KR20180019352A - A vacuum pump for the airtight container, and an airtight container having the same - Google Patents

Abstract

The present invention relates to a vacuum pump for an airtight container and an airtight container having the same. The airtight container comprises: a container having an internal storage space portion, a cylinder formed on an upper surface to extend in a vertical direction, an accommodation space portion formed on the inside of the cylinder to have an upper side opened, a bottom plate formed on a lower end portion of the cylinder to divide the accommodation space portion, and a vent hole formed to penetrate the bottom plate such that the storage space portion and the accommodation space portion communicate with each other; and a vacuum pump coupled to the accommodation space portion. The vacuum pump comprises: a fixing member coupled to an upper portion of the accommodation space portion and having an insertion hole formed to penetrate a center thereof in a vertical direction; a piston member having a load inserted into the insertion hole to be able to glide in a vertical direction and a head formed on a lower end portion of the load to be in contact with a lower inner circumferential surface of the cylinder; a push member coupled to an upper end portion of the load; and a compression spring interposed between the fixing member and the push member. In a state that the fixing member, the piston member, the push member and the compression spring are coupled with each other, the fixing member and the piston member are coupled to the container by being inserted into the accommodation space portion from an upper side of the container. According to the present invention, the vacuum pump and the container can be easily coupled with each other, and it is possible to form a high degree of vacuum in the container and to maintain the same for a long period of time.

Description

Technical Field [0001] The present invention relates to a vacuum pump for an airtight container, and an airtight container having the airtight container,

The present invention relates to a vacuum pump for discharging air inside a hermetically sealed container to the outside and a hermetically sealed container having the same.

As a technology related to a vacuum pump for a hermetically sealed container and a hermetically sealed container having the vacuum pump, a vacuum generating device and a vacuum container including the same are disclosed in Korean Patent Registration No. 10-1126772 (hereinafter referred to as "prior art" "Is presented.

In the prior art,

"A piston member formed in a container and disposed linearly movably in a housing portion having a first outlet, and having a second outlet formed therein,

An elastic member disposed inside the piston member,

A first valve plate disposed in the accommodating portion and opening / closing the first outlet,

A second valve plate disposed on the piston member and opening / closing the second outlet,

A detachment prevention plate provided in the accommodation portion and preventing the piston member from being detached, and

And a first valve plate pressurizing unit which is provided in the accommodating portion and which presses the first valve plate to block the first outlet when the piston member is lowered and is caught and fixed to the departure prevention plate, The present invention relates to a vacuum container including a vacuum container.

[Patent Document 1] Korean Registered Patent No. 10-1126772 (published on Mar. 29, 2012)

An object of the present invention is to provide a vacuum pump for a hermetically sealed container which is easy to be coupled with a container and can form and maintain a high degree of vacuum and a hermetically sealed container having the vacuum pump.

According to an aspect of the present invention, there is provided a vacuum pump for a sealed container,

A bottom plate formed at a lower end of the cylinder so as to partition the storage space and the accommodation space, and a bottom plate formed at a lower end of the cylinder so as to partition the storage space and the accommodation space, And a container having a vent hole formed through the bottom plate so as to overlap the storage space portion and the accommodation space portion,

A fixing member coupled to an upper portion of the accommodation space and having an insertion hole formed vertically through the center;

A piston inserted into the insertion hole so as to be slidable up and down, and a head formed at a lower end of the rod and in contact with a lower inner circumferential surface of the cylinder;

A push member coupled to an upper end of the rod; And

And a compression spring interposed between the fixing member and the push member,

And the fixing member and the piston member are coupled to the container by inserting the fixing member and the piston member from the upper side of the container into the accommodation space portion, with the fixing member, the piston member, the push member and the compression spring being mutually engaged.

INDUSTRIAL APPLICABILITY The vacuum pump for a sealed container according to the present invention is easy to be coupled with a container, has an effect of forming and maintaining a high degree of vacuum, and thus can be easily manufactured, and can provide an airtight container .

1 is a perspective view of an airtight container according to an embodiment of the present invention;
2 is a sectional view of a closed container according to an embodiment of the present invention;
3 is an exploded perspective view of a closed container according to an embodiment of the present invention.
4 is a cross-sectional view showing a container and a vacuum pump separated from each other in a closed container according to an embodiment of the present invention.
5 to 7 are cross-sectional views illustrating a process of discharging air from a closed container according to an embodiment of the present invention.
8 is a sectional view of a closed container according to another embodiment of the present invention.
9 is an exploded perspective view of a closed container according to another embodiment of the present invention.
10 is a sectional view showing a container and a vacuum pump separated from each other in a closed container according to another embodiment of the present invention.
11 to 13 are cross-sectional views illustrating the air discharge process of the closed container according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The closed container according to the embodiment of the present invention includes a container 100 and a vacuum pump P as shown in FIGS. 1 to 7, , A piston member (300), a push member (400), and a compression spring (500).

