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CN110543023B - Virtual reality glasses for animation media - Google Patents

Virtual reality glasses for animation media Download PDF

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Publication number
CN110543023B
CN110543023B CN201910840638.9A CN201910840638A CN110543023B CN 110543023 B CN110543023 B CN 110543023B CN 201910840638 A CN201910840638 A CN 201910840638A CN 110543023 B CN110543023 B CN 110543023B
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China
Prior art keywords
telescopic
virtual reality
lens
reality glasses
adjusting mechanism
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CN201910840638.9A
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Chinese (zh)
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CN110543023A (en
Inventor
纪元元
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Dalian Jiaotong University
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Dalian Jiaotong University
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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/0093Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00 with means for monitoring data relating to the user, e.g. head-tracking, eye-tracking
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B27/0172Head mounted characterised by optical features
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B27/0176Head mounted characterised by mechanical features

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Testing, Inspecting, Measuring Of Stereoscopic Televisions And Televisions (AREA)

Abstract

The invention discloses virtual reality glasses for animation media, wherein the distance between two lens display modules is adjustable by a pupil distance adjusting mechanism, and the lens angle adjusting mechanism can adjust the space angle of the lens display modules, so that the angle adjustment of a lens can be realized, the pupil distance can be adjusted, and the visual experience of the animation media under the optimal angle and distance is ensured; according to the invention, the controller and the eyelid position detection sensor are arranged, the eyelid position detection sensor is arranged around the lens display module, and the eyelid position detection sensor can detect the spatial position of the eyelid of a wearer; like this, the controller can be according to eyelid position detection sensor's detected value, and automatic control is controlled pupil distance adjustment mechanism and lens angle adjustment mechanism, realizes the automatically regulated of pupil distance and the space angle of lens display module assembly, realizes the effect of experiencing under the angle vision of best.

Description

Virtual reality glasses for animation media
Technical Field
The invention relates to virtual reality glasses, in particular to virtual reality glasses for animation media.
Background
Virtual reality glasses utilize head-mounted display device to seal people's vision to the external world, guide the user to produce the sensation of one's own in the virtual environment. The display principle is that the left and right eye screens respectively display images of the left and right eyes, and the human eyes generate stereoscopic impression in the brain after acquiring the information with the difference. Common virtual reality glasses generally use the bandage to tie up the head with the glasses subassembly, and are not stable enough when fixing glasses through this mode, and the user body can rock because of instinctive reaction when using, can lead to glasses not hard up to drop, influence user experience to common virtual reality glasses are independent with the earphone subassembly, need wear extra earphone usually and just can hear the sound.
In addition, for virtual reality glasses, due to the fact that the requirements on experience effects are extremely high, and due to personal differences, the positions and distances between the lens and the positions of the eyes of each person are greatly different after the glasses are worn, so that a lot of different influences are generated on the experience effects, especially, spatial impacts such as color differences and positions generated by different visual angles of animations are completely different, and the visual experience effects are influenced.
Accordingly, the present invention is directed to virtual reality glasses for animated media to solve the problems set forth in the background art.
Disclosure of Invention
The present invention is directed to virtual reality glasses for animation media, which solve the above problems.
In order to achieve the purpose, the invention provides the following technical scheme:
virtual reality glasses for animation media comprise a virtual reality glasses component, a wearing component and earphone components, wherein the earphone components are arranged on two sides of the wearing component, the virtual reality glasses component is arranged on the front side of the wearing component, and the wearing component is arranged in a manner of adjusting the wearing tightness; it is characterized in that the preparation method is characterized in that,
the virtual reality glasses assembly comprises a shell seat, lens display modules, a pupil distance adjusting mechanism and a lens angle adjusting mechanism, wherein two symmetrical lens display modules are arranged on two sides in the shell seat, the distance between the two lens display modules is adjustable by the pupil distance adjusting mechanism, and the lens angle adjusting mechanism can adjust the space angle of the lens display modules;
the eyelid position detection sensor is arranged around the lens display module and can detect the spatial position of the eyelid of a wearer;
the controller can automatically control the pupil distance adjusting mechanism and the lens angle adjusting mechanism according to the detection value of the eyelid position detection sensor, so that the pupil distance and the space angle of the lens display module can be automatically adjusted.
