JP2011151901A - Decorated material with non-contact power feed function, and planar structure with non-contact power feed function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a decorated material with a non-contact power feed function, capable of facilitating an arrangement of power feed areas according to the needs of users or a change in the feeding areas due to a change in room layout, and to provide a planar structure with a non-contact power feed function. <P>SOLUTION: A power feed floor material 11A which is a floor material subjected to flooring finishing is such that a non-contact power feed unit 1b having a function of feeding power by non-contact power transmission is incorporated on a floor material outer frame 11a formed in a rectangular long shape by bonding a surface finishing material such as a pushing plate or a decorated sheet on, for example, the surface of a plate-like material. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a decorative material with a non-contact power feeding function and a planar structure with a non-contact power feeding function.

  Conventionally, power distribution systems installed in buildings such as houses, offices, stores, factories, etc. have openings in the decorative materials that make up the walls, ceilings, and floors of the buildings, and the outlets and hook ceilings installed in these openings A contact (conductor) provided directly on the load device or a contact provided via a connecting line directly contacts a contact outlet such as a power supply to each load device.

  However, in order to install outlets such as outlets, it is necessary to provide openings on the wall surface, ceiling surface, and floor surface of the building, and the appearance of the building after installation is not good. Further, the user needs to connect the contact of the load device to an outlet such as an outlet, and there is a risk of electric shock because the conductor for power supply is exposed.

  Therefore, a configuration is proposed in which a non-contact power feeding part (primary coil) that generates a high-frequency magnetic field is embedded in the floor, wall, and ceiling of the building, and power is supplied using the high-frequency magnetic field generated by the non-contact power feeding part. (For example, see Patent Document 1).

JP 2005-159683 A

  In the configuration of Patent Document 1, a portion where a non-contact power feeding unit is embedded can be used as a power feeding area among a floor surface, a wall surface, and a ceiling surface. However, the degree of freedom of arrangement such as the position and number of power supply areas and the ease of changing the position and number of power supply areas have not been considered. That is, it is difficult to cope with the arrangement change of the power supply area according to the arrangement of the power supply area according to the user's needs and the layout change of the room.

  The present invention has been made in view of the above-described reasons, and the object thereof can easily cope with the change of the power supply area according to the arrangement of the power supply area according to the needs of the user or the layout change of the room. The object is to provide a decorative material with a non-contact power feeding function and a planar structure with a non-contact power feeding function.

  According to the first aspect of the present invention, an outer shell constituting a decorative material disposed on a part of a floor, a wall, or a ceiling of a building, and a load device by supplying power to a non-contact power receiving unit in a non-contact manner by non-contact power transmission. And a non-contact power feeding unit that supplies electric power.

  According to the present invention, by using a decorative material disposed on a part of the floor, wall, or ceiling of the building as the non-contact power feeding unit, the arrangement of the power feeding area according to the needs of the user, the layout change of the room, and the like Therefore, it is possible to easily cope with the change of the power supply area accompanying the.

  The invention of claim 2 is the building material panel according to claim 1, wherein the outer shell forms a part of a floor surface, a wall surface, or a ceiling surface of a building and is a structural unit of the floor surface, the wall surface, or the ceiling surface. It is characterized by.

  According to the present invention, the floor surface or wall surface of the building or the ceiling surface can be used as a power feeding surface for load equipment installed on the floor, wall, or ceiling. There is no need to provide an outlet in the building, and construction can be simplified. In addition, since the feeding member does not protrude, the floor, wall, and ceiling of the building look good, and further, it does not get in the way.

  The invention of claim 3 is characterized in that, in claim 1, the outer shell is a baseboard provided at a parting portion between the wall surface and the floor surface.

  According to the present invention, the placement of load devices such as a television and a wireless speaker, which has conventionally been restricted by the position of the wall outlet, can be freely arranged, and the choices of layout of the load devices and furniture are increased.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the non-contact power feeding section is built in the outer shell.

  According to this invention, since the non-contact power feeding part is built in the outer shell as the decorative material, the power feeding member does not protrude, the appearance is improved, and further, it does not get in the way.

