KR101278879B1 - Tube vessel - Google Patents

Abstract

PURPOSE: A tubular container is provided to prevent the inflow of air through an outflow hole into the inside of a tube body, thereby preventing contents from being spoiled. CONSTITUTION: A tube body receives contents, and an outflow unit(110) for the outflow of the contents is formed on the top of the tube body. An inner nozzle(200) includes a joining unit(210) where a content inflow hole(211) is formed. A blocking rod(220) is protruded upwardly from the central unit of the joining unit. An outer nozzle(300) is elevated by the pressure of the contents, and opened and closed by the blocking rod. A fixing body(400) is joined to an inner side of the outflow unit while surrounding a part of the outer nozzle. A cavity is formed in the fixing body so that the outer nozzle is elevated. An elastic body(500) is positioned inside the fixing body while surrounding the outer nozzle, and moves the outer nozzle downwardly. A finish cap(600) is joined to an outer side of the outflow unit while surrounding the inner nozzle and the outer nozzle. A cylindrical seating unit(310) is formed into a piston structure touching an inner lateral wall surface of the fixing body. A content moving pipe(320) includes an outflow hole(321) opened and closed by the blocking rod. A seating protrusion(420) surrounds the outer periphery of the fixing body, and is seated on the top of the outflow unit. A fixing protrusion(430) is fixed to the inside of the outflow unit.

Description

Tube vessel that can block air inflow

The present invention relates to a tube container capable of blocking the inflow of air, and more particularly, by installing a nozzle which is opened by rising the pressure of the contents inside the discharge portion to open the nozzle only when the contents are discharged, the cap is opened. As the discharge hole of the nozzle remains closed as long as the contents are not discharged even in the state, the air inlet blocking tube can be prevented from blocking the inflow of air through the discharge hole to prevent the deterioration of the contents. It's about courage.

In general, the tube container is a tube body that the contents are accommodated, the tube neck is coupled to the upper portion of the tube body to support the tube body and the discharge hole is formed to discharge the contents contained in the tube body, and to be detachable from the tube neck Combined with a cap for opening and closing the discharge hole.

The tube container as described above is used to discharge the contents through the discharge hole by pressing the tube body after removing the cap from the tube body by opening the cap, the discharge hole is always exposed to the outside when the cap is open Since the structure, the air is introduced into the tube body through the discharge hole has a problem that the contents are deteriorated.

In addition, when applying the contents directly to the affected area by pressing the tube body is mixed with the contents of the discharge of contaminants in the wound area, when the application of the contents after the release of the pressure on the tube body, the tube body The contents are sucked by the internal pressure of the contaminants, and the contaminants mixed with the contents are fixed to the inner wall of the discharge hole or introduced into the tube body, thereby causing a change in the contents.

The present invention has been made to solve the above-described problems, an object of the present invention is to install a nozzle that is open by rising the pressure of the contents inside the discharge portion to open the nozzle only when the contents are discharged, the cap is opened As the discharge hole of the nozzle remains closed as long as the contents are not discharged even in the state, the air inlet blocking tube can be prevented from blocking the inflow of air through the discharge hole to prevent the deterioration of the contents. To provide courage.

In addition, the external nozzle is raised and lowered to prevent the contents remaining in the discharge hole from being discharged to the outside and re-sucking the contents, so that the contents contaminated by applying the contents directly to the affected part are fixed in the nozzle or the tube. Since it is possible to block the inflow into the body, it is to provide a tube container capable of blocking the inflow of air to prevent the deterioration of the contents.

In order to solve the above problems, the tube container capable of blocking the air inflow according to the present invention includes a tube body in which a discharge part is formed so that the contents are accommodated and the contents are discharged thereon; An inner nozzle including a coupling part inserted into the discharge part and having a contents inlet hole communicating with the discharge part, and a blocking rod protruding upward from a central part of the coupling part; An outer nozzle which surrounds the blocking rod and is seated on the upper end of the coupling part to be lifted and lowered by the pressure of the contents, and opened and closed by the blocking rod; A fixed body surrounding a portion of the outer nozzle and coupled to an inner side of the discharge part, wherein a hollow is formed to allow the outer nozzle to move up and down; An elastic body positioned to surround the outer nozzle inside the fixing body to lower the outer nozzle; And a closing cap surrounding the inner nozzle and the outer nozzle and coupled to an outer side of the discharge part.

In addition, the outer nozzle has a cylindrical seating portion formed in a piston structure in which the front end portion and the end portion are in contact with the inner wall surface of the fixture, and extends upwardly from the seating portion to form a passage through which the contents move and at the end of the outer nozzle. Characterized in that consisting of the contents moving tube is formed with a discharge hole that is opened and closed by the blocking rod.

