KR101661563B1 - Battery Rack - Google Patents

Abstract

A battery rack is disclosed. The battery rack comprises: at least one module slide configured to load a battery module; at least one post to which a side surface of the module slide is coupled; at least one side cover coupled to the post, configured to form an external side surface of the battery rack, and formed to be extended in a rear direction of the battery rack; a rear cover coupled to the post and configured to form a rear surface of the battery rack; a rear bracket coupled to the post wherein one surface of the rear bracket is attached to the rear surface of the battery rack to fix the battery rack; and an upper cover coupled to the post and configured to form an upper surface of the battery rack.

Description

Battery Rack {Battery Rack}

The present invention relates to an energy storage system, and more particularly to a battery rack.

The battery rack houses a plurality of batteries, and has a structure in which the batteries are piled up at regular intervals. The battery is vulnerable to shock, and a locking device is required to protect the battery from external battery vibration. When a battery needs to be contained in a container, it is necessary to fix the battery rack to the container in order to protect the battery from external shaking. There is a need in the art for a container with a battery rack to safely store the battery, and the present invention relates to a battery rack used in a container provided with a battery rack.

Also, if the battery is loaded in the battery rack, the battery will generate heat during operation. In this case, there is a vicious cycle in which the temperature of the ambient air rises due to the heat, which again serves to raise the temperature of the battery. When the temperature of the battery rises above a certain temperature, the life of the battery shortens and the battery function becomes problematic, so temperature control is important. Thus, there is a need in the art for a battery rack that has the ability to simply store the battery as well as to control the heat when the battery is activated.

Korean Patent Laid-Open Publication No. 2014-0061212 discloses an energy storage system capable of suppressing vibration of a tray inside a rack.

The present invention is intended to provide a battery rack for maximizing the amount of a battery that can be stored when a battery is stored in a container.

The present invention provides a battery rack for preventing heat generated from a plurality of batteries from diffusing to the surroundings when the battery is mounted on a battery rack and for firmly holding the battery rack against external vibration .

A battery rack according to an embodiment of the present invention includes at least one module slide on which a battery module can be loaded; One or more posts to which the sides of the module slide engage; One or more side covers joined to the posts, forming the outer surface of the battery rack, and extending in a rear direction of the battery rack; A rear cover coupled to the posts and constituting a rear surface of the battery rack; A rear bracket coupled to the posts and having one side attached to a rear surface of the battery rack to secure the battery rack; And an upper cover coupled to the posts and constituting the upper surface of the battery rack; . ≪ / RTI >

According to one embodiment of the present invention, when the battery is housed in the container, the amount of the battery that can be accommodated can be maximized.

According to an embodiment of the present invention, when the battery is mounted on the battery rack, the heat generated from the plurality of batteries is prevented from diffusing to the surroundings, and the battery rack can be firmly held by the external vibration.

Some of the embodiments are shown in the accompanying drawings, in which the features of the present disclosure referred to above are understood in detail, with the following detailed description, and with reference to the following embodiments. In addition, like reference numerals in the drawings are intended to refer to the same or similar functions throughout the several views. It should be understood, however, that the appended drawings illustrate only typical exemplary embodiments of the present invention, and are not to be considered limiting of its scope, and that other embodiments having the same effect may be fully recognized Please note.
1 shows a configuration in which two or more battery racks are arranged according to an embodiment of the present invention.
Figure 2 shows a module slide according to an embodiment of the invention.
FIG. 3 illustrates the arrangement relationship of posts and posts and module slides according to an embodiment of the present invention.
Figure 4 illustrates the coupling relationship of the posts and module slides according to one embodiment of the present invention.
Fig. 5 shows a coupling relationship between a post and a side cover according to an embodiment of the present invention.
FIG. 6 shows a coupling relationship between the post and the back cover according to an embodiment of the present invention.
7 illustrates a fan duct according to an embodiment of the present invention.
FIG. 8 shows a coupling relationship between the post and the upper cover according to an embodiment of the present invention.
FIG. 9 shows a coupling relationship between the post and the upper cover according to another embodiment of the present invention.

