KR20120023323A - Disk mill-form juicer - Google Patents

Abstract

PURPOSE: A millstone-type juicer is provided to change a size of an available volume between upper and lower discs by controlling one or more among a rotational speed and ascending/descending height of a lower disc. CONSTITUTION: A millstone-type juicer comprises a cylinder-shaped housing(100), a round upper disc(200), a round lower disc(300), a hollow shaft(320), a screw thread(340), a supporting unit(400), and a screw groove(410). The upper disc is installed in the upper part of the housing. The lower disc is arranged in the lower part of the upper disc. The hollow shaft is formed in the lower central part of the lower plate. The screw thread is formed in the outer circumference of the hollow shaft. The supporting unit surrounds the hollow shaft. The screw groove is formed in the inner circumference of the supporting unit correspondingly to the screw thread. In case of rotating the hollow shaft, the lower disc rotates and moves up and down so that juice of materials located between the upper and lower discs is extracted.

Description

Mill Mill Juicer {Disk mill-form juicer}

The present invention relates to a mill-type juicer, and more particularly, a top plate fixed to an upper side of a housing, a bottom plate positioned at a lower portion thereof, and a power unit and a bottom plate transferring a rotational force to a hollow shaft formed at a lower portion of the lower plate. By providing a control unit for adjusting the lifting and lowering, as the hollow shaft rotates the lower plate is rotated or lowered or lowered to the millstone type juicer that can effectively juice the object located between the upper plate and the lower plate It is about.

In many cases, making green juice or juice directly at home for a healthy life has been increasing, and for this purpose, many devices have been disclosed for making juices using vegetables or fruits at home.

An example of such a device is a juicer. Among the main parts of the juicer, the grinding screw plays the biggest role in the performance of the product. The conventional grinding screw uses a drive motor located in the lower part of the housing after accommodating fruits or vegetables in a rotatably mounted housing. By rotating the grinding screw, the fruit or vegetable is pressed and pulverized to extract juice or juice and drink. The housing has a rotating shaft hole into which the rotating shaft of the grinding screw is inserted and has a symmetrical structure around the rotating shaft hole like the grinding screw. The volume excluding the grinding screw accommodated in the conventional housing also has a configuration symmetrical with respect to the axis of rotation.

In general, the juice rate of juicer varies greatly depending on the type of material introduced into the housing. Typical examples include soft materials such as tangerines, lemons, and oranges, which have lower hardness and more juice than hard materials such as carrots, radishes, and potatoes. There is a problem that is difficult to expect the desired juice rate.

Recently, in order to minimize the nutrient destruction of the material supplied from the conventional juicer and maintain a good taste, the speed reduction device is connected to a drive motor for compressing and crushing the material to adjust the speed to reduce the rotational speed and improve the torque. Increasing demands are being made, and there is an increasing technical demand for fluid handling and maximizing the efficiency of input processing and desired materials.

On the other hand, when the size and the rigidity of the material to be put in the juicer is different, when the material is put into the housing of the juicer for grinding processing, the conventional technique is difficult to change the processing volume around the juice screw in the housing Since it is impossible, there is a problem that it is difficult to properly respond to various input materials. That is, when a hard material is introduced into the housing, if there is no change in the processing volume, difficulties arise in the process of crushing, pressing, and juice the material.

In addition, when the injected material is terminated with only one juice in the process of being juiced by the juice screw in the housing, there is a limit in extracting juice from the compressed feed material.

An object of the present invention, the upper plate is fixed to the upper side inside the housing, the lower plate located in the lower portion and the power unit for transmitting a rotational force to the hollow shaft formed in the lower portion of the lower plate and the lower plate as the hollow shaft rotates The rotating and lifting or lowering provides a millstone juicer capable of further increasing the juice efficiency by pressing and crushing an object located between the upper plate and the lower plate.

In addition, an object of the present invention is provided with a control unit that is connected to the power unit to adjust any one or more of the rotational speed and the lifting / lowering height of the lower plate, so that the available volume formed between the upper plate and the lower plate to facilitate the change of the lower plate. It is to provide a mill stone juicer that can control the lifting and lowering.

