KR20150112146A - The juice extractor - Google Patents

Abstract

The present invention relates to an juicer having excellent juice efficiency.
The juice dispenser of the present invention is formed such that an object having a predetermined thickness is spirally wound and a moisture separating portion having a predetermined length is formed and a gap is formed between the spirally wound portion and the spirally wound portion to discharge the liquid A filter installed so as to flow the juice object into the hollow formed by spiral winding; And filter rotating means for rotating the filter at a high speed so that the juice object placed in the hollow is pressurized by a centrifugal force to form a hollow portion of the filter to separate moisture.
The present invention is characterized in that fruit juice is not only heated in a non-heating manner but also has an excellent juicing efficiency, does not cause clogging of the juice, and can be juiced in a state in which a separate filter is not used.

Description

THE JUICE EXTRACTOR {

The present invention relates to a juicer for obtaining a liquid substance from apples, pears, grapes,

Fruit juices such as apples, pears, grapes, oats, bokbunja, and vegetables such as onions have been used to produce liquid beverages and the like.

The juicer is pressurized while crushing the juice object so that water contained in the juice object is separated.

Generally, a juicer is a type in which a juice is inserted between a screw and a scoop to form a juice while being crushed, a form in which a juice is moved while being closely attached to an object when the juice is moved by a screw, .

Korean Utility Model Registration No. 0471831 and Korean Utility Model Registration No. 0362954 disclose the structure of the juicer.

The conventional juicer has a problem in that the juicing efficiency is as low as 65% to 75% as a method of pressing the juice object so that the juicing efficiency is low.

Especially, fruit juices such as grapes have a very low juicing efficiency.

If the juice efficiency is low, the amount of discarded is low, which lowers the productivity, which causes various problems such as an increase in the manufacturing cost.

In some cases, high temperature heat is applied to the juice object in order to increase the juice efficiency. In such a case, the nutrient destruction of the juice object is increased, and the taste and flavor are changed.

Another problem with the conventional juicer is that the juiced liquid is discharged through a plurality of perforated perforated plates so that the particles of the particles smaller than the diameter of the holes or the seeds of the fruit come out through the holes.

For this reason, a separate filter was required to filter out small particles and seeds.

In addition, there are problems that it is difficult to juice juicy objects (such as bokbunja), which have many hard seeds, because the holes of the entrances are often blocked to cause troubles.

Among the conventional juicers, a method of forcibly feeding a juicer through a feeding screw to pressurize the juicer is a method of juicing a juicer object which is in a state of being killed when it is crushed by pressure, There was also a problem.

Korean Utility Model Registration No. 0471831 Korean Utility Model Registration No. 0362954

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for preventing the breakage of nutrients, The present invention has been made to solve the above problems.

In the present invention, the filter is rotated at a high speed to separate water by centrifugal force. The filter has a water separating portion having a predetermined length while an object having a predetermined thickness is wound in a spiral shape. The water separating portion is spirally wound and spirally wound So that the liquid is discharged, and the object to be juiced is introduced into the hollow formed by spirally winding.

Through this, the juice can be made in a state in which the juice efficiency is excellent while the juice is not heated, the entrapment is not clogged, and a separate filter is not used.

In the juicer of the present invention, an object having a predetermined thickness is wound spirally and a moisture separating portion having a predetermined length is formed, but a gap is formed between the spirally wound portion and the spirally wound portion, And has a filter installed so that the object to be juiced flows into the hollow formed by spiral winding.

In addition, the filter has a filter rotating means for rotating the filter at a high speed so that the juice object placed in the hollow is pressurized by a centrifugal force to a portion forming the hollow of the filter to separate water.

In the juicer of the present invention, the filter is rotated at a high speed so that water is separated by centrifugal force. The filter has a water separation portion having a predetermined length while an object having a predetermined thickness is wound spirally, And the liquid is discharged, and the juice is introduced into the hollow formed by spirally winding, so that the juice efficiency is excellent even though the juice is not heated, and clogging of the chips is also caused And the juice is formed in a state in which a separate filter is not used.

