CN111511659A - Detachable functional water bottle of ice-cube and ice-cube preparation instrument - Google Patents

Abstract

The invention relates to a detachable functional water bottle of ice cubes and an ice cube making tool, which is characterized by comprising the following components: a container body having one side opened and closed by a lid and a cylindrical interior containing a fluid; and an ice fixing frame coupled to one side of the container main body, extending into the container main body, and fixing the ice, wherein the ice fixing frame fixes the ice in a form in which the ice can be inserted into or taken out of the container main body.

Description

Detachable functional water bottle of ice-cube and ice-cube preparation instrument

Technical Field

The present invention relates to a functional water bottle with a detachable ice block and an ice block making tool, and more particularly, to a functional water bottle with a detachable ice block and an ice block making tool which greatly improve convenience when adding ice blocks to beverages.

Background

Generally, people use cylindrical containers to carry beverages. The container has an inlet which is combined with a lid to be opened and closed, and after a user puts a beverage into the container, the container is carried in a state where the lid is closed, and then the lid is opened when the beverage is required to be drunk.

However, the beverage may be filled into the container under temperature conditions selected according to the ingredients of the beverage or the surrounding environment (particularly, temperature), the needs of the person drinking the beverage, etc., and the container should have durability such that the container or the beverage is not deformed when the beverage is filled according to the needs of the user and has heat retaining properties such that the beverage can be maintained at a relatively constant temperature.

As described above, in addition to the beverage being kept at a high temperature or a low temperature by the container, ice cubes may be put into the container to keep the beverage in a very cool state in a hot environment such as summer.

For this purpose, the user puts the beverage in the container, puts the container containing the beverage in the refrigerator for freezing, and takes out the container from the refrigerator for carrying when necessary, or puts separately prepared ice into the container for use.

However, when the container is put in an ice chest for making ice cubes, the beverage having a considerable specific gravity of water is frozen and the volume thereof is increased, so that there is an inconvenience that a proper amount of the beverage should be put in the container, and the container is deformed by expansion when the beverage is frozen.

Also, even if the ice cubes are made without any problem, it is difficult to drink the beverage if the ice cubes around the inlet are not melted, and even if the ice cubes around the inlet are melted, the container is inclined and the ice cubes move to the inlet to interfere with the drink.

On the other hand, if several pieces of separately prepared ice cubes are put into the container, a part of the above problems can be solved, but the ice cubes collide with each other during carrying the container to generate noise.

As described above, the containers currently marketed do not solve the above-mentioned problems, compared to the needs of users who wish to drink cool beverages using ice.

Disclosure of Invention

Technical problem

The present invention has been made to solve the above problems, and an object of the present invention is to provide a functional water bottle with detachable ice cubes and an ice cube making tool, which fix ice cubes in a container main body containing beverages and the like by an ice cube fixing frame, so that the beverages can be kept in a low temperature state for a long time without the ice cubes falling to the inner bottom surface of the container main body.

Further, the present invention provides a functional water bottle with detachable ice cubes and an ice cube making tool, which can prevent the container body from being damaged because ice cubes are not directly made using the container body because the ice cubes are made outside the container body and then inserted into the container body.

Means for solving the problems

The functional water bottle with detachable ice cubes in one aspect of the present invention includes: a container body having one side opened and closed by a lid and a cylindrical interior containing a fluid; and an ice fixing frame coupled to one side of the container main body, extending into the container main body, and fixing the ice, wherein the ice fixing frame fixes the ice in a form in which the ice can be inserted into or taken out of the container main body.

Preferably, the ice fixing frame is coupled to the container main body in a state of fixing the ice, such that the ice is located inside the container main body.

Further, it is preferable that the container body has an outer side coupled to the cover and an inner side having a mouth portion coupled to the ice cube holder.

Also, preferably, the ice cube fixing frame includes: a container coupling portion coupled to the bottle mouth portion; a column part extending downward from the lower surface of the container coupling part; and an ice block placing part which expands from the lower end of the column part to the side.

And, preferably, the column part is detachably formed under the container coupling part.

Preferably, the height of the column is not more than half of the inner height of the container body.

Further, the ice cube placement unit preferably has a shape that spreads radially from the lower end of the column unit.

Preferably, the outer surface of the bottle mouth portion is formed with an outer thread for coupling with the cap, and the inner surface thereof is formed with an inner thread for coupling with the container coupling portion of the ice cube holder.

Also, preferably, the other side of the container body has a support portion detachably coupled with and supporting the container body.

Further, preferably, the support portion has a lighting device or a speaker for irradiating light toward the container body.

An ice cube producing device according to an aspect of the present invention is an ice cube producing device for producing ice cubes to be supplied to a container main body, including: an ice cube mold having a shape corresponding to the shape of the container body and having one or more ice trays with one side opened; and the ice block fixing frame is combined to one side of the ice tray and extends towards the inside of the ice tray to fix the ice blocks formed in the ice tray, wherein the ice block fixing frame is combined with the ice block mould to cover one side of the ice tray.

Specifically, the ice fixing frame is coupled to the container main body so that the ice is located inside the container main body after being separated from the ice mold in a state of fixing the ice formed in the ice tray.

