JP2011024949A - Light-emitting balloon and method of manufacturing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve and provide a light-emitting balloon capable of placing an emitting body at any position on an outer side of the balloon, easy to be processed and useful as an ornament. <P>SOLUTION: The light-emitting balloon 1 has: a balloon body 10, where peripheral edges of a lower synthetic resin material 11 made of a light-transmissive resin film with a transparent part 13 at a part of the bottom and an upper synthetic resin material 12 made of a resin film with light reflectivity and optical transparency are overlapped and sealed by heat adhesion or gluing, and into which gas is filled to be swollen three-dimensionally; an approximately tubular light-emitting-source holder 20 attached at the bottom of the balloon body 10 in a state of holding LED 21 to be faced to the transparent part 13; and a power source 35 in which a battery 32 to supply electricity to the LED 21 held by the light-emitting-source holder is loaded. The light is emitted into the balloon body 10 from the LED 21 through the transparent part 13 of the balloon body 10, so as to make the balloon body 10 to be in a light-emitting state with the irregular reflection light and transmitted light. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a light emitting balloon that can arrange a light emitter at an arbitrary position outside the balloon, is easy to process, and is useful as a decoration, and a method of manufacturing the same. A light emitting balloon in which a light emitting source is arranged and reflected inside the balloon to emit light toward the outside, and a gas is injected to float in the air or space, and a method for manufacturing the light emitting balloon It is.

  High decoration effects can be obtained as decorative items by selling them at night shops and theme parks, or by collecting balloon bodies that emit light of various colors, such as red, yellow, etc. There are various types of luminous balloons for this purpose.

  As such a light emitting balloon, for example, Patent Document 1 has a double structure of a balloon body and a bag body arranged inside the balloon body, gas is injected between the balloon body and the bag body, There has been proposed a light-emitting balloon configured by arranging a plurality of light-emitting diodes therein so that the entire balloon emits light brightly.

  Further, Patent Document 2 discloses a main body portion in which two synthetic resin films are overlapped and the periphery is thermally welded or bonded, and a gas is injected into the inside to swell, and a light emitter holding bag attached to the inside of the main body portion. And a light emitting diode configured to be able to place a light emitter at an arbitrary position inside the balloon has been proposed.

  However, the light-emitting balloons disclosed in Patent Documents 1 and 2 each employ a configuration in which a light emitter (light-emitting diode) is disposed in the balloon body. For this reason, the light emitter is disposed at the central portion in the balloon body. Although it is possible to make it shine, the luminous body must be inserted into the balloon body from the outside, and it is necessary to attach it to the balloon body in an airtight manner.

JP 2007-025080 A JP 2008-125718 A

  The present invention is for solving the above-described conventional problems, and it is possible to place a light emitter at an arbitrary position outside a balloon in which a gas is injected to float in the air or space, and An object of the present invention is to realize and provide a light-emitting balloon that is easy to process and a method for manufacturing the same.

  The light-emitting balloon of the present invention is a light-emitting balloon that is made to float in the air or space by injecting gas, and is a lower part made of a light-transmitting resin film material located on the lower side and provided with a transparent part on the bottom side The periphery of the synthetic resin material and the upper synthetic resin material made of a resin film material located on the upper side and having light reflectivity and light transmission properties are overlapped and thermally welded or bonded, and gas is injected into the interior to create a three-dimensional structure. And a substantially cylindrical light source holding body attached to the bottom of the balloon main body in a state of holding one or a plurality of light sources facing the outer position of the transparent portion of the lower synthetic resin material. And a power supply unit equipped with a battery for supplying power for lighting the light emitting source disposed on the other end side of the power cable having one end connected to the light emitting source held by the light emitting source holding body, Transparent of the balloon body from the light source Irradiating light to the upper synthetic resin through to the most important feature that its irregularly reflected light in a light emitting state balloons body by the transmitted light.