Various embodiments and / or aspects are now described with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more aspects. However, it will also be appreciated by those of ordinary skill in the art that such aspect (s) may be practiced without these specific details. The following description and the annexed drawings set forth in detail certain illustrative aspects of one or more aspects. It is to be understood, however, that such aspects are illustrative and that some of the various ways of practicing various aspects of the principles of various aspects may be utilized, and that the description set forth is intended to include all such aspects and their equivalents.

As used herein, the terms "an embodiment," "an embodiment," " an embodiment, "" an embodiment ", etc. are intended to indicate that any aspect or design described is better or worse than other aspects or designs.

In addition, the term "or" is intended to mean " exclusive or " That is, it is intended to mean one of the natural inclusive substitutions "X uses A or B ", unless otherwise specified or unclear in context. That is, X uses A; X uses B; Or when X uses both A and B, "X uses A or B" can be applied to either of these cases. It should also be understood that the term "and / or" as used herein refers to and includes all possible combinations of one or more of the listed related items.

It is also to be understood that the term " comprises "and / or" comprising " means that the feature and / or component is present, but does not exclude the presence or addition of one or more other features, components and / It should be understood that it does not. Also, unless the context clearly dictates otherwise or to the contrary, the singular forms in this specification and claims should generally be construed to mean "one or more. &Quot;

1 shows a configuration in which two or more battery racks are arranged according to an embodiment of the present invention. Although FIG. 1 shows a configuration in which two battery racks are arranged, this is merely exemplary and various shapes and various numbers of battery racks may also be included within the scope of the present invention.

The battery rack of the present invention can be fixed to a container and used to store a large amount of batteries. The battery is vulnerable to shock, and a locking device is required to protect the battery from external battery vibration. When the battery is housed in a container, there is a need to secure the battery rack to the container to protect the battery from external shaking.

Export containers have a common standard according to the International Standardization Organization (ISO). Therefore, the transportation of the battery using the container may be restricted in the space for accommodating the battery according to the limited standard of the container. Therefore, it is necessary to utilize the limited space efficiently, and the battery rack according to the embodiment of the present invention can maximize the amount of the battery that can be safely stored in one container to provide a space for efficiently storing the battery .

The battery rack fixed to the container provides a space for accommodating the battery, but in some cases, it may be used to transport the battery in a state in which the battery is housed. In some cases, the battery may be transported while the power is on.

Figure 1 shows the overall appearance of a battery rack and the coupling of two or more battery racks. The ventilation hole 601 located in a part of the rear cover 6 can radiate heat generated in the device housed in the battery rack to the outside of the battery rack. And the side cover 5 may have an extended surface to block the hot heat gathered from the rear from spreading around.

The battery rack of the present invention can be made of a metal including iron, aluminum or the like, or can be made of a non-metallic material such as plastic, acrylic, or the like. Metals are mainly used in energy storage devices because of their high rigidity and easy molding properties. Non-metals such as plastics, acrylics, and synthetic resins have light properties and can be manufactured transparently depending on the application. Therefore, the battery rack of the present invention can be manufactured from various materials depending on the installation place and use.

According to an embodiment of the present invention, all the frames may be made of a bolting structure, and an additional fixing device may be added for a rigid coupling.

Regarding the stiffness of the battery rack, if a wall is disposed at the rear of the battery rack, the rear bracket 603 allows the battery rack and wall to be joined together to increase the seismic stiffness. Further, the upper bracket 701 of the battery rack may include a bolt hole 3 to which the cross bar 8 can be coupled. The cross bar 8 connects two or more battery racks with the battery rack to prevent the battery rack from being shaken by external vibrations. Hereinafter, additional details of the present invention will be described.

Figure 2 shows a module slide 2 according to an embodiment of the invention. Fig. 2 shows the coupling relationship between the battery module 1 and the module slide 2. Fig. The battery module 1 may include not only a battery but also a power supply for controlling the battery, a control device, a network device, and wires for connecting various devices. The battery can be manufactured in various forms by various manufacturers. In FIG. 2, the battery is represented in the form of a box for expressing a certain volume, and may include various shapes such as a circle, a polygon, and the like.

