JP4564589B2 - glass - Google Patents

Description

  The present invention relates to a glass that can be drunk while continuously cooling a contained beverage.

  No glass is known which has the function of cooling the beverage contained in itself. Means for cooling or warming glasses are known.

  Patent Document 1 is an example of a vessel that keeps food and drink contained in a glass or a bottle as it is, and this is a hole that can be removed inside an outer container made of a material having high water resistance and heat resistance. An open container of the same material is installed, and ice water or hot water is placed between them to keep food and drink in bottles, cans, bottles, glasses, mugs, hot drinks, etc. for a long time.

  Therefore, it goes without saying that the device for keeping the food and drink for a long time is not a structure in which the glass itself is provided with a cooling means for cooling the beverage therein. It is a means for putting a glass etc. in it and cooling it. In addition, when cooling glass or the like, ice water is inserted as a coolant between the outer container and the inner container. However, since the inner container has a hole, the ice water is naturally in the inner container. Also comes in. Therefore, it seems that the cooling can be performed sufficiently effectively, but the outer surface of the glass or the like charged in the inner container for cooling gets wet with the ice water entering the bottom and is taken out for drinking. In some cases, it is necessary to wipe off moisture on the outer surface, which is troublesome.

  Patent Document 2 is an example of a cooling container such as a cup, which has a cylindrical shape with an open top and a bottom, and has a peripheral side portion and a bottom portion having a double structure, and a cavity portion is formed on the inside thereof. A cooling container such as a cup configured to store a cooling liquid.

  Therefore, it goes without saying that this cooling container such as a cup is not provided with cooling means on the cup itself. It is a means for charging a cup filled with a beverage to be cooled, and for cooling the inside. In addition, in the cooling container such as the cup, it is considered that the cup to be cooled is cooled by taking heat mainly through heat conduction. Therefore, in order for the cup to be sufficiently cooled, it is necessary that the bottom portion and the peripheral side thereof are in contact with the inner periphery of the cooling container, but it is not easy to make sure that the portions other than the bottom portion are in contact with each other. It seems not easy to cool outside the bottom.

  Patent Document 3 is an example relating to an illumination-type container, in which at least a bottom portion that contains a beverage or the like has a light-transmitting property, a holder body that can be removably attached to the top of the container, and the holder body An illumination-type container including a light guide for introducing light into the container, a light source for irradiating the light to the light guide, and a power source for the light source.

  Therefore, according to this illumination type container, when the beverage is contained in the container and light is emitted from the light source, the light is incident on the light guide and is guided into the container through the light source. Will be emitted to the outside world. That is, it is said that a certain area where the container is placed or the surroundings of the person holding the container is individually illuminated, and illumination of a special atmosphere can be performed. In fact, this seems to be the case, but it has no function of cooling the beverage contained in the container.

Japanese Patent Laid-Open No. 2002-39656 Japanese Utility Model Publication No. 06-84278 JP 2004-105231 A

  The present invention solves the above-mentioned problems of the prior art, can appropriately cool the beverage contained therein without diluting, further uses dry ice as a cooling means, the sublimation gas and the It is an object of the present invention to provide a glass that can produce white smoke-like frozen water particles generated by contact with dry ice and a characteristic state in which the color and the like change around the container using light from an LED. Is.

1 of the present invention is a glass composed of a cylindrical peripheral side portion having a beverage storage space inside and a detachable bottom constituent member for closing the lower portion thereof,
The cylindrical peripheral side portion is constituted by a cylindrical outer portion and a cylindrical inner portion joined at the upper end forming a moving space for cooling gas composed of dry ice sublimation gas and white smoke-like frozen water particles,
A cooling gas exhaust opening that opens to the outside is opened at the upper part of the cylindrical outer part, and the dry ice of the bottom constituent member is opened and closed by a finger at parts other than the upper part of the cylindrical outer part. Opening a plurality of adjustment holes for adjusting the movement state of the cooling gas rising from the storage portion to the movement space between the cylindrical inner portion and the cylindrical outer portion,
In the cylindrical inner portion, in order to change the movement of the cooling gas that rises in the moving space, a plurality of bulging portions that bulge into the beverage storage space are randomly formed,
The bottom component member is a storage unit that stores dry ice, and a cooling gas composed of sublimation gas and white smoke-like frozen water particles of the dry ice from one or more positions on the upper side of the peripheral side portion. Forming a storage part with an open communication hole to be introduced into the movement space of the cylindrical peripheral side part,
It is the glass which arrange | positions several LED in the upper end of the peripheral side part of the said bottom part structural member in order to radiate | emit the light in the movement space of the said cylindrical peripheral side part.

