WO2014157925A1 - Juice extraction module for extracting juice - Google Patents
Juice extraction module for extracting juice Download PDFInfo
- Publication number
- WO2014157925A1 WO2014157925A1 PCT/KR2014/002522 KR2014002522W WO2014157925A1 WO 2014157925 A1 WO2014157925 A1 WO 2014157925A1 KR 2014002522 W KR2014002522 W KR 2014002522W WO 2014157925 A1 WO2014157925 A1 WO 2014157925A1
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- WIPO (PCT)
- Prior art keywords
- juice
- processing
- module
- inlet
- screw
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J19/00—Household machines for straining foodstuffs; Household implements for mashing or straining foodstuffs
- A47J19/02—Citrus fruit squeezers; Other fruit juice extracting devices
- A47J19/025—Citrus fruit squeezers; Other fruit juice extracting devices including a pressing screw
Definitions
- the present invention relates to a juice module for juice solution.
- the stock solution includes a body and a juice module mounted on the body.
- the juice module includes a container having a juice space, a lid having an inlet for feeding material into the container, a screw for juice of the material in the container, and a mesh separating juice and debris.
- the body includes a drive motor for rotating the screw, the shaft of the drive motor is connected to the screw in the juice module.
- Conventional stock solutions require the material to be cut to a size at which the screw can be juiced.
- Korean Patent Registration No. 10-0793852 discloses a stock solution technology configured to cut or cut material by a screw blade protruding from the central axis of the screw to the top side.
- this technique is a material that is cut or cut material is crushed and pressed in the space of the mesh, the material is hardened by crushing and juice in the process of pressing or moving to the lower portion by the screw by the screw And the larger the frequency of deformation or shaking of the network is the situation.
- Such deformation or shaking of the meshes causes the durability of the meshes to deteriorate from the deformation, or the hollowing of the meshes is deformed, so that no homogeneous juice is obtained. There is a problem with noise.
- Korean Patent Registration No. 10-0966607 discloses a stock solution technology for crushing a material immediately before juice by installing a steel sheet on the entire upper surface of the screw.
- Such a phenomenon may destroy the injection molding that maintains the shape of the mesh, or may lower the binding force between the injection and the mesh, resulting in a gap between the injection molding and the mesh, causing leakage of debris and lowering the juice rate.
- the present invention has been invented to improve the above problems, and the crushing process of hard or large material before the compression is made slightly softer and at the same time to reduce the size of the material, it occurs during screw crushing and pressing To prevent deformation and shaking of the mesh.
- the present invention is to configure the input material to be crushed smoothly.
- the present invention is to provide a juice juice module for the stock solution by providing a structure to pre-crush the material in the lid and screw, eliminating the cumbersome process of cutting or cutting before the material is added.
- the container is formed with the discharge outlet and juice discharge port and the mesh is located in the interior of the container and the screw is located inside the mesh and the material is coupled to the top of the container and the material is Inlet is formed in the inlet is formed, the lower portion in communication with the inlet is formed with a processing guide portion for guiding and crushing the material and corresponding to the processing guide portion on the top of the screw, the processing to push the material into the processing guide portion to crush It characterized in that it comprises a processing unit formed blade.
- the present invention is formed with a container formed with a waste discharge outlet and juice discharge port and a mesh located inside the container and a screw located in the network to juice the material and an inlet through which the material is input.
- a processing part having a lid formed with a processing guide for guiding and crushing the material at the lower part of the inlet and a processing blade for crushing the material while pushing the material into the processing guide in response to the processing guide at the upper end of the screw; It is installed to move in the transverse direction inside the inlet, characterized in that it comprises a pressing means for moving the material injected into the inlet.
- the present invention is formed with a container in which the discharge outlet and the discharge port is formed, the mesh is located inside the container and the screw located in the mesh and juice the material and the top of the container and the inlet for the material is formed,
- the lower part communicating with the inlet is formed with a processing guide part for guiding the material to be crushed and a processing part having a processing blade formed at the upper end of the screw to crush the material while pushing the material into the processing guide part and the inlet. It is characterized in that it comprises a pressing rotating means inserted into the inside and configured to move the material by pressing at the same time to rotate the material.
- the present invention is located in the container to separate the juice and debris and the juice screw located in the container to extract the juice
- the material is coupled to the top of the container is formed with an inlet for the material is formed, the inlet and
- the lower part communicating with the lid is formed with a processing guide for guiding the material to be crushed, the processing screw formed with a cutting blade for crushing while pushing the material into the processing guide to correspond to the processing guide on the upper end of the juice screw and the juice screw And characterized in that it comprises an interlocking portion to be rotated in conjunction with the processing screw.
- the present invention provides a container in which a juice outlet is formed, a net body located inside the container, a screw located in the net body to juice the material, and a lid formed with an inlet through which the material is inserted and coupled to the top of the container.
- a juice module for juice containing liquid which is formed on the top of the screw in a narrowing shape toward the top, and is connected to the processing part and the processing hole in which the processing blade is formed, and concave to the lower surface of the lid to accommodate the processing part. It characterized in that the processing blade is provided in the processing guide portion and the bottom of the mesh and the bottom surface of the container to seal between the mesh and the container, the processing blade is pre-crushed material in the processing guide.
- the present invention is a container with a juice outlet is formed, the mesh is located inside the container, the screw is located inside the mesh to juice the material, the lid is coupled to the top of the container is formed with an inlet for the input material
- a juice module for juice containing liquid which is formed on the top of the screw in a narrowing shape toward the top, and is connected to the processing part and the processing hole in which the processing blade is formed, and concave to the lower surface of the lid to accommodate the processing part.
- the processing blade includes a pad formed in the processing guide portion and the bottom of the mesh and the bottom of the container to seal between the net and the container in advance to crush the material in the processing guide, the wall foot is formed on the wall, the wall surface The foot and the screw are formed of a metal.
- the present invention provides a state in which a screw and a material are deformed and softly deformed before being squeezed by the screw through the interaction between the processing portion and the processing guide portion formed by the processing portion and the processing guide portion formed on the top of the screw. Due to the reduced load of the nets generated by the bar, deformation or shaking of the nets is suppressed, and the breakage and noise of the nets are suppressed, and the wear of the screw and the nets is also suppressed, thereby preventing the problem of adding foreign substances.
- the present invention has the effect that the material injected into the inlet by the pressing means is precisely moved to the processing unit and the processing guide unit to perform a smooth crushing processing.
- the present invention has the effect that the material is introduced into the inlet by the pressing rotation means is rotated to the processing unit and the processing guide by riding on the inner surface of the inlet to achieve a smooth fracture processing.
- the increase in the length of the screw blade is accompanied by the inconvenience and difficulty of making the mesh and the container and the lid larger to fit the screw by increasing the overall outer diameter of the screw, according to the present invention, than the length of the screw blade
- a larger diameter material can be used, and the processing guide portion concavely formed in the lower surface of the lid and the processing portion accommodated in the processing guide portion and cooperate with the processing guide portion, suitable for juice extraction without increasing the outer diameter of the screw.
- the material can be crushed by
- the space between the cutting blade and the processing guide is gradually narrowed, so that the material is caught between the cutting blade and the processing guide and rolled up at the same time, so that the screw is automatically supplied to the screw without the inconvenience of pressing the material. At the same time there is an effect that is broken.
- FIG. 1 is a perspective view showing a juice module for juice solution according to an embodiment of the present invention.
- Figure 2 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention.
- Figure 3 is a plan view showing the lid of the juice module shown in Figure 1 from above.
- FIG. 4 is a cross-sectional view of the lid taken along A-A of FIG.
- FIG. 5 is a cross-sectional view of the lid taken along B-B of FIG. 3.
- Figure 6 is a front view showing a screw integrally provided with a processing unit at the top as part of the juice module shown in FIG.
- FIG. 8 is a partial longitudinal cross-sectional view taken along line A-A 'and B-B' of FIG.
- FIG. 9 is a partial longitudinal cross-sectional view taken along line C-C 'and D-D' of FIG.
- FIG 11 shows yet another embodiment according to the present invention.
- FIG. 12 is a view showing an embodiment of the pressing means for replacing the push rod according to the present invention.
- Fig. 13 is a longitudinal sectional view in the AA ′ direction in Fig. 12.
- 15 is a view showing another movable coupling portion of the pressing means.
- 16 is a view showing an embodiment of the pressure rotating means for replacing the push rod according to the present invention
- Figure 17 is a perspective view showing a rotating groove of the pressure rod of the pressure rotating means
- FIG. 18 is a perspective view showing another direction of the pressure bar of FIG.
- FIG. 19 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention.
- FIG. 20 is a front view showing a screw integrally provided with a processing screw on the top as part of the juice module shown in FIG.
- Figure 21 illustrates another embodiment according to the present invention.
- Figure 22 illustrates another embodiment according to the present invention.
- Figure 23 illustrates the pad of the present invention
- 24 is a sectional view showing a juice module for juice solution according to another embodiment of the present invention.
- 25 is a cross-sectional view showing a juice module for juice solution according to another embodiment of the present invention.
- the present invention relates to a juice module for undiluted juice solution that suppresses the deformation and shaking of the mesh surrounding the space in which the material is crushed or compressed to separate the juice and the residue by means of a screw, and largely as shown in the accompanying drawings, the discharge outlet 102 and The container 100, the juice discharge port 101 is formed and the net body 200 is located inside the container 100, the screw 300 is located in the net body 200 to juice the material, the container 100
- the inlet 410 is coupled to the top and the input material is formed, the lower portion communicating with the inlet 410 is formed with a processing guide 600 for guiding and crushing the lid 400 and the screw 300 Corresponding to the processing guide 600 at the top of the), and comprises a processing unit 500 is formed with a processing blade 510 for crushing while pushing the material into the processing guide 600.
- Figure 1 of the drawings attached to the present invention is a perspective view showing a juice module for juice solution according to an embodiment of the present invention
- Figure 2 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention
- Figure 3 is a plan view showing the lid of the juice module shown in Figure 1 from the top down
- Figure 4 is a cross-sectional view of the lid taken along AA of Figure 3
- Figure 5 is a cross-sectional view of the lid taken along BB of Figure 3
- Figure 6 is a front view showing a screw integrally provided with a processing unit at the top as part of the juice module shown in Figure 1
- Figure 7 is a view showing another embodiment of the present invention
- Figure 8 is Figure 7 Partial longitudinal cross-sectional views of A-A 'and B-B', FIG.
- FIG. 9 is a partial longitudinal cross-sectional view of C-C 'and D-D' of FIG. 7, and FIG. 10 shows another embodiment according to the present invention.
- 11 is a view showing another embodiment according to the present invention
- Figure 12 is a view 13 is a longitudinal sectional view in the direction of AA ′ of FIG. 12
- FIG. 14 is an exploded view of the pressing means
- FIG. 15 is a view of the pressing means. Another view of the mobile coupling portion.
- the juicer module for juice solution includes a juice space in the container 100 and a juice discharge port 101 and a dregs outlet 102 formed on one side and the other side of the outer surface, and the juice 100 is generated when juiced.
- Mesh 200 separating the juice from the residue of the material, and screw 300 is installed inside the mesh 200 and the top of the container 100 and the inlet 410 is installed in the material is inserted into the material It includes a lid 400 is formed.
- the juice module may be an opening and closing means for selectively opening and closing the juice outlet 101 of the container 100
- a cock valve may be used as the opening and closing means
- the cock valve is the juice It is preferable to include a valve body for advancing or retracting the discharge port 101, the tip of the valve body being oriented toward the juice discharge port 101.
- the coke valve may include a juice discharge tap that may be selectively connected to the juice discharge port 101 by a valve body, and various ones may be employed.
- the waste outlet 102 is provided with a packing (not shown) to adjust the compression and the discharge degree by the elastic force, it is adjusted by the user in the lower part of the packing to support the bottom surface of the packing to be completely sealed or partially sealed May be implemented to enable this.
- the mesh 200 has the largest inner diameter at the upper end, and therefore, the distance from the central axis of the screw 300 to the mesh 200 is determined at the upper end of the mesh 200.
- the bottom width of the inlet 410 is determined to be larger than the shortest distance from the central axis of the screw 300 to the inner peripheral surface of the upper end of the mesh 200.
- the region of the inlet 410 is partially overlapped with the upper region of the network 200, and is outwardly from the upper region of the network 200.
- processing guide 600 is formed to cover the entire lower area of the inlet 410 at the height connected to the lower end of the inlet 410.
- the inlet 410 is in a circle region corresponding to the diameter of the processing guide 600 about the center axis 310 of the screw 300, more preferably, the center axis 310 It is located in one semicircle area divided by a line passing by).
- the processing unit 500 is formed in the form of narrowing toward the top at the top of the screw 300, the processing edge 510 extending in the form of a spiral while having a width gradually narrowing toward the top is formed It is composed.
- the processing unit 500 is configured to process the side of the material, it is configured to interact with the processing guide 600 to be described below to crush the material.
- a central axis 310 of the screw 300 is formed at the upper end of the processing unit 500, and the central axis 310 merely suppresses shaking of the screw 300 and the processing unit 500.
- one or more auxiliary processing blades may be further formed to help the processing blade 510 to more effectively crush the material.
- the lid 400 is formed with an inlet 410 into which the material is injected, and communicates with the inlet 410, and is formed to be concave upward from the surface coupled with the container 100 to accommodate the processing unit 500.
- the guide part 600 is included in the lower surface, and the processing guide part 600 has a shape that is gradually narrowed toward the top apex to correspond to the processing part 500.
- the processing guide 600 is inserted into the processing blade 510 of the processing unit 500 to be described below, the material injected through the inlet 410 in cooperation with the processing unit 500 is shredded.
- the processing guide 600 may be formed a shaft hole in which the central axis 310 of the screw 300 is rotatably fitted.
- the inner surface of the processing guide 600 in particular, the inner side is gradually from the lower end of the inlet 410 and the processing edge 510 of the processing unit 500 in the direction that the processing blade 510 proceeds.
- the first processing guide surface 610 formed to be adjacent is configured so that when the material is pushed out by the processing blade 510, the material is blocked by the inner surface of the processing guide 600, and the processing blade 510 is The material is configured to be gradually broken into the inside of the processing guide 600 while digging into the side of the material, and at the same time, the material is broken.
- the inner surface of the processing guide 600 in particular, the first processing guide surface 610 inside the processing of the processing unit 500 in the direction in which the processing blade 510 proceeds from the lower end of the inlet 410 It is formed closer to the blade 510.
- the first machining guide surface 610 interacts with the machining edge 510 of the machining part 500 to forcibly move the material to the machining edge 510, thereby automatically crushing even if the user does not push the material. This is configured to be done.
- At least one grinding blade 630 is further formed on the first processing guide surface 610 so as to further improve crushability, and the grinding blade 630 is spaced apart from the upper portion of the first processing guide surface 610. Longer from bottom to bottom, it will be preferable to form closer to the processing edge 510 from the top to the bottom.
- one of the inner surface of the processing guide 600 includes an inlet 410 and the material guide surface 620 is formed to be inclined toward the lower side of the center of the processing unit 500, such a configuration is the inlet ( The material introduced into the 410 is moved toward the processing unit 500 by the inclination of the material guide surface 620, so that the side surface of the material is naturally formed by the processing blade 510 of the processing unit 500. ) And the processing edge 510 to perform the function of assisting to occur.