  According to the first to seventh aspects of the present invention, a light-emitting balloon in which gas is injected to float in the air or space, the light-emitting balloon is based on a configuration in which a light-emitting body is arranged at an arbitrary position outside the balloon body. It is possible to realize and provide a light-emitting balloon that can emit light as a whole and can exhibit a high decorative effect as a decorative item at an event venue or the like.

  In this case, the lower synthetic resin material and the upper synthetic resin material are selected from translucent materials, milky white materials, achromatic materials, and chromatic materials, or the inner surface of the light source holding body on the transparent portion side is defined as a light reflecting surface. By doing so, the whole light emitting balloon can be made to emit light more effectively.

  In addition, by adopting a blinking control circuit or a switching light emission control circuit in the power supply unit, it is possible to diversify the light emission mode of the whole light emitting balloon and realize a light emitting balloon that can exhibit a more excellent decoration effect. Can be provided.

  According to the invention described in claim 8, a light emitting balloon in which gas is injected to float in the air or space, the light emitter can be disposed at an arbitrary position outside the balloon body. It is not necessary to hermetically install a light emitter in the interior, the manufacturing process can be simplified, and a light emitting balloon can be obtained that can exhibit a high decorative effect as a decorative product as described above. Realize and provide balloon manufacturing methods.

  According to the ninth to sixteenth aspects of the present invention, a light-emitting balloon in which gas is injected to float in the air or space, the light of the light-emitting body provided in the power supply unit is exposed to an arbitrary position outside the balloon body. It is possible to realize and provide a light emitting balloon that can emit the entire light emitting balloon based on a configuration that enters the balloon body through the light guiding material, and can exhibit a high decorative effect as a decorative item at an event venue or the like .

  In this case, the lower synthetic resin material and the upper synthetic resin material are selected from translucent material, milky white material, achromatic color material, and chromatic color material, or the inner surface of the light source holding body on the transparent portion side is a light reflecting surface. By doing so, the entire light emitting balloon can be made to emit light more effectively.

  In addition, by adopting a blinking control circuit or a switching light emission control circuit in the power supply unit, it is possible to diversify the light emission mode of the whole light emitting balloon and realize a light emitting balloon that can exhibit a more excellent decoration effect. Can be provided.

  According to the invention of claim 17, a light emitting balloon in which gas is injected to float in the air or space, the light emitter is arranged at an arbitrary position outside the balloon body, and the light guide material is interposed. Light can be guided in the vicinity of the balloon body and can enter the balloon body, eliminating the need for air-tight attachment of the light emitter in the balloon body, simplifying the manufacturing process, and as described above It is possible to realize and provide a method for manufacturing a light emitting balloon capable of obtaining a light emitting balloon capable of exhibiting a high decorative effect as a simple decorative product.

  According to the invention described in claims 18 to 20, a light-emitting balloon in which gas is injected to float in the air or space, the light of the light-emitting body provided in the power supply unit is exposed to an arbitrary position outside the balloon body. The outer circumference of the balloon body can be emitted by being guided to the balloon body through the light guide material and entering the transparent light emitting material on the outer circumference thereof, and in the event venue or the like as in the case of the invention of claim 7 A luminous balloon that can exhibit a high decorative effect as an ornament can be proposed.

FIG. 1 is a schematic perspective view conceptually showing a light emitting balloon according to Embodiment 1 of the present invention. FIG. 2 is an overall configuration diagram illustrating a part of the light-emitting balloon according to the first embodiment as a cross-section. FIG. 3 is a schematic block diagram illustrating another example of the power supply unit of the light emitting balloon according to the first embodiment. FIG. 4 is a schematic perspective view conceptually showing the light emitting balloon according to the second embodiment. FIG. 5 is an overall configuration diagram illustrating a part of the light-emitting balloon according to the second embodiment as a cross-section. FIG. 6 is a schematic block diagram illustrating another example of the power supply unit of the light emitting balloon according to the second embodiment. FIG. 7 is a schematic block diagram illustrating another example of the power supply unit of the light emitting balloon according to the second embodiment. FIG. 8 is a schematic perspective view conceptually showing a modification of the light emitting balloon according to the second embodiment. FIG. 9 is a schematic perspective view conceptually showing another modification of the light emitting balloon according to the second embodiment. FIG. 10 is a schematic perspective view conceptually showing another modification of the light emitting balloon according to the second embodiment.

