KR20100054964A

KR20100054964A - Bottle cap

Info

Publication number: KR20100054964A
Application number: KR1020080113825A
Authority: KR
Inventors: 조영국
Original assignee: 조영국
Priority date: 2008-11-17
Filing date: 2008-11-17
Publication date: 2010-05-26

Abstract

PURPOSE: A container cap is provided to rapidly mix an inner additive stored in the inside of the cap by separating an upper cap from the container cap, pressing a pushing cap to downward, and cutting a rupture film of the pushing cap using a blade unit. CONSTITUTION: A container cap capable of enabling a user to rapidly mix an inner additive comprises the following: a lower cap(20) including a cylindrical blade unit(50) installed on the bottom of a hole(24) and a vertical rib(26) on the inner side of an inner hole; an upper cap(30) including a pipe type secondary inner wall pipe(34) comprising a pressing screw(35) moving a pushing cap(40) to the upward and downward; and a pressing cap including the inner additive, a rupture film(29) on the lower side, and a pressing cap rib(41).

Description

High speed container container cap {Bottle cap}

The present invention rotates the upper cap on the lower cap to contact the blade having a cylindrical blade supported on the lower cap when the pressing cap is descending at a high speed so that the additives received while the bottom rupture film of the pressing cap is ruptured quickly added into the container, and after addition The present invention relates to a container cap capable of high speed addition to drink the contents safely.

In general, the cap of the container has been developed in a simple structure that merely acts as a closure, by adding an additive to a space formed by combining a plurality of caps, releasing one cap to separate the space, and adding the additive to the contents of the container. .

The method of using a plurality of caps described above was developed for the first time using a simple two caps, but was not commercialized due to problems in moisture permeability and sealing properties.

Recently, advances have been made in technology to increase the number of parts to improve stability, moisture permeability, and sealing properties. As an example, a technology of maximizing storage property was developed by completely sealing a lower end of a container accommodating additives with a high frequency fusion ruptured membrane in Korea Patent Registration No. 10-0597217. However, when the rupture membrane was ruptured or not completely ruptured or left as a residue, the plug was removed from the user's clothes, causing unexpected side effects. In addition, the cap is divided into an upper cap and a lower cap, and an additive is added to the upper cap, and the cap needs to be separated when the contents are drinked.

The present invention is to solve this problem, an object of the present invention is to remove the upper cap from the container cap consisting of the upper cap and the lower cap to lower the pressing cap containing the additive at high speed to rupture the rupture film in the blade portion of the internal additive in the container contents It is to provide a container cap capable of high speed addition to enable high speed addition.

Another object of the present invention is to place the contents passage hole on the side wall of the hole cap of the lower cap, the small diameter portion having a small diameter of the pressing cap is lowered to rupture the rupture film for the addition of additives, and then through the space of the passage hole and the small diameter portion It is to provide a container cap capable of high speed addition that allows you to drink the contents without removing the lower cap.

Another object of the present invention is to place the blade portion coaxially to the lower large diameter portion of the pressing cap to increase the addition amount of the additive by giving the same effect as extending the length of the pressing cap by overlapping some of the blade portion when the pressing cap is lowered It is to provide a container cap that can be added.

To this end, the present invention is provided with a hole tube having an inner hole on the inner wall of the inlet of the container, and at the bottom portion of the hole is installed a cylindrical blade portion having an open bottom center and forming a blade vertically upwards, the inner wall of the inner hole in the vertical movement A lower cap having an internal vertical rib;

An upper cap having a tubular auxiliary inner wall tube with a push screw which is screwed with the screw portion of the container so as to surround the lower cap and extends downward from the center of the bottom to face the hole at the time of rotation to lower the press cap at high speed during rotation;

When the upper cap rotates by screwing with the push screw of the auxiliary inner wall pipe, the upper cap descends at a high speed, receives the additive material in the inner space, and the bottom forms a rupture film, and the outer cap bottom guides the vertical movement along the rib groove between the vertical ribs at the bottom of the outer wall. The branch includes a push cap;

The lower cap hole of the lower cap and the outer circumference of the blade portion is provided with a container cap capable of high speed addition to form a passage hole through which the contents of the container.

