KR200403803Y1 - Airtight Vessel - Google Patents

Abstract

As the air inside is discharged to the outside, a sealed container in which a vacuum pressure is formed therein is provided.

The sealed container according to the present invention, the main body is formed to be concave so that the four sides are surrounded by the side wall to form an opening on the upper side; Deformed by the force applied by the user is made of a material having elasticity to be restored when the applied force is removed, coupled to the upper end of the side wall to cover the upper surface of the main body, one or more air inlet corresponding to the opening A cover formed on the; And, the air inside the main body can be discharged to the outside of the main body, the air outside the main body is configured to include a vacuum packing to open and close the air inlet so that it can not be introduced into the main body.

By using the sealed container according to the present invention, it is possible to more easily form a vacuum pressure inside the main body, more easily to release the vacuum pressure inside the main body, after the vacuum pressure is formed inside the main body outside air into the main body There is an advantage that can effectively prevent the inflow of.

Description

Airtight Vessel {Airtight Vessel}

The present invention relates to a hermetically sealed container, and more particularly, to a hermetically sealed container which seals the inside of a container by drawing air into the outside by drawing air into the outside.

In general, when food or cooked food is stored in a wrap or plastic paper and stored in a freezer, such as a refrigerator, such a storage method can be stored for a predetermined period of time, but in the long run the inside of the wrap or plastic paper Due to the air in the food and food is oxidized and decayed, there was a problem that it is difficult to store for a long time.

In addition, the conventional food container has a problem that can not be stored for a long time because the food in the container is easily deteriorated due to bacterial propagation as a structure to simply put the food in the storage container and only cover the lid.

In order to solve the above problem, a sealed container (Utility Model Registration No. 218773) has been proposed.

Hereinafter, a conventional sealed container will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a conventional hermetic container.

As shown in FIG. 1, the conventional hermetic container 1 includes a container body 3 and a lid 5 coupled to cover an opening of the container body 3, and the lid 5 has a periphery. A receiving groove 7 recessed from the inner plate surface along the direction to receive the opening end of the container body 3 is formed, and protrudes toward the inner side at the side of the receiving groove 7 facing the central region of the lid 5. Protruding portion 9 is formed along the circumferential direction of the lid (5), the packing 10 is attached to the inner surface of the protrusion 9, a portion of the protrusion bonded to the protruding portion 9 along the width direction.

In addition, a through hole penetrating the lid 5 is formed in the central region of the lid 5, and a sealing cap 15 for sealing the sealed container 1 is installed in the through hole. The edge portion is provided with a date display for displaying the food receiving time in the container (1), the sealing cap 15 is formed with a lid 17 and the cap knob 16, the lid ( A close contact portion 18 is formed at the lower portion of the contact hole 17 to be in close contact with the through hole, and a close contact release portion 19 having a predetermined distance from the through hole is formed at the lower portion of the close contact portion 18. The lower portion of the portion 19 is formed with a plurality of engaging wings 20 are disposed radially around the axis of the sealing cap 15.

In order to store food in a vacuum state using the conventional hermetic container 1, the edge of the container body 3 is accommodated in the receiving groove 7 in the state in which the food is accommodated in the container body 3 first. The lid 5 to the container body 3 so that the packing 10 of the lid 5 contacts the inner surface of the container body 3, and then presses the sealing cap 15 downward to seal the sealing body. The close contact portion 18 of the cap 15 is brought into close contact with the through hole.

At this time, when the sealing cap 15 is pressed downward, the air in the sealed container 1 is partially discharged through the space between the close contact release part 19 and the through hole at the same time, and the close contact part 18 The through-hole is in close contact with the container (1) is to be closed, on the contrary, when pulling the sealing cap 15 in order to open the closed container (1), the close contact portion 18 from the through-hole Spaced apart so that the close contact portion 19 and the through hole is parallel, so that as much air discharged into the space between the close contact release portion 19 and the through hole flows back into the sealed container 1 and the lid ( 5) is to be separated from the container body (3).

