KR102021361B1 - A multi-purpose assembled structure that is dome type - Google Patents

Abstract

The present invention relates to a multi-purpose assembled structure having a dome type and, more specifically, relates to an assembled structure having a dome type used for multi-purposes by being installed in an open area such as a grassland, a desert, a wasteland, and a vacant lot. According to the present invention, sunlight and a light source are used to obtain hot water and produce electricity, and a structure having a dome type is applied to open and close a ceiling. Moreover, a weight is moved to the inside and the outside of the structure through a ceiling that is opened.

Description

A multi-purpose assembled structure that is dome type}

The present invention relates to a multi-purpose assembly structure having a dome shape, and more particularly, the present invention relates to a dome-shaped assembly structure used for multipurpose installation in open areas such as grasslands, deserts, wasteland, and vacant land.

In addition, the present invention is an invention that can obtain hot water or produce electricity by using sunlight and solar heat.

In addition, the present invention is applied to the structure of opening and closing the dome-shaped ceiling, the invention is to move the heavy material in and out of the structure through the open ceiling.

Assembly structures that are easily seen around our lives are assembled and installed on site according to their use, and may be dismantled or used as long-term buildings after their use.

At this time, the assembly structure is a variety of leisure tents used for camping, commercial tents for business, large tents of 30-40 meters size can accommodate a large number of people for festivals or events.

In particular, the assembly structure is installed in a space such as a vacant lot or a parking lot and then dismantled at the end of an event or season. Since the assembly structure can be installed in a short period of time compared to other general buildings, it is used only during an event or high season. The advantage is that you can reuse the installed space.

In addition, the advantage of the assembly structure is that it can be easily installed in open areas such as grasslands, deserts, wasteland, it can be used as a building that people can live or work even in areas where traffic is isolated or infrastructure is poor.

On the other hand, since open areas such as grasslands, deserts and wasteland are mostly in areas where the sun is high, self-power generation using solar cells is effective.

Therefore, by combining the assembly structure and solar cell technology, it is possible to effectively live long-term and self-sufficient even in underdeveloped countries or regions where infrastructure is poor.

The following are the prior art in this regard.

1. Republic of Korea Patent Publication No. 10-2012-0112300 prefabricated instant house and its manufacturing method 2. Korea Registered Utility Model Publication No. 20-0483550 Prefabricated dome house with natural convection and heating 3. Republic of Korea Patent Publication No. 10-2015-0082709 double geodesic dome structure building

The present invention is to solve the above problems,

An object of the present invention is to provide a dome-shaped assembly for use in versatile, installed in open areas such as grasslands, deserts, wasteland, vacant land.

In addition, it is an object of the present invention to obtain hot water or produce electricity by using sunlight and solar heat.

In addition, an object of the present invention is to apply a structure in which the dome-shaped ceiling is opened and closed, it is possible to move the heavy object in and out of the structure through the open ceiling.

In order to achieve the above object, the present invention is a dome-shaped multi-purpose assembly structure,

A dome structure 100 having a plurality of triangular unit structures 101 coupled to each other to form a dome shape;

And a support part 200 supporting the lower side of the dome structure 100 so that the dome structure 100 is formed at a predetermined height from the ground.

The dome structure 100,

A plurality of triangular unit structure 101 is mechanically assembled by a plurality of fastening members 120 to form a dome shape,

When the dome structure 100 is formed by the plurality of unit structures 101, a predetermined number of unit structures 101 form one unit structure layer 110, and the formed unit structure layer 110 is formed. They form a dome shape in a laminated structure.

Since the dome-shaped multi-purpose assembly structure of the present invention is a dome-shaped assembly structure that is installed in open areas such as grasslands, deserts, wastelands, and vacant lands and is used for multi-purpose, humans can be effectively long-term even in underdeveloped countries and regions where infrastructure is poor. Allow to live

In addition, since the present invention can obtain hot water or produce electricity by using sunlight and solar heat, various places and regions can be effectively lived for a long time and self-sufficient.

In addition, the present invention can be used in various ways according to the user's purpose, because the dome-shaped ceiling is applied to move the heavy object in and out of the structure through the open ceiling.