Specifically, the ice cube fixing frame includes: a cover covering one side of the ice tray; a column part extending downward from the covering part; and an ice block placing part which expands from the lower end of the column part to the side.

Specifically, the pillar portion is detachably formed under the covering portion.

Specifically, the ice cube fixing frame further includes a container coupling portion coupled to one side of the container main body to fix a state of the ice cubes formed in the ice grid, and the cover is separated from the ice cube mold and coupled to the container main body after being replaced with the container coupling portion, so that the ice cubes are positioned inside the container main body.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the functional water bottle with detachable ice blocks and the ice block making tool, after the ice blocks are made by the ice block die and the ice block fixing frame, the ice block fixing frame hung with the ice blocks is combined to the container main body to enable the ice blocks to be positioned in the container main body, so that the container main body is not required to be deformed, the ice blocks can be replaced, and convenience is improved to the maximum extent.

In addition, according to the functional water bottle with detachable ice cubes and the ice cube making tool, the ice cubes are fixed in the container main body through the ice cube fixing frame, so that the beverage and the like are continuously contacted with the ice cubes to keep the low temperature state of the beverage, and an interval is formed between the ice cubes and the inner wall of the container main body, so that the melting of the ice cubes is delayed, and the satisfaction degree of a user is improved.

Drawings

Fig. 1 is a perspective view of a functional water bottle with detachable ice cubes according to an embodiment of the present invention.

Fig. 2 is a perspective view of a functional water bottle with ice cubes detachably according to an embodiment of the present invention.

Fig. 3 is a perspective view of a functional water bottle with ice cubes detachably attached according to an embodiment of the present invention.

Fig. 4 is a perspective view of an ice holder for a functional water bottle with detachable ice according to an embodiment of the present invention.

Fig. 5 is a sectional view of a functional water bottle with ice cubes detachably according to an embodiment of the present invention.

Fig. 6 is a sectional view of a functional water bottle with ice cubes detachably according to an embodiment of the present invention.

Fig. 7 is a sectional view of a functional water bottle with ice cubes detachably according to an embodiment of the present invention.

Fig. 8 is a perspective view of an ice cube-making tool according to an embodiment of the present invention.

Detailed Description

The objects, specific advantages and novel features of the invention will become apparent from the following detailed description of the preferred embodiment when considered in conjunction with the drawings. It should be noted that, in the present specification, when a reference numeral is added to each member, the same number is given even if the same member is displayed on different drawings. Also, in describing the present invention, if a detailed description of the related known art may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Preferred embodiments of the present invention are described in detail below with reference to the accompanying drawings. In this specification, the functional water bottle detachable from ice is described as a container for containing a beverage for convenience, but the functional water bottle detachable from ice may contain not only a beverage but all fluids (fluids not intended for drinking, etc.) that need to be cooled by ice.

Fig. 1 to 3 are perspective views of a functional water bottle with detachable ice cubes according to an embodiment of the present invention, fig. 4 is a perspective view of an ice cube fixing frame of the functional water bottle with detachable ice cubes according to an embodiment of the present invention, and fig. 5 to 7 are sectional views of the functional water bottle with detachable ice cubes according to an embodiment of the present invention.

Fig. 1 shows a state in which the ice cube holder 30 is coupled to the container body 10, fig. 2 shows a state in which the ice cube holder 30 is separated from the container body 10, and fig. 3 shows a state in which the ice cubes 100 are inserted into the container body 10 or the ice cubes 100 are taken out from the container body 10 by the ice cube holder 30.

Referring to fig. 1 to 7, an ice-removable functional water bottle 1 according to an embodiment of the present invention includes a container body 10, a band 20, an ice holder 30, and a cover 40.

The container body 10 is opened at one side thereof and can contain fluid such as beverage therein. The opening 111 on the side opened in the container body 10 can be opened and closed by the lid 40, but may not be opened by the lid 40 for drinking.

The inside of the container body 10 has a cylindrical shape, and for example, the inside of the container body 10 may be cylindrical. Of course, the internal form of the container body 10 is not limited thereto, and the internal form of the container body 10 may be a form that slides in a direction of inserting and taking out the ice cubes 100. That is, the inside of the container body 10 is in a cylindrical state in which the sectional area is gradually reduced or uniform from the opening 111 to the bottom.

At least a portion of the container body 10 is made of a transparent or translucent material so that a user can easily confirm the amount of the fluid contained therein. The container body 10 is made of a material that can maintain heat retaining properties without deforming when containing a low-temperature or high-temperature beverage, and for example, the container body 10 may be made of a metal such as glass or stainless steel, or a synthetic resin. Of course, the material of the container body 10 is not particularly limited.

The opened side of the container body 10 (the peripheral portion of the opening 111) may be referred to as a finish portion 11, the finish portion 11 is combined with the aforementioned cap 40, and the inside of the container body 10 is isolated from the outside. At this time, the cap 40 is coupled to the finish portion 11 by screws, and for this purpose, the outer face of the finish portion 11 opposite to the cap 40 has an outer thread 112.

