KR101694767B1 - Automatic vacuum packaging machine for zipper bag - Google Patents

Abstract

Disclosed is an automatic vacuum packaging machine, automatically vacuum-packaging a zipper bag having a zipper and an inlet. The automatic vacuum packaging machine for the zipper bag comprises: an insertion groove enabling the inlet of the zipper bag to be inserted; a detection unit detecting the zipper bag inserted into the insertion groove; a pressing unit pressing the zipper bag in response to a detection of the zipper bag through the detection unit; and a vacuum processing unit sucking air inside the zipper bag through the inlet of the zipper bag while the zipper bag is pressed by the pressing unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic vacuum packing machine for a zipper-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic vacuum packaging machine for use in a zipper bag, and more particularly, to an automatic vacuum packaging machine for a zippered bag which can be used as a built-in type by fixing to a lower portion of an upper portion of a kitchen sink with a mounting rod and a screw.

Generally, when food or the like is stored using a plastic bag or a gas-tight container, maintenance of the line is not performed and inconvenience due to the inherent odor of the food is caused. To prevent this, a method of storing in a vacuum state by using a vacuum pack and a vacuum inhaler is widely used. Such an example is disclosed in Korean Patent Registration No. 10-1001750 (Registered on Dec. 10, 2010), and its main features are shown in Fig.

However, when the vacuum inhaler 20 is used as described in the above cited document, the vacuum inhaler 20 is operated by being pushed into the discharge groove 14 of the vacuum pack 10, When the vacuum packing is manually performed, it is inconvenient and the vacuum packing operation is not smoothly performed frequently. In addition, the inconvenience of always keeping the vacuum inhaler 10 in the kitchen is also incurred.

Unlike the vacuum pack disclosed in the above cited document, the vacuum pouches in the form of rolls are simply cut to an appropriate size without forming the discharge grooves 14, so that the vacuum pouches and the vacuum pouches for sealing the vacuum pouches heating has also been used. In addition to the disadvantages of the packing method disclosed in the above citation document, this method has been accompanied with the inconvenience that a heating machine should be used more.

In order to solve these various inconveniences, there has been developed a vacuum packing machine in which a vacuum inhaler and a heater are installed in a manner of attaching to the upper surface of a kitchen. However, in case of air sucking in the vacuum inhaler for forming a vacuum, And a zipper bag having a sealing means such as a zipper at one end thereof has been difficult to apply as it is.

Korean Registered Patent 10-1001750 (Registered on December 9, 2010)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide an automatic vacuum packing machine for automatically vacuum-packing a zipper bag having a suction port for air suction, And to reduce the contamination of the inside of the device, and to provide an automatic vacuum packaging machine for zipper bags.

According to an aspect of the present invention, there is provided an automatic vacuum packing machine for automatically vacuum-packing a zipper bag having a zipper and a suction port, the apparatus comprising: an insertion groove into which the suction port of the zipper bag can be inserted; A pressing portion for pressing the zipper bag in response to the detection of the zipper bag by the detecting portion and a pressing portion for pressing the zipper back in a state in which the zipper bag is pressed by the pressing portion, And a vacuum processing unit for sucking air in the zipper bag through an inlet of the zipper bag.

According to an embodiment of the present invention, the insertion groove is formed to extend from a front surface to a side surface of the automatic vacuum packaging machine, wherein an insertion groove portion formed on the one side surface is formed to have a height higher than other portions, And an upper guide and a lower guide for guiding the movement of the zipper bag when the zipper bag is inserted from one side of the automatic vacuum packaging machine do.

According to one embodiment, the detection unit may include a photosensor that detects the zipper bag so that the pressing portion presses the zipper bag in a state where the suction port of the zipper bag is positioned in the pressing portion, after the zipper bag is inserted into the insertion groove .

According to one embodiment, the pressing portion includes an actuator which moves in a downward direction in response to the detection of the zipper bag by the detection portion, and a pressing plate for pressing the pressing portion toward the zipper back side when the actuator is moved in the downward direction, and a press plate.

