KR102143846B1 - Natural draining and drying the inside apparatus of cover for overhead power distribution line - Google Patents

Abstract

The present invention relates to an apparatus to naturally drain and dry the inside of covers of an overhead power distribution line, which is configured to prevent water from being accumulated inside covers which cover and protect a connected portion between an overhead distribution line and a suspension insulator, and prevent the contact of an operator′s body or a bird or a super proximity phenomenon to the connected portion between the overhead distribution line and the suspension insulator during rain; to cause moisture on the inner surface to be dried quickly; and regularly clean fine dust and ultrafine dust on the inner surface according to a predetermined cycle and cause water used for cleaning to be quickly dried. According to the present invention, the apparatus to naturally drain and dry the inside of covers of an overhead power distribution line comprises covers installed to protect a connected portion between a distribution cable of an overhead distribution line and a suspension insulator of a telephone pole. The apparatus to naturally drain and dry the inside of covers of an overhead power distribution line further comprises: a cover main body; a cleaning water storage/supply unit; a solenoid actuator; a first water detection sensor; a second water detection sensor; an external temperature sensor; an internal temperature sensor; a first water level detection sensor; a second water level detection sensor; a control unit; and a wireless communication module.

Description

Natural draining and drying the inside apparatus of cover for overhead power distribution line}

The present invention covers and protects the connection part between the distribution cable and the suspension insulator of an overhead distribution line in the field of distribution technology, and at the same time, it is possible to prevent the contact between the body or birds of the worker or the super proximity phenomenon of the connection part between the distribution cable and the suspension insulator. When the cover is rainy, water does not accumulate inside it, and water on the inner surface can be quickly dried, and fine dust and ultrafine dust on the inner surface are regularly cleaned according to a preset cycle and used for cleaning. Provides a natural drainage and internal drying device for the overhauled distribution line cover so that the water can be quickly dried.

In general, large power generated from a power plant is transmitted to each substation through transmission lines such as transmission towers. The substation undergoes several stages of transformation and is distributed to each household or building through a distribution line.

In addition, distribution is performed through an overhead distribution line supported by a telephone pole or an underground distribution line installed in the ground.

Briefly explaining the distribution structure and method using the overhead distribution line, power supply by the overhead distribution line to general customers is made through the overhead distribution line fixed to the utility pole via an insulator, and each overhead distribution line is a jumper line. Connected.

To further explain, a long pole (or "jang casting", hereinafter referred to as "long pole") is usually installed on the top of the telephone pole for processing and distribution. The main pole is generally composed of insulators installed in the horizontal wan-cheol and wan-cheol, and the overhead distribution line is connected to the top of the wan-cheol and the telegraph pole through the suspension insulator of the jang-ju, and at the same time, each overhead distribution line is connected through a jumper line. Jumper wires are supported through line post insulators installed vertically from the top surface of Wancheol.

In addition, a cover structure that protects the connection between the overhead power distribution line and the suspension insulator while protecting the connection between the overhead power distribution line and the suspension insulator, and prevents contact with the operator's body or birds or super close proximity (hereinafter referred to as “cover”). ) May be provided, and these covers may be provided in various forms using various insulating materials.

However, if the above-described internal drying of the cover is not performed quickly or the water in the cover cannot be drained smoothly to the outside, electrical accidents such as a short circuit accident at the connection between the overhead distribution line and the suspension insulator located in the cover can occur. It was to increase the risk of occurrence.

In addition, when a large amount of fine dust and ultrafine dust is buried inside the above-described cover type, there is an increased risk of sparking occurring at the connection between the overhead distribution line and the suspension insulator.

Korean Patent Registration No. 10-1164168 (Announcement on July 11, 2012), "Overhead distribution line insulation device to prevent electric shock accidents" Korean Patent Registration No. 10-1829670 (announcement on February 19, 2018), "Insulator cover for live wire work of processing distribution line"

An embodiment of the present invention is a cover that covers and protects the connection part between the distribution cable and the suspension insulator of an overhead distribution line, and at the same time prevents the contact of the operator's body or birds or super proximity phenomenon to the connection part between the distribution cable and the suspension insulator. In case of rain, water does not accumulate inside, and it provides a natural drainage and internal drying device for overhead distribution lines that allow water on the inner surface to dry quickly.

