The disclosure relates to a food processor, and more particularly to a food processor for extracting juice from a food ingredient.
There have been used various food processors such as a blender, a juicer for green vegetable juice, a slow juicer, and the like for crushing, mixing, juicing, etc. foods.
In particular, the juicer for green vegetable juice and the slow juicer extract juice from a food ingredient by crushing, pressing and squeezing the food ingredient at low speed.
However, in the case of an apple and the like food ingredients having a relatively large diameter or volume, the juicer for green vegetable juice or the slow juicer is inconvenient for a user because such a food ingredient needs to be cut into small pieces in advance before s/he puts it into the juicer.
Although the food ingredient can be put into the juicer as it is without being cut into small pieces, the food ingredient is often not crushed because it cannot get in between a screw and a container.
[Documents of Related Art]
[Patent Document 1]
An aspect of the disclosure is to provide a food processor improved in efficiency of juice extraction.
The aspects of the disclosure are not limited to the foregoing aspect, and other aspects not mentioned above will become apparent to those skilled in the art from the following descriptions.
According to the aspect of the disclosure, there may be provided a food processor including: a screw formed with a crushing blade; a container in which a base end side of the screw is rotatably accommodated; and an ingredient guider extended upward from the container, and including an ingredient inlet on a top thereof to feed a food ingredient, so that the food ingredient fed through the ingredient inlet can be guided into the container, wherein the ingredient guider is eccentrically disposed with respect to the container, and includes a first side being in contact with an upper side of the container and a second side being in contact with a lateral portion and a lower side of the container, and the second side of the ingredient guider includes a bottom side of an inner surface thereof biased toward a tip end side of the screw.
The inner surface of the second side of the ingredient guider includes an outer line formed by connecting outermost points of horizontal planes, and the outer line includes an upper line extended vertically downward, and a lower line inclined with regard to the upper line from a lower portion of the upper line toward a tip end of the screw.
An edge line forming a boundary between the container and the inner surface of the second side of the ingredient guider may include a first edge line adjacent to the tip end of the screw with respect to the lower line, and a second edge line adjacent to the base end of the screw with respect to the lower line, and the first edge line is more steeply inclined with regard to a rotary shaft of the screw than the second edge line.
The first side of the ingredient guider may be extended upward at a position spaced apart from a center of the container in a direction of the first side.
The container may include at least one crusher protruding or recessed on an inner wall thereof.
At least some crushers may include a projection protruding against a rotating direction of the screw.
The screw may include an ingredient accommodating groove at a first side thereof, in which a food ingredient entering the container through the ingredient guide is at least partially accommodated.
The food processor may further include: a filter cover rotatably accommodating the tip end side of the screw and detachably coupled to the container; and a juice-extraction filter provided between the filter cover and the screw.
The juice-extraction filter may include: an inner filter provided to surround the tip end side of the screw and including a plurality of slits; and an outer filter detachably coupled to the inner filter to surround the inner filter, and including a plurality of plugs accommodated in the plurality of slits and forming a micro-gap together with the plurality of slits while coupling with the inner filter, and juice extracted from a food ingredient pressed between the tip end side of the screw and the inner filter is discharged between the outer filter and the filter cover through the micro-gap.
A bottom surface of the container may be formed with a juice outlet through which juice discharged between the outer filter and the filter cover is drained, and the filter cover may include a downward surface inclined toward the container so that juice can flow toward the juice outlet.
The food processor may further include a discharge-preventing piece provided above the juice outlet so that a food ingredient put into the container or a food ingredient byproduct produced while extracting juice from the food ingredient can be prevented from being directly discharged through the juice outlet without passing through the juice-extraction filter.
The discharge-preventing piece may be extended from a first side of the inner filter.
The inner filter may include a first residue outlet through which residues remaining after extracting juice from a food ingredient between the tip end side of the screw and the inner filter are discharged, and the residue remaining after extracting the juice from the food ingredient may be discharged between the first residue outlet and the tip end of the screw.
The food processor may further include a juice-discharging preventor interposed between the first residue outlet and the tip end of the screw and preventing juice extracted from the food ingredient from being discharged through the first residue outlet, wherein the juice-discharging preventor is elastically transformable in a portion thereof adjacent to the tip end of the screw, so that residues remaining after extracting juice from the food ingredient can be discharged while elastically transforming the portion adjacent to the tip end of the screw by extrusion force based on the rotation of the screw.