  According to a second aspect of the present invention, in the glass according to the first aspect of the present invention, one LED that emits red, blue or green light is used as the LED.

  According to a third aspect of the present invention, in the glass according to the first or second aspect of the present invention, the upper portion of the cylindrical peripheral side portion is configured to be thinner than the lower portion.

  According to a fourth aspect of the present invention, in the glass according to the first, second, or third aspect of the present invention, a timepiece having a character portion arranged on a peripheral side portion below the storage portion of the bottom component member is incorporated.

  According to the fifth aspect of the present invention, in the glass according to the first, second, third, or fourth aspect of the present invention, the storage unit for storing the dry ice can be added with water in addition to the dry ice.

  According to the glass of 1 of the present invention, if drinks such as juices suitable for cooling and drinking in the beverage storage space are accommodated and drunk, the beverage in the beverage storage space is Cooled from the bottom by dry ice stored in the storage space, and further, a sublimation gas of dry ice rising from the storage unit and a cooling gas consisting of white smoke-like frozen water particles are guided to the moving space of the cylindrical peripheral side, Since it moves in the moving space, it is also cooled by the cooling gas.

  Of the cylindrical outer portion and the cylindrical inner portion constituting the moving space, a bulging portion that bulges randomly into the beverage storage space is formed in the cylindrical inner portion. Therefore, the cooling effect | action with respect to the said drink is performed more favorably.

  Therefore, the beverage in the beverage storage space is appropriately cooled, and this cooling does not affect the beverage concentration and the like, as in the case of cooling with ice put into the beverage. The flavor is not adversely affected.

  Also, the cooling gas composed of dry ice sublimation gas and white smoke-like frozen water particles generated in the storage part of the bottom component member ascends and moves in the movement space of the cylindrical peripheral side, and finally the cylindrical shape Exhaust air from the uppermost exhaust port on the peripheral side, but there are multiple adjustment holes that are opened in the middle, and these can be closed with fingers or palms, or left open By doing so, it is possible to adjust the movement of the cooling gas in various ways and enjoy the movement. Furthermore, as described above, since the plurality of bulging portions that bulge into the beverage storage space are randomly formed in the cylindrical inner portion, the cooling of the beverage in the beverage storage space is made efficient. In addition, the movement of the cooling gas rising in the movement space in the cylindrical peripheral side portion can be changed, and the movement can be made more interesting.

  At this time, an LED is arranged on the upper end of the peripheral side portion of the bottom component member, and the LED irradiates light to the cooling gas moving in the moving space above the LED, Interesting changes can be observed. As described above, when the adjustment hole is opened and closed variously, the movement of the cooling gas can be changed variously, and by changing the portion irradiated with the light, more interesting changes in the light can be seen. it can. As described above, since the bulging portion is randomly arranged on the inner side of the cylindrical shape, the movement of the cooling gas can be further changed by moving the cooling gas therein, and the degree of light hitting can be increased. Can be further changed.

  According to the glass 2 of the present invention, since each of the LEDs emitting red, blue or green light is adopted as the LED, the cooling gas containing white smoke-like frozen water particles is irradiated with light from the LEDs. Occasionally, the corresponding parts individually become red, blue or green, and sometimes, all or part of their colors vary in proportion to the movement of the white smoke-like frozen water particles. You will be able to enjoy interesting changes in shades with various subtle colors.

