KR20220109842A - Artificial street tree capable of collecting and treating rainwater - Google Patents

Abstract

The present invention relates to an artificial street tree capable of collecting and treating rainwater. The artificial street tree includes: a street tree body including a plurality of artificial leaves, a leaf support part supporting the artificial leaves and having a rainwater inlet through which rainwater is introduced from the outside, a cylindrical inner pillar coupled with a lower part of the leaf support part to store the introduced rainwater, and an outer pillar having a larger diameter than the inner pillar and placed on the outside to surround the inner pillar; a tubular center shaft installed in the inner pillar along an axial line of the street tree body; a central filter formed into a donut shape along the circumference of the center shaft such that the center shaft is placed in the center thereof, and floating on the water surface of the rainwater stored in the inner pillar to slide along the center shaft according to a level change of the water surface; a storage tank coupled with the lower part of the street tree body to store rainwater from which nonpoint pollutants have been filtered out through the central filter; a pump connecting the storage tank and the center shaft such that the rainwater in the storage tank is introduced into the tubular center shaft; and a rainwater spraying part spraying the rainwater introduced into the center shaft through the pump, to the outside. Therefore, the artificial street tree is capable of collecting rainwater from the outside and filtering out nonpoint pollutants in the rainwater, and spraying the collected and filtered rainwater as mist, thereby keeping pleasant surroundings of pedestrians from fine dust, yellow dust or heat waves.

Description

Artificial street tree capable of collecting and treating rainwater

The present invention relates to artificial roadside trees capable of collecting and treating rainwater, and more particularly, collecting external rainwater, filtering nonpoint pollutants in rainwater, and misting the collected and treated rainwater to the outside to obtain fine dust and yellow dust. Or it relates to an artificial street tree capable of collecting and processing rainwater that can keep the surrounding environment of pedestrians pleasantly from heat waves.

In general, landscaping is done by planting roadside trees along the edges of sidewalks or roadways for the aesthetics of the road. For smooth growth of these street trees, water is required to be continuously supplied to the street trees, and in general, the water supply to the street trees is covered through the falling rain. However, depending on environmental conditions such as drought due to climate change, there is a situation in which water necessary for the growth of street trees is not sufficiently supplied, so that the trees do not grow normally or die. In particular, in the case of Korea or Southeast Asia, it is difficult to secure stable water due to the large difference in precipitation due to climate change. Accordingly, although it is necessary to increase the use of rainwater that accumulates on roads after rain, there is a limit to the use of rainwater due to difficulties in reducing nonpoint pollution sources included in rainwater and difficulties in water circulation due to asphalt or concrete pavement.

As described above, the prior art for supplying moisture to street trees is a drainage type road installed between the sidewalk and the road, such as 'Registered Patent No. 10-1874284 of the Republic of Korea Intellectual Property Office No. 10-1874284 Rainwater circulation system with separated drainage-type road boundary stones for rainwater storage' boundary stone; a storage space for rain gutter that is buried in the lower portion of the road edge adjacent to the drainage-type road boundary stone; The rainwater infiltration means for moving the rainwater collected in the storage space for rainwater catchment and the drainage space of the drainage-type road boundary stone to a specific storage facility for supplying water to the plant cultivation pot; technology including a; is known.

However, in the case of this prior art, it is merely a device for supplying moisture to the street trees for the smooth growth of the street trees, and there is a disadvantage that rainwater cannot be used for other purposes other than this.

Korean Intellectual Property Office Registered Patent No. 10-1874284

The present invention has been devised to solve the above problems, by collecting external rainwater, filtering non-point pollutants in rainwater, and misting the collected and treated rainwater to the outside to protect pedestrians from fine dust, yellow sand or heat waves. It is to provide an artificial street tree capable of collecting and processing rainwater that can keep the surrounding environment pleasant.

