CN116253056A

CN116253056A - Container plug capable of being quickly disassembled and assembled and assembling method thereof

Info

Publication number: CN116253056A
Application number: CN202111507887.XA
Authority: CN
Inventors: 邵晖
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2023-06-13
Also published as: WO2023103092A1

Abstract

The invention discloses a container plug capable of being quickly disassembled and assembled, which comprises a hollow handle, a plug body and an elastic sealing sleeve, wherein the plug body comprises a positioning pin block and a spring pressing pin, and the spring pressing pin is abutted or separated from the positioning pin block in the process of being far away from or near to the positioning pin block; the hollow handle comprises a limiting boss, at least one guide sliding rail is arranged on the limiting boss, and an elastic limiting piece is arranged at a first preset position of the limiting boss; the plug body is arranged in the elastic sealing sleeve in a penetrating way and is arranged in the hollow handle along the guide sliding rail in a penetrating way, the elastic limiting piece and the spring pressing pin are mutually abutted in the process of relative movement, so that the guide sliding rail is abutted against the positioning pin block to move in the opposite direction, and two ends of the elastic sealing sleeve are respectively connected with the hollow handle and the plug body; above-mentioned but quick assembly disassembly's container stopper, the spring is pushed down to the elastic limiting piece with the spring press round pin, makes the guide slide rail compress tightly the locating pin piece and moves in opposite directions, makes the cock body wear to locate in the hollow handle, has accomplished the assembly of container stopper, need not to follow certain assembly sequence.

Description

Container plug capable of being quickly disassembled and assembled and assembling method thereof

Technical Field

The invention relates to the technical field of container covers, in particular to a container plug capable of being quickly disassembled and assembled and an assembly method thereof.

Background

The prior container plug needs to be completely replaced after a certain part is damaged, so that the damaged or undamaged part is completely replaced together to cause resource waste, the prior container plug is of a split detachable structure, and when the certain part of the container plug is damaged, the damaged part is replaced and then is installed, so that the cost can be effectively saved. However, the installation of the conventional removable container plug is required to follow a certain installation sequence, and if the installation is not performed in the installation sequence, the installation of the container plug cannot be completed, so that the user is unchanged.

For example, in the current unthreaded removable container stopper, when assembling, the sealing ring is sleeved on the outer cover, and then the pull ring stopper passes through the sealing ring to complete the assembly with the outer cover. If the assembly sequence is not followed, the positioning pin block of the pull ring plug can be blocked by the notch of the outer cover in the process of penetrating and plugging the pull ring plug into the outer cover, so that the pull ring plug cannot enter the outer cover to finish assembly.

Disclosure of Invention

Accordingly, there is a need for a quick-detachable container plug and a method of assembling the same that enables the container plug to be installed in a non-sequential manner.

A container plug capable of being quickly disassembled and assembled, which comprises a hollow handle, a plug body and an elastic sealing sleeve,

the plug body comprises a locating pin block and a spring pressing pin, and the spring pressing pin is abutted or separated from the locating pin block in the process of being far away from or near to the locating pin block;

the hollow handle comprises a limiting boss, at least one guide sliding rail is arranged on the limiting boss, and an elastic limiting piece is arranged at a first preset position of the guide sliding rail; a groove or a notch is formed in the connecting part of the guide sliding rail and the elastic limiting piece;

the plug body is arranged in the elastic sealing sleeve in a penetrating manner and is arranged in the hollow handle in a penetrating manner along the guide sliding rail, the elastic limiting piece and the spring pressing pin are mutually abutted in the process of relative movement of the hollow handle and the plug body, and the elastic limiting piece generates elastic deformation in the process of continuous relative movement of the hollow handle and the plug body, so that the guide sliding rail abuts against the positioning pin block to move in opposite directions, and two ends of the elastic sealing sleeve are respectively connected with the hollow handle and the plug body; and the elastic limiting piece recovers deformation.

In one embodiment, one end of the guiding sliding rail is in a cambered surface or inclined surface structure.

In one embodiment, the first end surface of the elastic limiting member is an arc surface or an inclined surface structure.

In one embodiment, the second end surface corresponding to the first end surface is a cambered surface or an inclined surface structure.

