JPH0745147A - Method and apparatus for cleaning insulator - Google Patents

Abstract

PURPOSE:To facilitate the performance of the insulator-cleaning operation and prevent a leakage current whose value is over a permissible marginal value from passing through a human body during the insulator-cleaning operation for a long period of time, or prevent the occurrence of outage in the insulator. CONSTITUTION:During the discharged-water insulator cleaning, the leakage current that flows into the injector via the discharged water is detected by a current detector 65. When the detected value of the leakage current by the current detector 65 exceeds a prescribed value, the water-discharging operation is stopped by a stop device 69. Further, during the discharged-water insulator cleaning, the resistance of the water to be used is detected by a resistance detector 70. When the detected value of the resistance by the resistance detector 70 falls below a prescribed value, the water-discharging operation is stopped by a stop device 72.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulator cleaning method and a cleaning device using a vehicle for cleaning an existing insulator in a live line condition in substation equipment or the like.

[0002]

2. Description of the Related Art Conventionally, when cleaning an existing insulator such as a substation equipment in a live state by an insulator cleaning device using a vehicle, a portable leakage ammeter is used to flow water through an injector. Before measuring the leakage current, the water in the tank was sampled and the resistance of the water was measured using a portable water quality meter before watering, and then the insulator was washed.

In addition, when cleaning insulators at night with an insulator cleaning device using a car, power supply equipment and illumination lamps are separately prepared.

[0004]

However, in this conventional apparatus, it is very difficult for the worker to wash the insulator at the same time while the worker measures the leakage current with the portable leakage ammeter. In addition, when there is an abnormality, it is necessary to instruct stop of the water discharge pump via a contact person, which poses a problem that a leakage current exceeding a permissible limit value may flow to a human body for a long time.

Further, in the above-mentioned conventional apparatus, the worker performs the cleaning work of the insulator after the water in the tank is sampled by the portable water quality meter and the resistance of the water is measured before the sprinkling. However, there was also a problem that measurement could not be performed when the water resistance changed, which could lead to a flashover accident.

Further, in the above-mentioned conventional apparatus, when the insulator is washed at night, it is necessary to separately prepare the power supply equipment and the illumination lamp, so that the preparation work is very troublesome and the maneuverability and the like are low. There was a problem of being bad.

The present invention has been made by paying attention to the problems existing in such conventional techniques.
The purpose of is to be able to automatically detect the leakage current flowing to the injection device through the water due to the water discharge while washing the insulator with water, and to discharge the water when the detected value of the leakage current exceeds a predetermined value. Insulator using a vehicle that can immediately stop the operation, facilitate cleaning work, and reliably prevent the risk of leakage current exceeding the allowable limit value flowing to the human body for a long time. It is to provide a cleaning method and a cleaning device.

A second object of the present invention is that the resistance of the water used can be automatically detected at all times in real time while the insulator is being washed, and the detected value of the resistance exceeds a predetermined value. In this case, it is possible to immediately stop the water discharge operation, facilitate the cleaning work, and surely prevent the danger of flashover, and a cleaning method and a cleaning device using a vehicle. To provide.

Further, a third object of the present invention is that even when the insulator is washed at night, it is not necessary to separately prepare the power supply equipment and the illumination lamp, and the washing work can be started promptly. An object of the present invention is to provide an insulator cleaning device using a vehicle that has good mobility and safety.

[0010]

In order to achieve the above-mentioned first object, in the invention described in claim 1, water is sprayed from an injection device to an existing insulator such as a substation equipment in a live state, and the insulator is formed. In an insulator cleaning method using a car that performs cleaning of, when a leakage current flowing through an injector through water due to water discharge is detected during water discharge cleaning of the insulator, and the detected value of the leakage current exceeds a predetermined value. The feature is that the water discharge operation is stopped.

In order to achieve the first and second objects, in the invention according to claim 2, in the insulator cleaning method using the vehicle according to claim 1, during the washing of the insulator with water. The resistance of water used is detected, and when the detected value of the resistance falls below a predetermined value, the water discharge operation is stopped.