  According to the glass 3 of the present invention, since the upper part of the cylindrical peripheral side part is thinner than the lower part, it is possible to obtain an advantage that it is easy to drink when drinking.

  According to the glass 4 of the present invention, since the timepiece having the character portion is incorporated on the peripheral side of the bottom portion, the time can be confirmed as needed while drinking a beverage.

  According to the glass of 5 of the present invention, since water can be added to the storage portion for storing the dry ice of the bottom component member, a large amount of white smoke-like frozen water particles can be generated. When led to the side movement space, the LED light hits them, and a more beautiful color can be generated.

The front view of the glass of an Example. The top view of the glass of an Example. FIG. 3 is a cross-sectional view taken along line AA in FIG. 2. FIG. 3 is a sectional view taken along line BB in FIG. 1. The CC sectional view taken on the line of FIG. The DD sectional view taken on the line of FIG. The EE sectional view taken on the line of FIG. FIG. 2 is a sectional view taken along line FF in FIG. 1. The GG sectional view taken on the line of FIG. HH sectional view taken on the line of FIG. The cross-sectional top view of the state which pulled out the drawer part (storage part) for dry ice storage.

  As shown in FIGS. 1 to 3, the glass of this embodiment basically has a cylindrical peripheral side portion 2 provided with a beverage storage portion (beverage storage space) 1 inside and a detachable bottom portion that closes the lower portion thereof. This is composed of the component member 3.

  As shown in FIGS. 1 and 3, the cylindrical peripheral side portion 2 has a double structure composed of a cylindrical outer portion 2a having an upwardly extending taper shape and a cylindrical inner portion 2b having a coaxial shape and an upwardly extending tapered shape. A cooling gas moving space 4 is provided between the two.

  The cooling gas is assumed to be composed of dry ice sublimation gas and white smoke-like frozen water particles. The white smoke-like frozen water particles are composed of white smoke-like frozen water particles generated from moisture in the air cooled by dry ice or white smoke-like frozen water particles generated from water added to dry ice. It is called. As will be described later, the cooling gas rises from dry ice stored in the storage unit 5 in the bottom component 3.

  As shown in FIGS. 1 and 3, the upper end of the cylindrical inner portion 2b is configured to have a height slightly lower than the upper end of the cylindrical outer portion 2a, and is the height of the upper end of the cylindrical inner portion. By joining each other, on the one hand, the upper end of the moving space 4 is closed at a position slightly lower than the upper end of the cylindrical peripheral side part 2, and on the other hand, the thickness of the upper end part of the cylindrical peripheral side part 2 is closed. Is made thin.

  As shown in FIGS. 1 and 3 to 6, the cylindrical outer portion 2 a is configured to discharge cooling gas at an angular interval of 90 degrees in the circumferential direction corresponding to the uppermost portion of the moving space 4. The exhaust ports 2a1, 2a1,... Are opened, and a plurality of adjustment holes 2a2, 2a2,... For adjusting the moving state of the cooling gas in the moving space 4 are randomly opened between the right and the bottom of the exhaust ports 2a1, 2a1,. It is. The moving state of the cooling gas in the moving space 4, that is, the direction and speed of the flow, the density of white smoke, etc., open and close the plurality of adjusting holes 2 a 2, 2 a 2. Thus, the adjustment is made by permitting or not releasing from any of the adjustment holes 2a2, 2a2,. In this embodiment, the plurality of adjustment holes 2a2, 2a2,... Are randomly opened. However, it is not inconvenient to regularly open the holes except for the viewpoint of design. It needs to be in a positional relationship that can be opened and closed with fingers or palms of both hands. Further, in this embodiment, the adjustment holes 2a2, 2a2,... Are configured as circular holes, and the diameters thereof are all the same, but the hole shape and the diameter need not be limited to these. It is not inconvenient if it matches the purpose and can be opened and closed with a finger or palm.

