CN209792169U - Insulator electrified dry ice cleaning device - Google Patents
Insulator electrified dry ice cleaning device Download PDFInfo
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- CN209792169U CN209792169U CN201920532048.5U CN201920532048U CN209792169U CN 209792169 U CN209792169 U CN 209792169U CN 201920532048 U CN201920532048 U CN 201920532048U CN 209792169 U CN209792169 U CN 209792169U
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Abstract
The utility model relates to and wash the field, concretely relates to electrified dry ice belt cleaning device of insulator. The insulator electrified dry ice cleaning device comprises a machine body, a communicating pipe, a spray head, a nozzle, a dry ice storage tank, a high-pressure air pump and a drying device, wherein the dry ice storage tank, the high-pressure air pump and the drying device are arranged in the machine body; the sprayer is in a ring shape with a notch, and a plurality of nozzles are arranged on the inner surface of the inner circle of the sprayer. The device realizes cleaning of dirt on the surface of the insulator by carrying dry ice particles with high-pressure gas, has good cleaning effect, and does not damage the surface of the insulator; set up the annular shower nozzle of taking the breach and a plurality of nozzle, can wash a plurality of positions simultaneously, promote the cleaning efficiency.
Description
Technical Field
The utility model relates to a wash the field, concretely relates to electrified dry ice belt cleaning device of insulator.
Background
The insulator is a device which is arranged between conductors with different electric potentials or between the conductors and a grounding component and can bear the action of voltage and mechanical stress, is a special insulating control, has the main functions of realizing electrical insulation and mechanical fixation, and can play an important role in an overhead transmission line.
The insulator is widely applied in the field of power transmission and transformation, and as the use time of an insulator component is prolonged, a layer of intractable dirt can be formed on the surface of the insulator due to the influence of carbon dioxide, oxynitride and granular dust, and under normal conditions, the dirt on the surface of the insulator does not influence the use performance of the insulator; however, in rainy days and in high humidity, the dirt on the surface of the insulator absorbs moisture, and the dirt can form electrolyte and adhere to the surface of the insulator, so that the insulation effect of the insulator is reduced, pollution flashover is easily caused, and high potential safety hazard exists.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an electrified dry ice belt cleaning device of insulator under the circumstances that the facility does not have a power failure, can effectually wash the dirt on insulator surface.
In order to solve the technical problem, the utility model adopts the following technical scheme:
The insulator electrified dry ice cleaning device comprises a machine body, a communicating pipe, a spray head, a nozzle, a dry ice storage tank, a high-pressure air pump and a drying device, wherein the dry ice storage tank, the high-pressure air pump and the drying device are arranged in the machine body; the shower nozzle is for taking the breach ring shape, the surface of the excircle of shower nozzle is connected with communicating pipe, be equipped with a plurality of nozzle on the internal surface of the interior circle of shower nozzle, the geometric centre region of the directional shower nozzle of blowout end of nozzle.
Furthermore, other surfaces of the spray head are also provided with a plurality of nozzles, and the spraying ends of the nozzles are far away from the surface on which the nozzles are arranged.
Further, the nozzles are evenly distributed on the surface of the spray head.
Further, a valve is arranged at the communication position of the dry ice storage tank and the communication pipe.
Further, the bottom of the high-pressure air pump is fixed in the machine body through a damping device.
Furthermore, a sleeve is sleeved outside the communicating pipe, the sleeve comprises a first sleeve, a second sleeve and a third sleeve, the first sleeve is made of hard plastic, the second sleeve is made of soft plastic, and the third sleeve is an insulating shaping hose; the two ends of the first sleeve are respectively connected with one ends of the second sleeve and the third sleeve, the other end of the third sleeve is connected with the outer surface of the outer circle of the spray head, and the other end of the second sleeve is connected with the machine body.
Furthermore, a first switch for controlling the operation of the high-pressure air pump and a second switch for controlling the operation of the valve are arranged on the first sleeve, and the first switch is electrically connected with the high-pressure air pump; the second switch is electrically connected with the valve.
Further, all be equipped with a plurality of fixed part on the bottom of fuselage and the lateral wall.
Compared with the prior art, the utility model discloses can reach one of following beneficial effect at least:
1. This device carries the clearance that the dry ice granule realized insulator surface dirt through high-pressure gas, has fine cleaning performance, can not cause the injury to the insulator surface simultaneously.
