JP2004154407A - Drink extraction apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To separate and retrieve an extraction filter and extracted residue securely without needing a complex operation. <P>SOLUTION: In this drink extraction apparatus, powder ingredient and hot water are put in an extraction container 30 in which an extraction filter 61 is placed at an extraction opening 232 and drink is extracted through the extraction filter 61 from the extraction opening 232. This apparatus has a filter-recovering means 60, which retrieves the extraction filter 61 separated from the extraction container 30 after the extraction of the drink to an filter-recovering container 81, and a scraper 70, which is located so that it faces the retrieving motion area of the extraction filter 61 by the filter recovering means 60 and scrapes the extraction residue attached on the extraction filter 61. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a beverage extraction device, and more specifically, a powdery raw material and hot water are put into an extraction container in which an extraction filter is arranged at an extraction port, and a beverage such as a coffee beverage is extracted through the extraction filter. The present invention relates to a beverage extracting device.
[0002]
[Prior art]
For example, a vending machine or a beverage dispenser that sells a coffee beverage using ground beans as a powder raw material is provided with a beverage extraction device inside. As this kind of beverage extraction apparatus, an apparatus including an extraction container, an extraction filter, and a filter block is generally used. The extraction container is a so-called cylinder, and has a cylindrical shape with upper and lower ends open respectively. The extraction container is provided with a piston that moves up and down inside the extraction container and opens the upper end of the extraction container when it is arranged at the upper limit position. The extraction filter is arranged so as to close the lower end opening of the extraction container. For example, a band-like filter made of paper and wound on a roll is applied. The filter block is a cylindrical container with a bottom attached to the lower end of the extraction container via an extraction filter, and has an extraction passage at the inner bottom.
[0003]
In this beverage extraction device, first, after a filter block is attached to a lower end portion of an extraction container via an extraction filter, powdered raw material and hot water are introduced from an upper end opening of the extraction container with a piston disposed at an upper limit position. You. Thereafter, when the piston is sequentially moved downward, the brewing container is brought into a pressurized state, the coffee beverage is extracted into the filter block through the extraction filter, and the extracted coffee beverage is poured into the beverage cup through the extraction passage. Will be.
[0004]
When the extraction of the coffee beverage is completed, the piston returns to the upper limit position, and the filter block is separated from the extraction container. From this state, the extraction filter is unwound from the roll by a certain length, and a new filter portion is arranged at a position corresponding to the lower end opening of the extraction container, and becomes a standby state in preparation for the next beverage extraction. Then, the filter portion used for extracting the beverage is sequentially conveyed downstream, and finally collected in the collection container.
[0005]
[Problems to be solved by the invention]
By the way, the extraction residue of the coffee beverage adheres to the filter portion used for extracting the beverage. Therefore, when collecting and discarding the extraction filter, it is preferable to remove the extraction residue in advance. Therefore, conventionally, a guide for sending the extraction filter carried out after the extraction in a substantially opposite direction is provided, so that the extraction residue is removed from the extraction filter (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP-A-7-249169
[0007]
However, in the above-mentioned prior art, the extraction slag is removed from the extraction filter by gravity acting on the extraction slag. For this reason, depending on the degree of adhesion of the extraction scum to the extraction filter, the extraction scum may remain on the extraction filter, resulting in insufficient separation of the two. In particular, when the beverage is extracted at a low pressure, the extraction slag contains a large amount of moisture, so that the degree of adhesion of the extraction slag to the extraction filter becomes large, and the above-described problem becomes more prominent. Of course, if the operation of scraping off the extraction residue from the extraction filter collected in the collection container is performed every time, it is possible to reliably separate the two, but the operation for that is extremely complicated.
[0008]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a beverage extracting apparatus capable of reliably separating and collecting an extraction filter and an extraction residue without requiring complicated operations.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a beverage brewing apparatus according to claim 1 of the present invention puts a powdered raw material and hot water into an extraction container in which an extraction filter is arranged in an extraction port, and the brewing agent is passed through the extraction filter. In a beverage extraction device configured to extract a beverage from a mouth, a filter collection unit that collects an extraction filter separated from an extraction container into a predetermined collection area after extracting a beverage, and collection of the extraction filter by the filter collection unit. A scraper disposed to face the moving area and scraping off the extraction residue attached to the extraction filter.