  The invention according to claim 5 forms a part of the floor surface or wall surface or ceiling surface of the building and forms a building material panel as a structural unit of the floor surface or wall surface or ceiling surface, and non-contact power transmission. A non-contact power supply decorative material having a non-contact power supply unit that supplies power to a load device by supplying power to the non-contact power receiving unit by contact, and an outer shell constituting the building material panel, the non-contact power supply unit Both decorative materials, which are not provided with non-contact power supply function-free decorative materials, are mixedly disposed on the floor, wall, or ceiling of the building.

  According to this invention, by using a building material panel that forms a part as a structural unit of a floor surface, a wall surface, or a ceiling surface of a building as a non-contact power feeding unit, the arrangement of power feeding areas according to the needs of the user, the room It is possible to easily cope with a change in the power supply area accompanying a change in the layout.

  According to a sixth aspect of the present invention, there is provided a cosmetic material unit according to the fifth aspect, wherein the decorative material unit is formed integrally with the one or more cosmetic materials with the non-contact power feeding function and the one or more cosmetic materials without the non-contact power feeding function. Or it arrange | positions to a wall or a ceiling, It is characterized by the above-mentioned.

  According to this invention, construction becomes easy and the number of construction steps is reduced.

  The invention of claim 7 is characterized in that, in claim 5 or 6, the decorative material with the non-contact power supply function and the decorative material without the non-contact power supply function are alternately arranged in parallel on the floor, wall or ceiling of the building. And

  According to the present invention, power is supplied to a load device regardless of the position of the load device on the floor surface, the wall surface, or the ceiling surface, even if the floor surface, the wall surface, or the ceiling surface is not configured only by the decorative material with a non-contact power supply function. It becomes possible. Therefore, there is no restriction on the arrangement of the load devices, and usability is improved at a low cost.

  The invention of claim 8 is characterized in that, in any of claims 5 to 7, the non-contact power feeding section is built in the outer shell.

  According to this invention, since the non-contact power feeding part is built in the outer shell as the decorative material, the power feeding member does not protrude, the appearance is improved, and further, it does not get in the way.

  As described above, in the present invention, in the non-contact power supply system built in the building, it is easy to cope with the change of the power supply area according to the arrangement of the power supply area according to the user's needs, the room layout change, etc. There is an effect that can be.

It is a top view which shows the structure of the electric power feeding floor material of (a) (b) embodiment. It is a block diagram which shows the structure of a load apparatus same as the above. It is the schematic of the room in a building provided with the non-contact electric power feeding system same as the above. It is a top view which shows the structure of the planar structure with a non-contact electric power feeding function same as the above. (A) (b) It is a top view which shows the structure of another electric power feeding unit same as the above. It is a top view which shows the structure of another planar structure with a non-contact electric power feeding function same as the above. (A) (b) It is a top view which shows the structure of another electric power feeding floor material same as the above. It is a top view which shows the structure of another planar structure with a non-contact electric power feeding function same as the above. (A) (b) It is a top view which shows the structure of another electric power feeding floor material same as the above. It is a top view which shows the structure of another planar structure with a non-contact electric power feeding function same as the above. (A) (b) It is a top view which shows the structure of the power supply baseboard same as the above. (A) (b) (c) It is a top view which shows the structure of the normal cosmetics same as the above.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment)
In the present embodiment, a decorative material with a non-contact power supply function (hereinafter referred to as a power supply cosmetic material) and a floor, a wall, and a ceiling (a planar structure with a non-contact power supply function) partially using the power supply cosmetic material will be described. To do. First, FIG. 1 (a) (b) has shown the external appearance structure of the electric power feeding decorative material 11A (henceforth the electric power feeding floor material 11A) which comprises a flooring. And the non-contact power feeding unit 1b.

  The floor material outline 11a is a floor material that has been subjected to flooring finish, and is formed into a rectangular long shape by bonding a surface finishing material such as a veneer or a decorative sheet to the surface of a plate-like material, for example. Then, a plurality of floor material outlines 11a are arranged in a room provided in a building such as a house, office, store, or factory to form the floor of the room. That is, the floor material outline 11a constitutes a building material panel that is a structural unit of the floor surface. The floor shell 11a has a non-contact power feeding portion 1b built in, and a power input terminal (not shown) for supplying commercial power to the non-contact power feeding portion 1b is provided on the outer surface. Sending wiring is also possible between them. The external appearance of the power supply flooring 11A is a non-contact power supply function-less decorative material 11B (hereinafter, referred to as a normal flooring 11B) that constitutes a flooring that includes only the flooring shell 11a and does not incorporate the non-contact power supply unit 1b. (See FIG. 12A).