1 is a perspective view of a dome-shaped multipurpose assembly structure of the present invention;
Figure 2 is an exploded view of the dome-shaped multipurpose assembly structure of the present invention
Figure 3 is a block diagram of the configuration of the multi-purpose assembly structure of the dome shape of the present invention
Figure 4 is an exploded view of the unit structure of the multi-purpose assembly structure of the dome shape of the present invention
Figure 5 is a first unit structural component diagram of the multi-purpose assembly structure of the dome shape of the present invention
Figure 6 is a second unit structure component view of the dome-shaped multipurpose assembly structure of the present invention
7 is a third unit structure and a fourth unit structure part view of the multi-purpose assembly structure of the dome shape of the present invention;
Figure 8 is an exemplary view of the vent of the multi-purpose assembly structure of the dome shape of the present invention
9 is a part of the support portion of the dome-shaped multipurpose assembly structure of the present invention;
10 is an exploded view of the main rotary motion of the multi-purpose assembly structure of the dome shape of the present invention
11 is an exemplary view of applying a floor rotary motion to the multi-purpose assembly structure of the dome shape of the present invention
12 is an exemplary view of applying the dome opening and closing mechanism to the multi-purpose assembly structure of the dome shape of the present invention.

An embodiment of the present invention will be described in detail with reference to FIGS. 1 to 12.

1 is a perspective view of a dome-shaped multipurpose assembly structure of the present invention, FIG. 2 is an exploded view of a dome-shaped multipurpose assembly structure of the present invention, and FIG. 3 is a block diagram of a dome-shaped multipurpose assembly structure of the present invention.

1 to 3, the dome-shaped multipurpose assembly structure of the present invention (hereinafter 'dome structure') is a dome-shaped assembly structure, including a dome structure 100, the support portion 200, In addition, the main rotary motion 300, the floor rotational movement 400 is configured to further include.

In particular, the dome structure 10 of the present invention is easy to install in flat open areas such as grasslands, deserts, moorland, vacant land, and physically blocks the effects transmitted from the external environment, so it is carried or installed into the dome structure 10. Depending on the item, it can be used for a variety of purposes, such as homes, offices, and warehouses.

In addition, since the dome structure 10 of the present invention can obtain hot water or produce electricity by using sunlight and solar heat, even in underdeveloped countries or regions where infrastructure is poor, people can live or work for a long time effectively.

Specifically, the multipurpose assembly structure of the dome shape of the present invention,

A dome structure 100 having a plurality of triangular unit structures 101 coupled to each other to form a dome shape;

And a support part 200 supporting the lower side of the dome structure 100 so that the dome structure 100 is formed at a predetermined height from the ground.

The dome structure 100,

A plurality of triangular unit structure 101 is mechanically assembled by a plurality of fastening members 120 to form a dome shape,

When the dome structure 100 is formed by the plurality of unit structures 101, a predetermined number of unit structures 101 form one unit structure layer 110, and the formed unit structure layer 110 is formed. They form a dome shape in a laminated structure.

4 is an exploded view of a unit structure of the dome-shaped multipurpose assembly structure of the present invention, FIG. 5 is a first unit structural view of the dome-shaped multipurpose assembly structure of the present invention, and FIG. 6 is a dome-shaped multipurpose assembly of the present invention. A second unit structural view of the structure.

4 to 6, the dome structure 100 is a structure in which triangular unit structures 101 are coupled to each other to form a dome shape, and the dome structure 100 has an internal space having a predetermined size. People can enter and leave the interior spaces and carry and install various items.

Here, the plurality of triangular unit structures 101 are mechanically assembled together by the plurality of fastening members 120, and the fastening members 120 used refer to bolts and nuts.

At this time, the material of the plurality of triangular unit structures 101 should be durable enough to withstand from the external environment by applying a metal material or synthetic resin.

In addition, the individual sizes of the plurality of triangular triangular unit structures 101 should be formed to a size that can be lifted by a human, so that it is possible to assemble and dismantle by human labor using a ladder and a general tool without using heavy equipment. .

Referring to FIG. 4, when a dome-shaped dome structure 100 is formed by the plurality of unit structures 101, a predetermined number of unit structures 101 form one unit structure layer 110. The formed unit structure layers 110 form a dome shape in a stacked structure.

