JP3194876U - Vacuum storage container - Google Patents

Abstract

In a vacuum storage container having a structure in which air in a container is discharged by a vertical movement of a piston provided on a lid, a plurality of vacuum storage containers can be stacked and stored. In a vacuum storage container comprising a container 1 and an upper lid 2 and capable of reducing the air pressure in the container by raising and lowering a piston 4 provided on the upper lid, an engagement portion provided on the piston side; A piston fixing structure that includes an engaged portion that engages with an engaging portion provided on the upper lid side, and that holds and fixes the piston in a lowered state when the engaging portion and the engaged portion are engaged. A protruding edge 2a formed in the vicinity of the outer peripheral edge of the upper lid and protruding upward from the upper surface adjacent to the piston, and the lower surface of the container is supported by the protruding edge when the lower surface of the container is placed on the upper lid At the same time, there is provided a protruding edge that protrudes by a length such that the upper surface of the piston lowered by the piston fixing structure is below the lower surface position of the container. [Selection] Figure 1

Description

  The present invention relates to a vacuum storage container that has been improved in storability by removing air from the container so that the container is close to a vacuum, and particularly relates to a container that is preferably stacked and stored.

The vacuum storage container is widely used for the preservation of food and drink since it can suppress the oxidation of the contents and the spoilage due to various bacteria by making the container close to a vacuum. In vacuum storage containers, one of the methods for evacuating the container is to suck out air from the check valve part of the container lid using a vacuum pump separate from the container, but a vacuum pump is required separately There is a problem that it cannot be used if it is lost.
On the other hand, since the vacuum storage container described in Patent Documents 1 and 2 below incorporates a mechanism for discharging the air in the container in the lid, such a problem does not occur. The vacuum storage container described in Patent Document 1 is provided with a piston cylinder in a lid, and by raising and lowering the piston, air in the container is discharged by a check valve in the cylinder. The vacuum storage container described in Patent Document 2 is provided with a check valve on the lid, and discharges the air in the container by moving the entire lid up and down using the lid surface as an elastic material.

Japanese Patent No. 3847280 JP-A-9-77145

By the way, since the vacuum storage container described in Patent Document 2 raises and lowers the lid itself, if the pressure in the container drops to some extent, the lid cannot move, and the internal air cannot be discharged any more. If used, the lid is likely to break. On the other hand, such a problem does not occur if the piston cylinder is also provided on the lid as in the vacuum storage container described in Patent Document 1. However, if the piston cylinder is provided on the lid, it will inevitably protrude from the top of the lid, so the piston cylinder part will be in the way and overlap like a plurality of vacuum storage containers as in the vacuum storage container described in Patent Document 2. There arises a problem that it cannot be stored in a wet state.
In view of such problems, the present invention enables a plurality of vacuum storage containers to be stored in a vacuum storage container having a structure in which air in the container is discharged by the vertical movement of a piston provided on the lid. Is an issue.

In order to solve the above problems, the present invention has the following configuration.
The invention according to claim 1 is a vacuum storage container comprising a container and an upper lid, and capable of reducing the air pressure in the container by moving the piston provided on the upper lid up and down, and is provided on the piston side. It consists of a mating part and an engaged part that engages with the engaging part provided on the upper lid side, and when these engaging part and engaged part are engaged, the piston is held in a lowered state. A piston fixing structure to be fixed and a protruding edge formed in the vicinity of the outer peripheral edge of the upper lid and projecting upward from the upper surface adjacent to the piston, when the lower surface of the container is placed on the upper lid A vacuum having a lower surface of the container supported by the protruding edge and a protruding edge protruding by a length such that an upper surface of the piston lowered by the piston fixing structure is equal to or lower than a lower surface position of the container. It is a presence container.
The invention according to claim 2 is the vacuum storage container, wherein a small opening is formed on the surface of the upper lid, and the sheet is made of an elastic body that seals the small opening or a sheet body in a slack state. A pressure indicator is provided.

With the configuration as described above, the present invention has the following effects.
According to the first aspect of the present invention, the piston can be fixed in a state where the piston is lowered by the piston fixing structure, and the protruding edge is provided in the vicinity of the outer peripheral edge of the upper lid, so that it is lowered when the container lower surface is overlapped on the upper lid. By making the piston position below the lower surface of the container supported by the protruding edge, the lower piston can overlap the bottom surface of the plurality of containers and the upper surface of the upper lid without interfering with each other. The vacuum storage containers can be stacked and stored.
According to the second aspect of the present invention, the elastic sheet body or the slack sheet body is pulled downward when the pressure in the container is reduced, and is recessed downward according to the pressure drop. It is possible to know from the outside how much the pressure in the container has dropped.