The container 100 includes a main body 101 and a cover 102 coupled to the main body 101. The container 100 includes an internal storage space 110, a cylinder 120 formed to extend vertically on the top surface, A bottom plate 140 formed at a lower end of the cylinder 120 so as to partition the storage space 110 and the accommodation space 130, And a vent hole 150 formed through the bottom plate 140 so that the housing 110 and the accommodation space 120 are communicated with each other.

As shown, the cylinder 120, the receiving space 130, the bottom plate 140, and the vent holes 150 of the container 100 are preferably formed in the lid 102, As shown in FIG.

A bottom valve member 170 for opening and closing the vent hole 150 is mounted on the bottom plate 140.

The lower valve member 170 is made of an elastomer such as silicone rubber or urethane rubber. A portion of the lower surface of the bottom plate member 170 is fixed to the bottom plate 140 and a portion of the bottom plate member 170 that is not fixed to the bottom plate 140 covers the top surface of the bottom plate 140, .

The lower valve member 170 is brought into close contact with the upper surface of the bottom plate 140 to close the vent hole 150 when the pressure of the storage space portion 110 is lower than the pressure of the accommodation space portion 130 When the pressure of the storage space part 110 is higher than the pressure of the accommodation space part 130, the part fixed to the bottom plate 140 is deformed upward to open the vent hole 150.

The vacuum pump P is installed in the housing space 130 of the container 100 and discharges the air in the storage space 110 to the outside. A push member 400 and a compression spring 500.

The fixing member 200 has a substantially cylindrical shape and is coupled to the upper portion of the accommodation space portion 130.

An insertion hole 210 through which the rod 310 of the piston member 300 is inserted is formed at the center of the fixing member 200.

The piston member 300 includes a rod 310 inserted into the insertion hole 210 of the fixing member 200 so as to be vertically slidable and a rod 310 formed at the lower end of the rod 310 to be in contact with the lower inner peripheral surface of the accommodation space portion 130 (Not shown).

The rod 310 is formed in a circular rod shape and has a male thread for engagement with the push member 400 at its upper end.

The head 320 is formed in a shape having an enlarged sectional area along the outer peripheral surface of the lower end of the rod 310 and includes a lower flange 321 protruding from the lower end of the rod 310 around the outer periphery, A flange 322, and a packing 323 coupled to the lower flange 321 to appreciate it.

The packing 323 includes a bottom portion 323a surrounding a bottom surface of the lower flange 321 and a side wall portion 323b protruding upward along the periphery of the bottom portion 323a and surrounding the outer peripheral surface of the lower flange 321, An engaging portion 323c protruding from the upper end of the side wall portion 323b along the inner circumferential surface to enter between the lower flange 321 and the upper flange 322, 120 protruding upward to abut the inner circumferential surface of the protruding portion 323d.

The packing 323 is made of an elastomer material like the lower valve member 170. The packing 323 is formed so that the side wall portion 323b is in contact with the inner circumferential surface of the cylinder 120 and the space between the bottom portion 323a and the engaging portion 323c is smaller than the thickness of the lower flange 321 .

The packing 323 is normally in contact with the inner circumferential surface of the cylinder 120 as shown in FIG. 5 so as to block air flow between the upper and lower sides of the head 320. When the piston member 300 is lowered, as shown in FIG. 6, the upper flange 322 presses the upper surface of the latching portion 323c so that the side wall portion 323b is deformed inward, 323d are separated from the inner circumferential surface of the cylinder 120 so that the air on the upper side and the lower side of the head 320 can communicate with each other. The lower flange 321 lifts the lower surface of the engaging portion 323c so that the side wall portion 323b and the raised portion 323d are pressed toward the inner peripheral surface of the cylinder 120, The base 323d is more closely attached to the inner circumferential surface of the cylinder 120 so that the sealing force between the upper side and the lower side of the head 320 can be further increased.

The push member 400 is coupled to the upper end of the rod 310 and disposed so as to protrude upward from the cylinder 120 in a state in which the piston member 300 is lifted. Accordingly, the user can press the push member 400 protruding upward from the cylinder 120 to lower the piston member 300. [

The compression spring 500 is made of a known compression coil spring and is interposed between the fixing member 200 and the push member 400 to exert an elastic force in a direction in which the piston member 300 ascends.