In particular, the plurality of unit structures 101 constituting the unit structure layer 110 are formed such that the vent holes 130 are formed as shown in the bottom left enlarged view of FIG. 4, or the vent holes are not formed as shown in the bottom right enlarged view of FIG. 4. The unit structures 101 are combined.

To this end, the plurality of unit structures 101 constituting the unit structure layer 110 may include a first unit structure 102, a second unit structure 103, a third unit structure 104, and a fourth unit structure ( At least one of 105).

That is, the plurality of triangular unit structures 101,

A plurality of first unit structures 102 formed of a triangular frame and having one side surface having a triangular surface portion;

A plurality of second unit structures 103 formed of a triangular frame and having bent portions formed at corners of one side thereof;

A plurality of third unit structures 104 formed of a triangular frame, one side of which has a triangular surface portion, and one vertex portion of which is chamfered;

It is formed in a triangular frame, the bent portion is formed in the corners of one side, any one vertex portion includes at least one or more of the plurality of fourth unit structure 105 chamfered.

That is, the dome structure 100 of the present invention may be formed of only one of the first to fourth unit structures, or may be formed by a combination of at least two or more unit structures selected from the first to fourth unit structures. Detailed description thereof will be provided later.

The chamfering treatment of the third unit structure 104 and the fourth unit structure 105 may be a straight chamfer or a circular chamfer.

Referring to FIG. 5, the first unit structure 102 is configured to have the most basic shape among the unit structures 101, and is formed in a triangular frame as shown in FIG. 5, and one side thereof is triangular in shape. It is formed to have a face portion of.

On one side of the triangular frame, coupling fastening holes for coupling with other unit structures are formed, and the first unit structure 102 is coupled to the triangular surface to face the first unit structure 102. Form.

5 shows an example in which six first unit structures 102 are combined.

At this time, the inner surface of the first unit structure 102 may be provided with a heat insulating material 510 or a cooling and heating tank 520.

The heat insulator 510 is configured to reduce the influence of the external temperature transmitted to the dome structure 10, and the water tank 520 is a bucket in which cooling and cooling water circulated for cooling and heating is stored.

When the water tank 520 is formed on the inner surface of the first unit structure 102 of the plurality of first unit structures 102, the air-conditioning water stored in the water tank 520 is different from one tank 520 to another tank. A circulation pipe for moving and circulating to 520 is formed.

That is, through the circulation pipe connecting the water tank 520 and the water tank 520, the heated or cooled air-conditioning water is continuously cyclized from one tank 520 to another tank 520, even in summer and winter The internal temperature of the dome structure 10 is kept constant.

In addition, it will be obvious to configure a circulator to allow the cooling and heating water stored in the tank to circulate through the circulation pipe.

Referring to FIG. 6, the second unit structure 103 is formed in a triangular frame, and bends are formed at edges of one side.

On one side of the triangular frame, coupling fastening holes for coupling with other unit structures are formed, and the second unit structure 103 is coupled to the bent portion toward the outside to form the first unit structure 102. do.

6 illustrates an example in which six second unit structures 103 are combined.

In this case, unlike the first unit structure 102, the second unit structure 103 has a through surface, and attaches a glass window member 530 or a decoration member 540 to the through surface portion to provide light or aesthetic elements. can do.

7 illustrates an example in which six third unit structures 104 are combined with an example in which six fourth unit structures 105 are combined.

Referring to the left figure of FIG. 7, the third unit structure 104 is formed of a triangular frame, one side of which has a triangular surface portion, and one vertex portion of the configuration is chamfered, When the three-unit structure 104 is mutually coupled to the ventilation hole 130 is formed in the center.

The inner surface of the third unit structure 104 may be provided with a heat insulating material 510 or a cooling and heating tank 520 similar to the first unit structure 102.

Referring to the right figure of FIG. 7, the fourth unit structure 105 is formed of only a triangular frame, and a corner portion of the fourth unit structure 105 is chamfered, and the plurality of fourth unit structures 105 are coupled to each other. If so, the vent 130 is formed in the center.

Like the second unit structure 103, the window unit 530 or the decorative member 540 may be attached to the inner surface of the fourth unit structure 105 to provide light or aesthetic elements.

In the above, the example in which the dome structure 100 is formed of only one of the first to fourth unit structures 102, 103, 104, and 105 has been described. However, the dome structure 100 of the present invention includes at least two or more units selected from the first to fourth unit structures. It can be formed by a combination of structures.