It is a front half sectional view of the vacuum preservation container concerning an embodiment. It is a partially broken perspective view of the upper lid concerning an embodiment. It is the partially broken perspective view which abbreviate | omitted the button and sealing member of the upper cover concerning embodiment. It is a front half sectional view in the state where the piston of the vacuum preservation container concerning an embodiment was lowered. It is a partially broken perspective view in the state where the piston of the upper lid concerning an embodiment was lowered.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 shows a front half sectional view of a vacuum storage container X according to this embodiment. The vacuum storage container X includes a container body 1 and an upper lid 2. The container body 1 is a bottomed cylindrical body formed of polystyrene, and a ring-shaped foot is provided on the bottom surface.
The upper lid 2 is a disc body in which a circular groove fitted to the upper opening edge of the container body 1 is formed in the vicinity of the outer peripheral edge of the back surface, and is formed of ABS resin. FIG. 2 shows a partially broken perspective view of the upper lid 2. A circular first sealing material 16 made of rubber for sealing the container body 1 is disposed and fixed on the uppermost surface in the groove. Further, a protruding edge 2a protruding upward in a ring shape is formed on the upper surface of the outer peripheral portion of the upper lid 2 so as to wrap the groove. The inner periphery of the protruding edge 2a is set to a size that allows the outer periphery of the foot of the container body 1 to be fitted. When the container body 1 is placed on the upper lid 2, the protruding edge 2a supports the container body 1. Yes. A ring-shaped member is fixed in the vicinity of the inside of the groove on the lower surface of the upper lid 2 so as to protrude downward. A circular groove is formed on the outer peripheral surface of the member, and the upper lid 2 is placed in the groove. A ring-shaped second sealing material 17 is fixed so that the outer peripheral surface comes into contact with the inner wall of the container main body 1 in a state of covering the container main body 1. Two flat through holes are formed in a flat surface surrounded by the protruding edge 2a of the upper lid 2, and a pressure indicator 18 and an open valve 19 are provided in each through hole. The pressure indicator 18 is made of a thin sheet of ABS resin that closes the through hole, and is slightly slackened. In this sagging state, when the pressure in the container is lowered, the container is pulled downward and recessed, so that the degree of pressure decrease can be known by checking the degree of depression. The release valve 19 is provided with a small hole in the center of a disk that closes the bottom surface of the through hole, and a circular body that reaches the upper surface of the upper lid having an outer diameter smaller than the inner diameter of the through hole. . By fitting a rubber cap with a knob (not shown) into this cylindrical body, it is possible to seal the open valve 19 portion, and by removing the cap, the inside of the container body communicates with the outside air, and air flows into the container body. Can be made. Further, an air vent mechanism is provided at the center of the upper lid 2.

  The air vent mechanism includes a cylinder 3, a piston 4, an exhaust port 8, and a reverse support valve 14. The cylinder 3 is a cylindrical body integrally formed so as to protrude to the lower surface side of a through hole formed at the center of the upper lid 2, and the lower end surface side is closed by a sealing member 10. The center of the sealing member 10 is raised in a cylindrical shape, and an inner flange is formed on the upper surface of the cylindrical portion so that a circular opening is formed in the center. The piston 4 is a cylindrical body whose upper surface is closed. The lower end of the outer periphery rises in a ring shape, and a groove 7 is formed on the outer peripheral side surface of the ring-shaped part. A piston ring 5 made of rubber is fitted in the groove 7. The piston ring 5 has an outer diameter slightly larger than the outer diameter of the cylinder 3 so that the outer peripheral surface of the piston 4 and the inner peripheral surface of the cylinder 3 can be slid and hermetically sealed. Thereby, the air chamber 11 which consists of the cylinder 3 and the inner surface of the piston 4 is formed. A flat cylindrical button 15 whose upper surface is closed is fixed to the upper surface of the piston 4. A compression spring 6 is disposed between the inner upper surface of the piston 4 and the upper surface of the sealing member 10 of the cylinder 3, whereby the piston 4 is biased so as to be positioned at the uppermost point in a state where no force is received. The reverse support valve 14 is a general reverse support valve that is provided so as to close the central opening of the sealing member 10, and allows the air flow from below to above, while blocking the air flow from above to below. It is formed as follows.

