KR102554027B1 - Apparatus for packing vacuum - Google Patents

Abstract

The present invention relates to a vacuum packaging apparatus for forming an internal space of a storage unit in a vacuum state, comprising: an air induction nozzle coupled to a hole formed in the storage unit to guide air inside the storage unit to the outside; A vacuum forming unit coupled to the air induction nozzle; and a compressed air injection unit that is coupled to the vacuum forming unit and injects gas into the vacuum forming unit, and when gas is injected from the compressed air injection unit, the pressure of the vacuum forming unit is relatively lower than that of the receiving unit, thereby reducing the pressure of the receiving unit. As air is discharged through the air induction nozzle through the air induction nozzle, the inside of the storage unit can be formed in a vacuum state.

Description

Vacuum packaging device {Apparatus for packing vacuum}

The present invention relates to a vacuum packaging apparatus, and more particularly, to vacuum packaging capable of easily maintaining the inside of a housing unit body in a vacuum state through an air induction nozzle, a vacuum forming unit, and a compressed air injection unit forming a simple structure and coupling. It's about the device.

In order to keep food for a longer period of time, a multi-purpose vacuum container is being developed that allows food to be stored by installing a check valve on the lid, removing air from the inside of the container, and vacuuming the inside of the container below atmospheric pressure.

In the existing vacuum container, after putting certain objects in the container and sealing the container, the gas in the container is forcibly discharged to maintain the pressure in the container at a lower pressure than the external pressure so that the food in the container can be kept fresher. can do.

However, in order to make the inside of the container in a vacuum state, a vacuum sealing device using a fan with a vacuum motor was attached to the lid to forcibly create a vacuum inside the container. However, this method is difficult to use easily in most age groups because the device is not only large but also inconvenient to use.

(Korean Patent Registration No. 10-0947895, March 18, 2010)

An object of the present invention is to provide a vacuum packaging device capable of conveniently maintaining a vacuum state inside a housing unit body through an air induction nozzle, a vacuum forming unit, and a compressed air injection unit forming a simple structure and combination.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, the vacuum packaging apparatus for forming the inner space of the storage unit in a vacuum state according to an embodiment of the present invention is coupled to a hole formed in the storage unit to guide the air inside the storage unit to the outside. induction nozzle; A vacuum forming unit coupled to the air induction nozzle; and a compressed air injection unit that is coupled to the vacuum forming unit and injects gas into the vacuum forming unit, and when gas is injected from the compressed air injection unit, the pressure of the vacuum forming unit is relatively lower than that of the receiving unit, thereby reducing the pressure of the receiving unit. As air is discharged through the air induction nozzle through the air induction nozzle, the inside of the storage unit can be formed in a vacuum state.

Here, the compressed air injection unit is replaceably coupled to the vacuum forming unit, and CO 2 may be accommodated therein.

Here, the air induction nozzle may be formed as a one-way valve.

The vacuum packaging apparatus according to the present invention can easily maintain the inside of the storage unit in a vacuum state through an air induction nozzle, a vacuum forming unit, and a compressed air injection unit that form a simple structure and coupling.

Accordingly, a vacuum can be generated at a very low cost and with a very simple structure without a separate external device and power supply.

The present invention can be applied to various parts such as a disposable vacuum zipper bag for food, a vacuum food container, a vacuum food storage container for a refrigerator (kimchi container, fruit box, side dish box), a vacuum box (container) for emergency organ transportation, and an emergency corpse transportation bag. There are features.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a plan view of a vacuum packaging apparatus according to an embodiment of the present invention.
2 is a side view of a vacuum packaging apparatus according to an embodiment of the present invention.
3 is a detailed view of the vacuum forming unit of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. At this time, it should be noted that in the accompanying drawings, the same components are indicated by the same reference numerals as much as possible. Detailed descriptions of well-known functions and configurations that may obscure the subject matter of the present invention will be omitted. For the same reason, in the accompanying drawings, some components are exaggerated, omitted, or schematically illustrated.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated. In addition, throughout the specification, "on" means to be located above or below the target part, and does not necessarily mean to be located on the upper side with respect to the direction of gravity.

1 is a plan view of a vacuum packaging device according to an embodiment of the present invention, FIG. 2 is a side view of the vacuum packaging device according to an embodiment of the present invention, and FIG. 3 is a detailed view of a vacuum forming unit of the present invention.