Further, in order to achieve the first object, according to the invention described in claim 3, a vehicle for spraying water from an injection device to an existing insulator such as a substation equipment in a live state to wash the insulator. In the insulator cleaning device using the, while the insulator is washed with water, a current detection device for detecting a leakage current flowing through the water jetting device to the injection device is provided, and the detected value of the leakage current by the current detection device is a predetermined value It is characterized in that a stop device for stopping the water discharge operation is provided when the water temperature exceeds the limit.

Further, in order to achieve the first and second objects, in the invention according to claim 4, in the insulator cleaning device using the vehicle according to claim 3, during the washing of the insulator with water. A resistance detecting device for detecting the resistance of water to be used, and a stop device for stopping the water discharge operation when the resistance detection value of the resistance detecting device falls below a predetermined value. .

In order to achieve the first and third objects, in the invention according to claim 5, the insulator cleaning device using the vehicle according to claim 3 comprises a generator and an illumination lamp. It is characterized in that a night lighting device is provided.

[0015]

In the case of washing the existing insulator such as the substation equipment in a live state by the insulator cleaning device using the vehicle constructed as described above, water is sprayed from the injector to the insulator. While the insulator is being washed with water, the current detector detects the leakage current flowing through the water spraying device to the injector, and when the detected leakage current exceeds a specified value, the stopping device stops the water discharge operation. To be done.

Therefore, while the insulator is being washed with water, the leakage current can be automatically detected, and when the detected value of the leakage current exceeds a predetermined value, the water discharging operation can be immediately stopped. Therefore, the cleaning work can be facilitated, and it is possible to reliably prevent the risk of leakage current exceeding the allowable limit value flowing to the human body for a long time.
It has a high level of safety function.

During the water washing of the insulator, the resistance of the water used is detected by the resistance detecting device, and when the detected value of the resistance falls below a predetermined value, the water discharging operation is stopped by the stopping device. Therefore, the water resistance can be automatically detected in real time while the insulator is being washed with water, and the water discharge operation can be immediately stopped when the detected value of the resistance falls below a predetermined value. Therefore, the cleaning work can be facilitated and the danger of flashover can be surely prevented, and a high safety function is provided.

Furthermore, when cleaning insulators at night, the cleaning range, workers, etc. can be cleaned by using the night illumination device consisting of a generator and an illumination lamp provided in the insulator cleaning device using a car. It can be illuminated brightly. Therefore, it is not necessary to separately prepare a moving power supply facility and an illumination lamp, the cleaning work can be started quickly, and the maneuverability and safety can be further improved.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an insulator cleaning apparatus using a vehicle embodying the present invention will be described in detail below with reference to the drawings.

As shown in FIGS. 3 to 6, the insulator cleaning apparatus of this embodiment is composed of a cleaning vehicle, and a vehicle body 1 is provided with a driver's seat 2 at the front thereof. The mounting table 3 is provided on the rear part of the vehicle body 1, and the storage box 4 and the water storage tank 5 are mounted and fixed on the upper surface thereof. The water discharge pump 6 is arranged in the storage box 4, and a vacuum pump 7 for priming the water discharge pump 6 is attached in the vicinity thereof.

Further, the water discharge pump 6 is driven by switching between an operating state for substation equipment and an operating state for power distribution equipment by changing the rotation speed of an automobile engine (not shown). The discharge pressure is 9.0 kg / cm ² and the water discharge amount is 400 liters / minute in the operation state for the substation equipment, and the discharge pressure is 50 kg / cm ² and the water discharge amount is in the operation state for the power distribution equipment. 50 liters / minute.

The water discharge ports 8 are provided on both sides of the storage box 4, and a water suction port 9 is provided near the lower part thereof.
The hose storage unit 10 is provided on the rear upper surface of the mounting table 3, a water discharge hose 11 for substation equipment is stored therein, and a handheld injection device 12 is detachably attached to the rear surface. The portable injection device 13 is detachably attached to the upper surface of the storage box 4, and the hose reel 1 for winding up the discharge hose 15 for power distribution equipment is provided near the side of the storage device 4.
4 are provided. The water absorption hose 16 is detachably attached to the rear surface of the water storage tank 5.