The above object is to provide a plurality of artificial leaves, a leaf support portion supporting the artificial leaves and having a rainwater inlet through which rainwater flows from the outside, and a cylindrical interior that is coupled to the lower portion of the leaf supporter and stores the introduced rainwater. a street tree body including a column and an outer column having a larger diameter than the inner column and disposed outside to surround the inner column; a tubular central shaft installed in the inner pillar along the axis of the street tree body; a central filter formed in a donut shape along the circumference of the central shaft so that the central shaft is disposed in the center, floating on the water surface of the rainwater stored in the inner pillar, and sliding along the central shaft by a change in the height of the water surface; a storage tank coupled to the lower part of the street tree body to store rainwater from which non-point pollutants are filtered through the central filter; a pump connecting the storage tank and the central shaft so that rainwater in the storage tank flows into the tubular central shaft; and a rainwater spraying unit for spraying rainwater introduced into the central shaft through the pump to the outside.

Here, the leaf support part further includes an upper filter formed at the rainwater inlet to filter non-point pollutants in rainwater, and the artificial street tree is formed between the inner pillar and the storage tank and is introduced into the storage tank. It is preferable to further include a lower filter for filtering non-point contaminants in rainwater, and the artificial leaves are formed of a shape memory alloy so as to be bendable in a concave shape when the ambient temperature is below the dew point in a plate-like state, It is preferable that a tarpaulin is laminated on the surface of the shape memory alloy.

In addition, the rainwater jetting unit is provided in plurality along the circumference of the upper portion of the external pillar, and a drain valve connected to a side surface of the central shaft to spray rainwater discharged from the central shaft to the outside, and one end of the central shaft A corrugated pipe installed at the end of the corrugated pipe to receive rainwater discharged from the central shaft and spread along the axis of the leaf support part as the water surface height of the supplied rainwater increases, and the corrugated pipe is formed at the other end of the corrugated pipe to unfold the corrugated pipe It is preferable to further include a spray nozzle protruding from the inside of the leaf support part to the outside and spraying rainwater.

As described above, according to the present invention, rainwater from the outside is captured, nonpoint pollutants in the rainwater are filtered, and the collected and treated rainwater is mist sprayed to the outside to keep the surrounding environment of pedestrians pleasantly from fine dust, yellow dust, or heat waves. can do it

1 is a perspective view of an artificial street tree according to an embodiment of the present invention;
Figure 2 is an enlarged perspective view of the leaf support according to Figure 1,
3 is a cut-away perspective view of an artificial street tree;
4 is an enlarged perspective view of the central filter according to FIG. 3;
5 is a cross-sectional view of an artificial street tree;
6 is an enlarged cross-sectional view of the central filter according to FIG. 5;
7 is an enlarged cross-sectional view of the storage tank and the pump according to FIG.
8 is an enlarged cross-sectional view of the even spray unit according to FIG. 5 .

Hereinafter, the technical idea of the present invention will be described in more detail with reference to the accompanying drawings. Since the accompanying drawings are merely examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

1 is a perspective view of an artificial street tree according to an embodiment of the present invention, FIG. 2 is an enlarged perspective view of a leaf support part according to FIG. 1 , FIG. 3 is a cut perspective view of an artificial street tree, and FIG. 4 is a central filter according to FIG. An enlarged perspective view, Fig. 5 is a cross-sectional view of an artificial street tree, Fig. 6 is an enlarged cross-sectional view of the central filter according to Fig. 5, Fig. 7 is an enlarged cross-sectional view of the storage tank and the pump according to Fig. 5, and Fig. 8 is Fig. 5 It is an enlarged cross-sectional view of the rainwater jetting part.

The present invention relates to an artificial roadside tree capable of collecting and treating rainwater, which can receive rainwater, remove and store non-point pollutants in rainwater, and spray the stored rainwater in the form of mist around it. In this way, rainwater in a clean state can be sprayed around the collection of rainwater and nonpoint pollutants in the rainwater can be treated, and it can collect fine dust or yellow sand, or lower the temperature of the city center in the hot summer, and clean rainwater. It can be provided to the surrounding animals and plants. In addition, the artificial roadside tree capable of collecting and processing rainwater of the present invention can provide a rest space by being able to equally form the aesthetics and cool shade of the road by the actual roadside tree used in the past, and it is excellent in summer heavy rain It can also serve to reduce damage from heavy rain by storing a certain amount of In particular, since the present invention is an artificial street tree, not a live street tree, even if it receives and stores rainwater, it is not used for the growth of the street tree. As described above, it can be used for various purposes.