In addition, the embodiment of the present invention is to protect the connection part between the distribution cable and the suspension insulator of the overhead distribution line while protecting the connection between the distribution cable and the suspension insulator to prevent the contact of the operator's body or birds or super proximity phenomenon. It has a configuration that regularly cleans fine dust and ultra-fine dust on the inner surface of the cover type according to a preset cycle, and processing that allows the water used for cleaning to be quickly dried from the inner surface of the cover type. It provides natural drainage and internal drying equipment for the distribution line cover.

The natural drainage and internal drying device of the overhead distribution line cover according to the embodiment of the present invention protects the connection part between the distribution cable 11 of the overhead distribution line 10 and the suspension insulator 13 of the telephone pole 12 As a natural drainage and internal drying device of the cover that is installed for, including the upper surface 111 and the lower surface 112 and side surfaces 113 connecting the upper surface 111 and the lower surface 112, but the side surfaces 113 One of them is an open hollow structure, and is coupled to the wancheol 14 of the telephone pole 12, and is inserted into each of the ends of the upper surface 111, the lower surface 112 and the side surface 113 of the open side ( At the same time as 114) is formed, a first packing 115 is attached to the ends of the upper surface 111, the lower surface 112, and the side surface 113 so as to cover an area other than the insertion groove 114, and the distribution cable ( Based on the installation direction of 11), semicircular first unit electric wire passage holes 116 are formed on both sides for through-type installation of the distribution cable 11, and the upper surface 111 and the side surface 113 are connected to each other. A first unit cover 110 having a plurality of first washing water supply holes 117 formed along the edges; Inlet grooves 124 that are symmetrical with the first unit cover 110 and correspond to the insertion grooves 114 at the ends of the upper surface 121, the lower surface 122 and the side surface 123 of the open side, respectively At the same time, a second packing 125 is attached to the ends of the upper surface 121, the lower surface 122, and the side surface 123 to cover an area except for the inlet groove 124, and the first unit cover ( When combined with 110), second unit wire passing holes 126 are formed, respectively connected to the first unit wire passing holes 116 to form circular wire passing holes 130, and the upper surface 121 and A second unit cover 120 in which a plurality of second washing water supply holes 127 are formed along the edge to which the side surface 123 is connected; and a cover type body 100 including: the first unit cover 110 It is coupled to the upper surface of and has a soft first washing water supply pipe 211 connecting the inside and the first washing water supply hole 117 of the first unit cover 110, and the upper surface is a central first rainwater inlet hole The first washing water supplement hole 213 for artificially supplying washing water is formed therein, and the first washing water supply pipe 211 is opened and closed. A first washing water container 210 in which a first solenoid valve 214 is installed; It is coupled to the upper surface of the second unit cover 120 and has a second soft washing water supply pipe 221 connecting the inside and the second washing water supply hole 127 of the second unit cover 120, and the upper surface Is made in a form in which all directions are gradually inclined upwards around the second rainwater inlet hole 222 in the center, and a second washing water supplement hole 223 for artificially supplying washing water is formed therein, and the second A washing water storage/supply unit 200 including a second washing water container 220 in which a second solenoid valve 224 for opening and closing the washing water supply pipe 211 is installed; and an insertion groove of the first unit cover 110 A plurality of solenoid actuators (300) that are installed for each (114) and fixed by being fitted into the inlet groove (124) of the second unit cover (120) facing the insertion groove (114) at the front end of each operating rod (310) And: a first water detection sensor 410 installed in one or two or more on the upper surface of the washing water storage/supply unit 200; and: the cover based on the top and bottom division of the cover body 100 in a horizontal direction. A second water detection sensor 420 installed in a plurality in the inner lower part of the body 100 and: an external temperature sensor installed outside the body 100 to measure the temperature of the surroundings from the body of the cover ( 510) and: an internal temperature sensor 520 installed on the inside of the cover body 100 to measure the temperature inside the cover body 100, and: installed at an inner lower portion of the first washing water container 210 and 1 A first water level sensor 610 that detects the replenishment timing of the washing water in the washing water container 210, and: It is installed in the lower inner side of the second washing water container 220 to replenish the washing water in the second washing water container 220 A second water level detection sensor 620 for detecting timing and: the first water detection sensor 410, the second water detection sensor 420, the external temperature sensor 510, the internal temperature sensor 520, the first water level In a situation where detection signals of the detection sensor 610 and the second water level detection sensor 620 are respectively received, and water is not detected through the first water detection sensor 410 When water is detected from one or more of the second water detection sensors 420 of the second water detection sensors 420, the solenoid actuator 300 is controlled to operate in a state in which the cover body 100 is opened. After that, if water is not detected by all of the second water detection sensors 420, the solenoid actuator 300 is operated and controlled in a state in which the cover body 100 is closed, and the cover type body 100 is An internal critical temperature and an external critical temperature of the cover body 100 for opening and closing operation are set, respectively, and when the temperature measured value of the external temperature sensor 510 exceeds the external critical temperature, the cover type body 100 ), the solenoid actuator 300 is operated and controlled in an open state, and when the temperature measured value of the internal temperature sensor 520 exceeds the internal critical temperature, the cover body 100 is opened. The solenoid actuator 300 is operated and controlled, and an operation period for the opening and closing operation of the first solenoid valve 214 and the second solenoid valve 224 is set in advance, so that the first solenoid valve 214 is performed at each operation period. And the second solenoid valve 224 is temporarily opened and then closed, and the corresponding signal is connected to the remote integrated management server through the connected wireless communication module 800 according to the washing water supplement signal of the first water level sensor 610 1000), and a control unit 700 for transmitting a corresponding signal to the integrated management server 1000 through the wireless communication module 800 according to the washing water supplement signal of the second water level detection sensor 620: And, the lower surface 112 of the first unit cover 110 and the lower surface 122 of the second unit cover 120 have a plurality of drainage holes 118 and 128 for natural drainage of water in the cover body 100, respectively. ) May be formed.

