HEAT-RESISTANT RECEPTACLE CAP"

Information

  • Patent Application
  • 20180118427
  • Publication Number
    20180118427
  • Date Filed
    December 09, 2016
    8 years ago
  • Date Published
    May 03, 2018
    6 years ago
Abstract
The present invention is a heat-resistant receptacle cap comprising: an inner cap 100 having an insertion pipe 120 configured to be fitted onto an inlet of a receptacle with a locking hook, a discharge gate 140 connected to the insertion pipe 120 with a small-diameter pipe 145 and formed so that contents in the receptacle is discharged at the small-diameter pipe 145, and a container 200 which is installed at the bottom of the small-diameter pipe 145 and has an open upper part to hold additives therein;
Description
CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of Korean Patent Application No. 10-2016-0145588 filed Nov. 3, 2016, the entire contents of which are incorporated herein by reference in its entirety.


TECHNICAL FIELD

The present invention relates to a heat-resistant receptacle cap.


BACKGROUND OF ART

A receptacle cap, which is generally used to immediately add additives to contents in a receptacle when the receptacle cap is opened, so even additives that spoil easily may be stored in a fresh state and then added right to the receptacle contents before drinking, has been developed as Korean granted utility model no. 20-0360704.


Further, receptacle caps which hold additives inside and the contents in the receptacle may be drunk together therewith have been developed as Korean granted patent no. 10-1344480, Korean granted patent no. 10-1342876, and Korean granted patent no. 10-1499752. Korean granted patent no. 10-1344480 has a problem of difficulties in long-term storage due to its sealing plate being permeable, and Korean granted patent no. 10-1342876 does its sealing using an aluminum seal, so the permeability problem is modified, but because a separate assembly device needs to be added, there are problems of having poor assembling properties and being fragile to external impact. Also, Korean granted patent no. 10-1499752 is easy to assemble and use, but it is difficult to put in contents that require sterilization at 70 to 80 degrees Celsius because of its low heat resistance.


DISCLOSURE OF THE INVENTION
Technical Problem

For resolving the aforesaid problems of the prior arts, it is an object of the present invention to provide a heat-resistant receptacle cap to enable production using existing processes without any separate process changes by combining a sealing plate of an aluminum seal kind prior to combining it with a container and to provide heat resistance.


It is another object of the present invention to provide a heat-resistant receptacle cap, wherein a sealing plate of an aluminum seal kind is coupled to a separate sealing plate holder, the sealing plate holder is made to be fitted and fixed to an outer cap so the sealing plate seals and is coupled to a container with induction heating, and when the heat-resistant receptacle cap is opened, the sealing plate holder is made so it opens simultaneously with the outer cap, making it easy to use.


Another object of the present invention is to provide a heat-resistant receptacle cap which uses a separate container for containing additives, the inlet of the container heat-sealed with a heat-resistant sealing plate, thereby maintaining performance without any changes in the moisture permeability or the sealing even when expansion and contraction occurs due to temperature changes, to be usable for novel instant warm beverages, for medical use or all natural concentrates, or scented additives such as coffee so that it gives off its just-boiled coffee-like scent in a constant manner.


Technical Solution

In order to accomplish the above present object, the present invention provides a heat-resistant receptacle cap comprising:


an inner cap having an insertion pipe configured to be fitted onto an inlet of a receptacle with a locking hook, a discharge gate connected to the insertion pipe with a small-diameter pipe and formed so that contents in the receptacle is discharged at the small-diameter pipe, and a container which is installed at the bottom of the small-diameter pipe and has an open upper part to hold additives therein;


a heat-resistant sealing plate configured to heat-seal the insertion pipe and upper wall of the container;


a sealing plate holder which is provided with a fitting ring that fits the sealing plate to a corresponding part for coupling the sealing plate, and which is fitted at an upper end of an inner side wall of an outer cap; and


the outer cap having a sealing plate holder fixing step which is formed on a side wall and configured to separate the sealing plate holder as the receptacle is opened.