Further, as preferred, the interpupillary distance adjusting mechanism and the lens angle adjusting mechanism are adjusted step by step in a pneumatic adjusting mode so as to realize adjustment and control of different interpupillary distances and lens angles.
Further, as preferred, camera lens angle adjustment mechanism includes the flexible post mechanism of adjusting and the fixed column of a plurality of parallels, and wherein, the lower extreme of each flexible post mechanism of adjusting is fixed the bottom in the regulation chamber of shell seat, pupil distance adjustment mechanism's bottom both ends articulate flexible post mechanism upper end, the fixed column is connected in the middle position in pupil distance adjustment mechanism's bottom, through the flexible control to each flexible post mechanism of adjusting, realizes the space angle of camera lens angle adjusts.
Further, as preferred, interpupillary distance adjustment mechanism includes many interpupillary distances and adjusts flexible post mechanism, and interpupillary distance is adjusted flexible post mechanism and is connected on the lateral wall of the unit seat of lens display module assembly rear end, and is right through the regulation of interpupillary distance between two lens display modules is realized to the flexible control of interpupillary distance adjustment flexible post mechanism.
Further, as preferred, interpupillary distance adjustment telescopic column mechanism with telescopic adjustment column mechanism's structure is the same, all includes atmospheric pressure flexible control assembly and air pressure controller seat, atmospheric pressure flexible control assembly by air pressure controller in the air pressure controller seat controls and stretches out and draws back step by step, so that the accuracy is adjusted atmospheric pressure flexible control assembly's flexible length, atmospheric pressure flexible control assembly fixed mounting is on the air pressure controller seat.
Further, as preferred, the flexible bag piece and the extension spring that atmospheric pressure flexible control assembly includes a plurality of adjacent connections and arranges, and each flexible bag piece constitutes telescopic ripple mechanism jointly, and every all be provided with flexible chamber in the flexible bag piece, realize right through the flexible bag piece's that the flexible chamber of control inflation is opened the flexible control assembly's flexible control step by step, the outside cover of flexible bag piece is equipped with the extension spring, the extension spring makes the flexible bag piece under the natural condition be in compression state.
Further, as preferred, two adjacent flexible bag pieces are communicated by an opening and closing electromagnetic valve, and the adjacent opening and closing electromagnetic valves are sequentially controlled, so that the stretching control of the pneumatic stretching control assembly is realized by controlling the number of the opening and closing electromagnetic valves.
Further, as preferred, be provided with porous structure's elastic buffer all around of the regulation chamber of shell seat, wear the subassembly and include left peg, right peg, first connecting station, second and connect platform and cramp ring, wherein, both ends and earphone subassembly fixed connection are controlled to the cramp ring, and two earphone subassembly tops are provided with left peg and right peg respectively about, and right peg left end fixed connection has first inserted bar, and first inserted bar is inserted and is established on left peg right side, the earphone subassembly rear end is provided with the second and connects the platform, the virtual reality glasses subassembly left and right sides all is provided with first connecting station, and the second is connected the platform and is the arc, and the relative first connecting station one end of second connecting station is provided with the inserted block, first connecting station corresponds inserted block department and is provided with the slot, and the inserted block is inserted and is established in the slot.
Further, as preferred, the equal fixedly connected with second inserted bar in left peg and right peg bottom, the second inserted bar is inserted and is established in the earphone subassembly, the earphone subassembly inboard is provided with the earphone packing ring, virtual reality glasses subassembly front end is provided with first packing ring, and the second is connected the platform inboard and is provided with the second packing ring.