  A ring-shaped support portion 2a3 that supports the intermediate portion of the straw by penetrating is provided near the outer peripheral intermediate portion of the cylindrical outer portion 2a. The ring-shaped support portion 2a3 supports an intermediate portion of the straw whose lower portion is supported by a lower receiving portion 3a (described later) disposed on the bottom component member 3.

  As shown in FIGS. 1 to 6, the cylindrical inner portion 2 b randomly forms bulging portions 2 b 1, 2 b 1... Bulging in the beverage storage portion 1 between its upper end and lower end, and the cylindrical shape. The cylindrical inner portion 2b, which protrudes further downward from the lower end of the outer portion 2a, is detachably screwed with a connecting female screw portion 3c formed on the upper inner periphery of the peripheral side portion 3b of the bottom component member 3. The connecting male screw portion 2b2 is formed.

  The bulging portions 2b1, 2b1,... Are randomly arranged as described above, and one is intended to be able to add an irregular change to the movement of the cooling gas rising and moving in the moving space 4. It is. The other is to enable the beverage in the beverage storage unit 1 to be efficiently cooled. Each of the bulging portions 2b1, 2b1,... Bulges into the beverage storage portion 1 in a generally hemispherical shape or a semi-elliptical spherical shape, as shown in FIG. 1, FIG. 3, FIG. When viewed from the moving space 4, a hemispherical or semi-elliptical spherical recess is formed.

  As shown in FIGS. 1 and 3 to 7, the moving space 4 is a substantially cylindrical space between the cylindrical outer portion 2 a and the cylindrical inner portion 2 b. As described above, the upper part of the cylindrical outer part 2a and the upper end of the cylindrical inner part 2b are partitioned by a joint part, and the lower part is a bottom part of the cylindrical peripheral side part 2 as will be described later. In the state of being coupled to the member 3, the bottom portion constituting member 3 is divided at the upper end of the peripheral side portion 3 b. As will be described later, the lowermost portion of the moving space 4 communicates with the storage portion 5 formed in the bottom component member 3, from which cooling gas is introduced.

  As shown in FIGS. 1, 3, and 8 to 11, the bottom component member 3 basically has a substantially circular shape that closes the lower portion of the beverage storage unit 1 in a state of being coupled to the cylindrical peripheral side portion 2. A bottom portion 3d, the peripheral side portion 3b defining the periphery and the lower periphery thereof, the storage portion 5 for storing dry ice immediately below the bottom portion 3d, and a watch portion 6 further below it The LED 7a, 7b, 7c disposed at the upper end of the peripheral side portion 3b and the lower receiving portion 3a configured outside the peripheral side portion 3b.

  The upper inner periphery of the peripheral side portion 3b, that is, the inner periphery of the portion rising from the peripheral edge portion of the bottom portion 3d of the peripheral side portion 3b, as shown in FIGS. The connecting female screw portion 3c is formed, and as described above, the connecting male screw portion 2b2 formed on the outer periphery of the lowermost portion of the cylindrical inner portion 2b is detachably screwed.

  As shown in FIGS. 1 and 3, the peripheral portion of the bottom portion 3d is cylindrical when the connecting male screw portion 2b2 of the cylindrical inner portion 2b is screwed to the connecting female screw portion 3c. A packing member 8 is arranged in order to ensure watertightness between the lower end of the inner part 2b. The packing member 8 is formed of a member that does not adversely affect food. In this example, an annular thin plate member made of polyethylene was employed.

  As shown in FIGS. 1 and 3, the storage portion 5 is a space for storing dry ice configured immediately below the bottom portion 3 d of the bottom component member 3. In this embodiment, the storage portion 5 is shown in FIGS. 1, 3, and 3. As shown in FIG. 10 and FIG. 11, it comprises a drawer portion 5a for storing dry ice and a drawer storage space 5b for taking in and out the drawer portion 5a. As shown in FIGS. 1 and 3, a claw locking hole 5a1 for hooking a fingernail when the drawer portion 5a is pulled out from the drawer storage space 5b is formed on the peripheral side wall on the front side of the drawer portion 5a. Keep it.