  The non-contact power feeding unit 1b has a function of supplying power by non-contact power transmission using a commercial power supply as an input. In the power feeding floor material 11A, substantially the entire region of the surface of the floor material outer shell 11a is a non-contact power feeding unit. It becomes the power supply surface M1 by 1b. For the non-contact power transmission, a known method such as an electromagnetic induction method, a magnetic field resonance method, an electric field resonance method, or the like is used. Note that each method of contactless power transmission is well known, and a description thereof will be omitted.

  And the non-contact electric power feeding part 1b supplies electric power to the load apparatus 2 non-contact by non-contact electric power transmission. As shown in FIG. 2, the load device 2 includes a non-contact power receiving unit 2a used in the non-contact power feeding system and a functional unit 2b of each load device (for example, an illumination function, an air conditioning function, a sensor function, a communication function, a speaker function, LAN hub function, heating function, etc.).

  The non-contact power receiving unit 2a has a function of receiving power in a non-contact manner from the non-contact power feeding unit 1b, and converts the received power into a desired DC voltage or AC voltage and supplies it to the functional unit 2b. The functional unit 2b operates using the output of the non-contact power receiving unit 2a as a driving power source. Further, the non-contact power receiving unit 2a has a configuration in which the non-contact power receiving unit 2a is formed as a single unit in addition to the configuration integrated with the functional unit 2b in the load device 2, and the device main body including the functional unit 2b is connected via a power cord. It may be configured to supply drive power.

  In the present invention, a non-contact power supply system is configured by using a power supply decorative material such as a power supply flooring 11A, and FIG. 3 is a schematic view of a room R1 in the building including the non-contact power supply system.

  The room R1 is surrounded by decorative materials such as a floor material 11 provided on the floor, a wall material 12 provided on the wall, and a ceiling material 13 provided on the ceiling. In addition, a baseboard 14 is disposed at a parting line between the floor surface and the wall surface of the room R1.

  As shown in FIG. 4, the floor is composed of a power supply flooring 11 </ b> A incorporating the non-contact power feeding unit 1 b and a normal flooring 11 </ b> B not incorporating the non-contact power feeding unit 1 b. It is comprised with the planar structure with a non-contact electric power feeding function arranged in parallel alternately. And if the width dimension of the floor material outer shell 11a is made smaller than the size of the load device 2 expected to be used, the load device 2 arranged on the floor surface is positioned on at least one power supply floor material 11A. Become. For example, when the electromagnetic induction method is used for non-contact power transmission, the non-contact power feeding portion 1b of the power feeding floor 11A generates a magnetic field on and near the power feeding surface M1, so that the load device 2 is on and near the power feeding surface M1. If it is located, it can receive power. Moreover, even if it is another non-contact electric power transmission system, it becomes possible to supply power to at least the load device 2 on the power supply surface M1.

  Thus, the load device 2 on the floor surface can receive power from the power supply floor material 11A arranged with a predetermined density and pattern with respect to the normal floor material 11B. Therefore, even if the floor surface is not configured only by the power supply flooring 11A, it is possible to supply power to the load device 2 regardless of the position of the load device 2 on the floor surface, and there is no restriction on the arrangement of the load device 2 and low Usability improves with cost.

  Further, as shown in FIG. 5 (a), a single flooring unit U1 is formed by integrally forming a single power supply flooring 11A and a plurality of normal flooring 11B arranged in parallel in the short direction. You may comprise (decoration material unit). In this case, of the surface of the floor unit U1, only the one-width region where the power supply flooring 11A is installed becomes the power supply surface M1. Usually, 2 to 4 normal floor materials 11B are combined with one power supply floor material 11A (in FIG. 5, two normal floor materials 11B are combined with one power supply floor material 11A. Have been). As shown in FIG. 6, floor units U1 are juxtaposed in the longitudinal direction on the floor, and the floor unit U1 adjacent in the short side direction is shifted from each other by, for example, half the length in the longitudinal direction. The design is improved. Thus, by using the flooring unit U1, it becomes easier to install the flooring unit 11A and the normal flooring 11B separately, and each flooring is arranged one by one, and the number of construction steps is reduced. The

  Further, as shown in FIG. 5 (b), the floor unit U1 is formed by integrally forming a plurality of plate members 111 obtained by dividing the floor covering 11a of the power supply floor 11A and the normal floor 11B in the longitudinal direction. It may be configured to improve design properties. In FIG. 5B, one floor material outline 11 a is composed of four plate members 111.