Then, as shown in FIG.
Keel Tower T₁And power equipment mount T ₂The existing insulator I above
When cleaning, as shown in FIG.
The water stored inside is used as a water source. In addition,
As shown in FIG. 8 and FIG.
Connect the spout hose 11 to the spout 8 and
Handheld injection device 12 or portable injection at the tip of the spout 11
The device 13 is selectively connected. And this injection device 1
Nozzle 19 is attached to outlets 2 and 13 via adapter 18.
It is attached, and water is discharged toward the insulator I in this state.

On the other hand, when cleaning the existing insulator I on the electric pole T ₃ in the power distribution equipment, as shown in FIG. 12, the water stored in the water storage tank 5 is used as a water source.
Then, from the hose reel 14 to the water discharge hose 1 for power distribution equipment.
An injection device or the like is connected to the tip of 5, and water is discharged toward the insulator I in this state.

As shown in FIGS. 9 and 10, the water discharge hose 11 for substation equipment is composed of an inner lining body 20 and an outer jacket body 21 provided on the outer side thereof. Insert metal fitting 2
2 is fitted inside the tip of the hose 11, and a fastening ring 24 is attached to the outer circumference of the tip of the hose 11 via a cosmetic lace 23.
Fixed to 1.

Two ground wires 2 for grounding leakage current
5 extends along the axial direction of the hose 11,
It is interposed between the inner lining body 20 and the outer cover body 21, and the tip thereof is connected to the fitting 22. Then, during the insulator cleaning of the substation equipment, the injection device 12,
A leakage current flowing through 13 is guided to the vehicle body 1 of the washing vehicle through the ground wire 25 and then grounded.

As shown in FIGS. 4 to 6, the battery storage portion 26 is provided on one side of the storage box 4, and the battery 27 is stored inside thereof. Controller storage 2
Reference numeral 8 is provided on the other side of the storage box 4, and various parts of the control device 29 as shown in FIGS. 1 and 2 are stored in the storage box 4. The water resistance detection electrode 30 is provided on one side of the storage box 4 and detects the resistance of water used in the electrode 30 during the washing of the insulator with water.

The generator storage section 31 is provided on one side of the storage box 4, and the generator 33 of the night illumination device 32 is stored inside the storage box 4. Illumination lamp 3 of night illumination device 32
4 is provided on the upper surface of the storage box 4 and is used for cleaning the insulators at night when the generator 3 of the night illumination device 32 is used.
3 and the illumination lamp 34 can be used to brightly illuminate the cleaning position and the like.

Next, the piping configuration of the insulator cleaning apparatus using the vehicle constructed as described above will be described. As shown in FIGS. 11 and 12, on the water absorption side of the water discharge pump 6, a pair of water intake ports 9 are connected via a water absorption valve 41, and a water storage tank 5 is connected via a tank water absorption cock 42. Has been done. The backflow prevention valve 43 is connected to the water discharge side of the water discharge pump 6, and the water storage tank 5 is connected to the water discharge side via a water supply pipe 44 and a tank water supply cock 45. A pair of water discharge ports 8 are connected to the water discharge side of the check valve 43 via a water discharge valve 46, and a hose reel 14 is connected to a reel valve 47. A drain valve 48 is provided at the bottom of the water storage tank 5.

A low pressure escape passage 49 and a high pressure escape passage 50 are connected to the water supply pipe 44 so as to bypass the tank water supply cock 45. In the low pressure relief passage 49,
An operation valve 51 for opening and closing the passage and a low pressure safety valve 52 which is opened when the water pressure in the water supply pipe 44 exceeds a predetermined low pressure are connected. In the high pressure relief passage 50, an operation valve 53 for opening and closing the passage and a water pipe 4
It is connected to a high pressure safety valve 54 which is opened when the water pressure in 4 exceeds a predetermined high pressure.

Next, the electric circuit configuration of the control device 29 will be described. As shown in FIGS. 1 and 2, the converter 61 is connected to the battery 27 via a power switch 62, a pair of DC lines 63 extends on the input side, and a pair of AC lines on the output side. 64 has been extended. Digital indicator 65 constituting a current detection device
Is connected between the AC lines 64, and the input side thereof is connected to the ground wire 25 in the discharge hose 11 for substation equipment or the ground wire in the discharge hose 15 for power distribution equipment via a changeover switch 66. The input side of the digital indicator 65 is grounded via a short circuit switch 67.