[0010]
Further, in the beverage extraction device according to claim 2 of the present invention, in the above-described claim 1, the filter collection unit sequentially draws out a band-shaped extraction filter wound on a roll, thereby forming a new filter portion. The filter portion is disposed at a portion corresponding to the extraction port of the extraction container, and the filter portion used for extracting the beverage is carried out to the collection area.
[0011]
A beverage extraction device according to a third aspect of the present invention is the extraction device according to the first or second aspect, wherein the beverage extraction device is provided separately from the collection area of the extraction filter, and receives the extraction residue scraped off by the scraper. A slag collection container is provided.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of a beverage extraction device according to the present invention will be described in detail with reference to the accompanying drawings.
[0013]
FIGS. 1 and 2 show a beverage brewing apparatus according to an embodiment of the present invention, which is disposed inside a cup-type beverage vending machine A as shown in FIG. FIG.
[0014]
The cup-type beverage vending machine A to which the coffee beverage extraction device is applied has a product sales outlet D having a sales tray C therein at a substantially central portion on the front surface of the device body B. In addition, the cup-type beverage vending machine A includes a product display section E for displaying a product for sale on an upper front portion of the device body B, and a product selection button F for selecting an individual product. ing. A coin slot G for inserting coins, a coin return lever H for returning inserted coins, and a return port J for returning returned coins and change coins are provided below the product display section E, respectively. Is provided. As shown in FIG. 13, the coin inserted through the coin insertion slot G is recognized by the coin processing unit K such as a coin mech and the like and the amount thereof, and the recognition result is given to the vending machine control unit L. Become. The vending machine control unit L activates the above-mentioned commodity selection button F when coins of an amount required for commodity sales are inserted, and furthermore, when the activated commodity selection button F is pressed, the commodity selection signal is described later. To the extraction control means 100. Further, the vending machine control unit L also performs a process of returning change to the return port J when the input amount is larger than the sales product.
[0015]
As shown in FIGS. 1 and 2, the coffee beverage extraction device of the cup-type beverage vending machine A includes a raw material shooter 10, a shower nozzle 20, and a hot water supply container unit 130 on the front side of a base member 1 erected vertically. And an extraction container 30 including a raw material receiver 230.
[0016]
The raw material shooter 10 is formed in a cone shape for guiding a coffee raw material (powder raw material) such as ground beans ground by a mill 11, and is provided on an upper portion of the base member 1 in such a manner that the inner diameter gradually decreases downward. It is attached. The raw material shooter 10 is provided with a shooter fly 12. The shooter tapper 12 vibrates the raw material shooter 10 using the tapper motor 13 as a drive source.
[0017]
The shower nozzle 20 has a large number of small-diameter pouring ports (not shown) at its tip, and discharges hot water from each pouring port in a shower shape when hot water is supplied. The pre-heater 21 and the shower valve 22 Is connected to the hot water tank 23 via the.
[0018]
The hot water supply container section 130 of the extraction container 30 is formed in a cylindrical shape having a dome shape at one end and a small-diameter ventilation passage 131 at the center thereof, and a hot water supply port 132 provided at the other end. It is attached to the side area of the raw material shooter 10 in the upper part of the base member 1 in a vertically downward state.
[0019]
In the hot water supply container section 130, a sealing valve 133 is provided inside the ventilation path 131, and a hot water supply path 134 is provided in an intermediate portion of the ventilation path 131, and air is supplied to a portion on the side of the ventilation path 131. A passage 135 is provided. The sealing valve 133 opens and closes the opening of the ventilation passage 131 from the inside by moving up and down by driving the valve motor 136. The hot water supply passage 134 is connected to the above-described hot water tank 23 via a hot water supply valve 137, and supplies hot water of a predetermined temperature stored in the hot water tank 23 to the inside of the hot water supply container unit 130 when the hot water supply valve 137 is opened. I do. The air passage 135 is connected to the air pump 138, and supplies air to the inside of the hot water supply container unit 130 when the air pump 138 is driven.