A cylindrical housing, a circular upper plate that can be mounted inside the housing upper side, a circular lower plate positioned below the circular upper plate, a hollow shaft formed in the center of the lower surface of the lower plate, and formed on an outer circumferential surface of the hollow shaft A screw thread, a cylindrical support portion formed to surround the hollow shaft, and a screw groove formed on an inner circumferential surface of the cylindrical support portion to correspond to the screw thread, and as the hollow shaft rotates, the lower plate is rotated and lifted or lowered. It is characterized in that to juice the object located between the upper plate and the lower plate.

Preferably, the upper plate and the lower plate is characterized in that it is composed of any one or more materials of grindstone, ceramic, basalt material.

Preferably, the upper surface of the lower plate may be formed with a juice projection protruding to a certain height.

Preferably, the juice projection is characterized in that the lower plate in the central portion of the lower plate extending in a spiral toward the outer peripheral surface.

Preferably, the central portion of the lower plate is formed with a juice hole in communication with the hollow shaft and the juice hole may be provided with a mesh network having a predetermined grid size.

Preferably, it further comprises a power unit for transmitting a rotational force to the hollow shaft.

Preferably, the method further comprises a control unit for controlling the power unit to adjust any one or more of the rotational speed and the lifting height.

Preferably, the controller may control the lower plate to rise only up to a predetermined height.

Preferably, at least one locking jaw is provided on the inner surface of the housing so that the circular upper plate can be detachably fixed.

According to the present invention, the upper plate is fixed to the upper side inside the housing, the lower plate is located below and the power unit for transmitting a rotational force to the hollow shaft formed on the lower portion of the lower plate, the lower plate as the hollow shaft rotates The rotating and the lifting or lowering can be expected a higher juice efficiency by the compression milling of the object located between the upper plate and the lower plate.

In addition, the present invention is provided with a control unit that is connected to the power unit to adjust any one or more of the rotational speed and the lifting / lowering height of the lower plate, there is an effect that can vary the size of the available volume formed between the upper plate and the lower plate. .

1 is a perspective view in one direction of a millstone juicer according to an embodiment of the present invention;
FIG. 2 is a bottom view of the top plate as viewed from the bottom of the top plate in FIG. 1, and
3 is a cross-sectional view showing a coupling and operation state along the line AA of FIG.

A preferred embodiment of a millstone juicer according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of a user or an operator. Therefore, definitions of these terms should be described based on the contents throughout the specification.

The present invention can be used in any product and apparatus that requires the extraction of the desired materials and objects, and in particular, as a specific embodiment, the object is introduced into the available volume between the fixed top plate and the flowable bottom plate, and the bottom plate is gradually raised to juice the object. It may be applied to the mill-type juicer 1000 that can increase the efficiency. Hereinafter, the structure and operation of the juicer 1000 will be described with reference to FIGS. 1 to 3.

In the present invention, the term 'juice' may be defined to encompass all steps of cutting, crushing, compressing and extracting an object through the specification.

1 to 3, the mill-shaped juicer 1000 according to the present invention includes a housing 100, an upper plate 200, a lower plate 300, a hollow shaft 320, a support unit 400, and a power unit. 500 and the control unit 600.

The cylindrical housing 100 is a hollow member formed extending from the circular bottom edge in the upper vertical direction, so that the upper plate 200 and the lower plate 300 to be described later can be attached and detached from the inside of the housing 100. It is composed. On the other hand, such a housing 100 may be configured to be discharged to the outside by separating the debris from the juice and moisture is removed through the crushing process by compression crushing.

One or more locking jaws 110 may be formed at one end of the inner surface of the housing such that the upper plate 200 may be detachably fixed to the cylindrical housing 100. The locking jaw 110 is formed to correspond to the size and number of the locking projections 220 of the upper plate 200, it should be noted that the number can be selected and used in various ways depending on the purpose.

The cylindrical housing 100 may be opened and closed by a cover 120, and the cover 120 is formed extending in a lower vertical direction from a circular surface edge. A hollow fixing frame 126 is formed in the central portion of the cover 120 to accommodate the handle 210 of the upper plate 200 and contact the upper end of the upper plate 200 to fix the upper plate 200. The hollow fixing frame 126 is formed extending from the edge of the circular enough to accommodate the handle 210 on the upper surface of the cover 120 in the lower vertical direction. The cover 120 is detachable to the upper end of the housing 100.

The upper plate 200 which can be mounted inside the upper side of the housing 100 is described as a conical structure in which the width becomes narrower toward the bottom of the cylinder extending in the lower vertical direction from the circular flat edge in one embodiment of the present invention. Note that modifications may be made to suit their purpose or purpose.

