KR20150016813A - A juice extracting screw assembly having a removable mesh and a juicer having the same - Google Patents

Abstract

The present invention relates to a juice extracting screw assembly, which has a detachable flat type mesh net, thereby leading to the ease of wash and performing various operating modes by the preference of users, and a juicer including the same. In the present invention, provided is a juice extracting screw assembly, comprising a screw, a detachable mesh net, a juice extracting storage part and a waste storage part.

Description

[0001] The present invention relates to a juice screw assembly having a removable mesh net and a juice extracting screw assembly having a removable mesh and a juicer having the same.

[0001] The present invention relates to an egg-making screw assembly and a master batch including the same, which includes a removable mesh-type mesh net, which facilitates washing and enables various operating modes according to user's preference, It is about the clerk.

A conventional vertical centrifugal separator (for example, Korean Patent No. 1013504) includes a screw structure in which a juice object such as fruits and vegetables is introduced and cut, conveyed, crushed, and pressed. The screw structure is provided on the inner side of the drum, and the juice is formed by the rotation of the screw assembly in the course of passing the juice object between the juice screen and the drum, including the juice screen. The juice and the remaining debris, which the user wishes to drink, are collected separately at the bottom of the drum and are discharged separately through the respective discharge ports. In some cases, the screw assembly is not provided with a juice net, and a separate juice network may be provided between the drum and the screw assembly.

However, since the screw assembly of the conventional western scepter includes a juice screen or a juice screen is provided between the drum and the screw assembly, the juice screen has a cylindrical shape or a conical shape. The user desires to wash away any residue left between the juice screens when the juice is completed. Because of the curved shape of the juice screen, it is not easy to brush and it is difficult to clean the juice even if it is washed in running water.

Further, depending on the user, there is a variety of preferences such as when only juice is required as in the conventional juicer or when garbage is required together with a smoothie or a milkshake, or when the garlic is used with a juicer, Such a variety of preferences can not be satisfied by the conventional stemmer.

(Patent Document 1) KR 1013504 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems.

More particularly, the present invention proposes a juice screw assembly and a juicer including the juice screw assembly, which can solve the difficult problem of having a cylindrical or conical juice network.

In addition, we propose a control system that can easily change the operation mode according to user's various preferences.

According to an aspect of the present invention, there is provided a drum type washing machine comprising: a hollow drum; And a screw assembly (200) positioned within the drum (100), the screw assembly (200) comprising: a screw (250); A mesh part 270 installed at a lower end of the screw 250 and having a mesh network 272; A juice receiving part 280 installed at a lower end of the mesh part 270; And a debris accommodation part (290) installed at a lower end of the juice receiving part (280).

In one embodiment, the mesh portion 270 is detachable, and the juice receiving portion 280 is preferably fastenable to the screw 250.

In another embodiment, it is preferable that the mesh portion 270 and the juice receiving portion 280 are detachable, and the debris receiving portion 290 can be fastened to the screw 250.

The upper portion of the mesh portion 270 may receive a material flowing downward along the outer surface of the screw 250.

The diameter of the upper portion of the mesh portion 270 may be larger than the diameter of the lower portion of the screw 250.

The mesh portion 270 includes a receiving portion 271 having a diameter larger than that of the lower portion of the screw 250; And the mesh network 272 located below the receiving portion 271. [0040]

The mesh network 272 is preferably a flat plate.

Further, it is preferable that the mesh net 272 is bent downward in a radially inward direction.

Also, it is preferable that the first residue through-hole 274 is located at the center of the mesh net 272. In this case, the upper hole portion of the first residue through-hole 274 is preferably located higher than the lowermost portion of the mesh net 272.

In addition, it is preferable that a screw fastening portion 273, to which the screw 250 is fastened, is positioned radially inward of the accommodating portion 271.

Meanwhile, it is preferable that the juice which has passed through the mesh net 272 is received in the juice receiving part 280.

In addition, it is preferable that the lower end of the juice receiving unit 280 is curved and the juice outlet 130a is positioned at the lower end of the curved shape.

Further, it is preferable that the juice receiving portion 280 is fastened to the lower end of the receiving portion 271.

In addition, it is preferable that a second residue through-hole 284, which is in fluid communication with the first residue through-hole 274, is located radially inward of the juice receiving portion 280.