According to one embodiment, the vacuum processing unit includes a central portion and an edge portion, and the central portion is formed with a through hole passing through the upper surface and the lower surface of the central portion, and when the zipper bag is pressed by the pressing portion, A bottom rubber inserted in an edge portion of the bottom rubber to be in close contact with a bottom surface of the center portion, and air suction by the vacuum pump is applied to the bottom portion of the bottom rubber, And a vacuum pump for sucking air through a vacuum hole formed in the vacuum case. The vacuum pump includes a vacuum case and a vacuum pump.

According to one embodiment, the automatic vacuum packaging machine further includes an upper body disposed on the upper portion of the upper guide and formed with a protrusion for receiving the pressing portion, and a lower case disposed below the lower guide, A lower body having a vacuum case fixing hole formed therein to be fixedly coupled to the vacuum case insertion hole of the guide and a lower body located at a side of the upper guide and the lower guide between the upper body and the lower body, And an intermediate body for limiting the insertion depth of the zipper bag when the zipper bag is inserted from one side of the automatic vacuum packaging machine and fixing the vacuum pump.

According to one embodiment, the automatic vacuum packing machine further comprises an indicator lamp for indicating the start and end of the vacuum operation in the vacuum processing section.

According to an embodiment of the present invention, the automatic vacuum packaging machine includes a plurality of installation rods through which the screws can pass so that the lower surface of the installation object on which the automatic vacuum packaging machine is installed and the upper surface of the upper body are installed at a predetermined interval, Is formed on the upper side of the body.

According to one embodiment, the automatic vacuum packaging machine further includes an illumination unit mounted on the lower body.

In the present invention, the zipper bag inserted into the insertion groove is detected by an optical sensor, the zipper bag is pressed, and subsequently the air inside the zipper bag is sucked and vacuum-packed, thereby improving the efficiency and convenience of the vacuum packaging operation, The pollution can be reduced, and the convenience of management can be improved.

FIG. 1 is a view for explaining an example of a conventional vacuum packaging method,
2 is an external perspective view of an automatic vacuum packaging machine for a zipper bag according to an embodiment of the present invention,
(A) is a plan view, (B) is a rear view, (C) is a side view, and (D) is a front view showing a front view of the automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention. ego,
4 is a cross-sectional view taken along line I-I 'in a plan view (A) of FIG. 3,
FIG. 5 is a detailed view for explaining the detecting unit, the pressing unit, and the vacuum processing unit in FIG. 4,
6 is an exploded perspective view of an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention,
7 is a perspective view for explaining the arrangement relationship of the respective components of the automatic vacuum packaging machine for a zipper bag according to the embodiment of the present invention,
8 is a view illustrating an example of a zipper bag used in an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention,
9 is a view showing a state in which the automatic vacuum packaging machine for a zipper bag according to the embodiment of the present invention is installed on a lower surface of an upper part,
10 is a view for explaining an indicator lamp and an illumination unit in an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. It should be noted that the attached drawings and the embodiments referencing the same are simplified and exemplified so that those skilled in the art can easily understand the present invention. In addition, since the size or shape between elements in the accompanying drawings is exaggerated for effective explanation, these expressions should not be construed as limiting the scope of the present invention.

FIG. 2 is a perspective view of an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention, FIG. 3 is a view for explaining a feature of an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention, 4 is a sectional view taken along the line I-I 'in the plan view of FIG. 3, and FIG. 5 is a cross-sectional view taken along the line IV- A pressing portion, and a vacuum processing portion. FIG. 6 is an exploded perspective view of an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention, and FIG. 7 is a perspective view illustrating a layout of respective components of the automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention. And FIG. 8 is a view illustrating an example of a zipper bag used in an automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention.