However, the conventional hermetic container 1 which discharges air by using the close contact portion 18 and the close contact release portion 19 formed on the closed cap 15 as described above is between the close contact portion 18 and the through hole. When the friction force is generated in the air discharge is not carried out, in order to discharge the air through the through-hole, the entire closed cap 15 must be spaced apart from the through-hole, there is a difficulty in air discharge. Therefore, since there is a possibility that air remains in the container, there is a problem that contents such as cooked food and the like may be oxidized due to the growth of bacteria due to the air in the container.

In addition, the conventional hermetic container (1) having the configuration as described above is attached to the sealing packing 10 for blocking external air to the container rim in contact with the lid (5), the packing (10) is a lid (5) It is in a state of being fitted in a separate fitting groove formed at the bottom of the) when the lid 5 is frequently detachable to the container (1) there is a problem that the packing 10 is easily separated from the lid (5) At the same time, the outer edge of the packing 10 is in a simple form, which has a disadvantage in that there is a limit to completely close the container.

The present invention is proposed to solve the above problems, it is possible to form a vacuum pressure inside the container by discharging the air inside the container more easily, and after the vacuum pressure is formed inside the container of the outside air It is an object to provide an airtight container that can effectively prevent the inflow, and configured to improve the sealing force between the body and the lid.

Hermetic container according to the present invention for achieving the above object,

A main body formed in a concave shape such that an opening is formed at one side;

The cover is made of a material having elasticity so as to be restored when the force applied by the user is deformed and restored when the applied force is removed, the cover is coupled to the main body to cover the opening, and at least one air inlet is formed at a portion corresponding to the opening. ; And,

A vacuum packing for opening and closing the air inlet and outlet so that the air inside the main body can be discharged to the outside of the main body, and the air outside the main body cannot be introduced into the main body;

It is configured to include.

The cover has a through hole formed in a position adjacent to the air inlet; The vacuum packing is made of a resilient material and is a holding plate seated on the outer surface of the cover to seal the through-hole and the air inlet, and the end is coupled to the sealing plate and the other end is coupled to pass through the through-hole And a fastening ring coupled to the other end of the support so that the support does not fall out of the through hole.

The closure plate is formed such that the end is sloped downward. In addition, the bottom surface of the sealing plate is further provided with a reinforcement bar protruding downward in a circular shape so that a horizontal cross section surrounds the periphery of the support stand.

In addition, the sealing plate is preferably formed in a thin thickness toward the end.

At this time, the air inlet is provided with two or more to form a radial around the through-hole.

The cover is provided with an air inlet groove formed long in the radial direction of the through hole around the through hole. At this time, two or more air inlet grooves are provided to form a radial shape with respect to the through hole.

At least one handle is formed on an outer surface of the closure plate.

One surface of the fastening ring corresponding to the inner surface of the cover is formed so that the edge portion is closer to the inner surface of the cover than the center portion.

The cover includes an airtight packing having a recessed recess formed upwardly in a portion engaged with the end of the opening, and having a pair of pressing plates inserted into the recess and extending upward along both sidewalls of the recess. It is composed.

At this time, the inlet groove is formed at the point between the pair of compression plate is formed with a guide projection protruding toward the sealing packing.

The cover is provided with a protrusion that is convexly outwardly convex in the center portion.

The main body is formed so that the reinforcing wings protruding outwardly surround the outer surface.

Hereinafter, an embodiment of a sealed container according to the present invention with reference to the accompanying drawings.

2 is an exploded perspective view of the sealed container according to the present invention, Figure 3 is a cross-sectional view taken along the line A-A shown in FIG.

