KR102185972B1 - An Apparatus for Supplying a Standard Quantity of a Liquid - Google Patents

Abstract

The present invention relates to a liquid quantitative supply device. The liquid quantitative supply device includes: a supply container 11 having a discharge passage 15 formed therein; An adjustment unit 12 coupled to the upper side of the supply container 11 to enable opening and closing of the supply container 11; An induction unit 13 for moving the adjustment unit 12 up and down; And an operation unit 14 for moving the control unit 12 up and down along the induction unit 13, wherein the control unit 12 moves the induction unit 13 according to a change in external pressure of the supply container 11. It moves up and down accordingly.

Description

Liquid Quantitative Supply Device {An Apparatus for Supplying a Standard Quantity of a Liquid}

The present invention relates to a liquid quantitative supply apparatus, and more particularly, to a liquid quantitative supply apparatus capable of discharging a liquid from a supply container in a predetermined amount without error.

The liquid contained in a pouch, bottle or pack for the sale of food and beverage or similar liquids needs to have a predetermined amount. The liquid contained in a pouch, bottle or pack can be supplied, for example, by a metering pump, and various techniques for metering supply are known in the art. Patent Publication No. 10-2010-0087993 discloses an extractor having a quantitative supply sensor and a method of quantitatively supplying an extract. In addition, Patent Registration No. 10-1803230 discloses a liquid quantitative supply device. The prior art has a disadvantage in that it is difficult to supply quantitatively without errors while being structurally complicated by installing a detection sensor or disposing a flow rate control means such as a check valve. Therefore, it is necessary to develop a quantitative supply technology that is structurally simple and capable of quantitative supply while having a predetermined error level.

The present invention has the following objects to solve the problems of the prior art.

Prior Art 1: Patent Publication No. 10-2010-0087993 (Hallrae No, published on Aug. 6, 2010) Extractor with quantitative supply sensor and quantitative supply method of extract liquid Prior art 2: Patent registration number 10-1803230 (Changwoo Enviro Co., Ltd., 2017.11.29. Announcement) Liquid quantitative supply device

An object of the present invention is to provide a liquid quantitative supply device capable of supplying a fixed amount within a predetermined error range while having a simple operation structure.

According to a preferred embodiment of the present invention, the liquid quantitative supply device includes: a supply container having a discharge passage; An adjustment unit coupled to an upper portion of the supply container to enable opening and closing of the supply container; An induction unit for moving the adjustment unit up and down; And an operation unit for moving the control unit up and down along the induction unit, wherein the control unit is moved up and down along the induction unit according to a change in external pressure of the supply container.

According to another suitable embodiment of the present invention, at least a part of the induction unit has a structure capable of gas flow, and has an induction hole for introducing gas.

According to another suitable embodiment of the present invention, it further includes a liquid receiving container disposed outside the supply container to supply a liquid into the supply container while adjusting the external pressure.

The liquid quantitative supply apparatus according to the present invention is structurally simple by supplying and discharging liquid while the control unit is opened and closed according to the pressure difference. And by controlling the amount of discharge by adjusting the pressure difference, the amount of discharge can be precisely controlled without error. The quantitative supply device according to the present invention can be applied to quantitative supply of food and beverage, chemical solutions, or various liquids similar thereto, and is applied to an extractor to enable quantitative supply to a pouch packaging machine.

1 shows an embodiment of a liquid quantitative supply device according to the present invention.
2 and 3 show an assembly view and an exploded view of an embodiment to which the liquid quantitative supply device according to the present invention is applied.
Figure 4 shows an embodiment in which the liquid quantitative supply device according to the present invention is applied to an extractor.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so if they are not necessary for the understanding of the invention, they will not be described repeatedly, and well-known components will be briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiment of.

1 shows an embodiment of a liquid quantitative supply device according to the present invention.

Referring to FIG. 1, the liquid quantitative supply device includes: a supply container 11 having a discharge passage 15; An adjustment unit 12 coupled to the upper side of the supply container 11 to enable opening and closing of the supply container 11; An induction unit 13 for moving the adjustment unit 12 up and down; And an operation unit 14 for moving the control unit 12 up and down along the induction unit 13, wherein the control unit 12 moves the induction unit 13 according to a change in external pressure of the supply container 11. It moves up and down accordingly.