2 to 5, an automatic vacuum packing machine 100 for a zippered bag according to an embodiment of the present invention is an automatic vacuum packing machine 100 for automatically vacuum-packing a zipper bag having a zipper and a suction port, A detection portion for detecting a zipper bag to be inserted into the insertion groove 110; and a pressing portion for pressing the zippered bag in response to the detection of the zippered bag by the detection portion, And a vacuum processing unit 140 for sucking air in the zipper bag through the suction port of the zipper bag in a state in which the zipper bag is pressed by the pressing unit.

Since the overall shape of the automatic vacuum packaging machine 100 is illustrated as a rectangular parallelepiped, when the zipper bag is inserted into the insertion groove 110 in the automatic vacuum packing machine 100 for convenience of explanation, The portion of the front surface F1 where the insertion groove 110 extends is referred to as a side surface F2. The insertion groove 110 includes the opening 110a formed in the front surface F1 of the automatic vacuum packaging machine 100 and the opening 110b formed in the side surface F2, The opening 110a formed and the opening 110b formed on one side F2 are communicated with each other so that the zipper bag can be inserted from one side F2.

An example of a zipper bag used in the automatic vacuum packaging machine 100 of the present invention is shown in Fig. 8, which is generally bonded along both sides of upper and lower sheets S1 and S2, And a zipper Z is formed at a portion to be an entrance for the purpose. An inlet H serving as a passage for sucking air through the automatic vacuum packing machine is formed.

The insertion groove 110 is a component for allowing the suction port of the zipper bag to be inserted. Since the mouth of the zipper bag is thin, the insertion groove 110 is formed at a height enough to insert the zipper bag. Since the zipper portion formed at the mouth of the zipper bag is inserted into the insertion groove 110, the suction port of the zipper bag is preferably disposed adjacent to the zipper.

In order to allow the zipper bag to be inserted smoothly, the insertion groove 110 may be formed such that the insertion groove portion formed by the one side surface F2, that is, the opening 110b is higher than the other portions.

The detection unit 120 is a component for detecting a zipper bag to be inserted into the insertion groove 110. For example, when the zipper bag is inserted into the insertion groove 110 through the opening 110b, the detection unit 120 detects the zipper bag to detect the zipper bag to start the pressing operation of the zipper bag by the pressing unit 130 Lt; / RTI > The detecting unit 120 may be configured to perform the air suction operation of the vacuum processing unit 140 through the suction port H of the zipper bag so that the pressing unit 130 starts the pressing operation in the state that the suction port H of the zipper bag is positioned in the pressing unit 130 Is performed smoothly. Therefore, the optical sensor should be disposed in consideration of the position of the inlet H in the zipper bag, and the distance M from the side end of the zipper back to the inlet H (see Fig. 8). Generally, the size of the zippered bag varies, but the distance M from the side end to the inlet H is standardized in various sizes of zipper bags. Therefore, The light sensor must be arranged such that the distance from the side end of the zipper back to the intake space H corresponds to the distance M to the inner space 144b of the airbag 144.

The pressing portion 130 is a component for pressing the zipper bag in response to the zipper bag detection signal from the detecting portion 120. [ The pressing portion 130 includes an actuator 132 which moves in a downward direction in response to the detection of the zipper bag by the detecting portion 120 and a pressing plate 130 which is connected to the actuator 132 and presses the zipper- and a press plate 134. For example, a pressure plate 134 is connected to the rod 132a side of the actuator 132 to press down the suction port H portion of the zipper bag located in the pressure plate 134 downward. Further, the actuator 132 may be of an operating type using, for example, a solenoid coil.

The vacuum processing unit 140 includes a bottom rubber 142, a vacuum case 144, and a vacuum pump 146. The vacuum processing unit 140 is a component for completing the vacuum packaging by sucking the air in the zipper bag using the vacuum pump 146 when the suction port H of the zipper bag is pressed by the pressing unit 130.

The bottom rubber 142 is divided into a center portion 142a and an edge portion 142b and a through hole 142c passing through the upper and lower surfaces of the center portion 142a is formed in the center portion 142a. Thus, when the zipper bag is pressed by the pressing portion 130, the suction port H of the zipper bag is held in a state corresponding to the through hole 142c.