Further, as preferred, inserted block and slot all are the I shape, the ring of cramping includes protective sheath, shell fragment, air cushion, the air cushion sets up at the shell fragment inboard, and air cushion and shell fragment all insert and establish in the protective sheath.
Compared with the prior art, the invention has the beneficial effects that:
1. two symmetrical lens display modules are arranged on two sides in a shell seat of the virtual reality glasses assembly, the distance between the two lens display modules is adjustably set by the pupil distance adjusting mechanism, and the lens angle adjusting mechanism can adjust the space angle of the lens display modules, so that not only can the angle of a lens be adjusted, but also the pupil distance can be adjusted, and the visual experience of animation media under the optimal angle and distance is guaranteed;
2. according to the invention, the controller and the eyelid position detection sensor are arranged, the eyelid position detection sensor is arranged around the lens display module, and the eyelid position detection sensor can detect the spatial position of the eyelid of a wearer; in this way, the controller can automatically control the pupil distance adjusting mechanism and the lens angle adjusting mechanism according to the detection value of the eyelid position detection sensor, so that the pupil distance and the space angle of the lens display module can be automatically adjusted, and the experience effect under the optimal angle vision can be realized;
3. the virtual reality glasses can be fixedly connected with the earphones, so that a user can listen while watching without wearing the earphones additionally, the left hanging rod and the right hanging rod are arranged at the tops of the left earphone and the right earphone, the glasses are more stable after being worn and are prevented from shaking and falling off, the left hanging rod and the right hanging rod are of a three-point type adjusting structure, the sizes of the glasses can be adjusted conveniently, the glasses are more comfortable to wear, and the virtual reality glasses are installed on the second connecting table through the inserting blocks and the inserting grooves and are convenient to disassemble and assemble; the air cushion is used for replacing the spongy cushion on the inner side of the tightening ring, so that the wearing is more comfortable.
Drawings
FIG. 1 is a schematic diagram of virtual reality glasses for animated media;
FIG. 2 is a schematic diagram of a connection structure of a virtual reality glasses assembly and an earphone assembly in virtual reality glasses for animation media;
FIG. 3 is a schematic view of a connection structure of an earphone assembly and a clamping ring in virtual reality glasses for animation media;
FIG. 4 is a schematic diagram of a structure of a clamping ring in virtual reality glasses for animation media;
FIG. 5 is a schematic view of a lens display module end of a virtual reality glasses assembly of virtual reality glasses for animated media;
FIG. 6 is a schematic structural diagram of a pupil distance adjusting mechanism and a lens angle adjusting mechanism of virtual reality glasses for animation media;
fig. 7 is a schematic structural diagram of a telescopic adjusting column mechanism of virtual reality glasses for animation media.
Detailed Description
Referring to fig. 1 to 7, in the embodiment of the present invention, a pair of virtual reality glasses for animation media includes a virtual reality glasses component 1, a wearing component and an earphone component 6, wherein the earphone component is disposed on two sides of the wearing component, the virtual reality glasses component 1 is disposed on the front side of the wearing component, and the wearing component is set to adjust the wearing tightness; the virtual reality glasses assembly 1 is characterized by comprising a shell base 3, lens display modules 15, a pupil distance adjusting mechanism and a lens angle adjusting mechanism, wherein two symmetrical lens display modules 15 are arranged on two sides in the shell base 3, the distance between the two lens display modules 15 is adjustable by the pupil distance adjusting mechanism, and the lens angle adjusting mechanism can adjust the space angle of the lens display modules 15;
the electronic device further comprises a controller and an eyelid position detection sensor 26, wherein the eyelid position detection sensor 26 is arranged around the lens display module 15, and the eyelid position detection sensor 26 can detect the spatial position of the eyelid of a wearer;
the controller can automatically control the pupil distance adjusting mechanism and the lens angle adjusting mechanism according to the detection value of the eyelid position detection sensor 26, so as to automatically adjust the pupil distance and the spatial angle of the lens display module 15.