Of course, the coupling manner between the finish portion 11 of the container body 10 and the cap 40 is not limited thereto, and the cap 40 may be detachably coupled to the container body 10 using a method capable of sufficiently sealing the inside of the container body 10 and conveniently opening one side of the container body 10.

An outer step 113 is formed below the outer thread 112 on the outer surface of the mouth portion 11, and the degree of coupling of the cap 40 can be restricted when the cap 40 is coupled to the mouth portion 11. The width of the outer step 113 corresponds to the thickness of the cover 40, and when the cover 40 is coupled to the container body 10, the outer surface of the cover 40 is continuously and smoothly connected to the outer surface of the container body 10.

The ice holder 30 described later is coupled to the inner surface of the mouth portion 11, and at this time, the mouth portion 11 and the ice holder 30 are coupled by screws in the same/similar manner as the coupling of the mouth portion 11 and the cover 40.

For this purpose, the inner surface of the mouth portion 11 facing the ice cube holder 30 has an inner thread 114.

The inner surface of the finish portion 11 forms an inner step 115, which is the same/similar to the outer step 113. When the ice cube fixing frame 30 is coupled to the mouth portion 11, the inner step 115 functions as a stopper for limiting the coupling degree of the ice cube fixing frame 30, and the width of the inner step 115 is not particularly limited as long as the coupling degree of the ice cube fixing frame 30 (to which the ice cube 100 is fixed) can be limited.

For example, the width of the inner step 115 should be such that the screw 311 does not protrude inward, in order to prevent the ice 100 fixed to the ice fixing frame 30 from being caught when it is inserted into or removed from the container body 10.

In the bottle mouth portion 11, the outer step 113 and the inner step 115 are arranged at heights corresponding to each other or shifted from each other in the vertical direction, and for example, the outer step 113 is positioned lower than the inner step 115.

Also, the sizes of the outer and inner threads 112 and 114 may be the same or different, and there may be various options in consideration of a sealing force based on the coupling of the cover 40, a coupling force for supporting the ice cubes 100 fixed to the ice cube fixing frame 30, and the like.

The bottle mouth 11 is coupled to the cover 40 on the outside and to the ice cube holder 30 on the inside, but is not limited thereto. The present invention includes various modifications, for example, the ice cube holder 30 is combined to cover the opening 111 of the bottle mouth portion 11 while surrounding the outside of the bottle mouth portion 11, and the cover 40 is combined to the outside of the ice cube holder 30.

The container body 10 may have a support portion for supporting the container at the bottom, on the opposite side of the finish portion 11, i.e., the bottom surface of the container body 10. Wherein the support portion 12 is formed integrally with the container body 10 or as a separate member. The bottom surface of the support portion 12 is flat or has a concave surface recessed inward (i.e., upper side), thereby stably and firmly supporting the container body 10. According to the embodiment, the bottom surface of the support portion 12 may have an anti-friction plate, and may be stably placed on a plane or the like.

Also, according to the embodiment, the support part 12 may have a speaker and/or a lighting device, sound or music, etc. desired by the user may be played through the speaker of the support part 120, and the lighting device composed of L ED irradiates light to the container body 10, that is, the lighting device irradiates light to the beverage received by the container body 10, and an aesthetic lighting effect can be presented, the lighting device and/or the speaker may be remotely controlled by being connected to a portable terminal (a smart phone, etc.) carried by the user through Bluetooth, Wifi, etc., and the support part 12 may have a separate battery or a terminal for charging, etc. for the operation of the lighting device and/or the speaker, particularly, the support part 12 may be detachably coupled to the container body 10, thereby further improving convenience in use.

The container body 10 has a ring band 20 so that the container body 10 can be carried. The ring band 20 is coupled to the bottle mouth portion 11, extended in a direction away from the bottle mouth portion 11 and a user can carry the container body 10 by using the ring band 20.

The ring band 20 has a ring 21 inserted into the outer periphery of the bottle mouth portion 11. The ring 21 surrounds the lower side of the outer periphery of the bottle mouth portion 11, and the upper surface of the ring 21 is engaged with the lower end of the cap 40.

The ring 21 and the mouth portion 11 are coupled to each other simply by penetrating the mouth portion 11 into the ring 21 without using screws or the like. The cap 40 is coupled to the ring 21, and thus can naturally prevent the ring 21 from being detached.

However, in order to prevent the ring 21 from being separated from the finish portion 11 when the user tilts the container body 10 to drink the beverage by opening the cap 40, the inner surface of the ring 21 has threads (not shown in the drawings) corresponding to the outer threads 112 of the finish portion 11.

Alternatively, the ring 21 has an inner diameter smaller than an outer diameter formed by the outer thread 112 of the finish portion 11 and is inserted into the finish portion 11 by interference fit with the outer thread 112, so that even if the container body 10 is turned over in a state of being separated from the cap 40, the ring 21 can be prevented from being detached to some extent.

The ring 21 is made of a deformable elastic material, and for example, silicon or the like can be used. That is, while the ring 21 is prevented from being separated from the bottle mouth portion 11 by interference fit, the user does not need much effort to separate the ring band 20 from the container body 10 by an external force.