As shown in Figures 2 and 3, the sealed container according to the present invention, the main body 100 is formed to be concave so that the four sides are surrounded by the side wall 102 and the opening is formed on the upper side; It is made of a material having elasticity so as to be restored when the applied force is deformed by the force applied by the user, such as a synthetic resin, and is coupled to the upper end of the side wall 102 to cover the top surface of the main body 100. A cover 200 formed at a portion corresponding to the opening 212 and at least one air inlet 214 positioned around the through hole 212; And, the air inside the main body 100 may be discharged to the outside of the main body 100, the vacuum packing to open and close the air inlet 214 so that the air outside the main body 100 can not be introduced into the main body 100 ( 300).

The vacuum packing 300 is seated on the outer surface of the cover 200 to cover the through-hole 212 and the air inlet 214 and the pressure of the air discharged to the outside of the main body 100 through the air inlet 214 A sealing plate 310 made of a material having elasticity to open the air inlet 214 by, and one end is coupled to the sealing plate 310 and the other end is coupled to the other end penetrates the through-hole 212 ( 320 and a holding ring 330 coupled to the other end of the holding stand 320 so that the holding stand 320 does not fall out of the through hole 212.

In addition, the concave shape so that the vacuum packing 300 can be stably seated on the upper surface of the cover 200 where the vacuum packing 300 is seated, that is, the through hole 212 and the air outlet 214 are formed. A seating unit 110 is provided.

When the user presses the outer surface of the cover 200, the center of the cover 200 is bent downward to be reduced to reduce the internal space of the main body 100, the main body 100 by the volume of the internal space of the reduced main body 100 The air inside is discharged to the outside of the main body 100 through the air inlet 214. When the discharge of the air through the air inlet 214 is completed, the sealing plate 310 covers the air inlet 214 to prevent the air from outside the main body 100 is introduced into the main body 100. When the air discharge operation is repeated several times, a vacuum pressure is formed inside the main body 100, and thus, the bonding force between the main body 100 and the cover 200 is strengthened, and the contents contained in the main body 100 leak out. Not only that, but also to prevent the corruption of the contents.

When the user presses the cover 200 with a large force, the side wall 102 of the main body 100 may be bent inward. When the side wall 102 is bent in this way, the main body 100 and the cover 200 may be bent. Since a gap may occur, the main body 100 is formed with a reinforcing blade 110 protruding outward to surround the outer side surface of the side wall 102. The reinforcing blade 110 configured as described above serves to reinforce the bending strength of the side wall 102 so that the side wall 102 is not bent even if the user presses the cover 200 with a large force.

In addition, the cover 200 is formed with a protrusion 220 which is convex outwardly convex to the center portion, that is, the portion pressed by the user. As such, when the protrusion 220 is formed on the cover 200, when the user presses the protrusion 220 to allow the air inside the main body 100 to flow outside, the amount of deflection of the cover 200 increases and accordingly air The discharge rate is increased to more effectively form a vacuum pressure inside the body 100.

In addition, an airtight packing 240 is provided at a portion where the main body 100 and the cover 200 are coupled so that air does not flow between the main body 100 and the cover 200, and the shape of the sealed packing 240 is provided. And the function will be described in detail with reference to FIGS. 11 and 12 below.

4 is a cross-sectional view of a vacuum packing included in the sealed container according to the present invention, Figure 5 is a partial cross-sectional view showing a shape in which the vacuum packing included in the sealed container according to the present invention is coupled to the lid.

As shown in FIGS. 4 and 5, the sealing plate 310 is formed to be gradient so that the outer end thereof is downwardly gradient, that is, the convex portion is convex upwardly, and more effectively adheres to the outer surface of the cover 200. It is formed to be thinner so that the thickness becomes thinner toward the outer end.