In one embodiment, the elastic limiting piece is used for controlling the spring pressing pin to be abutted or separated from the positioning pin block, and is elastically deformed under the action of the groove or the notch after being abutted with the plug body when the plug body passes through the limiting boss, and is recovered to deform when being separated from the plug body.

A method for assembling a container plug capable of being quickly disassembled and assembled,

s1, sleeving an elastic sealing sleeve on a limiting boss or a plug body;

s2, enabling the guide sliding rail and the positioning pin block to be positioned on the same plane in the vertical direction;

s3, enabling the elastic limiting piece and the spring pressing pin to be located on the same plane in the vertical direction;

s4, the plug body moves along the guide sliding rail towards the direction of the hollow handle to enable the elastic limiting piece to prop against the spring pressing pin and move relatively;

s5, the spring pressing pin moves in a direction away from the positioning pin block under the resistance action of the elastic limiting piece and is separated from the positioning pin block;

s6, the elastic limiting piece generates elastic deformation in the process of continuing to move relative to the plug body, and the deformation is recovered when the plug body is far away from the elastic limiting piece;

s7, extruding the positioning pin block by the guide sliding rail to perform relative movement;

s8, until the elastic sealing sleeve is in a critical deformation state;

s9, connecting two ends of the elastic sealing sleeve with the hollow handle and the plug body respectively.

In one embodiment, in S1, when the elastic sealing sleeve is sleeved on the limiting boss or the plug body, the elastic sealing sleeve needs to be tightly attached to the limiting boss or the plug body.

In one embodiment, in S7, the locating pin block is moved toward each other until the outer edges of the locating pin block are all pressed into the plug body by the guide rail.

According to the container plug capable of being quickly disassembled and assembled and the assembling method thereof, the elastic sealing sleeve is sleeved on the limiting boss or the plug body, the plug body moves along the direction of the guide sliding rail to the direction of the hollow handle so that the elastic sealing sleeve and the spring pressing pin are propped against each other in the process of relatively moving the hollow handle and the plug body, the spring pressing pin is pressed down, the guide sliding rail pressing positioning pin block moves in opposite directions, the elastic sealing sleeve deforms, the plug body penetrates through the hollow handle and reaches the preset position, the elastic sealing sleeve is deformed, the container plug is assembled, and the container plug can be assembled smoothly whether the elastic sealing sleeve is sleeved on the limiting boss or the plug body, a certain assembling sequence is not required, and the container plug is assembled more quickly and conveniently.

Drawings

FIG. 1 is a schematic view of an exploded view of a container plug according to an embodiment of the present invention;

FIG. 2 is a schematic view of an assembly structure of the container plug of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a quick-release container stopper according to one embodiment of the invention of FIG. 1;

fig. 4 is a schematic structural view of an elastic stopper of the container plug of fig. 1 capable of being quickly assembled and disassembled according to an embodiment of the present invention.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the invention, whereby the invention is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly connected" to another element, there are no intervening elements present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, 2 and 3, a container stopper capable of being quickly assembled and disassembled comprises a hollow handle 100, a stopper body 200 and an elastic sealing sleeve 300,

the plug body 200 comprises a positioning pin block 210 and a spring pressing pin 220, wherein the spring pressing pin 220 is abutted or separated from the positioning pin block 210 in the process of being far away from or near to the positioning pin block 210;

the hollow handle 100 comprises a limit boss 110, wherein the limit boss 110 is provided with at least one guide sliding rail 111, and a first preset position of the guide sliding rail 111 is provided with an elastic limit piece 112; a groove 1111 or a notch is formed at the connection part of the guide sliding rail 111 and the elastic limiting piece 112;

the plug body 200 is inserted into the elastic sealing sleeve 300 and is inserted into the hollow handle 100 along the guiding sliding rail 111, the elastic limiting member 112 and the spring pressing pin 220 are mutually abutted in the process of relatively moving the hollow handle 100 and the plug body 200, the elastic limiting member 112 generates elastic deformation in the process of continuously relatively moving the hollow handle 100 and the plug body 200, the guiding sliding rail 111 is abutted against the positioning pin block 210 to move in opposite directions, and two ends of the elastic sealing sleeve 300 are respectively connected with the hollow handle and the plug body; the elastic stopper 112 resumes its deformation.

