IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0521468
(2010-08-05)
|
등록번호 |
US-9096365
(2015-08-04)
|
우선권정보 |
KR-10-2010-0004043 (2010-01-15) |
국제출원번호 |
PCT/KR2010/005139
(2010-08-05)
|
§371/§102 date |
20120711
(20120711)
|
국제공개번호 |
WO2011/087196
(2011-07-21)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Lexyoume IP Meister, PLLC
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
10 |
초록
▼
The present invention relates to a vacuum container. The vacuum container includes a piston member linearly movably disposed in a receiving portion which is formed at the vacuum container and has a first outlet and provided with a second outlet, an elastic member disposed in the piston member, a fir
The present invention relates to a vacuum container. The vacuum container includes a piston member linearly movably disposed in a receiving portion which is formed at the vacuum container and has a first outlet and provided with a second outlet, an elastic member disposed in the piston member, a first valve plate disposed in the receiving portion and adapted to open or close the first outlet, a second valve plate disposed at the piston member and adapted to open or close the second outlet, a separation preventing plate mounted in the receiving portion and preventing separation of the piston member, and a unit for pressuring the first valve plate which is mounted in the receiving portion and is adapted to close the first outlet by pressurizing the first valve plate if the piston member descends and is caught by and fixed to the separation preventing plate. Thereby, vacuum state can be continuously maintained in the vacuum container.
대표청구항
▼
1. A vacuum generating apparatus, comprising: a piston member linearly movably disposed in a receiving portion which is formed at a vacuum chamber and has a first outlet, and provided with a second outlet,an elastic member disposed inside of the piston member,a first valve plate disposed in the rece
1. A vacuum generating apparatus, comprising: a piston member linearly movably disposed in a receiving portion which is formed at a vacuum chamber and has a first outlet, and provided with a second outlet,an elastic member disposed inside of the piston member,a first valve plate disposed in the receiving portion and adapted to open or close the first outlet,a second valve plate disposed at the piston member and adapted to open or close the second outlet,a separation preventing plate mounted in the receiving portion such that the piston member penetrates through an inner hole of the separation preventing plate to prevent separation of the piston member, the piston member ascending and descending relative to the separation preventing plate to create a vacuum, wherein rotating the piston member at a descended position fixes the piston member relative to the separation preventing plate to prevent ascending of the piston member, anda unit for pressuring the first valve plate comprising: a supporting member disposed on the receiving portion and having a vertically hollow inside;a pressing rod positioned in the supporting member and adapted to contact and press the first valve plate to close the first outlet in response to descending and rotating of the piston member causing fixation of the piston member to the separation preventing plate; andan operating rod connected to the piston member to move with the piston member relative to the pressing rod and adapted to contact and press the pressing rod in response to the descending and rotating of the piston member. 2. The vacuum generating apparatus of claim 1, wherein the supporting member comprises: an accepting portion positioned on a bottom surface of the receiving portion and having at least one air exhaust hole at a surface thereof, anda guide portion connected to the accepting portion, having a smaller circumference than the accepting portion, and having at least one guide groove formed at an interior surface thereof,wherein at least one guide protrusion inserted in the at least one guide groove is formed at an exterior circumference of the pressing rod. 3. The vacuum generating apparatus of claim 2, wherein a rotation preventing groove is formed at the accepting portion, and a protrusion inserted in the rotation preventing groove is formed on the bottom surface of the receiving portion. 4. The vacuum generating apparatus of claim 1, wherein the unit for pressuring the first valve plate further comprises cam portions formed at confronting surfaces of the pressing rod and the operating rod. 5. The vacuum generating apparatus of claim 4, wherein the cam portions comprise first protrusions and depressions formed at the pressing rod and second protrusions and depressions formed at the operating rod. 6. The vacuum generating apparatus of claim 5, wherein the first protrusions and depressions comprise a plurality of first convex portions disposed with even distances, a plurality of first recess portions formed between the first convex portions and first slanted surfaces connecting the first convex portions and the first recess portions, the second protrusions and depressions comprise a plurality of second convex portions disposed with even distances, a plurality of second recess portions formed between the second convex portions and second slanted surfaces connecting the second convex portions and the second recess portions, andthe second convex portion presses the first convex portion in response to the descending of the piston member. 7. The vacuum generating apparatus of claim 1, wherein at least one flat surface portion is formed at a circumference of the piston member, a catching step is formed at a side of the piston member, and a ring portion is formed at the other side of the piston member,a rotation preventing protrusion confronting the flat surface portion in a raised state of the piston member is formed inside of the separation preventing plate such that the ring portion is caught by the rotation preventing protrusion and the piston member cannot further be raised in the raised state, andthe piston member is not caught by the rotation preventing protrusion and is rotatable in response to the descending of the piston member such that the catching step is caught by the rotation preventing protrusion so as to maintain a descent state of the piston member when the piston member rotates in the descent state. 8. The vacuum generating apparatus of claim 1, wherein the first outlet comprises a first position aligning protrusion and the second outlet comprises a second position aligning protrusion, the first position aligning protrusion and the second position aligning protrusion are adapted to align positions of the first valve plate and the second valve plate, andthe first position aligning protrusion is formed at a bottom surface of the first valve plate and the second position aligning protrusion is formed at a bottom surface of the second valve plate. 9. A vacuum container comprising a cover at which the vacuum generating apparatus of claim 1 is mounted and a main body coupled to the cover so as to form a storing space. 10. A vacuum container comprising: a main body having a storing space,a cover which can be coupled with the main body and has a first receiving portion, wherein a first outlet communicating the storing space with the exterior is formed at the first receiving portion,a piston member movably disposed in the first receiving portion and provided with a second outlet formed therein,an elastic member disposed in the piston member,a first valve plate disposed in the first receiving portion and adapted to open or close the first outlet,a second valve plate disposed at the piston member and adapted to open or close the second outlet,a separation preventing plate mounted in the first receiving portion such that the piston member penetrates through an inner hole of the separation preventing plate to prevent and preventing separation of the piston member, the piston member ascending and descending relative to the separation preventing plate to create a vacuum, wherein rotating the piston member at a descended position fixes the piston member relative to the separation preventing plate to prevent ascending of the piston member, anda unit for pressuring the first valve plate comprising: a supporting member disposed on the receiving portion and having an inside opened vertically;a pressing rod positioned in the supporting member and adapted to press the first valve plate to close the first outlet in response to descending and rotating of the piston member causing fixation of the piston member to the separation preventing plate;an operating rod connected to the piston member to move with the piston member relative to the pressing rod and adapted to contact and press the pressing rod in response to the descending and rotating of the piston member; anda cam portion formed at confronting surfaces of the pressing rod and the operating rod. 11. The vacuum container of claim 10, wherein a highest cam portion of the operating rod is adapted to press a highest cam portion of the pressing rod in response to the descending of the piston member. 12. The vacuum container of claim 10, further comprising a vacuum release apparatus mounted at a second receiving portion formed at the cover and releasing the vacuum of the storing space, wherein air existing at the outside of the storing space is supplied into the storing space in response to pushing of the vacuum release apparatus in a direction toward the storing space. 13. The vacuum container of claim 12, wherein an air inflow hole is formed at a bottom surface of the second receiving portion, wherein the vacuum release apparatus comprises:a push rod disposed in the second receiving portion and being vertically movable,a sealing member connected to the push rod, positioned at the storing space, and sealing the air inflow hole, andan elastic member mounted at a circumference of the push rod and applying elastic force to the push rod away from the storing space.
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