- the material guide surface 620 does not extend with the inlet 410, it may be simply formed at the lower end of the inlet to implement the present invention.
- the lower end of the processing guide 600 may be formed with a network insertion jaw 420 is inserted into the upper end of the network 200 almost fit.
- the material guide surface 620 meets stepwise with the net insertion jaw 420 at the end, and at this time, the end of the material guide surface 620 is formed to coincide with the upper inner surface of the upper body 200.
- the material crushed through the processing guide 600 is smoothly guided into the mesh body 200 along the material guide surface 620.
- the material injected through the inlet 410 formed in the lid 400 is crushed by the interaction between the processing unit 500 and the processing guide unit 600, and then crushed. After being deformed somewhat softly like the pieces and the chopped state, it is configured to be moved to the existing screw 300 to be juiced, and the injected material is moved to the processing unit 500 by the material guide surface 620 and thus moved.
- the side surface of the material is moved by the machining blade 510 along the first machining guide surface 610 into the machining guide 600, but the space between the machining blade 510 and the first machining guide surface 610 gradually decreases. As it narrows, the material is sandwiched between the first machining guide surface 610 and the machining edge 510.
- the pieces of the shredded material are then moved to the screw 300 naturally, and the juice is made in earnest.
- the material is crushed by the interaction between the processing unit 500 and the processing guide 600, and is deformed at the same time so as to be softly deformed, thereby generating the net body 200 according to the state of the screw 300 and the material.
- Bar load is reduced, the deformation or shaking of the mesh 200 is suppressed, and the damage and noise of the mesh 200 are suppressed, and at the same time, the wear of the screw 300 and the mesh 200 is suppressed.
- the user does not touch the material having a diameter larger than the radius of the upper portion of the screw 300, which determines the size of the material that can be used in the conventional stock solution.
- smooth juice can be made without cutting, and the lower end of the inlet 410 is one side with respect to the center axis of the screw 300 so that it can be carried out without expanding the radius of the existing screw 300 to cut the material.
- the height of the processing unit 500 Formed to be biased, but having a large bottom width (W; or inner diameter) that can be sufficiently injected into a large size of material, the height of the processing unit 500 also has a height to accommodate the input material It is formed to the same or similar size as the bottom width (W) of 410.
- This configuration requires that the screw 300 of the existing stock solution has to expand the top radius (or diameter) of the screw 300 in order to use a material larger than the material with the cuttable diameter to increase the area required to install the product. There is a marked difference in that.
- the present invention can be implemented only by expanding the height of the processing unit 500, which is low in manufacturing cost, The installation area of the is not effective to expand.
- the lower space of the) is composed of a circular groove, protruding inclined spirally from the lower end of the inlet 410 around the central axis of the processing unit 500 on the lower surface, and the direction of rotation of the processing unit 500
- the second processing guide surface 640 is formed in the same manner.
- the second processing guide surface 640 is formed in the shape of a flat plate, unlike the processing unit 500 having a narrow upper portion and a wider lower portion, and at least one processing blade 510 is formed on the upper surface to crush the lower portion of the material.
- the second processing guide surface ( 640 differs in pressing the top of the material.
- Such a configuration may be performed in place of the first processing guide surface 610 as shown in the drawing, and may be performed together with the first processing guide surface 610 and the material guide surface 620 as shown in FIG. 10. Even when used in combination, the present invention can be easily carried out.
- the processing guide 600 forms a pressing hole 420 on the side of the lid 400 of the lower region of the inlet 410 in place of the material guide surface 620, and is inserted into the pressing hole 420 to insert the material. It is configured to include a pressing rod 430 that can be pushed into the processing unit 500.
- the pressing bar 430 of this configuration is configured to partially sequential crushing by pressing the material injected into the inlet 410 into the processing unit 500, the configuration of the pressing bar 430 and the pressing hole 420 is The present invention can be easily implemented even when used in combination with the first processing guide surface 610 and the second processing guide surface 640 or selectively combined.
- the present invention further includes a pressing rod 430 as shown in FIG. 11 or pressing means 700a as shown in FIGS. 12 to 14 instead of the material guide surface 620.
- the pressurizing means 700a is installed to move in the transverse direction inside the inlet 410, and moves the material introduced into the inlet 410 to the processing guide 600 and the processing unit 500, the inlet 410 Pressing piece 710a having a length extending from the uppermost end of the inlet 410 to the lower end of the inner side of the pressing piece 710a protrudes laterally, the movable coupling portion 720a formed by a vertical circular hole 721a It is composed of
- the pressing means 700a configured as described above has a circular hole 721a of the movable coupling part 720a positioned at the upper surface of the inlet 410, and then inserted into a bolt having a diameter smaller than that of the circular hole 721a, The upper surface of the inlet 410 is bolted, the pressure means (700a) is completed, the pressing piece 710a is freely rotated by the circular hole 721a as the rotating shaft in the inlet 410, the inlet 410 It is configured to move the material injected into the processing unit 500 and the processing guide 600.
- the pressing means (700a) is to preserve the diameter of the inlet 410 as much as possible, the pressing piece (710a) of the inlet 410 to accurately move the material to the processing guide 600 and the processing unit 500
- the inner surface is formed in a semicircular shape so as to contact with the surface in the opposite direction of the direction in which the processing unit 500 is rotated, the coupling position of the moving coupling portion 720a is configured to be installed toward the center of the processing unit 500 This is preferred.
- the pressing means 700a as described above moves the material injected into the inlet 410 in the horizontal direction to accurately move the material on the cutting edge 510 of the processing part 500, or the first processing guide surface 610.
- the present invention is applied to an embodiment of the structure including a pressing rotation means 700b is inserted into the inlet 410, as shown in Figure 16 to 18 configured to rotate at the same time to press the top of the material. It may be.
- the pressure rotating means (700b) is formed in a size that is inserted into the rotation guide 710b is protruded, the insertion hole 410 inside the inner surface of the inlet 410, the diameter close to the inner surface of the inlet 410 It consists of a cylindrical pressure rod push rod (720b).
- the rotation guide 710b and the corresponding rotation groove 730b are formed in the longitudinal direction of the compression rod 720b on one side of the compression rod 720b, and the compression rod 720b moves upward from the lower portion to the upper portion. It is formed to be gradually curved along the surface of (720b), by inserting the pressing rod (720b) into the insertion hole to the position where the rotation guide 710b is inserted into the rotary groove (730b), the fixed rotation guide ( The pressing rod 720b is moved while the 710b is inserted into the rotating groove 730b. At this time, the pressing rod 720b is rotated by the rotating groove 730b and the fixed rotating guide 710b. 730b is configured to move while rotating in a direction opposite to the bending direction.
- the material is not moved by the material guide surface 620, or the interaction between the processing guide surface 610 and the processing blade 510 is not made smoothly material may be stagnated at the bottom of the inlet 410, At this time, when the pressing rod 720b is inserted into the inlet 410 so that the rotation guide 710b of the pressing rotating means 700b is inserted into the rotating groove 730b, the pressing rod 720b presses the material. It is smoothly moved along the guide surface 620.
- the material when the pressing rod 720b rotates by the rotation guide 710b and the rotation groove 730b in contact with the upper portion of the material, the material also rotates in the transverse direction so that the first processing guide surface 610 to the material guide surface 620 are rotated. Take a ride and rotate.
- the material stagnated by the pressing rotation means 700b has an effect of smoothly moving the material between the processing edge 510 of the processing unit 500 and the first processing guide surface 610 of the processing guide 600. will be.
- the material that rotates in the configuration of the present invention as in the embodiment of FIG. 11 and the material guide surface 620 is excluded is the bottom surface of the inlet 410 or the side surface of the inlet 410 to the first processing guide surface 610. It can be carried out in the) bar, can be carried out in place of the push bar 430 to push the side of the material to be described below.
- the present invention may be applied to an embodiment of the structure that includes a linking portion 700c for rotating the screw 300 and the processing unit 500, as shown in Figure 19 to 22.
- the processing unit 500 is formed in a form that is narrowed toward the upper side by being coupled to the upper end of the screw 300 by the linking unit 700c to be described below, the surface having a width gradually narrowed toward the upper spiral
- the processing edge 510 extended in the form is formed is configured.
- the processing unit 500 is configured to process the side of the material, it is configured to interact with the processing guide 600 to be described below to crush the material.
- a central axis 310 of the screw 300 is formed at the upper end of the processing unit 500, and the central axis 310 merely suppresses shaking of the screw 300 and the processing unit 500.
- one or more auxiliary processing blades may be further formed to help the processing blade 510 to more effectively crush the material.
- the interlocking part 700c has one or more keys 710c protruding from the upper surface of the screw 300, and a key groove 720c corresponding to the key 710c is formed on the lower surface of the processing part 500. Key groove 720c is inserted into the 710c is configured to interlock even if any one of the screw 300 or the processing unit 500 rotates.
- the linking unit 700c configured as described above is limited to allow the screw 300 to be rotated by the processing unit 500 rotated by a motor in connection with the configuration of the pipe 800 and the space 900 described below.
- the conventional shaft 300 and the shaft shaft hole of the screw 300 formed so as to interlock with the shaft 10 of the motor ( Not shown) and the square shaft (not shown) formed at the end of the shaft 10 may be replaced.
- the interlocking portion 700c is composed of an external gear (not shown) may be configured by varying the rotational speed and rotational direction of the screw 300 and the processing unit 500.
- a circular tube 800 that protects the shaft 10 is formed at the center of the bottom surface of the container 100 into which the shaft 10 of the motor (not shown) is inserted.
- Tube 800 is formed of a length protruding to the upper portion of the screw 300, the key 710c of the linking portion 700c between the screw 300 and the processing unit 500 is further protruded space 900 It is formed by further forming.
- the processing unit 500 is connected to the shaft 10 located in the tube 300 inside the rotation shaft (Not shown) is configured, the lower end of the rotating shaft (not shown) is connected to the shaft 10 is configured to rotate.
- the processing screw 700 is rotated by a motor (not shown), the screw 300 is rotated by the interlocking part 700c, and the material injected into the lid 100 is the processing unit 500.
- the juice is made by the screw 300 is separated from the juice and debris by the net body 200, the residue and the remaining juice by the pressure generated during the juice screw 300 and the container ( When introduced between the bottom of the 100, the juice and debris by the pressure is moved to the top of the screw 300 along the clearance space of the tube 800 and the screw 300, and then the net body 200 by the separation space 800 ) It is configured to be naturally discharged from the top of the screw 300 inside.
- the perforated diameter of the screw 300 configured to be inserted into the tube 800 is formed to be larger than the diameter of the tube 800, or to form a groove in the longitudinal direction on the inner surface of the perforated juice or debris to move smoothly It may be configured and implemented.
- the present invention further includes a ring-shaped elastic pad 700d having a shape corresponding to the lower surface of the mesh 200 as shown in FIG. 23, and the pad 700d includes a lower surface of the mesh 200. It is installed on the bottom surface of the container 100 is configured.
- the pad 700d configured as described above is pressed when the material is forced to the lower portion of the net body 200 by the juice, and the net body 200 is also pressed downward. At this time, the pad 700d is placed on the bottom surface of the container 100.
- the pad 700d of the portion thereof is inflated so that the lower portion of the mesh 200 becomes the container. (100)
- the state in contact with the upper surface of the pad 700d in close contact with the bottom surface is configured to be maintained.
- the mesh 200 and the container 100 are sealed, so that the fine gaps between the mesh 200 and the bottom of the container 100 generated by the design tolerance are generated.
- the leakage of juice or debris is prevented by the juice pressure, and the lower surface of the container 200 is kept in contact with the upper surface of the pad 700d even when the net body 200 is shaken. There is an effect that the lower surface of the mesh 200 is always kept in a closed state.
- the present invention is configured by manufacturing a plurality of wall blades 210 and the screw 300 formed on the inner wall lower portion of the mesh 200 as shown in Figure 24 and 25 made of metal.
- the metal is suitably configured from the widest portion of the screw 300 to the bottom, and the wall blade 210 of the range engaged with the screw 300 is also preferably composed of metal.
- Only a part of the surface and the bottom surface of the screw 300 corresponding to the wall blade 210 may be processed by metal, and then may be configured by an insert method.
- the wall blade 210 may be formed of a metal mesh formed in the mesh 200. You may press-process.
- the molding error does not occur in the wall blade 210 and the screw 300 formed of the metal in accordance with the shrinkage generated during injection molding, it is possible to manufacture the mesh 200 and the screw 300 to match the designed dimensions, the mesh The 200 and the screw 300 can be accurately combined.
- a gap does not occur between the screw 300 and the bottom surface of the container 100, thereby solving the problem of leakage of juice, and making it possible to reliably separate the residue and juice, thereby improving the juice rate. have.
- wear or scratching of the mesh 200 and the screw 300 by the hard material, and the occurrence of the debris of the components caused by the friction between the mesh 200 and the screw 300 can be suppressed or prevented.
- the present invention is to harden the hard or large material before the compression is made to slightly soften and to reduce the size of the material at the same time, to prevent the deformation and shaking of the net generated during screw crushing and pressing
- the basic technical idea is to provide a juice module for the undiluted solution, which is configured to smoothly crush the injected material, and provides a structure for pre-crushing the material on the lid and screw, thereby eliminating the cumbersome process of cutting or cutting the material in advance. It can be seen that.
Abstract
The present invention relates to a juice extraction module for extracting juice, and the juice extraction module includes: a container provided with a dreg discharge opening and a juice discharge opening; a net part positioned inside the container; a screw arranged inside the net part for extracting juice; a cover with a material supply opening connected to the top of the container, the lower part of the cover communicating with the supply opening having a guide part for guiding a material for crushing; a working blade formed on the top of the screw so as to face the guide part for crushing the material while pushing the material into the inside of the guide part.
Description
본 발명은 원액기용 착즙모듈에 관한 것이다.The present invention relates to a juice module for juice solution.
통상적으로 원액기는 몸체와, 몸체 상에 탑재되는 착즙모듈을 포함한다. 착즙모듈은 착즙 공간을 갖는 용기와, 용기 내로 재료를 투입하기 위한 투입구를 갖춘 뚜껑과, 용기 내에서 재료를 착즙하는 스크루와, 즙과 찌꺼기를 분리하는 망체를 포함한다.Typically, the stock solution includes a body and a juice module mounted on the body. The juice module includes a container having a juice space, a lid having an inlet for feeding material into the container, a screw for juice of the material in the container, and a mesh separating juice and debris.
몸체는 스크루를 회전시키기 위한 구동모터를 포함하며, 구동모터의 축은 착즙모듈 내 스크루에 접속된다. 종래의 원액기는 스크루가 착즙 가능한 크기로 재료가 절단되어야 한다.The body includes a drive motor for rotating the screw, the shaft of the drive motor is connected to the screw in the juice module. Conventional stock solutions require the material to be cut to a size at which the screw can be juiced.
한 예로, 한국특허등록 제10-0793852호는 스크루의 중심축으로부터 최상단의 측면으로 돌출된 스크루 날에 의해서 재료를 절단 또는 절삭하도록 구성된 원액기 기술을 개시한다.As an example, Korean Patent Registration No. 10-0793852 discloses a stock solution technology configured to cut or cut material by a screw blade protruding from the central axis of the screw to the top side.
