KR101915124B1 - Apparatus and method for classifying and collecting can - Google Patents

Abstract

The present invention relates to a method for sorting and recovering a can container, in particular, by compressing a can container to reduce its volume and sorting it according to a magnetic material or a non-magnetic material, And a can container sorting apparatus and method capable of saving can.
According to the present invention, sorting and collection are possible immediately after the can container is put in.
In addition, it is possible to sort and recover recycled products in combination with a structure capable of recovering other recycled products.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a can container sorting and collecting apparatus,

The present invention relates to a method for sorting and recovering a can container, in particular, by compressing a can container to reduce its volume and sorting it according to a magnetic material or a non-magnetic material, And a can container sorting apparatus and method capable of saving can.

According to the present invention, sorting and collection are possible immediately after the can container is put in.

In addition, it is possible to sort and recover recycled products in combination with a structure capable of recovering other recycled products.

 Disposable products such as cans can cause social and environmental costs incurred due to incineration or landfill. This is a time for strengthening the regulations, and when consumers return can containers to fast food or coffee shops, It is recycling or reuse as a form of return.

Also, the process of collecting and refunding itself takes labor and time factors. Also, there is a disadvantage that the manpower that is collected according to the sanitary condition of the empty container in the recovery process becomes troublesome.

A considerable amount of can containers are used and discarded every day, so that most of the used can containers used as necessary applications are discarded in trash cans or the like in the vicinity, resulting in a lot of economic losses and environmental pollution.

As a result, in order to recycle a large amount of can containers discarded in the above-mentioned trash can again in order to recycle or reuse, there has been provided a measure for separating and recovering the can from the trash can. However, This, of course, also resulted in a further increase in costs.

On the other hand, a general recycled product collecting device itself is well known and is described in detail in the following prior art documents, and a description thereof will be omitted.

Korean Patent Publication No. 10-2004-0073920

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 reduce the volume of a can container by compressing the can container to reduce the volume and automatically sorting it into a magnetic or non-magnetic material, And a canister compression and recovery apparatus and method using the same.

It is to be understood, however, that the intention is not to limit the scope of the invention as defined in the appended claims, but that the invention may also be embodied in other specific forms without departing from the spirit or essential characteristics thereof. will be.

The can 100 includes a hollow housing 100 into which a can container C for recovery is introduced and a pressurizing unit 300 which is provided inside the housing 100 and compresses the can container C, The housing 100 includes a hollow housing main body 110 and a charging port 120 opened to the upper portion of the housing main body 110 and into which the can container C is inserted, And a support wall 140 which is vertically provided in the housing main body 110 to support the can container C to be compressed, The canister 300 is disposed on the partition wall 150 and compresses the can container C so that the first drop slit 160 and the second fall slit 160 are formed in the partition wall 150 in the direction opposite to the support wall 140, The drop slits 180 are formed so that the drop slits 160 and 180 are smaller than the diameter of the can container C, The non-magnetic substance can C-2 in the can container C is compressed by the support wall 140 and drops through the second drop slit 180 and the magnetic substance can C-1 is compressed in the support wall 140 The can container sorting and collecting device is capable of dropping through the first drop slit (160) after interlocking with the backward movement of the post-pressurizing portion (300).

A collection bag 500 is provided on the bottom surface of the partition wall 150 to store a can container C having passed through the first drop slit 160 and the second drop slit 180, A liquid recovery unit 400 is provided at the bottom of the main body 110 to temporarily store the liquid leaked from the canister C and a lower portion of the housing main body 110 is formed with an opening 130, The recovery unit 400 is put in and out.

The pressing unit 300 includes a pressing plate PC having a blade 370 for compressing the can container C and an actuator AC for generating a forward and backward force, An interlocking bar 360 provided between the pressure plates PC and a latching bar 380 arranged in a direction perpendicular to the actuator AC side in the first dropping slit 160, And a through-slit PC-2 formed in a portion of the pressure plate main body PC-1 and through which the latching bar 380 passes, the pressure plate PC- ) Is made of a magnetic material.