The present invention is also provided with a hole tube having an inner hole in the inner wall of the inlet of the container, the bottom portion of the hole forms a blade guide hole movable vertically in the bottom of the cylindrical blade portion, the inner wall of the inner hole in the vertical movement A lower cap defining an inner vertical rib and having an extended tube extending from the upper portion to a smaller diameter at a central portion thereof;

An upper cap having a tubular auxiliary inner wall tube with a steep push screw to extend and move downward from the center of the bottom to be screwed with the screw portion of the extension tube and to face the hole at the time of rotation to vertically move the push cap at high speed;

When the upper cap rotates by screwing with the push screw of the auxiliary inner wall pipe, the upper cap descends at a high speed, receives the additive material in the inner space, and the bottom forms a rupture film, and the outer cap bottom guides the vertical movement along the rib groove between the vertical ribs at the bottom of the outer wall. Push cap on the branch; And

The support tube installed to overlap the lower outer surface of the press cap coaxially, and when the upper cap is released, the support tube and the press cap are simultaneously lowered until the upper end of the support tube touches the inner wall of the blade guide hole, and then touches the inner wall. When the press cap is subsequently descended, the tear film installed to seal the additive at the bottom of the press cap is torn, and the bottom has a discharge hole, and the lower end of the support tube includes a vertical cylindrical blade having a vertical curved blade bent upwards to the inner surface. It provides a container cap capable of high speed addition.

When the upper cap is separated from the container cap consisting of the upper cap and the lower cap, the pressing cap containing the additive at a high speed is lowered to rupture the rupture film on the blade so that the internal additive can be added at high speed into the container contents.

The present invention also has a content passage hole on the side wall of the lower cap, has a small diameter portion with a small diameter of the pressing cap, and descends to rupture the rupture film for addition of additives, and then through the space between the passage hole and the small diameter portion of the lower cap. Allows you to drink the contents without removing them.

The present invention also puts the blade portion coaxially to the lower large diameter portion of the pressing cap to have the same effect as extending the length of the pressing cap by overlapping a portion of the lower portion of the pressing cap to increase the amount of additives added.

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

1 is an assembled cross-sectional view of the present invention, Figure 2 is a cross-sectional view showing a state of use of Figure 1, the hole tube 24-1 having an inner hole 24 in the inner wall of the injection port of the container 12 is placed, The bottom portion of the bottom portion 24 is provided with a cylindrical blade portion 50 having a bottom center open and forming a vertically upward blade, and a lower cap 20 having a vertical rib 26 for guiding the vertical movement on the inner wall of the inner hole 24. );

The push screw 35 which is screwed with the lower cap 20 and the threaded portion of the container 12 and extends down from the center of the bottom to face the hole 24 at the time of rotation, moves the push cap 40 up and down at high speed. An upper cap 30 having a tubular auxiliary inner wall tube 34;

Combining with the push screw 35 of the auxiliary inner wall pipe 34, the upper cap is lowered at the time of rotation of the upper cap, and receives the additives in the inner space, the bottom forms a rupture film 29, and ribs between the vertical ribs 26 at the bottom of the outer wall. A press cap 40 having a press cap rib 41 for guiding vertical movement along the groove 27 on an outer surface thereof;

The bottom of the hole tube 24-1 of the lower cap 20 and the outer circumference of the blade portion 50 form a passage hole 25 through which the contents of the container pass.

The blade portion 50 is vertically installed in a tubular shape at the center of the bottom surface of the hole tube 24-1 toward the center and integrally, and a passage hole 25 at the bottom around the outer circumference of the blade portion 50. ) To form a plurality, the center of the blade portion 50 to form a discharge hole (51).