Meanwhile, according to the embodiment of the present invention,

An engagement groove 160 is formed in the inner peripheral surface of the cylinder 120,

A locking protrusion 220 is formed on an outer circumferential surface of the fixing member 200 to enter the locking groove 160 when the fixing member 200 is inserted into the accommodation space 130.

The engaging groove 160 and the engaging protrusion 220 are preferably formed on the inner circumferential surface of the cylinder 120 and the outer circumferential surface of the fixing member 200, respectively.

The locking protrusion 220 has a thin wedge shape on the lower side and a thick upper side. The fixing member 200 has a structure in which the portions located on both sides of the locking protrusion 220 are cut up and down. According to this structure, when the holding member 200 is inserted into the receiving space 130, the portion where the holding protrusion 220 is formed is elastically deformed to the inside of the holding member 200, so that it can be easily inserted.

A support protrusion 180 is formed on an inner circumferential surface of the cylinder 120 so as to be in contact with a lower surface of the fixation member 200 in a state where the protrusion 220 enters the engagement recess 140. The support jaw 180 supports the fixing member 200 so that the fixing member 200 is further inserted into the lower portion of the accommodation space 130 in a state where the engagement protrusion 220 enters the engagement groove 140 .

4, the fixing member 200, the piston member 300, the push member 400, and the compression spring 500, which constitute the vacuum pump P, The vacuum pump P can be easily inserted into the container 100 by inserting the fixing member 200 and the piston member 300 into the accommodation space 120 from above the container 100 in a state where the vacuum pump P Can be combined. According to this, the assembling operation of the hermetically sealed container is modularized, thereby facilitating the production and improving the productivity.

The structure of the latching groove 160 and the latching protrusion 220 described above is an example of a coupling structure between the container 100 and the vacuum pump P. In the present invention, P may be coupled to each other in various structures within a range in which the vacuum pump P is inserted and fixed from the upper side of the container 100 to the accommodation space portion 130.

For example, a male screw is formed on the outer circumferential surface of the fixing member 200 and a female screw is formed on the inner circumferential surface of the cylinder 120, as shown in FIGS. 8 'to 13' ) May be screwed together.

Hereinafter, the air discharge process of the closed container according to the embodiment of the present invention constructed as above will be described with reference to FIGS. 5 to 7. FIG.

First, as shown in FIG. 5, when the push member 400 is pressed while the container 100 is in a closed state, the compression spring 500 is compressed and deformed as shown in FIG. 6, 400 and the piston member 300 are lowered.

At this time, the lower valve member 170 maintains the closed state of the vent hole 150 as the pressure of the lower receiving space 130 of the head 320 rises, The air that has flowed through the gap between the packing 323 and the cylinder 120 moves to the upper receiving space 130 of the head 320. [

Thereafter, when the pressure applied to the push member 400 is released, the pushing member 400 and the piston member 300 are raised as the compression spring 500, which has been compressively deformed, is restored as shown in FIG. 7 do.

At this time, as the side wall portion 323b of the packing 323 and the protruding portion 323d are pressed toward the inner circumferential surface of the cylinder 120, the gap between the upper accommodating space portion 130 of the head 320 and the lower accommodating space portion 130 The air in the upper housing space 130 of the head 320 is blocked by the gap between the cylinder 120 and the fixing member 200 and the gap between the fixing member 200 and the rod 310 And is discharged to the outside.

A negative pressure is generated in the lower receiving space 130 of the head 320 as the head 320 is lifted so that the pressure of the lower receiving space 130 of the head 320 is maintained The lower valve member 170 opens the vent hole 150 so that the air in the storage space 110 escapes into the accommodation space 130. As a result,

As a result, the user can discharge the air in the storage space portion 110 to the outside of the container 100 by repeating the operation of pumping and releasing the push member 400, that is, the pumping operation.

When the pressure of the storage space part 110 is lowered to some extent during the repetition of the pumping operation, the pushing member 400 is moved by the negative pressure of the storage space part 110 and the lower storage space part 130 of the head 320, The push member 400 and the piston member 300 in the lowered state are moved upward when the air is introduced into the storage space part 110, The air is discharged to the accommodation space part 130, so that the negative pressure in the storage space part 110 can be kept constant for a long period of time.

The user can confirm the pressure state of the storage space part 110 by observing the height of the push member 400. When the push member 400 is lifted up, You can recover it.

The piston member 300 is exposed to the upper side of the cylinder 120 while the piston member 300 is lifted and the piston member 300 is moved to the inside of the cylinder 120 in a state where the piston member 300 is lowered An identification part 410 to be concealed can be formed.

