JP2000279150A - Roasting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable to evenly heat whole coffee beans in a roasting process and improve finishing of roasting in a roasting device. SOLUTION: In a roasting device 2, hot air is blown into the area where coffee beans are absent to indirectly heat the coffee beans by increasing temperatures of a rotating roasting vessel 21 itself and surrounding temperature in the roasting vessel. Thus, the coffee beans in the roasting vessel 21 can be wholly and evenly heated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roasting apparatus for roasting raw or semi-green coffee beans with hot air.

[0002]

2. Description of the Related Art As a conventional roasting apparatus, for example, coffee beans are put in a roasting container rotatably supported in a posture inclined with respect to a horizontal line, and the roasting container is rotated in one direction while rotating the roasting container in one direction. There is a type in which coffee beans are roasted by supplying hot air from a mesh provided on one axial end surface of a roasting container.

In order to prevent the motor disposed on the other shaft end side of the roasting container from being heated by the above-mentioned hot air, and to shorten the roasting time of coffee beans, for example, Japanese Patent No. 2799874. As shown in the official gazette,
The roasting container is set so that it is inserted obliquely downward in the roasting container from one axial end side and is sprayed in a concentrated manner in the roasting container in a region where coffee beans gather.

[0004]

In the above prior art, the hot air is intensively blown to the area where the coffee beans are gathered in the roasting container. However, the hot air is directly and uniformly applied to all the coffee beans. Because it cannot be
There is a concern that heating unevenness is likely to occur, so that some coffee beans are overheated and other coffee beans are underheated. If coffee liquid is extracted using roasted coffee beans in such a situation, there is a possibility that some of the coffee beans that have been overheated may have a bitter taste.

[0005] In view of such circumstances, an object of the present invention is to make it possible to uniformly heat the whole coffee beans in a roasting process in a roasting apparatus, thereby improving the roasting finish.

[0006]

According to a first aspect of the present invention, there is provided a roasting apparatus comprising: rotating a cylindrical roasting container containing raw or semi-fresh coffee beans in a posture inclined with respect to a horizontal line; The roasting container roasts coffee beans by putting hot air into the roasting container. In the roasting container in the inclined position, hot air is put into the roasting container from the end face on the upslope side, and the coffee beans are rotated in the roasting container. Is sprayed on the inner surface except for a region which is gathered to be shifted to the downstream side in the rotation direction.

According to a second aspect of the present invention, there is provided a roasting apparatus comprising: a cylindrical roasting container in which fresh or semi-fresh coffee beans are placed; and a driving element for rotating the roasting container in a posture inclined with respect to a horizontal line. Having a hot air generating element for putting hot air into the roasting container, wherein the hot air generating element inserts hot air from the end surface on the ascending side in the roasting container in an inclined posture, and rotates in the roasting container. This is to spray the coffee beans on the inner surface except for the area where the coffee beans are gathered to be shifted to the downstream side in the rotation direction.

According to a third aspect of the present invention, in the roasting apparatus according to the first or second aspect, the roasting container is provided with a fixed blade for stirring the coffee beans as it rotates.

According to a fourth aspect of the present invention, in the roasting apparatus according to the third aspect, the blade is provided with a slit for passing hot air supplied into the roasting container.

According to a fifth aspect of the present invention, in the roasting apparatus according to the third or fourth aspect, the blade is provided with a projection for peeling off the epidermis of the coffee beans.

According to a sixth aspect of the present invention, in the roasting apparatus according to the second aspect, the roasting container is detachably mounted along the end face of the roasting container on the hot air introduction side and introduces coffee beans into the roasting container. Feeding member having a passage for the bean.

According to a seventh aspect of the present invention, in the roasting apparatus, the bean input member of the sixth aspect is displaced into a closed state in which the passage of the coffee beans is blocked on the outlet side of the passage and an open state in which the beans are allowed to pass. A valve body is provided, and in the closed state, the volume in the passage is set to a size that regulates the storage amount of coffee beans.

According to an eighth aspect of the present invention, in the roasting apparatus according to the sixth or seventh aspect, the bean charging member according to the sixth or seventh aspect is formed of a mesh material that allows hot air to pass therethrough to prevent coffee beans from leaking. .

As described above, in the present invention, in short, in consideration of the behavior of the coffee beans in the roasting container during rotation, hot air is blown to an area where no coffee beans exist.
The temperature of the roasting container itself and the ambient temperature in the roasting container are increased to indirectly heat the coffee beans.