The vacuum case 144 is a component that is inserted into the edge portion 142b of the bottom rubber 142 and is brought into close contact with the lower surface of the center portion 142a and has a vacuum hole 144a so that air can be sucked by the vacuum pump 146, And an inner space 144b is formed so that the vacuum pump 146 can suck air in the zipper bag through the vacuum hole 144a. The vacuum case 144 also includes a vertical portion 144c defining the inner space 144b and a horizontal portion 144d structure for securing it in the lower body 160. [ Thus, the vacuum case 144 is inserted into the vacuum case fixing hole 162 (see FIG. 6) formed in the lower body 160 while being coupled to the vacuum case insertion hole 192 which is a part of the structure of the lower guide 190 .

The vacuum pump 146 is a component for sucking air through a vacuum hole 144a formed in the vacuum case 144. [ The vacuum pump 146 is supported by a vacuum pump support bar 166 formed on the lower body 160 and fixed by a vacuum pump fixing bar 172 formed on the intermediate body 170. That is, the vacuum pump 146 is held fixed between the vacuum pump supporting bar 166 and the vacuum pump fixing bar 172.

6, the automatic vacuum packaging machine 100 includes an upper body 150, a lower body 160, an intermediate body 160, and a lower body 160. The upper body 150, the lower body 160, A lower guide 170, an upper guide 180, and a lower guide 190.

The upper guide 180 and the lower guide 190 are located at the upper and lower portions of the insertion groove 110 and guide the movement of the zipper bag when the zipper bag is inserted from the opening 110b of the side surface F2 . The upper guide 180 and the lower guide 190 also limit the height of the insertion groove 110 so that the zipper bag can be retained in the insertion groove 110. The upper guide 180 is formed with a presser plate insertion hole 182 for providing an internal space for the presser plate 134 to move up and down and a vacuum case 144 is inserted into the lower guide 190 A vacuum case insertion hole 192 is formed to provide an internal space.

The upper body 150 is disposed on the upper portion of the upper guide 180 and has a protrusion 152 that can receive the pressing portion 130 therein. That is, not only a space can be secured so that the pressing plate 134 is connected to the rod 132a of the pressing unit 130 so that the pressing plate 130 can move up and down, but also the height of the pressing unit 130 must be taken into account. A protrusion 152 protruding upward from the upper body 150 is formed on the upper body 150 side.

The lower body 160 is disposed at the lower portion of the lower guide 190 and the vacuum case 144 can be fixed in the vacuum case insert hole 192 of the lower guide 190 while being coupled A vacuum case fixing hole 162 is formed.

The middle body 170 is located at the side of the upper guide 180 and the lower guide 190 between the upper body 150 and the lower body 160 and is inserted into the lower body 160 when the zipper bag is inserted from one side F2 The vacuum pump fixing bar 172 is formed and the vacuum pump 146 is fixed and held together with the vacuum pump supporting bar 166 of the lower body 160 as described above, . The first intermediate surface 174 of the intermediate body 170 limits the depth of insertion into the zipper bag and the second intermediate surface 176 limits the depth of insertion of the zipper bag in the lateral direction.

Referring to FIGS. 4 through 7, the insertion groove 110, the detection unit 120, the pressing unit 130, the vacuum processing unit 140, the upper body 150, the lower body 160, the intermediate body 170, The upper guide 180, and the lower guide 190 will be described in more detail as follows.

The detection unit 120 is positioned at one end of the second intermediate surface 176 of the intermediate body 170 to detect the zipper bag inserted through the insertion groove 110. The upper guide 180 and the lower guide 190 are spaced apart from each other by a predetermined distance so as to form an insertion groove 110 for allowing insertion of the zippered bag. A presser plate insertion hole 182 provided in the upper guide 180 and a vacuum case insertion hole 192 provided in the lower guide 190 are arranged to correspond to each other. A pressure plate 134, a bottom rubber 142, and a vacuum case 144 are disposed in this order from the top. As described above, the pressure plate 134 is coupled to one end of the rod 132a of the actuator 132 and moves up and down. When the zipper bag is inserted, a zipper bag is inserted between the pressure plate 134 and the bottom rubber 142 maintain. The suction port H (see FIG. 8) of the zipper bag is adapted to fit into the through hole 142c formed in the pressure plate 142.