  In addition, the structure of a flooring unit is not limited to the structure of Fig.5 (a) (b), The 1st thru | or several electric power feeding flooring 11A and the normal flooring 11B are suitably combined with 1 thru | or a plurality as needed. What is formed integrally is sufficient.

  Moreover, as a power feeding floor material, as shown in FIGS. 7A and 7B, a power feeding floor material in which a substantially half region in the longitudinal direction of the surface of the floor material outer shell 11a is a power feeding surface M2 by the non-contact power feeding portion 1b. 11C may be used. As shown in FIG. 8, the floor is provided with a power supply flooring 11 </ b> C incorporating the non-contact power feeding unit 1 b and a normal flooring 11 </ b> B not incorporating the non-contact power feeding unit 1 b in the longitudinal direction of the floor material outline 11 a. Are alternately arranged in parallel. Furthermore, the floor material outline 11a of the power supply floor material 11C can be divided into a half body where the power supply surface M2 exists and a half body where the power supply surface M2 does not exist by cutting at the center in the longitudinal direction. Thus, when the design of the floor covering 11a adjacent to the room is improved by shifting the ends of the floor covering 11a adjacent to each other by a half dimension in the longitudinal direction, the floor covering 11a in contact with the edge of the room is fed. Regardless of the flooring material 11C and the normal flooring material 11B, it can be cut in half as necessary.

  Also in this case, if the width dimension of the floor material outline 11a is set according to the size of the load equipment 2 expected to be used, the load equipment 2 on the floor surface has a predetermined density / Electric power can be received from the power supply flooring 11C arranged in a pattern. Therefore, even if the floor surface is not configured only by the power supply floor material 11C, power can be supplied to the load device 2 regardless of the position of the load device 2 on the floor surface, and there is no restriction on the arrangement of the load device 2, and the Usability improves with cost.

  Moreover, as shown in FIGS. 9A and 9B, a power supply flooring 11D in which a non-contact power supply portion 1b is built in a square flooring outer shell 11d may be used as the power supply flooring. Substantially the entire area of the surface of 11d becomes a power feeding surface M3 by the non-contact power feeding portion 1b. The floor material outline 11d constitutes a building material panel which is a structural unit of the floor surface, and the external appearance of the power supply floor material 11D includes only the floor material outline 11d and does not include the non-contact power supply portion 1b. This is substantially the same as the material 11E (see FIG. 12B). As shown in FIG. 10, the floor is provided with power supply flooring 11D having a non-contact power feeding part 1b and normal flooring 11E having no non-contact power feeding part 1b alternately arranged vertically and horizontally. ing.

  Also in this case, if the dimension of the floor covering 11d is set in accordance with the size of the load equipment 2 that is expected to be used, the load equipment 2 on the floor surface has a predetermined density / pattern with respect to the normal floor 11E. It becomes possible to receive power from the power supply flooring 11 </ b> D arranged in the above. Therefore, even if the floor surface is not configured only by the power supply flooring 11D, power can be supplied to the load device 2 regardless of the position of the load device 2 on the floor surface, and there is no restriction on the arrangement of the load device 2, and the Usability improves with cost.

  Further, each of the decorative materials of the wall material 12 and the ceiling material 13 does not include the power supply cosmetic material (power supply wall material 12A, power supply ceiling material 13A) including the non-contact power supply portion 1b and the non-contact power supply portion 1b. Both normal decorative materials (normal wall material 12B and normal ceiling material 13B) can be installed. Furthermore, each outer wall of the wall material 12 and the ceiling material 13 constitutes a building material panel as a structural unit of the wall surface and the ceiling surface. Therefore, also on the wall surface and the ceiling surface, the load device 2 on the wall surface and the ceiling surface includes the normal wall material 12B, the power supply wall material 12A arranged in a predetermined density and pattern with respect to the normal ceiling material 13B, and the power supply ceiling. Electric power can be received from the material 13A.