  An object of the present invention is to realize a light emitting balloon that can be disposed at an arbitrary position outside the balloon, is easy to process, and is useful as a decorative object. A lower synthetic resin material made of a light-transmitting resin film material and having a transparent portion on a part on the bottom side, and an upper synthetic resin material made of a resin film material located on the upper side and having light reflectivity and light transmittance. A balloon main body that is thermally welded or bonded with overlapping peripheral edges and inflated in a gas inside, and a single body that faces the outside of the transparent portion of the lower synthetic resin material with respect to the bottom of the balloon main body Or the substantially cylindrical light emission source holding body attached in the state which hold | maintains several LED, and the said LED arrange | positioned at the other end side of the power cable which connected one end to LED hold | maintained by the said light emission source holding body is lighted Supply power A power supply unit mounted with a pond, and the upper synthetic resin material is irradiated with light from the light emitting source through the transparent part of the balloon main body, and the balloon main body is in a light emitting state by the irregularly reflected light and transmitted light. It was realized.

  Hereinafter, a light-emitting balloon 1 according to Embodiment 1 of the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 1 and 2, the light emitting balloon 1 according to the first embodiment includes a substantially spherical or substantially elliptic spherical balloon body 10 and a substantially cylindrical light emitting source holder attached to the bottom of the balloon body 10. 20, and the light source holder 20 and a power supply unit 30 connected via a power cable 31.

  The balloon body 10 is composed of a light-transmitting resin film material located on the lower side, and a lower composite that exhibits a substantially hemispherical shape or a substantially semi-elliptical spherical shape in a bulging state in which a transparent portion 13 is provided at a central bottom portion that is a part on the bottom side The upper synthetic resin material 12 which consists of the resin material 11 and the resin film material located in the upper side, and exhibits a substantially hemispherical shape or a substantially semi-elliptical spherical shape in a bulging state, and gas injection and gas sealing attached to the balloon body 10 And a gas plug 14 for use.

  Then, the peripheral edges of the lower synthetic resin material 11 and the upper synthetic resin material 12 are overlapped with each other and thermally welded or bonded together to seal the peripheral edges, and gas is injected into the interior from the gas stopper 14 to close the gas stopper. It is configured to swell and to have a substantially spherical shape or a substantially elliptical spherical shape as a whole.

  A transparent portion 13 made of a transparent resin film material is provided integrally with the lower synthetic resin material 11 at a central bottom portion that is a part of the lower synthetic resin material 11.

  The material of the lower synthetic resin material 11 and the upper synthetic resin material 12 is a translucent material, a milky white material, an achromatic material such as gray, or a chromatic material exhibiting a chromatic color such as red, blue or yellow. It has come to be selected.

  Furthermore, the inner surface 12a of the upper synthetic resin material 12 has a structure having both light reflectivity and light transmissivity.

  As shown in FIGS. 1 and 2, the light source holding body 20 is formed in a substantially cylindrical shape as a whole with a large diameter on the bottom side of the balloon body 10 and a small diameter on the lower end side. A single or plural (three in FIG. 1) light emitting diodes (light emitting diodes) 21 facing the outer position of the transparent portion 13 of the lower synthetic resin material 11 are attached by bonding or the like while being held inside. Yes.

  Further, the inner surface 20a of the light source holding body 20 on the transparent portion 13 side is also formed as a light reflecting surface.

  As shown in FIG. 2, the power supply unit 30 causes the power supply unit housing 35 to cause a replaceable battery (dry battery or storage battery) 32, a power switch 33, and the one or more LEDs 21 to blink or continuously emit light. A blinking control circuit 34 is mounted, and the blinking control circuit 34 and the LED 21 in the light source holding body 20 are connected by a power cable 31. In this case, regarding the LED 21 and the blinking control circuit 34, the blinking control circuit 34 may be built in the LED 21.