The vacuum case 144 is configured to be detachable from the lower portion of the lower body 160. When the vacuum case 144 is inserted and fixed through the vacuum case fixing hole of the lower body 160, The vertical portion 144c of the vacuum case 144 is inserted into the vacuum case insertion hole 192 of the lower guide 190 via the edge portion 142b of the bottom rubber 142, So that the inner space 144b between the horizontal portion 144d of the vacuum case 144 and the bottom rubber 142 can be sealed. When air is sucked by the vacuum motor for the vacuum packaging operation of the zipper bag, moisture or moisture in the contents contained in the zipper bag may come out to cause malodor or malfunction of the vacuum packing machine. It is possible to detach the vacuum case 144 from the lower part of the lower body 160.

3, reference numeral 164 denotes a power button of the automatic vacuum packaging machine for a zippered bag, and 166 denotes a power input terminal. Although not described in detail, the automatic vacuum packaging machine for zippered bag according to the embodiment of the present invention includes a circuit part (not shown) for driving the pressing part 130 and a circuit part (not shown) for driving the vacuum motor 146 And a printed circuit board including the printed circuit board may be provided between the upper body 150 and the lower body 160 or inside the intermediate body 170. [

The automatic vacuum packaging machine for a zippered bag according to an embodiment of the present invention includes a plurality of installation holes for allowing a screw to pass therethrough so that the lower surface of the installation object and the upper surface of the upper body, A rod can be formed. 9 is a view showing a state in which an automatic vacuum packaging machine for a zipper bag according to an embodiment of the present invention is installed below the upper parts SD and SC as objects to be installed. Reference symbol SD denotes the door of the upper floor, and reference symbol SC denotes the bottom floor of the upper floor. Referring to FIG. 9 together with FIG. 7, a plurality of mounting bars 201 are formed on the upper side of the upper body 150. The number of the mounting bars 201 may be three or more as shown in the figure. The height h2 of the plurality of mounting bars 201 is preferably the same. A screw hole 201a is formed at the center of the mounting rod 201 so that a screw (not shown) penetrates from the lower part of the lower body 160 and is fixed to the bottom plate SC of the upper part. The height h2 of the mounting rod 201 should be higher than the height h1 of the protrusion 152 of the upper body 150. A lower portion of the door SD of the upper part and an upper surface of the upper body 150 of the automatic vacuum packaging machine for zippering can be substantially flush with each other so that a part of the upper body of the vacuum packing machine is attached to the door SD The height of the lower end of the upper door SD and the lower end of the bottom plate SC in order to prevent the gap between the lower end of the upper door SD and the upper surface of the upper body 150 from spreading, (h3). When the distance d1 between the mounting rod 201 close to the side end of the bottom plate SC and the side end of the bottom plate SC is excessively small when the bottom plate SC of the upper part is made of wood, The plate SC may be damaged. To prevent this, it is preferable that the distance d1 is spaced so as to be approximately 40 mm or more. Also, as shown in the figure, it is preferable that the front surface of the door SD of the upper part and the front surface of the automatic vacuum packaging machine for zippered bag are coplanar.

Further, the automatic vacuum packing machine for zipper bag according to an embodiment of the present invention may further include an indicator light 210 for allowing the user to know the start and end of the vacuum operation in the vacuum processing unit 140. Furthermore, the automatic vacuum packaging machine for zipper bag according to an embodiment of the present invention may further include an illumination unit 220 mounted on the lower body 160.

