KR101789731B1 - Extracting apparatus for black chokeberry - Google Patents

Abstract

Disclosure of the Invention The present invention relates to an Aronia liquid extracting apparatus. The Aronia liquid extracting apparatus of the present invention comprises: a crushing section for crushing the Aronia; a crushing vessel section for crushing the Crushing crushing section in the crushing section; and a crushing section for crushing the Crushing section And a guide portion formed between the crushing portion and the crimping portion and guiding the movement of the crimped container portion.

Description

[0001] EXTRACTING APPARATUS FOR BLACK CHOKEBERRY [0002]

The present invention relates to an Aronia liquid extracting apparatus, and more particularly, to an Aronia liquid extracting apparatus for extracting Aronia liquid which can provide a useful effect to a human body.

Aronia is a shrub that is native to North America and belongs to the Rosaceae. Sour fruit is opened in the late summer. The fruit ripens and falls immediately. Leaves are soft, glazed and light green. These Aronia are widely used in the food industry, and Aronia fruit is used as a variety of foods such as juice, beverage, concentrate, wine, jam, jelly, dried fruit and fruit tea.

Black chokeberry contains a large amount of saccharides (20%), anthocyanins, polyphenols, vitamins B1 and B2, pantothenic acid, and flavonoids. Among them, anthocyanin and polyphenol are known to help the blood circulation in the human body, to help the microvessel permeability, vascular resilience, normalization of blood pressure, and particularly to provide a positive effect on the microvascularity of the eye, . ≪ / RTI >

Relevant prior art is disclosed in Korean Patent Laid-Open Publication No. 2014-0032678 (published on March 17, 2017, entitled "Fermentation of Aronia Fruit Concentrate and Method for Producing the Same").

It is an object of the present invention to provide an Aronia liquid extracting apparatus in which processes of crushing and juicing Aronia can be integrally performed in one structure.

The apparatus for extracting Aronia liquid according to the present invention comprises: a crushing unit for crushing the Aronia; The impregnated crushed material in the crushing part is a crushed container part; A squeezing unit for squeezing the Aronia contained in the squeeze container unit to squeeze the Aronia liquid; And a guide portion formed between the crushing portion and the pressing portion and guiding the movement of the pressed container portion.

In addition, the crushing unit may include a shredder main body for shredding the aronia and discharging the crushed material to the crushing container unit; And a crusher supporting part for supporting the crusher main body and forming a space part between the lower part of the crusher main body and the guide part to which the pressurized container part can be disposed.

The compressed container portion may further include a container body containing the crushed crushed material in the crushing portion; A supporting net that is removably installed inside the container body and supports a downstream force which is applied to the air by the pressing unit, And a liquid discharging part for discharging the Aronia liquid which has passed through the receiving net to the outside of the container main body.

Further, the crimping portion may include: a presser main body for pressing the elastomer contained in the pressurized container portion; A pressing support portion for supporting the press main body and forming a space portion below the press main body so that the pressurized container portion can be disposed; And a container seating part formed at a lower portion of the compression support part and having a horizontal plane continuous with the guide part, wherein the compression container part is seated.

The container seating portion may include: a seating table on which the pressurized container portion is seated; A fixed position guiding part formed on the seating table and contacting the pressurized container part to restrain movement of the pressurized container part; And a forward guide formed to be recessed on the seat and into which the liquid discharge portion of the pressurized container portion is inserted.

The predetermined position guide portion may include a container contact portion having a shape corresponding to the periphery of the compression container portion and in contact with the compression container portion; And a container guide portion formed to extend toward the outside of the container contacting portion at an end of the container contacting portion and for guiding the pressed container portion to the container contacting portion side.

Further, the guide portion may include a rail portion on which the pressurized container portion is seated, and which is formed to extend from the crushing portion to the pressing portion; And a first stopper portion formed on the upper portion of the rail portion and restricting the movement of the pressurized container portion in contact with the pressurized container portion moved toward the crusher portion.

The rail portion may include a first rail formed to extend in the left-right direction below the crushing portion; And a second rail part extending from the first rail part to the press part in a forward and backward direction.

The second rail portion may include a second-rail portion connected to the first rail portion and supporting a left portion of the pressurized container portion; And a second 2-1 rail portion which is disposed so as to be spaced apart from the second-1 railing portion so as to form a passage through which the liquid discharge portion of the pressurized container portion can pass, And a part thereof.

The rail portion may further include a fence portion extending in parallel with the first rail portion and connected to the second rail portion so as to protect the liquid discharge portion of the compressed vessel portion moving along the first rail portion desirable.