In order to accommodate batteries of various sizes, the module slide 2 may have various shapes according to the battery module 1. [ Fig. 2 shows that the module slides 2 are paired in such a manner that they can be respectively coupled to the right and left of the battery module 1, according to an embodiment. The battery module 1 and the module slide 2 may further include bolts, bolt holes, and nuts and may be coupled to each other.

As the shape of the module slide 2, it may have a plate shape whose cross section is bent at a right angle. In some cases, the module slide 2 may have a box-like shape into which the battery module 1 can be inserted. In order to facilitate mounting of the battery module 1, Method.

Fig. 3 shows the arrangement relationship of the post 4 and the post 4 and the module slide 2 according to an embodiment of the present invention.

The post 4 supports the module slide 2 and serves as a pillar for joining the cover of the battery rack exterior (the side cover 5, the rear cover 6, and the top cover 7 of the present invention). The post 4 may have the form of a bent plate, a cylinder, or a polygonal column.

FIG. 3 corresponds to one embodiment of the various embodiments, and the post 4 having a curved cross section can bear a heavier weight than a plate having a single cross section. As an example of a curved cross section, the cross section may be bent twice at right angles to bend inward, and then bent at right angles to bend outward to have a concave and convex partial shape.

The arrangement of the posts 4 shown in Fig. 3 illustrates a form in which the battery modules 1 are piled up in two rows. The battery rack of the present invention can take up only a part of the portion illustrated in FIG. 3 to stack up the battery module 1 in one row. By taking the repeated shape of the portion illustrated in FIG. 3 and arranging the battery module 1 in three or more rows Can be stacked.

The post 4 and the module slide 2 can be coupled using the bolts 301 and the nuts 302 and can include the bolt holes 3 to connect the bolts 301 and the nuts 302 .

Both ends of the post 4 may include a horizontal surface so that the post 4 can be vertically supported on the ground. The horizontal plane 4 may include a bolt hole 3 into which a bolt can be inserted. If there is a device to fasten the bolt on the floor where the battery rack is to be placed, the bolt hole (3) can serve to fix the bottom surface and the battery rack.

Also, in one embodiment of the present invention, the upper cover 7 may include a bolt hole 3 and may be combined with a bolt hole 3 located on a horizontal plane 401. When the upper bracket 701 is used, the upper bracket 701 may also include a bolt hole 3 communicating with the bolt hole 3 located in the horizontal plane 401.

4 shows the coupling relationship of the post 4 and the module slide 2 according to an embodiment of the present invention. The module slide 2 includes a latching protrusion 201 and one side of the post 4 includes a latching groove 402 into which the latching pin 201 of the module slide 2 can be inserted and coupled .

The protruding shape of the engaging pin 201 may be a protruding shape that can be simply inserted into the engaging groove 402, or a bent shape like a hook shape. The bent direction can be up, down or left and right, and can take various forms.

As one embodiment of the present invention, one side of the module slide 2 may be formed with a fixing groove 202 in which a cable can be fixed. Also, a fixing groove 403 for fixing the cable can be formed inside the bent section of the post 4. When the fixing grooves 202 and 403 are used, the cables connected to the battery module 1 can be directly fixed or the bundle of bundled cables can be fixed using an additional device.

Fig. 5 shows the coupling relationship of the post 4 and the side cover 5 according to an embodiment of the present invention. The post 4 and the side cover 5 can be directly fastened using the bolts 301 and the nuts 302. [ In the case where the end portion is vertically bent so as to form the thickness of the side cover 5 according to the embodiment of the present invention, the surface where the post 4 and the side cover 5 abut is spaced by the thickness of the side cover 5 .

The side bracket 404 may have a height equal to the thickness of the side cover 5 to fill the gap and include a bolt hole 3 communicating with the bolt hole 3 of the side cover 5. [ The side brackets 404 may have various forms that can fasten the posts 4 and the side cover 5. One side of the side bracket 404 is provided with a bolt hole 3 communicating with the bolt hole 3 of the side cover 5 when the side bracket 404 has several bent surfaces, And a bolt hole (3) communicating with the bolt hole (3) of the post (4).

On the other hand, referring to FIG. 5, it can be seen that the side cover 5 has a surface that is longer than the interval between the posts constituting the side surface of the battery rack. This is to form a closed space by bringing the side cover 5 into contact with the wall when the wall is disposed on the rear side of the battery rack. As a result, the hot air can not diffuse to the surroundings and can only move to the open part.

