KR102013139B1 - a vacuum container for food storage - Google Patents

Abstract

The present invention relates to an automatic vacuum container for food storage, to store dish, food, and the like in a fresh state for a long period. According to the present invention, the automatic vacuum container for food storage comprises: a vacuum container; a first cap with a silicone packing closely attached to the top flange of the vacuum container; a second cap detachably screw-coupled to the first cap and having a storage chamber storing a battery for supplying power therein; a pump unit received in the second cap; an air circulation module; a toggle switch exposed on the upper surface of the second cap and controlling the power applied from the battery to a vacuum motor; a third cap mounted on the second cap to protect the pump unit and the air circulation module and including an outlet for discharging inner air from the vacuum container and an inlet for supplying outer air to the vacuum container; and a timer operating the vacuum motor for a set time to discharge the inner air of the vacuum chamber.

Description

Automatic vacuum container for food storage {a vacuum container for food storage}

The present specification relates to a vacuum container, and more specifically, to automatically evacuate and evacuate internal air from a vacuum container in order to store food or food in a fresh state for a long time, an automatic vacuum container for food storage. It is about.

Unless otherwise indicated herein, the contents described in this section are not prior art to the claims of this application, and inclusion in this section is not admitted to be prior art.

In general, a food container used for storing food, vegetables, etc. in a fresh state for a long time is to prevent the oxidation of the food to prevent deterioration or decay, and to seal the food to maintain freshness for a long time.

In order to keep food more securely, in recent years, the inside of the food container is guided in a vacuum state so as to preserve the taste and aroma of food as well as ease of storage.

The food container is composed of a container body in which food is stored, and a lid coupled to open and close to seal the upper opening of the container body. The lid is molded of soft synthetic resin material.

The soft plastics that make up the lid are easily affected by temperature changes. In other words, the lid formed of a soft synthetic resin material is easily shrunk or expanded so that the combined portion of the lid is lifted (that is, a gap is generated due to expansion and contraction) in the combined state with the container body. Can be introduced inside.

In view of the lowering of the sealing force as described above, the lid is formed of a hard hard synthetic resin material, and the vacuum is provided separately to the check valve while the check valve is provided on the upper surface of the lid to discharge the air inside the container body. As the air inside the container body is discharged to the outside using a pump, the inside of the container is brought into a vacuum state.

As described above, in order to convert the interior of the container body into a vacuum state by the vacuum pump, the user must piston the piston of the vacuum pump having a cylinder and a piston structure several times by hand to decompress the inside of the container body, which is difficult for use. There is a problem that must be taken.

The Republic of Korea Patent Publication No. 10-1670218 (registered on October 24, 2016) is an air pumping device for food containers are posted.

Embodiment of the present specification, by reducing the internal air of the container body by a vacuum pump can quickly convert the inside of the container body to a vacuum state, so that it can be used outdoors using a battery as a power source for driving the vacuum pump. It relates to an automatic vacuum container for food storage.

Embodiment of the present specification relates to an automatic vacuum container for food storage, which enables the naked eye to check the presence or absence of a vacuum state inside the vacuum container according to the freshness of the food accommodated in the vacuum container.

According to one embodiment of the present specification in order to achieve the above and other objects of the present specification,

A vacuum container whose top is opened;

A first lid coupled to the opening of the vacuum container so as to be openable and close, and provided with a packing of silicon material in close contact with an upper flange of the vacuum container to seal the vacuum container;

Removably screwed to the first lid, a storage chamber for receiving a power supply battery is formed, the boss which is formed inside the internal air discharge hole and the external air inlet hole communicating with the vacuum container extends to the bottom surface A second lid formed;

A pump which is accommodated in the second lid, and comprises a vacuum motor, a cam connected to the vacuum motor, and a diaphragm-type piston fixed to a shaft connected eccentrically to the cam to be lifted and driven by the vacuum motor to generate a suction force unit;