The sealing plate 310 has one or more handles 312 formed on the outer surface, that is, the upper surface thereof, so that the user lifts the sealing plate 310 to release the vacuum pressure formed inside the main body 100. By closing the sealing plate 310 can be lifted more easily. In this case, when the end of the sealing plate 310 is excessively lifted, a case in which the center of the sealing plate 310 is inverted so as to be convex downward may occur. In order to solve this problem, the inner surface, that is, the bottom surface of the sealing plate 310 is further provided with a reinforcing bar 314 forming a circular shape so as to surround the periphery of the support stand 320 and protrudes downward.

The support stand 320 is made of a material having a predetermined size or more so as not to bend even when an external force is applied and to be slidably in the through hole 212, and to be fixedly coupled to the sealing plate 310. The fixed protrusion 322 is formed at the end that is introduced into the inside. At this time, the sealing plate 310 and the support stand 320 is preferably manufactured at the same time in a double injection method. In addition, the support stand 320 is formed at the end of the side that is coupled to the fastening ring 330, that is, the lower end is streamlined, and the fastening groove 324 is formed on the outer peripheral surface of the lower end, the center of the fastening ring 330 There is a fastener 332 is formed to be coupled to the fastening groove 324 is penetrated by the support stand 320 in an interference fit manner. Therefore, the support stand 320 and the fastening ring 330 is coupled in a removable structure without a separate coupling member.

The fastening ring 330 also serves to block the through-hole 212 to prevent the entrance of the air through the through-hole 212 when the sealing plate 310 is lifted, the through-hole 212 more effectively One surface of the fastening ring 330 corresponding to the inner surface of the cover 200 is formed so that the edge portion is closer to the inner surface of the cover 200 than the center portion so as to seal. Therefore, the adhesion of the fastening ring 330 is concentrated on the edge portion of the fastening ring 330 it is possible to more effectively seal the through-hole 212.

Figure 6 is a partial cross-sectional view showing the shape of the vacuum packing when the air inside the sealed container according to the present invention to the outside, Figure 7 is a view of the vacuum packing when the outside air is introduced into the sealed container according to the present invention It is a partial sectional drawing which shows a shape.

As shown in FIG. 5, when the user presses the cover 200 in a state in which the vacuum packing 300 is seated on the top surface of the cover 200 to seal the air inlet 214, the air inside the main body 100 is pressed. 6 is pushed upward through the air inlet 214, the sealing plate 310 is pushed up and then discharged to the outside of the main body 100, when the air discharge is completed, the sealing plate 310 is again the air inlet 214 ) Is returned to the state shown in FIG. At this time, a vacuum pressure is generated inside the main body 100.

In addition, when the user grabs the handle 312 and lifts one side of the sealing plate 310 while the vacuum pressure is generated inside the main body 100, the air outside the main body 100 is air as shown in FIG. 7. It is introduced into the main body 100 through the entrance 214.

The sealing plate 310 applied to the present invention is preferably made of a soft and resilient material such as silicon to open and close the air inlet 214 more easily, as shown in Figure 6 and 7, the fastening ring 330 has a strength of a predetermined size or more to fix the holding stand 320 to prevent the holding stand 320 to the outside of the through hole 212 and has an elasticity to seal the through hole 212 It is preferably made of material.

Figure 8 is a partial plan view of the cover showing the shape of the through-hole, air inlet and air inlet groove of the sealed container according to the present invention, Figure 9 is such that the shape of the through-hole and air inlet of the sealed container according to the present invention is shown 8 is a partial cross-sectional view of the cover cut along the line BB shown in Figure 8, Figure 10 is a cover cut along the line CC shown in Figure 8 to show the shape of the through-hole and the air inlet groove of the sealed container according to the present invention Partial cross section of the.

The air inlet 214 is a through-hole as shown in FIG. 8 so that air outside the main body 100 can be introduced into the main body 100 regardless of which side of the outer end of the sealing plate 310 is lifted. It is preferably arranged radially about 212). In addition, when the user lifts one side of the sealing plate 310 to open the air inlet 214, the outside air may be introduced into the air inlet 214 even if the through hole 212 is not sufficiently wetted to open. In the periphery of the through hole 212, a plurality of air inlet grooves 216 are provided to guide the inflow direction of the air. At this time, the air inlet groove 216 is formed long in the radial direction of the through hole 212 is arranged to form a radial around the through hole 212, the outer end of the air inlet 214 from the through hole 212 It is formed to extend to a farther point.