하지만, 이 기술은 재료가 절단 또는 절삭된 재료가 망체의 공간에서 파쇄와 압착이 이루어지는 것으로, 스크루에 의해서 망체에 압착되거나 하부로 이동되는 과정에서 재료가 파쇄 및 착즙이 이루어 짐으로써, 재료가 단단하고 클수록 망체의 변형 내지 흔들리는 빈도가 높은 실정이다.However, this technique is a material that is cut or cut material is crushed and pressed in the space of the mesh, the material is hardened by crushing and juice in the process of pressing or moving to the lower portion by the screw by the screw And the larger the frequency of deformation or shaking of the network is the situation.
이러한 망체의 변형 내지 흔들림은 그 변형으로부터 망체의 내구성이 저하되거나, 망체의 채공이 변형되어 균질의 착즙이 이루어지지 않으며, 흔들림으로부터 어느 한쪽이 치우쳐짐으로써 반대쪽의 스크루와 망체가 접하면서 작동하여 마모와 소음이 발생하는 문제점이 있다.Such deformation or shaking of the meshes causes the durability of the meshes to deteriorate from the deformation, or the hollowing of the meshes is deformed, so that no homogeneous juice is obtained. There is a problem with noise.
또한, 한국특허등록 제10-0966607호는 스크루 상부면 전체에 강판을 설치하여 착즙 직전에 재료를 파쇄하는 원액기 기술을 개시한다.In addition, Korean Patent Registration No. 10-0966607 discloses a stock solution technology for crushing a material immediately before juice by installing a steel sheet on the entire upper surface of the screw.
하지만 강판을 이용한 파쇄는 원액기 고유의 저속이 아닌 고속에 의해서 이루어져야하는 문제점을 가지며, 강판의 고속에 의해서 재료가 회전되는 것을 억제하기 위해 사용자가 큰 힘으로 재료를 강판에 압착해야 하는 불편함이 있다.However, the crushing using steel sheet has a problem that it must be made by a high speed rather than the inherent low speed of the stock solution. have.
또한, 종래 원액기는 재료를 절삭한 후 착즙과정에서 절삭된 덩어리가 망체에 압착되면서 분쇄되므로, 그 절삭된 덩어리의 압착에 의해서 망체가 순간적으로 변형되는 현상이 발생한다.In addition, since the conventional stock solution is crushed while cutting the material and then the lump cut in the juice process is pressed to the net body, the phenomenon that the net body is instantaneously deformed by the compression of the cut lump occurs.
이러한 현상은 망체의 형상을 유지하는 사출물을 파괴시키거나, 사출물과 망체와의 결속력을 저하시켜, 사출물과 망체 사이에 찌꺼기의 유출 및 착즙율 저하를 야기하는 틈이 발생할 수 있다.Such a phenomenon may destroy the injection molding that maintains the shape of the mesh, or may lower the binding force between the injection and the mesh, resulting in a gap between the injection molding and the mesh, causing leakage of debris and lowering the juice rate.
본 발명은 상기와 같은 문제점을 개선하기 위하여 발명된 것으로, 딱딱하거나 큰 재료를 압착이 이루어지기 이전에 파쇄 가공을 하여 다소 무르게 함과 동시에 재료의 크기를 작게 하여, 스크루의 파쇄 및 압착시에 발생하는 망체의 변형 및 흔들림을 방지하기 위한 것이다.The present invention has been invented to improve the above problems, and the crushing process of hard or large material before the compression is made slightly softer and at the same time to reduce the size of the material, it occurs during screw crushing and pressing To prevent deformation and shaking of the mesh.
그리고, 본 발명은 투입된 재료가 원활하게 파쇄 가공되도록 구성하기 위한 것이다.In addition, the present invention is to configure the input material to be crushed smoothly.
또한, 본 발명은 뚜껑과 스크루에 재료를 미리 파쇄하는 구조를 마련하여, 재료를 투입 전에 미리 절단 또는 절삭하는 번거로운 과정을 없앤 원액기용 착즙모듈을 제공하기 위한 것이다.In addition, the present invention is to provide a juice juice module for the stock solution by providing a structure to pre-crush the material in the lid and screw, eliminating the cumbersome process of cutting or cutting before the material is added.
상기와 같은 목적을 달성하기 위하여 본 발명은, 찌꺼기 배출구와 즙배출구가 형성된 용기와 상기 용기 내부에 위치하는 망체와 상기 망체 내부에 위치하여 재료를 착즙하는 스크루와 상기 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성되되, 그 투입구와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부가 형성된 뚜껑 및 상기 스크루의 상단에 가공안내부와 대응하여, 재료를 가공안내부의 안으로 밀어내면서 파쇄하는 가공날이 형성된 가공부를 포함하는 것을 특징으로 한다.In order to achieve the above object, the present invention, the container is formed with the discharge outlet and juice discharge port and the mesh is located in the interior of the container and the screw is located inside the mesh and the material is coupled to the top of the container and the material is Inlet is formed in the inlet is formed, the lower portion in communication with the inlet is formed with a processing guide portion for guiding and crushing the material and corresponding to the processing guide portion on the top of the screw, the processing to push the material into the processing guide portion to crush It characterized in that it comprises a processing unit formed blade.
그리고, 본 발명은 찌꺼기 배출구와 즙배출구가 형성된 용기와 상기 용기 내부에 위치하는 망체와 상기 망체 내부에 위치하여 재료를 착즙하는 스크루와 상기 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성되되, 그 투입구와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부가 형성된 뚜껑과 상기 스크루의 상단에 가공안내부와 대응하여, 재료를 가공안내부의 안으로 밀어내면서 파쇄하는 가공날이 형성된 가공부 및 상기 투입구 내부에서 횡 방향으로 이동하도록 설치되어, 투입구로 투입된 재료를 이동시키는 가압수단을 포함하는 것을 특징으로 한다.In addition, the present invention is formed with a container formed with a waste discharge outlet and juice discharge port and a mesh located inside the container and a screw located in the network to juice the material and an inlet through which the material is input. A processing part having a lid formed with a processing guide for guiding and crushing the material at the lower part of the inlet and a processing blade for crushing the material while pushing the material into the processing guide in response to the processing guide at the upper end of the screw; It is installed to move in the transverse direction inside the inlet, characterized in that it comprises a pressing means for moving the material injected into the inlet.
그리고, 본 발명은 찌꺼기 배출구와 배출구가 형성된 용기와 상기 용기 내부에 위치하는 망체와 상기 망체 내부에 위치하여 재료를 착즙하는 스크루와 상기 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성되되, 그 투입구와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부가 형성된 뚜껑과 상기 스크루의 상단에 가공안내부와 대응하여, 재료를 가공안내부의 안으로 밀어내면서 파쇄하는 가공날이 형성된 가공부 및 상기 투입구 내부로 삽입되어 재료의 상부를 압박함과 동시에 회전시켜 그 재료를 이동시키도록 구성된 압박회전수단을 포함하는 것을 특징으로 한다.In addition, the present invention is formed with a container in which the discharge outlet and the discharge port is formed, the mesh is located inside the container and the screw located in the mesh and juice the material and the top of the container and the inlet for the material is formed, The lower part communicating with the inlet is formed with a processing guide part for guiding the material to be crushed and a processing part having a processing blade formed at the upper end of the screw to crush the material while pushing the material into the processing guide part and the inlet. It is characterized in that it comprises a pressing rotating means inserted into the inside and configured to move the material by pressing at the same time to rotate the material.
그리고, 본 발명은 용기 내부에 위치하여 즙과 찌꺼기를 분리하는 망체와 그 용기 내부에 위치하여 재료를 착즙하는 착즙스크루, 그 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성되되, 그 투입구와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부가 형성된 뚜껑, 그 착즙스크루의 상단에 가공안내부와 대응하여, 재료를 가공안내부의 안으로 밀어내면서 파쇄하는 가공날이 형성된 가공스크루 및 그 착즙스크루와 가공스크루가 연동하여 회전하도록 하는 연동부가 포함되어 구성된 것을 특징으로 한다.And, the present invention is located in the container to separate the juice and debris and the juice screw located in the container to extract the juice, the material is coupled to the top of the container is formed with an inlet for the material is formed, the inlet and The lower part communicating with the lid is formed with a processing guide for guiding the material to be crushed, the processing screw formed with a cutting blade for crushing while pushing the material into the processing guide to correspond to the processing guide on the upper end of the juice screw and the juice screw And characterized in that it comprises an interlocking portion to be rotated in conjunction with the processing screw.
그리고, 본 발명은 즙배출구가 형성된 용기와, 상기 용기 내부에 위치하는 망체와, 상기 망체 내부에 위치하여 재료를 착즙하는 스크루와, 상기 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성된 뚜껑을 포함하는 원액기용 착즙모듈로서, 상부를 향해 좁아지는 형태로 상기 스크루의 상단에 형성되고, 가공날이 형성된 가공부와, 상기 투입구와 연결되되, 상기 가공부를 수용하도록 상기 뚜껑의 하부면에 오목하게 형성된 가공안내부 및 망체 하부와 용기 바닥면에 설치되어 망체와 용기 사이를 밀폐하는 패드을 포함하여 상기 가공날이 상기 가공안내부 내에서 재료를 미리 파쇄하는 것을 특징으로 한다.The present invention provides a container in which a juice outlet is formed, a net body located inside the container, a screw located in the net body to juice the material, and a lid formed with an inlet through which the material is inserted and coupled to the top of the container. A juice module for juice containing liquid, which is formed on the top of the screw in a narrowing shape toward the top, and is connected to the processing part and the processing hole in which the processing blade is formed, and concave to the lower surface of the lid to accommodate the processing part. It characterized in that the processing blade is provided in the processing guide portion and the bottom of the mesh and the bottom surface of the container to seal between the mesh and the container, the processing blade is pre-crushed material in the processing guide.
또한, 본 발명은 즙배출구가 형성된 용기와, 상기 용기 내부에 위치하는 망체와, 상기 망체 내부에 위치하여 재료를 착즙하는 스크루와, 상기 용기의 상단에 결합되며 재료가 투입되는 투입구가 형성된 뚜껑을 포함하는 원액기용 착즙모듈로서, 상부를 향해 좁아지는 형태로 상기 스크루의 상단에 형성되고, 가공날이 형성된 가공부와, 상기 투입구와 연결되되, 상기 가공부를 수용하도록 상기 뚜껑의 하부면에 오목하게 형성된 가공안내부 및 망체 하부와 용기 바닥면에 설치되어 망체와 용기 사이를 밀폐하는 패드을 포함하여 상기 가공날이 상기 가공안내부 내에서 재료를 미리 파쇄하고, 상기 망체에는 벽면발이 형성되고, 상기 벽면발과 상기 스크루는 금속으로 형성되는 것을 특징으로 한다.In addition, the present invention is a container with a juice outlet is formed, the mesh is located inside the container, the screw is located inside the mesh to juice the material, the lid is coupled to the top of the container is formed with an inlet for the input material A juice module for juice containing liquid, which is formed on the top of the screw in a narrowing shape toward the top, and is connected to the processing part and the processing hole in which the processing blade is formed, and concave to the lower surface of the lid to accommodate the processing part. The processing blade includes a pad formed in the processing guide portion and the bottom of the mesh and the bottom of the container to seal between the net and the container in advance to crush the material in the processing guide, the wall foot is formed on the wall, the wall surface The foot and the screw are formed of a metal.
상기와 같은 구성의 본 발명에 따르면, 다음과 같은 효과를 도모할 수 있다.According to the present invention having the above configuration, the following effects can be achieved.
우선, 본 발명은 스크루 상부에 형성된 가공부와 가공안내부에 의해서 재료가 가공부와 가공안내부의 상호작용을 통하여, 스크루에 의해서 착즙되기 이전에 파쇄가공됨과 동시에 무르게 변형됨으로써, 스크루와 재료의 상태에 의해서 발생하는 망체의 부하가 줄어드는바, 망체의 변형 내지 흔들림이 억제되어 망체의 파손과 소음이 억제됨과 동시에 스크루와 망체의 마모 또한 억제하여 이물질이 첨가되는 문제를 방지할 수 있는 효과가 있다.First of all, the present invention provides a state in which a screw and a material are deformed and softly deformed before being squeezed by the screw through the interaction between the processing portion and the processing guide portion formed by the processing portion and the processing guide portion formed on the top of the screw. Due to the reduced load of the nets generated by the bar, deformation or shaking of the nets is suppressed, and the breakage and noise of the nets are suppressed, and the wear of the screw and the nets is also suppressed, thereby preventing the problem of adding foreign substances.
그리고, 본 발명은 가압수단에 의해서 투입구로 투입된 재료가 가공부와 가공안내부로 정확하게 이동되어 원활한 파쇄 가공이 이루어지는 효과가 있다.In addition, the present invention has the effect that the material injected into the inlet by the pressing means is precisely moved to the processing unit and the processing guide unit to perform a smooth crushing processing.
그리고, 본 발명은 압박회전수단에 의해서 투입구로 투입된 재료가 회전하여 투입구의 내면을 타고 가공부와 가공안내부로 이동되어 원활한 파쇄가공이 이루어지는 효과가 있다.In addition, the present invention has the effect that the material is introduced into the inlet by the pressing rotation means is rotated to the processing unit and the processing guide by riding on the inner surface of the inlet to achieve a smooth fracture processing.
그리고, 종래 원액기에 있어서, 스크루 날의 길이 증가는 스크루 전체 외경을 증가시켜 망체와 용기 및 뚜껑을 스크루에 맞게 크게 제작해야하는 불편함과 어려움이 뒤따랐는데, 본 발명에 따르면, 스크루 날의 길이보다 더 큰 지름의 재료를 사용할 수 있고, 뚜껑 하부면에 오목하게 형성된 가공안내부와 상기 가공안내부에 수용된 채 상기 가공안내부와 협력하는 가공부에 의해, 스크루의 외경 증가 없이도, 착즙에 적합한 크기로 재료를 파쇄할 수 있다.In addition, in the conventional stock solution, the increase in the length of the screw blade is accompanied by the inconvenience and difficulty of making the mesh and the container and the lid larger to fit the screw by increasing the overall outer diameter of the screw, according to the present invention, than the length of the screw blade A larger diameter material can be used, and the processing guide portion concavely formed in the lower surface of the lid and the processing portion accommodated in the processing guide portion and cooperate with the processing guide portion, suitable for juice extraction without increasing the outer diameter of the screw. The material can be crushed by
이는 재료 투입 전에 재료를 절단해야 하는데 따른 사용자의 불편함과 번거로움을 없애준다.This eliminates the inconvenience and hassle of the user having to cut the material before the material is added.
또한, 상기 가공날과 상기 가공안내부 사이의 공간이 서서히 좁아짐으로써, 재료가 그 가공날과 가공안내부 사이에 끼임과 동시에 말려들어감으로써, 재료를 눌러주는 불편함이 없이 자동으로 스크류에 공급됨과 동시에 파쇄되는 효과가 있다.In addition, the space between the cutting blade and the processing guide is gradually narrowed, so that the material is caught between the cutting blade and the processing guide and rolled up at the same time, so that the screw is automatically supplied to the screw without the inconvenience of pressing the material. At the same time there is an effect that is broken.