The filter cover may include a second residue outlet communicating with the first residue outlet, and the juice-discharging preventor may be positioned between the first residue outlet and the second residue outlet.
Other details of the disclosure are included in the detailed description and the accompanying drawings.
According to embodiments of the disclosure, effects are at least as follows.
There is provided a food processor which is structurally stable including an ingredient inlet large enough to feed a food ingredient having a large diameter without cutting in advance.
Further, there is provided a food processor, in which a food ingredient is smoothly introduced between a screw and a container, and thus more rapidly and effectively crushed.
Further, there is provided a food processor, in which juice is prevented from being discharged through a residue outlet, and residues are prevented from being discharged through a juice outlet, thereby improving a juicing efficiency.
The effects according to the disclosure are not limited to the foregoing example, and more various effects are involved in the present specification.
The merits and characteristics of the disclosure and a method for achieving the merits and characteristics will become more apparent from embodiments described below in detail in conjunction with the accompanying drawings. However, the disclosure is not limited to the disclosed embodiments, but may be implemented in various different ways. The embodiments are provided to only complete the disclosure and to allow those skilled in the art to understand the category of the disclosure. The disclosure is defined by the category of the claims. Like numerals refer to like elements throughout.
Further, embodiments of the disclosure will be described with reference to cross-sectional views and/or schematic views as idealized exemplary illustrations. Therefore, the illustrations may be varied in shape depending on manufacturing techniques, tolerance, and/or etc. Further, elements in the drawings may be relatively enlarged or reduced for convenience of description. Like numerals refer to like elements throughout.
Below, the disclosure will be described with reference to the accompanying drawings that illustrates a food processor according to the embodiments of the disclosure.
As shown in
The ingredient guider 20 may further include a safety cover 30.
The safety cover 30 may be placed in an ingredient inlet 21 formed at the top of the ingredient guider 20. The safety cover 30 includes a first portion 32 formed with an ingredient inlet 31, and a second portion 33 extended from the first portion 32 in an approximately vertical direction.
The safety cover 30 may be rotatably provided on the top of the ingredient guider 20, and may, as shown in
Meanwhile, when a food ingredient has a larger diameter than the ingredient inlet 31 of the safety cover 30, a user may turn the safety cover 30 (in a counterclockwise direction with respect to
As a user turns the safety cover 30 and thus the first portion 32 moves up, the second portion 33 also moves up and blocks an inside of the ingredient guider 20 (i.e., a moving path of the food ingredient, which is vertically extended downward from the ingredient inlet 21). Therefore, the second portion 33 prevents a user's hand or the like from entering the inside of the ingredient guider 20 and entering up to the screw 50 (to be described later) even though the ingredient inlet 21 of the ingredient guider 20, which has a relatively large diameter, is exposed, thereby preventing accidents.
As shown in
The ingredient guider 20 is shaped like a cylinder extended downward in an approximately vertical direction, and the container 10 is shaped like a cylinder extended in an approximately horizontal direction, in which the ingredient guider 20 and the container 10 may be formed as a single body so that their inner sides can communicate with each other.
As shown in
In other words, the ingredient guider 20 is eccentrically disposed with respect to the container 10, and thus includes a first lateral surface 21 being in contact with an upper side of the container 10 and a second lateral surface 22 being in contact with a lateral portion and a lower side of the container 10.
As the ingredient guider 20 is extended upward from the container 10 and eccentrically disposed with regard to the container 10, a food ingredient falling down toward the container 10 along the ingredient guider 20 enters the container 10 eccentrically toward a second side of the container 10, so that the food ingredient can smoothly enter between the container 10 and the screw 50 rotating inside the container 10, thereby being crushed and pressed by the screw 50.
The eccentric direction of the ingredient guider 20 corresponds to a rotating direction of the screw 50. In other words,
Alternatively, when the screw 50 rotates counterclockwise with respect to
To maintain the structural stability of the food processor 1 with the ingredient inlet 21 of the ingredient guider 20, a diameter of which is large enough to feed a food ingredient having a large diameter (e.g., an apple, etc.) as it is without cutting even though the ingredient guider 20 is eccentrically disposed with respect to the container 10 and/or the rotary shaft of the screw 50, the first lateral surface 21 of the ingredient guider 20 may, as shown in
If the first lateral surface 21 of the ingredient guider 20 is extended upward directly above the center of the container 10 and/or the rotary shaft of the screw 50 or extended upward at a position spaced apart from the center of the container 10 and/or the rotary shaft of the screw 50 in the eccentric direction, the ingredient guider 20 is considerably spaced apart from the center of the container 10 and therefore the food processor 1 may overturn when a heavy food ingredient is fed through the ingredient guider 20 or there may be inconvenience in that a user has to previously cut and then feed a food ingredient having a large diameter (e.g., an apple, etc.) because the food ingredient does not enter as it is when the ingredient guider 20 is reduced in size to lower an overturning risk of the food processor 1.