According to an embodiment of the present invention, it is possible to protect the connection part between the distribution cable and the suspension insulator of the overhead distribution line while protecting the connection part between the distribution cable and the suspension insulator from contacting the operator's body or birds or the super proximity phenomenon. In case of rainy weather, water does not accumulate inside, and water on the inner surface can be dried quickly.

In addition, a cover type that protects the connection part between the distribution cable and the suspension insulator of the overhead distribution line and protects the connection part between the distribution cable and the suspension insulator, and prevents the contact of the operator's body or birds, or the super-close phenomenon inside it. Fine dust and ultrafine dust on the surface are regularly cleaned according to a preset cycle, and the water used for cleaning can be quickly dried from the inner surface of the cover.

1 is a perspective view of a natural drainage and internal drying device of an overhead distribution line cover according to an embodiment of the present invention
Figure 2 is a side cross-sectional view of a natural drainage and internal drying device of the overhead distribution line cover according to an embodiment of the present invention
3 is a plan view illustrating an operating state of an internal drying device and natural drainage of a cover of an overhead distribution line according to an embodiment of the present invention
4 is a block diagram illustrating an electrical configuration of an internal drying device and natural drainage of a cover for an overhead distribution line according to an embodiment of the present invention

The following detailed descriptions of the present invention are embodiments in which the present invention may be practiced and refer to the accompanying drawings shown as examples of the corresponding embodiments. These embodiments will be described in detail sufficient for those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the positions or arrangements of individual components in each described embodiment may be changed without departing from the spirit and scope of the present invention.

Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all the scopes equivalent to those claimed by the claims, if appropriately described. In the drawings, like reference numerals refer to the same or similar functions over several aspects.

Terms used in the present invention have selected general terms that are currently widely used as possible while taking functions of the present invention into consideration, but this may vary according to the intention or precedent of a technician working in the field, the emergence of new technologies, and the like. In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning of the terms will be described in detail in the description of the corresponding invention. Therefore, the terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not a simple name of the term.