The passage hole 25 is further formed at regular intervals around the hole tube 24-1 to facilitate the discharge of the contents.

The blade portion 50 may be configured to constitute an upper end portion so that the large blade 52 having a high height and the small blade 53 having a low height are repeatedly connected.

The upper end of the hole tube 24-1 of the lower cap 20 has a lower cap hook 22 for winding and fixing the bottle inlet, and a hook 14 for hooking the lower cap inlet 22 is formed at the corresponding container inlet. do.

The blade portion 50 may be supported by the bottom of the hole tube 24-1 to be supported at a predetermined interval by the bottom of the hole tube 24-1 and a thin leg (not shown). Of course, the passage hole 25 formed on the side of the hole tube 24-1 is configured to be smaller in diameter while going down the hole tube 24-1 so as to be spaced apart from the inlet of the container to perform the passage function of the contents. It is good.

When using this, the bottom surface of the pressing cap 40 is turned upside down to fill the additive material, and the high frequency fusion is performed with a thin burst film such as aluminum foil to seal it. Of course, it is also possible to easily replace the rupture film by using a separate elastic cap (elastomer, silicone, etc.) with good sealing properties while being easily ruptured.

The upper cap and the filled push cap are then inverted and fitted, and the container is filled with contents, and then the hole tube 24-1 is inserted into the inlet of the container so that the hook 14 and the lower cap hook 22 are hooked to each other. Fit the lower cap (20). Of course, after fitting the lower cap 20 may be filled with the contents of the container.

Then, the upper cap 30 to which the pressing cap 40 is coupled is capped to be coupled to the thread of the container.

When the consumer uses it, when the upper cap 30 is turned to the direction of loosening, the screw of the container starts to go up, and the pressing screw 35 of the pressing screw 35 of the auxiliary inner wall pipe 34 rotates in conjunction with the pressing screw 35 ), The pressing cap 40 having a screw groove 42 for screwing down is lowered. In this case, since the inclination of the screw of the pressing screw 35 and the corresponding screw groove 42 is urgent, the pressing cap 40 is lowered at a high speed. On the other hand, the outer surface of the pressing cap 40 has a pressing cap 41, the pressing cap 41 is a vertical rib by forming vertical ribs 26 at regular intervals perpendicular to the hole tube 24-1. The pressing cap rib 41 is placed in the space between the 26 to guide the vertical lowering of the pressing cap 40.

When the press cap 40 is lowered, as shown in FIG. 2, the tear film 29 is torn open at the blade of the blade 50, and the additive is quickly added to the inside of the container. In this case, the blade portion 50 is made so that the large blade 52 and the small blade 53 are connected, it is easily cut while reducing the resistance of the rupture film (29). Since the blade is pointed like a mountain, it is easy to make a local rupture by first gathering the force in one point by point contact, and then it is cut continuously so that the other blade continues, and the rupture is rapidly ruptured and cut at a time difference.

If the pressing protrusion 46 is placed on the upper edge of the pressing cap 40, and the inner protrusion 36 is formed at the lower end of the corresponding auxiliary inner wall pipe 34, the pressing cap 40 is lowered to rupture the rupture film. When the upper cap 30 is separated after the pressing cap 40 together with the auxiliary inner wall tube 34 is discharged integrally. It is only necessary to drink the contents of the container while the lower cap 20 is fitted into the inlet of the container. Of course, if the pressing protrusion 46 and the inner wall projection 36 is configured in a manner that does not have a structure (hook coupling or crimping method, etc.) that the pressing cap 40 is fitted to the blade portion 50 The drink cap does not separate when drinking.