Further, if the roasting container is provided with a blade for stirring the coffee beans as in the invention of claim 3, the coffee beans can be dispersed over a wide range of the roasting container.
This is advantageous in uniformly heating each of the coffee beans.

Also, as in the invention of claim 4, claim 3
If a plurality of slits that allow the passage of hot air are provided in the blades, the hot air can easily reach the inside of the roasting container smoothly, which is advantageous in efficiently raising the temperature of the roasting container itself and the ambient temperature. .

[0017] Further, if the projections for peeling the epidermis of the coffee beans are provided on the blades as in the invention of claim 5,
It is possible to avoid the remaining of the epidermis as in the case where the epidermis of the coffee beans is spontaneously exfoliated.

[0018] Further, by using the bean charging member according to the invention of claim 6, the user does not need to remove the roasting container which has become hot after the roasting process is completed. This is advantageous.

Further, by using a bean charging member having a function like a measuring cup as in the invention of claim 7, it becomes easy to put coffee beans into the roasting container.

Further, when the beans input member is formed of a mesh material as in the invention of claim 8, it is possible to perform the roasting process while the beans input member is attached to the roasting container in a state where it is attached to the roasting container. Become.

[0021]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The details of the present invention will be described based on embodiments shown in the drawings.

FIGS. 1 to 9 show an embodiment of the present invention. FIG. 1 is a block diagram showing a schematic configuration of a coffee maker, FIG. 2 is a front view showing an appearance of the coffee maker, FIG. 3 is a front view in which a main part of the coffee maker is sectioned, and FIG. (4)-(4) arrow cross-sectional view, FIG. 5 is a top view of the roasting unit, FIG. 6 is a side view of the roasting container in section, and FIG. 7 is an exploded state of the roasting container. 8 is a cross-sectional view taken along line (8)-(8) of FIG. 6, and FIG.
It is a timing chart which shows a coffee generation sequence.

In FIG. 1, reference numeral 1 denotes an entire coffee maker. The coffee maker 1 shown in the figure has a roasting unit 2 for roasting raw or semi-green coffee beans, a crushing unit 3 for crushing the roasted coffee beans into coffee powder, and a coffee powder obtained by crushing. It has an extracting unit 4 for pouring hot water to extract a coffee liquid, and a control unit 5 for controlling the operation of each unit. The coffee liquid extracted by the extraction unit 4 is stored in the glass container 6 and is kept warm by a heater 44 provided in the extraction unit 4.

The roasting section 2 includes a roasting container 21 for accommodating coffee beans, a driving unit 22 for rotating and driving the roasting container 21, and a blower 23 for supplying hot air or non-heated air into the roasting container 21. The roasting container 21 is rotated in one direction by the drive unit 22 in a posture inclined at a required angle with respect to the horizontal line, while the blower 23 is
Roasting container 2 by sending hot air generated by
1 roasts the coffee beans. The drive unit 22 includes a motor 22a and a speed reduction mechanism 22b. The blower 23 includes a heater 23a and a fan 23b. Other details will be described later.

The crushing unit 3 includes a cup 31 having a passage for receiving the coffee beans roasted in the roasting unit 2, a cover 32 for closing an upper opening of the cup 31, and roasting supplied into the cup 31. The rotary cutter 33 includes a rotary cutter 33 that crushes used coffee beans and a motor 34 that drives the rotary cutter 33.

The extraction unit 4 includes a filter basket 41 for receiving the coffee powder obtained by pulverization in the pulverization unit 3;
A water storage tank 42 for storing water, a heat exchange pipe 43 for taking out a required amount of water from the water storage tank 42 and supplying it as hot water to the filter basket 41;
And a heater 44 for heating the heater. A check valve 45 is provided at a connection portion between the water storage tank 42 and the heat exchange pipe 43 to prevent backflow of hot water.

The control unit 5 comprises a microcomputer, and continuously executes roasting, crushing, and extracting processes in accordance with a timing chart shown in FIG.

Here, each part of the roasting section 2 will be described in detail.

The drive unit 22 and the blower 23 are disposed so as to face each other, and the roasting container 21 is interposed therebetween at a posture inclined at a required angle with respect to the horizontal line. One end of the roasting container 21 is removably attached to the spindle shaft 22c of the speed reduction mechanism 22b of the drive unit 22 in a cantilever manner, and the other end of the roasting container 21 is attached to the blower case 24. On the other hand, they are arranged facing each other with a required gap h. An opening / closing cover 25 that covers the space above the gap h is attached to the blower case 24.
Is attached. The temperature sensor 7 is attached to the wall surface of the blower case 24 facing the roasting container 21.