또한, 벽면날과 스크루를 금속으로 형성하여, 망체와 스크루를 정확하게 결합함으로써, 성형 오차로 인해 어긋나게 결합되어 발생하던 망체와 스크루 사이의 마모 현상과 이로 인한 소음 문제까지도 개선되는 효과가 있으며, 스크루와 용기의 바닥면 사이에 틈이 발생하지 않게 되어, 착즙액의 누수 문제를 해결하고, 찌꺼기와 즙을 확실하게 분리할 수 있게 되므로, 착즙율이 향상되는 효과가 있다.In addition, by forming the wall blades and screws with a metal, by accurately combining the mesh and the screw, there is an effect to improve the wear phenomenon between the mesh and the screw caused by a misalignment due to the molding error, and even noise problems resulting from the screw and Since the gap does not occur between the bottom of the container, it is possible to solve the problem of leakage of juice and to reliably separate the residue and juice, there is an effect that the juice rate is improved.
도 1은 본 발명의 일 실시예에 따른 원액기용 착즙모듈을 도시한 사시도.1 is a perspective view showing a juice module for juice solution according to an embodiment of the present invention.
도 2는 본 발명의 일 실시예에 따른 원액기용 착즙모듈을 도시한 단면도.Figure 2 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention.
도 3은 도 1에 도시된 착즙모듈의 뚜껑을 위에서 아래로 도시한 평면도.Figure 3 is a plan view showing the lid of the juice module shown in Figure 1 from above.
도 4는 도 3의 A-A를 따라 취해진 뚜껑의 단면도.4 is a cross-sectional view of the lid taken along A-A of FIG.
도 5는 도 3의 B-B를 따라 취해진 뚜껑의 단면도.5 is a cross-sectional view of the lid taken along B-B of FIG. 3.
도 6는 도 1에 도시된 착즙모듈의 일부로서 가공부를 상단에 일체로 구비한 스크루를 도시한 정면도.Figure 6 is a front view showing a screw integrally provided with a processing unit at the top as part of the juice module shown in FIG.
도 7은 본 발명의 또 다른 실시예를 도시한 도면.7 illustrates another embodiment of the present invention.
도 8은 도 7의 A-A'와 B-B'에 대한 부분 종단면도.8 is a partial longitudinal cross-sectional view taken along line A-A 'and B-B' of FIG.
도 9는 도 7의 C-C'와 D-D'에 대한 부분 종단면도.9 is a partial longitudinal cross-sectional view taken along line C-C 'and D-D' of FIG.
도 10은 본 발명에 따른 또 다른 실시예를 도시한 도면.10 illustrates another embodiment according to the present invention.
도 11은 본 발명에 따른 또 다른 실시예를 도시한 도면.11 shows yet another embodiment according to the present invention.
도 12는 본 발명에 따른 누름봉을 대체하는 가압수단의 실시예를 도시한 도면.12 is a view showing an embodiment of the pressing means for replacing the push rod according to the present invention.
도 13 도 12의 A-A'방향의 종단면도.Fig. 13 is a longitudinal sectional view in the AA ′ direction in Fig. 12.
도 14는 가압수단에 대한 분해도.14 is an exploded view of the pressing means.
도 15는 가압수단의 또 다른 이동결합부를 도시한 도면.15 is a view showing another movable coupling portion of the pressing means.
도 16은 본 발명에 따른 누름봉을 대체하는 가압회전수단의 실시예를 도시한 도면16 is a view showing an embodiment of the pressure rotating means for replacing the push rod according to the present invention
도 17은 가압회전수단의 가압봉의 회전홈을 도시한 사시도Figure 17 is a perspective view showing a rotating groove of the pressure rod of the pressure rotating means
도 18은 도 17의 가압봉의 다른 방향을 도시한 사시도18 is a perspective view showing another direction of the pressure bar of FIG.
도 19는 본 발명의 기 실시예에 따른 원액기용 착즙모듈을 도시한 단면도.19 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention.
도 20은 도 19에 도시된 착즙모듈의 일부로서 가공스크루를 상단에 일체로 구비한 스크루를 도시한 정면도.20 is a front view showing a screw integrally provided with a processing screw on the top as part of the juice module shown in FIG.
도 21은 본 발명에 따른 기타 실시예를 도시한 도면.Figure 21 illustrates another embodiment according to the present invention.
도 22는 본 발명에 따른 기타 실시예를 도시한 도면.Figure 22 illustrates another embodiment according to the present invention.
도 23은 본 발명의 패드를 도시한 도면Figure 23 illustrates the pad of the present invention
도 24는 본 발명의 기타 실시예에 따른 원액기용 착즙모듈을 도시한 단면도24 is a sectional view showing a juice module for juice solution according to another embodiment of the present invention
도 25는 본 발명의 다른 실시예에 따른 원액기용 착즙모듈을 도시한 단면도25 is a cross-sectional view showing a juice module for juice solution according to another embodiment of the present invention
본 발명은 스크루에 의해서 즙과 찌꺼기를 분리하도록 재료가 파쇄 또는 압착되는 공간을 감싸는 망체의 변형과 흔들림을 억제하는 원액기용 착즙모듈에 관한 것으로, 첨부된 도면에서와 같이 크게 찌꺼기 배출구(102)와 즙배출구(101)가 형성된 용기(100)와 상기 용기(100) 내부에 위치하는 망체(200), 상기 망체(200) 내부에 위치하여 재료를 착즙하는 스크루(300), 상기 용기(100)의 상단에 결합되며 재료가 투입되는 투입구(410)가 형성되되, 그 투입구(410)와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부(600)가 형성된 뚜껑(400) 및 상기 스크루(300)의 상단에 가공안내부(600)와 대응하여, 재료를 가공안내부(600)의 안으로 밀어내면서 파쇄하는 가공날(510)이 형성된 가공부(500)를 포함하여 구성된다.The present invention relates to a juice module for undiluted juice solution that suppresses the deformation and shaking of the mesh surrounding the space in which the material is crushed or compressed to separate the juice and the residue by means of a screw, and largely as shown in the accompanying drawings, the discharge outlet 102 and The container 100, the juice discharge port 101 is formed and the net body 200 is located inside the container 100, the screw 300 is located in the net body 200 to juice the material, the container 100 The inlet 410 is coupled to the top and the input material is formed, the lower portion communicating with the inlet 410 is formed with a processing guide 600 for guiding and crushing the lid 400 and the screw 300 Corresponding to the processing guide 600 at the top of the), and comprises a processing unit 500 is formed with a processing blade 510 for crushing while pushing the material into the processing guide 600.
본 발명에 첨부된 도면의 도 1은 본 발명의 일 실시예에 따른 원액기용 착즙모듈을 도시한 사시도이고, 도 2는 본 발명의 일 실시예에 따른 원액기용 착즙모듈을 도시한 단면도이며, 도 3은 도 1에 도시된 착즙모듈의 뚜껑을 위에서 아래로 도시한 평면도이고, 도 4는 도 3의 A-A를 따라 취해진 뚜껑의 단면도이며, 도 5는 도 3의 B-B를 따라 취해진 뚜껑의 단면도이고, 도 6는 도 1에 도시된 착즙모듈의 일부로서 가공부를 상단에 일체로 구비한 스크루를 도시한 정면도이며, 도 7은 본 발명의 또 다른 실시예를 도시한 도면이고, 도 8은 도 7의 A-A'와 B-B'에 대한 부분 종단면도이며, 도 9는 도 7의 C-C'와 D-D'에 대한 부분 종단면도이고, 도 10은 본 발명에 따른 또 다른 실시예를 도시한 도면이며, 도 11은 본 발명에 따른 또 다른 실시예를 도시한 도면이고, 도 12는 본 발명에 따른 누름봉을 대체하는 가압수단의 실시예를 도시한 도면이며, 도 13 도 12의 A-A'방향의 종단면도이고, 도 14는 가압수단에 대한 분해도이며, 도 15는 가압수단의 또 다른 이동결합부를 도시한 도면이다.Figure 1 of the drawings attached to the present invention is a perspective view showing a juice module for juice solution according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a juice module for juice solution according to an embodiment of the present invention, Figure 3 is a plan view showing the lid of the juice module shown in Figure 1 from the top down, Figure 4 is a cross-sectional view of the lid taken along AA of Figure 3, Figure 5 is a cross-sectional view of the lid taken along BB of Figure 3, Figure 6 is a front view showing a screw integrally provided with a processing unit at the top as part of the juice module shown in Figure 1, Figure 7 is a view showing another embodiment of the present invention, Figure 8 is Figure 7 Partial longitudinal cross-sectional views of A-A 'and B-B', FIG. 9 is a partial longitudinal cross-sectional view of C-C 'and D-D' of FIG. 7, and FIG. 10 shows another embodiment according to the present invention. 11 is a view showing another embodiment according to the present invention, Figure 12 is a view 13 is a longitudinal sectional view in the direction of AA ′ of FIG. 12, FIG. 14 is an exploded view of the pressing means, and FIG. 15 is a view of the pressing means. Another view of the mobile coupling portion.
우선, 도 1 내지 도 6을 참조하여 본 발명의 일 실시예를 설명한다.First, an embodiment of the present invention will be described with reference to FIGS. 1 to 6.
상기 원액기용 착즙모듈은 내부에 착즙 공간을 포함하고 외부면 일측 및 타측에 즙배출구(101) 및 찌꺼기 배출구(102)가 형성된 용기(100)와, 상기 용기(100) 내부에 설치되어 착즙시 발생한 재료의 찌꺼기로부터 즙을 분리하는 망체(200)와, 상기 망체(200) 내부에 설치되어 재료를 착즙하는 스크루(300) 및 상기 용기(100)의 상단에 설치되되 재료가 투입되는 투입구(410)가 형성된 뚜껑(400)을 포함한다.The juicer module for juice solution includes a juice space in the container 100 and a juice discharge port 101 and a dregs outlet 102 formed on one side and the other side of the outer surface, and the juice 100 is generated when juiced. Mesh 200 separating the juice from the residue of the material, and screw 300 is installed inside the mesh 200 and the top of the container 100 and the inlet 410 is installed in the material is inserted into the material It includes a lid 400 is formed.
도시하지는 않았지만, 상기 착즙모듈은 상기 용기(100)의 즙배출구(101)를 선택적으로 개폐하기 위해 개폐수단이 적용될 수 있고, 개폐수단으로는 코크밸브가 이용될 수 있으며, 그 코크밸브는 상기 즙배출구(101)를 전진 또는 후퇴하는 밸브체를 포함하되, 그 밸브체의 선단이 상기 즙배출구(101)를 향해 배향된 구조가 바람직하다.Although not shown, the juice module may be an opening and closing means for selectively opening and closing the juice outlet 101 of the container 100, a cock valve may be used as the opening and closing means, the cock valve is the juice It is preferable to include a valve body for advancing or retracting the discharge port 101, the tip of the valve body being oriented toward the juice discharge port 101.
그리고 상기 코크밸브는 밸브체에 의해 상기 즙배출구(101)와 선택적으로 연결될 수 있는 즙 배출 꼭지를 포함할 수 있을 뿐만 아니라, 다양한 것들이 채용될 수 있다.In addition, the coke valve may include a juice discharge tap that may be selectively connected to the juice discharge port 101 by a valve body, and various ones may be employed.
또한, 찌꺼기 배출구(102)에는 패킹(미도시)이 설치되어 탄성력에 의한 압착 및 배출도를 조율할 수 있으며, 이 패킹 하부에 사용자에 의해서 조절되어 패킹의 하부면을 지지하여 완전 밀폐 또는 부분밀폐가 가능하도록 실시될 수도 있다.In addition, the waste outlet 102 is provided with a packing (not shown) to adjust the compression and the discharge degree by the elastic force, it is adjusted by the user in the lower part of the packing to support the bottom surface of the packing to be completely sealed or partially sealed May be implemented to enable this.
상기 망체(200)는 상단에서 가장 큰 내경을 가지며, 따라서 망체(200) 상단에서, 스크루(300)의 중심축선에서 망체(200)에 이르는 거리가 가장 크게 정해진다.The mesh 200 has the largest inner diameter at the upper end, and therefore, the distance from the central axis of the screw 300 to the mesh 200 is determined at the upper end of the mesh 200.
상기 투입구(410)의 하단 폭은 상기 스크루(300)의 중심축선에서 망체(200) 상단 내주면에 이르는 최단거리보다 크게 정해진다.The bottom width of the inlet 410 is determined to be larger than the shortest distance from the central axis of the screw 300 to the inner peripheral surface of the upper end of the mesh 200.
따라서, 위에서 볼 때, 상기 투입구(410)의 영역은 상기 망체(200)의 상단 영역과 일부 중첩되면서 상기 망체(200) 상단 영역으로부터 외곽으로 벗어나 있다.Therefore, when viewed from above, the region of the inlet 410 is partially overlapped with the upper region of the network 200, and is outwardly from the upper region of the network 200.
기존 원액기의 투입구가 전체적으로 망체의 영역 안쪽에 위치하도록 작은 크기를 갖는 것과는 큰 차이를 갖는다.There is a big difference from having a small size so that the input port of the existing stock solution is located inside the area of the net as a whole.
또한 상기 가공안내부(600)는 상기 투입구(410)의 하단과 연결되는 높이에서 상기 투입구(410)의 하단 전체 영역을 덮도록 형성된다.In addition, the processing guide 600 is formed to cover the entire lower area of the inlet 410 at the height connected to the lower end of the inlet 410.
더 나아가, 투입구(410)는 상기 스크루(300)의 중심축(310)을 중심으로 하는 상기 가공안내부(600)의 직경에 상응하는 원 영역 내에 있으며, 더 바람직하게는, 상기 중심축(310)을 지나는 선에 의해 분할된 일측 반원 영역 내에 치우쳐 위치한다.Furthermore, the inlet 410 is in a circle region corresponding to the diameter of the processing guide 600 about the center axis 310 of the screw 300, more preferably, the center axis 310 It is located in one semicircle area divided by a line passing by).
상기 가공부(500)는 스크루(300)의 상단에 상부를 향해 좁아지는 형태로 형성되고, 표면에는 상부를 향해 점진적으로 좁아지는 폭을 가지면서 나선 형태로 연장된 가공날(510)이 형성되어 구성된다.The processing unit 500 is formed in the form of narrowing toward the top at the top of the screw 300, the processing edge 510 extending in the form of a spiral while having a width gradually narrowing toward the top is formed It is composed.
이러한 가공부(500)는 재료의 측면을 가공하도록 구성된 것으로, 이하 설명될 가공안내부(600)와 상호작용하여 재료를 파쇄 가공하도록 구성된 것이다.The processing unit 500 is configured to process the side of the material, it is configured to interact with the processing guide 600 to be described below to crush the material.
한편, 상기 가공부(500) 상단 정점에는 상기 스크루(300)의 중심축(310)이 형성되며, 이러한 중심축(310)은 스크루(300) 및 가공부(500)의 흔들림을 억제하는 것일 뿐, 본 발명을 실시하는 데에는 무방하며, 상기 가공날(510)을 도와 재료를 더 효과적으로 파쇄할 수 있도록 하나 이상의 보조 가공날(미도시)이 더 형성될 수 있다.Meanwhile, a central axis 310 of the screw 300 is formed at the upper end of the processing unit 500, and the central axis 310 merely suppresses shaking of the screw 300 and the processing unit 500. In the present invention, one or more auxiliary processing blades (not shown) may be further formed to help the processing blade 510 to more effectively crush the material.