The first and second bosses having a tubular shape mounted on the bottom of the pump unit to support the piston and communicating with the internal air discharge hole and the external air inlet hole are formed on the bottom surface, and the first and second bosses An air circulation module having a discharge passage and an inflow passage communicating therewith, the air circulation module comprising first and second air moving tubes having a long shape communicating with the discharge passage and the inflow passage;

A toggle switch that is exposed on the second lid and controls power applied to the vacuum motor from the battery;

A third lid mounted to the second lid to protect the pump unit and the air circulation module and having a discharge port for discharging internal air from the vacuum container to the outside and an inlet for introducing external air to the vacuum container ;

And a timer for driving the vacuum motor for a predetermined time to discharge the internal air of the vacuum container to the outside.

According to the present specification configured as described above has the following advantages.

As the internal air of the container body is decompressed by the vacuum pump, the inside of the container body can be quickly converted to a vacuum state, and the battery can be advantageously used outdoors as a power source for driving the vacuum pump, thereby providing practicality.

In addition, the pressure control inside the container body is provided by a timer and a pressure sensor to provide convenience to the user, and depending on the freshness of the food (especially seafood, meat, etc.) accommodated in the vacuum container, the vacuum state inside the vacuum container. The presence or absence can be checked with the naked eye from the outside to have reliability.

1 is a perspective view of an automatic vacuum container for food storage according to a preferred embodiment of the present specification;
Figure 2 is an exploded perspective view of the vacuum container shown in Figure 1,
3 is an exploded perspective view of the pump unit and the air circulation module in the vacuum container shown in FIG.
4 and 5 is a state diagram of the use of the pump unit in the vacuum container shown in FIG.

Hereinafter, an automatic vacuum container for food storage according to a preferred embodiment of the present specification will be described in detail with reference to the accompanying drawings.

1 to 5, the automatic vacuum container for food storage according to an embodiment of the present disclosure

A vacuum vessel 10 having an open top and empty inside (for example, formed in a cylindrical shape of plastic material);

The first lid 13 is coupled to the opening of the vacuum container 10 so as to be openable and close, and is provided with a packing 12 of silicon material in close contact with the upper flange 11 of the vacuum container 10 to seal the vacuum container 10. );

Removably screwed to the first lid 13, a storage chamber (not shown) for receiving a power supply battery (not shown) is formed, the internal air discharge hole communicated with the vacuum container ( 14 and the second lid 17 which is formed on the bottom surface of the boss 16, the outer air inlet 15 is formed therein;

It is accommodated in the second lid 17, and fixed to the vacuum motor 18, the cam 19 connected to the shaft of the vacuum motor 18, and the shaft 20 eccentrically connected to the cam 19, the vacuum A pump unit 22 comprising a diaphragm-type piston 21 that is lifted by the driving of the motor 18 to generate suction force;

The first and second bosses 23 and 24 of the tubular shape are mounted on the bottom surface of the pump unit 22 to support the piston 21 and communicate with the internal air discharge hole 14 and the external air inlet hole 15. It is formed on the bottom surface, the discharge passage 25 and the inflow passage 26 in communication with the first and second bosses 23 and 24 are formed therein, and communicate with the discharge passage 25 and the inflow passage 26. An air circulation module 29 consisting of first and second air moving tubes 27 and 28 having a long shape;

A toggle type switch 30 exposed to an upper surface of the second lid 17 for controlling power applied to the vacuum motor 18 from the battery;

It is mounted on the second lid 17 to protect the pump unit 22 and the air circulation module 29, the discharge port 31 for discharging the internal air from the vacuum vessel 10 to the outside, and the vacuum vessel 10 A third lid 33 formed with an inlet 32 for introducing external air into the air;

And a timer (controlled by a not shown PCB (powered from a battery)) for driving the vacuum motor 18 to discharge the internal air of the vacuum container 10 for a predetermined time.