The actuator AC includes an electric housing 310 disposed on the partition wall 150 and a plurality of piezoelectric elements 310 provided in the electric housing 310 and stacked in the direction of the support wall 140, An inner electrode 330 provided between the piezoelectric element 320 and the inner electrode 330 and an outer electrode E disposed inside the motor housing 310 and connected to the inner electrode 330; A wire W connecting the electrode E and the inner electrode 330, a power supply unit BAT provided inside the motor housing 310 and contacting the outer electrode E, And a contact plate 340 provided in the middle of the support wall 140. The interlocking bar 360 is connected to the contact plate 340 and the pressure plate PC is provided to the interlocking bar 360 And the can container C is compressed.

The electric housing 310 includes a motor housing body 311 having a hollow shape and a side wall facing the support wall 140. The motor housing body 311 protrudes in a ring shape on the inner surface of the motor housing body 311, And a seat plate 313 horizontally disposed on the inner surface of the housing main body 311. The power unit BAT includes a seat plate 313, And is provided between the bottoms of the electric housing main body 311.

The supporting wall 140 extends downward from one side of the bottom of the inlet 120 and is horizontally spaced from the supporting wall 140. A guide wall 170 is formed on the other side of the inlet 120, Extending downward.

The present invention is a sorting and collecting method using the can container sorting and collecting apparatus, wherein the user inserts the can container (C) into the inlet port (120) 2 drop slit 180 and pushes the pressure plate PC in the direction of the can container C by the pressurizing portion 300 to compress the can container C supported by the support wall 140 The can container C is separated from the pressure plate PC and discharged to the lower side through the second drop slit 180. When the can container C is a non-magnetic substance, When the can container C is a magnetic substance, the compressed can container C is moved backward by being interlocked with the pressure plate PC, while the engagement bar 380 disposed on the partition wall 150 And is separated from the pressure plate PC and discharged downward through the first drop slit 160 to be introduced into the recovery bag 500 Can container sorting and collection method.

According to the present invention described above, time and cost for canister sorting and collection can be reduced.

1 is a perspective view of a can container sorting and collecting apparatus according to an embodiment of the present invention,
2 is a conceptual diagram of a can container sorting and collecting apparatus according to an embodiment of the present invention,
FIG. 3 is a cross-sectional view taken along line AA in FIG. 1,
FIG. 4 is a cross-sectional perspective view of a can container sorting and collecting apparatus according to an embodiment of the present invention,
FIG. 5 is a cross-sectional perspective view seen in the other direction in FIG. 4,
6 to 8 are conceptual diagrams showing that can vessels are sorted and recovered when the can vessels are non-magnetic bodies in the can vessel sorting and collecting apparatus according to the embodiment of the present invention,
9 to 12 are conceptual diagrams showing that the can container is sorted and recovered when the can container is a magnetic body in the can container sorting and collecting device according to the embodiment of the present invention,
13 is a perspective view showing a pressing unit of the can container sorting and collecting apparatus according to an embodiment of the present invention,
FIG. 14 is a cross-sectional perspective view illustrating a transmission housing of a pressing portion of a canister sorting and collecting apparatus according to an embodiment of the present invention. FIG.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of a term in order to describe its invention in the best possible way It is to be understood that the technical terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, It should be based on the contents of

Also, the technical terms used herein should be interpreted in a sense generally understood by a person skilled in the art to which the present invention belongs, unless otherwise defined in this specification, and it should be understood that an overly comprehensive It should not be construed as a meaning or an overly reduced meaning.

Furthermore, the singular forms " a " as used herein include plural referents unless the context clearly indicates otherwise. In the present application, the term "comprising" or "comprising" or the like should not be construed as necessarily including the various elements or steps described in the specification, and some of the elements or portions thereof Or may include additional elements or steps, and should be construed as meaning and concept consistent with technical thought.

Hereinafter, preferred embodiments of 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.

1 to 5, a can container sorting and collecting apparatus 10 according to an embodiment of the present invention includes a hollow housing 100 into which a can container C for recovery is inserted, And a pressing part 300 provided inside the can container C to compress the can container C.

The housing 100 includes a hollow housing body 110 and a charging port 120 opened to the upper portion of the housing body 110 and into which the can container C is inserted.

