KR20060014234A - A vacuum packing system with an inserted nozzle assembly and a nozzle assembly inserted in chamber - Google Patents

Abstract

The present invention relates to a chamber-insertable nozzle device inserted into a chamber of a chamber type vacuum packaging machine to assist vacuum packaging. The present invention also relates to a nozzle device insertion type vacuum packaging system using the chamber insertion type nozzle device.

According to the present invention, since it is possible to obtain the same effect as using a nozzle type vacuum packaging machine while still utilizing the conventional chamber vacuum packaging machine, it is possible to vacuum pack general vacuum packaging paper at a low cost.

Vacuum Packaging Machine, Vacuum Packaging Paper, Nozzle

Description

A vacuum packing system with an inserted nozzle assembly and a nozzle assembly inserted in chamber

1 is a conventional chamber vacuum packaging machine.

2 is a cross-sectional view of the chamber insertion nozzle apparatus according to the present invention.

Figure 3 schematically shows the configuration of the chamber insertion nozzle apparatus according to the present invention inserted into the chamber.

Figure 4 is a perspective view of the chamber insertion nozzle apparatus is inserted into the chamber of the vacuum packaging machine according to the present invention.

5 is a cross-sectional view of the chamber insertion nozzle apparatus of the present invention inserted into a chamber of a vacuum packaging machine.

* Description of the main parts of the drawings *

10: nozzle 11: rack

12: inserting portion 13: embossing

20: motor 21: drive gear

30 housing 31 frame

32: cover part 40: power part

50: microcomputer 60: pressure sensor

70: liquid container 100: upper case

101,201: elastic packing 200: lower case

300: heating unit 400: general vacuum packaging

400 ': embossed vacuum packaging 500: chamber

The present invention relates to a chamber-insertable nozzle device inserted into a chamber of a chamber type vacuum packaging machine to assist vacuum packaging. The present invention also relates to a nozzle device insertion type vacuum packaging system using the chamber insertion type nozzle device.

In general, the vacuum packaging machine is hingedly coupled to the upper case and the lower case, and the vacuum packaging is placed between the upper case and the lower case, and the case is closed to vacuum the packaging. Vacuum packaging machines can be divided into chamber type and nozzle type according to the vacuum packaging method.

The conventional chamber type vacuum packaging machine shown in Figure 1 is known through the Republic of Korea Patent Publication No. 92-0700998, etc., after the opening of the vacuum wrapping paper 400 'in the chamber 500, using a vacuum pump, etc. The air inside the chamber is sucked in to vacuum the inside of the wrapper.

When the vacuum packaging is completed using a vacuum pump or the like, the opening of the wrapping paper is heat-sealed and sealed by the heating unit 300 positioned in front of the upper case 100 and the lower case 200, thereby completing the packaging. It is described in detail through the Utility Model Registration No. 20-0319700.

In the case of using the chamber type vacuum packaging machine as described above, in order to smoothly escape the air inside the vacuum packaging paper, an embossing or other air passage should be formed inside the vacuum packaging paper.

By the way, since the vacuum packaging paper in which the air passage is formed is relatively expensive, a nozzle-type vacuum packaging machine such as Registration Utility Model No. 20-0322449 or the like has been invented for vacuum packaging even in general packaging paper in which the air passage is not formed.

The nozzle type vacuum packaging machine is a suction nozzle is inserted through the opening of the vacuum packaging paper to make the inside of the vacuum packaging paper into a vacuum. After the completion of the vacuum, the nozzle is retracted and then opened through a heating part as disclosed in Korean Utility Model No. 20-0319700. It was common to heat seal wealth.

Using the nozzle type vacuum packaging machine as described above has the advantage that the vacuum packaging can be made with a general vacuum packaging paper that does not have an air passage, but the user of the conventional chamber vacuum packaging machine, instead of the vacuum packaging paper formed with an expensive air passage There was a problem in that a much more expensive nozzle type vacuum packaging machine has to be purchased in order to use a general vacuum packaging paper.

The present invention has been invented to solve the above problems, it is an object to produce the same advantageous effect of the nozzle-type vacuum packaging machine, while using the conventional chamber-type vacuum packaging machine.

The present invention, in order to achieve the above object, a motor; A frame to which the motor is fixed; A pressure sensor coupled to the frame; A nozzle coupled to the frame to be movable by the motor; A microcomputer coupled to the frame and controlling the rotation of the motor based on the pressure measured by the pressure sensor; Characterized in that it comprises a.

In addition, the chamber-insertable nozzle device having the above-described configuration, and the chamber-type vacuum packaging machine for vacuum-packing the vacuum packaging by sucking the air in the chamber so that the opening is located in the chamber formed therein, the nozzle during the vacuum packaging One end of is located in the front of the chamber, characterized in that to retreat backward after the vacuum is completed.

More specifically, the chamber insertion nozzle device is characterized in that for supplying power using a rechargeable battery coupled to the inside of the frame.

Hereinafter will be described in detail through the preferred embodiment of the present invention shown in the accompanying drawings.

As shown in Figure 2, the frame 31 is a panel forming the bottom or bottom and side surfaces of the chamber insertion nozzle apparatus according to the present invention, the frame 31 to the motor 20 and the motor 20 The drive gear 21 and the like are rotated by this position.

The frame 31 constitutes a housing together with a cover portion 32 coupled to the upper portion. When the frame 31 is a panel forming a bottom surface, it is preferable that the cover part 32 forming a top surface and a side surface is coupled. When the frame 30 is a panel forming a bottom surface and a side surface, an upper surface is formed. It will be desirable to allow the cover portion 32 to be formed to be coupled.

