JP4013762B2 - Coffee extraction equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to a vending machine that provides a beverage such as coffee, a beverage dispenser, and the like, and relates to a coffee extraction device that can extract, for example, espresso coffee as well as general regular coffee.
[0002]
[Prior art]
Conventionally, for example, Patent Document 1 already disclosed by the present applicant as a coffee extraction device that can extract both regular coffee by drips and espresso coffee (hereinafter referred to as “regular coffee” and “espresso”, respectively). The raw material compression type extraction device and the raw material steaming type extraction device of Patent Document 2 are known.
[0003]
The raw material compression type coffee brewing apparatus has a cylinder that opens upward and extracts coffee inside, a piston that fits into the cylinder through the opening, and a predetermined amount of hot water from a hot water tank through a hot water supply pipe. And a hot water pump for feeding into the cylinder. The hot water supply pipe is connected to the bottom of the cylinder, and the coffee extraction pipe for conveying the extracted coffee to a mixing bowl or the like is connected to the piston.
[0004]
When extracting regular coffee with this brewing device, the raw material is charged into the cylinder through the opening, and then the piston is fitted into the cylinder through the opening. Then, a predetermined amount of hot water is supplied into the cylinder while being pressurized with a hot water pump in a state where the piston is in contact with the raw material, or in a state where the piston is slightly pushed in and the raw material is slightly compressed. Thereby, regular coffee having a medium concentration is extracted and conveyed to a mixing bowl or the like through the coffee extraction tube. On the other hand, when extracting espresso, the amount of compression of the raw material is increased by pushing the piston further into the cylinder than when extracting regular coffee. In this state, as in the case of regular coffee, a predetermined amount of hot water is pressurized and supplied into the cylinder. Thereby, a rich espresso is extracted.
[0005]
On the other hand, the steaming type coffee brewing apparatus has a cylinder that is opened upward and a filter block is engaged and disengaged at the lower end portion to extract coffee inside, a piston fitted to the cylinder through the opening, hot water and steam. And a hot water / steam generator for supplying air into the cylinder, and an air pump for supplying air into the cylinder. The piston is provided with a hot water nozzle and a steam nozzle connected to the hot water / steam generator through a tube or the like. In addition, an air nozzle connected to an air pump via a tube or the like is provided at each of the upper and lower portions of the cylinder.
[0006]
When extracting regular coffee with this brewing device, after putting the raw material into the cylinder through the opening, move the piston above the cylinder and supply a predetermined amount of hot water into the cylinder through the hot water nozzle To do. Next, air is supplied into the cylinder through the air nozzle on the lower side of the cylinder, and the raw material and hot water are stirred in the cylinder. Thereafter, the piston is fitted into the cylinder through the opening, and in that state, air is supplied into the cylinder through the upper air nozzle. Thereby, the regular coffee extracted in the cylinder passes through the filter block due to the internal pressure of the cylinder, and is further conveyed to a mixing bowl or the like via a tube or the like. On the other hand, when extracting espresso, the piston is fitted into the cylinder after the raw material is charged into the cylinder. Next, the raw material is steamed by spraying the raw material in the cylinder through the steam nozzle. Next, the raw material and hot water are stirred in the cylinder by supplying a predetermined amount of hot water into the cylinder via the hot water nozzle. Thereafter, air is supplied into the cylinder via the air nozzle on the upper side of the cylinder, as in the case of the extraction of regular coffee. Thereby, espresso is extracted and conveyed outside the cylinder.
[0007]
[Patent Document 1]
JP 2002-183827 A
[Patent Document 2]
Japanese Patent Laid-Open No. 11-120434
[0008]
[Problems to be solved by the invention]
With the two types of coffee extraction apparatuses described above, it is possible to extract high-quality coffee of the same degree for regular coffee. However, the quality of any espresso is not sufficient. Originally, in order to extract a full-fledged high-quality espresso, it is necessary to pass hot water under pressure in a short time to ground coffee beans. However, as described above, in the raw material compression type extraction apparatus, hot water is pressurized and supplied to the compressed raw material, but the hot water is pressurized by a hot water pump provided in the middle of the hot water supply pipe. Since it is carried out while sending out, sufficient pressure cannot be applied to hot water. On the other hand, in the steaming type extraction device, steam is blown on the raw material, and then the raw material and hot water are stirred in the same way as regular coffee extraction, so it is not possible to pass hot water through the raw material in a short time. A good quality espresso cannot be obtained. As described above, there is room for improvement in the two types of coffee extraction devices.