At this time, a partition wall 150 is provided in the housing body 110 in a horizontal direction. The inner space of the housing main body 110 is divided in the vertical direction by the partition wall 150.

Inside the housing body 110, a support wall 140 is vertically provided to support the can container C to be compressed. The support wall 140 extends downward from a bottom surface of the inlet 120. As shown in the figure, the support wall 140 is formed as a bottom surface of the inlet 120 downward at a side in which the can container C is pressed.

The guide wall 170 is horizontally spaced from the support wall 140 and extends downward on the other side of the inlet 120, that is, on the side opposite to the direction in which the can container C is pressed.

The can container C that has been inserted through the inlet 120 drops between the guide wall 170 and the support wall 140 to enable accurate dropping.

The first falling slit 160 and the second falling slit 180 are formed in the partition wall 140. The first drop slit 160 is formed in a direction opposite to the support wall 140 (left side in the drawing) as shown, and the second drop slit 180 is formed in the support wall 140 (right side in the drawing) As shown in FIG. (For example, a metal can) adhered to the magnet is dropped on the first falling slit 160, and a can (e.g., aluminum) of a non-magnetic substance not attached to the magnet is dropped on the second falling slit 180. [ Which will be described later.

The pressing portion 300 is disposed on the partition wall 150 to compress the can container C and the can container C to be pressed is supported and compressed by the support wall 140.

The first dropping slit 160 and the second dropping slit 180 smaller than the diameter of the can reservoir C are formed in a part of the partition wall 150 to drop the compressed can storage container C as described above. That is, the can container C disposed above the partition wall 150 is larger than the first drop slit 160 or the second fall slit 180 and does not fall. However, when the canister C is compressed by the pressurizing portion 300, the can container C falls down to be smaller than the diameter of the first drop slit 160 or the second drop slit 180.

A recovery bag 500 is provided on the bottom surface of the partition wall 150 so that the can container C dropped through the first drop slit 160 or the second drop slit 180 can be stored. At this time, the collection bag 500 includes a first collection bag 510 disposed at the bottom of the first drop slit 160, a second collection bag 500 disposed at the bottom of the second drop slit 180, (20).

In addition, a liquid recovery unit 400 having a drawer shape is provided at the bottom of the housing main body 110, so that the liquid leaked from the paper cup C can be temporarily stored. The liquid recovery unit 400 may be inserted into and removed from the opening 130 formed at a lower portion of the housing body 110.

The pressing unit 300 includes a pressing plate PC having a blade 370 for compressing the can container C and an actuator AC for generating a forward and backward vibration force. The actuator AC and the pressure plate PC And an interlocking bar 360 interposed therebetween. That is, when the interlocking bar 360 is moved back and forth by the actuator AC, the pressure plate PC interlocks and moves back and forth. Therefore, the pressure plate PC presses the can container C to compress the can container C.

The pressing plate PC may be provided with a blade 370 to cut the compressed can container C.

The pressure plate PC is attached to the pressure plate PC in the case of a can container C made of magnetic material (for example, metal) because it is made of a magnetic material. A latching bar 380 is used to separate the attached can container C into a pressure plate PC. The latching bar 380 is disposed in a direction perpendicular to the actuator AC side surface of the first drop slit 160 as shown in FIG.

The pressure plate PC is a plate-shaped plate having a blade 370 formed therein and a through-slit (not shown) formed in a portion of the pressure plate main body PC-1 to penetrate the latching bar 380 PC-2). That is, while the pressure plate PC is moved backward through the latching bar 380, the latching bar 380 passes through the through-slit PC-2, whereby the can container C attached to the pressure plate PC is pressed against the pressure plate PC- (PC). The separated can container C falls through the first drop slit 160 and is introduced into the first collection bag 510.

The pressure plate PC is made of a magnetic material and functions as a magnet. For this purpose, the pressure plate PC itself may be made of a magnetic material, and a magnet MG serving as a magnetic body may be attached to the pressure plate PC It is also possible.

With reference to Figs. 6 to 8, the description will be made as to the classification and recovery of the case where the can container C is a non-magnetic substance.

First, a can container C is introduced through the inlet 120 (see FIG. 1) and placed on the second fall slit 180 of the partition wall 150. Since the diameter of the can container C is larger than the diameter of the second drop slit 180, the can container C is disposed on the second drop slit 180 without falling.

