viscidity electric conductor is more firm, and the testing result is more accurate.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations and substitutions will occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. An electric leakage detection device for electric power equipment, comprising:

-an emitting assembly (1), the emitting assembly (1) being configured to emit an adhesive electrical conductor capable of adhering to a device to be inspected, the emitting assembly (1) comprising:

a material guide cylinder (11), wherein a material outlet (111) is arranged at one end of the material guide cylinder (11), and the viscous electric conductor can be accommodated in the material guide cylinder (11);

the push plate (12), the said push plate (12) is connected to the said guide cylinder (11) slidably, the said push plate (12) can be abutted against and pushed the said viscous electric conductor and launched from the said discharge port (111);

one end of the sliding rod (13) is fixedly connected with the push plate (12), the other end of the sliding rod (13) extends out of the material guide cylinder (11), and the sliding rod (13) can slide along the axial direction of the material guide cylinder (11);

a feeding assembly (2), wherein the feeding assembly (2) is fixedly connected with the guide cylinder (11), and the feeding assembly (2) is configured to provide the viscous electric conductor; and

the detection assembly (3), the detection assembly (3) includes electric cord (31), the one end fixed connection of electric cord (31) in guide cylinder (11), the free end of electric cord (31) can be connected the viscidity electric conductor, and along with the viscidity electric conductor is connected equipment of awaiting measuring.

2. The electrical leakage detection device for the electric power equipment as claimed in claim 1, wherein the guide cylinder (11) further comprises an end cap (112), the end cap (112) is detachably connected to an end of the guide cylinder (11) far away from the discharge hole (111), and the sliding rod (13) slides through the end cap (112).

3. A leakage detecting device for an electric power apparatus according to claim 2, wherein the transmission assembly (1) further comprises a coil spring (14), the slide rod (13) is provided with a guide groove (131), the guide groove (131) extends along an axial direction of the slide rod (13), the coil spring (14) is disposed in the guide groove (131), and one end of the coil spring is fixedly connected to an end surface of the guide groove (131) while the other end of the coil spring is fixedly connected to the end cover (112).

4. An electrical leakage detection device for an electrical power apparatus according to claim 1, wherein the transmission assembly (1) further comprises:

the mounting rack (15), the mounting rack (15) is fixedly connected to the guide cylinder (11);

a first motor (16), the first motor (16) being fixed to the mounting frame (15);

a drive gear (17), the drive gear (17) being connected to an output shaft of the first motor (16); and

the rack (18) is fixedly connected with the sliding rod (13) and extends along the axial direction of the sliding rod (13), and the rack (18) is in meshing transmission with the driving gear (17).

5. A leakage detecting device for electric power equipment according to claim 1, wherein the feeding assembly (2) comprises:

an ejector cartridge (21), the ejector cartridge (21) being configured to process and extrude the viscous electrical conductor;

a storage case (22), wherein the storage case (22) is communicated with the material outlet case (21), and the storage case (22) is configured to store viscous conductive raw materials.

6. An electrical leakage detection device for an electrical power plant according to claim 5, wherein said feed assembly (2) further comprises:

the material pump (23), the material pump (23) is arranged between the material outlet box (21) and the material storage box (22);

the two ends of the first conduit (24) are respectively communicated with the material pump (23) and the material outlet box (21);

the two ends of the second guide pipe (25) are respectively connected with the material pump (23) and the material storage box (22); and

a discharge pipe (26), wherein the discharge pipe (26) is disposed on the discharge box (21), and the discharge pipe (26) is configured to output the viscous electric conductor.

7. An electrical leakage detection device for an electrical power apparatus according to any one of claims 1-6, wherein the detection assembly (3) further comprises:

the frame (32), the frame (32) is fixedly connected to the guide cylinder (11);

the second motor (33), the said second motor (33) is fixed to said framework (32);

the rotary table (34), the rotary table (34) is connected to the output shaft of the second motor (33), one end of the conductive rope (31) is fixed on the rotary table (34) and is coiled on the rotary table (34), and when the rotary table (34) rotates, the conductive rope (31) can be collected or scattered; and

a connection ball (35), the connection ball (35) being fixedly connected to a free end of the conductive cord (31), the connection ball (35) being configured to connect the adhesive electrical conductor.

8. An electrical leakage detection device for an electrical power apparatus according to any one of claims 1-6, wherein the detection assembly (3) further comprises:

a guide ring (36), wherein a contact ring (37) is arranged in the guide ring (36), and the conductive rope (31) passes through the contact ring (37) and contacts the contact ring (37);

the two ends of the universal rod (38) are respectively and fixedly connected with the guide ring (36) and the guide cylinder (11); and

warning light (39), warning light (39) set up in on guide ring (36), warning light (39) electricity is connected contact ring (37).

9. The electrical leakage detection device for electrical equipment according to any one of claims 1 to 6, wherein the guide cylinder (11) is further provided with a feed opening (113), the feed opening (113) is located on a side wall of the guide cylinder (11), and the feed opening (113) is configured to introduce the viscous electrical conductor.

10. The electrical leakage detecting device for the electrical equipment according to any one of claims 1 to 6, further comprising an operating handle (4), wherein the operating handle (4) is fixedly connected to the material guiding cylinder (11), and the operating handle (4) comprises a hand-held portion.

Images