10 is a view for explaining an indicator lamp and an illuminating unit in the automatic vacuum packaging machine for a zipper bag according to an embodiment of the present invention. As shown in FIG. 10, an indicator lamp 210 may be provided on the lower body 160 Further, the illumination unit 220 may be further provided at a lower portion of the lower body 160. The illumination unit 220 may be in the form of an LED module having a plurality of LED chips mounted thereon.

100: Automatic vacuum packing machine for zipper bag
110: insertion groove 120:
130: pressing part 140: vacuum processing part
150: upper body 160: lower body
170: intermediate body 180: upper guide
190: lower guide 201: mounting rod
210: Indicator 220: Illuminator
132: actuator 132a: rod
134: pressure plate 142: bottom rubber
142a: center portion 142b: edge portion
142c: Through hole 144: Vacuum case
144a: Vacuum hole 144b: Inner space
144c: vertical part 144d: horizontal part

Claims (9)

An automatic vacuum packing machine (100) for automatically vacuum-packing a zipper bag having a zipper and an inlet,
Insertion groove 110 for the inlet of the zippered bag to be insertable into said groove (110) being formed to extend from the front to one side, the insertion groove portion formed on the one side of the automatic vacuum packaging machine is the height of the other portion ≪ / RTI >
A detection unit (120) for detecting the zipper bag inserted into the insertion groove;
A pressing portion (130) for pressing the zipper bag in response to detection of the zipper bag by the detection portion;
A vacuum processing unit (140) for sucking air in the zipper bag through the suction port of the zipper bag in a state where the zipper bag is pressed by the pressing unit; And
An upper guide 180 for guiding movement of the zipper bag when the zipper bag is inserted from one side F1 of the automatic vacuum packaging machine, And a lower guide (190); / RTI >
The vacuum processing unit 140,
And a through hole 142c passing through an upper surface and a lower surface of the center portion is formed at the center portion so that when the zipper bag is pressed by the pressing portion, A bottom rubber 142 for supporting the zipper bag in a state where the suction port is positioned corresponding to the through hole,
A vacuum hole 144a is formed in the edge portion 142b of the bottom rubber so as to be in close contact with a lower surface of the center portion 142a so that air can be sucked by the vacuum pump, A vacuum case 144 to be inserted into the vacuum chamber 192,
And a vacuum pump (146) for sucking air through a vacuum hole formed in the vacuum case. delete The apparatus of claim 1, wherein the detector (120)
And an optical sensor for detecting the zipper bag so that the pressing portion presses the zipper bag in a state where the suction port of the zipper bag is positioned in the pressing portion after the zipper bag is inserted into the insertion groove. [2] The apparatus according to claim 1, wherein the pressing portion (130)
An actuator (132) that moves in a downward direction in response to detection of the zipper bag by the detection unit,
And a press plate (134) connected to the actuator to urge the actuator toward the zipper bag when the actuator is moved in a downward direction. delete The automatic vacuum packing machine according to claim 1,
An upper body 150 disposed above the upper guide and having a protrusion for receiving the pressing portion,
A lower body 160 disposed at a lower portion of the lower guide and having a vacuum case fixing hole 162 formed therein for fixing the vacuum case to the vacuum case insertion hole 192 of the lower guide,
The upper and lower guides are located at the sides of the upper guide and the lower guide in the middle of the upper body and the lower body so as to restrict the insertion depth of the zipper bag when the zipper bag is inserted from one side of the automatic vacuum packaging machine, And an intermediate body (170) for securing the body (110). The automatic vacuum packing machine according to claim 1,
And an indicator (210) for indicating the start and end of the vacuum operation in the vacuum processing unit. 7. The automatic vacuum packing machine according to claim 6,
A plurality of mounting rods 201 through which screws can be inserted are formed on the upper side of the upper body so as to install the lower surface of the mounting object on which the automatic vacuum packing machine is installed and the upper surface of the upper body with a predetermined gap. Automatic vacuum packing machine. 7. The automatic vacuum packing machine according to claim 6,
And an illumination unit (220) mounted on the lower body.

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