In one embodiment, one end of the guide rail 111 is a cambered surface or an inclined surface.

In one embodiment, the first end surface of the elastic limiting member 112 is an arc surface or an inclined surface.

In one embodiment, the second end surface 1122 corresponding to the first end surface 1121 has a cambered surface or a beveled surface.

In one embodiment, the elastic limiting member 112 is used to control the spring pressing pin 220 to abut against or separate from the positioning pin block 210, and elastically deform under the action of the groove 1123 or the notch after abutting against the plug body 200 when the plug body 200 passes through the limiting boss 110, and recover the deformation when separating from the plug body 200.

s1, sleeving an elastic sealing sleeve 300 on a limiting boss 110 or a plug body 200;

s2, enabling the guide sliding rail 111 and the positioning pin block 210 to be positioned on the same plane in the vertical direction;

s3, enabling the elastic limiting piece 112 and the spring pressing pin 220 to be located on the same plane in the vertical direction;

s4, the plug body 200 moves along the guide sliding rail 111 towards the direction of the hollow handle 100 to enable the elastic limiting piece 112 to prop against the spring pressing pin 220 and move relatively;

s5, the spring pressing pin 220 moves away from the positioning pin block 210 under the resistance of the elastic limiting piece 112 and is separated from the positioning pin block 210;

s6, the elastic limiting piece 112 generates elastic deformation in the process of continuing to move relative to the plug body 200, and the deformation is recovered when the plug body 200 is far away from the elastic limiting piece 112;

s7, the positioning pin block 210 is extruded by the guide sliding rail 111 to move relatively;

s8, until the elastic sealing sleeve 300 is in a critical deformation state;

and S9, connecting two ends of the elastic sealing sleeve 300 with the hollow handle 100 and the plug body 200 respectively.

In one embodiment, in S1, when the elastic sealing sleeve 300 is sleeved on the limiting boss 110 or the plug body 200, the elastic sealing sleeve 300 needs to be tightly attached to the limiting boss 110 or the plug body 200.

In one embodiment, in S7, the positioning pin block 210 is moved toward each other until the outer edges of the positioning pin block 210 are all pressed into the plug body 200 by the guide rail.

The existing container plug without threads comprises an outer cover, a sealing ring and a pull ring plug, wherein the pull ring plug comprises a locating pin block and a pressing pin, when the outer cover, the sealing ring and the pull ring plug are in a split state, the locating pin block and the pressing pin are in a mutually propped state, the two locating pin blocks cannot move in opposite directions, namely, the two locating pin blocks cannot retract into the pull ring plug, two salient points are arranged in the sealing ring, and the outer cover is provided with two notches. When assembling, the sealing ring is sleeved on the outer cover, so that two convex points in the sealing ring are accommodated in two gaps of the outer cover, the pull ring plug penetrates through the sealing ring, the positioning pin block and the convex points are mutually abutted, then the positioning pin block slides over the convex points, the pull ring plug penetrates into the outer cover, and the assembly of the container plug is completed. If the assembly is not carried out according to the sequence, the sealing ring is sleeved in the pull ring plug, then the pull ring plug and the sealing ring are assembled in the outer cover together, at the moment, the positioning pin block and the pressing pin are in a mutually propped state, and cannot retract into the pull ring plug, so that the positioning pin block can mutually prop two gaps on the outer cover, cannot enter the outer cover, and cannot finish the assembly.

Based on the above problems, the present application is a threadless container closure that can be installed unordered.

The guide rail 111 is one or two. The elastic limiting piece 112 is arranged on the inner layer of the limiting boss 110, the specific position is determined by the position of the spring pressing pin 220, the elastic limiting piece 112 is located at the longitudinal displacement position of the spring pressing pin 220 and is in the same straight line with the spring pressing pin 220 in the vertical direction, the elastic limiting piece 112 is ensured to press the spring pressing pin 220 in advance before the guide sliding rail 111 presses the positioning pin blocks 210, so that the two positioning pin blocks 210 can move in opposite directions, and the elastic limiting piece 112 has certain elasticity and can generate a certain degree of deformation after being pressed.