The first stopper portion may have a shape corresponding to a left side portion of the pressurized container portion and may be in contact with the pressurized container portion; And a movement guide portion formed to extend toward the outside of the container holding portion at an end of the container holding portion and for guiding the pressed container portion to the container holding portion side.

The guide portion may further include a second stopper portion disposed at an edge of the movement path of the compression container portion so as to restrain the compression container portion from being released to the outside of the rail portion.

Further, it is preferable that the present invention further includes a filtration receiving portion in which the Arrhenian fluid discharged from the pressurized container portion is contained.

In addition, the filtration receiving portion may include: a collecting tank for containing the arsenic solution discharged from the compressed vessel portion; A sludge filter installed at an opening of the collecting tank for filtering the sludge contained in the arnoi liquid; A liquid supply device for supplying the Arrionic fluid in the collection tank that has passed through the sludge filter to a post-processing device; And a water level sensing unit for sensing the level of the Aronia liquid contained in the collection tank and displaying the level on the outside.

Further, it is preferable that the present invention further includes a packaging section for receiving and packing the arnoic fluid from the filtration receiving section.

It is preferable that the present invention further includes a crushing section, a crushing container section, the crushing section, and a moving crane for movably supporting the guide section.

According to the Aronia liquid extracting apparatus according to the present invention, the Aronia is crushed by the crushing part and is contained in the pressed vessel part, the pressed vessel part is moved to the side of the pressed part along the guide part, and then the pressed Aronia in the pressed vessel part is squeezed And the extract of the Aronia can be extracted and extracted continuously.

According to the present invention, since the guide portion for guiding the movement of the pressed container portion is continuously formed from the crushing portion to the pressed portion, the crushed container portion is moved along the guide portion in the order of the crushing portion and the pressed portion, The juicing process can be done continuously and integrally in one structure.

Thus, according to the present invention, nutrients useful for the human body such as anthocyanin, polyphenol and the like can be contained in the extract of Aronia by extracting the Aronia solution with pure Aronia only without adding other materials or enzymes at room temperature .

FIG. 1 is a perspective view schematically showing a state in which a pressurized container portion of an Aronia liquid extracting apparatus according to an embodiment of the present invention is set at a first set position.
FIG. 2 is a perspective view schematically showing a state in which a pressed vessel portion of an Aronia liquid extracting apparatus according to an embodiment of the present invention is moved along a guide portion.
FIG. 3 is a perspective view schematically showing a state in which a pressurized container portion of an Aronia liquid extracting apparatus according to an embodiment of the present invention is set to a second set position.
FIG. 4 is a conceptual view for explaining the action of the fixed position guide unit and the forward guide unit of the Aronia liquid extracting apparatus according to the embodiment of the present invention.
FIG. 5 is a conceptual view illustrating a process of moving a compressed container unit of the Aronia liquid extracting apparatus to a first setting position, a direction switching position, and a second setting position according to an embodiment of the present invention.
FIG. 6 is a conceptual view illustrating a process of pressing the Aronia with the pressing unit of the Aronia liquid extracting apparatus according to an embodiment of the present invention.

Hereinafter, an embodiment of the Aronia liquid extracting apparatus according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view schematically showing a state in which a pressurized container portion of an Aronia liquid extracting apparatus according to an embodiment of the present invention is set at a first setting position A, FIG. 2 is a perspective view FIG. 3 is a perspective view schematically showing a state in which the compressed container portion of the Aronia liquid extracting device is moved along the guide portion. FIG. 3 is a cross-sectional view of the Aronia liquid extracting device according to the embodiment of the present invention, And Fig.

FIG. 4 is a conceptual view for explaining the action of the regular position guiding part and the normal direction guiding part of the Aronia liquid extracting device according to the embodiment of the present invention, and FIG. 5 is a cross- FIG. 6 is a conceptual view for explaining a process of moving the pressurized container portion of the Arrhenius liquid extraction device to the first setting position, the direction switching position, and the second setting position. Which is shown in FIG.

1 to 3, an Aronia liquid extracting apparatus according to an embodiment of the present invention includes a crushing unit 10, a crushing container unit 20, a crushing unit 30, a guide unit 40, (50), a packaging portion (60), and a moving carriage portion (70).

The crushing section 10 functions as a crusher for crushing the aronia. The crushing container portion 20 is a portion constituting a container for containing the crushed crushed material in the crushing portion 10 and is installed so as to freely move between the crushing portion 10 and the crushing portion 30. [ The crushable container portion 20 is moved to the crushable portion 30 side while receiving crushed crushed material in the crushable portion 10 and the crushed portion 30 compresses the crushed material contained in the crushed crushed container portion 20 Juice the Aronia juice.