[0009]
The present invention has been made in order to solve the above-described problems, and an object of the present invention is to provide a coffee extraction apparatus that can extract full-fledged high-quality espresso in addition to regular coffee.
[0010]
[Means for Solving the Problems]
A coffee extraction device according to claim 1 of the present invention is a coffee extraction device that extracts coffee using coffee beans as a raw material, and contains a predetermined amount of supplied raw material, and an extraction unit for extracting coffee Storing the supplied predetermined amount of hot water, and communicating with the extraction unit, Air pressure determining means for determining different air pressures depending on the type of coffee to be extracted; At the time of extraction, in order to extract coffee from the raw material in the extraction unit, It has been determined And air supply means for supplying a predetermined amount of hot water in the hot water storage section to the extraction section by supplying air of air pressure to the hot water storage section.
[0011]
According to this configuration, each of the supplied predetermined amount of raw material and hot water is accommodated, and the extraction unit and the hot water storage unit communicating with each other correspond to the type of coffee to be extracted at the time of extraction. Air with the determined air pressure is supplied to the hot water container . As a result, a predetermined amount of hot water in the hot water storage unit is pumped to the extraction unit while being pressurized almost the same as the air pressure, thereby extracting coffee. In this case, for example, when the type of coffee to be extracted is regular coffee, the air pressure of the air to be supplied to the hot water container is set to a predetermined low pressure. Decision In addition, regular coffee can be extracted in the same manner as the drip method by sending the warm water in the warm water storage unit relatively slowly to the extraction unit. On the other hand, when the type of coffee to be extracted is espresso, the air pressure is set to a predetermined high pressure. Decision And by sending the warm water in the warm water storage part to the extraction part, the espresso can be extracted by the same technique as the full-scale espresso in which the pressurized warm water passes through the raw material in a short time. Therefore, according to the coffee extraction device having the above configuration, in addition to regular coffee, it is possible to extract full-fledged high-quality espresso.
[0012]
According to a second aspect of the present invention, in the coffee brewing apparatus according to the first aspect, the air supply means is configured to control the air pressure of the air based on the supply time of the air to the hot water storage unit. It is characterized by being.
[0013]
According to this configuration, by adjusting the air supply time according to the type of coffee to be extracted, air with an air pressure suitable for the type of coffee can be easily and reliably supplied to the hot water storage unit. Can do.
[0014]
According to a third aspect of the present invention, in the coffee extraction device according to the first or second aspect, the raw material compression amount determining means for determining the compression amount of the raw material according to the type of coffee to be extracted, and the air supply means The apparatus further includes a raw material compressing means for compressing the raw material in the extraction unit according to the determined compression amount before supplying air to the hot water storage unit.
[0015]
According to this configuration, before supplying air to the hot water storage unit by the air supply unit, the raw material compression unit compresses the raw material in the extraction unit according to the compression amount determined according to the type of coffee to be extracted. To do. In this case, for example, when the type of coffee to be extracted is espresso, the umami component of the raw material is sufficient for the hot water by increasing the compression amount of the raw material to which hot water pressurized to a high pressure should be passed in a short time. It is possible to extract a higher quality espresso. On the other hand, when the type of coffee to be extracted is regular coffee, the amount of compression with respect to the raw material to be passed slowly through hot water pressurized to a low pressure is zero, that is, by not compressing, the regular type is the same as the drip type. Coffee can be extracted.