3 is another embodiment of FIG. 1, the upper end of the hole tube 24-1 of the lower cap 20 forms an extension jaw 21 that extends larger than the outer diameter of the bottle inlet, and the lower cap 20 has a lower cap. Combination with the (20) forms a fixed jaw (31) to rise. This structure is a structure in which the upper cap 30 and the lower cap 20 are separated at the same time as the extension jaw 21 is caught on the locking jaw 31 of the upper cap 20, and thus the description thereof is omitted. .

Figure 4 is a cross-sectional view showing an assembled state of another example of the present invention, Figure 5 is a cross-sectional view showing a state of use of Figure 4, Figure 6 is a cross-sectional view of the upper cap is removed, Figure 7 is a pressing cap and the blade portion used in Figure 4 In the perspective view showing the combined initial state, a cylindrical blade having a hole 24-1 having an inner hole 24 is placed on the inner wall of the inlet of the container 12, and the bottom portion of the hole 24 is open at the bottom center. The portion 50 forms a blade guide hole 24-3 which is movable up and down, and the inner wall of the inner hole 24 forms a vertical movement guide vertical rib 26, and has a jaw portion 29 at the upper center thereof. A lower cap 20 having an extension tube 28 extending upwardly;

Couplings with the threaded portion of the extension tube 28, the tube with a steep push screw 35 to extend down from the center of the bottom face toward the hole 24 at the time of rotation to move the pressing cap 40 up and down at high speed during rotation An upper cap 30 having a body auxiliary inner wall tube 34;

Combining with the push screw 35 of the auxiliary inner wall pipe 34, the upper cap is lowered at the time of rotation of the upper cap, and receives the additives in the inner space, the bottom forms a rupture film 29, and ribs between the vertical ribs 26 at the bottom of the outer wall. A pressing cap 40 having a pressing cap 41 to guide the vertical movement along the groove 27 on an outer surface thereof; And

Support pipe 54 and coaxially overlap the lower outer surface of the pressing cap 40, the upper cap 30 when the support tube 54 and the pressing cap 40 are simultaneously lowered blade guide hole (24-3) After the first descending until the upper end of the support pipe (54) to the inner wall of the touch) fixed to the inner wall and then installed to seal the additive material at the bottom of the pressing cap 40 when the pressing cap 40 is subsequently lowered One tear film 44 is torn and the bottom has a discharge hole 51 and comprises a blade portion 50 having a vertical cylindrical blade body 56, the lower end of the support tube 54 is bent upward to the inner surface .

The pressing cap 40 is placed in the auxiliary inner wall pipe 34 and the small diameter portion 40-1 that is lowered in conjunction with the loosening action of the upper cap 30, and

A large diameter portion 40-2 that is placed in the hole tube 24-1 of the lower cap 20 and lower than the height of the hole tube 24-1;

The thin rupture film 44 which covers the bottom of the large diameter part 40-2 is comprised.

The large diameter portion 40-2 is provided with a pressing cap 41 in the longitudinal direction, the support tube 54 of the blade portion 50 is coaxially coupled to the lower diameter portion 40-2, the support tube (54) The inner wall forms a vertical rib guide groove (54) through which the pressing cap 41 passes, and the lower inner surface of the support tube 54 has a fitting groove (55) and is spaced apart from the support tube (54). A tubular blade 56 protruding coaxially upward is formed.

The blade body 56 is configured such that the large blade 52 having a high blade height and the small blade 53 having a low height are repeatedly connected.

The lower diameter portion 40-2 and the upper end of the support tube 54 are configured to keep the light fixed state and couple the hook 45 so that the fixed state is released by stretching a little force.

In the present invention configured as described above, when the upper cap 30 is turned in the opening direction, the pressing screw 35 moves along the screw groove 42 to push down the small diameter portion 40-1 of the pressing cap 40 to the large diameter portion. 40-2 and the blade part 50 form the primary descending state as shown in FIG.