상기 뚜껑(400)은 재료가 투입되는 투입구(410)가 형성되고, 그 투입구(410)와 연통하되, 상기 가공부(500)를 수용하도록 용기(100)와 결합되는 면으로부터 위로 오목하게 형성된 가공안내부(600)를 하부 면에 포함하고, 그 가공안내부(600)는 상기 가공부(500)에 대응되게 상단 정점을 향해 점진적으로 좁아지는 형상을 갖는다.The lid 400 is formed with an inlet 410 into which the material is injected, and communicates with the inlet 410, and is formed to be concave upward from the surface coupled with the container 100 to accommodate the processing unit 500. The guide part 600 is included in the lower surface, and the processing guide part 600 has a shape that is gradually narrowed toward the top apex to correspond to the processing part 500.
이러한 가공안내부(600)는 이하 설명될 가공부(500)의 가공날(510)이 삽입되며, 그 가공부(500)와 협력하여 상기 투입구(410)를 통해 투입된 재료가 파쇄 가공된다.The processing guide 600 is inserted into the processing blade 510 of the processing unit 500 to be described below, the material injected through the inlet 410 in cooperation with the processing unit 500 is shredded.
그리고 상기 가공안내부(600)의 상단 정점에는 상기 스크루(300)의 중심축(310)이 회전가능하게 끼워지는 축공이 형성될 수 있다.And at the top apex of the processing guide 600 may be formed a shaft hole in which the central axis 310 of the screw 300 is rotatably fitted.
한편, 상기 가공안내부(600)의 내면, 특히, 안쪽의 측면은 상기 투입구(410)의 하단에서부터 상기 가공날(510)이 진행하는 방향으로 가공부(500)의 가공날(510)과 점점 더 인접하도록 형성된 제1가공안내면(610)이 구성되어, 재료가 가공날(510)에 의해서 외부로 밀려날 때에 재료는 가공안내부(600)의 내면에 의해서 저지되고, 그 가공날(510)이 재료의 측면을 파고들면서 가공안내부(600)의 안쪽으로 점점 말려들어가도록 함과 동시에 재료가 파쇄가공되도록 구성된다.On the other hand, the inner surface of the processing guide 600, in particular, the inner side is gradually from the lower end of the inlet 410 and the processing edge 510 of the processing unit 500 in the direction that the processing blade 510 proceeds. The first processing guide surface 610 formed to be adjacent is configured so that when the material is pushed out by the processing blade 510, the material is blocked by the inner surface of the processing guide 600, and the processing blade 510 is The material is configured to be gradually broken into the inside of the processing guide 600 while digging into the side of the material, and at the same time, the material is broken.
즉, 상기 가공안내부(600)의 내면, 특히, 안쪽의 제1가공안내면(610)은 상기 투입구(410)의 하단에서부터 상기 가공날(510)이 진행하는 방향으로 가공부(500)의 가공날(510)과 점점 더 인접하도록 형성된다.That is, the inner surface of the processing guide 600, in particular, the first processing guide surface 610 inside the processing of the processing unit 500 in the direction in which the processing blade 510 proceeds from the lower end of the inlet 410 It is formed closer to the blade 510.
이에 따라, 재료가 가공날(510)에 의해서 외부로 밀려날 때에, 재료는 가공안내부(600)의 내면에 의해서 저지되어, 그 가공날(510)에 의해서 재료의 측면이 파쇄되면서 가공부(500)의 회전에 따라서 점점 말려들어간다.Accordingly, when the material is pushed out by the processing blade 510, the material is blocked by the inner surface of the processing guide 600, and the side surface of the material is crushed by the processing blade 510, thereby processing the processing portion 500. It gradually rolls in accordance with the rotation of).
이는 사용자가 투입구로 투입한 재료를 또 다시 눌러주지 않아도 자동으로 파쇄되는 효과를 제공한다.This provides the effect of automatically crushing without the user pressing the material fed into the inlet again.
다시말해, 제1가공안내면(610)은 가공부(500)의 가공날(510)과 상호작용하여, 재료를 가공날(510)로 강제이동시킴으로써, 사용자가 재료를 밀어넣지 않더라도 자동적으로 파쇄가공이 이루어지도록 구성된 것이다.In other words, the first machining guide surface 610 interacts with the machining edge 510 of the machining part 500 to forcibly move the material to the machining edge 510, thereby automatically crushing even if the user does not push the material. This is configured to be done.
또한, 재료가 가공안내부(600)에 말려 들어감에 따라서 스크루(300)를 하부로 압박하는 힘이 발생하여, 재료의 찌꺼기가 스크루의 하부 면과 용기의 바닥면 사이로 침투하여 발생하는 스크루의 상부이동을 억제할 수 있는 효과도 있다.In addition, as the material is rolled into the processing guide 600, a force for pressing the screw 300 downward is generated, and the upper part of the screw generated by infiltrating the residue between the bottom surface of the screw and the bottom surface of the container. There is also an effect that can suppress movement.
그리고 제1가공안내면(610)에는 파쇄 가공성을 더욱 좋게 하도록, 하나 이상의 분쇄날(630)이 추가로 형성되며, 이 분쇄날(630)은 이격된 상태로 상기 제1가공안내면(610)의 상부로부터 하부로 길게 연장된 채, 상부에서 하부로 향할수록 상기 가공날(510)과 점점 더 인접하게 형성함이 바람직할 것이다.In addition, at least one grinding blade 630 is further formed on the first processing guide surface 610 so as to further improve crushability, and the grinding blade 630 is spaced apart from the upper portion of the first processing guide surface 610. Longer from bottom to bottom, it will be preferable to form closer to the processing edge 510 from the top to the bottom.
그리고 상기 가공안내부(600)의 한쪽 내면에는 투입구(410)와 연장되어 가공부(500)의 중심 쪽 하부방향으로 기울어지게 형성한 재료안내면(620)을 포함하여 구성되며, 이러한 구성은 투입구(410)로 투입된 재료가 재료안내면(620)의 경사에 의해서 가공부(500) 쪽으로 이동되도록 하여, 재료의 측면이 자연스럽게 가공부(500)의 가공날(510)에 의해서 상기 제1가공안내면(610)과 가공날(510)의 상호작용이 발생하도록 보조하는 기능을 수행하는 것이다.And one of the inner surface of the processing guide 600 includes an inlet 410 and the material guide surface 620 is formed to be inclined toward the lower side of the center of the processing unit 500, such a configuration is the inlet ( The material introduced into the 410 is moved toward the processing unit 500 by the inclination of the material guide surface 620, so that the side surface of the material is naturally formed by the processing blade 510 of the processing unit 500. ) And the processing edge 510 to perform the function of assisting to occur.
한편, 상기 재료안내면(620)은 투입구(410)과 연장되지 않고, 단순히 투입구 하단에 형성하여 본 발명을 실시하여도 무방하다.On the other hand, the material guide surface 620 does not extend with the inlet 410, it may be simply formed at the lower end of the inlet to implement the present invention.
또한, 상기 가공안내부(600)의 하단에는 망체(200)의 상단이 거의 꼭 맞게 삽입되는 망체 삽입턱(420)이 형성될 수 있다.In addition, the lower end of the processing guide 600 may be formed with a network insertion jaw 420 is inserted into the upper end of the network 200 almost fit.
상기 재료안내면(620)은 끝단에서 상기 망체 삽입턱(420)과 단차지게 만나며, 이때, 재료안내면(620)의 끝단이 망체(200)의 상단 안쪽면과 일치하도록 형성된다.The material guide surface 620 meets stepwise with the net insertion jaw 420 at the end, and at this time, the end of the material guide surface 620 is formed to coincide with the upper inner surface of the upper body 200.
따라서, 상기 가공안내부(600)를 거쳐 파쇄된 재료는 상기 재료안내면(620)을 따라 상기 망체(200)의 내부로 원활하게 안내된다.Therefore, the material crushed through the processing guide 600 is smoothly guided into the mesh body 200 along the material guide surface 620.
이상에서와 같이 구성된 본 실시예에 따르면, 뚜껑(400)에 형성된 투입구(410)를 통하여 투입된 재료가 가공부(500)와 가공안내부(600)의 상호작용에 의해서 파쇄가공되어 파쇄된 다수의 조각들과 다져진 상태처럼 다소 무르게 변형된 후에, 기존의 스크루(300)로 이동되어 착즙이 이루어 지도록 구성된 것으로써, 투입된 재료는 재료안내면(620)에 의해서 가공부(500)로 이동되고, 이렇게 이동된 재료의 측면이 가공날(510)에 의해서 제1가공안내면(610)을 따라서 가공안내부(600) 안쪽으로 이동되되, 가공날(510)과 제1가공안내면(610) 사이의 공간이 서서히 좁아짐에 따라서 재료가 그 제1가공안내면(610)과 가공날(510) 사이에 끼게 된다.According to the present exemplary embodiment configured as described above, the material injected through the inlet 410 formed in the lid 400 is crushed by the interaction between the processing unit 500 and the processing guide unit 600, and then crushed. After being deformed somewhat softly like the pieces and the chopped state, it is configured to be moved to the existing screw 300 to be juiced, and the injected material is moved to the processing unit 500 by the material guide surface 620 and thus moved. The side surface of the material is moved by the machining blade 510 along the first machining guide surface 610 into the machining guide 600, but the space between the machining blade 510 and the first machining guide surface 610 gradually decreases. As it narrows, the material is sandwiched between the first machining guide surface 610 and the machining edge 510.
이때, 회전하는 가공날(510)이 재료의 측면을 파고들어가면서 재료의 측면을 가공안내부(600) 안쪽으로 밀면서 재료의 측면 일부를 파쇄하게 되고, 이렇게 밀린 재료는 제1가공안내면(610)에 의해서 가공부(500)의 중심 쪽으로 압박되면서 다시 되돌아오는 가공날(510)이 재료의 측면을 파고들어 상기와 같은 작용이 반복되어 파쇄가공이 이루어지는 가공부(500)와 가공안내부(600)의 상호작용이 진행된다.At this time, while rotating the cutting edge 510 is to dig the side of the material while pushing the side of the material into the processing guide 600, to crush a part of the side of the material, the material thus pushed to the first processing guide surface 610 By pressing toward the center of the processing unit 500, the processing blade 510 coming back again, the side of the material is dug into the side of the processing unit 500 and the processing guide portion 600, the above-described action is repeated and crushed processing is performed. Interaction proceeds.
이렇게 파쇄가공된 재료의 조각들은 스크루(300)로 자연스럽게 이동된 후에 본격적인 착즙이 이루어지게 되는 것이다.The pieces of the shredded material are then moved to the screw 300 naturally, and the juice is made in earnest.
이상에서와 같이, 본 발명은 재료가 가공부(500)와 가공안내부(600)의 상호작용에 의해서 파쇄가공됨과 동시에 무르게 변형됨으로써, 스크루(300)와 재료의 상태에 따라서 발생하는 망체(200)의 부하가 줄어드는바, 망체(200)의 변형 내지 흔들림이 억제되어 망체(200)의 파손과 소음이 억제됨과 동시에 스크루(300)와 망체(200)의 마모를 억제하는 효과가 있다.As described above, according to the present invention, the material is crushed by the interaction between the processing unit 500 and the processing guide 600, and is deformed at the same time so as to be softly deformed, thereby generating the net body 200 according to the state of the screw 300 and the material. Bar load is reduced, the deformation or shaking of the mesh 200 is suppressed, and the damage and noise of the mesh 200 are suppressed, and at the same time, the wear of the screw 300 and the mesh 200 is suppressed.
한편, 상기에서와 같은 실시예에 따른 본 발명에서는 기존의 원액기에서 사용될 수 있는 재료의 크기를 결정하는 스크루(300) 상부의 반경보다 큰 지름을 가진 재료(통 사과 등)를 사용자가 손질하지 않고도 원활한 착즙이 이루어질 수 있음과 동시에, 그 재료를 절삭하기 위해서 기존 스크루(300)의 반경을 확장하지 않고도 실시될 수 있도록, 투입구(410)의 하단은 상기 스크루(300)의 중심축선에 대하여 일측으로 치우쳐 형성하되, 큰 크기의 재료가 충분히 투입될 수 있는 큰 하단 폭(W; 또는 내경)을 가지도록 형성되며, 가공부(500)의 높이 또한 투입된 재료를 수용할 수 있는 높이를 가지도록 투입구(410)의 하단 폭(W)과 동일 또는 유사한 크기로 형성된다.On the other hand, in the present invention according to the embodiment as described above, the user does not touch the material having a diameter larger than the radius of the upper portion of the screw 300, which determines the size of the material that can be used in the conventional stock solution. At the same time, smooth juice can be made without cutting, and the lower end of the inlet 410 is one side with respect to the center axis of the screw 300 so that it can be carried out without expanding the radius of the existing screw 300 to cut the material. Formed to be biased, but having a large bottom width (W; or inner diameter) that can be sufficiently injected into a large size of material, the height of the processing unit 500 also has a height to accommodate the input material It is formed to the same or similar size as the bottom width (W) of 410.
이러한 구성은 기존 원액기의 스크루(300)가 절삭가능한 지름을 가진 재료보다 큰 재료를 사용하기 위해서 그 스크루(300)의 상단 반경(또는 지름)을 확장하여 제품을 설치하기 위해 필요한 면적을 늘려야 하는 점에서 확연한 차이점이 있다.This configuration requires that the screw 300 of the existing stock solution has to expand the top radius (or diameter) of the screw 300 in order to use a material larger than the material with the cuttable diameter to increase the area required to install the product. There is a marked difference in that.
즉, 종래의 원액기는 큰 재료를 사용하기 위해서 원액기 전체의 크기를 확장하여야 하는 반면, 본 발명은 가공부(500)의 높이만을 확장하는 것만으로 실시될 수 있고, 이는 제조원가가 낮고, 원액기의 설치면적이 확장되지 않는 효과가 있는 것이다.That is, while the conventional stock solution has to expand the size of the entire stock solution in order to use a large material, the present invention can be implemented only by expanding the height of the processing unit 500, which is low in manufacturing cost, The installation area of the is not effective to expand.
이하, 도 7 내지 도 9를 참조하여, 상기 본 발명의 또 다른 실시예를 설명한다.Hereinafter, another embodiment of the present invention will be described with reference to FIGS. 7 to 9.
도 7 내지 도 9와 같이, 가공안내부(600)에는 상기 재료의 측면을 압박하는 제1가공안내면(610)과 달리, 재료의 상부를 압박하여 재료가 하부로 이동될 수 있도록, 뚜껑(400)의 하부 공간은 원형의 홈으로 구성하되, 하부 면에 가공부(500)의 중심축을 중심으로 상기 투입구(410)의 하단 영역에서부터 나선형으로 경사지게 돌출 형성되되, 가공부(500)의 회전방향과 동일하게 형성된 제2가공안내면(640)을 포함하여 구성된다.7 to 9, unlike the first processing guide surface 610 for pressing the side of the material to the processing guide 600, the lid 400 to press the upper portion of the material to be moved to the lower portion, The lower space of the) is composed of a circular groove, protruding inclined spirally from the lower end of the inlet 410 around the central axis of the processing unit 500 on the lower surface, and the direction of rotation of the processing unit 500 The second processing guide surface 640 is formed in the same manner.