In this embodiment, the interpupillary distance adjusting mechanism and the lens angle adjusting mechanism are both adjusted step by step in a pneumatic adjustment mode, so as to realize adjustment and control of different interpupillary distances and lens angles.
As a preferred embodiment, the lens angle adjusting mechanism includes a plurality of parallel telescopic adjusting column mechanisms and a fixed column, wherein the lower end of each telescopic adjusting column mechanism is fixed at the bottom of the adjusting cavity 17 of the housing base 3, two ends of the bottom of the pupil distance adjusting mechanism are hinged to the upper end of the telescopic adjusting column mechanism, the fixed column is connected at the middle position of the bottom of the pupil distance adjusting mechanism, and the spatial angle adjustment of the lens angle is realized by telescopic control of each telescopic adjusting column mechanism.
Wherein, interpupillary distance adjustment mechanism includes that many interpupillary distances adjust flexible post mechanism 19, and interpupillary distance is adjusted flexible post mechanism 19 and is connected on the lateral wall of the unit seat 18 of camera lens display module assembly 15 rear end, through right the interpupillary distance is adjusted the flexible control of flexible post mechanism and is realized the regulation to the interpupillary distance between two camera lens display module assemblies 15.
Interpupillary distance is adjusted flexible post mechanism with the structure of flexible regulation post mechanism is the same, all includes atmospheric pressure flexible control assembly 22 and atmospheric pressure controller seat 23, atmospheric pressure flexible control assembly 22 by atmospheric pressure controller in the atmospheric pressure controller seat controls and stretches out and draws back step by step, so that the accuracy is adjusted the flexible length of atmospheric pressure flexible control assembly 22, atmospheric pressure flexible control assembly 22 fixed mounting is on atmospheric pressure controller seat 23.
The pneumatic telescoping control assembly 22 comprises a plurality of adjacent connection arranged telescopic bag blocks 24 and tension springs, each telescopic bag block jointly forms a telescopic corrugated mechanism and each telescopic bag block is internally provided with a telescopic cavity, the number of the telescopic bag blocks expanded through the telescopic cavity is controlled to realize the gradual telescoping control of the pneumatic telescoping control assembly 22, the outer sleeve of the telescopic bag blocks is provided with the tension springs, and the tension springs enable the telescopic bag blocks in the natural state to be in a compression state.
The adjacent two telescopic bag blocks 24 are communicated by an opening and closing electromagnetic valve 25, and the adjacent opening and closing electromagnetic valves are sequentially controlled, so that the telescopic control of the pneumatic telescopic control assembly 22 is realized by controlling the number of the opening and closing electromagnetic valves.
The periphery of the adjusting cavity of the shell base 3 is provided with an elastic buffer cushion 16 with a porous structure, the wearing component comprises a left hanging rod 8, a right hanging rod 7, a first connecting platform 2, a second connecting platform 4 and a clamping ring 11, wherein the left end and the right end of the tightening ring 11 are fixedly connected with the earphone components 6, the tops of the left earphone component 6 and the right earphone component 6 are respectively provided with a left hanging rod 8 and a right hanging rod 7, the left end of the right hanging rod 7 is fixedly connected with a first inserting rod 9, the first inserting rod 9 is inserted on the right side of the left hanging rod 8, the rear end of the earphone component 6 is provided with a second connecting platform 4, the left side and the right side of the virtual reality glasses component 1 are both provided with a first connecting platform 2, the second connecting platform 4 is arc-shaped, one end of the second connecting platform 4 opposite to the first connecting platform 2 is provided with an insertion block 12, the first connecting table 2 is provided with a slot 13 corresponding to the insert block 12, and the insert block 12 is inserted into the slot 13.