  Next, functions and effects of the light emitting balloon 1 according to the first embodiment will be described.

  According to the light emitting balloon 1, while the light emitting balloon is infused with gas to float in the air or space, the power switch 33 is turned on and the blinking control circuit 34 is operated to blink each LED 21. By emitting light, the light from each LED 21 is irradiated to the upper synthetic resin material 12 in a blinking state through the transparent portion 13 of the balloon body 10.

  The irregularly reflected light from the inner surface 12a of the upper synthetic resin material 12 is emitted from the lower synthetic resin material 11 made of a light transmitting resin film material to the outside in a blinking state.

  At this time, since the inner surface 20a on the transparent portion 13 side of the light emitting source holding body 20 is also a light reflecting surface, the amount of light emitted from the lower synthetic resin material 11 to the outside can be increased to make it brighter. The light transmitted through the upper synthetic resin material 12 is emitted to the outside in a blinking state.

  As a result, the entire light emitting balloon 1 emits light in a blinking state, and for example, a high decorative effect can be exhibited as a decorative item at an event venue or the like.

  Of course, it is possible to change the setting of the blinking control circuit 34 so as to emit light continuously without blinking.

  Further, in place of the above-described configuration, a plurality of LEDs 21 that emit light of different colors are arranged on the light source holding body 20, and the power supply unit 30 replaces the flashing control circuit 34 as shown in FIG. There is provided a switching light emission control circuit 36 for switching the LED 21 over time, and the lower synthetic resin material 11 and the upper synthetic resin material 12 are selected from a translucent color material, a milky white material, and an achromatic color material. It can also be.

  In this case, the entire light-emitting balloon 1 emits light with different colors over time, so that a high decorative effect can be exhibited as a decorative item in an event venue or the like.

  A method of manufacturing the light emitting balloon 1 according to the first embodiment described above is as follows.

  That is, first, a lower synthetic resin material 11 made of a light-transmitting resin film material located on the lower side and a transparent portion 13 provided on a part on the bottom side, and a resin film material located on the upper side made light reflective and light. The periphery of the upper synthetic resin material 12 having permeability is overlapped and heat-welded or bonded.

  Next, gas is injected into the lower synthetic resin material 11 and the upper synthetic resin material 12 from the gas stopper 14 and the gas stopper 14 is closed to inflate three-dimensionally, thereby creating the balloon body 10.

  Next, the light source holding body 20 is attached to the bottom of the balloon main body 10 in a state where the LED 21 or the plurality of LEDs 21 facing the outer position of the transparent portion 13 of the lower synthetic resin material 11 is held.

  Then, a power supply unit 30 that supplies power for turning on the LED 21 and the LED 21 held by the light source holding body are connected by a power cable 31.

  According to the method for manufacturing the light emitting balloon 1 according to the first embodiment, the LED 21 can be disposed at an arbitrary position outside the balloon body 10, and it is not necessary to attach the LED 21 in the balloon body 10 in an airtight manner. As a result, it is possible to obtain the light emitting balloon 1 that can realize the simplification of the manufacturing process and can exhibit a higher decorative effect as the decorative article as described above.

  In Example 1 mentioned above, it can also be set as the structure which made the end of the gas stopper 14 (balloon main body inside) into a bag shape, and put LED21 in it. In this case, in addition to the gas stopper 14, a bag-like one that puts the LED 21 into the balloon body 10 is provided.

  Next, a light-emitting balloon 1A according to Example 2 of the present invention will be described with reference to FIGS.

  Note that, in the light emitting balloon 1A according to the second embodiment, the same elements as those of the light emitting balloon 1 according to the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  The light emitting balloon 1A according to the second embodiment has basically the same configuration as that of the light emitting balloon 1 according to the first embodiment. However, as shown in FIGS. 4 and 5, the light emitting balloon holding body 20 is replaced with the light emitting balloon 1A. A substantially cylindrical light guide material holder attached in a state of holding the light emitting end side of the optical fiber 41, for example, which is one or a plurality of light guide materials facing the outer position of the transparent portion 13 of the lower synthetic resin material 11. 40, and a holding part 42 for holding the light incident end sides of one or more optical fibers 41 drawn out from the light guide holding body 40 to the outside, and the light incident end side of the optical fiber 41 A feature is that the power supply unit 46 in which the LED 43 that is a light emitting source for entering light, the replaceable battery 44 that supplies power to turn on the LED 43, and the power switch 45 are mounted on the power supply unit housing 49 is employed. In .