The motor 20 is located inside the housing 30, and the motor 20 rotates the drive gear 21.

The drive gear 21 meshes with the rack gear portion 11 formed behind the nozzle 10 to transmit the rotational force of the motor 20 to the nozzle 10.

The nozzle 10 is comprised of the insertion part 12 of a front side, and the lex gear part 11 of a rear side. The insertion part 12 preferably has a tube shape formed of a flexible material, and more preferably embossing is formed to form a flow path. The rack gear part 11 is composed of a hollow body having gears formed on an outer circumferential surface thereof, and is reciprocated in the front and rear directions according to the rotation of the drive gear 20.

The liquid accommodating part 70 is located behind the nozzle 10. The liquid container is a container that can accommodate soup and the like sucked through the nozzle 400. The nozzle 10 is for sucking the air inside the vacuum packing paper 400, but since the soup is sucked together during the suction process, which may cause a breakdown of the vacuum pump or other electric devices, the soup is stored separately to prevent it. It is to. The collected liquid opens the top or side of the housing 30 so that the liquid accommodating part 70 can be taken out and removed. Therefore, the liquid accommodating part 70 should be coupled so as to be easily separated from the support frame 31. It may be desirable to have an elastic hook or the like formed on the support frame 31 so that the liquid container is easily detachable.

The pressure sensor 60 is coupled to the frame 30 as schematically shown in FIG. 3, and measures the pressure inside the chamber 500 to transmit a signal for the pressure to the microcomputer 50.

The microcomputer 50 receives the signal for the pressure to control the driving of the motor 20.

When the pressure sensor 60 is located inside the housing 30, an air passage should be formed in the housing 30 so that there is no difference in air pressure between the inside and the outside of the housing 30. This is because the pressure to be measured by the pressure sensor 60 is the pressure of the entire chamber 500, not the pressure inside the housing 30.

The air passage may be formed by opening the upper portion of the housing 30 or forming a hole in various places of the housing 30 to allow air to move. The housing 30 may be formed in any form unless the housing 30 is sealed to block the air flow.

Power required for the operation of the motor 20 and the microcomputer 50 used in the present invention is supplied by the power unit 40. The power unit may be a rechargeable battery coupled to the frame 31, but may also draw power by connecting an electric wire to an external outlet. Even though the electric wire is connected to the outside, the outside of the chamber of the vacuum packaging machine is sealed by the packing members 101 and 201 which are elastic, so that the wire inside the packing member 101 and 201 does not release the sealed state inside the chamber 500. to be.

Looking at the process of vacuum-packing the vacuum packaging paper 400 using the chamber insertion nozzle apparatus according to the present invention, first, the chamber insertion nozzle apparatus is positioned in a portion where the chamber 500 is formed as shown in FIGS. 4 and 5.

Then, as shown in FIG. 5, the opening of the vacuum packaging paper 400 is positioned in the chamber 500, and the nozzle 10 is inserted into the packaging.

When the upper case 100 and the lower case 200 are closed to seal the inside of the chamber 500 by the packing member having elasticity, the switch is turned on to drive a vacuum pump (not shown) located inside the vacuum packaging machine. As the inside of the vacuum becomes a vacuum, the inside of the vacuum wrapping paper 400 also becomes a vacuum state.

When the vacuum is completed, the pressure sensor 60 detects this and sends a signal to the microcomputer 50, and the microcomputer 50 rotates the motor 20 by the driving gear 21 and the lex gear unit 11. Let the nozzle 10 retract.

When the nozzle 10 is retracted, heat is applied to the heating part 300 to heat-open the opening of the vacuum packaging paper 400.

When the heat sealing is completed, open the upper case 100 to remove the vacuum wrapping paper and then store.

In the above embodiment, the nozzle 10 is moved back and forth by the drive gear 21 and the lex gear 11 as an example. However, if the nozzle 10 is moved, other means may be used.

The effects of the present invention are summarized as follows.

First, it is possible to utilize the advantages of the nozzle-type vacuum packaging machine by utilizing the conventional chamber vacuum packaging machine as it is, it is possible to use a general vacuum packaging paper at a low cost.

Secondly, when the power unit can be charged, there is no need for a separate wire connected to the outside, thereby increasing the sealing effect inside the chamber.

Claims (3)

A chamber-type vacuum packaging machine which vacuum-packs the vacuum packaging paper by sucking the air in the chamber so that the opening of the vacuum packaging paper is located in the chamber formed therein; A motor; A frame to which the motor is fixed; A pressure sensor coupled to the frame; A nozzle coupled to the frame to be movable by the motor; A microcomputer coupled to the frame and controlling the rotation of the motor based on the pressure measured by the pressure sensor; Consists of a chamber insert nozzle device, including During vacuum packaging, one end of the nozzle is located inside the vacuum packaging paper, the nozzle device insert vacuum packaging system, characterized in that to retreat to the rear after completion of the vacuum. A motor; A frame to which the motor is fixed; A pressure sensor coupled to the frame; A nozzle coupled to the frame to be movable by the motor; A microcomputer coupled to the frame and controlling the rotation of the motor based on the pressure measured by the pressure sensor; Chamber-insertable nozzle device comprising a. 3. The chamber insertion type nozzle apparatus according to claim 2, wherein power is supplied using a rechargeable battery coupled to the frame.

Images