Fig. 6 shows the coupling relationship of the post 4 and the rear cover 6 according to an embodiment of the present invention. Basically, the rear cover 6 and the post 4 include bolt holes 3 that can engage with each other.

On the other hand, not only the battery module 1 but also additional devices housed in the battery rack can be housed in the battery rack. Such devices may include a control device for controlling the battery, a cooling device capable of regulating the temperature of the battery rack, an uninterruptible power supply (UPS) for stable power supply, or a ventilation device for controlling heat flow.

The rear cover 6 may include a ventilation hole 601 for discharging the heat of the additional device when there is an additional device accommodated in the battery rack. The ventilation hole 601 is not an essential component that must be necessarily provided in the battery rack of the present invention, and corresponds to an optional component. In one embodiment, an uninterruptible power supply (UPS) may be added within the battery rack. An uninterruptible power supply (UPS) is a device that provides stable power supply at all times while preventing power failure due to voltage fluctuation, frequency fluctuation, momentary power failure, transient voltage, etc. when using general power or standby power. Heat can be generated when an apparatus consuming power is added, and heat can be discharged through the ventilation hole 601 of the rear cover 6. The position of the ventilation hole 601 may be located at the upper or lower end of the battery rack depending on the position of the accommodated device, and the position of the ventilation hole 601 may vary.

The rear cover 6 may include a portion for controlling the battery module 1 or an opening portion 602 for exposing the cables connecting the battery module 1. The opening 602 is not an essential component that must be necessarily provided in the battery rack of the present invention, and corresponds to an optional component. In addition, the opening 602 may be formed in accordance with the size of the battery module 1, and a plurality of the opening 602 may be formed. In some cases, the opening 602 may be formed as a single large opening 602 through which the entire rear surface is exposed. The size, shape, position and number of openings 602 may vary depending on the device to be exposed. 6 shows one embodiment of the rear cover 6, and the position of the bolt hole 3 for engaging with the post 4 may also be variable.

The rear bracket (603) allows the wall and battery rack to be secured if the rear wall of the battery rack has a wall where the battery rack is located. The wall may include a fixed wall for separating a space located in the building, as well as a wall of a container used to move the battery rack. The fixing method may be a bolt hole 3, a bolt 301 and a nut 302 located in the bracket 603, or other fixing devices such as a cable and a hook may be used. In case of strong external shock or vibration such as an earthquake, the rear bracket 603 can protect the battery rack.

On the other hand, an empty space may be formed between the wall surface and the battery rack by the rear bracket 603. In this case, the heat generated by the battery-operated battery causes the air heated up to gather in the empty space. The diffusion of heat causes the hot air to spread to the surroundings and the surrounding air temperature to rise. The increase in the ambient temperature becomes one of the factors of the temperature rise of the battery, and as a result, the efficiency of the battery is lowered due to the temperature rise of the battery.

Therefore, it is necessary to control the hot air, and an extended portion of the side cover 5 is brought into contact with the wall to solve this problem. The extended side cover 5 forms a closed space on the rear side of the battery rack and can prevent hot air from escaping to both sides of the battery rack. In this case, the upper cover 7 is not extended to the wall surface, so that the upper part of the closed space can be opened. Therefore, the hot air collected at the rear side of the battery rack moves only to the upper open portion, and does not move in the lateral direction of the battery rack.

In some cases, a device for circulating air can be added, and this device can circulate air only at the upper part of the space where the battery rack is installed. The air on both sides of the battery rack is at a relatively lower temperature than when using a conventional energy storage device rather than the present invention. As a result, the efficiency of the battery can be improved by lowering the temperature of the battery through the present invention.

Figure 7 illustrates a fan duct 604 in accordance with one embodiment of the present invention. The fan duct 604 is not an essential component that must be necessarily provided in the battery rack of the present invention, and corresponds to an optional component. The fan duct 604 may have various specifications and shapes depending on the fan capacity, the specification of the battery module, and the like. The fan duct 604 according to an exemplary embodiment of the present invention may include a lid 605 and a fan module 606. The fan duct 604 is attached to the opening portion 602 and may have a plate shape having an area capable of covering the opening portion 602. The fan duct 604 is a device for moving the heat generated in the battery module 1. The lid 605 covers the whole of the opening 602 so as to prevent heat from flowing between the opening 602 and the fan duct 604. [ As shown in Fig.