[0016]
According to a fourth aspect of the present invention, in the coffee extraction device according to any one of the first to third aspects, the extraction unit has a raw material charging unit opened upward, and a predetermined amount of the raw material is extracted through the raw material charging unit during extraction. The hot water storage section has a hot water discharge section that opens downward, and the hot water discharge section engages with the raw material input section from above to communicate with the extraction section main body. Between the position and the standby position above the communication position, and is provided in a storage unit main body to which a predetermined amount of hot water and air is supplied, and a hot water discharge unit. A hot water filter through which hot water permeates when the pressure is higher than a predetermined water pressure that is less than the water pressure that is pressurized with air, and after extraction, a predetermined amount of hot water is supplied to the housing body during extraction, and then the housing body is placed in the communication position. Storage unit driving means for driving The features.
[0017]
According to this configuration, at the time of extraction, a predetermined amount of raw material is input to the extraction unit main body through the raw material input unit, and a predetermined amount of hot water is supplied to the storage unit main body. The housing body is driven to the communication position. As a result, the hot water discharge section of the storage section main body engages with the raw material charging section of the extraction section main body from above, whereby the storage section main body communicates with the extraction section main body. Therefore, the raw material input part of the extraction part main body can be used also as the supply part of hot water pumped from the accommodating part main body and the raw material input part. In addition, the hot water filter provided in the hot water discharge part of the housing part main body has a predetermined water pressure (hereinafter referred to as “permeate water pressure”) that is equal to or higher than a water pressure in which the hot water in the housing part main body is pressurized with air. Since the warm water is configured to permeate, it is possible to reliably hold the hot water in the housing portion main body inside by holding the internal pressure of the housing portion main body below the permeated water pressure. On the other hand, by supplying air to the storage unit main body and setting the internal pressure of the storage unit main body to be equal to or higher than the permeated water pressure, the hot water in the storage unit main body is transmitted through the hot water filter and reliably pumped to the extraction unit main body. Can do.
[0018]
Further, as the warm water filter, for example, in a state where a predetermined amount of warm water is simply supplied to the housing main body, the warm water is configured so that the warm water passes through the warm water filter and drops of warm water begin to fall. A small amount of hot water that has passed through the hot water filter can be supplied to the extraction unit main body through the raw material charging unit until the storage unit main body reaches the communication position. In this way, the raw material in the extraction unit body is steamed by supplying a small amount of warm water to the extraction unit body before supplying air to the storage unit body, that is, before starting substantial coffee extraction. Can do. Thereby, it is possible to extract even better coffee.
[0019]
According to a fifth aspect of the present invention, in the coffee extraction device according to the fourth aspect, the air supply means includes an air pump, is connected to the extraction unit main body, and conveys the coffee extracted in the extraction unit main body to the outside. And a valve provided in the middle of the coffee transport tube and closed when air is supplied to the housing body by the air pump and opened when transporting the extracted coffee. It is further provided with the feature.
[0020]
According to this configuration, when the air is supplied to the housing main body by the air pump as the air supply means, the valve is closed to make the inside of the extraction body and the housing main body communicated with each other airtight. The internal pressure of the main body can be increased, and hot water in the housing main body can be easily and reliably pumped to the extraction main body to extract coffee. Further, after the extraction, the extracted coffee can be transported to the outside through the coffee transport tube by the internal pressure of the extraction unit body and the storage unit body simply by opening the valve. Furthermore, by adjusting the operating time of the air pump, it is possible to easily adjust the air pressure of the air supplied to the housing main body.
[0021]
The invention according to claim 6 of the present invention is the coffee brewing apparatus according to claim 4 or 5, characterized in that the storage unit body is provided with a heater for heating the hot water supplied to the storage unit body. .
[0022]
According to this configuration, the temperature of the warm water immediately before extraction can be further increased by heating the warm water supplied to the housing main body with a heater, and the quality can be further improved by performing the extraction with the high temperature warm water. You can get coffee.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a coffee brewing apparatus according to an embodiment of the present invention. The coffee extraction device 1 is applied to a cup type vending machine, a beverage dispenser, and the like, and is a so-called hybrid type that can extract both regular coffee and espresso using coffee beans as a raw material.