The first detection switch 65a is provided in the digital indicator 65, and when the leakage current flowing through the injectors 12 and 13 through the water discharged from the insulators exceeds 5 mA during the water discharge cleaning of the insulator I, The first detection switch 65a is closed. The second detection switch 65b is provided in the digital indicator 65, and when the leakage current exceeds 15 mA during the water washing of the insulator I, the second detection switch 65b is provided.
Is closed.

The first relay 68 is the first detection switch 6
When the leakage current reaches 5 mA and the first detection switch 65a is closed, the first relay 68 is excited and the relay contact 68a is closed. The second relay 69 constituting the stop device is connected between the AC lines 64 so as to be in series with the second detection switch 65b, and when the leakage current reaches 15 mA and the second detection switch 65b is closed, The 2 relay 69 is excited and the relay contact 69a is closed.

The conductivity meter 70 constituting the resistance detecting device is connected between the AC lines 64, and the water resistance detecting electrode 30 is connected to the input side thereof. The detection switch 70a is provided in the conductivity meter 70, and when the resistance of water to be used, that is, the resistivity falls below 5 kΩ-cm during the water washing of the insulator I, the detection switch 70a is closed.

The third relay 71 is the detection switch 70a.
Is connected between the AC lines 64 so as to be in series with the detection switch 7 when the water resistivity becomes smaller than 5 kΩ-cm.
When 0a is closed, the third relay 71 is excited and the relay contact 71a is closed. The fourth relay 72 constituting the stop device is connected between the AC lines 64 so as to be in series with the relay contact 71a, and when the relay contact 71a is closed by the excitation of the third relay 71, the fourth relay 72 is excited. Then, the relay contact 72a is closed.

The alarm buzzer 73 includes the relay contacts 68a,
The alarm buzzer 73 is sounded when the relay contacts 68a, 69a and 72a are connected together with the 69a and 72a between the DC lines 63. The pump stop circuit 74 is configured by connecting relay contacts 69a and 72a in parallel, and when any one of these relay contacts 69a and 72a is closed while the insulator I is being washed with water, the water discharge pump 6 is stopped. To be done.

The power lamp 75 is connected between the AC lines 64, and when the power switch 62 is closed, the power lamp 75 is turned on. The leakage indicator lamp 76 is connected between the AC lines 64 together with the relay contacts 68a and 69a,
When either of the relay contacts 68a, 69a is closed, the earth leakage display lamp 76 is turned on. The water quality indicator lamp 77 is connected between the AC line 64 together with the relay contact 72a, and when the relay contact 72a is closed, the water quality indicator lamp 77 is turned on.

The fifth relay 78 is connected between the alarm stop switch 79 and the AC line 64, and when the alarm stop switch 79 is closed, the fifth relay 78 is excited and the normally closed relay contact 78a is opened. . And
By opening the relay contact 78a, the first relay 6
8, the second relay 69 and the fourth relay 72 are released from the self-holding excited state.

Next, the car constructed as described above was used.
The operation of the insulator cleaning device will be described. Well, this implementation
In the insulator cleaning device using the example car, in the substation equipment
Steel tower T ₁And power equipment mount T₂Live line the existing insulator I above
When cleaning in the state, as shown in FIG.
The water stored in the link 5 is used as a water source. Also,
As shown in FIG. 7 and FIG.
Connect the hose 11 and at the tip of the hose 11.
Choice of handheld injector 12 or portable injector 13
Connect to each other.

After that, as shown in FIG. 11, the tank water cock 42, the water discharge valve 46 and the operation valve 51 of the low pressure relief passage 49 are opened. In this state, power switch 6
Close 2 and start the car engine (not shown),
When the water discharge pump 6 is driven in the operating state for substation equipment,
The water in the water storage tank 5 is sucked into the water absorption side of the water discharge pump. Then, the sucked water is discharged from the water discharge port 8 and is discharged to the insulator I through the water discharge hose 11 for substation equipment and the injection devices 12 and 13 for cleaning.