When the hollow handle 100, the plug body 200 and the elastic sealing sleeve 300 are required to be assembled, the elastic sealing sleeve 300 can be sleeved on the limit boss 110, or the elastic sealing sleeve 300 can be sleeved on the plug body 200, at the moment, the positioning pin blocks 210 and the spring pressing pins 220 are in a mutually propped state, the two positioning pin blocks 210 cannot move in opposite directions, when the plug body 200 is arranged on the hollow handle 100 in a penetrating manner, the positioning pin blocks 210 on the plug body 200 and the guide sliding rails 111 are in the same straight line in the vertical direction, when the plug body 200 is arranged on the hollow handle 100 in a penetrating manner in a gradual manner, the elastic limiting piece 112 is propped against the spring pressing pins 220, the spring pressing pins 220 are pressed to move towards the elastic sealing sleeve 300, so that the spring pressing pins 220 are separated from the positioning pin blocks 210, at the moment, the two positioning pin blocks 210 are pressed to move in opposite directions due to the action of the guide sliding rails 111, the plug body 200 is retracted into the plug body 200, and the plug body 200 continues to move until the elastic sealing sleeve 300 reaches a critical deformation state, and the assembly is completed.

In this way, when the elastic sealing sleeve 300 is sleeved on the limiting boss 110 or the plug body 200 through the arrangement of the elastic limiting piece 112, the plug body 200 moves along the direction of the guide sliding rail 111 towards the direction of the hollow handle 100 to enable the elastic limiting piece 112 to abut against the spring pressing pin 220, the spring pressing pin 220 is pressed down, the guide sliding rail 111 presses the positioning pin block 210 to move oppositely, the elastic limiting piece 112 deforms, the plug body 200 is penetrated through the hollow handle 100 and reaches a preset position, the elastic limiting piece 112 recovers deformation, the assembly of the container plug is completed, no matter whether the elastic sealing sleeve 300 is sleeved on the limiting boss 110 or the plug body 200, the assembly of the container plug can be completed smoothly, a certain assembly sequence is not required, and the assembly of the container plug is faster and more convenient.

Further, in order to make the positioning pin block 210 quickly enter the limiting boss 110, a groove or a notch is formed at the connection portion between the guiding sliding rail 111 and two sides of the limiting boss 110.

Thus, when the positioning pin block 210 abuts against the guiding sliding rail 111, the grooves 1111 or the notches are formed on the two sides of the guiding sliding rail 111, so that the guiding sliding rail 111 is slightly lifted outwards, and the positioning pin block 210 can conveniently slide into the limiting boss 110.

Further, in order to facilitate the positioning pin block 210 to slide into the limiting boss 110, one end of the guiding sliding rail 111 is in a cambered surface or inclined surface structure.

Thus, when the plug body 200 moves towards the hollow handle 100 under the action of external force and the lower edge of the guide sliding rail 111 abuts against the positioning pin block 210, the positioning pin block 210 can conveniently and rapidly enter the limiting boss 110 because one end of the guide sliding rail 111, which is close to the positioning pin block 210, is in a cambered surface or inclined surface structure.

Further, as shown in fig. 4, in order to enable the container stopper to be quickly disassembled, the first end face 1121 of the elastic stopper 112 has a cambered surface or a slant structure.

Thus, when the container plug is detached, the hollow handle 100 and the plug body 200 are separated only under the action of external force, and in the separation process of the plug body 200 and the hollow handle 100, the first end face 1121 on the elastic limiting member 112 is of an arc surface or inclined surface structure, so that the plug body 200 can rapidly slide through the elastic limiting member 112 to rapidly complete the detachment of the container plug.

Further, in order to facilitate the spring pressing pin 220 to slide fast through the elastic limiting member 112, the second end surface 1122 corresponding to the first end surface 1121 is provided with a rounded or cambered surface or an inclined surface.