The supply container 11 may be, for example, a hollow cylinder shape as a whole, and may have a structure capable of receiving a liquid therein. A discharge passage 15 for discharging the liquid contained therein may be formed in the supply container 11, and for example, the discharge passage 15 may be formed below the supply container 11. The supply container 11 may be sealed by the control unit 12, and the control unit 12 may be, for example, a cover that seals the upper portion of the supply container 11, but is not limited thereto. The control unit 12 can be moved according to the external pressure or the internal pressure of the supply container 11, and when the external pressure or the internal pressure of the supply container 11 reaches a predetermined level, the supply container 11 can be sealed. have. The adjustment unit 12 can be moved along an induction unit 13 having a linear tube and piston structure, and the upper end of the induction unit 13 can be coupled to the operating unit 14. The operating unit 14 can be, for example, a pressure cylinder or similar pressure operating means. The supply container 11 may be disposed inside the liquid receiving container 16, and a chemical liquid, extract, beverage or similar liquid supplied to a packaging pack RC such as a pouch or a pack is stored in the liquid receiving container 16. Can be accommodated. The liquid can be conveyed to the liquid receiving container 16 through the supply tube 17, and the supply tube 17 can be connected with the storage container 18. The liquid can be transferred from the storage container 18 to the liquid receiving container 16 through the supply tube 17. The liquid receiving container 16 may have a closed structure, and when a liquid is supplied to the liquid receiving container 16, the liquid level rises and the internal pressure of the liquid receiving container 16 may change. The change in the internal pressure of the liquid container 16 becomes a change in the external pressure of the supply container 11. When the external pressure of the supply container 11 changes, the internal pressure of the supply container 11 may change accordingly. For example, when the pressure of the liquid storage container 16 increases, the air above the stored liquid is transferred to the supply container 11 ), or the control unit 12 may be moved upward while flowing into the interior of the induction unit 13. Accordingly, the liquid can be introduced into the supply container 11, for example, the control unit 12 having a cover structure moves upward along the induction unit 13, Liquid can be supplied inside. When the liquid flows into the supply container 11 from the liquid receiving container 16, the air introduced into the induction unit 13 or into the supply container 11 is discharged to the outside, and the control unit 12 is It is restored to its original position, and the supply container 11 is closed. The operating unit 14 can be maintained at a predetermined pressure, and the operating unit 14 can be connected to the pressure regulating means 19 and maintained at a predetermined pressure. As liquid flows into the supply container 11, the pressure applied to the valve installed in the discharge passage 15 increases and the valve opens accordingly, and the liquid contained in the supply container 11 passes through the discharge path 15. Accordingly, it may be supplied as a packaging pack (RC). A valve for opening and closing the discharge path 15 may or may not be installed. When a valve is installed, the on/off valve may be operated in conjunction with the control unit 12, and for example, when the control unit 12 is closed, it may be opened, and when it is opened, it may be closed. Thereafter, when the liquid is supplied to the liquid receiving unit 16 again, the process described above is repeated again, and the liquid may be supplied to the new packaging pack RC. When the supply container 11 is opened and closed according to the change in the external pressure of the supply container 11, a predetermined amount is introduced into the supply container 11 and supplied to the receiving pack RC. In addition, the supply error is not caused by the amount according to the pressure change flowing into the supply container 11 and supplied to the receiving pack RC.

Hereinafter, a process in which the liquid flows into the supply container 11 according to the change of the external pressure will be described.

2 and 3 show an assembly structure and an exploded structure of an embodiment to which the liquid quantitative supply device according to the present invention is applied.

2 and 3, the supply unit 11 may be made of, for example, a metal material such as stainless steel or a synthetic resin material. The supply unit 11 may have a hollow cylinder shape as a whole, and a conical guide portion 121 may be formed at a lower portion. In addition, the discharge passage 15 may be formed from the lower end portion of the conical shape, and the guide tube is connected to the lower side of the discharge passage 15 to supply the liquid to the receiving pack. As described above, a valve may or may not be installed in the induction path of the induction tube. A sealing ring 122 having elasticity may be installed on the upper edge of the supply container 11, and the control unit 12 may have a cover structure that seals the upper side of the supply container 11. One end of the induction unit 13 having a circular tube structure as a whole is coupled to the adjustment unit 12, and the induction unit 13 may extend in a direction perpendicular to the upper surface of the adjustment unit 12. The upper end of the regulating unit 12 can be connected to an operating unit 14 which has the function of a pressure cylinder. In addition, the induction unit 13 may be disposed in a form penetrating through the sealing cover 21 sealing the upper side of the liquid receiving container. Referring to the right side of Figure 2, the induction unit 13 is a moving cylinder 131; A limiting cylinder 132 that limits the movement of the induction unit 13 while moving up and down together with the moving cylinder 131; And an induction hole 133 formed in the limiting cylinder 132. When the external pressure of the supply container 11 increases, air is introduced along the induction hole 133, and accordingly, the control unit 131 moves upward, and the control unit 12 may move upward along with it. The operation unit 14 may be maintained at a predetermined pressure, and when the pressure is increased by air inflow, the moving cylinder 131 may be moved upward with respect to the operation unit 14. When the liquid flows into the supply container 11 and the external pressure of the supply container 11 decreases, the air introduced through the induction hole 133 is discharged to the outside again, and the control unit 12 together with the induction unit 13 ), while the upper portion of the supply container 11 is closed, the inflow of liquid into the supply container 11 is stopped. By making the diameter of the limiting cylinder 132 larger than the diameter of the moving cylinder 131, the movement in the upward direction of the induction unit 13 may be restricted. In addition, the balance member 22 is disposed below the adjustment unit 12 so that the vertical movement of the adjustment unit 12 can be stably performed. For example, the adjustment unit 12 has a disk shape, and may be coupled to the lower surface of the adjustment unit 12 so that a plurality of balance members 22 are symmetric with respect to the center of the disk. The balance member 22 may have a structure extending in a vertical direction, but is not limited thereto. Optionally, an induction tab 23 is installed at the lower end of the induction unit 13 to move in the upward direction of the control unit 12 while flowing into the supply container 11 through the induction hole 133. I can.