2. This device sets up the annular shower nozzle of taking the breach and a plurality of nozzle to the special construction of cleaning object insulator, can wash a plurality of positions simultaneously, promotes the cleaning efficiency.
3. Through first sleeve pipe, second sleeve pipe and the setting of third sheathed tube, can protect communicating pipe, the operating personnel of being convenient for controls this device, can also promote the cleaning performance.
4. Through set up first switch and second switch on first sleeve pipe, the operating personnel of being convenient for controls at any time when operating this device.
5. The device is provided with the fixing part, so that the device can be fixed on a telegraph pole or an iron tower during high-altitude operation, and operation of operators is facilitated.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
In the figure: 1-a fuselage; 2-communicating pipe; 3-a spray head; 4-a nozzle; 5-a first sleeve; 6-a second sleeve; 7-a third sleeve; 8-a dry ice storage tank; 9-high pressure air pump; 10-a drying device; 11-a valve; 12-a first switch; 13-a second switch; 14-a shock-absorbing device; 15-a fixed part; 16-an insulator; 17-arc surface of insulator.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Example 1:
as shown in fig. 1, the insulator electrified dry ice cleaning device comprises a machine body 1, a communicating pipe 2, a nozzle 3, a nozzle 4, a dry ice storage tank 8, a high-pressure air pump 9 and a drying device 10, wherein the machine body 1 is internally provided with the dry ice storage tank 8, the high-pressure air pump 9 and the drying device 10, an air outlet end of the communicating pipe 2 is communicated with the nozzle 4, an air inlet end of the communicating pipe 2 is communicated with an air outlet end of the high-pressure air pump 9, an air inlet end of the high-pressure air pump 9 is communicated with an air outlet end of the drying device 10, and an opening at the bottom; the method is characterized in that: the shower nozzle 3 is for taking the breach ring shape, and the surface of the excircle of shower nozzle 3 is connected with communicating pipe 2, is equipped with a plurality of nozzle 4 on the internal surface of the interior circle of shower nozzle 3, and the geometric centre region of the directional shower nozzle 3 of blowout end of nozzle 4. The fuselage 1 comprises insulating material, and communicating pipe 2 comprises low temperature resistant, thermal-insulated, insulating, soft materials, and shower nozzle 3 and nozzle 4 comprise low temperature resistant, thermal-insulated, insulating, hard material, and dry ice holding vessel 8 has the thermal-insulated function of keeping warm, and dry ice holding vessel 8 top is equipped with the charging cover for supply dry ice granule materials, high compression pump 9 available battery or external power supply provide the power.
the spraying ends of the nozzles 4 all point to the geometric center of the spray head 3, and the circular arc surface 17 of the insulator 16 is clamped by the circular spray head 3 with the notch, so that the spraying ends of the nozzles 4 all point to the concave surface of the circular arc surface 17 of the insulator 16. During operation, the nozzle 4 aims at the dirt of concave surface department, and high pressure gas pump 9 operates, and the gas after drying device 10 drying, after high pressure gas pump 9 compression, to exporting high-pressure draught in communicating pipe 2, high-pressure draught drives the dry ice granule that flows out in the dry ice holding vessel 8, from nozzle 4 blowout on the shower nozzle 3, freezes rapidly to the dirt on insulator surface to condense, embrittle, be peeled off, and clear away along with the air current simultaneously, can not cause the injury to the insulator surface, promote insulator life.
Preferably, the direction of the ejection ends of the adjacent nozzles 4 has a smaller included angle, so that air pressure cross flow can be formed on the local surface of the insulator 16 while impact of high-pressure air flow on surface dirt is not influenced, thereby being beneficial to cleaning the condensed and embrittled dirt and improving the cleaning effect.
Example 2:
As shown in fig. 1, this embodiment optimizes the head structure for embodiment 1.
In the device, a plurality of nozzles 4 are also arranged on other surfaces of the spray head 3, and the spraying ends of the nozzles 4 are far away from the surface on which the nozzles are arranged. In operation, the discharge ends of the plurality of nozzles 4 may be directed simultaneously at a plurality of regions of the insulator 16 to enhance cleaning.
Preferably, the direction of the ejection ends of the adjacent nozzles 4 has a smaller included angle, so that air pressure cross flow can be formed on the local surface of the insulator 16 while impact of high-pressure air flow on surface dirt is not influenced, thereby being beneficial to cleaning the condensed and embrittled dirt and improving the cleaning effect.