One side of the ring 21 has an extension 211 extending in a direction away from the bottle mouth 11. The extension 211 is sized not to be hidden by the cover 40 when the cover 40 is coupled to the upper side of the ring 21.

The extension portion 211 is formed at least one at the periphery of the ring 21 for fixing a belt 22 described later. However, in order to prevent the extension 211 from protruding to the outside to cause inconvenience to the user when the cover 40 is coupled to the container body 10, the extension 211 has a minimum size capable of fixing the strap 22 and/or is made of an elastic material to prevent the hand of the user from being injured.

Extension 211 has hole 212 formed therein, and band 22 is connected to extension 211 through hole 212. In which more than one hole 212 is formed in the extension 211, the hole 212 may have various sizes according to the form (width, etc.) of the belt 22.

The circumferential band 20 has a band 22 extending from the ring 21. As described above, the extension 211 of the ring 21 is formed with the hole 212, and the band 22 is fixed to the ring 21 through the hole 212 in a closed curve form.

The belt 22 is in the form of a closed curve having a size that allows a finger or a hand of a user to pass through, and the length of the belt 22 is such that the belt 22 does not contact the floor surface when the container body 10 is placed on the floor surface or the like.

That is, if the length of the band 22 is too long, it is not easy to place the container body 10, and if the length of the band 22 is too short, it is not easy to carry, and the distance to the side of the band 22 farthest from the ring 21 (about half of the total length of the band 22) is more than half of the height of the container body 10.

The belt 22 is made of a material such as cotton or synthetic resin, and may be made of metal. That is, the material of the band 22 is not particularly limited, and any material may be used as long as the container body 10 can be carried.

The ice cubes fixing frame 30 is coupled to one side of the container body 10. The ice cube holder 30 is coupled to the mouth portion 11 of the container body 10, and coupled to the mouth portion 11 to cover the opening 111 of the container body 10.

Of course, even if the ice cube holder 30 is coupled to the mouth portion 11 of the container body 10, the inside of the container body 10 may not be sealed. The ice cube fixing frame 30 only needs to be able to place the ice cubes 100 in the container body 10, which will be described later in detail.

The ice fixing frame 30 is coupled to the mouth portion 11 and extends toward the inside of the container body 10 and fixes the ice 100. That is, the upper end is coupled to the container body 10 in a state where the ice 100 is fixed to the lower end of the ice fixing frame 30.

Here, the ice cube fixing frame 30 fixes the ice cubes 100 in a form that the ice cube fixing frame can be inserted into or taken out from the inside of the container main body 10, and therefore, the ice cube fixing frame 30 is coupled to the container main body 10 in a state of fixing the ice cubes 100 to stably place the ice cubes 100 inside the container main body 10, or is separated from the container main body 10 to take out the ice cubes 100 contained in the container main body 10 to the outside, so that the beverage is not cooled any more.

The ice cube holder 30 includes a container coupling portion 31, a pillar portion 32, and an ice cube placement portion 33. The container coupling portion 31 is coupled to the bottle mouth portion 11. The container coupling portion 31 is formed with a screw 311, and the screw 311 of the container coupling portion 31 is engaged with the inner screw 114 of the inner surface of the finish portion 11.

Since the outer surface of container coupling portion 31 and the inner surface of finish portion 11 face each other and inner step 115 is formed on the inner surface of finish portion 11, the lower end of the outer surface of container coupling portion 31 is prevented from entering container body 10 by inner step 115 of finish portion 11.

Here, since the container coupling portion 31 is coupled to the bottle mouth portion 11 by a screw, the inner terminal of the bottle mouth portion 11 may serve as a stopper to prevent the container coupling portion 31 from rotating to be coupled to the bottle mouth portion 11.

The container coupling portion 31 is positioned at the opening 111 of the container body 10 to cover the opening 111. For this reason, the outer diameter of the container coupling portion 31 corresponds to the diameter of the opening 111, and the outer diameter of the container coupling portion 31 excluding the screw 311 is slightly smaller than the diameter of the opening 111, but when the container coupling portion 31 is coupled to the finish portion 11, the container coupling portion 31 and the finish portion 11 are sealed as the screw 311 of the container coupling portion 31 and the inner screw 114 of the finish portion 11 are engaged with each other. Of course, any known sealing member may be used to improve the sealing force.

The container coupling portion 31 is coupled to the bottle mouth portion 11 to cover the opening 111, but the container body 10 may not be sealed by the container coupling portion 31. The container coupling portion 31 has an outlet 312, and after the cap 40 is separated from the finish portion 11 of the container body 10, the outlet 312 is exposed to the outside, so that a user can draw in the beverage in the container body 10 through the outlet 312.

The container coupling portion 31 has a handle 313. The handle 313 is located at the periphery of the outlet 312 and is sized and shaped so as not to interfere with drinking through the outlet 312.

When the container coupling portion 31 is coupled to the finish portion 11, the handle 313 is used to separate the container coupling portion 31 from the finish portion 11 if the upper end of the container coupling portion 31 is aligned with the upper end of the finish portion 11.