That is, the first unit structure and the second unit structure combination, the first unit structure and the third unit structure combination, the first unit structure and the fourth unit structure combination, the second unit structure and the third unit structure combination, and the second unit structure The dome structure 100 may be formed as a combination of the fourth unit structure, the combination of the third unit structure and the fourth unit structure, the combination of the first, second and third unit structures, and the combination of the second, third and fourth unit structures.

Referring to the lower figure of FIG. 7, solar cells 550 absorbing sunlight to generate electricity on the outer surfaces (triangular surface portions) of the first unit structure 102 and the third unit structure 104. Can be installed.

Here, the electricity produced by the photovoltaic cell 550 may supply electricity necessary for various components of the dome structure 10 or may be partially stored and used effectively at night or in rainy weather.

Therefore, the dome structure 10 of the present invention provides a stable living space for the user who lives therein, and uses the electricity produced by the solar cell 550 as a power source for various facility devices installed in the dome structure 10. This allows people to live longer and self-sufficiently in underdeveloped countries or regions with poor infrastructure.

Referring to Figure 8 will be described for the vent 130 of the present invention.

The vent 130 is a hole formed by the combination of the third unit structures 104, the combination of the fourth unit structures 105, and the combination of the third unit structures 104 and the fourth unit structures 105. It is possible to install devices related to the dome structure 100.

Referring to FIG. 8, related devices that may be installed in the vent 130 are a fan 131, a glass window 132, a convex lens 133, and a decorative finishing unit 134.

Here, the ventilator 131 is configured for internal and external ventilation of the dome structure 100, the glass window 132 is configured for light, and the convex lens 133 receives sunlight from the dome structure 100. A lens that focuses a specific point inside.

In this case, when a plurality of convex lenses 133 are installed in the plurality of ventilation holes 130, all the convex lenses 133 are installed to condense to a specific point inside the dome structure 100.

In this case, a water tank in which water heated by using the sunlight condensed by the plurality of convex lenses 133 is stored at the condensing point, and the heated water is moved to the water tank 520 installed in the unit structure to move the dome structure ( 100) available for internal heating.

On the other hand, the decorative finish 134 is to add aesthetic elements, for example, may be a glass window decorated with a mosaic.

If no related device is configured in the vent 130, it acts as a simple vent.

1 and 2, the support part 200 is configured to support the lower side of the dome structure 100 so that the dome structure 100 is formed at a predetermined height from the ground.

Referring to FIG. 9, the support part 200 includes a plurality of support parts 210 and a plurality of blocking wall parts 220, and the support parts 210 are installed in the blocking wall part 220. As a supporter for supporting the dome structure 100, a structure in which the height can be mechanically adjusted by the hydraulic tool is applied, as shown in the upper right enlarged view of FIG. 9.

Therefore, the user can raise or lower the hydraulic movement unit 211 by using the hydraulic tool, thereby adjusting the height of the dome structure 100 from the ground.

In addition, the blocking wall portion 220 is provided with a plurality of support portion 210 is inserted in the interior, the lower side of the dome structure 100 to allow the interior of the dome structure 10 to be blocked from the outside.

Referring to the upper left enlarged view of FIG. 9, the blocking wall part 220 includes a blocking wall 221 formed of a plurality of iron wires in a truss type network structure, and yellow soil, rice straw, etc. in an inner space of the blocking wall 221. Insulating filler 222 including a filling is filled to form a blocking wall portion 220.

In this case, the insulation filler 222 may be filled using materials easy to procure locally, such as sand, gravel, stone, tree branches, depending on the place and environment in addition to the loess, rice straw.

Meanwhile, when one of the plurality of blocking walls 220 is replaced with the door 223, the user may enter the dome structure 10.

1 and 2, the dome structure 10 of the present invention further comprises a main rotary motion 300, the main rotary motion 300 is between the dome structure 100 and the support 200 The dome structure 100 is rotated on the support part 200.

Referring to FIG. 10, the main rotary motion part 300 includes a first main guide plate 310, a second main guide plate 320, a plurality of ball bearings 330, and a main driving part 340.

Here, the first main guide plate 310 is formed along the lower side of the dome structure 100, the second main guide plate 320 is formed along the upper side of the support portion 200, respectively, See 11.