After completing the juice of the Aronia contained in the pressed vessel portion 20 by using the pressed portion 30, the pressed vessel portion 20 is moved to the side of the crushed portion 10 again, And then supplying it to the pressurized container portion 20, it is possible to continuously extract the arnoi liquid.

The guide portion 40 is a portion for guiding the movement of the pressurized container portion 20 and has a seating surface capable of placing the pressurized container portion 20 therebetween so as to be positioned between the crushable portion 10 and the pressurized portion 30 . It is possible to stably reciprocate the crushing portion 10 and the crushing portion 30 while moving the crushing container portion 20 along the extending direction of the guide portion 40 while the crushing container portion 20 is seated on the guide portion 40.

In the description of the present invention, for convenience, a point suitable for receiving the air-conditioner discharged from the crushing section 10 in the movement path of the press-formed container section 20 formed along the guide section 40 is referred to as a first setting position A A second setting position C which is a position suitable for engaging with the crimping portion 30 and a hollow space formed in the first setting position A so as to set the compression container portion 20, And the hollow space portion formed in the second setting position C to set the compression container portion 20 is referred to as a second setting space portion.

The filter accommodating portion 50 is a portion where the arnoi liquid discharged from the compression container portion 20 is accommodated. The filtration receiving portion 50 is positioned directly below the liquid discharging portion 23 of the pressurized container portion 20 in a state in which the pressurized container portion 20 is disposed at the second setting position C. When the liquid discharging part 23 is opened during the compression of the argon using the crushing part 30, the Arrhenian liquid in the crushing container part 20 can be dropped into the filtration receiving part 50 and accommodated. The packaging unit 60 receives and packs the Aronia solution stored in the filter accommodating unit 50.

The moving and braking unit 70 movably supports the crushing unit 10, the crushing container unit 20, the crushing unit 30, the guide unit 40, the filter accommodating unit 50, and the packing unit 60 . The entire structure including the crushing section 10, the pressed vessel section 20, the pressed section 30, the guide section 40, the filtration receiving section 50, and the packing section 60 by using the movable bank part 70 Can be moved freely.

Referring to FIG. 1, a crusher 10 according to an embodiment of the present invention includes a crusher main body 11 and a crusher support 12.

The crusher main body 11 crushes the Arrangement and discharges it to the pressurized container portion 20. Since the crusher main body 11 is not limited to a specific structure and shape including a known crusher if the crusher can crush the crusher, detailed description of the crusher main body 11 is omitted.

The crusher supporting portion 12 is a portion for supporting the crusher main body 11. The crusher supporting portion 12 is disposed between the lower portion of the crusher main body 11 and the guide portion 40 by disposing the crusher main body 11 at a predetermined position on the upper side of the guide portion 40 That is, the first setting space portion in which the pressurized container portion 20 can be disposed. The crusher main body 11 and the guide portion 40 are spaced apart from each other in the vertical direction and a first setting space portion into which the pressurized container portion 20 can be inserted and removed is formed therebetween. The crusher support portion 12 can support the crusher main body 11 and is not limited to a specific structure and shape as long as it can form the first setting space portion.

Referring to FIG. 4, the compression container unit 20 according to the embodiment of the present invention includes a container body 21, a support net member 22, and a liquid discharge unit 23.

The container body 21 is a portion of the crushing portion 10 in which the crushed aronia is received, and has the shape of a container with an open upper portion. When the container body 21 is disposed below the crushing section 10 as shown in Fig. 1, the air discharged from the crushing section 10 falls into the container body 21, And is introduced into the interior of the container body 21 through an opening of the container body 21.

The opening portion of the container body 21 has a shape in which the pressing rod 31a of the pressing portion 30 can pass though the crushing portion 10 of the crushing portion 10 can receive the free crushed material by the free fall. The lower portion of the pressing rod 31a is drawn into the interior of the container body 21 through the opening of the container body 21 as shown in Figure 6 (b) The lower portion of the pressing rod 31a can be pressed through the opening of the container body 21 as shown in Figure 6 (c) 21).

The support net member 22 has a plurality of hole portions through which the Arrhenia juice juiced by the pressing portion 30 can pass, and is removably installed inside the container main body 21. [ The Arrhenia flowing into the interior of the container body 21 through the crushing section 10 is supported by the support net member 22. The pressing rod portion 31a of the crimping portion 30 is drawn into the container body 21 and presses down the elastomer supported on the supporting net member 22 during the Aronia pressing using the crimping portion 30, At this time, the supporting net member 22 supports the downward force applied to the aronia.