Meanwhile, it is preferable that the bottom end of the debris accommodating portion 290 is curved and the debris outlet 120a is positioned at the end of the lower end of the curved shape.

The residue receiving portion 290 is preferably in fluid communication with the second residue through-hole 284.

The rotating shaft 210 is positioned at the lower end of the screw 250 and the rotating shaft through hole 291 is positioned at the lower end of the debris receiving portion 290. The rotating shaft 210 passes through the first residue Hole 274, the second residue through-hole 284, and the rotation shaft through-hole 291, as shown in FIG.

In one embodiment, when the juice object is inserted into the juice screw assembly, the juice is divided into juice and debris by rotation of the screw 250, and the juice is introduced into the mesh network 272 And the debris does not pass through the mesh net 272 of the mesh part 270 and is discharged to the first debris located radially inward of the mesh part 270. [ Through the hole 274 and then through the second residue through-hole of the juice receiver 280 to be received in the debris receiver 290.

In another embodiment, when the juice receiver 280 is removed and the juice object is introduced into the juice screw assembly, the juice is separated into juice and debris by rotation of the screw 250, Passes through the first debris through hole 274 located radially inward of the mesh portion 270 without passing through the mesh network 272 of the mesh portion 270 and then passes through the first debris through hole 274 located radially inward of the mesh portion 270, Through the second residue through-hole 284 of the waste-receiving portion 290 and is accommodated in the residue receiving portion 290.

In order to solve the above-mentioned problems, the present invention provides a juice screw assembly as described above; A main body 300 having a rotating member for providing rotational force to the screw 250; And a lid (10) capable of closing the upper portion of the drum (100) into which the juice object is inserted.

In one embodiment, the juice flow tube 131 and the remnant flow tube 121 are located below the drum 100, and the master station is mounted with the mesh unit 270, Is received in the juice receiving portion 280 and then discharged through the juice flow tube 131. The debris that has not passed through the mesh net 272 is discharged to the debris receiving portion 290 A first mode in which the water is discharged through the remnant flow tube 121 after being accommodated and the first mode in which the mesh part 270 is removed so that both the juice and the debris are accommodated in the juice receiving part 280, And a second mode in which they are discharged together through the first mode.

In another embodiment, in the second mode, the mesh portion 270 and the juice receiving portion 280 are removed so that juice and debris are both received in the debris accommodating portion 290, and then the debris flow tube 121). ≪ / RTI >

Since the present invention includes a flat mesh network, it is easy for the user to clean it.

In addition, the user can easily change the operation mode by determining whether or not the mesh unit is mounted, and can meet any user's preference, such as when juice and debris are needed together or separately.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view for explaining an juice screw assembly according to the present invention and a juicer having the same. FIG.
FIG. 2 is an exploded perspective view for explaining an egg screw assembly according to the present invention and an applicator including the same.
3 is an exploded perspective view for explaining the juice screw assembly according to the present invention in detail.

The present invention will be described by taking as an example a juicer equipped with an juice screw assembly. However, the same principle can be applied to devices other than the master. Accordingly, it will be apparent that the scope of the present invention is also encompassed within the scope of the present invention, in accordance with the appended claims, to other equipments equipped with the juice screw assembly to which the same principle is applied.

The constituent elements of the present invention can be used integrally or individually as needed. In addition, some components may be omitted depending on the usage form.

BEST MODE FOR CARRYING OUT THE INVENTION A preferred embodiment of an juice screw assembly and a 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, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, the definitions of these terms should be described based on the contents throughout this specification.

One. Of the master clerk 500  Description of the configuration

Hereinafter, an embodiment of a master secretary 500 according to the present invention will be described with reference to the accompanying drawings.

First, the entire configuration of the master server 500 will be described with reference to FIGS. 1 and 2. FIG.

The master cylinder 500 according to an embodiment of the present invention includes a lid 10, a drum 100 coupled to the lid 10, a screw assembly 200 rotatably disposed inside the drum 100, And a main body 300 coupled to a lower portion of the main body 100. Hereinafter, the concept including both the drum 100 and the screw assembly 200 will be referred to as an " juice screw assembly ".