Example 3:
as shown in fig. 1, the present embodiment optimizes the head structure for the above-described embodiment.
In the device, a plurality of nozzles 4 are uniformly distributed on the surface of the spray head 3. In operation, the discharge ends of the plurality of nozzles 4 may be directed simultaneously at a plurality of regions of the insulator 16 to enhance cleaning.
Example 4:
As shown in fig. 1, with the above embodiment, the present embodiment optimizes the dry ice material control structure.
The communicated part of the dry ice storage tank 8 and the communicating pipe 2 in the device is provided with the valve 11, and the using amount of the dry ice can be adjusted through the valve 11 according to the surface dirt degree to be cleaned, so that the dry ice is effectively utilized, and the resource waste is prevented.
example 5:
as shown in fig. 1, the present embodiment optimizes the shock-absorbing structure for the above-described embodiment.
The bottom of the high-pressure air pump 9 of the device is fixed in the machine body 1 through a damping device 14. Considering that the insulator is used for telegraph poles and iron towers at high places, the high-pressure air pump 9 can generate large vibration during cleaning, so that the safety coefficient is improved for the operation of operators, and the damping device is specially added in the machine body 1 to reduce other problems caused by the vibration generated during the working of the device.
Example 6:
As shown in fig. 1, the present embodiment optimizes the operation structure for the above-described embodiment.
A sleeve is sleeved outside a communicating pipe 2 of the device and comprises a first sleeve 5, a second sleeve 6 and a third sleeve 7, wherein the first sleeve 5 is made of hard plastic, the second sleeve 6 is made of soft plastic, and the third sleeve 7 is an insulating shaping hose; the two ends of the first sleeve 5 are respectively connected with one ends of a second sleeve 6 and a third sleeve 7, the other end of the third sleeve 7 is connected with the outer surface of the outer circle of the spray head 3, and the other end of the second sleeve 6 is connected with the machine body 1. The third sleeve 7 is composed of a built-in aluminum alloy framework and an outer sleeve insulating plastic, can be bent and shaped to a large extent, and can be restored to the original shape later. When the device works, an operator wears protective facilities, holds the position of the first sleeve 5, operates the spray head 3 to clean dirt, and can hold the position of the first sleeve 5 by hand when cleaning the dirt at the position corresponding to the gap position of the spray head 3, so that the spray head 3 rotates around the clamped position by a corresponding amplitude, and the spray nozzle 4 can spray the dirt to the corresponding position to clean; the second sleeve 6 protects the communicating pipe 2, so that the communicating pipe 2 is prevented from being bent and blocked when an operator operates the communicating pipe, and the operation convenience of the operator is not influenced; the operator adjusts the relative angle and position of the nozzle 4 by adjusting the bending and shaping of the third sleeve 7, thereby facilitating the cleaning of some difficult and complicated positions.
Example 7:
As shown in fig. 1, the present embodiment optimizes the control structure for the above-described embodiment.
In the device, a first switch 12 for controlling the operation of the high-pressure air pump 9 and a second switch 13 for controlling the operation of the valve 11 are arranged on a first sleeve 5, and the first switch 12 is electrically connected with the high-pressure air pump 9; the second switch 13 is electrically connected to the valve 11. When the device works, an operator holds the position of the first sleeve 5 by hand, operates the spray head 3 to clean dirt, and can control the operation of the high-pressure air pump 9 through the first switch 12 according to actual conditions to increase or decrease the output pressure of the high-pressure air pump 9; the second switch 13 is used for controlling the operation of the valve 11, increasing or reducing the outflow speed of dry ice particles in the dry ice storage tank 8 and controlling the material consumption of the dry ice, thereby saving energy consumption.
Example 8:
As shown in fig. 1, the present embodiment optimizes the fixing structure for the above-described embodiment.
a plurality of fixing parts 15 are arranged on the bottom and the side wall of the machine body 1 in the device. Considering that the insulator is mostly used on a high-place telegraph pole or iron tower, the body 1 can be fixed on the telegraph pole or iron tower through the fixing part 15 arranged on the body 1 for the convenience of operation of an operator during cleaning.
preferably, the fixing portion 15 is a retractable leveling fixing device to ensure that the machine body 1 is in a horizontal state when being fixed during high-altitude operation, and the using effect of the device is not affected.
although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.