The identification unit 410 may be made of complementary colors of colors of the push member 400 and the cylinder 120 or may be made of a color that is conspicuous to the user's eyes so that the user can adjust the height of the push member 400 So that it can be easily observed.

The closed container of the present invention may further include a cap 700 mounted on the container 100 so as to surround the outer circumferential surface of the cylinder 120 and the lower surface of the bottom plate 140.

The cap 700 has a cylindrical shape with an open top, and has a plurality of protrusions 710 arranged at equal intervals along the inner circumferential surface. The cap 700 covers the cylinder 120 and the bottom plate 140 so that the air located at the upper end of the storage space 110 flows into the space between the cap 700 and the cylinder 120, As shown in FIG.

Therefore, the cap 700 prevents the liquid or powder-like substance close to the bottom surface of the bottom plate 140 from being sucked into the accommodation space 130 through the vent hole 150.

Hereinafter, a closed container according to another embodiment of the present invention will be described with reference to FIGS. 8 to 13, and the same constituent elements as those of the previously described embodiment are denoted by the same reference numerals, Is omitted.

As shown in FIGS. 8 to 13, the closed container according to another embodiment of the present invention includes:

The head 320 of the piston member 300 is fixed to the lower end of the rod 310 by a flange 324 protruding along the outer circumferential surface of the rod 310 and an O- (O-ring) 325. The O-

The piston member 300 is provided with a rod 310 and an exhaust port 330 penetrating the center of the head 320. Between the rod 310 and the push member 400 coupled to each other, And an upper valve member 600 for opening and closing the exhaust port 330 is inserted into the insertion space S.

As a result, the closed container according to another embodiment of the present invention always keeps the head 320 of the piston member 300 in contact with the inner circumferential surface of the accommodation space portion 130 by the O-ring 325, 320 can be discharged to the outside only through the exhaust port 330.

The upper valve member 600 is made of an elastomer material in the same manner as the lower valve member 170. The outer circumferential surface of the upper valve member 600 has a structure capable of air circulation between the inner surface of the insertion space S and the inner circumferential surface. Such a structure can be achieved by manufacturing the outer circumferential surface of the upper valve member 600 with a diameter slightly smaller than the inner circumferential surface of the insertion space S or by forming grooves extending vertically on the outer circumferential surface of the upper valve member 600. [

12, the upper valve member 600 is moved upward by the pressure of the lower receiving space 130 of the head 320 when the pushing member 400 is pressed, The air in the lower part of the head 320 passes through the exhaust port 330 and then is discharged to the outside through the gap between the push member 400 and the rod 310 I will.

At this time, in order to allow air to easily escape from between the push member 400 and the rod 310, a groove (340, see FIG. 9 ') in the form of a vertical crossing of the male screw is formed at the upper end of the rod 310 .

When the pressure applied to the push member 400 is released, the push member 400 and the piston member 300 are lifted as the compression spring 500, which has been compressively deformed as shown in FIG. 13, is restored The upper valve member 600 is brought into close contact with the bottom of the insertion space portion S by the negative pressure generated in the lower receiving space portion 130 of the head 320 to close the vent hole 330, The lower receiving space portion 130 of the upper case 100 can maintain the negative pressure.

As a result, the closed container according to another embodiment of the present invention configured as described above pumping the push member 400 until the push member 400 maintains the lowered state, as in the previously described embodiment, The air in the portion 110 can be discharged to the outside of the container 100 and the negative pressure in the storage space portion 110 can be maintained.

As shown in FIG. 10, the fixing member 200, the piston member 300, the push member 400, and the compression spring 500 constituting the vacuum pump P are combined to form a single assembly The vacuum pump P can be easily coupled to the container 100 by inserting the fixing member 200 and the piston member 300 from the upper side of the container 100 into the accommodation space 120. [

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the described embodiments, but various changes and modifications may be made by those skilled in the art Such variations and modifications are to be construed as being within the scope of protection of the present invention.