The lid 10 includes an injection port 11 spaced a predetermined distance from the center so that the fruit juice can be inserted, a binding jaw 13 along the inner diameter of the bottom surface, and a rotary shaft fixing groove 14 at the center of the bottom surface, And a rod-shaped injection rod 12 serving as a push-in function for allowing the juice to be injected into the injection port 11 well. In the drawing, the injection port 11 is eccentrically positioned at the center of the lid 10, but it is not limited thereto.

The drum 100 has a hollow cylindrical container structure having a space therein. The drum 100 has a guide protrusion 110 protruding from a center of the inner bottom surface of the drum 100 with a predetermined diameter, A second guide groove (not shown) formed on the inner side, a debris discharge hole 120, a juice discharge hole 130, a debris flow tube 121 (not shown) ), And a juice flow tube (131).

The first guide groove (not shown) is formed in a circular shape having a diameter larger than the guide jaw 110 on the outer side of the guide jaw 110 about the center of the drum 100, and the first guide groove A debris discharging hole 120 penetrating the bottom surface of the drum 100 is formed.

The second guide groove 112 is formed in a circular shape having a smaller diameter than the guide jaw 110 on the inner side of the guide jaw 110 about the center of the drum 100, A juice water discharge hole 130 is formed so as to pass through the bottom surface of the washing machine 100 vertically.

The residue flow tube 121 and the juice flow tube 131 are extended to the outside of the drum 100 by communicating with the waste discharge hole 120 and the juice discharge hole 130 to easily discharge the debris and juice to the outside .

An elastic packing member (not shown) functioning to open the residue flow tube 121 to some extent to accumulate debris is provided in the residue flow tube 121 in order to prevent the loss of the juice rate by discharging the residue at the beginning of the juice .

The upper portion of the main body 300 is preferably formed to have a size corresponding to the bottom surface of the drum 100, and is engaged with the lower portion of the drum 100.

The main body 300 includes a rotating member such as a motor, and a switch 330 for applying power is disposed on an outer surface of the main body 300.

The rotary member has a rectangular shaft 310. The rectangular shaft 310 is inserted into a square hole 212 formed in the rotary shaft 210 located at the lower portion of the screw assembly 200 and is fastened to rotate the rotary shaft 210 , The screw assembly 200 surrounding the rotating shaft 210 rotates.

Next, the juice screw assembly according to the present invention will be described in more detail with reference to Figs. 2 to 3. Fig.

The screw assembly 200 includes a screw 250; A mesh part 270 installed at a lower end of the screw 250 and having a mesh network 272 facing upward; A juice receiving part 280 provided at the lower end of the mesh part 270; And a debris accommodating portion 290 installed at the lower end of the juice receiving portion 280.

A rib 220 is provided on the outer surface of the screw 250 to crush and juice the juice by pressing and rubbing between the screw 250 and the rib 220 and the drum 100 during rotation of the screw 250. The rib 220 may be any shape.

An upper rotary shaft 211 is provided at an upper portion of the screw 250 and inserted into the rotary shaft fixing groove 14 of the lid.

The fruit juice is separated into a juice and a residue by the juice of the screw 250. The juice and the juice thus separated flow naturally along the outer surface of the screw 250 downward. The flowing juice and debris reach the mesh part 270 together.

The mesh portion 270 may have any structure as long as it receives the juice and debris flowing downward along the outer surface of the screw 250. 3, the upper portion of the mesh portion 270, that is, the upper portion of the receiving portion 271 is larger than the lower portion of the mesh portion 270, and both the mesh portion 270 and the mesh portion 270 are naturally formed. Respectively.

The mesh portion 270 includes a receiving portion 271 having a diameter larger than that of the lower portion of the screw 250; And a mesh network 272 located below the receptacle 271.

A screw fastening portion 273 to fasten the screw 250 can be located radially inward of the receiving portion 271. [

The mesh net 272 is preferably a flat plate. In this case, it is possible to solve the problem of difficulty in washing due to the bent mesh network as described above.

The mesh net 272 is preferably curved downward in the radially inward direction so that the juices and debris flow naturally downward.

A first residue through hole 274 is located in the center of the mesh net 272. Since the first residue through-hole 274 has no mesh, the residue that has not passed through the mesh net 272 flows downward through the first residue through-hole. The juice flows downward through the mesh net 272 and does not reach the first residue through-hole 274.