The artificial street tree 10 capable of collecting and processing rainwater according to the present invention having such an effect is, as shown in FIGS. 1 to 8, the street tree body 100, the central shaft 200, and the central filter 300. , a storage tank 400 , a lower filter 500 , a pump 600 and a rainwater spray unit 700 .

First, as shown in FIG. 1, the street tree body 100 includes artificial leaves 110, a leaf support unit 120, an inner pillar 130 and It includes an external pillar (140).

The artificial leaf 110 is a configuration provided in plurality so as to be similar to an actual tree, and the shape is not particularly limited, but a palm leaf shape having a large size is most preferable to facilitate manufacture, installation, and collection of rainwater. The artificial leaf 110 is normally present in a plate-shaped unfolded state, and when the ambient temperature of the artificial leaf 110 is below the dew point, it can be bent into a concave shape so that it can bend shape memory (shape memory). alloy). These artificial leaves 110 are usually present in a plate-shaped unfolded state to provide a shade for pedestrians near the artificial roadside tree 10 so that the pedestrians can take a break.

Since the artificial leaf 110 is made of a shape memory alloy, due to the nature of the metal itself, the temperature drop at sunset is larger than that of other objects. Moisture in the air is condensed on the surface of the artificial leaf 110 in the form of dew. When the artificial leaf 110 is bent in a concave shape in this state, the dew formed on the surface of the artificial leaf 110 is gathered in the center and flows into the rainwater inlet 121 to be described later. In the case of rain, the artificial leaf 110 is bent in a concave shape as the ambient temperature drops below the dew point due to rain, thereby collecting rainwater and allowing it to flow into the rainwater inlet 121. have.

In some cases, by attaching an additional cooling device (not shown) to the surface of the artificial leaf 110 , the artificial leaf 110 is lowered to a dew point suitable for the current humidity through the cooling device without depending on a specific external temperature. It is also possible to trap moisture in it.

A tarpaulin is additionally laminated on the surface of the shape memory alloy of the artificial leaf 110, and the tarpaulin may be laminated on one or both sides of the shape memory alloy. The waterproof canvas protects the shape memory alloy from external stimuli, and the rainwater collected on the artificial leaves 110 is formed so that the entire amount can flow into the rainwater inlet 121 without permeating the surface of the artificial leaves 110 . do.

The leaf support unit 120, as shown in FIG. 2, supports the artificial leaf 110 and includes a rainwater inlet 121 and an upper filter 122 through which rainwater flows from the outside. The leaf support unit 120 is installed at the top of the street tree main body 100 , and the artificial leaf 110 on the leaf support unit 120 has an 8-direction two structure, so that it can be installed and operated according to the required direction. In some cases, the artificial leaf 110 and the leaf support unit 120 may be designed to be easily assembled and separated for each unit.

The rainwater inlet 121 is formed in the region where the artificial leaf 110 is supported, and is formed to introduce rainwater into the inner pillar 130 to be described later. A plurality of rainwater inlets 121 are formed in accordance with the plurality of artificial leaves 110, and the rainwater collected by bending the artificial leaves 110 is formed in the area where the artificial leaves 110 are supported. it will flow

The upper filter 122 is formed to cover the entire surface of the rainwater inlet 121 and serves to primarily filter non-point pollutants in rainwater. When non-point pollutants in rainwater flow into the inner pillar 130 as they are, it may accumulate in the inner pillar 130 and cause a problem in that the inner pillar 130 needs to be washed later. Therefore, it is preferable to allow rainwater to flow into the inner pillar 130 in a state where non-point pollutants are primarily removed using the upper filter 122 . The upper filter 122 may be formed in an artificial stem shape to match the shape of the artificial leaf 110 .

The inner pillar 130 is coupled to the lower portion of the leaf support unit 110 as shown in FIG. 3 and has a cylindrical shape in which the introduced rainwater is stored. Rainwater from which non-point pollutants are primarily removed through the rainwater inlet 121 and the upper filter 122 is introduced into the inner column 130 and stored in the inner column 130 . The inner pillar 130 is preferably made of a rigid material so that the introduced rainwater can be stably stored.