[0024]
As shown in the figure, the coffee extraction device 1 contains the raw material supplied at the time of extraction, the extraction unit 2 for extracting coffee, and the hot water supplied at the time of extraction, and extracts the hot water A hot water storage section 3 for pumping to the section 2, an air pump 4 (air supply means) for supplying air to the hot water storage section 3, and a coffee transport tube T1 for transporting the coffee extracted by the extraction section 2 to the outside. A control device (not shown) having a shut-off valve 5 (valve) provided in the middle and a microcomputer for controlling various devices of the coffee brewing apparatus 1 including them. Air pressure determining means, Raw material compression amount determining means). The extraction unit 2 and the hot water storage unit 3 are attached to a predetermined frame 6.
[0025]
The extraction unit 2 includes a cylindrical cylinder 11 (extraction unit main body) extending in the vertical direction, a piston 12 (raw material compression means) slidable in the vertical direction within the cylinder 11, and a piston rod 13 integrated with the piston 12. The piston drive mechanism 14 that slides the piston 12 and the extraction unit drive mechanism 15 that slides the whole in the left-right direction are provided.
[0026]
The upper end portion of the cylinder 11 is provided with a raw material charging portion 11a that opens upward, and the piston rod 13 and the coffee transport tube T1 pass through the closed bottom portion of the cylinder 11, respectively. A heater 11b is provided on the side wall of the cylinder 11 to prevent a decrease in the temperature of the coffee during extraction.
[0027]
The piston 12 has an outer diameter that is substantially the same as the inner diameter of the cylinder 11, has a predetermined thickness, and is formed in a cylindrical shape. More specifically, the piston 12 has an open top surface, a funnel-shaped extraction flow path 20a inside, and a piston body 20 having a piston rod 13 connected to the center of the bottom surface, and the piston body 20 And is made up of a metal extraction filter 21 for separating the extracted coffee and the extracted mash, which is the raw material after extraction, at the time of extraction. The extraction filter 21 has a circular planar shape, and has a large number of pores (for example, a diameter of 0.3 mm, 400). The piston body 20 The tip of the coffee transport tube T1 is connected to the lower end (downstream end) of the extraction flow path 20a.
[0028]
The piston drive mechanism 14 includes a piston drive motor 22 and an elevating mechanism (not shown) that transmits the power to the piston rod 13 and moves the piston 12 up and down. Also, in the vicinity of the piston rod 13, piston lifting sensors 24, 24 are arranged at predetermined intervals in the vertical direction. The piston 12 that moves up and down by the upper and lower piston lifting sensors 24 and 24 has reached the upper limit position (position shown in FIG. 4A) and the lower limit position (position shown in FIG. 4C), respectively. It has come to be detected.
[0029]
The extraction unit drive mechanism 15 includes an extraction unit support member 25 that supports the cylinder 11, the piston rod 13, the piston drive mechanism 14, the piston lift sensors 24, 24, and the like, and a roller (not shown) attached to the extraction unit support member 25. The extraction unit is supported by the two upper and lower guide rails 26, 26 that are engaged with the support member 25 and guide the extraction unit support member 25 in the left-right direction, the extraction unit slide motor 27, and the power of the motor 27. A slide mechanism 28 for sliding the member 25 in the left-right direction is provided. The cylinder 11 supported by the extraction unit support member 25 by the extraction unit drive mechanism 15 performs extraction with a raw material input position (a position shown in FIG. 1, FIG. 2A, etc.) at which the raw material is input during extraction. It can move in the left-right direction between the extraction positions (positions shown in FIG. 2B and the like). In the lower part of the frame 6, extraction unit slide sensors 29, 29 that are spaced apart from each other in the left-right direction are arranged. The left and right extraction unit slide sensors 29, 29 respectively provide cylinder 11. Is detected to have reached the extraction position and the raw material charging position.