1 to 3, the vacuum packaging apparatus 10 according to an embodiment of the present invention is coupled to a storage unit in which an accommodation space is formed to form an internal space of the storage unit in a vacuum state. It is configured to include a payment body 110, an air induction nozzle 120, a vacuum forming unit 130 and a compressed air injection unit 140.

The housing body 110 may be formed of a zipper bag, and when formed of a zipper bag, a hole may be formed to allow the air induction nozzle 120 to be coupled thereto. The accommodating unit body 110 is coupled with the air induction nozzle 120 to form a hole 111 through which the air of the accommodating unit body 110 can escape to the outside. Hereinafter, although the storage unit body 110 is formed of a zipper pack as an example, the storage unit body 110 may include a lid coupled to an airtight container, such as a vacuum food container and a vacuum food storage container for a refrigerator. (Kimchi container, fruit box, side dish box), emergency organ transport vacuum box (container), and emergency corpse transport bag. At this time, a hole may be formed in the lid so that the air induction nozzle 120 can be coupled.

In the present invention, the shape of the housing body 110 is formed in a quadrangular shape as an example, but may be formed in a circular or polygonal shape, and the shape is not limited thereto. In addition, the housing unit body 110 is preferably formed of a transparent material so that the inside can be seen.

The air guiding nozzle 120 is coupled to the housing body 110 in which the hole 111 is formed to guide air inside the housing unit 110 to the outside. The air induction nozzle 120 may be formed as a one-way valve, and air may move only through the flow path of the vacuum forming unit 130 inside the housing body 110, and the compressed air injection unit 140 may discharge the air. The compressed air to be can be prevented from flowing into the housing body 110. As the one-way valve can be formed in various shapes, a detailed description of the one-way valve will be omitted.

The vacuum forming unit 130 is coupled to the air induction nozzle 110 and the compressed air injection unit 140 so that the pressure is lower than the inside of the housing unit body 110 through the compressed air injected from the compressed air injection unit 140. while the air in the housing body 110 is discharged to the outside through the pressure change, the body 131, the first flow path 132, the second flow path 133, the air induction nozzle communication hole ( 134), a discharge port 135 and a fixture 136.

The main body 131 is formed in a substantially cylindrical shape, forms a flow path therein so that the compressed gas injected from the compressed air injection unit 140 can move along one direction, and has a first flow path therein. 132 and a second flow path 133 are provided.

An air injection hole 1321 is formed at a position where the compressed air injection unit 140 is coupled to the first flow path 132 . And, along one direction, the pipe diameter of the passage is formed to become narrow. In this way, as the tube diameter of the passage narrows, the pressure of the gas injected from the compressed air injection unit 140 increases while the speed decreases.

At this time, the longitudinal side of the first flow passage 132 is disposed adjacent to the air induction nozzle communication hole 134 . The air induction nozzle communication hole 134 generates a pressure difference with the housing body 110 through the hole 111, and the pressure of the housing body 110 is relatively higher than the pressure of the first flow path 132. do. Due to this, the air inside the housing body 110 moves to the first flow path 132 through the air induction nozzle 120 . In addition, the air located at the end of the first flow path 132 and the air moved from the housing body 110 move toward the second flow path 132 .

Since the second flow path 133 is spaced apart from the end of the first flow path 132 by a predetermined distance, the gas discharged to the compressed air injection unit 140 and the air moved from the housing unit body 110 through the space formed therebetween. can be induced to mix smoothly.

The second flow path 133 is formed to widen its pipe diameter along the discharge direction, so that the mixed air can be effectively discharged to the outside.

Also, the overall length L2 of the second flow path 133 may be formed relatively longer than the length L1 of the first flow path 132 . Conversely, it is preferable that the length L1 of the first flow path 132 is shorter than the overall length L2 of the second flow path 133 . The length of the first flow path 132 is formed short, the diameter of the flow path changes more rapidly, and the pressure change is formed more rapidly, so that the air inside the housing body 110 flows along the end of the first flow path 132. can be induced to move.

The fixture 136 may be formed in a concave groove shape along the inner circumferential surface of the body 131 . In addition, a protrusion (not shown) coupled to the fixture 136 may be coupled to the housing body 110 . Therefore, the vacuum forming unit 130 can be simply detachably coupled to the housing unit body 110 .