In the present invention, when a part "includes" a certain component in the whole, this means that other components may be further included rather than excluding other components unless otherwise stated. In addition, “… Wealth”, 　＂… The term “module” refers to a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

With reference to FIGS. 1 to 4, a natural drainage and internal drying apparatus of a cover for an overhead distribution line according to an embodiment of the present invention will be described.

1 is a perspective view of a natural drainage and internal drying apparatus of an overhead distribution line cover according to an embodiment of the present invention, and FIG. 2 is a perspective view of a natural drainage and internal drying apparatus of an overhead distribution line cover according to an embodiment of the present invention. Is a side cross-sectional view of, and FIG. 3 is a plan view illustrating an operation state of the internal drying apparatus and natural drainage of the overhead distribution line cover according to an embodiment of the present invention, and FIG. 4 is an overhead distribution line according to an embodiment of the present invention. It is a block diagram illustrating the electrical configuration of the natural drainage and internal drying device of the furnace cover.

As shown, the natural drainage and internal drying device of the overhead distribution line cover according to an embodiment of the present invention is between the distribution cable 11 of the overhead distribution line 10 and the suspension insulator 13 of the telephone pole 12 As a configuration including a cover that is installed to protect the connection part, the cover body 100, the washing water storage/supply unit 200, a solenoid actuator 300, a first water detection sensor 410, a second water A detection sensor 420, an external temperature sensor 510, an internal temperature sensor 520, a first water level detection sensor 610, a second water level detection sensor 620, a control unit 700 and a wireless communication module 800. It consists of including.

The cover body 100 includes a first unit cover 110 and a second unit cover 120.

The first unit cover 110 includes an upper surface 111 and a lower surface 112 and side surfaces 113 connecting the upper surface 111 and the lower surface 112, but one of the side surfaces 113 is an open hollow type It is formed in a structure, and is coupled to the wancheol 14 of the telephone pole 12. In addition, the first unit cover 110 has an upper surface 111, a lower surface 112, and an insertion groove 114 formed at the ends of the side surface 113, respectively, and the upper surface 111, the lower surface 112, and A first packing 115 is attached to an end portion of the side surface 113 to cover an area other than the insertion groove 114. In addition, the first unit cover 110 has semicircular first unit wire passing holes 116 for through-type installation of the distribution cable 11 on both sides based on the installation direction of the distribution cable 11, and the top surface A plurality of first washing water supply holes 117 are formed along the edges to which the 111 and the side surfaces 113 are connected.

The second unit cover 120 is symmetrical with the first unit cover 110, in other words, the second unit cover 120 has an upper surface 121 and a lower surface 122 and an upper surface 121 and a lower surface 122 ), but including side surfaces 123 connecting, one of the side surfaces 123 is formed in an open hollow structure. And the second unit cover 120 is an inlet groove corresponding to the insertion groove 114 of the first unit cover 110, respectively, at the ends of the upper surface 121, the lower surface 122 and the side surface 123 on the open side ( At the same time as 124 is formed, a second packing 125 is attached to the ends of the upper surface 121, the lower surface 122, and the side surface 123 to cover the area except for the inlet groove 124. In addition, the second unit cover 120 is connected to the first unit wire passage holes 116 of the first unit cover 110 when combined with the first unit cover 110, respectively, so that the circular wire passage hole 130 The second unit wire passing holes 126 forming them are formed, and a plurality of second washing water supply holes 127 are formed along the edges to which the upper surface 121 and the side surface 123 are connected.

The washing water storage/supply unit 200 includes a first washing water container 210 and a second washing water container 220.

The first washing water container 210 is coupled to the upper surface of the first unit cover 110, and a soft first washing water supply pipe 211 connecting the inside and the first washing water supply hole 117 of the first unit cover 110 ). In addition, the first washing water canister 210 is formed in a shape in which the upper surface of the first washing water inlet 212 is gradually inclined upward, and the first washing water is supplemented to artificially supply washing water therein. Hole 213 is formed. In addition, the first washing water container 210 is provided with a first solenoid valve 214 for opening and closing the first washing water supply pipe 211.