  As the light guide material, in addition to the optical fiber 41, for example, a transparent rod-shaped body or a semi-transparent rod-shaped body made of an acrylic material can be employed. Further, as the light guide material, a material capable of making a transparent material or a translucent material such as polycarbonate (PC) or pet (PET) can be adopted.

  The lower synthetic resin material 11 and the upper synthetic resin material 12 are selected from a translucent material, a milky white material, an achromatic color material, and a chromatic color material as in the case of the first embodiment.

  Further, the inner surface 40a on the transparent portion 13 side of the light guide material holding body 40 is formed as a light reflecting surface.

  According to the light emitting balloon 1A according to the second embodiment, the LED 43 is turned on by turning on the power switch 44 while the light emitting balloon is infused with gas to float in the air or space. The upper synthetic resin material 12 is irradiated from the transparent portion 13 of the balloon body 10 through the light incident end 41 and the light emitting end 41.

  The irregularly reflected light from the inner surface 12a of the upper synthetic resin material 12 is emitted to the outside from the lower synthetic resin material 11 made of a light transmitting resin film material.

  At this time, since the inner surface 40a on the transparent portion 13 side of the light guide member holding body 40 is also a light reflecting surface, the amount of light emitted from the lower synthetic resin material 11 to the outside can be increased to make it brighter. . Further, the light transmitted through the upper synthetic resin material 12 is emitted to the outside.

  Thereby, the whole light-emitting balloon 1 emits light, and, for example, a higher decorative effect can be exhibited as a decorative item in an event venue or the like.

  FIG. 6 shows a blinking drive type power supply unit 46A which is a modification of the power supply unit 46. A flashing control circuit 47 is added to the configuration of the power supply unit 46 so that the entire light emitting balloon 1A emits light in a blinking state. It is made to let you. Also in this case, for example, a high decorative effect can be exhibited as a decorative item at an event venue or the like.

  FIG. 7 shows a blinking drive type power supply unit 46B, which is a modification of the power supply unit 46. Instead of the configuration of the power supply unit 46, a plurality of (red LED, blue LED) emitting light of different colors. LED 43a to 43e), a switching light emission control circuit 48 is added, and light emission is switched over time.

  In this case, when the lower synthetic resin material 11 and the upper synthetic resin material 12 are selected from a translucent color material, a milky white material, and an achromatic color material, the entire light emitting balloon 1A is changed over time. By emitting light in different colors, a high decorative effect can be exhibited as a decorative item in an event venue or the like.

  The method for manufacturing the light emitting balloon 1A according to the second embodiment described above is as follows.

  That is, first, a lower synthetic resin material 11 made of a light-transmitting resin film material located on the lower side and a transparent portion 13 provided on a part on the bottom side, and a resin film material located on the upper side made light reflective and light. The periphery of the upper synthetic resin material 12 having permeability is overlapped and heat-welded or bonded.

  Next, gas is injected into the lower synthetic resin material 11 and the upper synthetic resin material 12 from the gas stopper 14 and the gas stopper 14 is closed to inflate three-dimensionally, thereby creating the balloon body 10.

  Next, a substantially cylindrical light guide material is held in a state in which the light emitting end side of the single or plural LEDs 43 facing the outer position of the transparent portion 13 of the lower synthetic resin material 11 is held with respect to the bottom portion of the balloon body. The body 40 is attached.

  Next, a holding unit 42 that holds the light incident end side of the optical fiber 41 in a line, an LED 43 that makes light incident on the light incident end side of the optical fiber 41, and a battery 44 that supplies power to turn on the LED 43, A power supply unit 46 equipped with a power switch 45 is connected via the single or plural optical fibers 41.