The present invention also provides a heat-resistant receptacle cap comprising:


an inner cap having an insertion pipe configured to be fitted onto an inlet of a receptacle with a locking hook, a discharge gate connected to the insertion pipe with a small-diameter pipe and formed so that contents in the receptacle is discharged at the small-diameter pipe, and a container which is installed at a bottom and has an open upper part to hold additives therein;


a heat-resistant sealing plate configured to heat-seal the upper wall of the container;


a fitting ring that fits the heat-resistant sealing plate to a corresponding part for coupling the heat-resistant sealing plate, an outer circumference which is fitted at an upper end of an inner side wall of an outer cap, and a sealing plate holder having a sealing dam protruding downwards to seal the inner circumference part of the insertion pipe; and


a sealing plate holder fixing step, configured to fit and couple the sealing plate holder and formed on an inner part of the side wall, and the outer cap is configured to separate the sealing plate holder as the receptacle is opened.


Advantageous Effects

According to the present invention, as described above, a heat-resistant receptacle cap which enables production using existing processes without any separate process changes by combining a sealing plate of aluminum seal kind prior to combining it with a container and to provide heat resistance is provided.


The present invention couples a sealing plate of an aluminum seal kind to a separate sealing plate holder, wherein the sealing plate holder is made to be fitted and fixed to an outer cap so the sealing plate seals and is coupled to a container with induction heating, and when the heat-resistant receptacle cap is opened, the sealing plate holder is made so it opens simultaneously with the outer cap, making it easy to use.


The present invention uses a separate container for containing additives, the inlet of the container heat-sealed with a heat-resistant sealing plate, thereby making it possible to maintain performance without any changes in the moisture permeability or the sealing even when expansion and contraction occurs due to temperature changes, to be usable for novel instant warm beverages, for medical use or all natural concentrates, or scented additives such as coffee so that it gives off its just-boiled coffee-like scent in a constant manner.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is an exploded perspective view of the present invention,



FIG. 2 is an exploded cross-sectional view of the present invention,



FIG. 3 is a cross-sectional view of the assembled state of FIG. 2,



FIG. 4 is an exploded cross-sectional view of another example of the present invention,



FIG. 5 is a cross-sectional view of the assembled state of FIG. 4,



FIG. 6 is an exploded cross-sectional view of another example of the present invention,



FIG. 7 is a cross-sectional view of the assembled state of FIG. 6,



FIG. 8 is an exploded cross-sectional view of another example of the present invention,



FIG. 9 is a cross-sectional view of the assembly of FIG. 8,



FIG. 10 is a cross-sectional view showing the provisionally coupled state of FIG. 2,



FIG. 11 is a cross-sectional view showing the using state of FIG. 3.





DETAILED DESCRIPTION OF THE EMBODIMENTS

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


According to an embodiment of the present invention, as shown in FIGS. 1 to 3, a heat-resistant receptacle cap is configured to comprise: an inner cap 100 having an insertion pipe 120 configured to be fitted onto an 2 of a receptacle 1 with a locking hook, a discharge gate 140 connected to the insertion pipe 120 with a small-diameter pipe 145 and formed so that contents in the receptacle is discharged at the small-diameter pipe 145, and a container 200 which is installed at a bottom of the small-diameter pipe and has an open upper part to hold additives therein;


a heat-resistant sealing plate 220 configured to heat-seal the insertion pipe 120 and upper wall of the container 200;


a sealing plate holder 300 which is provided with a fitting ring 310 that fits the heat-resistant sealing plate 220 to a corresponding part for coupling the heat-resistant sealing plate 220, and which is fitted at an upper end of an inner side wall of an outer cap 400; and


the outer cap 400 having a sealing plate holder fixing step 420 which is formed on a side wall 401 and configured to separate the sealing plate holder 300 as the receptacle is opened. The illustration of the outer cap 400 was omitted in FIG. 1. 330 is a pusher protrusion configured to push to help heat-seal the upper end of the inlet of the container 200 better during induction heat sealing, and 331 is a pusher protrusion configured to push the horizontal part 111.


It is preferable to have the fitting ring 310 formed to have a height that may fix a length of a handle 222 of the sealing plate 220 and a locking hook portion simultaneously.