The outer pillar 140 has a larger diameter than the inner pillar 130 and is configured to be disposed outside to surround the inner pillar 130 . That is, the outer pillars 140 have a larger diameter than the inner pillars 130 and are configured to be spaced apart from each other so as not to contact each other with the inner pillars 130 . In this way, by disposing the inner pillar 130 and the outer pillar 140 in a spaced state, the temperature of the outer pillar 140 is not transmitted to the inner pillar 130 in cold weather such as a severe cold, so the inner pillar 130. It is possible to prevent rainwater from freezing and causing abnormal operation. At this time, between the inner pillar 130 and the outer pillar 140 may be made of an air layer or may be additionally provided with a heat insulating material. Here, the insulation material is recycled paper, waste wood, waste Styrofoam, etc. to secure insulation and contribute to eco-friendly policies.

These internal pillars 130 and external pillars 140 may be made of a diameter similar to that of an actual tree, and in particular, the external pillar 140 is composed of a shape and color similar to that of an actual tree to enhance the aesthetics around the road. it is preferable

The central shaft 200 is configured in a tubular shape installed in the inner pillar 130 along the axis of the street tree body 100, and serves as a guide so that the central filter 300, which will be described later, can slide. corresponds to In the case of the street tree body 100, it is installed to stand vertically on the road like an actual tree, and the central shaft 200 is installed vertically in the inner pillar 130 along the axis of the street tree body 100 . In addition, the central shaft 200 has a hollow tube shape inside, so that rainwater from which non-point pollutants are filtered is supplied to the outside through the inside of the central shaft 200 .

The central filter 300 is formed in a donut shape along the circumference of the central shaft 200 so that the central shaft 200 is disposed in the center, as shown in FIGS. 4 and 6 , and is stored in the inner pillar 130 . It is a configuration that floats on the water surface of the and slides along the central shaft 200 by a change in the height of the water surface. The central filter 300 presses rainwater downward by the weight of the central filter 300 while floating on the water surface of the rainwater. Since it is finally sprayed to the outside on the central shaft 200 going back, rainwater spraying becomes easy. The central filter 300 includes a filter body 310 , an upper disk 320 , a lower disk 330 , an O-ring 340 , and a linear bush 350 .

The filter body 310 is formed in a donut shape so that the central shaft 200 is disposed in the center, and is configured to have a predetermined thickness to increase the filtering ability of non-point pollutants of rainwater. This filter body 310 is made of a filter having a higher density to filter non-point pollutants smaller than the upper filter 122 for secondarily filtering rainwater from which non-point pollutants have been filtered through the upper filter 122 secondarily. can An upper disk 320 and a lower disk 330 are coupled to the upper and lower portions of the filter body 310, respectively.

A plurality of through-holes 321 and 331 are formed in the upper disk 320 and the lower disk 330, so that rainwater introduced into the inner pillar 130 passes through the through-hole 321 of the upper disk 320 and the filter body After the non-point contaminants are filtered in the 310 , the rainwater is stored in the inner pillar 130 through the passage hole 331 of the lower disk 330 . At this time, the upper disk 320 and the lower disk 330 have the same diameter as the inner column 130 , so that all rainwater flowing into the inner column 130 is removed from the upper disk 320 - the filter body 310 - the lower disk 330. ) to pass sequentially, and non-point pollutants are not filtered, and the problem of rainwater escaping into the space between the central filter 300 and the inner pillar 130 does not occur.

The O-ring (O-ring, 340) is formed between the filter body 310 and the inner pillar 130, so that even if some rainwater is introduced between the upper disk 320 and the inner pillar 130, non-point pollutants are not filtered. It is formed to completely seal between the filter body 310 and the inner pillar 130 so that it cannot be stored in the inner pillar 130 . Such O-rings 340 are preferably provided in plurality in order to improve sealing performance.

A linear bush (350) is formed between the central shaft (200) and the filter body (310) to surround the central shaft (200), and the central filter (300) can slide along the central shaft (200). formed to do

In some cases, the central filter 300 may further include a UV lamp (not shown) to remove bacteria or viruses in rainwater. In the case of rainwater, since it flows into the street tree body 100 in a state of collecting soot in the air, it may contain some bacteria or viruses, which can be removed through a UV lamp.