  According to the method for manufacturing the light emitting balloon 1A according to the second embodiment, the LED 43 is disposed at an arbitrary position outside the balloon body 10, and the light is guided to the vicinity of the balloon body 10 via the optical fiber 41. The LED 43 is not required to be hermetically attached to the balloon body 10, thereby simplifying the manufacturing process and exhibiting a high decorative effect as a decorative product as described above. It is possible to obtain the luminous balloon 1A that can be made to operate.

  FIG. 8 shows a light-emitting balloon 1B which is a modification of the light-emitting balloon 1A according to the second embodiment. This light-emitting balloon 1B has basically the same configuration as that of the light-emitting balloon 1A. A feature is that one or more transparent light-emitting materials (or semi-transparent light-emitting materials) 51 made of, for example, an acrylic material or the like are attached to the outer peripheral portion of the main body 10 and attached.

  Then, light is incident on each transparent light-emitting material 51 from the light emission end side of the optical fiber 41 held by the light guide material holding body 40, and these are made to emit light at the outer peripheral portion of the balloon body 10. .

  According to the light emitting balloon 1B having such a configuration, the outer periphery of the balloon main body 10 emits light, and a high decorative effect can be exhibited as a decorative item, for example, in the same manner as described above at an event venue or the like.

  In the above-described embodiments, the number of LEDs 21 and 43 and the number of optical fibers 41 are not particularly limited.

FIGS. 9 and 10 show a modification of the embodiment of FIGS. 4, 5 and 8 shown in the embodiment 2. FIG. 9 shows the light guide material as the light source from a plurality of optical fibers 41. FIG. FIG. 10 is a light emitting balloon 1C showing an embodiment in which the optical fiber 41 is arranged in advance so as to wrap around the outer periphery of the balloon body 10, and FIG. 10 shows a plurality of light guiding materials as the light source. This is a light emitting balloon 1D showing an embodiment in which the optical fiber 41 is formed and arranged in a monument form 41 around the balloon body 10 in advance. In the embodiment of FIGS. 9 and 10, the light guide material which is a light source is composed of a plurality of optical fibers 41, and portions other than the arrangement configuration on the optical fiber 41 and the balloon body 10 are the same as those of the above embodiments. The same parts are provided.
According to the light emitting balloon 1C and the light emitting balloon 1D according to the embodiment of FIG. 9 and FIG. 10, a plurality of light emitting balloons arranged around the balloon body 10 by injecting gas and floating in the air or space. Based on the optical fiber 41, the entire light emitting balloon can be made to emit light, and a light emitting balloon that can exhibit a high decorative effect as a decorative item at an event venue or the like can be realized and provided.

  Further, in the above-described embodiment, the battery housing portion of the power source housing 35 is configured from a battery cover and a mounting portion to a pipe, or the battery 32 in the battery cover can be replaced or fixed. be able to.

  That is, whether to use repeatedly or to be disposable can be determined as appropriate depending on the purpose and application.

  The power switch 33 has many types such as an electric wire and an electric wire, an electric wire and a battery, and a battery and a battery that are in contact or non-contact, and the structure is not particularly limited.

  The light-emitting balloon of the present invention can be applied to a wide range of decorations installed at night shops, theme parks, urban and rural festival venues, amusement parks, store opening places, and other places where many people gather.

DESCRIPTION OF SYMBOLS 1 Luminous balloon 1A Luminous balloon 1B Luminous balloon 10 Balloon main body 11 Lower synthetic resin material 12 Upper synthetic resin material 12a Inner surface 13 Transparent part 14 Gas stopper 20 Luminous source holding body 20a Inner surface 21 LED
DESCRIPTION OF SYMBOLS 30 Power supply part 31 Power cable 32 Battery 33 Power switch 34 Flashing control circuit 35 Power supply housing 36 Switching light emission control circuit 40 Light guide material holding body 40a Inner surface 41 Optical fiber 42 Holding part 43 LED
43a LED
44 Battery 45 Power switch 46 Power supply unit 46A Power supply unit 46B Power supply unit 47 Flashing control circuit 48 Switching light emission control circuit 49 Power supply unit housing 51 Transparent light emitting material