That is, even if the bottle mouth portion 11 is coupled to the ice cube holder 30, the ice cube holder 30 does not protrude outward from the bottle mouth portion 11, and the user rotates the handle 313 with his hand to separate the container coupling portion 31 of the ice cube holder 30 coupled to the bottle mouth portion 11 by a screw from the bottle mouth portion 11.

The container coupling portion 31 has a cylindrical shape and an openable upper surface, and the handle 313 of the container coupling portion 31 is exposed to the outside through the opened upper surface. Wherein the user holds the handle 313 with at least two fingers and rotates the container coupling part 31 in a clockwise or counterclockwise direction so that the ice cubes fixing frame 30 is separated from the finish part 11 of the container body 10.

The post part 32 described later is detachably coupled to the container coupling part 31, and the post part 32 is detachably coupled to the lower surface of the container coupling part 31. For this reason, the container coupling portion 31 has first coupling portions 314A, 314B, 314C on the lower surface thereof, and with respect to the coupling of the container coupling portion 31 to the column portion 32, reference may be made to the following description of the portion of the column portion 32.

The column part 32 extends downward from the lower surface of the container coupling part 31. The column part 32 is a part for fixing the ice cubes 100, and extends downward from the center of the lower surface of the container coupling part 31 to form a center axis of the ice cubes 100.

The pillar portion 32 fixes the ice 100 in advance, and when a portion of the ice 100 opposite to the pillar portion 32 is melted, the ice 100 is separated from the pillar portion 32. Therefore, the present invention not only fixes the ice cubes 100 using the column part 32, but also uses the ice cube placement part 33.

Of course, the ice storage section 33, which will be described later, may be omitted in the case where the outer surface of the pillar section 32 is uneven, the outer surface of the pillar section 32 has a plurality of protrusions (not shown) and/or the pillar section 32 is not in a straight shape but in a zigzag shape, a curved shape, or the like, and the ice cubes 100 are not separated from the pillar section 32.

The column part 32 has a cross-sectional area that can secure the volume of the ice cubes 100 while securing the ice cubes 100 in the container body 10. When the sectional area of the column part 32 becomes small, the strength of fixing the ice cubes 100 is reduced, and conversely, when the sectional area of the column part 32 becomes large, the volume of the ice cubes 100 is reduced, so that the column part 32 has a section of an appropriate size depending on the size of the container body 10.

The column part 32 is detachably coupled to the container coupling part 31, and the column part 32 has second coupling parts 321A, 321B, 321C engaged with the first coupling parts 314A, 314B, 314C of the container coupling part 31. For example, referring to fig. 5, the first coupling portion 314A may be cylindrical, and the second coupling portion 321A may be configured to surround the first coupling portion 314A and to introduce the first coupling portion 314A into the inside.

That is, in FIG. 5, the first coupling portion 314A of the container coupling portion 31 is inserted into the second coupling portion 321A of the pillar portion 32, and the container coupling portion 31 and the pillar portion 32 are coupled to each other, and the first coupling portion 314A is in a convex shape and the second coupling portion 321A is in a concave shape.

The outer diameter of the first coupling portion 314A is larger than the inner diameter of the second coupling portion 321A, and/or at least one of the first coupling portion 314A and the second coupling portion 321A has a magnetic body to secure the coupling force.

Alternatively, referring to fig. 6, in contrast to fig. 5, the second coupling portion 321B is cylindrical, the first coupling portion 314B is configured to be insertable into the second coupling portion 321B, the first coupling portion 314B is concave, and the second coupling portion 321B is convex.

The second coupling portion 321B is inserted into the first coupling portion 314B in an interference fit manner for coupling the first coupling portion 314B and the second coupling portion 321B, and a magnetic body or the like may be used.

Alternatively, referring to fig. 7, the second coupling portion 321C is slid in a direction perpendicular to the axial direction of the pillar portion 32 to the first coupling portion 314C and fixed. That is, the right side of the first coupling portion 314C is opened, and the second coupling portion 321C is coupled by sliding the opened right side of the first coupling portion 314C to the left side.

Here, the step portion 315 is formed on the first coupling portion 314C, and the front-rear width of the empty space becomes smaller toward the lower side in the drawing, and the step portion 322 is also formed on the second coupling portion 321C to correspond to the step portion 315 of the first coupling portion 314C, and after the second coupling portion 321C is coupled to the first coupling portion 314C in a sliding manner, the step portion 322 of the second coupling portion 321C is caught by the step portion 315 of the first coupling portion 314C, thereby preventing the column portion 32 from being detached downward.

That is, in fig. 7, the container coupling part 31 and the pillar part 32 are easily detached, and when the ice cubes 100 are supported by the pillar part 32, the pillar part 32 is prevented from being separated from the container coupling part 31.

The height of the column part 32 may be half of the inner height of the container body 10. If the height of the column part 32 is too high, a space for filling the container body 10 with the beverage other than the ice cubes 100 cannot be sufficiently secured.

The column portion 32 may have a handle 323. The handle 323 is a member for the user to grasp the column part 32 to couple the column part 32 and the container coupling part 31, or for the user to grasp the column part 32 with the cover (34 of fig. 8) removed later and couple to the container coupling part 31 when the ice 100 is placed on the ice fixing frame 30.