The roasting container 21 is provided with a ventilation cover 21b at one opening of a cylindrical case 21a made of transparent heat-resistant glass.
However, the bottom cover 21 is provided at the other opening of the case 21a.
c and the shutter 21d are attached to each other.

The bottom cover 21c is configured such that a cylindrical flange portion 21f integrally formed on the outer periphery of a disk-shaped cover body 21e is detachably fitted to and fixed to the case 21a. Note that the cylindrical flange portion 21f does not have the entire inner peripheral surface thereof in close contact with the outer peripheral surface of the case 21a.
Only 1 g is partially brought into close contact. This makes it possible to absorb a change in interference between a fitting portion between the case 21a and the bottom cover 21c having different thermal expansion coefficients due to a change in the atmospheric temperature in the roasting container 21,
The case 21a can be prevented from being damaged by any chance. In addition, fan-shaped through holes 21h for discharging roasted coffee beans to the pulverizing section 3 are provided at two places 180 degrees opposite to each other on the cover body 21e, and the through holes 21h are provided.
Are attached to each other. The blades 21i move the coffee beans to the center side of the roasting container 21 while stirring them while rotating during roasting, and move the coffee beans to the roasting container 21 with rotation in the direction opposite to the rotating direction during roasting. It is attached so as to be inclined toward the through hole 21h. Further, the two blades 21i are provided with two slits 21j substantially parallel to the rotation center axis of the roasting container 21 in the width direction. This slit 21j is
This is to allow hot air to pass through.

The shutter 21d is rotatably attached to the bottom cover 21c by a required angle, and opens and closes the through hole 21h of the bottom cover 21c by the rotation. To attach the shutter 21d to the bottom cover 21c, a bolt 9, a cap nut 1
0, a non-rotating nut 11, a toothed washer 12, a lock washer 13, and a conical coil spring 14 are used. The spindle shaft 22c of the drive unit 22 is fitted into the octagonal recess of the bolt 9, and the bolt 9 and the roasting container 21 rotate integrally with the spindle shaft 22c. The fan-shaped notch 13a of the lock washer 13 enables the shutter 21d to rotate by a required angle with respect to the bottom cover 21c.

In the roasting container 21 having such a configuration, when the roasting container 21 is rotated in one direction, the shutter 21 d is moved to the bottom cover 21.
When the shutter 21d is rotated in the opposite direction, the shutter 21d opens the through hole 21h of the bottom cover 21c. That is, when performing the roasting process, by rotating the roasting container 21 in the forward direction, the shutter 21d allows the through hole 21h of the bottom cover 21c to rotate.
Is closed, and when roasting is completed, the shutter 21d is closed.
To open the through hole 21h of the bottom cover 21c so that the roasted coffee beans can be discharged to the crushing unit 4 side.

Next, the operation of the coffee maker 1 having the above configuration will be described.

First, if the user puts a necessary amount of coffee beans in the roasting container 21 and turns on the start switch, the control unit 5 continuously performs the roasting process, the pulverizing process, and the extracting process. Execute.

First, in the roasting process, hot air is introduced into the roasting container 21 by the blower 23 while the roasting container 21 is rotated in one direction by the drive unit 22 at a required number of revolutions. The temperature of the roasting process is controlled so that it ends when the atmospheric temperature in the roasting container 21 in the roasting process reaches a required temperature. Note that the temperature of the atmosphere in the roasting container 21 is detected by the temperature sensor 7. In the roasting process, the coffee beans in the roasting container 21 are converted to the blades 21i.
As a result, the roasting container 21 is moved toward the center in the axial direction, and is lifted to the downstream side in the rotational direction by the frictional resistance of the inner peripheral surface of the case 21a to be stirred, thereby preventing the coffee beans from being densely packed. become.

In this roasting process, the hot air generated from the blower 23 is introduced from the lower half area of the ventilation cover 21b of the roasting container 21, is turned by the bottom cover 21c, and is turned into the upper half of the ventilation cover 21b. And the air is exhausted to the outside through the ventilation holes of the opening / closing cover 25. The hot air described above is managed so as to be blown toward an area where no coffee beans exist in the case 21a of the roasting container 21. The reason why the hot air is not directly applied to the coffee beans is to eliminate uneven heating of the coffee beans. Then, in the roasting process, the coffee beans are put on the blades 2 of the bottom cover 21c.
1i, the skin is peeled off from the coffee beans with stirring, and the skin is collected in a chaff box 27 provided in a gap h between the blower case 24 and the roasting container 21 by an exhaust stream of hot air. Has become.