The inner space portion of the container body 21 can be divided into an upper hollow portion accommodating the crushed Aronia and a lower space portion accommodating the juice Aronia liquid with reference to the support net member 22. [ The support net 22 according to an embodiment of the present invention includes an inner barrel, a hole portion, a hook portion, and a handle portion.

The inner tube has a shape of a container opened at the top and having a shallower depth than the container body 21 and is inserted into the container body 21 through the opening of the container body 21. [ A plurality of holes are formed in the lower portion of the inner tube so that the molten arsenic liquid can pass through the inner tube from the inner tube. The staple portion is formed to protrude outward from the upper portion of the inner tube so as to cover the opening portion of the container body (21). The handle portion is integrally connected to the inner cylinder portion or the hooked portion so as to easily move the inner cylinder portion.

The liquid discharging portion 23 is a portion constituting a discharging flow path for discharging the Arrhenian fluid that has passed through the supporting net member 22 to the outside of the container main body 21. [ 4, the liquid discharging part 23 according to the embodiment of the present invention includes a discharge pipe 24 connected to the lower portion of the container body 21 to communicate with the valve body 21, (25).

The discharge tube 24 is positioned below the lower end of the container body 21 and is formed to protrude laterally from the container body 21. The discharge pipe 24 extends from the front portion of the container body 21 to protrude forward of the container body 21 and has an end bent downward. When the valve 25 is opened, the Arrhenian solution in the container body 21 is discharged downward through the discharge pipe 24 toward the filter accommodating portion 50.

3, the pressing part 30 according to an embodiment of the present invention includes a press main body 31, a pressing supporting part 32, and a container seating part 33. As shown in FIG.

The presser main body 31 presses and pressurizes the airgel contained in the pressurized container portion 20 downward. Referring to FIG. 3, the presser body 31 according to an embodiment of the present invention includes a pressing rod portion 31a and a rod elevating portion 31b.

6 (a), the squeezing rod portion 31a is disposed so as to be opposed to the supporting net member 22 of the squeeze container portion 20. As shown in Fig. The rod lifting portion 31b is a device for lifting the pressing rod portion 31a and moves the lower portion of the pressing rod portion 31a to the inside and the outside of the container body 21 by moving the pressing rod portion 31a up and down. The lower portion of the squeezing rod portion 31a at the time of lowering the squeezing rod portion 31a presses the Arrhenia downward to the side of the supporting net member 22 as shown in Figure 6B, The lower portion of the pressing rod portion 31a is separated from the pressurized container portion 20 while being moved to the outside of the container main body 21 as shown in FIG. 6 (c).

The pressing support portion 32 is a portion for supporting the presser main body 31. The presser main body 31 is disposed at a predetermined position on the upper side of the container seating portion 33 to press the lower portion of the presser main body 31 and the container seating portion 33, That is, a second setting space portion in which the squeeze container portion 20 can be disposed. The presser body 31 and the container seating portion 33 are spaced apart from each other in the vertical direction and a second setting space portion in which the pressurized container portion 20 can be drawn in and out is formed therebetween. The pressing support portion 32 is not limited to a particular structure and shape as long as it can support the presser main body 31 and can form the second setting space portion.

The container seating portion 33 is a portion where the pressed container portion 20 moved to the lower side of the presser body 31 is seated and is formed so as to form a continuous horizontal surface with the guide portion 40 below the pressed and supported portion 32 . Referring to FIG. 4, the container seating part 33 according to an embodiment of the present invention includes a seat rest 34, a fixed position guiding part 35, and a forward guide part 36.

The seat cushion 34 is disposed on the lower side of the presser main body 31 with a flat upper surface portion on which the pressurized container portion 20 can be seated. The seat cushion 34 has a panel shape capable of stably securing rigidity capable of supporting a downward force acting on the compression container unit 20 by the presser main body 31. [ In order to allow the pressurized container portion 20 to be moved along the guide portion 40 to be continuously moved from the end of the guide portion 40 to the seat rest 34 while being mounted on the guide portion 40, The upper surface of the seat cushion 34 forms a continuous horizontal surface with the guide portion 40. The upper surface of the seat cushion 34,

The fixed position guiding portion 35 is a portion for restricting the movement of the pressurized container portion 20 so that the pressurized container portion 20 moved by the mount table 34 can be easily set to the second setting position B . The fixed position guiding part 35 is formed on the upper surface of the seating table 34 to have a shape corresponding to the rear surface of the pressed vessel part 20. The pressurized container portion 20 is accurately positioned at the second setting position C when the pressurized container portion 20 seated on the seating base 34 is brought into close contact with the fixed position guiding portion 35. Referring to FIG. 4, the fixed position guiding part 35 according to an embodiment of the present invention includes a container contacting part 35a and a container guiding part 35b.