[0030]
The hot water storage unit 3 includes a pressurized tank 31 (storage unit main body) for pumping hot water to the cylinder 11 and a tank drive mechanism 32 that drives the pressurized tank 31 up and down. The pressurized tank 31 has a shape that extends in the up-down direction, has a circular cross section, and has an inverted bowl. A hot water inlet 31a and an air inlet 31b for supplying a predetermined amount of hot water and air to the inside at the time of extraction are provided above the pressurized tank 31, respectively. A hot water transfer tube T2 is connected to the hot water inlet 31a, and one cup of hot water is stored from the hot water tank 7 in which a large amount of hot water of a predetermined temperature (eg, 94 ° C.) is stored via the hot water transfer tube T2. A predetermined amount (for example, 150 ml) of hot water necessary for the extraction of coffee is supplied to the pressurized tank 31. On the other hand, an air conveyance tube T3 is connected to the air introduction port 31b, and air is supplied from the air pump 4 to the pressurized tank 31 via the air conveyance tube T3.
[0031]
A hot water discharge part 31 c that opens downward is formed at the lower end of the pressurized tank 31. The hot water discharge part 31c is slightly smaller than the raw material charging part 11a of the cylinder 11, and is configured to be able to engage with the raw material charging part 11a in an airtight manner. In addition, a hot water filter 33 through which the hot water permeates when the hot water in the pressurized tank 31 is equal to or higher than a predetermined permeated water pressure (for example, 1 atm) is attached to the hot water discharge unit 31c.
[0032]
The hot water filter 33 includes a mesh filter 33a having a predetermined mesh (for example, 250 mesh) and a metal porous filter 33b having a large number of pores (diameter: 0.3 mm, 400 pieces), which are overlapped. In this state, it is attached to the hot water discharge part 31c.
[0033]
Furthermore, in the pressurized tank 31, by always being located on the warm water discharge part 31c side, the warm water discharge part 31c is closed so that the warm water in the pressurized tank 31 does not leak from the warm water discharge part 31c at all, As will be described later, a plug member 34 that opens the hot water discharge portion 31c and closes the hot water inlet 31a as the pressurized tank 31 descends is provided. The plug member 34 includes a plug body 34 a having a predetermined shape and a plug support 34 b that extends upward from the upper end of the plug body 34 a and penetrates the ceiling of the pressurized tank 31. Note that the upper end portion of the stopper support portion 34b is fixed to a support member (not shown) provided above the pressurized tank 31, and therefore, relative to the pressurized tank 31 as the pressurized tank 31 moves up and down. Move up and down.
[0034]
Furthermore, a heater 35 for heating the hot water is provided below the side wall of the pressurized tank 31. The heater 35 is always energized, and the hot water supplied into the pressurized tank 31 at the time of extraction is immediately heated to a higher temperature.
[0035]
The tank drive mechanism 32 transmits a tank lift motor 36, a tank support member 37 that supports the pressure tank 31, and the power of the tank lift motor 36 to the tank support member 37 to raise and lower the pressure tank 31 ( (Not shown). In the vicinity of the upper end portion of the tank support member 37, tank lift sensors 38, 38 that are spaced apart from each other in the vertical direction are disposed. The pressurized tank 31 that moves up and down by the upper and lower tank lift sensors 38 and 38 is in a standby position (position shown in FIG. 1, FIG. 2A, etc.) and a communication position ( It is detected that the vehicle has reached the position shown in FIG.
[0036]
The air pump 4 has a predetermined amount (for example, 300 cm) per unit time in the pressurized tank 31 via the air transfer tube T3. ^Three / Sec) of air. Moreover, as mentioned above, the stop valve 5 which opens and closes the tube T1 is provided in the middle of the coffee transport tube T1. As will be described later, the cylinder 11 and the pressurized tank 31 communicate with each other in an airtight state, and the air pump 4 is operated with the shut-off valve 5 closed, whereby a predetermined air pressure is applied to the pressurized tank 31. Air can be supplied to increase the internal pressure of the pressurized tank 31. Therefore, by controlling the operation time of the air pump 4 with the control device (not shown) in a state where the shut-off valve 5 is closed, the pressure in the pressurized tank 31 is set within a predetermined range (for example, 0.2 to 0.8 MPa). Can be set within. In the middle of the air transfer tube T3, an air vent valve 41 for venting pressurized air in the pressurized tank 31 after extraction is provided.