그리고 이러한 제2가공안내면(640)은 상기 상부가 좁고 하부가 넓은 가공부(500)와 달리, 평판 형태로 형성되되, 재료의 하부를 파쇄하도록 상부 면에 하나 이상의 가공날(510)이 형성된 또 다른 가공부(500)와 함께 실시되는 것으로, 재료가 가공부(500) 상에 위치할 경우에 상기 제1가공안내면(610)과 같이 가공부(500)와 상호작용하되, 제2가공안내면(640)은 재료의 상부를 압박하는 차이점이 있다.The second processing guide surface 640 is formed in the shape of a flat plate, unlike the processing unit 500 having a narrow upper portion and a wider lower portion, and at least one processing blade 510 is formed on the upper surface to crush the lower portion of the material. In conjunction with the other processing unit 500, when the material is located on the processing unit 500, and interacts with the processing unit 500, such as the first processing guide surface 610, the second processing guide surface ( 640 differs in pressing the top of the material.
이러한 구성은 도면과 같이, 제1가공안내면(610)을 대신하여도 무방하고, 도 10과 같이 제1가공안내면(610) 및 재료안내면(620)과 함께 실시하여도 무방하며, 이러한 구성으로 선택적으로 결합하여 사용하여도 본 발명을 용이하게 실시할 수 있다.Such a configuration may be performed in place of the first processing guide surface 610 as shown in the drawing, and may be performed together with the first processing guide surface 610 and the material guide surface 620 as shown in FIG. 10. Even when used in combination, the present invention can be easily carried out.
그리고 가공안내부(600)에는 상기 재료안내면(620)을 대신하여 투입구(410)의 하단 영역의 뚜껑(400) 측면에 압착구멍(420)을 형성하고, 그 압착구멍(420)에 삽입되어 재료를 가공부(500)로 밀어 넣을 수 있는 누름봉(430)을 포함하여 구성된다.In addition, the processing guide 600 forms a pressing hole 420 on the side of the lid 400 of the lower region of the inlet 410 in place of the material guide surface 620, and is inserted into the pressing hole 420 to insert the material. It is configured to include a pressing rod 430 that can be pushed into the processing unit 500.
이러한 구성의 누름봉(430)은 투입구(410)로 투입된 재료를 가공부(500)로 압착하여 부분적으로 순차적 파쇄가 이루어지도록 구성된 것이고, 누름봉(430)과 압착구멍(420)의 구성은 상기 제1가공안내면(610)과 제2가공안내면(640)과 함께 또는 선택적으로 결합하여 사용되어도 본 발명을 용이하게 실시할 수 있다.The pressing bar 430 of this configuration is configured to partially sequential crushing by pressing the material injected into the inlet 410 into the processing unit 500, the configuration of the pressing bar 430 and the pressing hole 420 is The present invention can be easily implemented even when used in combination with the first processing guide surface 610 and the second processing guide surface 640 or selectively combined.
한편, 본 발명에는 상기 재료안내면(620)을 대신하여 도 11에서와 같은 누름봉(430) 또는 도 12 내지 도 14와 같은 가압수단(700a)을 더 포함하여 구성된다.Meanwhile, the present invention further includes a pressing rod 430 as shown in FIG. 11 or pressing means 700a as shown in FIGS. 12 to 14 instead of the material guide surface 620.
상기 가압수단(700a)은 투입구(410) 내부에서 횡 방향으로 이동하도록 설치되어, 투입구(410)로 투입된 재료를 가공안내부(600)와 가공부(500)로 이동시키는 것으로, 투입구(410)의 최상단에서부터 투입구(410) 내부의 하단으로 연장된 길이를 가진 가압편(710a)과 그 가압편(710a)의 상단에 측면으로 돌출되되, 수직의 원형구멍(721a)으로 형성된 이동결합부(720a)로 구성된다.The pressurizing means 700a is installed to move in the transverse direction inside the inlet 410, and moves the material introduced into the inlet 410 to the processing guide 600 and the processing unit 500, the inlet 410 Pressing piece 710a having a length extending from the uppermost end of the inlet 410 to the lower end of the inner side of the pressing piece 710a protrudes laterally, the movable coupling portion 720a formed by a vertical circular hole 721a It is composed of
이렇게 구성된 가압수단(700a)은 이동결합부(720a)의 원형구멍(721a)이 투입구(410)의 상부 면에 위치하여, 그 원형구멍(721a)보다 작은 지름을 갖는 볼트 등으로 삽입한 후, 투입구(410)의 상부면이 볼트체결되며, 이렇게 완성된 가압수단(700a)은 투입구(410) 내부에서 가압편(710a)이 그 원형구멍(721a)을 회전축으로 하여 자유롭게 회전하여, 투입구(410)로 투입된 재료를 가공부(500)와 가공안내부(600)로 이동되도록 구성된 것이다.The pressing means 700a configured as described above has a circular hole 721a of the movable coupling part 720a positioned at the upper surface of the inlet 410, and then inserted into a bolt having a diameter smaller than that of the circular hole 721a, The upper surface of the inlet 410 is bolted, the pressure means (700a) is completed, the pressing piece 710a is freely rotated by the circular hole 721a as the rotating shaft in the inlet 410, the inlet 410 It is configured to move the material injected into the processing unit 500 and the processing guide 600.
그리고 상기 가압수단(700a)은 투입구(410)의 지름을 최대한 보존하되, 가공안내부(600)와 가공부(500)로 재료를 정확하게 이동시키도록, 가압편(710a)은 투입구(410)의 안쪽 면 중에서 가공부(500)가 회전하는 방향의 반대쪽 방향의 면과 대응하여 접하도록 반원모양으로 형성되고, 그 이동결합부(720a)의 결합위치는 가공부(500)의 중심 쪽으로 설치되어 구성됨이 바람직하다.And the pressing means (700a) is to preserve the diameter of the inlet 410 as much as possible, the pressing piece (710a) of the inlet 410 to accurately move the material to the processing guide 600 and the processing unit 500 The inner surface is formed in a semicircular shape so as to contact with the surface in the opposite direction of the direction in which the processing unit 500 is rotated, the coupling position of the moving coupling portion 720a is configured to be installed toward the center of the processing unit 500 This is preferred.
한편, 도 15에서와 같이, 상기 이동결합부(720a)의 원형구멍(721a)을 대신해, 장공(722a)을 형성하여, 가압수단(700a)이 장공(722a)을 따라서 직선 이동되도록 구성하여도 본 발명을 용이하게 실시할 수 있고, 본 발명에 사용되는 볼트의 목 부분은 직사각형으로 형성하여 장공(722a)에 따른 가압수단(700a)이 정확한 직선 이동이 이루어지도록 구성하여도 무방하다.On the other hand, as shown in Figure 15, in place of the circular hole 721a of the movable coupling portion 720a, by forming a long hole 722a, even if the pressing means 700a is configured to move linearly along the long hole 722a The present invention can be easily implemented, and the neck portion of the bolt used in the present invention may be formed in a rectangular shape so that the pressurizing means 700a according to the long hole 722a can be configured to perform a precise linear movement.
이상에서와 같은 가압수단(700a)은 투입구(410)로 투입된 재료를 횡 방향으로 이동시켜 가공부(500)의 가공날(510)에 재료를 정확하게 이동시키거나, 제1가공안내면(610)과 가공부(500) 사이 또는 제2가공안내면(640) 하부로 이동시켜, 본 발명의 가공부(500)와 가공안내부(600)의 상호작용에 따른 파쇄가공이 원활하게 이루어지도록 하는 재료안내면(620)과 동일한 효과가 있고, 투입구(410)의 지름을 최대한 보존함으로써, 종래의 상ㆍ하 이동하는 통상의 누름봉과 혼용하여도 사용가능한 효과가 있다.The pressing means 700a as described above moves the material injected into the inlet 410 in the horizontal direction to accurately move the material on the cutting edge 510 of the processing part 500, or the first processing guide surface 610. Material guide surface to move between the processing unit 500 or the second processing guide surface 640 lower, so that the crushing processing according to the interaction of the processing unit 500 and the processing guide 600 of the present invention ( There is the same effect as 620, and by preserving the diameter of the inlet 410 as much as possible, there is an effect that can be used in combination with a conventional push rod that moves up and down conventional.
한편, 본 발명은 도 16 내지 도 18과 같이, 상기 투입구(410) 내부로 삽입되어 재료의 상부를 압박함과 동시에 회전시키도록 구성된 압박회전수단(700b)을 포함하는 구조의 실시예를 적용할 수도 있다.On the other hand, the present invention is applied to an embodiment of the structure including a pressing rotation means 700b is inserted into the inlet 410, as shown in Figure 16 to 18 configured to rotate at the same time to press the top of the material. It may be.
상기 압박회전수단(700b)은 상기 투입구(410) 안쪽 면에 회전가이드(710b)가 돌출형성되고, 그 투입구(410) 내부에 삽입되는 크기로 형성되되, 투입구(410)의 내면과 근접한 지름을 가진 원기둥 형상의 압박봉(720b)으로 구성된 것이다.The pressure rotating means (700b) is formed in a size that is inserted into the rotation guide 710b is protruded, the insertion hole 410 inside the inner surface of the inlet 410, the diameter close to the inner surface of the inlet 410 It consists of a cylindrical pressure rod push rod (720b).
그리고 상기 압박봉(720b)의 한쪽 측면에는 회전가이드(710b)과 대응하는 회전홈(730b)이 압박봉(720b)의 길이방향으로 형성되되, 압박봉(720b)의 하부에서부터 상부로 갈수록 압박봉(720b)의 표면을 따라서 점점 휘어지도록 형성되어, 그 회전홈(730b)에 회전가이드(710b)가 삽입되는 위치로 압박봉(720b)을 투입구에 삽입하여 하부로 이동시키면, 고정된 회전가이드(710b)가 회전홈(730b)에 삽입된 채 압박봉(720b)이 이동되는데, 이때, 압박봉(720b)은 점점 휘어지도록 형성된 회전홈(730b)과 고정된 회전가이드(710b)에 의해서 회전홈(730b)이 휘어진 방향의 반대방향으로 회전하면서 이동되도록 구성된다.In addition, the rotation guide 710b and the corresponding rotation groove 730b are formed in the longitudinal direction of the compression rod 720b on one side of the compression rod 720b, and the compression rod 720b moves upward from the lower portion to the upper portion. It is formed to be gradually curved along the surface of (720b), by inserting the pressing rod (720b) into the insertion hole to the position where the rotation guide 710b is inserted into the rotary groove (730b), the fixed rotation guide ( The pressing rod 720b is moved while the 710b is inserted into the rotating groove 730b. At this time, the pressing rod 720b is rotated by the rotating groove 730b and the fixed rotating guide 710b. 730b is configured to move while rotating in a direction opposite to the bending direction.
한편, 상기 재료안내면(620)에 의해서 재료이 이동이 이루어지지 않거나, 가공안내면(610)과 가공날(510)의 상호작용이 원활하게 이루어지지 않아서 재료가 투입구(410) 하단에 정체될 수 있는데, 이때 압박회전수단(700b)의 회전가이드(710b)가 회전홈(730b)에 삽입되도록 압박봉(720b)을 투입구(410)에 삽입하여 눌러주면, 그 압박봉(720b)이 재료를 눌러주어 재료안내면(620)을 따라서 원활하게 이동시키게 된다.On the other hand, the material is not moved by the material guide surface 620, or the interaction between the processing guide surface 610 and the processing blade 510 is not made smoothly material may be stagnated at the bottom of the inlet 410, At this time, when the pressing rod 720b is inserted into the inlet 410 so that the rotation guide 710b of the pressing rotating means 700b is inserted into the rotating groove 730b, the pressing rod 720b presses the material. It is smoothly moved along the guide surface 620.
또한, 압박봉(720b)이 재료의 상부와 접한 상태에서 회전가이드(710b)와 회전홈(730b)에 의해서 회전하면, 재료 또한 횡 방향으로 자전하여 제1가공안내면(610) 내지 재료안내면(620)을 타고 회전 이동된다.In addition, when the pressing rod 720b rotates by the rotation guide 710b and the rotation groove 730b in contact with the upper portion of the material, the material also rotates in the transverse direction so that the first processing guide surface 610 to the material guide surface 620 are rotated. Take a ride and rotate.
즉, 압박회전수단(700b)에 의해서 정체된 재료가 가공부(500)의 가공날(510)과 가공안내부(600)의 제1가공안내면(610) 사이로 재료를 원활하게 이동시키는 효과가 있는 것이다.That is, the material stagnated by the pressing rotation means 700b has an effect of smoothly moving the material between the processing edge 510 of the processing unit 500 and the first processing guide surface 610 of the processing guide 600. will be.
더욱이 본 발명은 도 11에서와 재료안내면(620)이 제외된 실시예와 같은 본 발명의 구성에서 자전하는 재료가 투입구(410)의 바닥면 또는 투입구(410)의 측면 내지 제1가공안내면(610)을 타고 이동될 수 있는바, 이하 설명될 재료의 측면을 밀어주는 누름봉(430)을 대신하여 실시할 수 있다.Furthermore, in the present invention, the material that rotates in the configuration of the present invention as in the embodiment of FIG. 11 and the material guide surface 620 is excluded is the bottom surface of the inlet 410 or the side surface of the inlet 410 to the first processing guide surface 610. It can be carried out in the) bar, can be carried out in place of the push bar 430 to push the side of the material to be described below.
한편, 본 발명은 도 19 내지 도 22와 같이 스크루(300)와 가공부(500)가 연동하여 회전하도록 하는 연동부(700c)가 포함되는 구조의 실시예를 적용할 수도 있다.On the other hand, the present invention may be applied to an embodiment of the structure that includes a linking portion 700c for rotating the screw 300 and the processing unit 500, as shown in Figure 19 to 22.
상기 가공부(500)는 이하 설명될 연동부(700c)에 의해서 스크루(300)의 상단에 결합하여 상부를 향해 좁아지는 형태로 형성되고, 표면에는 상부를 향해 점진적으로 좁아지는 폭을 가지면서 나선 형태로 연장된 가공날(510)이 형성되어 구성된다.The processing unit 500 is formed in a form that is narrowed toward the upper side by being coupled to the upper end of the screw 300 by the linking unit 700c to be described below, the surface having a width gradually narrowed toward the upper spiral The processing edge 510 extended in the form is formed is configured.
이러한 가공부(500)는 재료의 측면을 가공하도록 구성된 것으로, 이하 설명될 가공안내부(600)와 상호작용하여 재료를 파쇄 가공하도록 구성된 것이다.The processing unit 500 is configured to process the side of the material, it is configured to interact with the processing guide 600 to be described below to crush the material.
