OUTLET PUMP VESSEL OF LIQUID CONTENT WHICH IS ABLE TO INTERCEPT AIR

Abstract

Disclosed is an outlet pump vessel of a liquid content which is able to intercept the air, including a sealing nozzle having an inlet through which the liquid content is discharged during operation of the push button and the inlet of the sealed nozzle is closed during non-operation of the push button by inserting the sealed nozzle into an outlet of the liquid content of the push button to prevent the liquid content of cosmetics remaining on a transfer passage from being oxidized or deteriorated due to contact with the air and the liquid content on a discharge port side from being solidified and hardened.

Claims

1. An outlet pump vessel of a liquid content which is able to intercept the air, comprising: an outer vessel 2 containing an inner vessel 1 therein; a pump body 10 as a member of which an upper part screw-coupled to an upper opening of the outer vessel 2 having multiple steps formed on an outer circumferential surface and having a latching step 11 formed on a lower end of an inner circumferential surface thereof; a cylinder 20 positioned inside the pump body 10 and in which an outer flange 21 is supported on an upper inlet la of the inner vessel 1; and an elevating device 30 which ascends and descends from the inner circumferential surface of the cylinder 20 by a pushing operation of a push button 40, wherein in the push button 40 as a cylindrical member whose upper part is closed, an inner hole 41 which is in communication with the elevating rod 33 with the upper and lower parts opened, a side hole 42 which is in communication with one side of the upper part of the inner hole 42, the sealing nozzle 43 is inserted into the side hole 42, and a -shaped push member 44 is installed, which is inserted through an upper hole 43a of the sealing nozzle 43 to push the lower part of the sealing nozzle 43 by the pushing operation and open a slit 43b formed at the front.

2. The outlet pump vessel of claim 1, wherein one side of the sealing nozzle 43 is opened to be in communication with the inner hole 41 of the push button 40 and the other side protrudes to the outside of the push button 40 and has the slit 43b formed in a horizontal direction and an inner protrusion 43c which protrudes in a longitudinal direction and is pushed by the -shaped push member 44 to open the slit 43b is formed in a inner lower part of the sealing nozzle 43, and the -shaped push member 44 is constituted by a vertical tip 44a inserted into the sealing nozzle 43 and a horizontal push part 44b horizontally formed in the upper part of the vertical tip 44a and inserted into an upper surface groove of the push button 40.

3. The outlet pump vessel of claim 1, wherein one side of the sealing nozzle 43 is opened to be in communication with the inner hole 41 of the push button 40 and the other side protrudes to the outside of the push button 40 and has the slit 43b formed in a horizontal direction and an inner protrusion 43c which protrudes in a longitudinal direction and is pushed by the -shaped push member 44 to open the slit 43b is formed in a inner lower part of the sealing nozzle 43, and the -shaped push member 44 is constituted by a -shaped vertical tip 44c inserted into the sealing nozzle 43 and a horizontal push part 44d horizontally formed on the upper end of the -shaped vertical tip 44c and inserted into the upper surface groove of the push button 40.

4. The outlet pump vessel of claim 1, wherein the push button 40 further includes a horizontal rib 45 formed in such a manner that the lower surface of the sealing nozzle 43 is inserted into the lower surface of the side hole 42.

5. The outlet pump vessel of claim 4, wherein one side of the sealing nozzle 43 is opened to be in communication with the inner hole 41 of the push button 40 and the other side protrudes to the outside of the push button 40 and has the slit 43b formed in a horizontal direction and an inner protrusion 43c which protrudes in a longitudinal direction and is pushed by the -shaped push member 44 to open the slit 43b is formed in a inner lower part of the sealing nozzle 43, and the horizontal rib 45 is positioned above the inner protrusion 43c of the sealing nozzle 43 and pushed by the vertical tip 44a of the -shaped push member 44 to open the slit 43b of the sealing nozzle 43.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0018] FIG. 1 is a longitudinal cross-sectional view illustrating an outlet pump vessel of a liquid content which is able to intercept the air according to a first second exemplary embodiment of the present invention.

[0019] FIG. 2A is a side cross-sectional view illustrating a discharge nozzle of the outlet pump vessel of a liquid content according to the first second exemplary embodiment of the present invention before operation.

[0020] FIG. 2B is an external cross-sectional view illustrating the discharge nozzle of the outlet pump vessel of a liquid content according to the first second exemplary embodiment of the present invention before the operation.