  As shown in FIGS. 1, 3 and 11, a stopper 5 b 1 is arranged on the bottom surface on the outermost surface side of the drawer storage space 5 b so that the drawer portion 5 a in the storage state does not come out unnecessarily. This retaining member 5b1 is a thin plate-like member made of synthetic rubber, and is placed in an embedded state on the bottom surface on the outermost surface side of the drawer storage space 5b, and the frictional force generated between this and the bottom surface of the drawer portion 5a. Thus, the pull-out portion 5a is prevented from coming off.

The drawer 5a has an internal space for storing dry ice. Since the drawer 5a is water-tight, the storage space is provided with some water in addition to dry ice as necessary. The white smoke due to the frozen water particles can be easily generated as described above.
As shown in FIG. 1, FIG. 3, FIG. 10, and FIG. 11, cooling gas (sublimation gas of dry ice and white smoke-like frozen water particles) is placed on the cylindrical peripheral side at the upper end of the peripheral side wall of the drawer 5a. A plurality of outlet portions 5a2, 5a2,... For sending out to the moving space 4 of the portion 2 are formed. In this embodiment, as shown particularly in FIGS. 10 and 11, the outlet portions 5a2, 5a2,... Were opened at six locations at an angular interval of 60 degrees in the circumferential direction. The outlet portions 5a2, 5a2,... Have a total size only on the front side, and the other four are only a part of the size, in relation to the thickness of the peripheral side wall of the lead portion 5a. It does not have. As for the other four, as shown in the figure, an opening having a corresponding size and shape is formed in a corresponding portion on the peripheral side portion 3b side of the bottom component member 3, and the entire outlet portion configuration is combined with it. Is to be completed.

  These outlet portions 5a2, 5a2,... Are formed on the peripheral side portion 3b of the bottom component member 3 in a state where the drawer portion 5a is stored in the drawer storage space 5b, as shown in FIGS. It communicates with the supply holes 3e, 3e,. The outlet portions 5a2, 5a2,... And the gas supply holes 3e, 3e,... Integrally form a cooling gas composed of dry ice sublimation gas and white smoke-like frozen water particles generated in the extraction portion 5a. The communication hole for sending out to the movement space 4 of the peripheral side part 2 is comprised.

As described above, the gas supply holes 3e, 3e,... Are obviously formed in the upper part of the peripheral side portion 3b of the bottom constituting member 3 at an angular interval of 60 degrees in the circumferential direction and the lead-out portion 5a. Are formed in a positional relationship corresponding to the outlet portions 5a2, 5a2,... Formed at the upper end of the peripheral side wall. As shown in FIG. 7, the upper end opens at the upper end of the peripheral side portion 3 b of the bottom component member 3, and communicates with the moving space 4 of the cylindrical peripheral side portion 2 at the bottom.
The gas supply holes 3e, 3e,... Are substantially quadrilateral as shown in FIG. 8 at the connecting portion to the moving space 4, but the lowermost outlet portions 5a2, 5a2,. The connection part is semicircular and gradually becomes a quadrilateral toward the top. Further, the gas supply holes 3e, 3e,... Are located at the lowermost portions directly above the outlet portions 5a2, 5a2,.
Further, the outlet portions 5a2, 5a2,... And the gas supply holes 3e, 3e,... Are not limited to these configurations as long as the cooling gas can be appropriately supplied from the extraction portion 5a to the moving space 4. .