The pressure plate PC advances by the pressing portion 300 to compress the can container C disposed in the second drop slit 180. [ Thereafter, when the pressure plate PC is moved backward, the compressed can container C falls through the second drop slit 180. [ This is because the can container C is not attached to the pressure plate PC because it is a non-magnetic substance, and is not interlocked with it and is not moved backward.

The case where the can container C is a magnetic body will be described with reference to Figs. 9 to 12. Fig.

First, a can container C is introduced through the inlet 120 (see FIG. 1) and placed on the second fall slit 180 of the partition wall 150. Since the diameter of the can container C is larger than the diameter of the second drop slit 180, the can container C is not dropped but is disposed in the second drop slit 180 as described above.

The pressure plate PC advances by the pressing portion 300 to compress the can container C disposed in the second drop slit 180. [ Thereafter, when the pressure plate PC is moved backward, the compressed can container C is also backwardly attached to the pressure plate PC. This is because the can container C is attached to the pressure plate PC because it is a magnetic substance.

The pressure plate PC is moved backward while the latching bar 380 passes through the pressure plate PC. This is because the penetration slit PC-2 (see Figs. 4 and 5) is formed in the pressure plate PC, and the latching bar 380 penetrates through the penetration slit PC-2.

The catching bar 360 passing through the pressure plate PC is engaged with a can container C attached to the pressure plate PC so that the can container C is separated from the pressure plate PC.

Since the catching bar 380 is provided in the first dropping slit 160 in the backward direction of the pressure plate PC, the can container C separated by the catching bar 380 is separated from the first dropping slit 160 160, and then falls through the first drop slit 160. As shown in FIG.

As a result, according to the present invention, a can container made of a non-magnetic material (for example, aluminum or the like) not attached to the pressure plate PC and a can container made of a magnetic material .

The pressing unit 300 of the present invention includes an actuator AC that generates a forward and backward vibration power as described above, thereby moving the pressure plate PC back and forth.

The actuator AC includes an electric housing 310 disposed on the partition wall 150 as shown in FIGS. 13 to 14, and an electric motor 300 installed in the electric housing 310, And a plurality of piezoelectric elements 320 stacked in layers.

The term " piezoelectric element " as used herein refers to a device having a property that a voltage is changed when a pressure is applied (a piezoelectric effect), and the piezoelectric element is expanded or contracted when a voltage is applied. Some of these piezoelectric elements are piezoelectric ceramics known from ancient times and sintered with barium titanate, but the most widely used is lead zirconate titanate (PZT).

An internal electrode 330 is provided between the piezoelectric elements 320 to supply power to the piezoelectric element 320 and an external electrode E connected to the internal electrode 330 is connected to the piezoelectric element 320 through the electric housing 310, Respectively.

A wire (W) is provided between the external electrode (E) and the internal electrode (330) to be electrically connected. An external electrode may be used to supply power to the external electrode E and a power supply unit BAT provided inside the electric housing 310 and in contact with the external electrode E may be used .

That is, a power source is transmitted from the power supply unit BAT to the piezoelectric element 310 through the external electrode E, the wire W, and the internal electrode 330.

The internal electrodes 330 are provided between the plurality of piezoelectric elements 320, which are stacked as described above. Wires W are provided on both ends of the inner electrode 330 to be electrically connected to the outer electrode E.

The external electrode E is composed of a pair (E1, E2) for supplying a positive power and a negative power, respectively. The internal electrode 330, which is in contact with the external electrode E1 to which the + power is supplied, and the external electrode E2 that supplies the power are alternately arranged one by one to supply the + power and the power to the piezoelectric element 320 do.

A contact plate 340 is provided in a direction of the support wall 140 of the piezoelectric element 320. An interlocking bar 360 is connected to the contact plate 340 and a pressure plate PC is provided on the interlocking bar 360 to compress the canister C.

A variable rotation unit 350 may be provided between the contact plate 340 and the piezoelectric element 320. This is because the angle can be changed when the contact plate 340 moves back and forth the interlocking bar 360, and the variable rotation unit 350 absorbs the angle change.