[0020]
Further, the hot water supply container section 130 is provided with a filter 139 for preventing material from entering the hot water supply port 132. The raw material entry prevention filter 139 allows the permeation of liquid and gas while preventing the permeation of ground beans, which are coffee raw materials. A packing (not shown) for securing watertightness with a raw material receiving portion 230 described later is attached to an outer peripheral edge of the hot water supply port 132.
[0021]
The raw material receiver 230 of the extraction container 30 has a cylindrical shape with a uniform cross section, and has an input port 231 at one end and an extraction port 232 at the other end. The inlet 231 is formed in such a size that it can be attached to the hot water supply port 132 when it is matched with the hot water supply port 132 of the hot water supply container unit 130. The raw material receiving portion 230 is disposed so as to be slidable in the horizontal direction by the slide means 40 with the input port 231 facing vertically upward, and can be appropriately moved in the vertical direction when an external force is applied. It is supported.
[0022]
The slide means 40 includes a slide block 41 disposed on the front side of the base member 1 so as to be horizontally movable along the left-right direction, and a pair of arm portions 42 projecting forward from an upper portion of the slide block 41. The above-mentioned raw material receiving portion 230 is supported between the arm portions 42 so as to be vertically movable. The slide means 40 is provided with a slide motor 43 and a pair of slide sensors 44a and 44b between the slide block 41 and the base member 1. The slide motor 43 moves the slide block 41 with respect to the base member 1 to displace the raw material receiver 230 through the arm 42 between the hot water supply extracting position and the raw material charging position. Things. The hot water supply extraction position is a position where the raw material receiving portion 230 is aligned with the axial center below the hot water supply container portion 130, and the raw material charging position is a position where the input port 231 of the raw material receiving portion 230 is connected to the raw material shooter 10. This is a position arranged in the lower region. The pair of slide sensors 44a and 44b are for detecting the position of the raw material receiving portion 230 with respect to the base member 1, and when the raw material receiving portion 230 is positioned at the hot water supply extracting position and the raw material charging position described above. It is arranged to output a detection signal.
[0023]
The filter block 50 and the filter collecting means 60 are held by the slide block 41 of the slide means 40 described above.
[0024]
The filter block 50 has a bottomed cylindrical shape having a receiving port 51 at an upper end, and has an extraction passage 52 at an inner bottom thereof, and is attached to the slide block 41 via a lifting means 53. The receiving port 51 is formed in such a size that it can be attached to the extraction port 232 when matched with the extraction port 232 of the raw material receiving section 230. The extraction passage 52 is a liquid passage leading to a not-shown pouring nozzle, and has a pinch mechanism 54. The pinch mechanism 54 is interposed in the middle of the extraction passage 52 and temporarily shuts off the extraction passage 52 when driven.
[0025]
The elevating means 53 is configured by interposing a cross link mechanism 56 driven by a link motor 55 between the base member 1 and the filter block 50. The cross link mechanism 56 is for displacing the filter block 50 to three positions of a standby position, a raw material receiving position, and an extracting position by converting a horizontal reciprocating movement by the link motor 55 into a vertical reciprocating movement. It is. Although not explicitly shown in the drawing, a detection signal is output between the base member 1 and the filter block 50 when the filter block 50 is positioned at the above-described three positions with respect to the base member 1. The two link sensors 57 are provided. These two link sensors 57 detect the three positions of the filter block 50 from three different states of ON-ON, ON-OFF, and OFF-ON.
[0026]
The filter collecting means 60 is for sequentially feeding out a band-shaped extraction filter 61 made of paper wound on a roll between the filter block 50 and the raw material receiver 230 in the extraction container 30. In the present embodiment, a roll shaft 62 that supports a roll of the extraction filter 61 below the lifting / lowering means 53 in the slide block 41, and the extraction filter 61 fed from the roll of the extraction filter 61 is combined with the filter block 50 and the raw material. The filter collecting means 60 is provided with a pair of guide rollers 63a and 63b for guiding between the receiver 230 and a pair of feed rollers 64a and 64b for sequentially feeding the extraction filter 61 from the roll. The width of the extraction filter 61 supplied by the filter recovery means 60 is larger than the inner diameter of the extraction port 232 in the raw material receiver 230 and the inner diameter of the receiving port 51 in the filter block 50. It is possible to cover the extraction port 232 and the receiving port 51.