  As mentioned above, the floor surface, wall, or ceiling is mixed with the power supply cosmetic material and the normal cosmetic material, so that the floor surface, wall surface, or ceiling surface of the building is fed to the load device 2 installed on the floor, wall, ceiling. Can be used as Therefore, it is not necessary to provide contact outlets such as outlets and hook ceilings on the floor, wall, and ceiling, and the construction can be simplified. Examples of the load device 2 include an air purifier, a fan, an electric kettle, and an electric carpet installed on the floor, an air conditioner installed on the wall, a lighting fixture, and an air conditioning appliance installed on the ceiling.

  Further, since the non-contact power feeding portion 1b is built in the outer shell as a decorative material, the power feeding member does not protrude, the appearance of the floor, wall, and ceiling of the building is improved, and further, it does not get in the way. In addition, you may provide the non-contact electric power feeding part 1b in the back surface (side which cannot be seen from a room) of the outline as a cosmetic material.

  In addition to the above-mentioned power supply flooring, the power supply decorative material may be composed of other decorative materials such as a baseboard, a frame, a surrounding edge, a waist wall, and a vertical wall. In this case, it is formed on the outline constituting the decorative material.

  For example, FIGS. 11A and 11B show an external configuration of a power supply decorative material 14A (hereinafter referred to as power supply baseboard 14A) that constitutes the baseboard, and the power supply baseboard 14A includes a baseboard outline 14a and And the non-contact power feeding unit 1b. The baseboard outline 14a is formed in a rectangular long shape by adhering a surface finishing material such as a veneer or a decorative sheet to the surface of a plate-like material, and a wall surface and a floor surface at the bottom of the wall in contact with the floor It is arrange | positioned at the parting part. The baseboard outline 14a incorporates a non-contact power supply portion 1b, and substantially the entire area of the surface of the baseboard outline 14a becomes a power supply surface M4 by the non-contact power supply portion 1b. The appearance of the power supply baseboard 14A is substantially the same as that of a normal baseboard 14B (see FIG. 12C) that includes only the baseboard outline 14a and does not include the non-contact power supply portion 1b.

  As shown in FIG. 3, the feeding baseboard 14A is disposed at the parting part between the wall surface and the floor surface, so that the load device 2 such as a television or a wireless speaker that is often disposed on the wall side or corner of the room R1. In contrast, power can be easily supplied. Therefore, the placement of the load device 2 such as a television or a wireless speaker, which has been conventionally limited by the position of the wall outlet, can be freely arranged, and layout options such as the load device 2 and furniture in the room R1 are increased.

  Thus, by using the decorative material disposed on a part of the floor, wall, or ceiling of the building as the non-contact power supply unit, the power supply decorative material is disposed in accordance with the arrangement of the load device 2 in the room R1. Therefore, it is possible to easily cope with the arrangement of the power supply area according to the user's needs. In addition, by changing the arrangement of the power supply decorative material, it is possible to easily cope with a change in the power supply area accompanying a change in the room layout or the like.

  Furthermore, the power supply cosmetic material at a high location is configured so that the load device 2 outputs a high voltage, and the power supply cosmetic material at a low location is configured so that the load device 2 outputs a low voltage. The installed power supply decorative material is designed to lower the voltage to ensure safety to the human body. For example, the feeding ceiling material 13A constitutes a high-pressure system, the feeding wall material 12A constitutes a low / medium-pressure system, and the feeding floor material 11A constitutes a low-pressure system.

  Further, when the electromagnetic induction method is used as the non-contact power supply method, the magnetic flux generated by the non-contact power supply unit 1b is obtained by attaching a magnetic plate (not shown) made of a plate-like magnetic metal or magnetic material to the power supply wall member 12A. Are linked to the magnetic plate, and the magnetic plate generates heat due to the eddy current. Therefore, since the magnetic plate functions as a heating panel, for example, by installing it in a bathroom or toilet, it is possible to relieve the cold in the winter bathroom or toilet.