The locking hook 110 is configured to have a horizontal part 111 bent towards the outside of the insertion pipe 120, and a vertical part 112 which bends downwards from the outside of the horizontal part 111 and forms a hook 113 at a lower end of an inner side thereof; and


at an upper end outside the inlet 2 of the receptacle 1, an outer groove 4 configured to be coupled to the hook 113 and an outer hook 3 protruding from the upper end of the inlet due to the outer groove 4 is formed. 320 is protruded from the outside or lower end of the fitting ring 310, thereby being fitted and fixed by the sealing plate holder fixing step 420, and is a protruding step configured to provide support so that the sealing plate holder 300 is separated together with the separation of the outer cap 400.


The present invention uses the components shown in FIG. 2 to assemble and use an additive as shown in FIG. 3. As an example of the assembly, a receptacle is filled with contents through an inlet 2 of the receptacle 1. Apart from this, an additive is held inside a container 200 of an inner cap 100, and a sealing plate holder 300 has a heat-resistant sealing plate 220 fitted between a fitting ring 310 of the sealing plate holder 300 beforehand so that a part thereof is also fitted and supported at the locking hook 110 of the inner cap 100 to be coupled provisionally. The provisionally coupled sealing plate holder 300, heat-resistant sealing plate 220, and inner cap 100 are coupled to be simultaneously supported by a protruding step 320 of the sealing plate holder 300 past a side wall 401 of the outer cap 400.


In addition, the heat-resistant sealing plate 220 heat-seals the upper end inlet of the container 200 of the inner cap 100 and the horizontal part 111 of the locking hook 110 with induction heating.


Of course, the sealing plate holder 300, sealing plate 220, and inner cap 100 filled with additives may be induction heat-sealed at a provisionally coupled state to separately assemble a provisionally coupled state as shown in FIG. 10 of a heat-resistant sealing plate 220 already in a state sealed to the inner cap 100, and what was separately assembled may be capped at the inlet 2 of the contents filled receptacle 1 to form a capped state as shown in FIG. 3.


When a user purchases and separates the outer cap 400, the state of the outer cap 400 and sealing plate holder 300 being separated simultaneously from the heat-resistant sealing plate 220 is as formed as shown in FIG. 11. Thus the user may tear the heat-resistant sealing plate 220 and drink the contents in the receptacle together with an additive the same time, and the heat-resistant sealing plate has been found to have a long storage life of over 6 months like that of a typical retort receptacle, thereby allowing storage of coffee or oriental herb concentrates, powder which lasts without its nutrients being lost when blocked from oxygen or a granular nutrient, vitamins or variable granular or power or liquid forms of additives for more than 6 months.


The upper surface of the sealing plate 220 is an aluminum sheet, and a double-layered synthetic resin sheet product is used as the lower surface. When induction heated, the aluminum sheet does not perform any heat sealing so the sealing plate holder 300 is fitted into the outer cap 400 and enabled to be separated from the heat-resistant sealing plate at the same time, and the heat-sealed sealing plate 220 is heat-sealed integrally to the inner cap 100 to perform sealing.


Therefore, the inner cap 100 which holds the additive may maintain its sealing property by the heat-resistant sealing plate 220 and there are no worries of any moisture and smells being permeated, so if beverages that are used as warm drinks such as tea, coffee, or milk hold additional additives separately, it functions to enable use on just-boiled tea or warm drinks that can provide a fresh scent of an additive.


According to another exemplary embodiment of the present invention, as shown. in FIGS. 4 and 5, the sealing plate 220, the sealing plate holder 300 and the outer cap 400 is the same as those of FIGS. 1 to 3, and thus the basic description thereof is omitted.


The difference is that, the locking hook 110′ formed at the insertion pipe 120 of the inner cap 100 is configured to have a horizontal part 111 bent towards the outside of the insertion pipe 120, and a hook 113′ protruding from an outer circumference part of the insertion pipe 120; and


an inner groove 4′ configured to be coupled to the hook 113′, an inner hook 3′ protruding from an upper end of the inlet due to the inner groove 4′, and an upper end groove 6 configured to have a surface of the horizontal part 111 be fitted horizontally to an upper end wall 5 at the inner circumference side of the upper end wall 5 of the inlet 2 of the receptacle 1, is comprised to be configured at the upper end inside the inlet 2 of the receptacle 1.


The sealing plate holder 300 which is coupled to the sealing plate holder fixing step 420 of the outer cap 400 may be integrally formed with the outer cap 400 as shown in FIG. 6 and FIG. 7.