As shown in
In more detail, the inner surface of the second lateral surface 22 of the ingredient guider 20 has an outer line 22a, 22b formed by connecting the outermost points of horizontal planes, in which the outer line 22a, 22b includes an upper line 22a extended vertically downward, and a lower line 22b inclined with regard to the upper line 22a from a lower portion of the upper line 22a toward the tip end of the screw 50.
Further, an edge line 22c, 22d forming a boundary between the container 10 and the bottom side of the inner surface of the second lateral surface 22 of the ingredient guider 20 includes a first edge line 22c close to the tip end of the screw 50 with respect to the lower line 22b, and a second edge line 22d close to a base end of the screw 50. As shown in
In the food processor 1 according to an embodiment, the screw 50 crushes and presses a fed food ingredient and moves the food ingredient toward the tip end of the screw 50, in which the flow of the food ingredient guided or crushed and compressed between the screw 50 and the inner surface of the second lateral surface 22 of the ingredient guider 20 is naturally guided toward the tip end of the screw 50 by the foregoing shape of the inner surface of the second lateral surface 22 of the ingredient guider 20.
With the foregoing characteristic shape of the ingredient guider 20 relative to the container 10, the food processor 1 according to an embodiment can more quickly and efficiently extract juice from a food ingredient, and a user does not need to push a food ingredient with a separate push bar through the ingredient inlet 21 of the ingredient guider 20 in order to guide the food ingredient toward the screw 50, thereby preventing accidents that the food processor 1 is broken as the push bar gets caught in the screw 50 while the push bar is used, the food processor 1 overturns while the food ingredient is pressed with the push bar, etc.
Meanwhile, the container 10 includes a base 11 and a coupling end 12 at opposite ends thereof, in which the base 11 rotatably supports a screw rotation gear 52 forming the base end of the screw 50, and the coupling end 12 detachably couples with the filter cover 80.
The end portion of the screw rotation gear 52 is exposed to the outside of the base 11 (see
On the bottom surface of the container 10, a juice outlet 15 is formed to penetrate the container 10 at a position adjacent to the coupling end 12 in a downward direction (see
A juice outlet opening/closing portion 40 is provided on the bottom of the container 10 to open and close the juice outlet 15. As shown in
According to an alternative embodiment, the opening/closing direction of the juice outlet opening/closing portion 40 relative to the container 10 may be various designed. For example, the juice outlet opening/closing portion 40 may be structured to open and close the juice outlet 15 while moving or rotating in a direction perpendicular to the container 10, or may be based on a ball-type locking method.
The container 10 accommodates the base end of the screw 50 therein, and the tip end of the screw 50 is exposed to the outside through the coupling end 12 (see
As shown in
The crushers 13a and 13b crush a food ingredient moved by the screw 50 and pressed against the inner wall of the container 10, thereby improving a crushing and juicing efficiency.
As shown in
The crushing blade 51 turns along an outer circumference and is extended from the base end (i.e., the screw rotation gear 52) toward the tip end (i.e., the tip end projection 53). One or more crushing blades 51 may be provided.
The protruding height of the crushing blade 51 may decrease from the base end toward the tip end, and the diameter of the screw 50 may also become smaller from the base end toward the tip end.
This is because the shapes of the juice-extraction filter 60 and the filter cover 80 (to be described later) have to form a downward incline toward the container 10.
Further, the crushing blades 51 may be formed more densely at a tip end side than a base end side (so that gaps between the crushing blades 51 can become narrower at the tip end side). This is because a food ingredient is mainly crushed between the screw 50 and the container 10 at the base end side of the screw 50, but mainly juiced between the screw 50 and the juice-extraction filter 60 at the tip end side of the screw 50.
As shown in
The ingredient accommodating groove 54 is formed at the base end side of the screw 50, in more detail, in a portion of the screw 50 accommodated in the container 10 and positioned vertically below the ingredient inlet 21 of the ingredient guider 20.