[0027]
On the other hand, the coffee beverage extraction device is provided with a scraper 70, an extraction residue collection container 80, a filter collection container 81, and extraction control means 100.
[0028]
The scraper 70 has a triangular column shape with a triangular cross section. One edge of the scraper 70 moves the extraction filter 61 between the guide roller 63b on the downstream side and the pair of feeding rollers 64a, 64b in the above-described filter collecting means 60. It is held by the slide block 41 so as to face the area. More specifically, the scraper 70 is arranged on the slide block 41 in such a manner that one side edge slides on the surface of the extraction filter 61 when the filter collection means 60 is driven. The scraper 70 is not necessarily limited to a pillar having a triangular cross section in cross section. For example, a wire may be simply arranged.
[0029]
The extracted slag collecting container 80 is a wide-mouthed container that opens upward, and is disposed in a vertically lower region of the scraper 70 described above. The filter collection container 81 is a wide-mouthed container that opens upward, like the extraction residue collection container 80, and is disposed in the transport extension area of the extraction filter 61 by the pair of feeding rollers 64a and 64b.
[0030]
When a product selection signal or a detection signal is given from the vending machine control unit L, the slide sensors 44a, 44b, and the link sensor 57, the extraction control unit 100 extracts a coffee beverage according to a program or data stored in the memory 101 in advance. This is for controlling each part of the device.
[0031]
4 to 12 are schematic diagrams for explaining the operation of the above-described coffee beverage extraction device. Hereinafter, the operation of the coffee beverage extraction device will be described with reference to these drawings as appropriate.
[0032]
First, when the product selection button F is not pressed, the extraction control means 100 of the coffee beverage extraction device is in a sales standby state as shown in FIG. In this sales standby state, both the raw material receiver 230 and the filter block 50 occupy the raw material input position, and the filter block 50 occupies the lowest standby position. Further, the valve motor 136 is stopped in a state where the sealing valve 133 opens the ventilation passage 131. The shower valve 22 and the hot water supply valve 137 are both closed.
[0033]
When coins are inserted by a purchaser or the like from the selling standby state described above and an arbitrary product selection button F is pressed, and this is notified through the vending machine control unit L, the extraction control means 100 of the coffee beverage extraction device performs the processing shown in FIG. As shown in (2), the filter block 50 is raised to the raw material receiving position by driving the lifting / lowering means 53. As a result, the receiving port 51 of the filter block 50 is attached to the extracting port 232 of the raw material receiving section 230 with the extraction filter 61 interposed therebetween.
[0034]
Thereafter, as shown in FIG. 6, the extraction control means 100 crushes the coffee beans by driving the mill 11, and grinds the ground coffee, which is the coffee raw material, from the raw material shooter 10 to the raw material receiving portion 230 at the raw material input position. Put it inside. During this time, the extraction control means 100 applies vibration to the shooter-taki 12 by driving the tack-motor 13. As a result, a situation in which the coffee raw material adheres to and stays on the inner wall of the raw material shooter 10 does not occur.
[0035]
When a predetermined amount of ground beans is put into the raw material receiver 230, the extraction control means 100 temporarily shuts off the extraction passage 52 through the pinch mechanism 54, and then opens the shower valve 22, The hot water heated by the pre-heater 21 is showered from the shower nozzle 20 to the ground beans put into the raw material receiver 230. As a result, the ground beans put into the raw material receiver 230 are sufficiently steamed by the hot water showered from the shower nozzle 20.
[0036]
Thereafter, the extraction control means 100 moves the raw material receiver 230 to the hot water supply extraction position through the slide means 40 as shown in FIG. 7, and further raises the filter block 50 to the extraction position through the elevating means 53 from this state. As a result, the raw material receiving portion 230 rises together with the filter block 50, and as shown in FIG. 8, the charging port 231 of the raw material receiving portion 230 is connected to the hot water supply port 132 of the hot water supply container portion 130 via the raw material intrusion prevention filter 139. Attached to.
[0037]
Thereafter, extraction control means 100 performs a process of opening hot water supply valve 137 and supplying hot water in hot water tank 23 to hot water supply container unit 130 through hot water supply passage 134. The hot water supplied to the hot water supply container section 130 enters the raw material receiving section 230 from the input port 231 through the hot water supply port 132 and the raw material intrusion prevention filter 139, and the ground beans put into the raw material receiving section 230 are removed. It becomes a mixed state. In this case, even if the amount of supplied hot water exceeds the raw material entry prevention filter 139, the movement of the ground beans to the hot water supply container unit 130 is prevented by the raw material entry prevention filter 139.