  Furthermore, by providing the load device 2 with a magnet (not shown), the load device 2 can be attached to the surface of the magnetic plate. For example, if a lighting fixture provided with a magnet on the installation surface is used as the load device 2, the lighting fixture can be freely fixed on the magnetic plate, and power can be supplied from the feeding wall member 12A to the lighting fixture. Alternatively, if a remote control operation unit having a magnet on the installation surface is used as the load device 2, charging can be performed by fixing the remote control operation unit on the magnetic plate.

  Further, if a room slipper with a built-in PTC heater (PTC: Positive Temperature Coefficient) is used as the load device 2, the PTC heater is operated by the power supply from the power supply flooring 11A and the slipper is heated, for example, housework in the kitchen. Your feet won't get cold when you do.

  Moreover, each non-contact electric power feeding part 1b may be equipped with the electric power feeding determination means for determining whether the non-contact electric power receiving part 2a supplied with electric power from the said non-contact electric power feeding part 1b exists. This power supply determination means is configured to make a determination based on an electrical constant that changes depending on the presence or absence of the non-contact power receiving unit 2a serving as a power supply destination, or a non-contact serving as a power supply destination through communication performed with the non-contact power receiving unit 2a There is a configuration for authenticating the power receiving unit 2a. The non-contact power feeding unit 1b operates only when the non-contact power receiving unit 2a serving as a power supply destination is present, thereby preventing useless operations and suppressing power consumption, and further present in the power feeding area. Heat generation of the metal can be prevented.

  Moreover, it is comprised between the power supply cosmetics (11A, 11C, 11D, 14A, etc.) and the load apparatus 2 which are separated from each other, and is configured by a relay coil or the like to relay the power supplied from the power supply cosmetics and load You may provide the electric power relay means supplied to the apparatus 2. FIG. For example, if the power relay means is arranged in the top plate of the table installed on the floor surface, the power supplied from the power supply flooring is relayed to the IH cooking utensil on the table or the lighting fixture installed on the ceiling. be able to.

11A, 11C, 11D Feeding floor material 14A Feeding baseboard 11a, 11d Flooring material outline 14a Baseboard outline 1b Non-contact power feeding part M1 to M4 Power feeding surface 2 Load device 2a Non-contact power receiving part 2b Functional part

Claims (8)

  Non-contact power supply that supplies power to the load equipment by supplying power to the non-contact power receiving unit in a non-contact manner by non-contact power transmission and the outer shell that constitutes the decorative material disposed on the floor or wall or ceiling of the building A decorative material with a non-contact power feeding function, comprising:   The non-contact power feeding according to claim 1, wherein the outer shell is a building material panel that forms a part of a floor surface, a wall surface, or a ceiling surface of a building and is a constituent unit of the floor surface, the wall surface, or the ceiling surface. Functional cosmetics.   The cosmetic material with a non-contact power feeding function according to claim 1, wherein the outer shell is a baseboard provided at a parting part between a wall surface and a floor surface.   The said non-contact electric power feeding part is incorporated in the said outline, The cosmetic material with a non-contact electric power feeding function in any one of the Claims 1 thru | or 3 characterized by the above-mentioned. Forms part of the floor or wall surface or ceiling surface of the building, forms the building material panel that is the building unit of the floor surface or wall surface or ceiling surface, and non-contact power transfer to the non-contact power receiving unit by non-contact power transmission A cosmetic material with a non-contact power supply function including a non-contact power supply unit that supplies power to the load device by supplying power;
The building material panel is provided with an outer shell, and both the decorative material and the non-contact power supply function-less decorative material not provided with the non-contact power supply unit are mixedly disposed on the floor, wall, or ceiling of the building. Planar structure with non-contact power supply function.   A cosmetic material unit in which one or more cosmetic materials with a non-contact power feeding function and one or more cosmetic materials without a non-contact power feeding function are integrally formed is disposed on a floor, a wall, or a ceiling of a building. The planar structure with a non-contact power feeding function according to claim 5.   The non-contact power supply function-equipped cosmetic material and the non-contact power supply function-free cosmetic material are alternately arranged in parallel on a floor, a wall, or a ceiling of a building. Planar structure.   The planar structure with a non-contact power feeding function according to any one of claims 5 to 7, wherein the non-contact power feeding unit is built in the outer shell.

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