Claims (8)
1. The insulator electrified dry ice cleaning device comprises a machine body (1), a communicating pipe (2), a spray head (3), a nozzle (4), a dry ice storage tank (8), a high-pressure air pump (9) and a drying device (10), wherein the dry ice storage tank (8), the high-pressure air pump (9) and the drying device (10) are arranged in the machine body (1), the air outlet end of the communicating pipe (2) is communicated with the nozzle (4), the air inlet end of the communicating pipe (2) is communicated with the air outlet end of the high-pressure air pump (9), the air inlet end of the high-pressure air pump (9) is communicated with the air outlet end of the drying device (10), and the bottom opening of the dry ice storage tank (8) is communicated with the communicating pipe (; the method is characterized in that: the sprayer is characterized in that the sprayer (3) is in a ring shape with a notch, the outer surface of the outer circle of the sprayer (3) is connected with the communicating pipe (2), a plurality of nozzles (4) are arranged on the inner surface of the inner circle of the sprayer (3), and the spraying ends of the nozzles (4) point to the geometric center area of the sprayer (3).
2. the electrified dry ice cleaning device for insulators according to claim 1, wherein: the surface between the inner circle inner surface and the outer circle outer surface of the spray head (3) is also provided with a plurality of nozzles (4), and the spraying ends of the nozzles (4) are far away from the surface where the nozzles are arranged.
3. The electrified dry ice cleaning device for insulators according to claim 1 or 2, wherein: the plurality of nozzles (4) are uniformly distributed on the surface of the spray head (3).
4. The electrified dry ice cleaning device for insulators according to claim 1 or 2, wherein: and a valve (11) is arranged at the communication position of the dry ice storage tank (8) and the communication pipe (2).
5. The electrified dry ice cleaning device for insulators according to claim 1 or 2, wherein: the bottom of the high-pressure air pump (9) is fixed in the machine body (1) through a damping device (14).
6. The electrified dry ice cleaning device for insulators according to claim 1 or 2, wherein: a sleeve is sleeved outside the communicating pipe (2), the sleeve comprises a first sleeve (5), a second sleeve (6) and a third sleeve (7), the first sleeve (5) is made of hard plastic, the second sleeve (6) is made of soft plastic, and the third sleeve (7) is an insulating shaping hose; the two ends of the first sleeve (5) are connected with one ends of a second sleeve (6) and a third sleeve (7) respectively, the other end of the third sleeve (7) is connected with the outer surface of the outer circle of the spray head (3), and the other end of the second sleeve (6) is connected with the machine body (1).
7. The electrified dry ice cleaning device for insulators according to claim 6, wherein: the first sleeve (5) is provided with a first switch (12) for controlling the operation of the high-pressure air pump (9) and a second switch (13) for controlling the operation of the valve (11), and the first switch (12) is electrically connected with the high-pressure air pump (9); the second switch (13) is electrically connected with the valve (11).
8. The electrified dry ice cleaning device for insulators according to claim 1 or 2, wherein: the bottom and the side wall of the machine body (1) are respectively provided with a plurality of fixing parts (15).
Priority Applications (1)
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CN201920532048.5U CN209792169U (en) | 2019-04-18 | 2019-04-18 | Insulator electrified dry ice cleaning device |
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CN201920532048.5U CN209792169U (en) | 2019-04-18 | 2019-04-18 | Insulator electrified dry ice cleaning device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112718708A (en) * | 2020-11-11 | 2021-04-30 | 广东电网有限责任公司广州供电局 | Power equipment cleaning device |
CN113399350A (en) * | 2021-06-16 | 2021-09-17 | 贵州长征输配电电气有限公司 | Charged rapid cleaning process |
-
2019
- 2019-04-18 CN CN201920532048.5U patent/CN209792169U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112718708A (en) * | 2020-11-11 | 2021-04-30 | 广东电网有限责任公司广州供电局 | Power equipment cleaning device |
CN113399350A (en) * | 2021-06-16 | 2021-09-17 | 贵州长征输配电电气有限公司 | Charged rapid cleaning process |
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Address after: 450000 No. 2008, floor 20, No. 56, Zijingshan Road, Guancheng Hui District, Zhengzhou City, Henan Province Patentee after: Zhengzhou Lanqing Technology Co.,Ltd. Address before: 450000 east house, 6th floor, middle unit, building 1, Shakou Road, Jinshui District, Zhengzhou City, Henan Province Patentee before: Zhengzhou Lanqing Technology Co.,Ltd. |