The container contacting portion 35a has a shape corresponding to the rear portion of the compression container portion 20 and is provided at a position corresponding to the rear portion of the second setting space portion. The pressurized container portion 20 is accurately positioned at the second setting position C in a state in which the rear portion of the pressurized container portion 20 is in contact with the container contact portion 35a. The container contact portion 35a has a circular arc shape corresponding to the rear portion of the pressurized container portion 20, that is, a shape bent concavely in the backward direction I have.

The container guide portion 35b is a portion for guiding the pressurized container portion 20 to the container contacting portion 35a side and is formed to extend in the lateral direction toward the outside of the container contacting portion 35a at both end portions of the container contacting portion 35a. The container guide portion 35b connected to the left end of the container contact portion 35a is formed so as to extend further forward to the left front and the container guide portion 35b connected to the right end of the container contact portion 35a is further extended toward the right frontward .

The fixed position guiding portion 35 is provided to laterally cross the rear portion of the seating table 34 so that when the pressed vessel portion 20 is moved backward on the seating table 34, And is brought into contact with one of the contact portion 35a and the container guide portion 35b. The pressurized container portion 20 is brought into contact with the container contact portion 35a immediately when the pressurized container portion 20 is accurately moved toward the second set position C and the pressurized container portion 20 is moved to the second set position C, The pressurized container portion 20 in contact with the container guiding portion 35b is further pushed rearward so that the pressurized container portion 20 is moved along the container guiding portion 35b so that the lateral position and the front and rear positions Lt; RTI ID = 0.0 > 35a < / RTI > The pressurized container portion 20 can be accurately and easily positioned at the second setting position C as described above by using the correct position guiding portion 35. [

The forward guide 36 is recessed at a position corresponding to the liquid discharge portion 23 of the pressurized container portion 20 so that the pressurized container portion 20 can be disposed on the second setting position C in the setting direction . The liquid discharge portion 23 is located at the lower front portion of the container body 21 and the forward directional portion 36 is formed at the front portion of the seating table 34 so as to penetrate in the vertical direction .

The liquid discharge portion 23 is provided in a state in which the pressurized container portion 20 is disposed at the second setting position C as shown in Fig. 3, that is, in a state in which the container main body 21 is in close contact with the container contacting portion 35a, And the discharge end of the liquid discharge portion 23 is located in the upper right chamber of the filtration receiving portion 50. [ Accordingly, in the state where the pressurized container portion 20 is set to the second setting position C, the Aronia liquid juice by the crushing portion 30 and the Aronian liquid supply to the filtration receiving portion 50 side are simultaneously performed .

Referring to FIGS. 1 and 2, a guide unit 40 according to an embodiment of the present invention includes a rail portion 41, a first stopper portion 45, and a second stopper portion 46.

The rail portion 41 is formed to extend horizontally between the crushing portion 10 and the crushing portion 30 so as to guide the movement of the crushing container portion 20. [ The pressurized container portion 20 can be reliably moved toward the crushing portion 10 side or the pressed portion 30 side along the rail portion 41 while being seated on the rail portion 41. [ 1 and 2, a rail part 41 according to an embodiment of the present invention includes a first rail part 42, a second rail part 43, and a fence part 44. As shown in FIG.

In one embodiment of the present invention, the crimping portion (30) is located on the right rear side of the crushing portion (10). The first rail part 42 is formed to extend to the right below the crushing part 10 and the second rail part 43 extends from the right side of the first rail part 42 toward the rear side As shown in FIG. 1 and 2, a first rail 42 according to an embodiment of the present invention includes a first rail part 42a and a first rail part 42b, The rail portion 43 includes a second-first rail portion 43a and a second-second rail portion 43b.

The 1-1 railing portion 42a is formed to extend to the right from the lower side of the crushing portion 10 and the 1-2 railing portion 42b is formed to extend from the 1st- 1 rail portion 42a. Thus, the 1-1 railing portion 42a supports the front portion of the pressurized container portion 20 and the 1-2 rung portion 42b supports the rear portion of the pressurized container portion 20. [ The pressurized container portion 20 is provided with a front portion and a rear portion in a state in which the first and second rails 42a and 42b are seated on their respective left and right sides Lt; / RTI >

The case where the entire first rail part 42 is applied in the form of a panel by partially supporting the pressed container part 20 with the 1-1 railing part 42a and the 1-2 railing part 42b The frictional force with the pressurized container portion 20 can be reduced and the pressurized container portion 20 can be easily moved with less force.