The top plate juice surface 205 is formed on one side of the top plate 200 and the handle 210 is integrally formed on the other side thereof to be easily detachable from the housing 100. The handle 210 is preferably used to make the top plate 200 to move easily. On the other hand, as described above, the outer periphery of the upper plate 200 is formed with a plurality of locking projections 220 to be formed so as to correspond to the locking step 110, the upper plate 200 in the interior of the housing 100 It can be combined firmly.

The circular lower plate 300 positioned below the upper plate 200 has a lower plate juice surface 305 to correspond to the conical upper plate juice surface 205. The lower plate juice surface 305 has a juice projection 310 is formed to protrude to a certain height to enable the juice by the compression crushing the injected object.

In one embodiment of the present invention, the juice projection 310 is formed by extending the spiral in four directions toward the upper plate juice surface 205 at the central portion of the lower plate 300. However, it is noted that the shape of the juice protrusion 310 may be variously formed in a structure capable of increasing cutting efficiency other than the spiral.

The upper plate 200 and the lower plate 300 may be made of any one or more materials of grindstone, ceramic, diamond, it may be preferable to use a material having a relatively high coefficient of friction and hardness.

Particularly, in one embodiment of the present invention, the top plate juice surface 205 is not shown a separate protrusion, but if the material of the top plate 200 is a grindstone, basalt and blended material, the bending itself is formed, and may be used as it is. In the case of this ceramic, it may be preferable to form and use a juice projection. The blending material is a material in which water, cement, sand, gravel, and admixture are blended in an appropriate ratio, and has the same shape, texture, and color as millstone of natural basalt material.

The central portion of the lower plate 300 is connected to the hollow shaft 320 to be described later and the juice hole 330 is formed therethrough, the juice hole 330 has a mesh network 350 having a predetermined grid size This is provided. It may be desirable for the grid size of the mesh network 350 to filter out debris and allow juice to pass through. Due to this configuration, when the object located in the upper plate 200 and the lower plate 300 is juice, the juice can be transferred to the desired place through the juice hole 330.

The hollow shaft 320 formed at the center of the lower surface of the lower plate 300 may be integrally formed at the lower portion of the lower plate 300 or may be formed separately. Due to this structure, the lower plate 300 is raised and lowered to juice the object introduced onto the lower plate juice surface 305 by compression crushing, and the moisture obtained by the juice passes through the juice hole 330 and the mesh network 350. And the moisture is removed debris is filtered from the mesh network (350).

A thread 340 is formed on the outer circumferential surface of the hollow shaft 320. The screw thread 340 is engaged with the screw groove 410 formed in the interior of the support portion 400 to be described later, and as a result, the lower plate 300 is rotated to be raised or lowered. In addition, when the lower plate 300 is raised to h ₁ to be described later to be idle at the corresponding height so as not to hit the fixed upper plate 200.

As the hollow shaft 320 rotates, the lower plate 300 rotates and is lowered or lowered to juice an object located between the upper plate 200 and the lower plate 300, and the lower plate juice surface 305. Is inclined at a predetermined angle toward the center portion of the moisture is collected in the juice hole 330. On the other hand, the debris is missing moisture is separated by the edge of the lower plate while being radially spread by the rotational force of the lower plate 300 is discharged to the outside.

The cylindrical support part 400 is formed to surround the hollow shaft 320, and a spiral screw groove 410 is formed on the inner circumferential surface of the cylindrical support part 400 to correspond to the thread 340. The support part 400 is completely constrained from the x-axis, y-axis, z-axis, and rotational axis, and the thread 340 accommodated in the support part 400, which is completely constrained from all axes, rotates in engagement with the screw groove 410. As a result, the hollow shaft 320 and the lower plate 300 which are integrally connected are rotated and raised.

The power unit 500 serves to transmit the rotational force to the hollow shaft 320, the member of the power unit 500 may use a motor (moter) for generating mechanical energy using electricity. . Although not specifically illustrated in the embodiment according to the present invention, the shaft of the hollow shaft 320 and the power unit 600 is coupled to rotate.

The controller 600 controls the power unit 600 to adjust one or more of the rotational speed and the lifting height of the lower plate 300.

For example, the control unit 600, when the size of the object is large or the object is of a hard material, the object placed on the lower plate juice surface 305 is in contact with the upper plate juice surface 205 until the compression plate is made of the lower plate The power unit 600 is controlled to lower the rotation speed of the 300 so that the lower plate 300 rises more slowly.