The handle 323 protrudes outward from the pillar portion 32, has relatively strong strength, and can be sufficiently gripped by the handle 323. For example, the handle 323, such as a rod shown in the drawing, has a rod (bar) shape protruding from the pillar portion 32 to the left and right, and the ice cubes 100 can be fixed to the right under the rod of the handle 323 in the pillar portion 32.

The ice cube placement unit 33 is extended laterally from the lower end of the pillar unit 32. For example, the ice placing portion 33 may be located on a plane perpendicular to the pillar portion 32, such as a cross shape, having a shape expanding radially from the lower end of the pillar portion 32. Of course, the shape of the ice cube placement unit 33 is not particularly limited, and any structure capable of stably supporting the ice cubes 100 such as a star shape may be employed.

The ice placing unit 33 can increase the area of contact between the ice fixing frame 30 and the ice 100 when the ice 100 is frozen, and can secure a fixing force between the ice fixing frame and the ice 100. Also, the ice placing part 33 may adopt a structure that prevents the ice cubes 100 from falling off when the ice cubes 100 are formed on the pillar part 32.

Therefore, the ice cubes 100 are fixed to the pillar portion 32 with the pillar portion 32 as a center axis, and are also firmly fixed in the horizontal direction perpendicular to the vertical direction by the ice cube placement portion 33. Accordingly, when the ice fixing frame 30 is coupled to the container body 10 in a state of fixing the ice 100 or the ice fixing frame 30 takes out the ice 100 from the container body 10, the ice 100 is prevented from being detached from the ice fixing frame 30.

In the present invention, the ice cubes 100 are fixed to the ice cube placement part 33 extending from the lower end of the pillar part 32 with the pillar part 32 as the center axis, thereby minimizing the contact of the ice cubes 100 with the inner wall surface of the container body 10.

Accordingly, the ice cubes 100 can be prevented from being melted by friction with the inner wall of the container body 10, and for example, experiments have shown that the storage time of the ice cubes 100 in the container body 10 of 300 to 500ml is increased by about 3 to 4 hours.

In addition, when the ice cube fixing frame 30 as described above is used, the shape of the ice cube 100 melted is uniform, and thus, when the user carries the container body 10, noise generated by collision between the ice cube 100 and the inner wall of the container body 10 is effectively reduced.

The cover 40 can open and open the opening 111 of the container body 10. The cap 40 covers the finish portion 11 to seal the opening 111, and the cap 40 is screwed to the finish portion 11. That is, the cap 40 is coupled to the container body 10 in engagement with the outer thread 112 of the finish portion 11.

After the cover 40 is coupled to the container body 10, the beverage does not flow out even if the container coupling portion 31 of the ice cube holder 30 has the outlet 312. However, in order to improve the sealing force, a sealing member (not shown) made of an elastic material such as silicon may be provided at a portion of the cap 40 contacting the outer periphery of the upper end of the bottle mouth portion 11.

When the cap 40 is coupled to the finish portion 11, the lower end of the cap 40 presses the ring 21 of the ring band 20. In this case, if the ring 21 of the ring band 20 is too thick, the seal of the cap 40 may not be in contact with the upper end of the mouth portion 11 due to the ring 21, and conversely, if the ring 21 of the ring band 20 is too thin, the ring 21 may not be fixed and moved in a state where the cap 40 is tightly coupled to the mouth portion 11, thereby causing noise. Therefore, the thickness of the ring 21 of the ring band 20 should be in consideration of the structures of the cap 40, the finish portion 11, and the like.

Also, like the above-described rod, the ring 21 of the ring band 20 may be made of an elastic material, and the ring 21 located between the outer step 113 of the bottle mouth portion 11 and the cap 40 may perform secondary sealing.

The user carries the container body 10 with the cap 40 coupled to the mouth portion 11 of the container body 10, and drinks the beverage at any time through the outlet 312 by opening the cap 40 when the user desires to drink the beverage.

As described above, in the present embodiment, the ice cubes 100 are fixed inside the container body 10 by the ice cube fixing frame 30, so that the melting of the ice cubes 100 is delayed, the beverage can be kept cool for a long time, and the user satisfaction is improved.

Fig. 8 is a perspective view of an ice cube-making tool according to an embodiment of the present invention.

Referring to fig. 8, an ice making tool 2 according to an embodiment of the present invention is a tool for making ice 100 supplied to a container body 10, and includes an ice mold 50 and an ice holder 30.

Regarding the ice cube holder 30 of the present embodiment, the following description focuses on the differences from the ice cube holder 30 of the previous embodiment, and the other points can be referred to the above.

The ice cube mold 50 has at least one or more ice grids 51. The ice tray 51 has a shape corresponding to the shape of the container body 10. Except that the inner diameter of the ice tray 51 is slightly smaller than the inner diameter of the container body 10.

This is to smoothly insert the ice cubes 100 formed in the ice tray 51 into the container body 10 and form a gap between the ice cubes 100 and the inner wall of the container body 10 to delay melting of the ice cubes 100 while the ice cubes 100 do not interfere with outflow of the beverage.