The second-first rail 43a is formed on the right side of the first rail 42 so as to extend in the front-rear direction. The second-second rail 43b is disposed on the right side of the second-first rail 43a in parallel with the second-rail part 43a. The second-second rail 43a supports the left side portion of the press-bonded container portion 20 and the second-second rail portion 43b supports the right side portion of the press- The pressurized container portion 20 is moved forward or backward by an external force acting in the forward and backward states with the left side portion and the right side portion thereof being seated on the second-second rail portion 43a and the second- .

The second-1 railing portion 43a according to an embodiment of the present invention is installed to interconnect the right-hand end portions of the 1-1 railing portion 42a and the 1-2 railing portion 42b. Thus, the pressurized container portion 20 on the first rail portion 42 side can be smoothly and continuously moved to the second rail portion 43 side. In the description of the present invention, the point at which the boundary between the first rail part 42 and the second rail part 43, that is, the direction in which the pressed container part 20 is moved, is referred to as a direction switching position B for convenience.

Further, by disposing the second-second rail part 43a and the second-second rail part 43b apart from each other, the second-first rail part 43a and the second- A passage through which the liquid discharge portion 23 of the container portion 20 can pass is formed. Thus, it is possible to prevent the liquid discharge portion 23 and the second rail portion 43 from interfering with each other while the pressurized container portion 20 is moved forward and backward.

The fence portion 44 is provided at the front of the first rail portion 42 so as to protect the liquid discharge portion 23 of the pressed vessel portion 20 moving laterally along the first rail portion 42, (42). The left end of the fence portion 44 is connected to the fixed structure fixed to the moving bogie 70, and the right end thereof is connected to the front portion of the second-second rail 43b.

Thus, the fence portion 44 covers the liquid discharge portion 23 of the compressed vessel portion 20, which is moving along the first rail portion 42, from the front and right sides, It is possible to prevent the liquid discharge portion 23 from being contaminated by the contact and at the same time to function to support the front portion of the second-second rail portion 43b.

The first stopper part 45 is provided in the pressurized container part 20 so as to be easily set to the first setting position A in a state where the first stopper part 45 is seated on the rail part 41, (20). The first stopper portion 45 is formed on the upper side of the rail portion 41 to have a shape corresponding to the left peripheral portion of the pressurized container portion 20. The compressed container portion 20 is accurately positioned at the first setting position A when the compressed container portion 20 seated on the rail portion 41 is brought into close contact with the first stopper portion 45. Referring to FIGS. 1 and 2, the first stopper portion 45 according to an embodiment of the present invention includes a container holding portion 45a and a movement guide portion 45b.

The container holding portion 45a has a shape corresponding to the periphery of the left side of the compression container portion 20 and is provided at a position corresponding to the left side portion of the first setting space portion. The pressurized container portion 20 is accurately positioned at the first setting position A in a state in which the left side portion of the pressurized container portion 20 is in contact with the container holding portion 45a. The container holding portion 45a according to an embodiment of the present invention has a circular arc shape corresponding to the left side portion of the compression container portion 20, that is, a shape bent concave to the left.

The movement guide portion 45b is a portion for guiding the pressurized container portion 20 to the container catching portion 45a side and is formed to extend toward the outside of the container catching portion 45a at both end portions of the container catching portion 45a. The movement guide portion 45b connected to the front end portion of the container holding portion 45a is further extended toward the right front side and the movement guide portion 45b connected to the rear end portion of the container holding portion 45a is formed in the right rear side .

The first stopper portion 45 is provided so as to traverse the first rail 42 in the front and rear direction so that when the pressurized container portion 20 is moved to the left on the first rail 42, Is brought into contact with one of the container holding portion 45a and the movement guide portion 45b. When the pressurized container portion 20 is accurately moved toward the first set position B, the pressurized container portion 20 is brought into contact with the container holding portion 45a immediately, and the pressurized container portion 20 is moved to the first set position A Even if the pressurized container portion 20 is moved further away from the movement guide portion 45b, the pressurized container portion 20 in contact with the movement guide portion 45b is further pushed to the left so that the pressurized container portion 20 is moved along the movement guide portion 45b, The position is naturally adjusted so as to face the container holding portion 45a. The first stopper portion 45 can be used to precisely and easily position the pressurized container portion 20 at the first setting position A as described above.