The storage tank 400 is coupled to the lower portion of the street tree body 100 as shown in FIGS. 5 and 7 , and corresponds to a tank for storing rainwater from which non-point pollutants are filtered through the central filter 300 . That is, rainwater flowing in and filtered through the inner pillar 130 is first stored in the storage tank 400, and when the rainwater in the storage tank 400 is full, then it is stored in the inner pillar 130 so that it will rain. A large amount of rainwater can be stored when The storage tank 400 is configured to be coupled to the lower portion of the street tree body 100, and the storage tank 400 is buried underground, while the street tree body 100 is exposed to the outside, so that pedestrians can use the storage tank 400 from the outside. ) cannot be checked. However, in some cases, the storage tank 400 may be installed to be exposed on the ground.

The lower filter 500 is formed between the inner pillar 130 and the storage tank 400 and serves to filter non-point pollutants in the rainwater flowing into the storage tank 400 . That is, non-point pollutants of 3 mm or more are first filtered through the upper filter 122, and rainwater from which non-point pollutants of 1 to 3 mm are secondarily filtered through the central filter 300 is filtered tertiarily through the lower filter 500. Non-point pollutants in rainwater can be minimized. If nonpoint pollutants in rainwater are not removed, nonpoint pollutants are accumulated in the storage tank 400 and the inner pillar 130, which blocks the entrance of the rainwater spraying unit 700 when spraying rainwater to the outside later. Impossible problems may arise.

The pump 600 is configured to connect the storage tank 400 and the central shaft 200 so that rainwater in the storage tank 400 is discharged to the outside through the inside of the central shaft 200 made of a tubular shape. In the case of the central shaft 200, it is formed in a tube shape with a small diameter, and since the corrugated pipe 720 and the spray nozzle 730, which will be described later, connected to the central shaft 200 are installed at the top of the street tree body 100, here In order to spray rainwater, it is necessary to drive the pump 600 . Even if the storage tank 400 and the inner pillar 130 are not filled with rainwater, the pump 600 may be driven separately to spray rainwater to the outside when the outside is hot or dry.

The rainwater spraying unit 700 is configured to spray the rainwater flowing into the central shaft 200 through the pump 600 to the outside, and as shown in FIG. 8 , a drain valve 710 , a corrugated pipe 720 and spraying. a nozzle 730 . The rainwater spray unit 700 filters non-point pollutants and sprays clean rainwater to the outside to increase external humidity and lower the temperature when it is hot or dry, so that pedestrians can feel cool.

The drain valve 710 is provided in plurality along the periphery on the upper part of the external pillar 140 and is connected to the side surface of the central shaft 200 to spray rainwater discharged from the central shaft 200 to the outside. play a role When a large amount of rainwater flows into the street tree body 100 , rainwater fills the storage tank 400 and the inner pillar 130 as well as the central shaft 200 . As such, when the storage standard value of rainwater is exceeded, rainwater is automatically sprayed to the outside through the drain valve 710 connected to the central shaft 200 . That is, the drain valve 710 is automatically opened due to the pressure of the spring rod, and rainwater is discharged to the outside and sprayed around the artificial street tree 10 .

The corrugated pipe 720 has one end installed at the end of the central shaft 200 to receive rainwater discharged from the central shaft 200, and as the water level of the supplied rainwater increases, the leaf support unit 120 by the pressure of rainwater. It is a composition that unfolds along the axis of Usually, the corrugated pipe 720 exists in a folded state, and when rainwater flows into the corrugated pipe 720 through the pump 600 and the central shaft 200, the corrugated pipe is gradually spread along the axis to accommodate the rainwater. (720) is expanded.

The spray nozzle 730 is formed at the other end of the corrugated pipe 720 and protrudes from the inside of the leaf support unit 120 to the outside as the corrugated pipe 720 is unfolded to spray rainwater. That is, when rainwater continuously flows into the corrugated pipe 720, the corrugated pipe 720 is expanded and the length is increased, thereby exposing the spray nozzle 730 disposed inside the leaf support unit 120 to the outside. . At this time, the spray nozzle 730 is exposed to the outside and at the same time, rainwater filled with the corrugated pipe 720 is sprayed to the outside, and the rainwater is sprayed to the outside in the form of a mist by the spray nozzle 730 . Thereafter, when the rainwater in the corrugated pipe 720 falls below a certain pressure, the pressure formed in the corrugated pipe 720 is also interlocked and falls, and the corrugated pipe 720 contracts, through which the spray nozzle 730 moves into the leaf support unit 120 inside. It is inserted and the mist spraying of rainwater is stopped.