Thus, when the container stopper is assembled, when the elastic limiting member 112 and the spring pressing pin 220 are mutually abutted, the elastic limiting member 112 pushes the spring pressing pin 220 to move towards the base direction of the stopper body 200, the stopper body 200 continues to move towards the hollow handle 100 under the action of external force, the spring pressing pin 220 slides over the elastic limiting member 112, and as the second end surface 1122 of the elastic limiting member 112, which is close to the spring pressing pin 220, is of an arc surface or inclined surface structure, the spring pressing pin 220 and the positioning pin block 210 can conveniently slide fast through the elastic limiting member 112, and the assembly is completed fast.

Further, in order to facilitate the positioning pin block 210 to pass through the elastic limiting member 112 quickly during assembly, the elastic limiting member 112 is used to control the spring pressing pin 220 to abut against or separate from the positioning pin block 210, and to abut against the plug body 200 and generate elastic deformation when the plug body 200 passes through the limiting boss 110, and to recover the deformation when the plug body 200 slides through the elastic limiting member 112.

Thus, in the process of relatively moving the hollow handle 100 and the plug body 200, the positioning pin block 210 needs to slide through the elastic limiting member 112, and then the assembly of the hollow handle 100 and the plug body 200 can be completed, because the elastic limiting member 112 is the elastic limiting member 112, when the positioning pin block 210 slides and presses the elastic limiting member 112, the elastic limiting member 112 can deform to a certain extent, so that the positioning pin block 210 can conveniently slide through the elastic limiting member 112 rapidly, and when the positioning pin block 210 does not press the elastic limiting member 112 any more, the elastic limiting member 112 recovers deformation, thereby ensuring that the assembly of the hollow handle 100 and the plug body 200 is completed rapidly.

Example 1: a method for assembling a container plug capable of being quickly disassembled and assembled,

s1, sleeving an elastic sealing sleeve 300 on a limiting boss 110;

s2, the guide sliding rail 111 of the limit boss 110 and the positioning pin block 210 on the plug body 200 are positioned on the same straight line in the vertical direction;

s3, enabling the elastic limiting piece 112 on the limiting boss 110 and the spring pressing pin 220 on the plug body 200 to be positioned on the same straight line in the vertical direction;

s4, the plug body 200 is penetrated into the elastic sealing sleeve 300 and moves towards the hollow handle 100 along the direction of the guide sliding rail 111, so that the elastic limiting piece 112 is propped against the spring pressing pin 220;

s5, the spring pressing pin 220 moves to a first preset position in the direction of the plug body 200 under the action force of the elastic limiting piece 112, so that the spring pressing pin 220 and the positioning pin block 210 are not mutually propped;

s6, enabling the guide sliding rail 111 to press the positioning pin block 210 to move in opposite directions; the positioning pin block 210 is extruded into the plug body 200 by the guide slide rail 111, and the elastic limiting piece 112 deforms;

s7, the spring pressing pin 220 and the positioning pin block 210 sequentially slide through the elastic limiting piece 112, and the elastic limiting piece 112 recovers deformation;

s8, the elastic sealing sleeve 300 is in a critical deformation state.

Example 2: a method for assembling a container plug capable of being quickly disassembled and assembled,

s1, sleeving an elastic sealing sleeve 300 on a plug body 200; the elastic sealing sleeve 300 is propped against the base of the plug body 200;

s4, the plug body 200 drives the elastic sealing sleeve 300 to move towards the hollow handle 100 along the direction of the guide sliding rail 111, so that the elastic limiting piece 112 is propped against the spring pressing pin 220;

s5, the spring pressing pin 220 moves to a first preset position in the direction of the plug body 200 under the action force of the elastic limiting piece 112; so that the spring pressing pin 220 and the positioning pin block 210 are no longer held against each other;

s6, enabling the guide sliding rail 111 to press the positioning pin block 210 to move in opposite directions; the positioning pin block 210 is guided to the slide rail to extrude 111 into the plug body 200, and the elastic limiting piece 112 deforms;

s7, the spring pressing pin 220 and the positioning pin block 210 sequentially slide through the elastic limiting piece 112; the elastic sealing sleeve 300 is sleeved on the limiting boss 110, and the upper end of the elastic sealing sleeve 300 is abutted on the hollow handle; the elastic limiting piece 112 recovers deformation;

s8, the elastic sealing sleeve 300 is in a critical deformation state.