[0021] FIG. 2C is a plan view illustrating the discharge nozzle of the outlet pump vessel of a liquid content according to the first second exemplary embodiment of the present invention.

[0022] FIG. 3A is a side cross-sectional view illustrating the discharge nozzle of the outlet pump vessel according to the first second exemplary embodiment of the present invention during the operation.

[0023] FIG. 3B is an external cross-sectional view illustrating the outlet pump vessel of a liquid content which is able to intercept the air according to the first second exemplary embodiment of the present invention before the operation.

[0024] FIG. 4 is a longitudinal cross-sectional view illustrating an outlet pump vessel of a liquid content which is able to intercept the air according to a second exemplary embodiment of the present invention.

[0025] FIG. 5 is a longitudinal cross-sectional view illustrating an outlet pump vessel of a liquid content which is able to intercept the air according to a third exemplary embodiment of the present invention.

[0026] FIG. 6 is a side cross-sectional view illustrating the discharge nozzle of the outlet pump vessel of a liquid content according to the third second exemplary embodiment of the present invention before the operation.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

[0027] Hereinafter, a preferable embodiment of the present invention will be described in detail with reference to the accompanying drawings. Moreover, in describing the present invention, a detailed description of related known configurations or functions may be omitted to avoid obscuring the subject matter of the present invention.

Exemplary Embodiments

[0028] As illustrated in FIGS. 1 to 3B, an outlet pump vessel of a liquid content which is able to intercept the air according to a first exemplary embodiment of the present invention includes an outer vessel 2 containing an inner vessel 1 therein, a pump body 10 as a member of which an upper part screw-coupled to an upper opening of the outer vessel 2 having multiple steps formed on an outer circumferential surface, a cylinder 20 positioned inside the pump body 10 and in which an outer flange 21 is supported on an upper inlet la of the inner vessel 1, and an elevating device 30 which ascends and descends from the inner circumferential surface of the cylinder 20 by a pushing operation of a push button 40.

[0029] A locking step 11 is formed on a lower end of the inner circumferential surface of the cylindrical pump body 10.

[0030] An annular packing 22 is inserted into, a cylindrical outer fixing member 23 of which an outer surface is locked to the locking step 11 formed on the inner circumference surface of the pump body 10 to fix the cylinder 20 while pushing an upper surface of the outer flange 21 is installed on, and an inner fixing member 24 which is formed in a cylindrical shape to fix the cylinder 20 while enclosing the upper circumference surface of the outer fixing member 23 and the upper inner circumference surface of the cylinder 20 is installed on a lower surface of the outer flange 21 of the cylinder 20 fastened to the pump body 10 so as to come into close contact with the upper inlet la of the inner vessel 1.

[0031] The elevating device 30 includes a cylindrical sealing piston 31 that is in close contact with the inner circumferential surface of the cylinder 20, an operation cylinder rod 32 coupled to the inner circumferential surface of the sealing piston 31, an elevating rod 33 of which the lower end is coupled to an upper outer circumference surface of the operation cylinder rod 32 and the upper end is coupled to the push button 40, and a cylinder spring 34 installed between the lower end of an outer flange 33a of the elevating rod 33 and the upper surface of the inner fixing member 24 and compressed and expanded according to the pushing operation of the push button 40.

[0032] In the push button 40 as a cylindrical member whose upper part is closed, an inner hole 41 which is in communication with the elevating rod 33 with the upper and lower parts opened, a side hole 42 which is in communication with one side of the upper part of the inner hole 42, the sealing nozzle 43 is inserted into the side hole 42, and a -shaped push member 44 is installed, which is inserted through an upper hole 43a of the sealing nozzle 43 to push the lower part of the sealing nozzle 43 by the pushing operation and open a slit 43b formed at the front.

[0033] One side of the sealing nozzle 43 is opened to be in communication with the inner hole 41 of the push button 40 and the other side protrudes to the outside of the push button 40 and has the slit 43b formed in a horizontal direction and an inner protrusion 43c which protrudes in a longitudinal direction and is pushed by the -shaped push member 44 to open the slit 43b is formed in a inner lower part of the sealing nozzle 43.

[0034] When the sealing nozzle 43 as a flexible member is pushed by the -shaped push member 44, the slit 43b is widened and opened, but when pushing force is released, the slit 43b is sealed.