According to an embodiment of the present invention, the edge of the opening 602 may include a bolt hole 3 for fastening with the lid 605. The lid portion 605 may include an engaging portion including a bolt hole 3 communicating with the bolt hole 3 located at the edge of the opening portion 602. The coupling portion helps to couple the opening portion 602 and the lid portion 605 using the bolts 301 and the nuts 302.

The lid 605 is attached to the fan module 606 to prevent leakage of heat. The lid 605 may have a single plate shape, or may be formed into a plurality of pieces and assembled. The lid portion 605 may include a bolt hole 3 in which the fan module 606 can be mounted.

The fan module 606 includes a fan for moving the heat generated from the battery module 1 in the rear direction according to an embodiment of the present invention and includes a bolt And a hole 3 may be provided. On the other hand, it is not necessary to use the bolt hole 3 and the bolt 301 as a means for coupling the fan module 606 with the lid portion 605. [ The fan module 606 or lid portion 605 may include grooves and protrusions that can engage with each other.

The fan duct 604 can collect the heat generated from the battery module 1 to the rear portion of the battery rack. As described above, the hot air collected at the rear side of the battery rack moves only to the upper open portion, and does not move in the lateral direction of the battery rack. The air on both sides of the battery rack is at a relatively lower temperature than when using a conventional energy storage device rather than the present invention. As a result, the efficiency of the battery can be improved by lowering the temperature of the battery through the present invention.

Fig. 8 shows an engagement relationship between the post 4 and the upper cover 7 according to an embodiment of the present invention. 8 shows a cross bar 8 which can be fixed by connecting the upper cover 7 and the upper cover 7 of another battery rack. The upper cover 7 may further include a bolt hole 3 through which the cross bar 8 can be coupled with the bolt 301.

The horizontal surface 401 of the post 4 and the upper cover 7 can be joined using the upper bracket 701. [ The horizontal surface 4 of the post and the upper cover 7 can be directly fastened using the bolts 301 and the nuts 302. The horizontal surface 401 of the post and the upper surface of the upper cover 7 abut the surface of the upper cover 7 by the thickness of the upper cover 7 when the end is vertically bent so that the upper cover 7 forms a thickness according to an embodiment of the present invention. Gaps can be formed.

The upper bracket 701 may have a height equal to the thickness of the upper cover 7 and may include a bolt hole 3 that fills the gap and communicates with the bolt hole 3 of the upper cover 7. The upper bracket 701 may have various shapes that can fasten the horizontal surface 401 and the upper cover 7 located in the post. One side of the upper bracket 701 has a bolt hole 3 communicating with the bolt hole 3 of the upper cover 7 when the upper bracket 701 has several bent surfaces, And the side surface may include a bolt hole 3 communicating with the bolt hole 3 of the horizontal surface 401 of the post.

Fig. 9 shows the coupling relationship of the post 4 and the upper cover 7 according to another embodiment of the present invention. 9 shows a cross bar 8 connecting and fixing the upper bracket 701 to the upper bracket 701 of another battery rack. The upper bracket 701 may further include a bolt hole 3 through which the cross bar 8 can be coupled with the bolt 301.

As shown in Fig. 9, the open face of the upper cover 7 is disposed to be exposed to the outside, and the upper bracket 701 can be disposed thereon and coupled.

The cross bar 8 may have a function of preventing the battery rack from being tilted back and forth due to a strong impact or vibration from the outside such as an earthquake when the battery rack of the present invention is arranged in plural.

The cross bar 8 can be coupled to the upper end of the battery rack and can be coupled to the upper cover 7 or the upper bracket 701. One embodiment of a method for attaching the cross bar 8 to the upper cover 7 corresponds to Fig. 8 and one embodiment of the method for attaching the cross bar 8 to the upper bracket 701 is shown in Fig. 9 . This is exemplary and various ways of combining a crossbar-like structure with a battery rack may be included within the scope of the present invention.