The movement of the adjustment unit 12 can be made in various ways and is not limited to the presented embodiment.

Figure 4 shows an embodiment in which the liquid quantitative supply device according to the present invention is applied to an extractor.

Referring to FIG. 4, the quantitative supply device may be installed below the extraction storage container 41, and the extraction storage container 41 may have a cylindrical shape and an extract of red ginseng or a similar extraction material may be stored therein. . The extract may be transferred to the inside of the extraction storage container 41 through the transfer tube, or the extract may be generated in the extraction storage itself. As the quantitative supply device is coupled to the extraction storage container 41, the control unit 12 may be located inside the extraction storage container 41. For example, the control unit 12 may be formed above the discharge portion formed in the lower portion of the extraction storage container 41 to allow or block the extraction liquid from flowing into the supply container 11. The induction unit 13 may pass through the extraction storage container 41 and be connected to the operation unit 14 disposed on the upper surface of the sealing cover 21. In order to supply the extract liquid into the supply container 12, the extract liquid may be supplied to the transfer tube 181 or gas may be introduced. Accordingly, air is introduced into the induction unit 13, and the control unit 12 ) Can be opened. The extract liquid may be introduced into the supply container 11 and discharged through a discharge passage and supplied to a pouch through the discharge tube 43. If necessary, the discharge control valve 42 may be installed on the discharge tube 42, but during the supply process, the discharge control valve 42 may be kept open. However, when the quantitative supply device is not operated, the discharge control valve 42 may be closed. The external pressure of the supply container 11 can be adjusted in various ways. For example, a pressure control tube connected to the inside of the extraction storage container 41 is installed, and by injecting or discharging gas through the pressure control tube, the internal pressure of the extraction storage container 41 or the supply container 11 External pressure can be adjusted. The external pressure of the supply container 11 can be adjusted in various ways and is not limited to the embodiment presented.

The liquid quantitative supply apparatus according to the present invention is structurally simple by supplying and discharging liquid while the control cover is opened and closed according to the pressure difference. And by controlling the amount of discharge by adjusting the pressure difference, the amount of discharge can be precisely controlled without error. The quantitative supply device according to the present invention can be applied to quantitative supply of food and beverage, chemical solutions, or various liquids similar thereto, and is applied to an extractor to enable quantitative supply to a pouch packaging machine.

The present invention has been described in detail above with reference to the presented embodiments, but those of ordinary skill in this field will be able to make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

11: supply vessel 12: control unit
13: induction unit 14: operating unit
15: discharge passage 16: liquid container
17: supply tube 18: storage container
19: pressure regulating means
21: sealing cover 22: balance member
23: induction tap
121: induction part 122: adjustment ring
131: moving cylinder 132: limiting cylinder
133: judo hall

Claims (3)

A supply container 11 having a discharge passage 15 formed therein;
An adjustment unit 12 coupled to the upper side of the supply container 11 to enable opening and closing of the supply container 11;
An induction unit 13 for moving the adjustment unit 12 up and down; And
It comprises an operation unit 14 for moving the adjustment unit 12 up and down along the induction unit 13,
The control unit 12 is moved up and down along the induction unit 13 according to the external pressure change of the supply container 11,
At least a portion of the induction unit 13 has a structure capable of gas flow, and a liquid quantitative supply device, characterized in that it has an induction hole (133) for introducing the gas. delete The liquid quantitative supply apparatus according to claim 1, further comprising a liquid receiving container (16) disposed outside the supply container (11) to supply a liquid into the supply container (11) while controlling an external pressure.

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