In this way, when the elastic sealing sleeve 300 is sleeved on the limit boss 110 or the plug body 200, the plug body 200 moves along the direction of the guide sliding rail 111 towards the direction of the hollow handle 100 to enable the elastic limiting piece 112 to abut against the spring pressing pin 220, the spring pressing pin 220 is pressed down, the guide sliding rail 111 presses the positioning pin block 210 to move oppositely, the elastic limiting piece 112 deforms, the plug body 200 is penetrated on the hollow handle 100 and reaches a preset position, the elastic limiting piece 112 is deformed in a recovery mode, the elastic sealing sleeve 300 is in a critical deformation state, and the assembly of the container plug is completed, and no matter whether the elastic sealing sleeve 300 is sleeved on the limit boss 110 or the plug body 200, the assembly of the container plug can be completed smoothly, a certain assembly sequence is not required, and the assembly of the container plug is faster and more convenient.

Further, in order to enable the container stopper to be assembled quickly, in S1, when the elastic sealing sleeve 300 is sleeved on the limiting boss 110 or the stopper body 200, the elastic sealing sleeve 300 needs to be tightly attached to the limiting boss 110 or the stopper body 200.

Thus, the elastic sealing sleeve 300 is tightly attached to the limiting boss 110 or the plug body 200, so that the resistance of the plug body 200 in the process of penetrating into the limiting boss 110 is reduced, and the assembly is completed rapidly.

In one embodiment, in S6, the positioning pin block 210 is moved toward each other until the outer edges of the positioning pin block 210 are all pressed into the plug body 200 by the guide rail 111.

In the process of sliding the plug body 200 to the limit boss 110, the outer edge of the positioning pin block 210 is tightly attached to the inner wall of the limit boss 110, so that the outer edge of the positioning pin block 210 is completely extruded into the plug body 200 by the guide sliding rail 111, and the influence on the assembly of the plug body 200 after the positioning pin block 210 is raised in the sliding process is avoided.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. A container stopper capable of being quickly disassembled and assembled, which is characterized in that: comprises a hollow handle, a plug body and an elastic sealing sleeve,

the plug body is arranged in the elastic sealing sleeve in a penetrating mode and penetrates into the hollow handle along the guide sliding rail, the elastic limiting piece and the spring pressing pin are in mutual abutting connection in the process of relative movement of the hollow handle and the plug body, the elastic limiting piece is elastically deformed in the process of continuous relative movement of the hollow handle and the plug body, the guide sliding rail abuts against the positioning pin block to move in the opposite direction, two ends of the elastic sealing sleeve are respectively connected with the hollow handle and the plug body, and the elastic limiting piece is deformed in a restoration mode.

2. A quick detachable container stopper according to claim 1, wherein: one end of the guide sliding rail is of a cambered surface or inclined surface structure.

3. A quick detachable container stopper according to claim 1, wherein: the first end face of the elastic limiting piece is of a cambered surface or inclined surface structure.

4. A quick detachable container stopper according to claim 3, wherein: the second end face arranged corresponding to the first end face is of a cambered surface or inclined surface structure.

5. A quick detachable container stopper according to claim 1, wherein: the elastic limiting piece is used for controlling the spring pressing pin to be abutted or separated from the positioning pin block, and is abutted with the plug body to generate elastic deformation under the action of the groove or the notch after being abutted with the plug body when the plug body passes through the limiting boss, and the elastic limiting piece is recovered to deform when being separated from the plug body.

6. A method for assembling a container plug capable of being quickly disassembled and assembled is characterized in that:

s1, sleeving an elastic sealing sleeve on a limiting boss or a plug body;

s8, until the elastic sealing sleeve is in a critical deformation state;

7. A method of assembling a quick detachable container closure according to claim 6, wherein: in S1, when the elastic sealing sleeve is sleeved on the limiting boss or the plug body, the elastic sealing sleeve is required to be tightly attached to the limiting boss or the plug body.

8. A method of assembling a quick detachable container closure according to claim 6, wherein: in S7, the locating pin block moves towards each other until the outer edge of the locating pin block is completely extruded into the plug body by the guide sliding rail.