The shape of the ice tray 51 may be different from that of the container body 10, for example, the container body 10 is cylindrical in shape, and the ice tray 51 is an inverted cone or cone in shape. That is, the form of the ice tray 51 is not particularly limited as long as the ice cubes 100 made by the ice tray 51 can be smoothly inserted into the container body 10.

One side of the ice tray 51 is opened. The open side of the ice grid 51 is filled with a fluid for forming ice cubes 100, wherein the fluid may be a beverage or the like.

The ice grids 51 are arranged in a grid pattern in the ice mold 50, and in the drawing, three ice grids 51 are formed in the left-right direction and two rows are formed in the front-rear direction, and six ice grids 51 are provided for one ice mold 50.

Of course, the number of the ice cubes 51 provided in the ice cube mold 50 is not particularly limited, and the arrangement of the ice cubes 51 is not limited by the drawings. Also, the plurality of ice grids 51 in the ice mold 50 may have the same or different sizes. That is, the ice cube mold 50 may have a plurality of ice grids 51 of different sizes.

The opened side of the ice tray 51 may be covered with the ice cube fixing frame 30 after the inside thereof is filled with the fluid. That is, when the fluid is filled in the ice cells 51 and the ice cubes 30 are coupled to the ice cube molds 50, the ice cube placement part 33 of the ice cube holder 30 is positioned inside the ice cells 51, and the user can place the ice cube molds 50 coupled to the ice cube holder 30 in the freezing chamber and fix the ice cubes 100 to the ice cube holder 30.

The ice cube mold 50 may be made of an elastic material such as silicon or plastic, and when the bottom of the ice tray 51 is pushed from the outside, the ice cubes 100 in the ice tray 51 can be easily taken out, and even if the volume of the fluid is increased during the formation of the ice cubes 100, the ice tray 51 can be prevented from being plastically deformed.

The ice cube fixing frame 30 is coupled to one side of the ice tray 51, extends toward the inside of the ice tray 51, and fixes the ice cubes 100 formed in the ice tray 51. The ice cube holder 30 includes the container coupling portion 31, the pillar portion 32, and the ice cube placement portion 33 as described above, and the cover portion 34 may be used instead of the container coupling portion 31 when the ice cubes 100 are made.

The ice fixing frame 30 is coupled to the ice mold 50 to cover one side of the ice tray 51. The ice cube fixing frame 30 is separated from the ice cube mold 50 in a state of fixing the ice cubes 100 formed in the ice grid 51, and then is coupled to the container body 10 so that the ice cubes 100 are positioned inside the container body 10.

That is, in the present invention, the fluid filled in the container body 10 is not frozen to form the ice cubes 100, but the ice cubes 100 are formed on the ice cube fixing frame 30 outside the container body 10, and then the ice cube fixing frame 30 fixing the ice cubes 100 is inserted into the container body 10 to position the ice cubes 100 in the container body 10. Accordingly, the container body 10 does not need to be placed in the freezing chamber, and the present invention can prevent deformation of the container body 10.

The cover 34 of the ice cube holder 30 covers one side of the ice grid 51. In the drawing, the upper side of the ice tray 51 is open, and the cover 34 covers the open upper side of the fluid-filled ice tray 51 to prevent the fluid from leaking when the ice cubes 50 are put into the freezing chamber.

The cover 34 is an interference fit with the upper side of the ice tray 51 or is adhered to the upper end periphery of the ice tray 51 by self adhesion. However, since the ice mold 50 can be made of silicon or the like, screws are not required for coupling the cover 34 and the ice grid 51.

The cover 34 is made of a transparent or translucent material, so that the inside of the ice tray 51 can be checked from the outside. Accordingly, the user can confirm the degree of immersion of the pillar portion 32 of the ice cube holding frame 30 in the fluid in the ice tray 51, thereby measuring the size of the ice cubes 100.

The column part 32 extends downward below the cover part 34. The column part 32 is detachably coupled to the covering part 34, and the coupling of the column part 32 and the covering part 34 may be achieved by the aforementioned detaching manner of the column part 32 and the container coupling part 31, but is not limited thereto, and various detaching manners may be used.

For example, the pillar portion 32 is detachably coupled to the covering portion 34 by sliding in a horizontal direction, interference fit, or the like. Instead of connecting the column part 32 to the lower surface of the cover part 34, a connection method may be adopted in which the upper end outer periphery of the column part 32 is surrounded by the cover part 34. In this case, when the ice mold 50 is coupled to the ice fixing frame 30, the upper end of the column part 32 is exposed to the outside.

However, the cover 34 does not need to be coupled to the pillar portion 32 to such an extent that the ice cubes 100 can be lifted, and thus the coupling force of the cover 34 to the pillar portion 32 may be smaller than that of the container coupling portion 31 to the pillar portion 32.

That is, after the fluid is filled in the ice tray 51, the pillar portion 32 coupled to the cover portion 34 is put into the freezing chamber in a state where the ice cubes 100 are formed while the ice cube molds 50 are positioned in the ice tray 51, and then the pillar portion 32 is exposed above the ice cubes 100 even if the cover portion 34 is separated from the pillar portion 32.