[0037]
Further, a raw material chute 42 is provided above the extraction portion 2 of the frame 6 so as to extend in the vertical direction and to supply the raw material to the cylinder 11 during extraction. From above, the ground chute 42 is supplied with ground coffee beans stored in a raw material canister (not shown) or ground coffee beans ground with a mill (not shown) during extraction. The cylinder 11 is charged. Further, when espresso is selected by a coffee purchaser or the like, coffee beans for espresso, for example, coffee beans deeply roasted, are put into the cylinder 11. On the other hand, when regular coffee is selected, coffee beans for regular coffee, for example, lightly roasted coffee beans, are roughly put into the cylinder 11.
[0038]
Further, a scraper 43 is provided near the lower end portion of the raw material chute 42 for discharging the extracted soot in the cylinder 11 after extraction. The scraper 43 is disposed such that its lower end is positioned at a height at which the scraper 43 can come into contact with the extraction filter 21 of the piston 12 raised to the upper limit position.
[0039]
Next, the coffee extraction operation by the coffee extraction device 1 will be described with reference to FIGS. As a precondition before the start of the extraction operation, in the coffee extraction device 1 in the standby state, the cylinder 11 of the extraction unit 2 is located at the raw material charging position, and the piston 12 is located at the lower limit position. On the other hand, the pressurized tank 31 of the hot water storage unit 3 is located at the standby position, whereby the hot water discharge unit 31c is closed by the plug body 34a. In the following description, the espresso extraction operation will be described, and the regular coffee extraction operation will be described as appropriate only for the operation portion different from the espresso.
[0040]
First, as shown in FIG. 2A, a predetermined amount (for example, 9 g) of the raw material G is introduced into the cylinder 11 at the raw material charging position via the raw material chute 42, and at the pressurized tank 31 at the standby position, A predetermined amount (for example, 80 ml) of hot water W is supplied from the hot water tank 7 through the hot water transfer tube T2. In this case, the hot water W supplied to the pressurized tank 31 is heated to a predetermined temperature (for example, 100 ° C.) by the heater 35.
[0041]
Next, as shown in FIG. 2B, after the extraction unit 2 is driven to the left extraction position by the extraction unit drive mechanism 15, the pressurized tank 31 at the standby position is moved downward by the tank drive mechanism 32. It descends toward the cylinder 11. In this case, the stopper member 34 rises relative to the pressurized tank 31 as the pressurized tank 31 descends. Thereby, the hot water discharge part 31c of the pressurization tank 31 closed with the stopper member 34 is open | released. And while this pressurization tank 31 descends, the warm water W inside falls a little in the cylinder 11 via the warm water filter 33, and the raw material in the cylinder 11 is steamed by this.
[0042]
When the pressurization tank 31 descends as described above and reaches the communication position shown in FIG. 2 (c), the hot water discharge part 31c of the pressurization tank 31 is fitted into the raw material charging part 11a of the cylinder 11, thereby The pressurized tank 31 communicates with the cylinder 11. In this case, the plug body 34 a of the plug member 34 is in close contact with the ceiling surface in the pressurized tank 31, thereby closing the hot water inlet 31 a.
[0043]
From this state, as shown in FIG. 3A, the piston drive mechanism 14 raises the piston 12 by a predetermined height (for example, 20 mm). As a result, the raw material G is sandwiched from above and below between the hot water filter 33 of the pressurized tank 31 and the extraction filter 21 of the piston 12 and compressed. Thus, by compressing the raw material G, it is possible to extract a high-quality espresso in which the umami component of the raw material is sufficiently dissolved. In addition, when extracting regular coffee, the raw material G is not compressed by the piston 12, and the raw material G is kept as it was when it was put into the cylinder 11.