Claims (20)

A lower synthetic resin material consisting of a light-transmitting resin film material located on the lower side and a transparent portion provided on a part on the bottom side, and an upper synthetic material comprising a resin film material located on the upper side and having light reflectivity and light transmissivity. A balloon body that is thermally fused or bonded by overlapping the periphery with a resin material, and a gas is injected into the interior to inflate three-dimensionally,
A substantially cylindrical light source support attached to the bottom of the balloon body in a state of holding one or a plurality of light sources facing the outer position of the transparent portion of the lower synthetic resin material;
A power supply unit equipped with a battery for supplying power to turn on the light emission source disposed on the other end side of the power supply cable having one end connected to the light emission source held by the light emission source holder;
Have
A light emitting balloon characterized in that light is emitted from the light emitting source to the upper synthetic resin material through the transparent portion of the balloon main body, and the balloon main body is brought into a light emitting state by the irregularly reflected light and transmitted light.   The light emitting balloon according to claim 1, wherein the lower synthetic resin material and the upper synthetic resin material are selected from translucent materials, milky white materials, achromatic materials, and chromatic materials.   The light emitting balloon according to claim 1 or 2, wherein the inner surface of the light emitting source holder on the transparent portion side is a light reflecting surface.   The said light emission source consists of single or several LED, The said power supply part is provided with the battery which can be replaced | exchanged, a power switch, and the blink control circuit which makes the said single or plural LED blink. The luminescent balloon in any one.   The light source comprises a plurality of LEDs that emit light of different colors, and the power supply unit includes a replaceable battery, a power switch, and a switching light emission control circuit that switches each LED over time to emit light, The light emitting balloon according to any one of claims 1 to 3, wherein the lower synthetic resin material and the upper synthetic resin material are selected from translucent color materials, milky white materials, and achromatic color materials.   The light emission source according to any one of claims 1 to 3, wherein the light emission source is composed of a plurality of optical fibers, and the optical fibers are arranged in advance so as to run around the outer periphery of the balloon body. balloon.   The light emitting balloon according to any one of claims 1 to 3, wherein the light emitting source includes a plurality of optical fibers, and the optical fibers are arranged in advance in the form of a monument around the balloon body. A lower synthetic resin material consisting of a light-transmitting resin film material located on the lower side and a transparent portion provided on a part on the bottom side, and an upper synthetic material comprising a resin film material located on the upper side and having light reflectivity and light transmissivity. A process of superimposing a peripheral edge with a resin material and thermally welding or bonding;
Injecting gas into the lower synthetic resin material and the upper synthetic resin material, and inflating three-dimensionally to obtain a balloon body,
A step of attaching a substantially cylindrical light source support in a state of holding one or a plurality of light sources facing the outer position of the transparent portion of the lower synthetic resin material to the bottom of the balloon body,
Connecting a power supply unit that supplies power to turn on the light source and a light source held by the light source holder by a power cable;
A method for producing a light-emitting balloon, comprising: A lower synthetic resin material consisting of a light-transmitting resin film material located on the lower side and a transparent portion provided on a part on the bottom side, and an upper synthetic material comprising a resin film material located on the upper side and having light reflectivity and light transmissivity. A balloon body that is thermally fused or bonded by overlapping the periphery with a resin material, and a gas is injected into the interior to inflate three-dimensionally,
Retaining the substantially cylindrical light guide material attached to the bottom of the balloon body in a state of holding the light emitting end side of the light guide material or light guide materials facing the outer position of the transparent portion of the lower synthetic resin material Body,
Light is incident on the light incident end side of the one or more light guide members, and a holding unit that holds the light incident end sides of the one or more light guide members drawn out from the light guide member holding body. A light source, and a power supply unit equipped with a battery for supplying power to turn on the light source;
Have