At the time of water discharge cleaning of this substation equipment, the discharge pressure on the water discharge side of the water discharge pump 6 is 9.0 kg /
The water discharge rate is set to 400 liters / minute in cm ² . When the discharge pressure from the water discharge pump 6 rises above 9.0 kg / cm ² , the low-pressure safety valve 52 is opened, and a part of the water discharged from the water discharge pump 6 is supplied to the water supply pipe 44 and the low-pressure pipe. Through the escape passage 49,
It is introduced into the water storage tank 5.

While the insulator I is being washed with water, as shown in FIG.
As shown in FIG. 2, the leakage current flowing through the water jetting devices 12 and 13 through the water is input to the digital indicator 65 of the control device 29 through the ground wire 25 in the water discharge hose 11 for substation equipment. And is grounded via the short circuit switch 67. When the leakage current exceeds 5 mA, the first detection switch 65 of the digital indicator 65
a is closed, the first relay 68 is excited, and its relay contact 68a is closed. As a result, the alarm buzzer 7
3 is sounded and the leakage indicator lamp 76 is turned on.

Further, when the leakage current exceeds 15 mA, the second detection switch 65b of the digital indicator 65 is used.
Is closed, the second relay 69 is excited, and its relay contact 69a is closed. As a result, the alarm buzzer 73
Is sounded and the leakage indicator lamp 76 is turned on,
Moreover, the water discharge pump 6 is stopped via the pump stop circuit 74.

Therefore, while the insulator I is being washed with water, the leakage current can be automatically detected, and when the detected value of the leakage current exceeds a predetermined value, the water discharging operation can be immediately stopped. it can. Therefore, the cleaning work can be facilitated, and the risk of leakage current exceeding the permissible limit value flowing to the human body for a long time can be reliably prevented, and a high safety function is provided.

During the washing of the insulator I with water, the resistance of the water used is detected by the water resistance detecting electrode 30 and input to the conductivity meter 70 of the control device 29. When the resistivity of water becomes smaller than 5 kΩ-cm, the detection switch 70a of the conductivity meter 70 is closed, the third relay 71 is excited, and its relay contact 71a is closed. As a result, the fourth relay 72 is excited, the relay contact 72a is closed, the alarm buzzer 73 is sounded, and the water quality indicator lamp 77 is turned on. At the same time, the water discharge pump 6 is stopped via the pump stop circuit 74.

For this reason, while the insulator I is being washed with water, the resistance of water can be automatically detected at all times in real time, and when the detected value of the resistance exceeds a predetermined value, the water discharging operation is immediately stopped. Can be made. Therefore, the cleaning operation can be facilitated, and the risk of flashover on the surface of the insulator I can be reliably prevented, and a high safety function is provided.

The stop operation of the water discharge pump 6 is whether the relay contact 69a is closed when the leakage current exceeds 15 mA, or the relay contact 72a is closed when the resistivity of water falls below 5 kΩ-cm. , Whichever comes first.

Next, an insulator cleaning apparatus using the car of this embodiment
Depending on the location, the utility pole T in the distribution facility ₃The existing insulator I above
When cleaning in a live state, as shown in Fig. 12,
The water stored in the water tank 5 is used as a water source. So
Then, from the hose reel 14 to the discharge hose 15 for power distribution equipment
Connect the injection device to the tip of the. After that, the tank water absorption
Of the cylinder 42, reel valve 47 and high pressure relief passage 50.
The dynamic valve 53 is opened.

In this state, when the power switch 62 is closed and the automobile engine (not shown) is started to start the water discharge pump 6 in the operating state for the distribution equipment, the water in the water storage tank 5 is discharged. Is sucked to the water absorption side. Then, the sucked water is discharged from the water discharge side of the water discharge pump 6, and is discharged to the insulator I via the water discharge hose 15 for power distribution equipment and the injection device to perform cleaning.