The second stopper portion 46 is disposed at the edge of the travel path of the pressurized container portion 20 so as to restrain the pressurized container portion 20 from being released to the outside of the rail portion 41. The second stopper portion 46 according to the embodiment of the present invention is disposed so as to protrude above the rail portion 41 on the right side of the second-second rail portion 43b. When the pressurized container portion 20 is moved to the right side of the direction changing position B while being moved from the first rail portion 42 to the second rail portion 43 side, the pressurized container portion 20 is hooked on the second stopper portion 46, . As described above, the second stopper portion 46 can prevent the accidental compaction of the pressurized container portion 20 to the outside of the rail portion 41 and contamination thereof.

According to the guide portion 40 of the present invention, the pressurized container portion 20 is moved to the first setting position A as shown in Figs. 1 and 5 (a) by using the first stopper portion 45 And the pressurized container portion 20 on the first setting position A is allowed to pass along the rail portion 41 to the direction switching position B as shown in Figures 2 and 5 (b) And can be set to the third setting position C accurately, as shown in Figs.

3 and 4, the filtration unit 50 according to an embodiment of the present invention includes a collection tank 51, a sludge filter 52, a liquid supply unit 53, and a water level sensing unit 54 .

The collecting tank 51 is disposed below the second rail 43 with an inner space portion that can receive the Aronia solution discharged from the pressurized container portion 20. An opening portion is formed at a position corresponding to the liquid discharging portion 23 of the pressurized container portion 20 which is seated on the seating table 34 in the upper portion of the collecting tank 51. When the liquid discharge portion 23 is opened with the compressed container portion 20 disposed at the second setting position C, the Arrhenian liquid in the compressed container portion 20 falls into the opening portion of the collecting tank 51 .

The sludge filter 52 has a filter structure capable of filtering the sludge contained in the Aronia solution and is detachably attached to the opening of the collection tank 51. The sludge may be contained in the sludge that has been squeezed by the squeeze unit 30. The sludge may be removed from the sludge filter 52 through the sludge filter 52, do. The Arrhenian liquid dropped into the opening of the collecting tank 51 is filtered through the sludge filter 52 as described above, and then is drawn into and accommodated in the collecting tank 51.

The liquid supply device 53 supplies the Arrhenian solution in the collection tank 51 which has passed through the sludge filter 52 to the post-processing device such as the packaging part 60. The liquid supply device 53 is provided with a supply pipe extending from the lower part of the collecting tank 51 to the packaging part 60 and a supply pipe 56 for forcibly transferring the Aronia liquid from the collecting tank 51 to the packing part 60 side. As shown in Fig.

The water level sensing unit 54 senses the level of the Arrhenian liquid contained in the collection tank 51 and displays it on the outside. It is possible to properly control the operation of another apparatus including the liquid supply device 53 while checking the extraction and collection amount of the Aronia liquid in real time using the water level sensing unit 54. [ For example, when the water level in the collection tank 51 exceeds the set value, the pump output of the liquid supply device 53 is increased, the valve 25 of the liquid discharge portion 23 is closed, 30 can be stopped and coped with.

Referring to FIG. 1, a moving carriage 70 according to an embodiment of the present invention includes a pedestal 71 and a moving member 72.

The pedestal 71 is a part constituting a frame capable of supporting the crushing section 10, the compression vessel section 20, the compression section 30, the guide section 40, the filter accommodating section 50 and the packaging section 60 . The movable member 72 movably supports the pedestal 71. As the moving member 72, a wheel member can be applied. The entire structure including the crushing section 10, the pressed vessel section 20, the pressed section 30, the guide section 40, the filtration receiving section 50, and the packing section 60 by using the movable bank part 70 Can be easily moved and installed to a desired position.

In the Aronia liquid extracting apparatus according to the present invention having the above-described structure, the Aronia is crushed by the crushing section 10 and is contained in the pressed vessel section 20, and the pressed vessel section 20 is guided by the guide section 40, The compressed air can be squeezed and extracted through the process of moving the compressed air to the squeeze unit 30 and compressing the squeezed air into the squeezed unit 30.

According to the present invention, since the guide portion 40 for guiding the movement of the pressurized container portion 20 is continuously formed from the crushing portion 10 to the pressurized portion 30, The crushing unit 10 and the crushing unit 30 are sequentially moved along the crushing unit 40 in the order of crushing and crushing processes.