However, since the upper hole portion of the first debris through hole 274 is located higher than the lowermost portion of the mesh net 272, even if the juice reaching the first debris through hole 274 is recognized as debris, It is preferable to prevent it from passing.

The juice receiving portion 280 is located at the lower end of the mesh portion 270 and naturally receives the juice flowing downward through the mesh net 272.

In particular, it is preferable that the juice receiving portion 280 is fastened to the lower end of the receiving portion 271 rather than the downwardly bent mesh net 272 so that the juice receiving portion 280 is firmly fastened to the mesh portion 270.

The lower end of the juice receiving portion 280 is curved and the juice outlet 130a is positioned at the lower end of the curved shape. The juice outlet 130a communicates with the juice discharge hole 130 and the juice flow tube 131 located in the drum 100 so that the juice contained in the juice receiving portion 280 is discharged to the upper portion.

A second residue through-hole 284, which is in fluid communication with the first residue through-hole 274, is located radially inward of the juice receiving portion 280. The debris that has passed through the first debris through hole 274 is not received in the juice receiving portion 280 but passes through the second debris through hole 284. [

The debris receiving portion 290 is fastened to the juice receiving portion 280 so as to be in fluid communication with the second debris through hole 284 so that debris that has passed through the second debris through hole 284 flows into the debris receiving portion 290, .

The bottom end of the debris accommodating portion 290 is curved and the debris outlet 120a is located at the end of the lower end of the curved shape. The debris discharge port 120a communicates with the debris discharge hole 120 and the debris flow pipe 121 located in the drum 100 to discharge the debris contained in the debris receiving portion 290 to the outside.

The rotary shaft through hole 291 is located at the lower end of the debris accommodating portion 290. The rotating shaft 210 is fastened to the rotating member (not shown) of the main body 30 through the first residue through-hole 274, the second residue through-hole 284, and the rotating shaft through- .

On the other hand, the mesh portion 270 is detachable.

When the mesh part 270 is attached, juice and debris can be separately discharged.

When the mesh part 270 is detached, both the juice and the debris are discharged together. When the mesh part 270 is detached, the juice receiving part 280 is fastened to the screw 250. Although the fastening structure is not shown in detail in the drawings, it is apparent to those skilled in the art that any structure is possible.

On the other hand, the juice receiving portion 280 is detachable together with the mesh portion 270. The juice receiving portion 280 is also mounted together when the mesh portion 270 is attached, and can be detached together with the detachable portion. When the juice receiving unit 280 is detached, the debris receiving unit 290 is fastened to the screw 250. Although the fastening structure is not shown in detail in the drawings, it is apparent to those skilled in the art that any structure is possible.

The important thing is whether or not the mesh part 270 separating the juice and the residue is mounted. Such detachment can be selected differently according to the preference of the user using the joystick, which will be described in detail in the operation method.

2. Of the master clerk 500  Explanation of operation process

Hereinafter, the operation of the master secretary 500 according to an embodiment of the present invention will be described with reference to the accompanying drawings.

When the switch 330 of the master controller 500 is turned on and power is applied to the controller 500, the rotating member in the main body 300 is driven, and the angled shaft 310 rotates, The rotational force is transmitted to the rotating shaft 210 connected to the rotating shaft 210.

As the rotary shaft 210 rotates, the screw assembly 200 coupled to the rotary shaft 210 rotates in the drum 100, and the operation of the master cylinder 500 is started.

When the juicer 500 is operated, the object to be juiced is injected into the injection port 11 formed in the lid 10 using the injection rod 12, and the injected object reaches the screw assembly 200, The ribs 220 provided in the main body 200 and the like.

The 'first mode' in which the mesh unit 270 is mounted will be described. It is the case that the user wishes to separate the juice and debris like a general juicer.

The juice object injected through the injection port 11 is divided into juice and debris by the screw 250, and both the juice and the debris flow downward along the outer surface of the screw 250.

Both the flowing juice and the debris are accommodated in the mesh portion 270.