[0038]
When a predetermined amount of hot water is supplied, the extraction control means 100 closes the hot water supply valve 137, and then drives the sealing valve 133 through the valve motor 136, as shown in FIG. The fluid is prevented from flowing through the ventilation passage 131 of the section 130. In addition, the extraction passage 52 previously blocked by the pinch mechanism 54 is returned to a state where it is communicated again. Further, from this state, a process of supplying air to the inside of the hot water supply container unit 130 through the air passage 135 by driving the air pump 138 is performed. As a result, the internal pressure of the hot water supply container section 130 and the raw material receiving section 230, that is, the internal pressure of the extraction container 30, increases, and the coffee beverage generated in the raw material receiving section 230 passes through the extraction filter 61. Then, it is extracted by the filter block 50.
[0039]
Here, in the extraction control means 100, as shown in FIG. 14A, the air pump 138 is driven intermittently. Specifically, the air pump 138 is continuously driven until the internal pressure of the extraction container 30 becomes about 0.1 MPa, and thereafter, the internal pressure gradually decreases as the coffee beverage is extracted, and stops until the internal pressure becomes almost zero. Give time. In addition, it is preferable that the internal pressure of the above-mentioned extraction container 30 be accurately measured by providing a pressure sensor. Control may be performed such that the air pump 138 is driven only for this learned time. If the intermittent driving of the air pump 138 is repeatedly performed, the coffee beverage can be extracted without unnecessarily lengthening the time until the end of the extraction. In addition, the maximum value of the pressure applied to the extraction container 30 is about 0.1 MPa, which is a sufficiently small value as compared with the conventional one shown in FIG. Undesirable components are also significantly reduced in amount, and it is possible to extract high-quality coffee beverages such as those served in coffee shops.
[0040]
The coffee beverage extracted in the filter block 50 as described above is supplied to an unillustrated ejection nozzle through the extraction passage 52, and further, the cup placed on the sales tray C of the product outlet D from the ejection nozzle. And will be offered to buyers.
[0041]
As illustrated in FIG. 10, the extraction control unit 100 of the coffee beverage extraction device that has finished extracting the coffee beverage opens the ventilation passage 131 of the hot water supply container unit 130 by driving the sealing valve 133 through the valve motor 136. Thereafter, as shown in FIG. 11, the filter block 50 is lowered to the standby position through the lifting / lowering means 53, so that the raw material receiver 230 is detached from the hot water supply container 130.
[0042]
When the filter block 50 is lowered to the standby position, the extraction control means 100 performs a process of feeding out the extraction filter 61 by a fixed length from the roll by driving the feeding roller pairs 64a and 64b. As a result, the new filter portion of the extraction filter 61 is disposed at a position corresponding to the receiving port 51 of the filter block 50 and the extraction port 232 of the raw material receiving section 230, and is used for extracting a coffee beverage. The filtered filter parts are sequentially carried downstream, and finally collected in the filter collection container 81.
[0043]
Here, the extraction filter 61 is discarded when the extraction filter 61 is discarded because the extraction residue of the coffee beverage is attached to the surface of the filter portion already used for extraction of the coffee beverage in the extraction filter 61. It is necessary to remove the extraction residue adhering to the surface. However, according to the above coffee beverage extraction device, the scraper 70 is arranged in a manner facing the movement area of the extraction filter 61 between the downstream guide roller 63b and the feed roller pair 64a, 64b. Each time the pair of feed rollers 64a, 64b is driven to feed the extraction filter 61 from the roll by a certain length, the scraper 70 comes into sliding contact with the surface of the extraction filter 61, and the attached extraction residue is scraped off. Will be able to Moreover, since the extracted slag that has been shaved off falls and is collected in the slag collection container 80, the extracted slag can be collected separately from the extraction filter 61 without any operation.
[0044]
In the above-described embodiment, an apparatus for extracting a coffee beverage using ground beans as a powder raw material is illustrated. However, the present invention is naturally applicable to a device for extracting a beverage from other powder raw materials. Is possible.