The light source is irradiated with light from the light source through the transparent light guide material and the transparent portion of the balloon body, and the balloon body is caused to emit light by the irregularly reflected light and transmitted light. Luminous balloon.   The light emitting balloon according to claim 9, wherein the lower synthetic resin material and the upper synthetic resin material are selected from translucent materials, milky white materials, achromatic materials, and chromatic materials.   The light emitting balloon according to claim 9 or 10, wherein an inner surface of the light guide member holding body on the transparent portion side is a light reflecting surface.   The light-emitting balloon according to any one of claims 9 to 11, wherein the light guide material is selected from an optical fiber, a transparent rod-shaped body, and a semi-transparent rod-shaped body.   The light emitting source includes an LED, and the power supply unit includes a replaceable battery, a power switch, and a blinking control circuit that causes the LED to blink. Luminous balloon described in 1.   The light emitting source is composed of a plurality of LEDs that emit light of different colors, and the light guide material is selected from an optical fiber, a transparent rod-shaped body, a semi-transparent rod-shaped body, and includes a number corresponding to the number of the light emitting sources, The power supply unit includes a replaceable battery, a power switch, and a switching light emission control circuit that switches each LED over time to emit light, and the lower synthetic resin material and the upper synthetic resin material are translucent color materials, The light emitting balloon according to any one of claims 9 to 12, wherein the light emitting balloon is selected from milky white materials and achromatic materials.   The light emission source according to any one of claims 9 to 12, wherein the light emission source is composed of a plurality of optical fibers, and the optical fibers are arranged in advance so as to run around the outer periphery of the balloon body. balloon.   The light emitting balloon according to any one of claims 9 to 12, wherein the light emitting source includes a plurality of optical fibers, and the optical fibers are arranged in advance in the form of a monument around the balloon body. A lower synthetic resin material consisting of a light-transmitting resin film material located on the lower side and a transparent portion provided on a part on the bottom side, and an upper synthetic material comprising a resin film material located on the upper side and having light reflectivity and light transmissivity. A process of superimposing a peripheral edge with a resin material and thermally welding or bonding;
Injecting gas into the lower synthetic resin material and the upper synthetic resin material, and inflating three-dimensionally to obtain a balloon body,
A substantially cylindrical light guide material holding body is held in a state in which the light emitting end side of the light guide material or light guide materials facing the outer position of the transparent portion of the lower synthetic resin material is held with respect to the bottom of the balloon body. Attaching process;
A holding unit that holds the light incident end sides of the light guide material in a line, a light emitting source that emits light to the light incident end side of the light guide material or light guide materials, and power supply that turns on the light source. Connecting a power supply unit equipped with a battery via one or more light guides;
A method for producing a light-emitting balloon, comprising: The periphery of the lower synthetic resin material made of the light-transmitting resin film material located on the lower side and the upper synthetic resin material made of the resin film material located on the upper side are overlapped and thermally welded or bonded, and gas is injected inside A balloon body that is inflated in three dimensions,
One or more transparent light emitting materials or semitransparent light emitting materials attached to the outer periphery of the balloon body,
A substantially cylindrical light guide material holding body that is attached to the bottom of the balloon body and holds one or a plurality of light guide materials facing one end of the transparent light emitting material or translucent light emitting material. ,
Light is incident on the light incident end side of the one or more light guide members, and a holding unit that holds the light incident end sides of the one or more light guide members drawn out from the light guide member holding body. A light source, and a power supply unit equipped with a battery for supplying power to turn on the light source;
Have
Light is incident on the outer peripheral portion of the balloon body from the light source through the one or more light guides, and is incident on the outer peripheral portion of the balloon main body. Luminous balloon characterized by emitting light.   The light emitting balloon according to claim 18, wherein the light emitting source is composed of a plurality of optical fibers, and the optical fibers are arranged in advance so as to run around the outer periphery of the balloon body.   The light emitting balloon according to claim 18, wherein the light emitting source is composed of a plurality of optical fibers, and the optical fibers are previously arranged around the balloon body in a monument form.

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