Other than the coupled structure configured to have a locking hook 110′ of the inner cap 100 formed with a hook 113′ and a horizontal part 111, and a corresponding inner wall of the inlet 2 of the receptacle 1 formed with an inner groove 4′ and an inner hook 3′, shown in FIGS. 4 to 7, the basic functions are the same as those of FIGS. 1 to 3, and thus the description of coupling and usage principles thereof is omitted.


However, since the sealing plate 220 heat-seals the horizontal part 111 and upper end wall 5 simultaneously, the inner cap 100 and inlet 2 completely seals the contents of the receptacle, thereby maximizing the sealing properties to enable long-term storage for over 6 months.


Another embodiment of the present invention as shown in FIG. 8 and FIG. 9 is configured to comprise, an inner cap 100 having an insertion pipe 120 configured to be fitted onto an inlet 2 of a receptacle 1 with a locking hook, a discharge gate 140 connected to the insertion pipe 120 with a small-diameter pipe 145 and formed so that contents in the receptacle is discharged at the small-diameter pipe 145, and a container 200 which is installed at a bottom and has an open upper part to hold additives therein;


a heat-resistant sealing plate 220 configured to heat-seal the upper wall of the container 200;


a fitting ring 310 that fits the sealing plate 220 to a corresponding part for coupling the heat-resistant sealing plate 220, an outer circumference 320 which is fitted at an upper end of an inner side wall 401 of an outer cap 400, and a sealing plate holder 300 having a sealing dam 340 protruding downwards to seal the inner circumference part of the insertion pipe 120; and


a sealing plate holder fixing step 420, configured to fit and couple the sealing plate holder 300 and formed on an inner part of the side wall 401, and the outer cap 400 is configured to separate the sealing plate holder 300 as the receptacle is opened.


The fitting ring 310 is formed to have a height that may temporarily fix a length of a handle 222 of the sealing plate 220 and an upper end of an outside part of the container 200.


The small-diameter pipe 145 which supports the insertion pipe 120 and container 200 to form the discharge gate 140 is configured to have a diameter that becomes smaller from a lower end of the insertion pipe 120 towards a lower end of a side wall of the container 200.


Other than the sealing plate 220 being fitted to a fitting ring 210 having a smaller diameter than that of the sealing plate holder 300, and a sealing dam 340 sealing the insertion pipe 120 of the container outside the fitting ring 310 is formed to seal only the inlet of the container 200, the function of operation of the structure of FIGS. 8 and 9 is the same as those of FIGS. 1 to 3, and thus detailed description thereof is omitted.


Although the present invention been described with reference to the preferred embodiments, it is intended to aid in the understanding of the technical content of the present invention, and the technical scope of the invention is not intended to be limited thereto.


That is, it would be obvious to those skilled in the art that various changes and modifications can be made to the invention without departing from the technical gist of the present invention, and such changes and modifications are within the technical scope of the present invention in view of the interpretation of the claims.