Further, the front portion of the present invention may be an open type in which the battery module 1 is exposed, and a door may be mounted. The door can be opened and closed with the opening and closing directions up and down or left and right in the case of the opening and closing type, and can be opened and closed in the form of a normal hinged door. The door may be made of a transparent material such as glass or plastic or may be made of the same material as the side cover 5, the rear cover 6, or the upper cover 7 of the present invention.

The description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features presented herein.

1: Battery module
2: Module slide
201: engaging pin 202: fixing groove
3: Bolt hole
301: bolt 302: nut
4: Post
401: horizontal plane 402: latching groove 403: fixing groove 404: side bracket
5: Side cover
6: Rear cover
601: Ventilation hole 602: Opening part 603: Rear bracket
604: fan duct 605: lid 606: fan module
7: Upper cover
701: upper bracket
8: Crossbar

Claims (10)

As a battery rack,
One or more module slides capable of loading battery modules;
One or more posts to which the sides of the module slide engage;
One or more side covers coupled to the posts and forming an outer surface of the battery rack and further extending as much as the length of the rear bracket in the rear direction of the battery rack;
A rear cover coupled to the posts and constituting a rear surface of the battery rack;
A rear bracket coupled to the posts and having one side attached to a rear surface of the battery rack to secure the battery rack; And
An upper cover coupled to the posts and forming a top surface of the battery rack;
Lt; / RTI >
The back cover
A bolt hole to allow the post and the rear bracket to be coupled by bolts and nuts;
A ventilation hole capable of moving heat generated in a device housed in the battery rack;
An opening through which the rear portion of the battery module is exposed, and a fan duct coupled to an edge of the opening; And
A fan duct coupled to the opening and having a number of one-to-one correspondence with the battery module;
, And
In the fan duct,
A lid part having a plate shape having an area capable of covering the opening part, the lid part being coupled to an edge of the opening part and including coupling means to which the fan module can be coupled; And
A fan module including a fan for moving heat in a rear direction, the fan module being coupled through engagement means of the lid;
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Battery rack.
The method according to claim 1,
The module slide has a plate shape whose cross section is bent at a right angle, and a vertical surface formed by bending
An engaging pin projecting to engage with the engaging groove of the post; And
A bolt hole through which the post can be engaged by the bolt and the nut;
To have,
The post is bent twice at right angles so that its cross section is curved inward and then bent at a right angle so as to bend outward to have a concave and convex partial shape,
A horizontal surface positioned at both ends and including a bolt hole into which the post can be vertically supported and into which a bolt can be inserted;
The latching groove for engaging with the latching pin of the module slide; And
A bolt hole communicating with a bolt hole of the module slide;
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Battery rack.
3. The method of claim 2,
Wherein a fixing groove capable of fixing a cable is formed on a vertical surface of the module slide or inside a bent section of the post,
Battery rack.
The method according to claim 1,
Further comprising a side bracket for engaging the post and the side cover,
Wherein the side cover includes a bolt hole in which one or more ends are vertically bent so as to form a thickness and the side bracket can be coupled by a bolt and a nut,
Wherein the side bracket has a height equal to the thickness of the side cover and includes a bolt hole communicating with the bolt hole of the side cover,
Battery rack.
delete delete delete The method according to claim 1,
Further comprising an upper bracket for engaging the posts and the upper cover,
Wherein the upper cover includes a bolt hole in which at least one end is vertically bent so as to form a thickness and the upper bracket can be engaged by a bolt and a nut,
Wherein the upper bracket has a height equal to the thickness of the upper cover and includes a bolt hole communicating with the bolt hole of the upper cover,
Battery rack.
9. The method of claim 8,
Further comprising a cross bar for connecting and fixing two or more battery racks,
Wherein the cross bar has a bolt hole that can be fixed to either the upper cover or the upper bracket by a bolt and a nut,
Wherein one of the upper cover and the upper bracket has a bolt hole communicating with the bolt hole of the cross bar,
Battery rack.
The method according to claim 1,
Wherein the battery rack further comprises one of an open-close type or a casement type at a front portion located at a front side of the rear cover,
Battery rack.

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