During the water discharge cleaning of this power distribution equipment, the discharge pressure on the water discharge side of the water discharge pump 6 is 50 kg / c.
The water discharge rate is set to 50 liters / minute in m ² . The discharge pressure from the water discharge pump 6 is 5
When the pressure exceeds 0 kg / cm ² , the high pressure safety valve 54 is opened and a part of the water discharged from the water discharge pump 6 is introduced into the water storage tank 5 through the water supply pipe 44 and the high pressure escape passage 50. .

Further, also during the insulator cleaning of the power distribution equipment, as in the aforementioned insulator cleaning of the substation equipment, the leakage current flowing through the injection device via the water discharged from the injection device is controlled.
When it is detected by the digital indicator 65 of 9 and the detected value exceeds a predetermined value, the water discharge operation is stopped. Furthermore, the resistance of the water used is the conductivity meter 70 of the controller 29.
Even if the detected value falls below a predetermined value, the water discharge operation is stopped. Therefore, the cleaning work can be facilitated, and the risk of leakage current exceeding the allowable limit value flowing to the human body for a long time during the cleaning work or occurrence of flashover of the insulator I is surely ensured. It has a high safety function that can be prevented.

On the other hand, when the insulator cleaning work of the substation equipment or the insulator cleaning work of the distribution equipment is performed at night, the generator 33 and the illumination lamp of the night illumination device 32 provided in the insulator cleaning device using a car. 34 can be used to brightly illuminate the wash location and the like. Therefore, it is not necessary to separately prepare the power supply equipment and the illumination lamp, the cleaning work can be started quickly, and the maneuverability is good.

Further, the insulator cleaning apparatus using the vehicle of this embodiment is provided with the insulator cleaning function of the substation equipment and the insulator cleaning function of the power distribution equipment, and the functions can be selectively used. Therefore, compared with an insulator cleaning device having both functions separately, the structure can be combined and made compact, and maneuverability can be enhanced.

The present invention is not limited to the configuration of the above-described embodiment, and for example, the configuration of each part may be arbitrarily modified and embodied within the scope not departing from the gist of the present invention as follows. It is possible. (A) A water discharge control valve is provided on the water discharge side of the water discharge pump 6, and when the leak current detection value exceeds a predetermined value or the water resistance detection value falls below a predetermined value, the water discharge control valve is closed. Configure to stop the water discharge operation. (B) The discharge pressure and the discharge amount of water for water discharge should be appropriately increased or decreased according to the position and type of the insulator I, the water discharge position, and the like. (C) The number of the ground wires 25 built in the water discharge hose 11 should be one or three or more, or the shape of the ground wires 25 should be flat. (D) Use water from a water tank such as a fire protection tank or river water as a water source. (E) To be used for insulator cleaning in electrical equipment of multi-sector industries.

[0055]

Since the present invention is configured as described above, it has the following excellent effects.

According to the invention of the insulator cleaning method described in claim 1 and the invention of the insulator cleaning device using the vehicle described in claim 3, the spraying device through the water by spraying water while the insulator is being washed with water. It is possible to automatically detect the leakage current flowing in the, and when the detected value of the leakage current exceeds a predetermined value,
The water discharge operation can be stopped immediately, cleaning work can be facilitated, and the danger that leakage current exceeding the allowable limit value will flow to the human body for a long time can be reliably prevented. Has a safety function.

Further, according to the invention of the insulator cleaning method described in claim 2 and the invention of the insulator cleaning device described in claim 4, the resistance of water to be used is automatically and constantly maintained while the insulator is being washed with water. In addition to being able to detect in real time, the water discharge operation can be stopped immediately when the detected value of the resistance falls below a predetermined value, facilitating cleaning work and flashing on the insulator. It has a high level of safety function that can reliably prevent the risk of

Further, according to the invention of the insulator cleaning device using the vehicle described in claim 5, even when the insulator is cleaned at night, it is not necessary to separately prepare the power supply equipment and the illumination lamp, and the cleaning work is performed. Can be started quickly, and
It has good mobility.

[Brief description of drawings]

FIG. 1 shows an embodiment of an insulator cleaning device using a vehicle embodying the present invention, and in particular is an electric circuit diagram showing a part of a control device thereof.

FIG. 2 is an electric circuit diagram showing another part of the control device.