  As shown in FIG. 7, the LEDs 7a, 7b, and 7c are arranged on the upper end of the peripheral side portion 3b of the bottom component 3 at an angular interval of 120 degrees in the circumferential direction. Of course, the gas supply holes 3e, 3e,... Are arranged so that light can be irradiated upward in the positional relationship between the two corresponding intermediate portions. In this embodiment, the LEDs 7a, 7b, and 7c employ three types of red light emission type, blue light emission type, and green light emission type corresponding to the three primary colors of light. The power is supplied from the battery by arranging a battery (not shown) on the side of the timepiece unit 6 located below the storage unit 5 for dry ice. These LEDs 7a, 7b, and 7c can be provided with a light emission drive circuit such as a blinking drive. In this embodiment, a continuous lighting drive circuit is employed. The battery can be replaced by removing the lid 5b2 constituting the lower surface of the drawer storage space 5b. The LEDs 7a, 7b, and 7 are configured to turn on and start to light when the drawer portion 5a storing dry ice is pushed into the drawer storage space 5b.

  On the upper end surface of the peripheral side portion 3b of the bottom component member 3 where the LEDs 7a, 7b, 7c are installed, the portions where the LEDs 7a, 7b, 7c are arranged and the portions where the gas supply holes 3e, 3e,. Then, a thin film-like mirror surface portion 3b1 is provided. The light emitted from the LEDs 7a, 7b, 7c and diffused from the white smoke-like frozen water particles in the moving space 4 is further reflected in the moving space 4.

  As shown in FIGS. 1 and 2, the timepiece unit 6 has an electronic circuit unit 6 a disposed in a space immediately below the storage unit 5, and is provided on the front side of the peripheral side unit 3 b of the bottom component 3. The character portion 6b is displayed on the part. A clock driving battery (not shown) and batteries for driving the LEDs 7a, 7b, and 7c are arranged on the side of the electronic circuit portion 6a. As described above, the lid body 5b2 is arranged on the lower surface of the drawer storage space 5b constituting the dry ice storage section 5, and the lid body 5b2 constitutes the lower surface of the drawer storage space 5b. The upper surface of the space which accommodates the electronic circuit part 6a of the timepiece part 6, the driving battery and the LED driving battery is configured. The lid 5b2 is formed of a heat insulating material so that the operation of the battery is not hindered by the cooling action of dry ice.

  As shown in FIG. 11, the lid 5b2 has a claw locking portion 5b3 in the vicinity of the center thereof. After the drawer portion 5a is pulled out, the claw is locked to the claw locking portion 5b3. By pulling it up, it is possible to remove the lid 5b2 and open a space containing the battery of the timepiece 6 below. The battery can be replaced in this way.

  As shown in FIGS. 1, 3, and 9 to 11, the lower receiving portion 3a is a receiving portion for receiving the lower portion of the straw formed on the outer side of the peripheral side portion 3b of the bottom constituting member 3, and has an upper cylindrical shape. It arrange | positions so that it may become a positional relationship corresponding to the ring-shaped support part 2a3 for intermediate part insertion support of the straw fixedly provided on the outer periphery of the shape surrounding side part 2, ie, the outer periphery of the cylindrical outer part 2a.

  Therefore, according to the glass of this embodiment, the beverage can be filled into the beverage storage portion 1 of the cylindrical peripheral side portion 2 and used suitably for drinking. At this time, dry ice is stored in the storage portion 5 of the bottom component member 3 coupled to the lower portion of the cylindrical peripheral side portion 2 before and after the beverage storage portion 1 is filled with the beverage. As described above, the storage of the dry ice is performed by putting the dry ice into the drawer 5a that is pulled out and inserting the drawer 5a into the drawer storage space 5b that constitutes the storage 5. By doing. As described above, when the drawer portion 5a is inserted into the drawer storage space 5b as described above, the power switches of the LEDs 7a, 7b, and 7c are turned on, and the light emission operation of the LEDs 7a, 7b, and 7c is started.

  When filling the drawer 5a with dry ice, if a large amount of white smoke is to be emitted, some water is added to the dry ice.

  When using a straw, the middle is inserted in the ring-shaped support part 2a3 fixed to the cylindrical outer part 2a which is the outer surface side of the cylindrical peripheral side part 2, and the lower end is the peripheral side of the bottom part constituting member 3 It shall be supported by the lower receiving part 3a comprised outside the part 3b.

  As described above, the glass of this embodiment can be provided to the drinker.