P: Vacuum pump
S: insertion space part
100: container
110: storage space part 120: cylinder
130: accommodating space part 140: bottom plate
150: vent hole 160: latching groove
170: lower valve member 180:
200: Fixing member
210: insertion hole 220:
300: piston member
310: Load
320: Head
321: Lower flange 322: Upper flange
323: packing 324: flange
325: O ring
330: Exhaust
340: Needle groove
400: push member
410:
500: Compression spring
600: upper valve member
700: cap
710:

Claims (7)

A cylinder 120 formed to extend upward and downward on an upper surface of the cylinder 120; a housing space 130 formed to be opened upward in the cylinder 120; A bottom plate 140 formed at a lower end of the cylinder 120 to partition the space 130 and a bottom plate 140 penetrating the bottom plate 140 such that the storage space 110 and the accommodation space 120 are in communication with each other. Is mounted on a container (100) having a vent hole (150) formed therein,
A fixing member 200 coupled to an upper portion of the accommodation space 130 and having an insertion hole 210 formed vertically through the center thereof;
A rod 310 inserted into the insertion hole 210 so as to be vertically slidable and a piston 320 formed at a lower end of the rod 310 and having a head 320 contacted with a lower inner circumferential surface of the cylinder 120 );
A push member 400 coupled to an upper end of the rod 310; And
And a compression spring (500) interposed between the fixing member (200) and the push member (400)
The fixing member 200 and the piston member 300 are inserted into the container 100 in a state where the fixing member 200, the piston member 300, the push member 400 and the compression spring 500 are coupled to each other, Is coupled to the container (100) by being inserted into the accommodation space (120) from the upper side of the container (100).
The method according to claim 1,
The head (320) of the piston member (300)
A lower flange 321 and an upper flange 322 protruding from the lower end of the rod 310 around the outer circumferential surface and spaced apart from each other; And
And a packing (323) coupled to surround the lower flange (321)

The packing (323)
A bottom portion 323a surrounding a lower surface of the lower flange 321;
A side wall portion 323b protruding upward along the periphery of the bottom portion 323a and surrounding the outer peripheral surface of the lower flange 321;
An engaging portion 323c protruding from the upper end of the side wall portion 323b along the inner circumferential surface to enter between the lower flange 321 and the upper flange 322; And
And a ridge portion (323d) formed at an upper end of the side wall portion (323b) and projecting obliquely upward so as to contact the inner circumferential surface of the cylinder (120).
The method according to claim 1,
The head (320) of the piston member (300)
A flange 324 protruding from the lower end of the rod 310 around the outer circumference; And
And an O-ring (325) fitted to the outer peripheral surface of the flange (324) so as to be in contact with the inner circumferential surface of the cylinder (120)

The piston member 300 is formed with an exhaust port 330 penetrating the rod 310 and the center of the head 320,
An insertion space S communicating with the exhaust port 330 is formed between the rod 310 and the push member 400 which are coupled to each other,
An upper valve member 600 for opening and closing the exhaust port 330 is inserted into the insertion space S,
The upper valve member 600 is inserted into the insertion space S so as to be lifted and lowered by the lowering operation of the piston member 300 to open the exhaust port 330. The piston member 300 And the exhaust port (330) is closed by the rising operation of the exhaust port (330).
A cylinder 120 formed to extend upward and downward on an upper surface of the cylinder 120; a housing space 130 formed to be opened upward in the cylinder 120; A bottom plate 140 formed at a lower end of the cylinder 120 to partition the space 130 and a bottom plate 140 penetrating the bottom plate 140 such that the storage space 110 and the accommodation space 120 are in communication with each other. A container (100) having a vent hole (150) formed therein; And
And a vacuum pump (P) mounted in the accommodation space part (130)

The vacuum pump (P)
A fixing member 200 coupled to an upper portion of the accommodation space 130 and having an insertion hole 210 formed vertically through the center thereof;
A rod 310 inserted into the insertion hole 210 so as to be vertically slidable and a piston 320 formed at a lower end of the rod 310 and having a head 320 contacted with a lower inner circumferential surface of the cylinder 120 );
A push member 400 coupled to an upper end of the rod 310; And
And a compression spring (500) interposed between the fixing member (200) and the push member (400)
The fixing member 200 and the piston member 300 are inserted into the container 100 in a state where the fixing member 200, the piston member 300, the push member 400 and the compression spring 500 are coupled to each other, Is inserted into the accommodating space (130) from the upper side of the container (100) to be connected to the container (100).
5. The method of claim 4,
An engaging groove 160 is formed in the inner peripheral surface of the cylinder 120,
Wherein a locking protrusion (220) protrudes from the outer circumferential surface of the fixing member (200) to enter the locking recess (160).
5. The method of claim 4,
Further comprising a cap (700) mounted on the container (100) so as to surround an outer circumferential surface of the cylinder (120) and a bottom surface of the bottom plate (140).
7. The method according to any one of claims 4 to 6,
The push member 400 is exposed to the upper side of the cylinder 120 in a state in which the piston member 300 is lifted and is concealed in the inner side of the cylinder 120 in a state in which the piston member 300 is lowered, And an identification part (410) formed on the upper surface of the housing part.

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