The ingredient accommodating groove 54 may be shaped corresponding to an average external appearance of a food ingredient, for example, an apple, which has a relatively large diameter and frequently fed by a user, among the food ingredients fed through the ingredient guider 20.
When a user puts a food ingredient having a relatively large diameter into the container 10 through the ingredient guider 20, at least a part of the food ingredient is accommodated in the ingredient accommodating groove 54 while the screw 50 is rotating, and the food ingredient is crushed by the crushing blades 51 or between the screw 50 and the inner wall of the container 10 as the screw 50 rotates in the partially accommodated state of the food ingredient.
In other words, the ingredient accommodating groove 54 formed in the screw 50 makes the food ingredient be more rapidly crushed by the crushing blades 51 of the screw 50 or introduced, crushed and pressed between the screw 50 and the inner wall of the container 10.
The juice-extraction filter 60 of the food processor 1 according to an embodiment includes an inner filter 61 and an outer filter 62.
As shown in
The inner filter 61 is mounted surrounding the tip end of the screw 50.
As the screw 50 rotates, a food ingredient crushed in the container 10 by the base end side of the screw 50 moves to the tip end side along the crushing blades 51 of the screw 50 and enters between the tip end side of the screw 50 and the inner filter 61.
The food ingredient introduced between the inner filter 61 and the screw 50 is moved toward the tip end as the screw 50 rotates, and further crushed and pressed between the inner filter 61 and the screw 50.
The first rim 61a is positioned inside the coupling end 12 of the container 10, and the second rim 61b accommodates the tip end projection 53 of the screw 50, in which the first rim 61a is formed to have a larger diameter than the second rim 61b so that the crushed food ingredient can be easily introduced from the container 10 into the inner filter 61, and the second rim 61b is formed to have a smaller diameter than the first rim 61a so that the food ingredient can be efficiently juiced moving toward the tip end of the screw 50.
As shown in
Further, the lateral portion 61d may include a plurality of crushing pieces 61e protruding from the inner surface thereof. The crushing pieces 61e crush a food ingredient pressed against the inner surface of the inner filter 61 by the screw 50, thereby improving an efficiency of crushing the food ingredient.
Further, as shown in
As shown in
A space surrounded by the second rim 61b serves as a first residue outlet 61g (see
As shown in
The outer filter 62 is detachably coupled to the inner filter 61 while surrounding the inner filter 61.
As shown in
As shown in
The reinforcing rim 62b prevents the micro-gap from widening by pressure applied to the plugs 62d while the food ingredient is juiced.
In the food processor 1 according to an embodiment, the inner filter 61 and the outer filter 62 are easily separable, and juice is discharged through the micro-gap, which is formed in the state that the inner filter 61 and the outer filter 62 are coupled, so that the juice can be prevented from mixing with residues. In the state that the inner filter 61 and the outer filter 62 are separated, a space between the slit 61c of the inner filter 61 and the plug 62d of the outer filter 62 is larger than the micro-gap, thereby facilitating cleaning.
As shown in
As shown in
However, the elastic transforming portion 71 is elastically transformable based on extrusion force applied to the residues as the screw 50 rotates, so that the residues produced by juicing the food ingredient in the inner filter 61 can be discharged between the first residue outlet 61g and the tip end projection 53. Therefore, the residues of the food ingredient, which are produced in the inner filter 61, are discharged between the elastic transforming portion 71 and the tip end projection 53 while transforming the elastic transforming portion 71.
Meanwhile, as shown in
The filter cover 80 includes a first end 81 having a fastening structure detachably coupled to the coupling end 12 of the container 10, and a second end 82 having a second residue outlet 83 communicating with the first residue outlet 61g while accommodating the tip end projection 53 of the screw 50 so that the residue discharged through the first residue outlet 61g can be discharged to the outside of the filter cover 80.
A lateral portion connecting the first end 81 and the second end 82 of the filter cover 80 functions as a channel for guiding juice discharged from the juice-extraction filter 60 to the juice outlet 15. As shown in
It will be understood by a person having ordinary knowledge in the art to which the disclosure pertains that the disclosure may be embodied in other specific forms without changing the technical spirit or essential features. Therefore, it should be understood that the foregoing embodiments are for illustrative purposes only and not restricted in all aspects. The scope of the disclosure is defined by the following claims rather than the foregoing detailed description, and all changes or modifications from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the disclosure.
Number | Date | Country | Kind |
---|---|---|---|
10-2019-0112717 | Sep 2019 | KR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/KR2020/011759 | 9/2/2020 | WO |