As another form of the filter, a plurality of ring-shaped objects are connected to form a hollow and a predetermined length is formed, and a gap is formed between the ring-shaped object and the ring-shaped object to discharge the liquid , The juice efficiency is excellent, the entrapment is not clogged, and juice is formed in a state in which a separate filter is not used.

In order to realize the hollow of the water separation part, when the juice object is gradually expanded in the direction from the direction in which the object is inserted, when the water separated sludge is moved in the direction of expanding the hollow, Possible features.

1 is a schematic cross-sectional view of a juicer having excellent juice efficiency of the present invention in which a filter having a water separation portion formed by spirally winding an object having a predetermined thickness is provided;
FIG. 2 is a schematic view for explaining a filter which is a constituent element of the present invention, and is a schematic cross-sectional view of a filter having a structure in which ring-
3 is a schematic view for explaining another embodiment of a filter which is a constituent element of the present invention
A: An object having a predetermined thickness is spirally wound to form a moisture separating portion, and a hollow filter
B: a ring-shaped object is connected to form a water separator, and a hollow filter
4 is a side schematic view for explaining a reinforcing beam provided to a filter which is a component of the present invention

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention relates to a juicer.

However, the present invention has an object to provide a juicer which does not require a separate filter, since it does not cause clogging of the entraining even when the juice is juiced while minimizing the destruction of nutritional components.

For this purpose, in the present invention, the juice is made by the centrifugal dehydration method.

However, the general dehydration method is such that the juice is put into a bag such as a nonwoven fabric and the bag is rotated at a high speed, so that the juice efficiency is low and continuous operation is difficult.

For this reason, the juicer of the present invention comprises a filter (10) and a filter rotating means (20).

The filter 10 is provided with a water separation portion 10 having a predetermined length while an object having a predetermined thickness is wound spirally and is formed between the spirally wound portion 11a and the spirally wound portion 11a A gap 11c is formed to discharge the liquid.

In addition, the filter 10 is installed so that the object to be juiced flows into the hollow 12 formed while being spirally wound.

That is, after the juice is put into the hollow 12, the juice is rotated together with the filter 10 by the frictional force to generate a centrifugal force to separate water contained in the juice object. And is discharged to the outside of the filter 10 through the gap 11c between the spirally wound portion and the helically wound portion.

The clearance 11c formed in the water separation unit 10 may be a size that is made consciously or may be a size that is formed naturally due to the characteristics of a spiral wound object.

That is, when an object having a predetermined thickness is wound spirally and spaced apart with a predetermined gap therebetween, a gap of a predetermined size is generated between the spirally wound portion and the spirally wound portion.

These crevices are the sizes that are made consciously.

However, if the surface of the spirally winding object is not smooth to a very precise degree or there is a slight bend, not a straight line, a gap 11c is formed even if the spirally wound portion and the spirally wound portion come into contact with each other .

Such a gap 11c is not made consciously but is made naturally.

In the case where the gap 11c to be made naturally is desired, it is preferable to use a material having a high surface strength of a spirally wound object, in particular, a metal.

In addition, it is preferable that the contact point between the helical winding part and the helical winding part is a line-contact type so that the separated liquid can easily escape. (The cross sectional shape of the spirally wound object is shown in the accompanying drawings In case of circular shape as shown in Fig.

The filter rotating means 20 which is a component of the present invention rotates the filter 10 at a high speed so that the juice object located in the hollow 12 of the filter 10 is rotated by the centrifugal force in the hollow 12 of the filter 10 (Such as an object wound in a spiral shape) so that water is separated from the filter 10 and escapes to the outside of the filter 10.

The filter rotation means 20 may be implemented in various forms such as a configuration including a motor 21 for generating a rotational force, and the like.

The juicer having the above-described structure is a structure in which the object to be juiced can be directly introduced into the hollow 12 of the filter 10 without being put in a separate nonwoven fabric.

In the above-described structure, the filter 10 may be implemented in a similar manner.