The second washing water container 220 is coupled to the upper surface of the second unit cover 120, and a second soft washing water supply pipe 221 connecting the inside and the second washing water supply hole 127 of the second unit cover 120 ). And the second washing water container 220 has a shape in which the upper surface of the second rainwater inlet hole 222 in the center is gradually inclined upward in all directions, and the second washing water is supplemented to artificially supply the washing water therein. Holes 223 are formed. In addition, the second washing water container 220 is provided with a second solenoid valve 224 for opening and closing the second washing water supply pipe 211.

The solenoid actuator 300 is installed for each insertion groove 114 of the first unit cover 110, and the tip of each actuating rod 310 is lead-in of the second unit cover 120 facing the insertion groove 114 It is fitted and fixed in the groove 124.

One or two or more first water detection sensors 410 are installed on the upper surface of the washing water storage/supply unit 200.

The second water detection sensor 420 is installed in a plurality in the inner lower part of the cover type main body 100 based on the vertical division of the cover type main body 100 in the horizontal direction.

The external temperature sensor 510 is installed outside the cover body 100 to measure the ambient temperature from the cover body 100.

The internal temperature sensor 520 is installed inside the cover-like body 100 to measure the internal temperature of the cover-like body 100.

The first water level detection sensor 610 is installed in the lower inner side of the first washing water container 210 to detect when to replenish the washing water in the first washing water container 210.

The second water level sensor 620 is installed in the lower inner side of the second washing water container 220 to detect when to replenish the washing water in the second washing water container 220.

The control unit 700 includes a first water detection sensor 410, a second water detection sensor 420, an external temperature sensor 510, an internal temperature sensor 520, a first water level detection sensor 610, and a second water level detection. Each detection signal of the sensor 620 is received.

In addition, the control unit 700 may detect water from one or two or more of the second water detection sensors 420 of the second water detection sensors 420 in a situation where water is not detected through the first water detection sensor 410. When the solenoid actuator 300 is operated and controlled in a state where the cover body 100 is opened, if water is not detected by all of the second water detection sensors 420, the solenoid actuator 300 is replaced with the cover body 100. Control the operation in the closed state.

In addition, the control unit 700 sets an internal critical temperature and an external critical temperature of the cover body 100 for opening and closing operation of the cover body 100, respectively, and the temperature measured value of the external temperature sensor 510 is When the critical temperature is exceeded, the solenoid actuator 300 is operated and controlled with the cover body 100 open, and when the temperature measured value of the internal temperature sensor 520 exceeds the internal critical temperature, the cover body ( 100) operates and controls the solenoid actuator 300 in an open state.

In addition, the control unit 700 has a preset operation cycle for the opening and closing operation of the first solenoid valve 214 and the second solenoid valve 224, and the first solenoid valve 214 and the second solenoid valve for each operation cycle. (224) is temporarily opened and then closed. And as the first solenoid valve 214 is opened, the washing water in the first washing water container 210 flows into the first unit cover 110 through the first washing water supply hole 117 of the first unit cover 110. Foreign substances such as fine dust adhering to the inside of the first unit cover 110 are washed. Similarly, as the second solenoid valve 224 is opened, the washing water in the second washing water container 220 flows into the second unit cover 120 through the second washing water supply hole 127 of the second unit cover 120. Foreign substances such as fine dust adhering to the inside of the second unit cover 120 are cleaned.

In addition, the control unit 700 transmits the corresponding signal to the remote integrated management server 1000 through the connected wireless communication module 800 according to the washing water supplement signal from the first water level detection sensor 610, and detects the second water level. The corresponding signal is transmitted to the integrated management server 1000 through the wireless communication module 800 according to the washing water supplement signal of the sensor 620.

In addition, a plurality of drain holes 118 and 128 are formed on the lower surface 112 of the first unit cover 110 and the lower surface 122 of the second unit cover 120 for natural drainage of water in the cover body 100, respectively. .

By the above-described configuration, the operator's body is attached to the connection part between the distribution cable 11 and the suspension insulator 13 while protecting the connection part between the distribution cable 11 and the suspension insulator 13 of the overhead distribution line 10. In the case of rain or the like, water does not accumulate inside the cover-like body 100, which can prevent the contact of the tidal current or the super-close phenomenon, and water on the inner surface of the cover-like body 100 quickly It can be dried.