[0044]
In addition, in the case of extracting regular coffee as well as the extraction of espresso, the rising height by the piston 12 is changed according to the type of coffee to be extracted and the amount of raw material charged into the cylinder 11. It is preferable to compress the raw material G with an appropriate compression amount.
[0045]
Next, after the raw material G is compressed, as shown in FIG. 3A, the air pump 4 is operated for a predetermined time (for example, 10 seconds) in a state in which the closing valve 5 and the air vent valve 41 are closed. Thereby, the inside of the pressurization tank 31 is pressurized by predetermined | prescribed high voltage | pressure (for example, 0.7-0.8 Mpa) with the air sent in the pressurization tank 31 via the air conveyance tube T3 from the air pump 4. FIG. And by this pressurization, the hot water W in the pressurization tank 31 permeate | transmits the hot water filter 33, is pumped in the cylinder 11, and passes the raw material G and the extraction filter 21 in order and in a short time. Thereby, espresso is extracted, and this extracted espresso is temporarily stored in the extraction flow path 20a in the piston 12 and the coffee transport tube T1 between the piston 12 and the stop valve 5. In addition, when extracting regular coffee, the inside of the pressurization tank 31 is made into predetermined | prescribed low pressure (for example, 0.1-0.2 MPa) by making the operation time of the air pump 4 shorter than the case where espresso is extracted. Pressurized. As a result, the hot water W in the pressurized tank 31 passes through the hot water filter 33 and passes through the raw material G and the extraction filter 21 sequentially and relatively slowly.
[0046]
Thereafter, as shown in FIG. 3B, the closing valve 5 is opened, and the extracted coffee is conveyed to a mixing bowl (not shown) or the like via the coffee conveyance tube T1. Thereafter, as shown in FIG. 3C, the air vent valve 41 is opened, and the high-pressure air in the pressurized tank 31 and the cylinder 11 is vented. In addition, the coffee conveyed to the mixing bowl is stirred together with sugar, cream, etc., and then poured into a cup and provided to the purchaser.
[0047]
After completion of the coffee extraction, as shown in FIG. 4A, the tank drive mechanism 32 raises the pressurized tank 31 at the communication position to the standby position, and the piston drive mechanism 14 causes the piston 12 to move to the upper limit position. To rise. Thereby, the extraction rod G in the cylinder 11 is pushed up onto the cylinder 11. Then, from this state, as shown in FIG. 5C, the extraction unit driving mechanism 15 drives the extraction unit 2 at the extraction position to the right raw material charging position to prepare for the next coffee extraction. Further, during the movement from the extraction position of the extraction unit 2 to the raw material charging position, the extraction rod G on the cylinder 11 is paid out from the cylinder 11 by contacting the scraper 43 as shown in FIG. Then, it is collected in a straw bucket (not shown).
[0048]
As described above in detail, according to the coffee extraction device 1 of the present embodiment, an appropriate air pressure and raw material compression amount depending on whether the type of coffee to be extracted is regular coffee or espresso. In addition to high-quality regular coffee, authentic high-quality espresso can be obtained. Moreover, since the raw material G is steamed before the supply of air to the pressurized tank 31, that is, before the start of the substantial coffee extraction, an even better coffee can be obtained. Furthermore, by adjusting the operating time of the air pump 4, the air pressure of the air supplied to the pressurized tank 31 can be easily adjusted.
[0049]
In addition, this invention can be implemented in various aspects, without being limited to the said embodiment described. For example, in the embodiment, the cylinder 11 is configured to slide in the left-right direction, while the pressurized tank 31 is configured to move up and down. However, the raw material charging unit 11 a of the cylinder 11 and the hot water discharge unit 31 c of the pressurized tank 31 are configured. However, as long as the cylinder 11 and the pressurized tank 31 are configured to engage with each other at the time of extraction and communicate with each other, their movable directions are not limited at all. Alternatively, air may be supplied to the pressurized tank 31 after a predetermined time has elapsed after the cylinder 11 and the pressurized tank 31 communicate with each other. In this case, the steaming time of the raw material G can be adjusted by appropriately setting the predetermined time. Furthermore, although embodiment demonstrated the case where hot water was extracted using warm water, it can replace with warm water and can extract ice coffee using cold water.