Therefore, even if the user flips the sealing plate 310 so that the outer end of the air inlet groove 216 is exposed to the outside, the air outside the main body 100 flows in through the air inlet groove 216 as shown in FIG. 8. It enters into the main body 100 through the adjacent air inlet 214.

The air inlet 214 is formed in a through-hole shape as shown in Figure 9 so that air can be discharged and introduced, the air inlet groove 216 is not a configuration for the discharge and intake of air, but simply of air Since it is a structure for guiding the inflow direction, it is formed in concave groove shape as shown in FIG.

11 is a partial cross-sectional view showing the main body and the lid coupling structure of the sealed container according to the present invention, Figure 12 is a partial cross-sectional view showing the shape of the main body and the lid of the sealed container according to the present invention is compressed.

As shown in FIGS. 11 and 12, the cover 200 is formed with a recessed recess 230 upwardly formed at a portion corresponding to the side wall 102 of the main body 100, and inside the recessed groove 230. The sealing pack 240 for improving the sealing force of the main body 100 and the cover 200 is provided.

The hermetic packing 240 has a pair of pressing plates 242 extending upward along both sidewalls of the inlet groove 230. Therefore, when the vacuum pressure is generated inside the main body 100 and the main body 100 and the cover 200 are compressed to each other, the upper end of the side wall 102 of the main body 100 compresses the hermetic packing 240. As shown in FIG. 12, the plate 242 slides up the inner surface of the inlet groove 230 and is bent to be in close contact with the ceiling surface of the inlet groove 230. When the pressing plate 242 is bent as described above, the contact area between the sealing packing 240 and the cover 200 is increased, and the sealing packing 240 is closed by the elastic force to restore the pressing plate 242. Since the upper side wall 102 of the) and the ceiling surface of the inlet groove 230 is compressed, the sealing force is improved.

At this time, in order to prevent the crimping plate 242 from being excessively bent and damaged, the inlet groove 230 is directed toward the sealing packing 240 at a point between the pair of crimping plates 242. Protruding to the guide protrusion 232 is formed to prevent excessive bending of the pressing plate 242.

The present invention has been described in detail using the preferred embodiments, but the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended utility model registration claims. In addition, those of ordinary skill in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

By using the sealed container according to the present invention, it is possible to more easily form a vacuum pressure inside the main body, more easily to release the vacuum pressure inside the main body, after the vacuum pressure is formed inside the main body outside air into the main body There is an advantage that can effectively prevent the inflow of.

In addition, the sealed container according to the present invention, the sealing force between the main body and the lid is improved, even if the vacuum pressure is formed in the main body does not cause deformation of the main body, there is an advantage that can maintain a stable vacuum pressure inside the main body .

1 is a cross-sectional view of a conventional hermetic container.

2 is an exploded perspective view of the sealed container according to the present invention.

3 is a cross-sectional view taken along the line A-A shown in FIG.

4 is a cross-sectional view of a vacuum packing included in a sealed container according to the present invention.

5 is a partial cross-sectional view showing a shape in which the vacuum packing included in the sealed container according to the present invention is coupled to the lid.

6 is a partial cross-sectional view showing the shape of the vacuum packing when the air inside the sealed container according to the present invention is drawn out.

7 is a partial cross-sectional view showing the shape of the vacuum packing when the outside air flows into the sealed container according to the present invention.

Figure 8 is a partial plan view of the lid showing the shape of the through-hole, the air inlet and the air inlet groove of the sealed container according to the present invention.