The utility model discloses a virtual reality glasses subassembly, including left peg 8 and right peg 7, the equal fixedly connected with second inserted bar 14 in left side peg 8 and right peg 7 bottom, second inserted bar 14 is inserted and is established in earphone subassembly 6, earphone subassembly 6 inboard is provided with earphone packing ring 10, virtual reality glasses subassembly 1 front end is provided with first packing ring 3, and second connection platform 4 inboard is provided with second packing ring 5.
The insert block 12 and the insert slot 13 are both in an i shape, the tightening ring 11 includes a protective sleeve 111, an elastic sheet 112 and an air cushion 113, the air cushion 113 is disposed inside the elastic sheet 112, and the air cushion 113 and the elastic sheet 112 are both inserted into the protective sleeve 111.
When the invention is used, the virtual reality glasses component 1 is fixed on the second connecting table 4 through the inserting block 12 and the inserting slot 13 so as to be connected with the earphone component 6, the hanging rod of the earphone component 6 is divided into two parts, a three-point adjusting structure (a first inserting rod 9 and a left second inserting rod and a right second inserting rod 14) is arranged, the wearing is convenient, the applicability is high, the adjustment is easy, the virtual reality glasses component 1 is tightly attached to the face of a user through the tightening ring 11, the tightening ring 11 plays a tightening role through the elastic sheet 112, the air cushion 113 is arranged on the inner side of the tightening ring 11, the wearing is more comfortable, the virtual reality glasses component 1 and the earphone component 6 are both connected with a signal source through wireless signals, the user can listen while watching, the user experience is improved, after the user wears the virtual reality glasses component, the pupil distance adjusting mechanism and the lens angle adjusting mechanism are automatically controlled by the controller according to the detection value of the eyelid position detection sensor 26, the automatic adjustment of the interpupillary distance and the spatial angle of the lens display module 15 is realized, the experience effect is improved, the automatic adjustment device is used for adjusting step by step during adjustment, the adjustment precision is high, the operation is simple and convenient, and the adjustment and control of different interpupillary distances and different lens angles are realized.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (5)

1. The virtual reality glasses for the animation media comprise a virtual reality glasses component (1), a wearing component and an earphone component (6), wherein the earphone component is arranged on two sides of the wearing component, the virtual reality glasses component (1) is arranged on the front side of the wearing component, and the wearing component is arranged in a manner of adjusting the wearing tightness; the virtual reality glasses assembly (1) is characterized by comprising a shell seat (3), lens display modules (15), a pupil distance adjusting mechanism and a lens angle adjusting mechanism, wherein two symmetrical lens display modules (15) are arranged on two sides in the shell seat (3), the distance between the two lens display modules (15) is adjustable by the pupil distance adjusting mechanism, and the lens angle adjusting mechanism can adjust the space angle of the lens display modules (15); the virtual reality glasses assembly (1) further comprises a controller and eyelid position detection sensors (26), wherein the eyelid position detection sensors (26) are arranged around the lens display module (15), and the eyelid position detection sensors (26) can detect the spatial positions of the eyelids of a wearer; the controller can automatically control the pupil distance adjusting mechanism and the lens angle adjusting mechanism according to the detection value of the eyelid position detection sensor (26), so as to realize the automatic adjustment of the pupil distance and the space angle of the lens display module (15);
the lens angle adjusting mechanism comprises a plurality of parallel telescopic adjusting column mechanisms and fixing columns, wherein the lower end of each telescopic adjusting column mechanism is fixed at the bottom of an adjusting cavity (17) of the shell base (3), the two ends of the bottom of the pupil distance adjusting mechanism are hinged to the upper ends of the telescopic adjusting column mechanisms, the fixing columns are connected to the middle position of the bottom of the pupil distance adjusting mechanism, and the spatial angle adjustment of the lens angle is realized by telescopic control of each telescopic adjusting column mechanism;