Subsequently, when lowering, the fixing protrusion 58 is caught on the inner jaw of the blade guide hole 24-3 of the hole tube 24-1 by the fixing protrusion 58, and the blade portion 50 stops descending, and the large diameter portion 40 -2) the rupture film 44 forming the bottom surface of the large diameter portion 40-2 continues to descend, and the additive material therein is ruptured by the blade body 56 of the blade portion 50, and the discharge hole 51 at the center thereof. After passing through the contents of the container, the upper cap is further rotated to separate the passage hole 25 to make a space to the outer surface of the small diameter portion 40-1, as shown in Figure 6, the container immediately in the state of separating the upper cap 30 Tilt to drink the contents. That is, after the upper cap is separated, the lower cap can be drunk at the inlet of the container, so that the user can conveniently drink by adding an additive like a normal container by turning only one cap.

In this case, the large diameter portion 40-2 has a pressing cap 41, and the pressing cap 41 is vertically guided by the space between the vertical ribs 26 formed on the inner wall of the hole tube 24-1. The press cap 40 then simply acts to descend vertically. In addition, the lower end of the large diameter portion 40-2 is coupled to the blade portion 50 so as to be slidable, and the support tube of the blade portion 50 corresponding to the pressing cap 41 of the large diameter portion 40-2. In the 54, the rib guide groove 57 is provided so that the large diameter portion 40-2 is lowered to overlap the support tube 54.

In addition, the present invention, the pressing cap 40 receives a pressing force for the high speed descending in the small diameter portion 40-1, the large diameter portion 40-2 acts to maximize the amount of additives, the large diameter portion 40 -2) and the boundary portion of the small diameter portion 40-1 forms a passage through the contents in the hole tube 24-1, so that the contents can be discharged to the extension tube through the passage hole 25 to separate only the upper cap. Also drink the contents.

In addition, the blade portion 50 is initially assembled in a state coupled to the large diameter portion 40-2, but in use, the blade portion 50 along with the large diameter portion 40-2 is first lowered so that the blade portion is lowered, In the lowered state, the blade portion is fixed and the large diameter portion 40-2 descends while rupturing the rupture film. In other words, after the blade portion is first lowered at the same time as the high-speed rotation, the blade portion ruptures at the second lower portion of the rupture film 29, thereby enabling the combination application of the blade portion and the pressing cap in a narrow space.

1 is an assembled cross-sectional view of the present invention,

2 is a cross-sectional view showing a state of use of FIG.

3 is an enlarged sectional view showing main parts of another example of FIG. 1;

4 is an assembled state sectional view showing another example of the present invention;

5 is a cross-sectional view showing an operating state of FIG. 4;

6 is a cross-sectional view of the upper cap is removed,

FIG. 7 is a perspective view illustrating an initial state in which a pressing cap and a blade portion used in FIG. 4 are combined. FIG.

Explanation of symbols for the main parts of the drawings

12; container 20; lower cap 21; extension jaw 22; lower cap hook 23; rib groove 24; hole 24-1; hole tube 24-2; fixed jaw 24-3; blade guide hole 25; passage hole 26; vertical rib 27; Rib groove 28; Extension tube 28-1; Jaw portion 30; Upper cap 31; Fixed jaw 34; Auxiliary wall tube 35; Push screw 40; Push cap 41; Rib 42; Screw groove 44; Rupture membrane 45; Hook 50; Blade portion 51; Outlet hole 52; big blade 53; small blade 54; support pipe 55; fitting groove 56; blade body

Claims

A cylindrical tube portion 50 having a hole tube 24-1 having an inner hole 24 is placed on the inner wall of the injection hole of the container 12, and the bottom center of the hole 24 is opened and the blade is vertically upward. A lower cap 20 having a vertical rib 26 for guiding the vertical motion on the inner wall of the inner hole 24;

A container plug capable of high speed addition, characterized in that a passage hole (25) through which the contents of the container are formed is formed at the bottom of the hole tube (24-1) and the outer edge of the blade portion (50) of the lower cap (20).