The variable rotation unit 350 includes a bracket 352 provided on the piezoelectric element 320 and a hinge 351 provided on the bottom surface of the contact plate 340 and coupled to the bracket 352 by a pin. The bracket 352 is formed of a pair of plates for pin connection between the hinge 351 and the bracket 352. The hinge 351 is inserted between the brackets 352. A pin 353 is installed to penetrate the bracket 352 and the hinge 351. With this configuration, the contact plate 340 is rotatably installed to absorb the change in angle.

The electric housing 310 in which the piezoelectric element 320 and the external electrode E are accommodated is hollow and includes a motor housing main body 311 having a side wall of the supporting wall 140 opened, And an electrode fixing hole 312 protruding in a ring shape on the side surface and into which the external electrode E is inserted. Electrically, a seating plate 313 is horizontally disposed on the inner surface of the housing main body 311 to seat the piezoelectric element 320. The power unit BAT is provided between the seating plate 313 and the bottom of the electric housing body 311.

A through hole 314 is formed in the seating plate 313 to connect the external electrode E to the power supply unit BAT.

The can container C is compressed by the electric pressure applying portion 300 of the present invention. That is, when power is supplied to the piezoelectric element 320, the piezoelectric element 320 expands in the direction of the support wall 140 (rightward in the drawing in Figs. 6 to 12). The expanded piezoelectric element 320 advances the interlocking bar 360 toward the support wall 140 so that the pressure plate PC compresses the can container C. When the power supply to the piezoelectric element 320 is interrupted, the piezoelectric element 320 returns to its original volume, so that the interlocking bar 350 and the pressure plate PC are moved backward so that the can container C is moved to the first drop slit 160 or And drops through the second drop slit 180.

Hereinafter, a recovery method using the recovery apparatus 10 of the present invention will be described with reference to FIGS. 6 to 12. FIG.

First, the user inserts the can container (C) into the inlet (120). The charged can container C is disposed on the second drop slit 180 of the partition wall 150. [ In this state, the pressing portion PC advances the pressure plate PC in the direction of the can container C to pressurize the can container C supported by the support wall 140 and compress it.

Thereafter, the pressure plate PC is moved backward. If the can container C is a non-magnetic substance that is not attached to the pressure plate PC, it is separated from the pressure plate PC and discharged downward through the second drop slit 180 as described above, 3).

If the can container C is a magnetic body to be attached to the pressure plate PC, the pressure plate PC is interlocked with the pressure plate PC and is retracted while being caught by the stop bar 380 disposed on the partition wall 150, And is discharged downward through the first drop slit 160. Thereafter, the waste is introduced into the collection bags 500 and 510 (see FIG. 3).

Meanwhile, a door unit 600 (see FIG. 1) that can be opened and closed at a portion of the housing main body 110 can be provided so that the collection bag 500 can be conveniently taken out to the outside.

It is also possible to cut the compressed can container C by providing the blade 370 (see FIG. 2) in the direction of the can container C in the case of the pressure plate PC for pressing the can container C. At this time, an opening 141 is formed in the support plate 140 so that the blade 370 can be inserted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments and constructions. It will be possible.

It is therefore to be understood that the above-described embodiments are illustrative and not restrictive in all aspects and that the scope of the invention described in the foregoing specification is defined by the appended claims, And ranges and equivalents thereof are to be construed as being included within the scope of the present invention

100: housing 110: housing body
120: inlet 130: open
140: support wall 150: partition wall
160: first drop slit 170: guide wall
180: second falling slit 300: pressure
310: electric motor housing 311: electric motor housing body
320: piezoelectric element 340: contact plate
350: variable rotation part 351: hinge
352: Bracket 353: Pin
360: Interlocking bar 370: Blade
PC: Pressure Plate

Claims (7)