the pupil distance adjusting mechanism comprises a plurality of pupil distance adjusting telescopic column mechanisms (19), the pupil distance adjusting telescopic column mechanisms (19) are connected to the side wall of a unit seat (18) at the rear end of the lens display module (15), and the pupil distance between the two lens display modules (15) is adjusted by controlling the telescopic of the pupil distance adjusting telescopic column mechanisms;
the interpupillary distance adjusting telescopic column mechanism and the telescopic adjusting column mechanism have the same structure and respectively comprise an air pressure telescopic control component (22) and an air pressure controller seat (23), the air pressure telescopic control component (22) is controlled by an air pressure controller in the air pressure controller seat to be telescopic step by step so as to accurately adjust the telescopic length of the air pressure telescopic control component (22), and the air pressure telescopic control component (22) is fixedly installed on the air pressure controller seat (23);
the pneumatic telescoping control assembly (22) comprises a plurality of telescoping bag blocks (24) and tension springs which are adjacently connected and arranged, each telescoping bag block jointly forms a telescopic corrugated mechanism, a telescoping cavity is arranged in each telescoping bag block, the pneumatic telescoping control assembly (22) is controlled to telescope step by controlling the number of the telescoping bag blocks expanded by the telescoping cavities, the tension springs are sleeved outside the telescoping bag blocks, and the telescoping bag blocks in a natural state are in a compression state through the tension springs;
an elastic cushion pad (16) with a porous structure is arranged around an adjusting cavity of the shell base (3), the wearing assembly comprises a left hanging rod (8), a right hanging rod (7), a first connecting table (2), a second connecting table (4) and a tightening ring (11), wherein the left end and the right end of the tightening ring (11) are fixedly connected with the earphone assemblies (6), the tops of the left earphone assembly and the right earphone assembly (6) are respectively provided with the left hanging rod (8) and the right hanging rod (7), the left end of the right hanging rod (7) is fixedly connected with a first inserting rod (9), the first inserting rod (9) is inserted on the right side of the left hanging rod (8), the rear end of the earphone assembly (6) is provided with the second connecting table (4), the left side and the right side of the virtual reality glasses assembly (1) are both provided with the first connecting table (2), the second connecting table (4) is arc-shaped, and one end of the second connecting table (4) opposite to the first connecting table (2) is provided with an inserting block (12), the first connecting platform (2) is provided with a slot (13) corresponding to the insert block (12), and the insert block (12) is inserted into the slot (13).
2. The virtual reality glasses for animation media as claimed in claim 1, wherein the interpupillary distance adjusting mechanism and the lens angle adjusting mechanism are pneumatically adjusted step by step to adjust and control different interpupillary distances and lens angles.
3. The virtual reality glasses for animation media according to claim 1, wherein two adjacent flexible bladder blocks (24) are communicated with each other through an on-off solenoid valve (25), and the adjacent on-off solenoid valves are sequentially controlled, so that the stretching control of the pneumatic stretching control assembly (22) is realized by controlling the number of the on-off solenoid valves.
4. The virtual reality glasses for animation media according to claim 1, wherein a second insert rod (14) is fixedly connected to the bottom of each of the left hanging rod (8) and the right hanging rod (7), the second insert rod (14) is inserted into the earphone assembly (6), an earphone gasket (10) is arranged on the inner side of the earphone assembly (6), a first gasket (3) is arranged at the front end of the virtual reality glasses assembly (1), and a second gasket (5) is arranged on the inner side of the second connecting table (4).
5. The virtual reality glasses for the animation media according to claim 1, wherein the insert block (12) and the insert slot (13) are both in an I shape, the tension ring (11) comprises a protective sleeve (111), a spring plate (112) and an air cushion (113), the air cushion (113) is arranged on the inner side of the spring plate (112), and the air cushion (113) and the spring plate (112) are both inserted into the protective sleeve (111).
CN201910840638.9A 2019-09-05 2019-09-05 Virtual reality glasses for animation media Active CN110543023B (en)

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