As shown in FIG. 4, after the food or food is accommodated in the vacuum container 10 by the pump unit 22, the food inside the vacuum container 10 is evacuated due to the driving of the vacuum motor 18. Or food can be kept fresh for a long time.

As shown in FIG. 5, the inlet side is connected to the discharge passage 25 so as to be connected to the air circulation module 29, and the vacuum motor 18 is driven for a predetermined time by a timer to internally the vacuum container 10. A tube for discharging the air to the outside, to cut off the power applied to the vacuum motor 18 to stop the operation of the vacuum motor 18 when the internal pressure of the vacuum container 10 reaches the set pressure before the set time It is further provided with a pressure sensor 34 (for example, may be formed of a silicon material to have an elastic force) in the form.

According to the freshness of the food accommodated in the vacuum container 10, the vacuum container 10 is formed of a transparent body so that the presence or absence of a vacuum state inside the vacuum container 10 can be visually checked from the outside.

Therefore, according to the freshness of the food contained in the vacuum container 10 formed of a transparent body, it is possible to visually check the vacuum state inside the vacuum container 10, thereby having reliability and practicality.

Hereinafter, an example of use of an automatic vacuum container for food storage according to an embodiment of the present specification will be described in detail with reference to the accompanying drawings.

4 to 5, the power applied from the battery (not shown rechargeable battery can be used) accommodated in the storage compartment of the second lid 17 by pressing the toggle type switch 30 by the user The vacuum motor 18 is driven by the.

As the vacuum motor 18 is driven, the cam 19 installed on the shaft of the vacuum motor 18 rotates. As the diaphragm-type piston 21 connected to the shaft 20 fixed to the cam 19 is lifted and driven repeatedly, the suction force is generated.

At this time, in order to evacuate the interior of the vacuum container 10, the cam is interlocked by applying power from the battery to the vacuum motor 18 according to the operation of the toggle type switch 30 and driving the vacuum motor 18. 19) the shaft 20 by the eccentric drive, the technology for repeatedly driving the diaphragm-type piston 21 connected to the eccentric drive shaft 20 is used in the technical field to which the present specification belongs Detailed description thereof will be omitted.

Accordingly, as the diaphragm-type piston 21 fixed to the shaft 20 disposed eccentrically on the cam 19 is repeatedly lifted up and down to a set height according to the driving of the vacuum motor 18 (that is, FIG. 20) is located at the maximum height (top dead center), Figure 5 is the case where the shaft 20 is located at the minimum height (bottom dead center)), the bottom surface of the diaphragm-type piston (21) of the air circulation module 29 The pump is repeatedly pumped in a state in which it is in close contact with the port 29a formed to be recessed in the upper surface of the first plate 40.

Therefore, the suction force due to the pumping movement of the piston 21 passes through the through hole a formed at the edge of the port 29a, and thus the bottom surface of the second plate 50 (the first plate 40 of the air circulation module 29). In close contact with the air passage 50a formed on the bottom surface thereof.

That is, as the suction force moved in the air passage 50a is moved to the air passage 60a formed on the upper surface of the third plate 60 in close contact with the bottom surface of the second plate 50, the suction passage communicates with the air passage 60a. The second air moving tube 28 protruding from the bottom of the third plate 60 is moved.

The suction force moved to the second air moving tube 28 passes through the external air inlet hole 15 formed inside the boss 16 of the second lid 17 and moves to the vacuum container 10.

On the other hand, the air inside the vacuum vessel 10 passes through the internal air discharge hole 14 formed inside the boss 16 of the second lid 17, and then the third plate 60 of the air circulation module 29 Passing through the first air moving tube 27 protruding from the bottom surface is moved to the discharge passage 25 formed on the upper surface of the third plate (60).

The air moved to the discharge passage 25 passes through the first boss 23 protruding from the upper surface of the first plate 40 of the air circulation module 29 and is discharged into the second lid 17.

The air discharged inside the second lid 17 is discharged to the outside through the discharge port 31 formed in the third lid 33.