In addition, fine dust and ultrafine dust on the inner surface of the cover body 100 are regularly cleaned according to a preset cycle, and the water used for washing is quickly dried from the inner surface of the cover body 100 Can be.

As described above, in the present description, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is limited to the above embodiments. No, various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention belongs.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be written, and all things equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the inventive concept.

10: overhead distribution line 11: distribution cable
12: telephone pole 13: suspension insulator
100: cover body 110: first unit cover
111: upper surface 112: lower surface
113: side 114: insertion groove
115: first packing 116: first unit wire through hole
117: first washing water supply hole 118: drain hole
120: second unit cover 121: upper surface
122: bottom 123: side
124: entry groove 125: second packing
126: second unit wire passing hole 127: second washing water supply hole
128: drain hole 200: storage/supply of washing water
210: first washing water container 211: first washing water supply pipe
212: first rainwater inlet hole 213: first washing water supplement hole
214: first solenoid valve 220: second washing water bottle
221: second washing water supply pipe 222: second rainwater inlet hole
223: second washing water supplement hole 224: second solenoid valve
300: solenoid actuator 310: operating rod
410: first water detection sensor 420: second water detection sensor
510: external temperature sensor 520: internal temperature sensor
610: first water level detection sensor 620: second water level detection sensor
700: control unit 800: wireless communication module
1000: Integrated management server

Claims (1)

It is a device for natural drainage and internal drying of distribution cables and suspension insulator connection protection
It includes an upper surface, a lower surface, and a side surface, but one side is an open hollow structure and is coupled to the wancheol. Insertion grooves are formed at the ends of the upper surface, the lower surface, and the side of the open side, respectively, and a covering first packing is attached to the remaining area. , A first unit cover in which a first unit wire passage hole of a semicircular shape through which the distribution cable passes is formed, and a plurality of first washing water supply holes are formed at an upper surface and a side connection edge; Consisting of; a second unit cover symmetrical with the first unit cover, in which a lead-in groove corresponding to the insertion groove and a second unit electric wire passage hole corresponding to the first unit electric wire passage hole are formed, and a second washing water supply hole is formed. Cover type body:
The first washing water supply pipe connecting the first washing water supply hole and the first washing water supplement hole supplying washing water and the first solenoid valve opening and closing the first washing water supply pipe are installed. Canteen; The second washing unit is coupled to the upper surface of the second unit cover, and in which a second washing water supply pipe connecting the second washing water supply hole, a second washing water supplement hole supplying washing water, and a second solenoid valve opening and closing the second washing water supply pipe are installed. Washing water storage/supplying unit including:
Solenoid actuator installed in the insertion groove and fitted into the inlet groove:
The first water detection sensor installed on the upper surface of the washing water storage/supply unit:
A second water detection sensor installed in the lower part of the cover body:
An external temperature sensor installed on the outside of the cover body and measuring the ambient temperature:
An internal temperature sensor installed on the inside of the cover body and measuring the internal temperature:
A first water level detection sensor installed in the lower inner side of the first washing water tank and monitoring the washing water:
A second water level sensor installed in the lower inside of the second washing water tank to monitor the washing water:
If water is not detected by the first water detection sensor, the solenoid actuator is controlled to open the cover body when it is detected by one of the plurality of second water detection sensors, and the solenoid actuator is covered when not detected by all the second water detection sensors. The body is controlled in a closed state, and the internal critical temperature and external critical temperature for opening and closing the cover body are set, respectively, and when the measured value exceeds the external or internal critical temperature, the cover body is opened and the solenoid actuator Is controlled, and the first solenoid valve and the second solenoid valve are periodically opened and closed according to the set opening/closing operation cycle, and the washing water supplement signal of the first level sensor and the second level sensor is transmitted through the wireless communication module. It includes a control unit transmitted to the integrated management server,
A device for natural drainage and internal drying of a cover on an overhead distribution line in which a plurality of drainage holes for natural drainage in the cover body are formed on the lower surfaces of the first unit cover and the second unit cover, respectively.

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