[0035] The -shaped push member 44 is constituted by a vertical tip 44a inserted into the sealing nozzle 43 and a horizontal push part 44b horizontally formed in the upper part of the vertical tip 44a and inserted into an upper surface groove of the push button 40.

[0036] A check valve 50 is inserted into the lower end of the cylinder 20. In the check valve 50 having a disk shape, a rim 51 is formed, which is in close contact with the inner circumferential surface of the cylinder 20, an opening/closing ball 52 that selectively opens/closes a liquid content inflow hole is formed at the center of the rim 51 via a flow plate 53 and multiple liquid content passages are formed, which enables the liquid contents which flow through the liquid content inflow hole of the cylinder 20 to flow into the upper part in the cylinder 20.

[0037] FIG. 4 is a longitudinal cross-sectional view illustrating an outlet pump vessel of a liquid content which is able to intercept the air according to a second exemplary embodiment of the present invention and in the second exemplary embodiment of the present invention, only -shaped push member 44 according to the first exemplary embodiment is a different part. That is, the -shaped push member 44 is constituted by a -shaped vertical tip 44c inserted into the sealing nozzle 43 and a horizontal push part 44d horizontally formed on the upper end of the -shaped vertical tip 44c and inserted into the upper surface groove of the push button 40.

[0038] FIG. 5 is a longitudinal cross-sectional view illustrating an outlet pump vessel of a liquid content which is able to intercept the air according to a third exemplary embodiment of the present invention and FIG. 6 is a side cross-sectional view illustrating the discharge nozzle of the outlet pump vessel of a liquid content according to the third second exemplary embodiment of the present invention before the operation.

[0039] As illustrated in FIGS. 5 and 6, the third exemplary embodiment is the same as the first and second exemplary embodiments and is different from the first and second exemplary embodiments only in an internal structure. That is, in the push button 40 as a cylindrical member whose upper part is closed, an inner hole 41 which is in communication with the elevating rod 33 with the upper and lower parts opened, a side hole 42 which is in communication with one side of the upper part of the inner hole 42, the sealed nozzle 43 is inserted into the side hole 42, a -shaped push member 44 is installed, which is inserted through an upper hole 43a of the sealed nozzle 43 to push the lower part of the sealed nozzle 43 by the pushing operation and open a slit 43b formed at the front, and a horizontal rib 45 is formed so that the lower surface of the sealing nozzle 43 is inserted into the lower surface of the side hole 42.

[0040] The horizontal rib 45 is positioned above the inner protrusion 43c of the sealing nozzle 43 and pushed by the vertical tip 44a of the -shaped push member 44 to open the slit 43b of the sealing nozzle 43.

[0041] Next, an action and an effect of the outlet pump vessel of the liquid content which is able to intercept the air configured as above will be described.

[0042] In order to use the outlet pump vessel of the liquid content, first, when a vessel lid 3 is removed, the push button 40 is pushed, and pushed together with the -shaped push member 44 which protrudes on the upper surface of the push button 40, the push button 40 descends and an actuating cylinder rod 32 descends in the cylinder 20 and while a space in the cylinder 20 is compressed, that is, reduced, the liquid content in the vessel introduced into the cylinder 20 through the check valve 50 and the introduced liquid content is sucked through the center of the actuating cylinder rod 32 and the -shaped push member 44 is pushed, and as a result, the lower end in the sealing nozzle 43 is pushed and the slit 43b is thus opened to discharge the liquid content to the slit 43b (see FIG. 3B).

[0043] In addition, when pushing of the push button 40 and the -shaped push member 44 is released, a cylindrical spring 34 is expanded and the push button 40 ascends and simultaneously, the vertical tip 44a of the -shaped push member 44 ascends and the slit 43b is closed, that is, upper and lower sides are in contact with each other to be sealed. The upper and lower sides are sealed to prevent the liquid contents of the cosmetics which remain on the transfer passage from being oxidized and deteriorated due to contact with the air or the liquid content at the discharge port from being solidified and hardened.

[0044] As described above, detailed exemplary embodiments have been described in the detailed description of the present invention, but a possibility that the technology of the present invention will be easily modified and executed by those skilled in the art is apparent and the modified exemplary embodiments will be included in the technical spirit disclosed in the appended claims of the present invention.