In which a user can take out the ice cubes 100 by grasping the upper end (for example, the handle 323) of the pillar portion 32 exposed above the ice cubes 100, or can take out the ice cubes 100 through the container coupling portion 31 by coupling the container coupling portion 31 to the pillar portion 32 exposed above the ice cubes 100.

That is, the cover 34 may not be a member for taking out the formed ice cubes 100 from the ice grid 51, and the cover 34 may be used only for fixing the position of the column part 32 such that the column part 32 is located at the central axis of the ice grid 51.

As described above, after the cover 34 is replaced with the container coupling part 31 in a state of fixing the ice cubes 100 formed in the ice grid 51, the ice fixing frame 30 is separated from the ice mold 50 and coupled to the container body 10, so that the ice cubes 100 are positioned inside the container body 10.

In contrast to the above, the covering portion 34 may be directly joined to the container joining portion 31 without replacing the covering portion 34 with the container joining portion 31. Alternatively, one side of the ice tray 51 may be directly covered by the container coupling portion 31 without using the covering portion 34.

That is, in the present invention, as long as the ice cubes 100 formed in the ice grid 51 can be moved and fixed to the container body 10 by the ice cube fixing frame 30, the use or combination of the cover 34 and the container combining portion 31 may be variously modified.

As described above, in the present invention, when the ice cubes 100 are formed using the ice grids 51 of the ice cube mold 50, the ice cubes 100 are fixed to the ice cube fixing frame 30, the ice cube fixing frame 30 on which the ice cubes 100 are hung is moved and inserted into the container main body 10, and the ice cubes 100 are easily placed in the container main body 10, thereby ensuring both user satisfaction and convenience.

The present invention has been described in detail with reference to the specific embodiments, but this is only for the purpose of specifically describing the present invention, and the present invention is not limited thereto, and it is apparent that those skilled in the art can modify or improve the present invention within the technical spirit of the present invention.

It is intended that all such modifications and variations fall within the scope of the invention, which is defined by the claims appended hereto.

Claims (15)

1. A functional water bottle with detachable ice blocks is characterized by comprising:

a container body having one side opened and closed by a lid and a cylindrical interior containing a fluid; and

an ice fixing frame coupled to one side of the container main body, extending toward the inside of the container main body, and fixing ice,

wherein the ice cube fixing frame fixes the ice cube in a form that the ice cube can be inserted into or taken out from the container main body.

2. The detachable functional water bottle as claimed in claim 1,

the ice fixing frame is combined to the container main body in a state of fixing ice so that the ice is positioned inside the container main body.

3. The detachable functional water bottle as claimed in claim 1,

the outer side of the container main body is combined with the cover, and the inner side of the container main body is provided with a bottle mouth part combined with the ice block fixing frame.

4. The detachable functional water bottle of claim 3,

the ice cube fixing frame includes:

a container coupling portion coupled to the bottle mouth portion;

a column part extending downward from the lower surface of the container coupling part; and

and an ice storage unit extending laterally from a lower end of the column unit.

5. The detachable functional water bottle as claimed in claim 4,

the column part is detachably formed under the container coupling part.

6. The detachable functional water bottle as claimed in claim 4,

the height of the column part is less than half of the inner height of the container body.

7. The detachable functional water bottle as claimed in claim 4,

the ice block placing section has a shape that spreads radially from the lower end of the column section.

8. The detachable functional water bottle as claimed in claim 4,

the outer surface of the bottle mouth part is formed with an outer thread for coupling with the cap, and the inner surface thereof is formed with an inner thread for coupling with the container coupling part of the ice cube holder.

9. The detachable functional water bottle of claim 3,

the other side of the container body has a support portion detachably coupled with and supporting the container body.

10. The detachable functional water bottle as claimed in claim 9,

the support portion has an illumination device or a speaker that irradiates light toward the container body.

11. An ice making tool for making ice to be supplied to the container body of claims 1 to 10, comprising:

an ice cube mold having a shape corresponding to the shape of the container body and having one or more ice trays with one side opened; and

an ice block fixing frame combined to one side of the ice tray and extending towards the inside of the ice tray to fix the ice blocks formed in the ice tray,

wherein the ice cube fixing frame is combined with the ice cube mold to cover one side of the ice tray.

12. The ice cube making tool of claim 11,

the ice fixing frame is separated from the ice mold in a state of fixing the ice formed in the ice tray, and then is combined to the container main body to enable the ice to be positioned in the container main body.

13. The ice cube making tool of claim 11,

the ice cube fixing frame includes:

a cover covering one side of the ice tray;

a column part extending downward from the covering part; and

and an ice storage unit extending laterally from a lower end of the column unit.

14. The ice cube making tool of claim 13,

the pillar part is detachably formed under the cover part.

15. The ice cube making tool of claim 13,

the ice cube fixing stand further includes a container coupling part coupled to one side of the container main body,

the cover is separated from the ice cube mold and coupled to the container body after being replaced with the container coupling part in a state of fixing the ice cubes formed in the ice grid, so that the ice cubes are positioned inside the container body.

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