When reaching the mesh net 272 of the mesh portion 270, the juice flows down the mesh net 272 and reaches the juice receiving portion 280. The debris flows downward without passing through the mesh net 272 and reaches the first debris through hole 274, passing through the second debris through hole 284.

Only the juice is accommodated in the juice receiving portion 280.

The juice is sequentially passed through the juice outlet 130a, the juice outlet hole 130, and the juice flow tube 131 along the lower surface gradient of the juice receiver 280 and is discharged to the outside.

The debris is not received in the juice receiving portion 280 but passes through the second debris through hole 284 and is received in the debris receiving portion 290.

The debris is sequentially passed through the debris discharge port 120a, the debris discharge hole 120, and the debris flow pipe 121 along the lower surface gradient of the debris accommodating portion 290, and is discharged to the outside.

With this process, the juice and the scum are separated and discharged.

The 'second mode' in which the mesh unit 270 is detached will be described. Unlike normal juicers, users need juice and debris together. Smoothies, milkshakes, etc., or to work on chopping garlic.

As in the first mode, the juice injected through the injection port 11 is divided into juice and debris by the screw 250, and both the juice and the debris flow downward along the outer surface of the screw 250.

Both the juice and the debris reach the juice receiving portion 280. Next, the juice outlet 130a, the juice outlet hole 130, and the juice flow tube 131 are sequentially passed along the lower surface gradient of the juice receiving portion 280 to discharge juice and debris together to the outside do.

There is no substance passing through the first and second residue through holes 274 and 284 and there is no substance discharged through the residue discharge hole 120. [

With this process, juice and debris are discharged together.

Another embodiment of the 'second mode' in which the mesh part 270 and the juice receiving part are detached together will be described.

As in the first mode, the juice injected through the injection port 11 is divided into juice and debris by the screw 250, and both the juice and the debris flow downward along the outer surface of the screw 250.

Both the juice and the debris reach the debris accommodation portion 290. Next, along with the lower surface gradient of the debris accommodating portion 290, the debris outlet 120a, the debris outlet 120 and the debris flowtube 121 are sequentially passed, and the juice and the debris are discharged to the outside together.

There is no substance passing through the first and second residue through holes 274 and 284 and there is no substance discharged through the juice outlet hole 130.

With this process, juice and debris are discharged together.

While the present invention has been described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present invention should be determined by the claims.

500: Lord Clerk
10: Cover
11: Injection port
12: injection rod
13:
14: rotating shaft fixing groove
100: Drums
110: guide chin
120: Waste drainage hole
120a:
121: Residue flow tube
130: juice discharge hole
130a: Juice outlet
131: Juice flow tube
200: screw assembly
210:
211: upper rotating shaft
212: square shaft
250: Screw
270: mesh portion
271:
272: mesh network
273: screw fastening portion
274: first residue through hole
280: Juice receiving part
284: second residue through hole
290:
291: Axial through hole
300: Body
310: square shaft

Claims (23)