In addition, the fixing body is formed with a seating jaw surrounding the outer circumferential surface of the fixing body and seated on the upper end of the fixing body, and a fixing protrusion is formed at the lower portion of the seating jaw to be fixed to the inside of the outlet.

In addition, the upper end of the fixing body is characterized in that the elastic support jaw is formed surrounding the inner peripheral surface to support the elastic body.

In addition, the lower end of the inner nozzle is characterized in that the blocking projection to block the contents moving through the discharge portion to the outside of the inner nozzle is formed.

In addition, the inner upper portion of the closing cap is characterized in that the pressing projection for pressing the outer nozzle is formed.

In addition, the inside of the closing cap is characterized in that the coupling limiting projection is formed on the seating jaw of the fixture when the discharge portion and the screw coupling is formed to limit the screw coupling.

As described above, according to the present invention, the nozzle is opened inside the discharge part by the pressure of the contents so that the nozzle is opened only when the contents are discharged, so that the contents are not discharged even when the cap is opened. Since the discharge hole of the to maintain a closed state, there is an advantage that can prevent the deterioration of the contents by blocking the flow of air into the inside of the tube body through the discharge hole.

In addition, the external nozzle is raised and lowered to prevent the contents remaining in the discharge hole from being discharged to the outside and re-sucking the contents, so that the contents contaminated by applying the contents directly to the affected part are fixed in the nozzle or the tube. Since it is possible to block the flow into the body, there is an advantage that can prevent the deterioration of the contents.

1 is a perspective view showing the configuration of the tube container capable of blocking the air inflow in accordance with a preferred embodiment of the present invention,
Figure 2 is an exploded perspective view showing the configuration of the tube container capable of blocking the air inflow in accordance with a preferred embodiment of the present invention,
Figure 3 is a cross-sectional view showing the configuration of the tube container capable of blocking the inflow of air in accordance with a preferred embodiment of the present invention,
Figure 4 is a state diagram showing the operating state of the tube container capable of blocking the air inlet in accordance with a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference symbols in the drawings denote like elements.

1 is an exploded perspective view showing a configuration of a tube container capable of blocking the inflow of air according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing the configuration of a tube container capable of blocking the inflow of air in accordance with a preferred embodiment of the present invention to be.

3 is a cross-sectional view showing the configuration of the tube container capable of blocking the inflow of air according to a preferred embodiment of the present invention, Figure 4 is a state diagram showing the operating state of the tube container capable of blocking the inflow of air in accordance with a preferred embodiment of the present invention. .

1 to 4, a tube container capable of blocking air inflow according to a preferred embodiment of the present invention, the tube body 100, the inner nozzle 200, the outer nozzle 300, the fixed body 400, the elastic body ( 500), the closing cap 600 is included.

The tube body 100 is the contents are accommodated, and the discharge portion 110 is coupled to allow the contents to be discharged thereon, the outer circumferential surface of the discharge portion 110 is screwed with the closing cap 600 to be described later The first screw thread 111 is formed to be possible.

The inner nozzle 200 is inserted into the discharge unit 110 to guide the movement of the contents moving through the discharge unit 110, opening and closing the outer nozzle 300 to be described later, coupling portion 210 ), The blocking rod 220.

The coupling unit 210 is inserted into the discharge unit 110 to guide the movement of the contents moving through the discharge unit 110, the inflow of the contents discharged through the discharge unit 110 is possible. The content inlet hole 211 is formed in communication with the discharge portion 110 in the upper portion. The contents inlet hole 211 is spaced apart at regular intervals by a plurality of extensions 212 extending from the inner circumferential surface of the coupling portion 210 to the center portion is formed a plurality.

On the other hand, the outer peripheral surface of the coupling portion 210 is preferably a coupling protrusion 213 is formed to be coupled to the coupling groove 450 of the fixed body 400 to be described later.

In addition, the lower end of the coupling portion 210 has a blocking projection 214 abuts on the inner bottom of the discharge unit 110 to block the contents moving through the discharge unit 110 to leak out of the inner nozzle (200). It is good to be formed.

The blocking rod 220 is formed to protrude upward from the center of the coupling portion 210 that the plurality of extension portions 212 abuts, discharge of the outer nozzle 300 in accordance with the lifting and lowering movement of the outer nozzle 300 The hole 321 is opened and closed.

Protruding portion 221 protruding to the outside of the outer nozzle 300 to prevent the contents fixed to the space formed by the blocking rod 220 and the discharge hole 321 of the outer nozzle 300 at the end of the blocking rod 220. Is preferably formed.

Since the protruding portion 221 is formed in the blocking rod 220, it is possible to easily identify the nozzle opening and closing according to the movement of the nozzle from the outside.