[0045]
Further, in the above-described embodiment, a new filter portion is disposed at a portion corresponding to the extraction port 232 of the extraction container 30 by sequentially feeding out the extraction filter 61 having a band shape wound on a roll as a filter collection unit. In addition, the example in which the filter portion used for extracting the beverage is carried out to the collection area is illustrated, but the same operation and effect can be expected even when applied to a method in which the extraction filter is collected in another mode. It is possible.
[0046]
Further, in the above-described embodiment, the extraction vessel 30 is provided with the hot water supply vessel section 130 and the raw material receiving section 230, but the extraction vessel 30 is not necessarily provided with the hot water supply vessel section and the raw material receiving section. The present invention is not limited to this, and an extraction container in which these are integrally configured may be applied.
[0047]
【The invention's effect】
As described above, according to the beverage extraction device of the present invention, since the scraper is arranged in a manner facing the collection movement area of the extraction filter by the filter collection means, every time the extraction filter is collected. The attached extract residue is scraped off, and the extraction filter and the extract residue can be separated and collected without any operation.
[Brief description of the drawings]
FIG. 1 is a side view conceptually showing a beverage extraction device according to an embodiment of the present invention.
FIG. 2 is a front view of the beverage extraction device shown in FIG.
FIG. 3 is a front view of a vending machine to which the beverage extraction device shown in FIG. 1 is applied.
FIG. 4 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 5 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 6 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 7 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 8 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 9 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 10 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 11 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 12 is a schematic diagram for explaining the operation of the beverage extraction device shown in FIG.
FIG. 13 is a functional block diagram showing a configuration of the beverage extraction device shown in FIG.
FIGS. 14 (a) and (b) are timing charts showing the relationship between the operation of an air pump applied to the beverage brewing apparatus shown in FIG. 1 and the internal pressure of the brewing container, and FIGS. 6 is a timing chart showing a relationship between an operation of an air pump applied to the beverage brewing device of FIG.
[Explanation of symbols]
1 Base member
10 Raw material shooter
11 mil
12 Shoo Tataki
13 Tataki motor
20 shower nozzle
21 Preheater
22 shower valve
23 hot water tank
30 extraction containers
40 slide means
41 slide block
42 arm
43 Slide motor
44a, 44b slide sensor
50 Filter Block
51 Reception
52 Extraction passage
53 Lifting means
54 Pinch mechanism
55 link motor
56 Cross Link Mechanism
57 Link Sensor
60 Filter collection means
61 Extraction filter
62 Roll axis
63a, 63b Guide roller
63b Guide roller
64a, 64b feeding roller pair
70 scraper
80 Extraction slag collection container
81 Filter collection container
100 Extraction control means
101 memory
130 Hot water supply container
131 Ventilation passage
132 hot water outlet
133 Sealed valve
134 hot water supply passage
135 Air passage
136 Valve motor
137 Hot water supply valve
138 Air pump
139 Raw material intrusion prevention filter
230 Raw material receiver
231 Input port
232 extraction mouth
A Cup-type beverage vending machine
B device body
C sales tray
D Product sales outlet
E Product display
F Product selection button
G coin slot
H coin return lever
J Return port
K coin processing unit
L Vending machine control unit

Claims (3)

In a beverage extraction device in which a powder raw material and hot water are put into an extraction container in which an extraction filter is arranged in an extraction port, and a beverage is extracted from the extraction port through the extraction filter,
Filter collection means for collecting the extraction filter separated from the extraction container after extracting the beverage in a predetermined collection area,
A beverage extraction device, comprising: a scraper disposed so as to face a recovery movement area of an extraction filter by the filter recovery means, and scraping off extraction residue adhering to the extraction filter. The filter collection means arranges a new filter portion at a portion corresponding to the extraction port of the extraction container by sequentially feeding out a band-shaped extraction filter wound on a roll, and further includes a filter portion used for beverage extraction. The beverage extractor according to claim 1, wherein the beverage is carried out to the collection area. The beverage extraction apparatus according to claim 1, further comprising an extraction residue collection container that is provided separately from the extraction region of the extraction filter and that receives the extraction residue scraped off by the scraper.

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