According to claim 1, wherein the blade portion 50 is integrally installed in a tubular shape in the center of the bottom surface of the hole tube 24-1, a plurality of passage holes 25 in the bottom around the outer periphery of the blade portion 50 Forming, the blade portion 50, the center of the bottom of the container cap capable of high speed addition, characterized in that the discharge hole 51 is formed.

The container cap according to claim 2, wherein the passage hole (25) is further formed at regular intervals around the hole tube (24-1) so as to easily discharge the contents.

3. The container cap according to claim 2, wherein the blade portion (50) comprises an upper portion such that a large blade (52) having a high height and a small blade (53) having a low height are repeatedly connected.

According to claim 1, wherein the upper end of the hole tube 24-1 of the lower cap 20 has a lower cap hook 22 for winding the bottle inlet and a hook for hooking the lower cap inlet 22 to the corresponding container inlet ( A container closure capable of high speed addition, characterized in that 14) is formed.

According to claim 1, wherein the upper end of the hole tube 24-1 of the lower cap 20 forms an extended jaw 21 that extends larger than the outer diameter of the bottle inlet, the upper cap 30 is coupled to the lower cap 20 Container cap capable of high speed addition, characterized in that to form a fixed jaw 31 to rise.

A hole tube 24-1 having an inner hole 24 is placed on the inner wall of the injection port of the container 12, and a cylindrical blade portion 50 having a bottom center open at the bottom portion of the hole 24 is movable up and down. An extension tube 28 is formed to form a guide hole 24-3, and a vertical rib 26 for guiding the vertical motion is formed on the inner wall of the inner hole 24, and the jaw portion 29 is formed at the center upper portion thereof. Ha cap 20 having;

Support pipe 54 and coaxially overlap the lower outer surface of the pressing cap 40, the upper cap 30 when the support tube 54 and the pressing cap 40 are simultaneously lowered blade guide hole (24-3) After the first descending until the upper end of the support pipe (54) to the inner wall of the touch) fixed to the inner wall and then installed to seal the additive material at the bottom of the pressing cap 40 when the pressing cap 40 is subsequently lowered The tear film 44 is torn and the bottom has a discharge hole 51 and the lower end of the support tube 54 includes a blade portion 50 having a vertical cylindrical blade body 56 bent upward to the inner surface The container stopper which is available for high speed addition.

According to claim 7, Push cap 40 is placed in the auxiliary inner wall pipe 34 and the small diameter portion (40-1) to lower in conjunction with the loosening action of the upper cap 30,

A container plug capable of high speed addition, comprising a thin ruptured film (44) covering the bottom of the large diameter portion (40-2).

According to claim 8, the large diameter portion 40-2 is provided with a pressing cap 41 in the longitudinal direction, the support pipe 54 of the blade portion 50 is coaxially coupled to the lower end of the large diameter portion (40-2) The inner wall of the support tube 54 forms a vertical rib guide groove 54 through which the pressing cap 41 passes, and has a fitting groove 55 spaced apart from the lower inner surface of the support tube 54 to support the support tube 54. A container stopper capable of high speed addition, characterized by forming a tubular blade body (56) protruding coaxially upward at (54).

10. The container closure of claim 9, wherein the blade body (56) is configured such that a large blade (52) having a high blade height and a small blade (53) having a low height are repeatedly connected.

10. The container cap according to claim 9, wherein the lower end of the large diameter portion (40-2) and the upper end of the support tube (54) are configured to be coupled by a unidirectional hook (45) that is flexible and difficult to separate. .

The auxiliary inner wall pipe 34 of the upper cap 30, which is coupled to the small diameter portion 40-1, is positioned below the lower end of the extension pipe 28, and the pressing screw 35 of the extension pipe 28 is small. The container cap capable of high speed addition, characterized in that the passage between the small diameter portion 40-1 and the extension tube 28 is formed at the time of separation from the screw groove 42 of the upper end of the neck portion (40-1).