The outer nozzle 300 wraps around the blocking rod 220 and is seated on the upper end of the coupling part 210 to be lifted and lowered by the pressure of the contents, and opened and closed by the blocking rod, and the seating part 310 and the contents moving tube 320. ).

The seating portion 310 is mounted on the upper end of the coupling portion 210 of the inner nozzle 200 to support the elastic body 500 to be described later, by supporting the lower end of the elastic body 500 surrounding the contents moving tube 320 When the external nozzle 300 rises due to the discharge of the contents, the elastic body 500 is pressed to contract the elastic body 500. When the discharge of the contents is finished, the external nozzle 300 is released by the elastic force of the elastic body 500. Will be lowered.

In the present invention, the seating portion 310 is made of a cylindrical shape, characterized in that the outer circumferential surface upper end and the lower end is formed in a piston structure in contact with the inner wall surface of the fixing body 400, thereby, the outer nozzle 300 It is possible not only to allow the contents to be discharged constantly by preventing shaking during the ascent and descending, and to prevent the contents from leaking along the inner wall of the fixing member 400.

The contents moving tube 320 extends upward from the seating portion 310 to form a passage to allow the movement of the contents introduced through the contents inlet hole 211 of the inner nozzle 200, A discharge hole 321 is opened and closed by the blocking rod 220 at an end thereof so that the contents can be discharged to the outside.

The fixed body 400 is formed in a cylindrical shape surrounding the portion of the outer nozzle 300 and coupled to the inside of the discharge unit 110, the lifting and lowering of the outer nozzle 300 moving according to whether the contents are discharged A hollow 410 is formed to be possible, and a seating jaw 420 is formed surrounding the outer circumferential surface to be seated on the top of the discharge part 110.

In the present invention, a fixing protrusion 430 is formed at a lower portion of the seating jaw 420 to be fixed to the fixing groove 112 of the discharge part 110, wherein the inner nozzle 200 and the outer nozzle are formed. 300, the fixed body 400 and the elastic body 500 is integrally modularized, and then coupled to the fixing groove 112 formed in the discharge part 110 through the fixing protrusion 430, the tube container simply It is possible to install the nozzle to block the inflow of air into the tube body 100 in the state that the closing cap 600 is open.

On the other hand, the upper end of the fixing member 400, the upper end is bent inwardly in order to be able to support the elastic body 500 to be described later is characterized in that the elastic support jaw 440 is formed to surround the inner circumferential surface, the elastic support The jaw 440 supports the upper end of the elastic body 500 during the upward movement of the outer nozzle 300 to enable the elastic body 500 to contract.

In addition, it is preferable that a coupling groove 450 corresponding to the coupling protrusion 210 is formed on the inner side of the fixing body 400 so as to be coupled to the inner nozzle 200.

The elastic body 500 is positioned to surround the outer nozzle 300 inside the fixing body 400 to lower the outer nozzle 300, and one side is seated on the seating part 310 of the outer nozzle 300. The other side is configured to contact the elastic support jaw 440 of the fixed body 400.

The elastic body 500 is contracted according to the movement of the outer nozzle 300 that rises by the pressure of the contents when the tube body 100 is pressurized, and is relaxed when the pressure of the tube body 100 is released, and the outer nozzle 300 The outer nozzle 300 is lowered by providing an elastic force to the seating portion 310 of the).

The closing cap 600 is wrapped around the inner nozzle 200 and the outer nozzle 300 and screwed to the outside of the discharge unit 110, the first screw thread on the inner circumferential surface to be screwed with the discharge unit 110 A second screw thread 640 which is screwed with the 111 is formed.

In the present invention, a pressing protrusion 610 for pressing the outer nozzle 300 is formed on the inner upper portion of the closing cap 600, the pressing projection 610 of the outer nozzle 300 By limiting the rise of the outer nozzle 300 by pressing the upper end, even if the tube body 100 is pressed in a state where the closing cap 600 is closed, the contents are blocked from being discharged. As a result, it is possible to prevent the contents from being consumed unnecessarily, and to prevent the inside of the closing cap 600 from being contaminated by the leakage of the contents.

On the other hand, the inner side of the closing cap 600 is coupled to the discharge portion 110 when the screw is coupled to the seating jaw 420 of the fixing body 400 is bound binding protrusion 620 is formed to limit the screw coupling is formed; Characterized in that, when the closing cap 600 is forcibly rotated to couple to the discharge unit 110, by the pressure of the pressing projection 610, the outer nozzle 300 is too inward to enter the inner nozzle 200 Problems such as pinching occurs, the binding limiting projection 620 provided on the inside of the closing cap 600 abuts the seating jaw 420 and by limiting the screw coupling of the closing cap 600, the nozzle This can prevent malfunction.