In this case, a plurality of ball bearings 330 are formed in the space between the first main guide plate 310 and the second main guide plate 320, and a thrust ball bearing method is applied.

In addition, the main driving unit 340 provides a driving force to rotate the first guide plate 310 in a ball bearing manner on the second guide plate 320 and is configured to include a drive motor and the motor is a commercial power source or a solar cell Power is supplied from 550.

Accordingly, the main rotary motion part 300 causes the dome structure 100 to be rotated on the support part 200 by the driving force of the main driving part 340 by a thrust ball bearing method.

On the other hand, the dome structure 10 of the present invention is configured to further comprise a floor rotational movement 400, the floor rotational movement 400 is formed between two adjacent unit structure layer 110, two adjacent units The upper unit structure layer 110 of the structure layer 110 is configured to rotate relative to the lower unit structure layer 110, the function and configuration of the main rotary motion 300 is the same.

Referring to Figure 11, the dome structure 10 of the present invention may be installed at least one or more floor rotational movement 400, the floor rotational movement 400 is the first floor guide plate 410, the second floor guide The plate 420, the ball bearing 430, and the floor driving unit 440 are configured to be included.

Here, the first layer-specific guide plate 410 is formed along the lower side of the upper unit structure layer 110 of the two adjacent unit structure layer 110, the second layer-specific guide plate 420 is two adjacent It is formed along the upper side of the lower unit structure layer 110 of the unit structure layer (110).

In addition, the ball bearings 430 are formed in plural on the second floor guide plate 420, and like a ball bearing 330 of the main rotary motion part 300, a thrust ball bearing method is applied.

In addition, the floor driving unit 440 provides a driving force to rotate the first floor guide plate 410 on the second floor guide plate 420 in a ball bearing manner and comprises a drive motor and the motor is a commercial power source or solar Power is supplied from the photo cell 550.

Therefore, the floor rotational movement unit 400 is the upper unit structure layer 110 of the two unit structure layer 110 adjacent to the lower unit structure layer 110 by the driving force of the floor drive unit 440 by the thrust ball bearing method. To rotate.

12 is an exemplary diagram in which a dome opening and closing mechanism is applied to a multi-purpose assembly structure having a dome shape of the present invention.

Referring to FIG. 12, the dome structure 10 of the present invention further includes a dome opening and closing mechanism 600, and the dome opening and closing mechanism 600 is a unit structure 101 formed at a ceiling position of the dome structure 100. It is an exercise device by the hinge system to open and close a part of).

Therefore, the dome opening and closing mechanism 600 may be installed by using an electric motor to be opened and closed using electricity produced by the photovoltaic cell 550, or may be applied by a manpower.

In particular, the dome structure 10 of the present invention can be applied to the structure that the ceiling is opened and closed to move the heavy objects in and out of the structure by using heavy equipment such as a crane through the open ceiling, the weather or the season is good In this case, direct sunlight of the sun may be irradiated into the dome structure 10.

Although the technical spirit of the present invention has been described above with reference to the accompanying drawings, this is intended to exemplarily describe preferred embodiments of the present invention and not to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

10: dome structure
100: dome structure
101: unit structure
200: support part
300: main rotary motion part
400: floor rotation movement unit
510: insulation
520: Tank
530: glass window member
540: decorative member
550 solar cell
600: dome opening and closing mechanism

Claims (12)

In the dome-shaped multipurpose assembly structure,
A dome structure 100 having a plurality of triangular unit structures 101 coupled to each other to form a dome shape;
And a support part 200 supporting the lower side of the dome structure 100 so that the dome structure 100 is formed at a predetermined height from the ground.

The dome structure 100,
A plurality of triangular unit structures 101 are mechanically assembled by a plurality of fastening members 120 to form a dome shape, and a predetermined number of unit structures 101 form one unit structure layer 110 The formed unit structure layers 110 form a dome shape in a stacked structure, and the upper unit structure layer 110 of two adjacent unit structure layers 110 is rotated with respect to the lower unit structure layer 110. ,

The plurality of triangular unit structures 101,
A plurality of first unit structures 102 formed of a triangular frame and having one side surface having a triangular surface portion;
A plurality of second unit structures 103 formed of a triangular frame and having bent portions formed at corners of one side thereof;
A plurality of third unit structures 104 formed of a triangular frame, one side of which has a triangular surface portion, and one vertex portion of which is chamfered;
Is formed in a triangular frame, the bent portion is formed at the corners of one side, any one vertex portion includes at least one or more of the plurality of fourth unit structure 105, the chamfered,
The dome structure 100 may be formed of any one of the first to fourth unit structures, or may be formed by a combination of at least two or more unit structures selected from the first to fourth unit structures.