한편, 상기 가공부(500) 상단 정점에는 상기 스크루(300)의 중심축(310)이 형성되며, 이러한 중심축(310)은 스크루(300) 및 가공부(500)의 흔들림을 억제하는 것일 뿐, 본 발명을 실시하는 데에는 무방하며, 상기 가공날(510)을 도와 재료를 더 효과적으로 파쇄할 수 있도록 하나 이상의 보조 가공날(미도시)이 더 형성될 수 있다.Meanwhile, a central axis 310 of the screw 300 is formed at the upper end of the processing unit 500, and the central axis 310 merely suppresses shaking of the screw 300 and the processing unit 500. In the present invention, one or more auxiliary processing blades (not shown) may be further formed to help the processing blade 510 to more effectively crush the material.
상기 연동부(700c)는 스크루(300)의 상부 면에 하나 이상의 키(710c)가 돌출형성되고, 가공부(500)의 하부 면에는 키(710c)와 대응하는 키홈(720c)이 형성되어 키(710c)에 키홈(720c)이 삽입되어 스크루(300) 또는 가공부(500) 중에서 어느 하나가 회전하더라도 연동하도록 구성된 것이다.The interlocking part 700c has one or more keys 710c protruding from the upper surface of the screw 300, and a key groove 720c corresponding to the key 710c is formed on the lower surface of the processing part 500. Key groove 720c is inserted into the 710c is configured to interlock even if any one of the screw 300 or the processing unit 500 rotates.
이렇게 구성된 연동부(700c)는 이하 설명된 관(800)과 이격공간(900)의 구성과 연계하여 모터에 의해서 회전되는 가공부(500)에 의해서 스크루(300)가 회전되도록 하기 위하여 한정한 것일 뿐, 단순히 스크루(300) 또는 가공부(500) 중에서 어느 하나가 회전하더라도 연동하도록 하기위해서는 종래의 스크루(300)와 모터의 샤프트(10)가 결합하여 연동하도록 형성된 스크루(300)의 각형축공(미도시)과 샤프트(10)의 끝단에 형성된 각형축(미도시)으로 대체하여도 무방하다.The linking unit 700c configured as described above is limited to allow the screw 300 to be rotated by the processing unit 500 rotated by a motor in connection with the configuration of the pipe 800 and the space 900 described below. In addition, in order to interlock even if any one of the screw 300 or the processing unit 500 rotates, the conventional shaft 300 and the shaft shaft hole of the screw 300 formed so as to interlock with the shaft 10 of the motor ( Not shown) and the square shaft (not shown) formed at the end of the shaft 10 may be replaced.
한편, 상기 연동부(700c)는 외접기어(미도시)로 구성되어 스크루(300)와 가공부(500)의 회전속도 및 회전방향을 서로 달리하여 구성할 수 있다.On the other hand, the interlocking portion 700c is composed of an external gear (not shown) may be configured by varying the rotational speed and rotational direction of the screw 300 and the processing unit 500.
나아가 본 발명에서는 도 22와 같이, 모터(미도시)의 샤프트(10)가 삽입되는 용기(100)의 바닥면 중심에는 그 샤프트(10)를 보호하는 원형의 관(800)이 형성되되, 그 관(800)은 스크루(300)의 상부로 돌출되는 길이로 형성되며, 스크루(300)와 가공부(500) 사이의 연동부(700c)의 키(710c)가 더 돌출되어 이격공간(900)을 더 형성하여 구성된다.Furthermore, in the present invention, as shown in FIG. 22, a circular tube 800 that protects the shaft 10 is formed at the center of the bottom surface of the container 100 into which the shaft 10 of the motor (not shown) is inserted. Tube 800 is formed of a length protruding to the upper portion of the screw 300, the key 710c of the linking portion 700c between the screw 300 and the processing unit 500 is further protruded space 900 It is formed by further forming.
그리고 스크루(300)의 중심에는 기존의 회전축(미도시)을 대신하여 관(800)에 삽입되도록 천공되고, 가공부(500)에는 관(300) 내부에 위치하는 샤프트(10)와 연결되도록 회전축(미도시)이 구성되되, 그 회전축(미도시)의 하단에는 샤프트(10)와 연결되어 회전되도록 구성된다.And the center of the screw 300 is perforated so as to be inserted into the tube 800 in place of the existing rotation axis (not shown), the processing unit 500 is connected to the shaft 10 located in the tube 300 inside the rotation shaft (Not shown) is configured, the lower end of the rotating shaft (not shown) is connected to the shaft 10 is configured to rotate.
이렇게 구성된 본 발명은 모터(미도시)에 의해서 가공스크루(700)가 회전되되, 상기 연동부(700c)에 의해서 스크루(300)가 회전되며, 뚜껑(100)으로 투입된 재료는 가공부(500)에 의해서 가공된 후, 스크루(300)에 의해서 착즙이 이루어져 즙과 찌꺼기가 망체(200)에 의해서 분리되되, 착즙시에 발생하는 압력에 의해서 찌꺼기 및 잔류하는 즙이 스크루(300) 하부와 용기(100)의 바닥면 사이로 유입되면, 압력에 의해서 즙과 찌꺼기는 관(800)과 스크루(300)의 유격공간을 따라서 스크루(300) 상부로 이동된 후, 이격공간(800)에 의해서 망체(200) 내부의 스크루(300) 상부에서 하부로 자연스럽게 배출되도록 구성된 것이다.In the present invention configured as described above, the processing screw 700 is rotated by a motor (not shown), the screw 300 is rotated by the interlocking part 700c, and the material injected into the lid 100 is the processing unit 500. After being processed by, the juice is made by the screw 300 is separated from the juice and debris by the net body 200, the residue and the remaining juice by the pressure generated during the juice screw 300 and the container ( When introduced between the bottom of the 100, the juice and debris by the pressure is moved to the top of the screw 300 along the clearance space of the tube 800 and the screw 300, and then the net body 200 by the separation space 800 ) It is configured to be naturally discharged from the top of the screw 300 inside.
이러한 구성으로부터 압력에 의한 즙 또는 찌꺼기가 자연스럽게 재 착즙이 이루어짐으로써, 망체(200)에 의해서 걸러지지 못한 즙이 완전히 배출되고, 즙 또는 찌꺼기가 누수 될 수 있는 용기(100)의 샤프트(10)가 관통되는 위치가 스크루(300)의 상단이 됨으로써, 스크루(300) 하단에서 발생하는 착즙압력으로부터 즙 또는 찌꺼기가 샤프트(10)가 관통하는 관(800) 내부로 유입되어 누수되는 현상을 방지하는 효과가 있다.From this configuration, the juice or debris by pressure is naturally re-extracted, so that the juice not filtered by the mesh 200 is completely discharged, and the shaft 10 of the container 100 in which the juice or debris can leak is As the penetrating position becomes the upper end of the screw 300, the juice or debris is introduced into the pipe 800 through which the shaft 10 penetrates and leaks from the juice pressure generated at the lower end of the screw 300. There is.
또한, 상기 관(800)에 삽입되도록 구성된 스크루(300)의 천공되는 지름이 관(800)의 지름보다 크게 형성하거나, 천공된 내면에 길이방향으로 홈을 형성하여 즙 또는 찌꺼기가 원활하게 이동되도록 구성하여 실시되어도 무방할 것이다.In addition, the perforated diameter of the screw 300 configured to be inserted into the tube 800 is formed to be larger than the diameter of the tube 800, or to form a groove in the longitudinal direction on the inner surface of the perforated juice or debris to move smoothly It may be configured and implemented.
한편, 본 발명은 도 23과 같이 상기 망체(200)의 하부 면과 일치하는 형태의 링 모양의 탄성재질의 패드(700d)를 더 포함하며, 이 패드(700d)는 망체(200) 하부 면과 용기(100)의 바닥면에 설치되어 구성된다.Meanwhile, the present invention further includes a ring-shaped elastic pad 700d having a shape corresponding to the lower surface of the mesh 200 as shown in FIG. 23, and the pad 700d includes a lower surface of the mesh 200. It is installed on the bottom surface of the container 100 is configured.
이렇게 구성된 패드(700d)는 착즙에 의해서 재료가 망체(200) 하부로 강제이동 될때에, 이 망체(200) 또한 하부방향으로 압박되는데, 이때에 패드(700d)은 용기(100)의 바닥면에 압박되어 수축되고, 망체(200)가 흔들릴 경우에 망체(200)의 어느 한쪽이 용기(100)의 바닥면으로부터 떨어질 때, 그 부분의 패드(700d)이 팽창되어 망체(200)의 하부가 용기(100) 바닥면에 밀착된 패드(700d)의 상부 면과 접한 상태가 유지되도록 구성된 것이다.The pad 700d configured as described above is pressed when the material is forced to the lower portion of the net body 200 by the juice, and the net body 200 is also pressed downward. At this time, the pad 700d is placed on the bottom surface of the container 100. When one of the meshes 200 falls from the bottom surface of the container 100 when it is pressed and contracted and the mesh 200 is shaken, the pad 700d of the portion thereof is inflated so that the lower portion of the mesh 200 becomes the container. (100) The state in contact with the upper surface of the pad 700d in close contact with the bottom surface is configured to be maintained.
이상에서와 같이 구성된 패드(700d)에 의해서 착즙이 이루어질수록 망체(200)와 용기(100)가 밀폐구성된 바, 설계공차에 의해서 발생된 망체(200)와 용기(100) 바닥면의 미세한 틈으로 착즙압력에 의해서 즙 또는 찌꺼기의 누수가 방지되며, 망체(200)가 흔들려도 용기(200)의 하부 면이 패드(700d)의 상부 면과 접한 상태가 유지됨으로써, 용기(100)의 바닥 면과 망체(200)의 하부 면 항상 밀폐된 상태로 유지되는 효과가 있다.As the juice is made by the pad 700d configured as described above, the mesh 200 and the container 100 are sealed, so that the fine gaps between the mesh 200 and the bottom of the container 100 generated by the design tolerance are generated. The leakage of juice or debris is prevented by the juice pressure, and the lower surface of the container 200 is kept in contact with the upper surface of the pad 700d even when the net body 200 is shaken. There is an effect that the lower surface of the mesh 200 is always kept in a closed state.
한편, 본 발명은 도 24 및 도 25와 같이 상기 망체(200)의 내벽 하부에 형성된 다수의 벽면날(210)과 상기 스크루(300)를 금속으로 제작하여 구성한다.On the other hand, the present invention is configured by manufacturing a plurality of wall blades 210 and the screw 300 formed on the inner wall lower portion of the mesh 200 as shown in Figure 24 and 25 made of metal.
금속은 스크루(300)의 직경이 가장 넓은 부분부터 하부까지 구성되는 것이 적합하며, 스크루(300)와 맞물리는 범위의 벽면날(210) 역시 금속으로 구성되는 것이 바람직하다.The metal is suitably configured from the widest portion of the screw 300 to the bottom, and the wall blade 210 of the range engaged with the screw 300 is also preferably composed of metal.
벽면날(210)에 대응하는 스크루(300)의 표면 일부와 바닥면만을 금속으로 가공한 후 인서트 등의 방법으로 구성하여도 무방하며, 벽면날(210)은 망체(200)에 구성된 금속망을 프레스 가공하여도 무방하다.Only a part of the surface and the bottom surface of the screw 300 corresponding to the wall blade 210 may be processed by metal, and then may be configured by an insert method. The wall blade 210 may be formed of a metal mesh formed in the mesh 200. You may press-process.
이렇게 금속으로 형성된 벽면날(210)과 스크루(300)에는 사출성형 시 발생하는 수축에 따른 성형오차가 발생하지 않으므로, 설계된 치수와 일치하는 망체(200)와 스크루(300)를 제작할 수 있고, 망체(200)와 스크루(300)를 정확히 결합할 수 있다.Since the molding error does not occur in the wall blade 210 and the screw 300 formed of the metal in accordance with the shrinkage generated during injection molding, it is possible to manufacture the mesh 200 and the screw 300 to match the designed dimensions, the mesh The 200 and the screw 300 can be accurately combined.
상기에서와 같이, 망체(200)와 스크루(300)의 성형오차로 인해 어긋나게 결합되어 발생하던 마모현상과 이로 인한 소음문제까지도 억제할 수 있게 된다.As described above, it is possible to suppress the wear phenomenon caused by the coupling error due to the molding error of the mesh 200 and the screw 300 and the noise problem caused by this.
또한 스크루(300)와 용기(100)의 바닥면 사이에 틈이 발생하지 않게 되어, 착즙액의 누수문제를 해결하고, 찌꺼기와 즙 간의 확실한 분리를 할 수 있게 됨으로써, 착즙률이 향상되는 효과가 있다. 그리고 딱딱한 재료에 의한 망체(200)와 스크루(300)의 마모 혹은 긁히는 문제, 그리고 상기 망체(200)와 스크루(300)의 마찰로 인해 생기는 부품의 부스러기 발생을 억제 또는 방지할 수 있다.In addition, a gap does not occur between the screw 300 and the bottom surface of the container 100, thereby solving the problem of leakage of juice, and making it possible to reliably separate the residue and juice, thereby improving the juice rate. have. In addition, wear or scratching of the mesh 200 and the screw 300 by the hard material, and the occurrence of the debris of the components caused by the friction between the mesh 200 and the screw 300 can be suppressed or prevented.
이상과 같이 본 발명은 딱딱하거나 큰 재료를 압착이 이루어지기 이전에 파쇄 가공을 하여 다소 무르게 함과 동시에 재료의 크기를 작게 하여, 스크루의 파쇄 및 압착시에 발생하는 망체의 변형 및 흔들림을 방지하고, 투입된 재료가 원활하게 파쇄 가공되도록 구성하며, 뚜껑과 스크루에 재료를 미리 파쇄하는 구조를 마련하여, 재료를 투입 전에 미리 절단 또는 절삭하는 번거로운 과정을 없앤 원액기용 착즙모듈을 제공하는 것을 기본적인 기술적 사상으로 하고 있음을 알 수 있다.As described above, the present invention is to harden the hard or large material before the compression is made to slightly soften and to reduce the size of the material at the same time, to prevent the deformation and shaking of the net generated during screw crushing and pressing The basic technical idea is to provide a juice module for the undiluted solution, which is configured to smoothly crush the injected material, and provides a structure for pre-crushing the material on the lid and screw, thereby eliminating the cumbersome process of cutting or cutting the material in advance. It can be seen that.
그리고, 본 발명의 기본적인 기술적 사상의 범주 내에서 당해 업계 통상의 지식을 가진 자에게 있어서는 본 발명의 요지를 일탈하는 일이 없이 다양한 응용 및 변형 설계가 가능함은 물론이다.And within the scope of the basic technical idea of the present invention, those of ordinary skill in the art can be various applications and modifications of the design without departing from the gist of the present invention.
Claims (24)
- 찌꺼기 배출구(102)와 즙배출구(101)가 형성된 용기(100)와;A container 100 in which the dregs outlet 102 and the juice outlet 101 are formed;상기 용기(100) 내부에 위치하는 망체(200)와;A net body 200 located inside the container 100;상기 망체(200) 내부에 위치하여 재료를 착즙하는 스크루(300)와;A screw 300 located inside the mesh 200 to juice the material;상기 용기(100)의 상단에 결합되며 재료가 투입되는 투입구(410)가 형성되되, 그 투입구(410)와 연통하는 하부에는 재료를 안내하여 파쇄되도록 하는 가공안내부(600)가 형성된 뚜껑(400) 및;An inlet 410 is formed at the upper end of the container 100 and the material is inserted therein, and a lid 400 in which a processing guide 600 is formed at the lower portion communicating with the inlet 410 to guide and break the material. ) And;상기 스크루(300)의 상단에 가공안내부(600)와 대응하여, 재료를 가공안내부(600)의 안으로 밀어내면서 파쇄하는 가공날(510)이 형성된 가공부(500);를 포함하는 것을 특징으로 하는 원액기용 착즙모듈.And a processing unit 500 formed at the top of the screw 300 to correspond to the processing guide 600 to form a processing blade 510 for pushing and crushing the material into the processing guide 600. Juicer module for juice solution.