Further, according to the present invention, nutrients useful for the human body such as anthocyanin, polyphenol and the like can be contained in the extract of Aronia by extracting the Aronia solution with pure Aronia only at room temperature without adding other materials or enzymes.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

10: crushing section 11: crusher main body
12: crusher supporting part 20:
21: container body 22:
23: liquid discharge part 24: discharge pipe
25: valve 30:
31: Compressor main body 32:
33: container holder part 34: seat part
35: Positional position guiding part 35a:
35b: container guide portion 36: forward guide portion
40: guide part 41: rail part
42: first rail part 42a: first rail part
42b: 1st to 2nd reamer 43: 2nd reamer
43a: 2nd-1st rail part 43b: 2nd-2nd rail part
44: fence part 45: first stopper part
45a: container holding portion 45b:
46: second stopper part 50: filtration receiving part
51: collecting tank 52: sludge filter
53: Liquid supply device 54:
60: packing section 70: moving truck section

Claims (16)

A crushing part for crushing the Aronia;
The impregnated crushed material in the crushing part is a crushed container part;
A squeezing unit for squeezing the Aronia contained in the squeeze container unit to squeeze the Aronia liquid; And
And a guide portion formed between the crushing portion and the crimping portion and guiding the movement of the crimped container portion,
The press-
A presser main body for pressing the aronia contained in the pressurized container portion;
A pressing support portion for supporting the press main body and forming a space portion below the press main body so that the pressurized container portion can be disposed; And
And a container seating portion formed at a lower portion of the pressing support portion and having a horizontal surface continuous with the guide portion, wherein the compression container portion is seated,
The container seating portion includes:
A seating table on which said pressurized container portion is seated;
A fixed position guiding part formed on the seating table and contacting the pressurized container part to restrain movement of the pressurized container part; And
And a forward guide formed to be recessed on the seat and into which the liquid discharge portion of the pressurized container portion is inserted,
The guide portion
A rail portion on which the squeeze container portion is seated and formed to extend from the crushing portion to the squeeze portion;
A first stopper portion formed on the upper side of the rail portion and restricting movement of the pressurized container portion in contact with the pressurized container portion moved toward the crusher portion; And
And a second stopper portion disposed at a moving path edge portion of the compression container portion so as to restrain the compression container portion from being released to the outside of the rail portion,
The rail portion
A first rail formed to extend in a left-right direction below the crushing unit;
A second rail part extending from the first rail part to the pressing part in a longitudinal direction; And
And a fence portion extending in parallel with the first rail portion and connected to the second rail portion so as to protect the liquid discharge portion of the squeeze container portion being moved along the first rail portion. Extraction device.
The method according to claim 1,
The crusher
A shredder main body for shredding the Aronia and discharging it to the pressurized container portion; And
And a crusher supporting part for supporting the crusher main body and forming a space part between the lower part of the crusher main body and the guide part, in which the pressurized container part can be arranged.
The method according to claim 1,
The press-
A container body containing the crushed aronia in the crushing portion;
A supporting net that is removably installed inside the container body and supports a downstream force which is applied to the air by the pressing unit, And
And a liquid discharging portion for discharging the Arrhenian fluid that has passed through the support net to the outside of the container body.
delete delete The method according to claim 1,
Wherein,
A container contact portion having a shape corresponding to the periphery of the compression container portion and in contact with the compression container portion; And
And a container guide portion formed to extend toward the outside of the container contacting portion at an end of the container contacting portion and to guide the pressed container portion toward the container contacting portion side.
delete delete The method according to claim 1,
The second rail portion
A second-level part connected to the first rail part and supporting the left part of the squeeze container part; And
And a second-second rail part arranged to be spaced apart from the second-1 railing part so that a passage through which the liquid discharge part of the pressurized container part can pass is formed between the second- And an extraction unit for extracting the Aronia liquid.
delete The method according to claim 1,
The first stopper portion
A container holding portion having a shape corresponding to a left side portion of the squeeze container portion and in contact with the squeeze container portion; And
And a movement guide portion that is formed at an end of the container holding portion and extends toward the outside of the container holding portion and guides the pressed container portion to the container holding portion side.
delete The method according to claim 1,
Further comprising: a filtration receiving portion for containing the Aronian liquid discharged from the squeeze container portion.
14. The method of claim 13,
The filter accommodating portion includes:
A collecting tank in which the Aronia liquid discharged from the pressurized container portion is accommodated;
A sludge filter installed at an opening of the collecting tank for filtering the sludge contained in the Aronia liquid;
A liquid supply device for supplying the Arrionic fluid in the collection tank that has passed through the sludge filter to a post-processing device; And
And a water level sensor for sensing the level of the Aronia liquid contained in the collection tank and displaying the level of the Aronia liquid on the outside.
14. The method of claim 13,
And a packaging section for receiving and packaging the arnoyl liquid from the filtration receiving section.
16. A method according to any one of claims 1, 13 and 15,
Further comprising a moving bobbin for movably supporting the crushing unit, the pressing unit, the pressing unit, and the guide unit.

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