In addition, an outlet 137 for discharging the mixed air delivered through the second flow path 133 may be coupled to an end of the main body 131 . The discharge port 137 is formed with a plurality of holes in the radial direction to guide the mixed air to be discharged in the radial direction to prevent the mixed air from generating an eddy phenomenon inside, thereby inducing an effective vacuum in the housing body 110. can

The compressed air injection unit 140 is coupled to the vacuum forming unit 130 and injects gas into the first flow path 132 of the vacuum forming unit 130 . Then, the compressed air injection unit 140 may be coupled to the vacuum forming unit 130 to be replaceable. Therefore, when the gas accommodated in the compressed air injection unit 140 is used up, only the compressed air injection unit 140 can be simply replaced and used. At this time, an opening and closing unit capable of opening and closing the gas of the compressed air injection unit 140 may be provided. The opening/closing unit may operate in a way of turning a screw, but the operation method is not limited thereto.

At this time, the gas is preferably formed of CO ₂ . If the gas is formed of O ₂ , it may cause a fire when there is a fire around it, so it is preferable to form a gas that does not stick well to fire. In the present invention, the gas is limited to C0 ₂ , but is not limited thereto, and as described above, any gas having a non-flammable property may be applied in various ways.

In this way, simply explaining the operation method of the vacuum packaging apparatus according to the present invention once again, when gas is injected from the compressed air injection unit, the pressure of the vacuum forming unit is relatively lower than that of the housing unit body, so that the storage unit body As air is discharged through the air induction nozzle, the inside of the housing unit body may be formed in a vacuum state.

According to the present invention, the vacuum packaging container according to the present invention can easily maintain the inside of the housing body in a vacuum state through an air induction nozzle, a vacuum forming unit, and a compressed air injection unit that form a simple structure and coupling. Accordingly, a vacuum can be generated at a very low cost and with a very simple structure without a separate external device and power supply.

The present invention can be applied to various parts such as a disposable vacuum zipper bag for food, a vacuum food container, a vacuum food storage container for a refrigerator (kimchi container, fruit box, side dish box), a vacuum box (container) for emergency organ transportation, and an emergency corpse transportation bag. There are features.

On the other hand, the embodiments of the present invention disclosed in this specification and drawings are only presented as specific examples to easily explain the technical content of the present invention and help understanding of the present invention, and are not intended to limit the scope of the present invention. In addition to the embodiments disclosed herein, it is obvious to those skilled in the art that other modifications based on the technical idea of the present invention can be implemented.

110: storage unit body
111: hall
120: air induction nozzle
130: vacuum forming unit
131: body
132: first euro
133: second euro
134: air induction nozzle communication hole
135: discharge port
136: fixture
140: compressed air injection unit

Claims (3)

In the vacuum packaging device for forming the inner space of the storage unit in a vacuum state,
an air guiding nozzle coupled to a hole formed in the accommodating part and guiding air inside the accommodating part to the outside;
a vacuum forming unit coupled to the air induction nozzle; and
A compressed air injection unit coupled to the vacuum forming unit and injecting gas into the vacuum forming unit; includes,
The vacuum forming unit includes a main body, a first flow path formed in the main body so that the tube diameter is narrowed, a second flow path formed so that the tube diameter is widened along the discharge direction within the main body, and between the first flow path and the second flow path. An air guiding nozzle communication hole arranged to communicate with the hole formed in the accommodating part, an outlet formed at an end of the second flow path, and an outlet for discharging the mixed air delivered through the second flow path at the end of the main body. do,
The discharge hole is formed with a plurality of holes in a radial direction to guide the mixed air to be discharged in a radial direction, thereby preventing the mixed air from lingering inside and inducing a vacuum in the inner space of the housing unit,
When gas is injected from the compressed air injection unit, the pressure of the vacuum forming unit becomes relatively lower than that of the housing unit, so that the air of the housing unit is discharged through the air induction nozzle through the air induction nozzle to the housing unit. Vacuum packaging apparatus characterized in that for forming the inside of the vacuum state.
According to claim 1,
The compressed air injection unit,
The vacuum packaging device is coupled to the vacuum forming unit to be replaceable, and CO ₂ is accommodated therein.
According to claim 1,
The air induction nozzle,
A vacuum packaging device characterized in that it is a one-way valve.

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