Figure 9 is a partial cross-sectional view of the cover cut along the line B-B shown in Figure 8 so that the shape of the through-hole and the air inlet of the sealed container according to the present invention is shown.

10 is a partial cross-sectional view of the cover cut along the line C-C shown in Figure 8 so that the shape of the through-hole and the air inlet groove of the sealed container according to the present invention.

11 is a partial cross-sectional view showing a main body and a lid coupling structure of the hermetically sealed container according to the present invention.

12 is a partial cross-sectional view showing a shape in which the main body and the lid of the sealed container according to the present invention are compressed.

<Description of the symbols for the main parts of the drawings>

100: main body 102: side wall

110: reinforcement blade 200: cover

210: seating portion 212: through hole

214: air inlet 216: air inlet groove

220: protrusion 230: inlet groove

232: guide protrusion 240: sealed packing

242: pressing plate 300: vacuum packing

310: sealing plate 312: handle

314: reinforcement 320: prop

324: fastening groove 330: fastening ring

332: fastener

Claims (14)

A main body 100 formed in a concave shape such that an opening is formed at one side; Deformed by the force applied by the user is made of a material having elasticity to be restored when the applied force is removed, coupled to the main body 100 to cover the opening, at least one air inlet ( A cover 200 in which 214 is formed; And, The air inside the main body 100 may be discharged to the outside of the main body 100, and the air opening and closing the air inlet 214 so that the air outside the main body 100 cannot be introduced into the main body 100. Packing 300; Closed container characterized in that comprises a. According to claim 1, The cover 200 has a through hole 212 formed at a position adjacent to the through hole 212; The vacuum packing 300 is made of an elastic material, the sealing plate 310 is seated on the outer surface of the cover 200 to seal the through-hole 212 and the air inlet 214, and one end is sealed The support base 320 coupled to the plate 310 and the other end is coupled to pass through the through hole 212, and the other end of the support stand 320 so that the support stand 320 does not fall out of the through hole 212. Closed container characterized in that it comprises a coupling ring 330 is coupled. The method of claim 2, The hermetically sealed plate 310 is characterized in that the end is formed to be sloped downward. The method of claim 3, wherein The bottom surface of the sealing plate 310 is a closed container characterized in that the horizontal cross-section is further provided with a reinforcing bar (314) protruding downward in a circular shape so as to surround the periphery of the support stand (320). The method of claim 2, In addition, the closed plate 310 is a sealed container, characterized in that the thickness is formed thinner toward the end. The method of claim 2, The air inlet 214 is a sealed container, characterized in that provided with two or more radially around the through hole (212). The method of claim 2, The cover 200 is an airtight container, characterized in that the air inlet groove 216 is formed long in the radial direction of the through hole (212) around the through hole (212). The method of claim 7, wherein The air inlet groove 216 is a sealed container, characterized in that provided with two or more radially around the through hole (212). The method of claim 2, At least one handle 312 is formed on the outer surface of the sealing plate 310, the sealed container. The method according to any one of claims 2 to 9, One side of the fastening ring 330 corresponding to the inner surface of the cover 200, the closed container, characterized in that the edge portion is formed closer to the inner surface of the cover 200 than the center portion. The method according to any one of claims 1 to 9, The cover 200, A recessed recess 230 is formed at a portion coupled to the end of the opening, and a pair of pressing plates 242 are inserted into the recess 230 and extend upwardly along both sidewalls of the recess 230. Airtight container characterized in that it comprises a sealed packing (240) having a). The method of claim 11, wherein The inlet groove 230 is a sealed container, characterized in that the guide projections (232) protruding toward the sealed packing 240 is formed between the pair of pressing plate (242). The method according to any one of claims 1 to 9, The cover 200 is a closed container characterized in that the protrusion 220 is formed to be convex outwardly in the center portion. The method according to any one of claims 1 to 9, The main body 100 is a sealed container, characterized in that the reinforcement wings 110 protruding to the outside is formed to surround the outer surface.