REFERENCE NUMBERS




  • 1: receptacle


  • 2: inlet


  • 3. outer hook


  • 3′: inner hook


  • 4: outer groove


  • 4′: inner groove


  • 100: inner cap


  • 110, 110′: locking hook


  • 111: horizontal part


  • 112: vertical part


  • 113, 113′ hook


  • 120: insertion pipe


  • 140: discharge gate


  • 145: small-diameter pipe


  • 200: container


  • 210: bridge


  • 220: sealing plate


  • 222: handle


  • 300: sealing plate holder


  • 310: fitting hole


  • 320: outer circumference


  • 330, 331: presser protrusion


  • 340: sealing dam


  • 400: outer cap


  • 410: skirt


  • 412: parting wall


  • 420: sealing plate holder fixing step


Claims
  • 1. A heat-resistant receptacle cap comprising: an inner cap 100 having an insertion pipe 120 configured to be fitted onto an inlet of a receptacle with a locking hook, a discharge gate 140 connected to the insertion pipe 120 with a small-diameter pipe 145 and formed so that contents in the receptacle is discharged at the small-diameter pipe 145, and a container 200 which is installed at the bottom of the small-diameter pipe 145 and has an open upper part to hold additives therein;a heat-resistant sealing plate 220 configured to heat-seal the insertion pipe 120 and upper wall of the container 200;a sealing plate holder 300 which is provided with a fitting ring 310 that fits the heat-resistant sealing plate 220 to a corresponding part for coupling the sealing plate 220, and which is fitted at an upper end of an inner side wall of an outer cap 400; andthe outer cap 400 having a sealing plate holder fixing step 420 which is formed on a side wall 401 and configured to separate the sealing plate holder 300 as the receptacle is opened.
  • 2. The heat-resistant receptacle cap of claim 1, wherein the fitting ring 310 is formed to have a height that may fix a length of a handle 222 of the sealing plate 220 and a locking hook portion simultaneously.
  • 3. The heat-resistant receptacle cap of claim 2, wherein the locking hook is configured to have a horizontal part 111 bent towards the outside of the insertion pipe 120, and a vertical part 112 which bends downwards from the outside of the horizontal part 111 and forms a hook 113 at a lower end of an inner side thereof; and at an upper end outside the inlet 2 of the receptacle 1, an outer groove 4 configured to be coupled to the hook 113 and an outer hook 3 protruding from the upper end of the inlet due to the outer groove 4 is formed.
  • 4. The heat-resistant receptacle cap of claim 2, wherein the locking hook is configured to have a horizontal part 111 bent towards the outside of the insertion pipe 120, and a hook 113′ protruding from an outer circumference part of the insertion pipe 120; and an inner groove 4′ configured to be coupled to the hook 113′, an inner hook 3′ protruding from an upper end of the inlet due to the inner groove 4′, and an upper end groove 6 configured to have a surface of the horizontal part 111 be fitted horizontally to an upper end wall 5 at the inner circumference side of the upper end wall 5 of the inlet 2 of the receptacle 1, is comprised to be configured at the upper end inside the inlet 2 of the receptacle 1.
  • 5. The heat-resistant receptacle cap of claim 4, wherein the sealing plate 300 is configured to heat-seal the horizontal part 111 and the upper end wall 5 simultaneously.
  • 6. The heat-resistant receptacle cap of claim 1, wherein the sealing plate holder 300 which is coupled to the sealing plate holder fixing step 420 of the outer cap 400 is integrally formed with the outer cap 400.
  • 7. A heat-resistant receptacle cap comprising: an inner cap 100 having an insertion pipe 120 configured to be fitted onto an inlet of a receptacle with a locking hook, a discharge gate 140 connected to the insertion pipe 120 with a small-diameter pipe 145 and formed so that contents in the receptacle is discharged at the small-diameter pipe 145, and a container 200 which is installed at a bottom of the small-diameter pipe 145 and has an open upper part to hold additives therein;a heat-resistant sealing plate 220 configured to heat-seal the upper wall of the container 200;a fitting ring 310 that fits the sealing plate 220 to a corresponding part for coupling the heat-resistant sealing plate 220, an outer circumference 320 which is fitted at an upper end of an inner side wall 401 of an outer cap 400, and a sealing plate holder 300 having a sealing dam 340 protruding downwards to seal the inner circumference part of the insertion pipe 120; anda sealing plate holder fixing step 420, configured to fit and couple the sealing plate holder 300 and formed on an inner part of the side wall 401, and the outer cap 400 is configured to separate the sealing plate holder 300 as the receptacle is opened.
  • 8. The heat-resistant receptacle cap of claim 7, wherein the fitting ring 310 is formed to have a height that may temporarily fix a length of a handle 222 of the sealing plate 220 and an upper end of an outside part of the container 200.
  • 9. The heat-resistant receptacle cap of claim 6, wherein the small-diameter pipe 145 which supports the insertion pipe 120 and container 200 to form the discharge gate 140 is configured to have a diameter that becomes smaller from a lower end of the insertion pipe 120 towards lower end of side wall of the container 200.
  • 10. The heat-resistant receptacle cap of claim 2, wherein the sealing plate holder 300 which is coupled to the sealing plate holder fixing step 420 of the outer cap 400 is integrally formed with the outer cap 400.
Priority Claims (1)
Number Date Country Kind
10-2016-0145588 Nov 2016 KR national