On the other hand, the outer circumferential surface of the closing cap 600 is preferably a non-slip projection 630 is formed to facilitate screwing and disassembly of the discharge portion 110.

Hereinafter, with reference to Figure 4 will be described the operation of the tube container capable of blocking the air inlet in accordance with a preferred embodiment of the present invention.

Figure 4 is a state diagram showing the operating state of the tube container capable of blocking the air inlet in accordance with a preferred embodiment of the present invention. Referring to FIG. 4, the tube container capable of blocking the air inflow according to the preferred embodiment of the present invention, first, the discharge hole 321 of the outer nozzle 300 is closed by the blocking rod 220 of the inner nozzle 200. When the tube body 100 is pressurized in the closed state, the contents are moved upward through the discharge part 110, and the contents moving through the discharge part 110 are external nozzles through the content inlet hole 211. The contents of the 300 are introduced into the moving tube 320.

As described above, pressure is applied to the outer nozzle 300 by the contents moving in the process of introducing the contents into the contents moving tube 320, and the external nozzle 300 is raised by the contents pressure. When the outer nozzle 300 is raised, the opening of the discharge hole 321 closed by the blocking rod 220 of the inner nozzle 200 is made, and thus, the contents to the outside through the discharge hole 321. Will be discharged.

On the other hand, when the user releases the pressure of the tube body 100, the movement of the contents is stopped, at this time, the elastic body 500 that was contracted by the upward movement of the outer nozzle 300 is relaxed and the outer nozzle 300 The elastic force is provided so that the outer nozzle 300 is lowered. When the outer nozzle 300 is lowered, the discharge hole 321 is closed by the blocking rod 220 of the inner nozzle 200 to block the contents from being discharged.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: tube body 110:
111: first thread 112: fixing groove
200: inner nozzle 210: coupling portion
211: contents inlet hole 212: extension part
213: engaging protrusion 214: blocking protrusion
220: blocking rod 221: protrusion
300: outer nozzle 310: seating portion
320: contents moving pipe 321: discharge hole
400: fixed body 410: hollow
420: seating jaw 430: fixing protrusion
440: elastic support jaw 450: coupling groove
500: elastomer 600: finishing cap
610: pressure projection 620: binding limiting projection
630: non-slip protrusion 640: second screw thread

Claims (7)

A tube body in which the contents are accommodated but the discharge part is formed so that the contents are discharged thereon;
An inner nozzle including a coupling part inserted into the discharge part and having a contents inlet hole communicating with the discharge part, and a blocking rod protruding upward from a central part of the coupling part;
An outer nozzle which surrounds the blocking rod and is seated on the upper end of the coupling part to be lifted and lowered by the pressure of the contents, and opened and closed by the blocking rod;
A fixed body surrounding a portion of the outer nozzle and coupled to an inner side of the discharge part, wherein a hollow is formed to allow the outer nozzle to move up and down;
An elastic body positioned to surround the outer nozzle inside the fixing body to lower the outer nozzle; And
Wrapping the inner nozzle and the outer nozzle and the closing cap coupled to the outside of the discharge portion; tube container capable of blocking the air inlet comprising a. The method according to claim 1,
The outer nozzle has a cylindrical seating portion formed in a piston structure in which an upper end portion and a lower end portion of the outer circumferential surface contact the inner wall surface of the fixture, and extends upwardly from the seating portion to form a passage through which the contents move, and the blocking rod at its end. Tube container capable of blocking the air inlet, characterized in that consisting of the contents moving tube is formed by the discharge hole is opened and closed by. The method according to claim 1,
The fixing member is formed with a seating jaw surrounding the outer circumferential surface of the fixing body and seated on the upper end of the fixing unit, and a lowering jaw is provided with a fixing protrusion to be fixed to the inside of the outlet. Tube container available. The method according to claim 1,
A tube container capable of blocking the inflow of air, characterized in that the upper end of the fixing body surrounds the inner circumferential surface to support the elastic body and an elastic support jaw is formed. The method according to claim 1,
The lower end of the inner nozzle is a tube container capable of blocking the air inlet, characterized in that the blocking projection to block the contents moving through the discharge to the outside of the inner nozzle is formed. The method according to claim 1,
An inner upper portion of the closing cap is a tube container capable of blocking the air inlet, characterized in that the pressing projection for pressing the outer nozzle is formed. The method according to claim 3,
The inner side of the closing cap is a tube container capable of blocking the air inlet, characterized in that the coupling is formed on the seating jaw of the fixing body when the screw and the discharge portion is coupled to limit the screw coupling.

Images