  In this glass, there is a cooling gas which is a mixture of white smoke-like frozen water particles generated by rapidly cooling dry ice sublimation gas and moisture in the air or water stored with dry ice from the drawer 5a of the storage unit 5. It rises, and is sent out to the movement space 4 of the said cylindrical surrounding side part 2 through the exit part 5a2, 5a2, ... and the gas supply holes 3e, 3e .... In addition to being cooled from the bottom 3d of the lower part by the dry ice, the beverage filled in the beverage storage unit 1 is also cooled by the cooling gas that moves up and down in the moving space 4.

  Since these cooling methods are not means for cooling by putting ice in the beverage, there is no problem of changing the concentration of the beverage. Therefore, there is an advantage that does not affect the flavor of the beverage.

  When the adjustment holes 2a2, 2a2,... That are randomly opened in the cylindrical outer portion 2a are closed by fingers or palms, the cooling gas sent to the moving space 4 is in the middle of the bulging portion 2b1, In the position close to 2b1..., Four exhaust ports 2a1, which rise to the uppermost part of the moving space 4 and enter the upper part of the moving outer space 2a and are opened at the upper part of the cylindrical outer part 2a, 2a1... Are exhausted. As described above, the cooling gas may enter and exit the bulging portions 2b1, 2b1,... Formed in the cylindrical inner portion 2b depending on the position where the flow passes or the moving state. Since the bulging portions 2b1, 2b1,... Are in a bulging state in the beverage storage portion 1, the cooling effect on the beverage in the beverage storage portion 1 can be further enhanced. In addition, the flow of the cooling gas into and out of the bulging portions 2b1, 2b1,... In this way causes a flow different from the case where the moving space 4 is simply lifted straight.

  Since the cooling gas contains not only dry ice sublimation gas but also white smoke-like frozen water particles as described above, the flow and the change of the flow can be visually recognized. This glass is literally made of glass and is transparent except where it is specifically stated otherwise, so that the interesting flow or movement of the cooling gas and changes in the flow or movement can be recognized from the outside. .

  The cooling gas is irradiated with red, blue, and green light from the LEDs 7a, 7b, and 7c disposed on the upper end of the peripheral side portion 3b of the bottom component member 3, whereby white smoke-like frozen water particles of the cooling gas are emitted. Is colored according to the shading, etc., and it can shake and enjoy interesting colors. Further, the red, blue and green lights of the LEDs 7a, 7b and 7c are mixed with each other as they go upward, and a change in the hue in the horizontal direction also occurs. This also swings with the movement of the cooling gas.

  When the cooling gas sent out to the moving space 4 is opened without all or part of the adjustment holes 2a2, 2a2,... Opened in the cylindrical outer portion 2a being closed by fingers or palms. , A part of the cooling gas rising in the vicinity will be exhausted from there. This causes a change in the flow of the nearby cooling gas, which further affects the flow of the nearby cooling gas. This creates a complex and unpredictable flow change that is perceived as a subtle flow, movement or change of white smoke-like frozen water particles. Furthermore, the change slightly changes the hue imparted by the LEDs 7a, 7b, 7c, and shows a very interesting color and its change. By opening and closing the adjustment holes 2a2, 2a2,... At various positions, various flows of the cooling gas can be generated and the rapid change and the gradual change can be enjoyed.

  In addition, since the thin-film-like mirror surface part 3b1 is arranged on the upper end surface of the peripheral side part 3b of the bottom part constituting member 3 where the LEDs 7a, 7b and 7c are arranged, it is reflected by the white smoke like frozen water particles of the cooling gas Then, the returning light is re-reflected by the mirror surface portion 3b1 and re-radiated to the upper white smoke-like frozen water particle side, so that the amount of light can be maintained.

  In addition, since the drink in the drink storage part 1 of the cylindrical peripheral side part 2 has comprised thinly the upper part of this cylindrical peripheral side part 2, it is easy to drink.