  FIG. 3 shows a partially broken perspective view in which the button 15 and the sealing member 10 of the upper lid 2 are omitted. On the outer peripheral surface of the piston 4, projections 20, 20 that do not reach the upper end of the prismatic shape with respect to the center are formed. The exhaust port 8 is formed of a groove having a prismatic cross section formed in one projection 20 and is connected by a communication portion 9 including a groove 7 of the piston 4 and a cutout portion reaching the lower end of the groove 7. When the piston 4 moves up, the piston ring 5 is pressed downward, so that the piston ring portion is completely blocked and the air chamber 11 is in a sealed state. On the other hand, when the piston 4 is lowered, as a result of the piston ring 5 being raised, the air chamber 11 is formed via the gap between the ring-shaped portion outer periphery lower end edge where the groove 7 is formed and the inner periphery of the cylinder 3, the communication portion 9, and the exhaust port 8. Is open to the open air. Further, a stopper 22 made of an inner flange is formed on the upper surface of the cylinder 3 but the outer peripheral surface of the piston 4 can pass but the protrusion 20 cannot pass, and the protrusions 20 and 20 pass through part of the stopper 22. A notch 21 is formed. The protrusions 20 and 20 can freely move up and down without being restrained by the stopper 22 if they are positioned at the position of the notch 21 when the piston 4 is moved up and down. When the piston 4 is pushed down and the protrusions 20 and 20 are positioned under the stopper 22 and the piston 4 is rotated, the protrusions 20 and 20 are displaced from the positions of the notches 21. Also, the protrusions 20 and 20 are caught by the stopper 22 so that the piston 4 cannot move upward. That is, the protrusions 20 and 20 serve as engaging portions, and the stopper 22 serves as an engaged portion, and a piston fixing structure for holding the piston 4 in a lowered state is formed by engaging each other. A step is provided on the lower surface of the stopper 22 so that the protrusions 20 and 20 do not rotate more than a certain range. FIG. 4 shows a front half sectional view of the vacuum storage container X in a state where the piston 4 is held at the lowered position, and FIG. 5 shows a partially broken perspective view of the upper lid 2 in the same state. In this state, as shown in FIG. 4, the uppermost surface including the button 15 of the piston 4 is set to be lower than the upper surface of the protruding edge 2 a of the upper lid 2.

Next, a method for using the vacuum storage container X having the above configuration will be described. First, the user removes the upper lid 2, puts food or the like to be stored in the container body 1, and covers the upper lid 2. When the button 15 is pressed to move the piston 4 downward, the air chamber 11 becomes smaller, and the air in the air chamber 11 does not flow into the container body 1 by the check valve 14 via the exhaust port 8. Released into the open air. Next, when the force of pressing the button 15 is loosened, the compression spring 6 pushes up the piston 4 and the air chamber 11 becomes larger. In this process, the air in the container body 1 flows into the air chamber 11 through the check valve 14. By repeating the above operation, the air in the container body 1 is discharged. Since the indicator 18 is recessed downward due to a drop in the pressure inside the container body 1, the air venting operation is completed when the indicator 18 is sufficiently recessed. When the upper lid 2 is opened, the cap on the release valve 19 is removed, so that external air flows into the container body 1 through the release valve 19 and the internal pressure in the container body 1 is restored. 2 can be removed.
At the time of storage, the button 15 is pushed to lower the piston 4 to the lowest point, and in this state, the button 15 is turned to engage the protrusions 20 and 20 by positioning them below the stopper 22. As a result, the button 15 is held in a recessed state as shown in FIGS. Further, since the upper surface of the button 15 is positioned below the upper surface of the protruding edge 2a of the upper lid 2 and the bottom surface of the container body 1 is mounted on the protruding edge 2a, one vacuum storage container can be obtained by holding the piston 4 in a lowered state. When another vacuum storage container X is stacked on top of X, the bottom surface of the upper vacuum storage container X does not interfere with the button 15 of the lower container main body X. The storage container X can be stored in a stacked state.

  In the above embodiment, the piston fixing structure is formed by a protrusion provided on the piston side and an inner flange provided with a notch provided on the cylinder side. However, any structure may be used as long as the piston can be fixed in a lowered state. Apply any known means such as forming a male screw on the piston side and forming a female screw to engage with it on the cylinder side, or providing a hole on the piston side and providing a claw related to this on the cylinder side. Can do.

X Vacuum storage container 1 Container body 2 Upper lid 2a Protruding edge 3 Cylinder 4 Piston 14 Check valve 18 Pressure indicator

Claims (2)

In a vacuum storage container consisting of a container and an upper lid, the air pressure in the container can be reduced by raising and lowering a piston provided on the upper lid.
It consists of an engaging part provided on the piston side and an engaged part that engages with the engaging part provided on the upper lid side, and when these engaging part and engaged part are engaged, A piston fixing structure that holds and fixes the piston in a lowered state;
A protruding edge formed in the vicinity of the outer peripheral edge of the upper lid and protruding upward from a surface adjacent to the piston, and when the lower surface of the container is placed on the upper lid, the lower surface of the container becomes the protruding edge. A vacuum storage container having a protruding edge that is supported and protrudes by a length such that an upper surface of the piston lowered by the piston fixing structure is equal to or lower than a lower surface position of the container.   The vacuum storage container according to claim 1, wherein an opening is formed on the surface of the upper lid, and a pressure indicator formed by a sheet made of an elastic body that seals the opening or a sheet in a slack state is provided.