That is, as the internal air is discharged from the vacuum container 10 to the outside through the air circulation module 29, the inside of the vacuum container 10 may be evacuated.

As described above, the vacuum motor 18 is driven for a time set by a timer (not shown) to discharge the internal air of the vacuum container 10 to the outside to form a vacuum state in the vacuum container 10.

As shown in Figure 5, when the internal pressure of the vacuum container 10 reaches the set pressure before the time set by the timer, the inlet side of the tube type connected to the outlet passage 25 of the air circulation module 29 As the operation of the pressure sensor 34 stops the operation of the vacuum motor 18, the vacuuming operation is terminated in the vacuum container 10.

Herein, while the foregoing specification has been described with reference to the preferred embodiments, those skilled in the art may variously modify and modify the present disclosure without departing from the spirit and scope of the present disclosure as set forth in the claims below. It will be appreciated that this can be changed.

10; Vacuum container
11; Top flange
12; packing
13; First lid
14; Internal air exhaust hole
15; Outside air inlet
16; boss
17; 2nd lid
18; Vacuum motor
19; cam
20; shaft
21; piston
22; Pump unit
23; 1st Boss
24; 2nd Boss
25; Discharge passage
26; Inflow passage
27; 1st Air Transfer Tube
28; 2nd Air Transfer Tube
29; Air circulation module
30; Toggle switch
31; outlet
32; Inlet
33; 3rd lid
34; Pressure sensor

Claims (2)

A vacuum container whose top is opened;
A first lid coupled to the opening of the vacuum container so as to be openable and close, and provided with a packing of silicon material in close contact with an upper flange of the vacuum container to seal the vacuum container;
Removably screwed to the first lid, a storage chamber for receiving a power supply battery is formed, the boss which is formed inside the internal air discharge hole and the external air inlet hole communicating with the vacuum container extends to the bottom surface A second lid formed;
A pump which is accommodated in the second lid, and comprises a vacuum motor, a cam connected to the vacuum motor, and a diaphragm-type piston fixed to a shaft connected eccentrically to the cam to be lifted and driven by the vacuum motor to generate a suction force unit;
The first and second bosses having a tubular shape mounted on the bottom of the pump unit to support the piston and communicating with the internal air discharge hole and the external air inlet hole are formed on the bottom surface, and the first and second bosses An air circulation module having a discharge passage and an inflow passage communicating therewith, the air circulation module comprising first and second air moving tubes having a long shape communicating with the discharge passage and the inflow passage;
A toggle switch that is exposed on the second lid and controls power applied to the vacuum motor from the battery;
A third lid mounted to the second lid to protect the pump unit and the air circulation module and having a discharge port for discharging internal air from the vacuum container to the outside and an inlet for introducing external air to the vacuum container ;
An automatic vacuum container for food storage, comprising: a timer for driving the vacuum motor for a predetermined time to discharge the internal air of the vacuum container to the outside;
The air circulation module,
The first and second bosses having a tubular shape, which are mounted on the bottom of the pump unit to support the piston and communicate with the internal air discharge hole and the external air inlet hole, are formed on the bottom surface and have a port having a through hole formed at an edge thereof. First plate; A second plate in close contact with the bottom surface of the first plate and having a discharge passage, an inflow passage, and an air passage formed therein in communication with the first and second bosses; A third plate in close contact with the bottom surface of the second plate, having a discharge passage, an inflow passage, and an air passage formed therein, and having first and second air moving tubes having a long shape communicating with the discharge passage and the air passage; Is composed,
The inlet side is connected to the discharge passage in communication with each other, and the vacuum motor is discharged to the outside by driving the vacuum motor for a set time by the timer, but before the set time, the internal pressure of the vacuum vessel is set to the set pressure. When reached, the automatic vacuum container for food storage, characterized in that it further comprises; pressure sensor in the form of a tube for stopping the driving of the vacuum motor. delete

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