[0050]
In addition, the detailed configuration of the coffee extraction device 1 shown in the embodiment is merely an example, and can be appropriately changed within the scope of the gist of the present invention.
[0051]
【The invention's effect】
As described above in detail, the coffee extraction device of the present invention has an effect that, in addition to regular coffee, it is possible to extract full-fledged high-quality espresso.
[Brief description of the drawings]
FIG. 1 is a front view showing a coffee brewing apparatus according to an embodiment of the present invention.
FIG. 2 is a diagram sequentially illustrating extraction operations by a coffee extraction device.
FIG. 3 is a diagram sequentially illustrating extraction operations subsequent to FIG. 2;
4 is a diagram illustrating an extraction operation subsequent to FIG. 3. FIG.
[Explanation of symbols]
1 Coffee extraction device
2 Extraction unit
3 Warm water storage
4 Air pump (air supply means)
5 Shut-off valve
11 Cylinder (extraction unit body)
11a Raw material input part
12 Piston (raw material compression means)
14 Piston drive mechanism
15 Extractor drive mechanism
31 Pressurized tank (main part of housing)
31c Hot water discharge unit
32 Tank drive mechanism (container drive means)
33 Hot water filter
33a Mesh filter
33b Porous filter
34 Plug member
35 Heater
T1 coffee transport tube
G Raw material
W warm water

Claims (6)

A coffee extraction device for extracting coffee from coffee beans,
While containing the supplied predetermined amount of raw material, an extraction unit for extracting coffee,
While containing the supplied predetermined amount of hot water, the hot water storage unit communicating with the extraction unit;
Air pressure determining means for determining different air pressures depending on the type of coffee to be extracted;
During extraction, to extract the coffee from the material in the extractor, the air of the determined air pressure, the by supplying the hot water receiving portion, wherein the predetermined amount the hot water extraction portion in the hot water containing portion Air supply means for pumping to
A coffee extraction apparatus comprising:   The said air supply means is comprised so that the air pressure of the said air may be controlled based on the supply time of the air to the said warm water accommodating part, The coffee extraction apparatus of Claim 1 characterized by the above-mentioned. According to the type of coffee to be extracted, raw material compression amount determining means for determining the compression amount of the raw material,
Raw material compression means for compressing the raw material in the extraction unit according to the determined compression amount before supplying air to the hot water storage unit by the air supply unit;
The coffee extraction device according to claim 1, further comprising: The extraction unit includes:
It has a raw material charging part opened upward, and has an extraction part main body into which the predetermined amount of raw material is charged through the raw material charging part during extraction,
The warm water container is
There is a hot water discharge portion that opens downward, and the hot water discharge portion engages with the raw material charging portion from above, whereby a communication position that communicates with the extraction unit main body and a standby position that is above the communication position. A container main body configured to be movable between, and supplied with the predetermined amount of hot water and the air;
A hot water filter that is provided in the hot water discharge section and through which the hot water permeates when the hot water in the housing main body is equal to or higher than a predetermined water pressure smaller than a water pressure pressurized by the air;
A container drive means for driving the container body to the communication position after the predetermined amount of hot water is supplied to the container body during extraction;
The coffee extraction device according to claim 1, wherein the coffee extraction device is provided. The air supply means has an air pump,
A coffee transport tube connected to the extractor body for transporting the coffee extracted in the extractor body to the outside;
A valve that is provided in the middle of the coffee transport tube, is closed when air is supplied to the housing main body by the air pump, and is opened when transporting the extracted coffee,
The coffee extraction device according to claim 4, further comprising:   The coffee brewing apparatus according to claim 4 or 5, wherein a heater for heating the hot water supplied to the housing unit body is provided in the housing unit body.

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