The artificial street tree 10 capable of collecting and treating rainwater according to the present invention is a device for collecting rainwater flowing in from the outside and treating it with purified water above a certain standard value so that it can be used as water for living. Rainwater from which non-point pollutants are filtered is stored in the storage tank 400, and when fine dust or yellow dust occurs, the rainwater is sprayed to the outside, and the sprayed rainwater is re-collected through the artificial leaves 110 and can be recycled. In addition, when a heat wave of a certain temperature or more occurs in the city center during the hot season, when the preset temperature is reached, the mist is sprayed through the spray nozzle 730 and the operation of collecting it again is repeated to maintain the city street in a comfortable state.

The artificial street tree 10 of the present invention is designed in a streamlined open structure similar to an actual tree so that it does not fall or damage when a strong wind such as a typhoon occurs, so that it can withstand strong winds. In addition, in an environment in which an appropriate amount of precipitation cannot be secured, it is possible to actively collect moisture in the air through the functional surface pattern of the artificial leaf 110 made of a shape memory alloy. In addition, according to the intensity of sunlight, the artificial leaf 110 maintained by the shape memory alloy contracts or expands to form an appropriate shade film, and it is possible to maintain a comfortable environment by spraying mist according to moisture and temperature in the air.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

10: artificial street trees
100: street tree body
110: artificial leaves
120: leaf support part
121: rainwater inlet
122: upper filter
130: inner pillar
140: outer pillar
200: central shaft
300: center filter
310: filter body
320: upper disk
321, 331: passing ball
330: lower disk
340: O-ring
350: linear bush
400: storage tank
500: lower filter
600: pump
700: rain jet unit
710: drain valve
720: corrugated pipe
730: spray nozzle

Claims (5)

A plurality of artificial leaves, a leaf support portion supporting the artificial leaves and formed with a rainwater inlet through which rainwater is introduced from the outside, and a cylindrical inner pillar coupled to a lower portion of the leaf supporter to store the rainwater introduced therein; a street tree body having a larger diameter than the column and including an outer column disposed outside to surround the inner column;
a tubular central shaft installed in the inner pillar along the axis of the street tree body;
a central filter formed in a donut shape along the circumference of the central shaft so that the central shaft is disposed in the center, floating on the water surface of the rainwater stored in the inner pillar, and sliding along the central shaft by a change in the height of the water surface;
a storage tank coupled to the lower part of the street tree body to store rainwater from which non-point pollutants are filtered through the central filter;
a pump connecting the storage tank and the central shaft so that rainwater in the storage tank flows into the tubular central shaft; and
An artificial roadside tree capable of collecting and treating rainwater, comprising a; rainwater spraying unit that sprays rainwater introduced into the central shaft through the pump to the outside. The method of claim 1,
The leaf support part,
It further comprises an upper filter formed at the rainwater inlet to filter non-point pollutants in the rainwater,
The artificial street tree,
An artificial street tree capable of collecting and treating rainwater, characterized in that it further comprises; a lower filter formed between the inner pillar and the storage tank to filter non-point pollutants in the rainwater flowing into the storage tank. The method of claim 1,
The artificial leaves are
It is formed of a shape memory alloy so that it can be bent into a concave shape when the ambient temperature is below the dew point in a plate-like state,
An artificial street tree capable of collecting and processing rainwater, characterized in that a tarpaulin is laminated on the surface of the shape memory alloy. The method of claim 1,
The excellent spraying unit,
Collecting and treating rainwater, characterized in that it further comprises a drain valve provided in plurality along the periphery on the upper part of the outer pillar and connected to the side surface of the central shaft to eject the rainwater discharged from the central shaft to the outside. Possible artificial street trees. The method of claim 1,
The excellent spraying unit,
One end is installed at the end of the central shaft to receive rainwater discharged from the central shaft, and as the water level of the supplied rainwater increases, a corrugated pipe extending along the axis of the leaf support unit, and the other end of the corrugated pipe, An artificial street tree capable of collecting and processing rainwater, characterized in that it further comprises a spray nozzle that protrudes from the inside of the leaf support part to the outside by spreading the corrugated pipe and sprays rainwater.

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