  Further, when the dry ice in the storage unit 5 is exhausted, it is possible to easily draw out the drawer 5a and refill with dry ice.

  When a straw is used, it can be used by extracting it from the ring-shaped support portion 2a3 and the lower receiving portion 3a. If it is not necessary, the ring-shaped support portion 2a3 and the lower receiving portion are similarly used. What is necessary is just to make it support in the part 3a again. Therefore, it does not get in the way of drinking.

  If you want to know the time on the way, you can find it by looking at the character part of the clock part 6 arranged at the bottom.

  After being used for drinking, the cylindrical peripheral side portion 2 and the bottom component member 3 can be easily removed by unscrewing the connecting male screw portion 2b2 of the former cylindrical inner portion 2b and the latter connecting female screw portion 3c. Can be separated. Thus, when the inside of the moving space 4 becomes dirty, it can be easily cleaned. If the drawer 5a is removed from the drawer storage space 5b, the power switches of the LEDs 7a, 7b, 7c are turned off, and the light emission operation of the LEDs 7a, 7b, 7c can be stopped.

  The present invention can be used in the field of glass production.

1 Beverage storage (beverage storage space)
DESCRIPTION OF SYMBOLS 2 Cylindrical peripheral side part 2a Cylindrical outer side part 2a1 Exhaust port 2a2 Adjustment hole 2a3 Ring-shaped support part 2b Cylindrical inner side part 2b1 Expansion part 2b2 Connection male screw part of cylindrical inner side part 3 Bottom part component 3a Lower receiving part 3b Bottom part Peripheral side 3b1 of the component member Mirror surface portion 3c arranged on the upper surface of the peripheral side portion of the bottom component 3c Connecting female screw 3d at the peripheral side of the bottom component 3d Bottom portion 3e Gas supply hole 4 Moving space 5 Storage portion 5a Drawer 5a1 Claw Locking hole 5a2 Outlet part 5b Drawer storage space 5b1 Retaining stopper 5b2 Cover body constituting the lower surface of the drawer storage space 5b3 Claw locking part 6 Clock part 6a Electronic circuit part 6b Character part 7a, 7b, 7c LED
8 Packing material

Claims (5)

A glass comprising a cylindrical peripheral side portion provided with a beverage storage space on the inside and a detachable bottom constituent member for closing the lower portion thereof,
The cylindrical peripheral side portion is constituted by a cylindrical outer portion and a cylindrical inner portion joined at the upper end forming a moving space for cooling gas composed of dry ice sublimation gas and white smoke-like frozen water particles,
A cooling gas exhaust opening that opens to the outside is opened at the upper part of the cylindrical outer part, and the dry ice of the bottom constituent member is opened and closed by a finger at parts other than the upper part of the cylindrical outer part. Opening a plurality of adjustment holes for adjusting the movement state of the cooling gas rising from the storage portion to the movement space between the cylindrical inner portion and the cylindrical outer portion,
In the cylindrical inner portion, in order to change the movement of the cooling gas that rises in the moving space, a plurality of bulging portions that bulge into the beverage storage space are randomly formed,
The bottom component member is a storage unit that stores dry ice, and a cooling gas composed of sublimation gas and white smoke-like frozen water particles of the dry ice from one or more positions on the upper side of the peripheral side portion. Forming a storage part with an open communication hole to be introduced into the movement space of the cylindrical peripheral side part,
The glass which arrange | positions several LED in order to radiate | emit the light in the movement space of the said cylindrical surrounding side part in the upper end of the surrounding side part of the said bottom part structural member.   The glass according to claim 1, wherein each of the LEDs emits red, blue or green light.   The glass of Claim 1 or 2 which comprised the upper part of the said cylindrical surrounding side part thinner than the lower part.   The glass according to claim 1, 2, or 3, wherein a timepiece having a character portion arranged on a peripheral side portion is provided below the storage portion of the bottom component member.   The glass according to claim 1, 2, 3, or 4, wherein the storage unit for storing the dry ice can be added with water in addition to the dry ice.

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