In addition, the control unit 600 may control the power unit 600 so that the lower plate 300 is repeatedly raised and lowered, which is to adjust the size of the object so that the compression crushing to the object can be made smoothly.

The controller 600 may control the lower plate 300 to rise only to h ₁ , thereby reducing unnecessary friction with the upper plate 200. For this purpose, although not shown in the drawings, the fixed top plate 200, photoelectric sensor, temperature sensor, tilt sensor, ultrasonic sensor, vibration sensor, distance sensor, gas sensor, geomagnetic sensor, gyro sensor, any one of the human body sensor By providing the above sensor, the position of the lower plate 300 can be easily controlled.

In the present invention, the term 'h' may be defined as an interval when the lower plate 300 completely contacts the upper plate 200 when the lower end of the locking protrusion 220 is used as a reference. 'h ₁ ' may be defined as an interval separated by a predetermined distance from the bottom of the locking projection 220, 'h ₂ ' may be defined as the interval that the lower plate actually moved. h ₁ is set such that the upper plate 200 and the lower plate 300 that are fixed at predetermined intervals do not collide with each other, so that the upper plate juice surface 205 and the lower plate juice surface 305 collide with each other, thereby causing an accident. It can prevent it beforehand.

Hereinafter, in the present invention, the cylindrical housing 100, the circular upper plate 200 that can be mounted on the housing 100, the circular lower plate 300 located below the circular upper plate 200, the The hollow shaft 320 is formed in the center of the lower surface of the lower plate 300, the screw thread 340 formed on the outer peripheral surface of the hollow shaft, the cylindrical support portion 400 formed to surround the hollow shaft 320, By providing a mill-shaped juicer 1000 including a screw groove 410 formed on the inner circumferential surface of the cylindrical support portion 400 to correspond to the thread 340, the lower plate as the hollow shaft 320 rotates. As the 300 is rotated and lifted or lowered, the object located between the upper plate 200 and the lower plate 300 can be efficiently juiced.

In the above described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the present invention described in the claims below You can change it.

<Detailed Description of Major Symbols in Drawing>
100: Housing
110: jam jaw
120: cover
125: fixing frame
200: top plate
205: top juice juice
210: handle
220: hanging projection
300: lower plate
305: lower plate juice
310: juice process
320: hollow shaft
330: juice hole
340: thread
350 mesh mesh
400: support
410: screw groove
500: power unit
600:
1000: Juicer
h: distance between the locking step and the lower plate
h ₁ : Preset interval
h ₂ : Distance between bottom plate

Claims (9)

Cylindrical housing;
A circular top plate that can be mounted on the housing;
A circular lower plate positioned below the circular upper plate;
A hollow shaft formed in a central portion of a lower surface of the lower plate;
A thread formed on an outer circumferential surface of the hollow shaft;
A cylindrical support formed to surround the hollow shaft;
And a screw groove formed on an inner circumferential surface of the cylindrical support part to correspond to the screw thread, wherein the lower plate is rotated and lifted or lowered as the hollow shaft rotates to juice an object positioned between the upper plate and the lower plate. Characterized by
Millstone juicer.
The method of claim 1,
The upper plate and the lower plate is characterized in that it is composed of any one or more of the grindstone, ceramic, basalt material,
Millstone juicer.
The method according to claim 1 or 2,
The upper surface of the lower plate is characterized in that the juice projection is formed to protrude to a certain height,
Millstone juicer.
The method of claim 3, wherein
The juice projection is characterized in that the lower plate in the central portion of the lower plate extending in a spiral toward the outer peripheral surface,
Millstone juicer.
The method of claim 1,
The central portion of the lower plate is characterized in that the juice hole is formed in communication with the hollow shaft and the juice hole is provided with a mesh network having a predetermined grid size,
Millstone juicer.
The method of claim 1,
Further comprising a power unit for transmitting a rotational force to the hollow shaft,
Millstone juicer.
The method according to claim 6,
Further comprising a control unit for controlling any one or more of the rotational speed and the lifting height by controlling the power unit,
Millstone juicer.
The method of claim 7, wherein
The control unit is characterized in that for controlling the lower plate to rise only up to a predetermined height,
Millstone juicer.
The method of claim 1,
At least one locking step is provided on the inner surface of the housing so that the circular top plate can be attached and detached,
Millstone juicer.

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