- 청구항 1에 있어서,The method according to claim 1,상기 가공안내부(600)는,The processing guide 600 is,상기 투입구(410)에서부터 상기 가공부(500)가 회전하는 방향으로 가공부(500)의 측면과 인접하도록 형성되어, 그 가공부(500)에 의해서 밀리는 재료의 측면이 압박되어 파쇄되도록 하는 제1가공안내면(610)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.The first opening is formed to be adjacent to the side of the processing unit 500 in the direction in which the processing unit 500 is rotated from the inlet 410, so that the side of the material pushed by the processing unit 500 is pressed and crushed Juice extracting module for a juicer comprising a processing guide surface (610).
- 청구항 1에 있어서,The method according to claim 1,상기 가공안내부(600)는,The processing guide 600 is,가공부(500)와 대응하는 위치에서 하부방향으로 돌출되되, 재료의 상부가 압박되어 파쇄되도록 가공부(500)의 중심축을 중심으로 나선형으로 경사지게 형성된 제2가공안내면(640)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.A second processing guide surface 640 protruding downward from a position corresponding to the processing part 500 and formed to be inclined spirally about a central axis of the processing part 500 so that the upper part of the material is pressed and crushed. Juicer module for juice solution.
- 청구항 1에 있어서,The method according to claim 1,상기 가공안내부(600)는,The processing guide 600 is,상기 가공안내부(600)는 상기 투입구(410) 하단부에 가공부(500)의 중심축을 향해 경사지게 형성되어 재료를 가공날(510)과 접하도록 이동시키는 재료안내면(620)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.The processing guide 600 is formed in the lower end of the inlet 410 is formed to be inclined toward the central axis of the processing unit 500 is characterized in that it comprises a material guide surface 620 to move the material in contact with the processing blade 510 Juicer module for juice.
- 청구항 1에 있어서,The method according to claim 1,상기 가공부(500)는 상부가 좁고 하부가 넓게 형성되되, 측면에는 하나 이상의 가공날(510)이 재료의 측면을 파쇄하도록 형성된 것을 특징으로 하는 원액기용 착즙모듈.The processing unit 500 has a narrow upper portion and the lower portion is formed wide, the juice module for juice solution, characterized in that one or more processing blades 510 is formed to crush the side of the material.
- 청구항 1에 있어서,The method according to claim 1,상기 가공부(500)는 판재로 형성되되, 상부면에는 재료의 하부면을 파쇄하도록 하나 이상의 가공날(510)이 형성된 것을 특징으로 하는 원액기용 착즙모듈.The processing unit 500 is formed of a plate material, the juicer module for juice solution, characterized in that one or more processing blades 510 is formed on the upper surface to crush the lower surface of the material.
- 청구항 2에 있어서,The method according to claim 2,제1가공안내면(610)에는 적어도 하나 이상의 분쇄날(630)이 형성된 것을 특징으로 하는 원액기용 착즙모듈.Juice processing module for a juicer, characterized in that the first processing guide surface 610 is formed with at least one grinding blade (630).
- 청구항 4에 있어서,The method according to claim 4,상기 원액기용 착즙모듈은,The juice module for juice solution,상기 투입구(410) 하단의 상기 뚜껑(400)의 측면에 형성된 압착구멍(420)과, 상기 압착구멍(420)에 삽입되는 누름봉(430)을 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.Juicer module for a juicer, characterized in that it further comprises a pressing hole 420 formed on the side of the lid 400 at the lower end of the inlet 410, and a pressing rod 430 inserted into the pressing hole 420.
- 청구항 3에 있어서,The method according to claim 3,상기 제2가공안내면(640)에는 적어도 하나 이상의 분쇄날(630)이 형성된 것을 특징으로 하는 원액기용 착즙모듈.The second processing guide surface 640 is a juice module for juice solution, characterized in that at least one or more grinding blades 630 is formed.
- 청구항 1에 있어서,The method according to claim 1,상기 원액기용 착즙모듈은, The juice module for juice solution,상기 투입구(410) 내부에 횡 방향으로 이동하도록 설치되어, 상기 투입구(410)로 투입된 재료를 이동시키는 가압수단(700a)을 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.It is installed to move in the transverse direction inside the inlet 410, juicer module for a juicer, characterized in that it further comprises a pressing means (700a) for moving the material injected into the inlet (410).
- 청구항 10에 있어서,The method according to claim 10,상기 가압수단(700a)은,The pressing means 700a,상기 투입구(410) 내부의 하단으로 연장된 가압편(710a)과,Pressing piece 710a extending to the lower end of the inlet 410,상기 가압편(710a)이 상기 투입구(410) 내부에서 이동되도록 하는 이동결합부(720a)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.Juice pressing module for the juicer, characterized in that the pressing piece (710a) comprises a moving coupling portion (720a) to be moved in the inlet 410.
- 청구항 11에 있어서,The method according to claim 11,상기 이동결합부(720a)는 상기 가압편(710a)이 상기 가공부(500)의 회전방향으로 이동되도록 상기 가공부(500)의 중심부 쪽에 위치하는 원형구멍(721a)인 것을 특징으로 하는 원액기용 착즙모듈.The moving coupling part 720a is for a stock solution, characterized in that the pressing piece (710a) is a circular hole (721a) located in the central side of the processing unit 500 so as to move in the rotational direction of the processing unit 500. Juice module.
- 청구항 11에 있어서,The method according to claim 11,상기 이동결합부(720a)는 상기 가압편(710a)이 상기 가공부(500)의 회전방향으로 이동되도록 상기 가공부(500)의 중심부 쪽에 위치하는 장공(722a)인 것을 특징으로 하는 원액기용 착즙모듈.The moving coupling portion 720a is juice for the stock solution, characterized in that the pressing piece 710a is located in the central hole of the processing unit 500 to move in the rotational direction of the processing unit 500 module.
- 청구항 11에 있어서,The method according to claim 11,상기 가압편(710a)은 상기 가공부(500)의 회전방향과 반대의 투입구 안쪽 면과 대응하여 접하도록 형성된 것을 특징으로 하는 원액기용 착즙모듈.The pressing piece (710a) is juice solution module for juice solution, characterized in that formed in contact with the inner surface of the inlet opposite to the rotation direction of the processing unit 500.
- 청구항 1에 있어서,The method according to claim 1,상기 원액기용 착즙모듈은,The juice module for juice solution,상기 투입구(410) 내부로 삽입되어 재료의 상부를 압박함과 동시에 회전시켜 이동되도록 구성된 압박회전수단(700b)을 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.The juicer module for juicer, characterized in that it further comprises a pressing rotating means (700b) inserted into the inlet 410 and configured to rotate while moving the upper portion of the material.
- 청구항 15에 있어서,The method according to claim 15,상기 압박회전수단(700b)은,The pressure rotating means 700b,상기 투입구(410)의 안쪽 면에 돌출된 회전가이드(710b)와,Rotation guide 710b protruding from the inner surface of the inlet 410,상기 투입구(410) 내부에 삽입되는 크기로 형성되되, 상기 회전가이드(710b)에 의해서 회전하도록 회전홈(730b)이 형성된 압박봉(720b)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.It is formed to the size inserted into the inlet 410, juice module for juicer, characterized in that it comprises a pressing rod (720b) formed with a rotating groove (730b) to rotate by the rotation guide (710b).
- 청구항 16에 있어서,The method according to claim 16,상기 회전홈(730b)은 상기 압박봉(720b)의 하부에서부터 상부로 이어지도록 형성되되, 상기 회전홈(730b)의 상측은 상기 압박봉(720b)의 표면을 따라서 휘어지게 형성된 것을 특징으로 하는 원액기용 착즙모듈.The rotating groove 730b is formed so as to extend from the lower portion of the pressing rod 720b to the upper side, the stock solution characterized in that the upper side of the rotating groove 730b is bent along the surface of the pressing rod 720b Juice module.
- 청구항 1에 있어서,The method according to claim 1,상기 원액기용 착즙모듈은,The juice module for juice solution,상기 스크루(300)와 상기 가공부(500)가 연동하여 회전하도록 하는 연동부(700c)를 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.The juice module for juice solution, characterized in that it further comprises an interlocking portion (700c) for rotating the screw 300 and the processing unit 500 in conjunction with.
- 청구항 18에 있어서,The method according to claim 18,상기 연동부(700c)는,The linking unit 700c,상기 스크루(300)의 상부면에 적어도 하나 이상 돌출 형성된 키(710c)와,At least one key 710c protruding from the upper surface of the screw 300,상기 가공부(500)의 하부면에 상기 키(710c)와 대응되게 형성된 키홈(720c)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.Juice processing module for a juicer, characterized in that it comprises a key groove (720c) formed to correspond to the key (710c) on the lower surface of the processing unit (500).
- 청구항 18에 있어서,The method according to claim 18,상기 원액기용 착즙모듈은,The juice module for juice solution,상기 용기(100)의 바닥면에는 상기 스크루(300)의 상부로 돌출되는 관(800)과,The bottom surface of the container 100 and the tube 800 protruding to the upper portion of the screw 300,상기 스크루(300)와 상기 가공부(500) 사이에 형성된 이격공간(900)을 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.Juice solution module for a juicer, characterized in that it further comprises a separation space 900 formed between the screw 300 and the processing unit 500.
- 청구항 1에 있어서,The method according to claim 1,상기 원액기용 착즙모듈은,The juice module for juice solution,상기 망체(200)의 하부와 상기 용기(100) 바닥면에 설치되어 상기 망체(200)와 상기 용기(100) 사이를 밀폐하는 패드(700d)를 더 포함하는 것을 특징으로 하는 원액기용 착즙모듈.Juice module for a juicer, characterized in that it further comprises a pad (700d) which is installed on the bottom of the net body 200 and the bottom surface of the container 100 to seal between the net body 200 and the container 100.
- 청구항 1에 있어서, 상기 파쇄가공부(600)의 내면은 상기 투입구(410)로부터 연속되게 이어지되, 상기 가공부(500)의 중심축을 향해 경사지게 형성되어 재료의 측면이 상기 가공날(510)에 의해서 분쇄가 시작되도록 보조하여 안내하는 재료안내면(620)을 포함하는 것을 특징으로 하는 원액기용 착즙모듈.The method of claim 1, wherein the inner surface of the shredding processing part 600 is continued continuously from the inlet 410, it is formed to be inclined toward the central axis of the processing part 500 so that the side of the material on the processing blade 510 Juice juicer module comprising a material guide surface 620 for guiding to assist the grinding to start by.
- 청구항 22에 있어서,The method according to claim 22,상기 재료안내면(620)의 끝단은 상기 망체(200)의 안쪽면과 일치하는 것을 특징으로 하는 원액기용 착즙모듈.End of the material guide surface 620 is a juice module for juice solution, characterized in that the same as the inner surface of the mesh 200.
- 청구항 1에 있어서,The method according to claim 1,상기 망체(200)에는 벽면날(210)이 더 형성되고, 상기 벽면날(210)과 상기 스크루(300)는 금속으로 형성되는 것을 특징으로 하는 원액기용 착즙모듈.The mesh body 200 is further formed with a wall blade 210, juice wall module for juice solution, characterized in that the wall blade 210 and the screw 300 is formed of a metal.
Applications Claiming Priority (12)
Application Number | Priority Date | Filing Date | Title |
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KR1020130031396A KR20140031087A (en) | 2013-03-25 | 2013-03-25 | Crush module for juice |
KR10-2013-0031396 | 2013-03-25 | ||
KR10-2013-0036315 | 2013-04-03 | ||
KR1020130036315A KR101373048B1 (en) | 2013-04-03 | 2013-04-03 | Crush module for juice |
KR10-2013-0045370 | 2013-04-24 | ||
KR1020130045370A KR102104284B1 (en) | 2013-04-24 | 2013-04-24 | Crush module for juice |
KR1020130059549A KR20140031092A (en) | 2013-05-27 | 2013-05-27 | Juicer module for juice |
KR1020130059550A KR20140031093A (en) | 2013-05-27 | 2013-05-27 | Juice extraction module for juice |
KR10-2013-0059549 | 2013-05-27 | ||
KR10-2013-0059550 | 2013-05-27 | ||
KR10-2013-0079998 | 2013-07-09 | ||
KR1020130079998A KR20140031095A (en) | 2013-07-09 | 2013-07-09 | Juice extraction module for juice |
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WO2014157925A1 true WO2014157925A1 (en) | 2014-10-02 |
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PCT/KR2014/002522 WO2014157925A1 (en) | 2013-03-25 | 2014-03-25 | Juice extraction module for extracting juice |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107713693A (en) * | 2017-11-08 | 2018-02-23 | 江门市鸿裕达电机电器制造有限公司 | A kind of squeezing mechanism |
EP3342315A1 (en) * | 2016-12-30 | 2018-07-04 | Foshan City Shunde Jutian Electric Appliance Co., Ltd. | Juicer |
WO2018209610A1 (en) * | 2017-05-17 | 2018-11-22 | 深圳市联创三金电器有限公司 | Easy-to-clean slowly-juicing device without strainer |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20000074261A (en) * | 1999-05-19 | 2000-12-15 | 김성수 | A fruit press |
KR100755440B1 (en) * | 2006-06-21 | 2007-09-05 | 김영기 | Juice squeezing extractor |
KR100966607B1 (en) * | 2009-08-28 | 2010-06-29 | 주식회사 엔유씨전자 | Juicer screw and juicer module comprising the same |
KR20120029638A (en) * | 2010-09-17 | 2012-03-27 | 김영기 | Juicer that is easy to assemble and seperate |
-
2014
- 2014-03-25 WO PCT/KR2014/002522 patent/WO2014157925A1/en active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20000074261A (en) * | 1999-05-19 | 2000-12-15 | 김성수 | A fruit press |
KR100755440B1 (en) * | 2006-06-21 | 2007-09-05 | 김영기 | Juice squeezing extractor |
KR100966607B1 (en) * | 2009-08-28 | 2010-06-29 | 주식회사 엔유씨전자 | Juicer screw and juicer module comprising the same |
KR20120029638A (en) * | 2010-09-17 | 2012-03-27 | 김영기 | Juicer that is easy to assemble and seperate |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP3342315A1 (en) * | 2016-12-30 | 2018-07-04 | Foshan City Shunde Jutian Electric Appliance Co., Ltd. | Juicer |
WO2018209610A1 (en) * | 2017-05-17 | 2018-11-22 | 深圳市联创三金电器有限公司 | Easy-to-clean slowly-juicing device without strainer |
CN107713693A (en) * | 2017-11-08 | 2018-02-23 | 江门市鸿裕达电机电器制造有限公司 | A kind of squeezing mechanism |
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