A hollow housing 100 into which the recovery can container C is inserted and a pressing portion 300 provided inside the housing 100 to compress the can container C,
The housing 100 includes a hollow housing main body 110 and a charging port 120 opened to the top of the housing main body 110 and into which the can container C is inserted, And a support wall 140 provided in a vertical direction inside the housing main body 110 to support the can container C to be compressed,
The pressing portion 300 is disposed on the partition wall 150 to compress the can container C,
A first drop slit 160 and a second fall slit 180 are formed in the partition wall 150 in the direction opposite to the direction of the support wall 140 and each of the drop slits 160, ),
The non-magnetic substance can (C-2) in the canister (C) drops on the support wall (140) through the second fall slit (180)
The magnetic substance can (C-1) falls back through the first drop slit 160 after interlocking with the backward movement of the pressing portion 300 after being compressed by the support wall 140,
The pressing unit 300 includes a pressing plate PC having a blade 370 for compressing the can container C and an actuator AC for generating a forward and backward vibration force. The actuator AC and the pressure plate PC And an engagement bar 380 disposed in a direction perpendicular to the actuator AC side surface of the first drop slit 160,
The pressure plate PC comprises a plate-shaped pressure plate body PC-1 and a through-hole slit PC-2 formed at a portion of the pressure plate body PC-1, through which the latching bar 380 passes , The pressure plate (PC) is made of a magnetic material,
The actuator (AC) includes a transmission housing 310 disposed on the partition wall 150,
A piezoelectric element 320 provided inside the electric housing 310 and stacked in a plurality of layers in the direction of the support wall 140, an internal electrode 330 provided between the piezoelectric elements 320, A wire W connected to the inner electrode 330 and connected to the inner electrode 330, a wire W connecting the outer electrode E and the inner electrode 330, And a contact plate 340 provided in the direction of the support wall 140 of the piezoelectric element 320. The contact portion 340 is formed in the outer surface of the piezoelectric element 320,
The interlocking bar 360 is connected to the contact plate 340 and the pressure plate PC is provided in the interlocking bar 360 to compress the can container C,
The electric housing 310 includes a motor housing body 311 having a hollow shape and a side wall facing the support wall 140. The motor housing body 311 has a ring shape protruding from the inner surface of the motor housing body 311, And an accommodation plate 313 provided horizontally on the inner side surface of the housing main body 311. The housing 311 has an electrode fixing hole 312,
The power unit BAT is provided between the seating plate 313 and the bottom of the electric housing body 311,
A variable rotation unit 350 is provided between the contact plate 340 and the piezoelectric element 320. The variable rotation unit 350 includes a bracket 352 provided to the piezoelectric element 320, And a hinge 351 provided on the bottom surface of the bracket 352 and coupled to the bracket 352,
The hinge 351 is inserted between the brackets 352 and the pin 353 is engaged with the bracket 352. The bracket 352 is formed of a pair of plates for pin connection between the hinge 351 and the bracket 352, Passes through the bracket 352 and the hinge 351,
A through hole (314) is formed in the seating plate (313) so that the external electrode (E) is inserted and is in contact with the power supply unit (BAT). The method according to claim 1,
A recovery bag 500 is provided on the bottom surface of the partition wall 150 to store a can container C passing through the first drop slit 160 and the second drop slit 180,
A liquid recovery unit 400 is provided at the bottom of the housing main body 110 to temporarily store the liquid leaked from the can container C,
The canister sorting and collecting device according to claim 1, wherein the housing part (110) has an opening (130) at a lower portion thereof to allow the liquid collecting part (400) to enter and exit. delete delete delete The method according to claim 1,
The support wall 140 extends downward from a bottom surface of the inlet 120,
Wherein the guide wall (170) is downwardly extended from the support wall (140) in a horizontal direction, the guide wall (170) extending downward from the other side of the inlet (120). A canister sorting and collecting apparatus according to claim 1,
When the user inserts the can container C into the inlet 120,
The can container C is disposed on the second drop slit 180 of the partition wall 150,
The pressing plate 300 advances the pressure plate PC toward the can container C to press the can container C supported by the supporting wall 140 to compress the can,
When the can container C is a non-magnetic substance, the compressed can container C is separated from the pressure plate PC and discharged downward through the second drop slit 180, (500)
When the can container C is a magnetic body, the compressed can container C is interlocked with the pressure plate PC and is moved backward while being caught by the engagement bar 380 disposed on the partition wall 150, And is discharged downward through the first drop slit (160) to be introduced into the recovery bag (500).

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