Container cap and container to which same is coupled
Abstract
The present invention relates to a container cap and, more specifically, to a container cap coupled to a container inlet, and a container to which same is coupled. Disclosed is the container cap comprising: a cap body ( 100 ) coupled to a container inlet ( 12 ) of the container ( 10 ) in which contents are contained; and an upper lid ( 200 ) coupled to the cap body ( 100 ) to cover the upper side of the cap body ( 100 ), wherein the cap body ( 100 ) includes an outlet plate ( 110 ) which is fractured from an upper plate part ( 101 ) to form a discharge hole ( 102 ) through which the contents contained in the container ( 10 ) are discharged, and the upper lid ( 200 ) includes a pushing part ( 210 ) which is formed in correspondence to the outlet plate ( 110 ) and which fractures the outlet plate ( 110 ) by means of the vertical movement thereof.
Claims
exact text as granted — not AI-modified1 . A container cap comprising:
a cap body coupled to a container inlet of a container in which contents are contained; and an upper lid coupled to the cap body to cover an upper side of the cap body, wherein the cap body comprises an outlet plate which is fractured from an upper plate part to form a discharge hole through which the contents contained in the container are discharged, and the upper lid comprises a pushing part which is formed in correspondence to the outlet plate and which fractures the outlet plate by a vertical movement thereof.
2 . The container cap of claim 1 , wherein the pushing part comprises:
a pushing plate pushed by a user; an elastic deformation part configured to couple the pushing part with the upper lid so as to be movable vertically with respect to the upper lid; and a pressing part protruding from a bottom surface of the pushing plate to press the outlet plate downward when the pushing plate moves downward.
3 . The container cap of claim 2 , wherein the pressing part is formed in correspondence to a cut line fractured with respect to the upper plate.
4 . The container cap of claim 2 , wherein the pushing part comprises a reinforcing part formed inside the pressing part to reinforce structural strength.
5 . The container cap of claim 1 , wherein the outlet plate is partitioned by the cut line formed on the upper plate part.
6 . The container cap of claim 5 , wherein the cut line forms an open curve so that the outlet plate is fractured from the upper plate part in a state of being partially coupled with the upper plate part.
7 . The container cap of claim 5 , wherein a hook part is formed on a bottom surface of the upper plate part to maintain a folded state after the outlet plate is pressed and folded by the pushing part.
8 . The container cap of claim 5 , wherein the outlet plate is eccentric from a center of the upper plate part.
9 . The container cap of claim 5 , wherein the upper plate part is inclined downward toward the outlet plate.
10 . The container cap of claim 1 , wherein the upper lid is hinge-coupled to the cap body.
11 . The container cap of claim 2 , wherein the outlet plate is partitioned by the cut line formed on the upper plate part.
12 . The container cap of claim 3 , wherein the outlet plate is partitioned by the cut line formed on the upper plate part.
13 . The container cap of claim 4 , wherein the outlet plate is partitioned by the cut line formed on the upper plate part.
14 . The container cap of claim 2 , wherein the upper lid is hinge-coupled to the cap body.
15 . The container cap of claim 3 , wherein the upper lid is hinge-coupled to the cap body.
16 . The container cap of claim 4 , wherein the upper lid is hinge-coupled to the cap body.Cited by (0)
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