Among the inner surfaces of the plurality of first unit structures 102 and the third unit structure 104, a plurality of heat insulating materials 510 are installed on some of the inner surfaces of the plurality of first unit structures 102 and the cooling units for cooling and heating. The tank 520 to be stored is installed,
Dome-shaped multi-purpose assembly structure, characterized in that the circulation tube is formed between the water tank 520 and the water tank 520 is circulated from one tank 520 to another tank 520.
The method of claim 1,
It is formed between the dome structure 100 and the support portion 200, the main rotary motion portion 300 to rotate the dome structure 100 on the support portion 200;
The main rotary motion 300,
A first main plate 310 formed along a lower surface of the dome structure 100,
A second main guide plate 320 formed along an upper surface of the support part 200,
A plurality of ball bearings 330 formed on the second main guide plate 320,
Dome-shaped multi-purpose assembly structure characterized in that it comprises a main drive unit 340 for providing a driving force to rotate the first main guide plate 310 in a ball bearing manner on the second main guide plate (320).
The method of claim 1,
It is formed between two adjacent unit structure layer 110, the layer-based rotational movement 400 to the upper unit structure layer 110 of the two adjacent unit structure layer 110 is rotated with respect to the lower unit structure layer 110 More;
The floor rotation movement unit 400,
The first layer-specific guide plate 410 formed along the lower side of the upper unit structure layer 110,
A second layer-specific guide plate 420 formed along the upper side of the lower unit structure layer 110,
A plurality of ball bearings 430 formed on the second layered guide plate 420,
The first floor guide plate 410 includes a floor drive unit 440 for providing a driving force to be rotated on the second floor guide plate 420 in a ball bearing manner,
The floor rotational movement unit 400 is a multi-purpose assembly structure of the dome shape, characterized in that formed at least one.
delete The method of claim 1,
A plurality of vents 130 are formed at a predetermined position of the dome structure 100,
The ventilation holes 130 are formed by the combination of the plurality of third unit structures 104, are formed by the combination of the fourth unit structures 105, or the plurality of the third unit structures 104 and the fourth unit. Dome-shaped multipurpose assembly structure, characterized in that formed by the combination of the structures (105).
The method of claim 5,
In the plurality of ventilation holes 130,
A ventilator 131 for ventilating the interior and exterior of the dome structure 100, a glass window 132 for viewing the inside of the dome structure 100, and a convex for condensing light at a specific point inside the dome structure 100. Dome-shaped multi-purpose assembly structure, characterized in that the lens 133, the decorative finishing portion 134 for closing the vent 130 is installed.
delete The method of claim 1,
The second unit structure 103 and the fourth unit structure 105 is provided with at least one of the glass member 530 for the light and the decorative member 540 for decorating the outside of the dome structure 100 is installed. A multipurpose assembly structure of a dome shape.
The method of claim 1,
Dome-shaped multi-purpose assembly structure, characterized in that the first unit structure (102) and the third unit structure 104, the outer surface of the solar cell (550) for producing electricity using solar light is further formed.
The method of claim 1,
The support unit 200,
A plurality of struts 210 supporting the dome structure 100,
Dome-shaped multi-purpose assembly structure, characterized in that the holding portion 210 is inserted into the installation, and comprises a plurality of blocking wall 220 to block the inside of the multi-purpose assembly structure of the dome-shaped.
The method of claim 10,
The holding portion 210,
Dome-shaped multi-purpose assembly structure, characterized in that the height can be adjusted mechanically by the hydraulic tool. The method of claim 10,
Each of the plurality of blocking walls 220,
Block wall 221 is a truss-type network structure a plurality of wires,
Dome-shaped multi-purpose assembly structure, characterized in that it comprises a filler 222 for insulation filled in the barrier wall 221 for the insulation.

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