More specifically, a plurality of ring-shaped objects R are connected to form a hollow 12, and a water separator 10 having a predetermined length is formed. The ring-shaped object R and the ring- (R) of the ring-shaped object (R) is formed so that a gap (11d) is formed between the ring-shaped object (R) and the liquid is discharged, and the juice object is introduced into the hollow (12) It is possible to make the line contact even if the ring-shaped object R and the ring-shaped object R come into contact with each other.

The filter 10 having such a structure can also be used, but has a disadvantage that sludge in which moisture is separated accumulates.

That is, the structure in which the object C having a predetermined thickness is spirally wound to form the moisture separation unit 10 is a structure in which the water separated sludge forms a spiral (a spiral wound portion and a spiral wound portion (Where the first object 11c is formed) and can be discharged to the outside of the water separation unit 10. (The object C having a predetermined thickness wound in a helical form and the juice object have a large frictional force The sludge can be moved even though the effect is low but there is no bone between the spirally wound portion and the spirally wound portion.)

In the structure in which the water separation portion 10 is formed by connecting the ring-shaped objects R, the hollow 12 of the water separation portion 10 is formed in a shape gradually expanding from the direction in which the juice object is inserted to the other direction So that the sludge can be moved naturally.

That is, when the centrifugal force is generated, the sludge is gradually moved in the direction of the diameter (hollow diameter) in the hollow 12.

Of course, in the structure of the filter 10 in which the water separation unit 10 is formed by spirally winding an object having a predetermined thickness, if the shape of the filter 10 is gradually expanded toward the other direction from the direction in which the juice is introduced, .

In the present invention, the present invention may be further embodied in a form having a crushing means (30) for crushing the object to be juiced before the juice is introduced into the hollow (12).

The crushing means 30 increases the juicing rate of the juice object when the juice object is not broken or does not burst even if a strong centrifugal force is generated due to the object of the juice being hardened.

The crushing means 30 can be realized in the form of a portion for crushing the juice object in a known green juice or a crushing means 30 provided in a juicer of the prior art.

As the juice is finely crushed through the crushing means 30 provided in the present invention, the juicing rate is improved.

Reference numeral 11e denotes a reinforcing beam for fixing an object or a ring-shaped object having durability of a filter and a predetermined thickness, and 11h is a sludge discharge hole.

Reference numeral 40 denotes a juice outlet, and 50 denotes a final sludge outlet.

10. Filter
11. Moisture separation unit
11a. 11b. Spiral
11c, 11d. gap
11e. Beam
11h. Sludge discharge hole
12. Hollow
20. Filter rotation means
21. Motor
30. Crushing means
40. Juice outlet
50. Final sludge outlet

Claims (5)

In the juicer,
A water separation portion 10 having a predetermined length is formed while the object C having a predetermined thickness is spirally wound and a gap 11c is formed between the spirally wound portion 11a and the spirally wound portion 11a A filter 10 formed so as to discharge the liquid, a filter 10 installed so that the object to be juiced flows into the hollow 12 formed by spiral winding; And
The filter 10 is rotated to cause the fruit juice placed in the hollow 12 to be pressed by the centrifugal force to the portion of the filter 10 forming the hollow 12 and to be separated from the filter 10 And a filter rotating means (20) for rotating the juice dispenser.
In the juicer,
A water separation unit (10) having a predetermined length formed by connecting a plurality of ring-shaped objects (R) to form a hollow (12) A filter (10) provided with a gap (11d) for discharging the liquid, the object being inserted into the hollow (12); And
A filter rotating means 20 for rotating the filter 10 at a high speed and pressing the juice object located in the hollow 12 by a centrifugal force to a portion forming the hollow 12 of the filter 10 to separate water therefrom; Wherein the juice is a juice.
3. The method according to claim 1 or 2,
The hollow (12) of the water separation unit (10) is gradually expanded from the direction in which the juice object is inserted toward the other direction.
3. The method according to claim 1 or 2,
And a crushing means (30) for crushing the object to be juiced before the object to be juiced is introduced into the hollow (12).
3. The method according to claim 1 or 2,
Characterized in that the shape of the cross section of the object (C) or the object (R) having a predetermined thickness wound in a helical shape is circular.

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