FIG. 3 is a side view showing a state in which an existing insulator on a steel tower in a substation facility is being cleaned by a cleaning device using a car.

FIG. 4 is an enlarged side view showing a cleaning device using a car.

FIG. 5 is a plan view of a cleaning device that also uses a car.

FIG. 6 is a rear view of a cleaning device that also uses a vehicle.

FIG. 7 is an exploded side view showing a state in which a water discharge hose for a substation equipment and a handheld injection device are connected to a water outlet in cleaning an insulator of the substation equipment.

FIG. 8 is an exploded side view showing a state in which a discharge hose for a substation equipment and a portable injection device are connected to a water outlet in cleaning an insulator of the substation equipment.

FIG. 9 is a partial cross-sectional view showing an enlarged part of the water discharge hose for substation equipment.

10 is a cross-sectional view taken along the line AA of FIG.

[Fig. 11] Fig. 11 is a piping diagram showing a piping configuration in the case of cleaning the insulator of the substation equipment.

FIG. 12 is a piping diagram showing a piping configuration for cleaning the insulator of the power distribution facility.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Car body, 11 ... Water discharge hose for substation equipment, 12 ... Handheld injection device, 13 ... Portable injection device, 30 ... Water resistance detection electrode, 32 ... Night illumination device, 33 ... Generator, 34 ... Illumination lamp, 65 ... Digital indicator constituting current detection device, 69 ... Second relay constituting stop device, 70 ... Conductivity meter constituting resistance detection device, 72 ... Fourth relay constituting stop device, 74 ... Pump stop Circuit, I ... insulator.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Koji Yamada 4-33 Komachi Naka-ku, Hiroshima City, Hiroshima Prefecture Chugoku Electric Power Co., Inc. (72) Hideki Kachi 4-33 Komachi Naka-ku, Hiroshima City Hiroshima Prefecture Co., Ltd. (72) Inventor Tsutomu Yuasa 4-33 Komachi, Naka-ku, Hiroshima City, Hiroshima Prefecture, Chugoku Electric Power Co., Inc. (72) Kenji Mihara 4-33, Komachi, Naka-ku, Hiroshima City, Hiroshima Prefecture 72) Inventor Kazuno Hagino 344 Higashi Koizumi, Matsumae-cho, Iyo-gun, Ehime Prefecture (72) Inventor Hisao Takeuchi 22 No. 9 Naiki, Anjo-cho, Anjo City, Aichi Prefecture (72) Inventor Kikuo Takahashi 2-124 Kawama, Minato-ku, Nagoya City, Aichi Prefecture address

Claims (5)

[Claims] 1. A method for cleaning an insulator using a vehicle, in which water is sprayed from an injection device to an existing insulator such as a substation equipment in a live state, and the insulator is washed by using a vehicle for spraying water by spraying water. A method for cleaning an insulator, characterized in that a leakage current flowing through the injection device is detected via the injection device, and when the detected value of the leakage current exceeds a predetermined value, the water discharge operation is stopped. 2. The method for cleaning an insulator using a vehicle according to claim 1, wherein the resistance of water used is detected during the washing of the insulator with water, and the detected value of the resistance is below a predetermined value, A method for cleaning an insulator characterized by stopping the water discharge operation. 3. An insulator cleaning device using a vehicle for discharging water from an injection device to an existing insulator such as a substation equipment in a live state, and cleaning the insulator, wherein the water discharged by the water discharge is washed during the discharge cleaning of the insulator. A current detection device is provided for detecting a leakage current flowing through the injection device via the injection device, and a stop device is provided for stopping the water discharge operation when the detected value of the leakage current by the current detection device exceeds a predetermined value. Insulator cleaning device. 4. The insulator cleaning device using the vehicle according to claim 3, wherein a resistance detecting device for detecting the resistance of water to be used is provided while the insulator is washed with water, and the resistance detecting device detects the resistance. An insulator cleaning device comprising a stop device for stopping the water discharge operation when the value falls below a predetermined value. 5. The insulator cleaning device using the vehicle according to claim 3, further comprising a nighttime illumination device including a generator and an illumination lamp.