A hollow drum 100; And
A screw assembly (200) positioned within the drum (100), the screw assembly comprising:
The screw assembly (200)
A screw 250;
A mesh unit 270 installed at a lower end of the screw 250 and having a mesh network 272;
A juice receiving part 280 installed at a lower end of the mesh part 270; And
And a debris accommodation part (290) provided at the lower end of the juice reception part (280).
The juice screw assembly.
The method according to claim 1,
Characterized in that the mesh part (270) is detachable and the juice receiving part (280) can be fastened to the screw (250)
The juice screw assembly.
The method according to claim 1,
Wherein the mesh portion (270) and the juice receiving portion (280) are detachable, and the debris receiving portion (290) is fastenable to the screw (250)
The juice screw assembly.
The method according to claim 1,
And an upper portion of the mesh portion 270 receives material flowing downward along an outer surface of the screw 250. [
The juice screw assembly.
The method according to claim 1,
Wherein the diameter of the upper portion of the mesh portion (270) is larger than the diameter of the lower portion of the screw (250)
The juice screw assembly.
The method according to claim 1,
The mesh portion 270 may be formed,
A receiving portion 271 having a diameter larger than the lower diameter of the screw 250; And
And the mesh net (272) located below the receiving portion (271).
The juice screw assembly.
The method according to claim 6,
Characterized in that the mesh net (272) is of a planar type,
The juice screw assembly.
The method according to claim 6,
Characterized in that the mesh net (272) is curved downward in the radially inward direction,
The juice screw assembly.
The method according to claim 6,
And a first residue through hole (274) is located in the center of the mesh net (272)
The juice screw assembly.
10. The method of claim 9,
And the upper hole portion of the first residue hole 274 is positioned higher than the lowermost portion of the mesh net 272. [
The juice screw assembly.
The method according to claim 6,
Wherein a screw fastening portion (273) for fastening the screw (250) is located radially inward of the receiving portion (271)
The juice screw assembly.
The method according to claim 1,
Characterized in that the juice which has passed through the mesh net (272) is received in the juice receiving part (280)
The juice screw assembly.
The method according to claim 1,
Wherein a lower end of the juice receiving part (280) is curved and a juice outlet (130a) is positioned at a lower end of the curved shape.
The juice screw assembly.
The method according to claim 6,
Wherein the juice receiving portion (280) is fastened to the lower end of the receiving portion (271).
The juice screw assembly.
10. The method of claim 9,
And a second debris through hole (284) in fluid communication with the first debris through hole (274) is located radially inward of the juice receiver (280)
The juice screw assembly.
The method according to claim 1,
Characterized in that the bottom end of the debris accommodating portion (290) is curved and the debris outlet (120a) is located at the end of the lower end of the curved shape.
The juice screw assembly.
16. The method of claim 15,
And the residue receiving portion (290) is in fluid communication with the second residue through-hole (284).
The juice screw assembly.
18. The method of claim 17,
A rotating shaft 210 is positioned at a lower end of the screw 250,
The rotary shaft through hole 291 is located at the lower end of the debris accommodating portion 290,
Characterized in that the rotation shaft (210) passes through the first residue through-hole (274), the second residue through-hole (284) and the rotation shaft through-
The juice screw assembly.
The method according to claim 1,
When the juice object is put into the juice screw assembly,
By the rotation of the screw 250, it is divided into juice and debris,
The juice passes through the mesh net 272 of the mesh part 270 and is received in the juice receiving part 280,
The debris passes through the first debris through hole 274 located radially inward of the mesh part 270 without passing through the mesh network 272 of the mesh part 270, Through the second debris through hole (284) of the debris receiving portion (290).
The juice screw assembly.
3. The method of claim 2,
When the juice receiver 280 is removed and the juice object is put into the juice screw assembly,
By the rotation of the screw 250, it is divided into juice and debris,
The juice and the residue do not pass through the mesh net 272 of the mesh part 270 but pass through the first waste through-hole 274 located radially inward of the mesh part 270, Is passed through the second residue through-hole of the juice storage part (280) and is received in the residue receiving part (290).
20. An oven screw assembly according to any one of claims 2 to 20;
A main body 300 having a rotating member for providing rotational force to the screw 250; And
And a lid (10) capable of closing an upper portion of the drum (100) into which the juice object is inserted.
Lord Clerk.
22. The method of claim 21,
A juice flow pipe 131 and a juice flow pipe 121 are positioned below the drum 100,
In this case,
The mesh part 270 is installed and the juice which has passed through the mesh net 272 is accommodated in the juice receiving part 280 and discharged through the juice flow tube 131. The mesh net 272 , Is received in the residue accommodating unit 290 and then discharged through the residue flow tube 121. In the first mode,
And the second mode in which the mesh portion 270 is detached so that both juice and debris are accommodated in the juice receiving portion 280 and then discharged together through the juice flow tube 131. [ doing,
Lord Clerk.
22. The method of claim 21,
A juice flow pipe 131 and a juice flow pipe 121 are positioned below the drum 100,
In this case,
The mesh part 270 and the juice receiving part 280 are mounted and the juice that has passed through the mesh net 272 is received in the juice receiving part 280 and then passed through the juice flow tube 131 A first mode in which debris that has not passed through the mesh net 272 is discharged through the debris flow tube 121 after being received in the debris receiving portion 290,
The mesh portion 270 and the juice receiving portion 280 are removed so that both juice and debris are received in the debris accommodating portion 290 and then discharged together through the debris flow tube 121. [ Lt; RTI ID = 0.0 > 1, < / RTI &
Lord Clerk.

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