When the roasting process is completed, the heater 23a of the blower 23 is stopped and only the fan 23b is driven, so that a non-heated air is generated and sent to the roasting container 21 to be roasted. Air-cool the roasted coffee beans in 21. When the required time has elapsed from the start of the air cooling, the coffee beans in the roasting container 21 are transferred to the crushing unit 3. The air cooling process is continued until the extraction process described below is completed even after the transfer of the coffee beans, so that the roasting container 21 is cooled.

The transfer of the coffee beans from the roasting container 21 to the crushing unit 3 is performed by rotating the motor 22a of the drive unit 22 in a direction opposite to the rotating direction during the roasting process. In other words, by this reverse rotation, the roasting container 21 is rotated in the direction opposite to the roasting process, and the roasting container 2 is rotated.
The first shutter 21d is a through hole 21h of the bottom cover 21c.
And the bottom cover 21
The blade 21i of c moves coffee beans toward the through hole 21h of the bottom cover 21c in the roasting container 21. Thereby, the coffee beans are sequentially discharged from the through holes 21h and sequentially transferred into the cup 31 of the crushing unit 3. When the transfer of the coffee beans is completed, the roasting container 21 is rotated in the same direction as the rotation direction during the roasting process.
The through hole 21h of c is closed. This prevents steam from flowing into the roasting container 21 in the drip process of the extracting unit 4 described below, and also allows unheated air for air-cooling the roasting container 21 to enter the extracting unit 4 to cool the drip hot water. This is in order to prevent further progress.

A so-called milling process is executed simultaneously with the transfer of the coffee beans to the cup 31 of the crushing unit 3. In this milling process, the rotary cutter 33 disposed in the cup 31 is used.
Is driven by a motor 34 to grind the sequentially supplied coffee beans into powder. The coffee powder obtained by crushing in the crushing unit 3 in this manner is
Are sequentially transferred to the filter basket 41 of the extraction unit 4.

When the coffee powder is transferred to the extraction unit 4 in this manner, a so-called drip process is performed. In this drip treatment, the water in the water storage tank 42 is supplied to the heat exchange pipe 43 by a required amount, and the water in the heat exchange pipe 43 is heated by the heater 44 to become hot water and the filter basket 41 is heated.
Pour into. However, in the initial stage of the drip process, a small amount of hot water is applied to the coffee powder in the filter basket 41 to spread the coffee powder. Then, after passing through the spotting period, the hot water is continuously supplied to extract the coffee liquid. The coffee liquid extracted in this manner is stored in the glass container 6 and kept warm by the heater 44 of the extraction unit 4.

When the drip processing is completed in this way, the driving of the fan 23b of the blower 23 is stopped, and the air cooling processing of the roasting container 21 is also ended.

Incidentally, since the air cooling process is continuously performed from the end of the roasting process to the end of the drip process, the roasting container 21 heated by the roasting process can be sufficiently cooled. Can be cooled. Therefore,
Even after the first coffee generation is completed, the user can remove the roasting container 21 by hand without any trouble even when the coffee is subsequently generated.

As described above, in the roasting process of the coffee beans, the hot air is not blown directly to the coffee beans in the roasting container, but flows efficiently in the roasting container. The temperature of the roasting container and the ambient temperature in the roasting container can be efficiently increased. Moreover, since a plurality of slits 21j that allow the passage of hot air are provided in the blades 21i that are present in the roasting container 21 during the passage of hot air, the hot air can reach the back of the roasting container 21 smoothly. This is advantageous in efficiently raising the temperature of the roasting container 21 and the ambient temperature. For this reason, the entire coffee beans can be heated almost evenly, and a highly flavored coffee liquid can be extracted.

By the way, in the case where the coffee generation is performed after the first coffee generation is completed, FIG.
By using the beans input member 15 shown in (a) and (b), the roasting container 2 can be removed without removing the roasting container 21 itself.
The coffee beans can be newly added in 1. As shown in FIG. 11, the bean feeding member 15
4, the roasting container 25 is opened, and is removably fitted into the gap h of the blower case 24 along the ventilation cover 21b of the roasting container 21. Passage 15a for introduction into
have. Also, on the outlet side of this passage 15a,
A valve body 15b is provided that is displaced between a closed state that blocks the passage of coffee beans and an open state that allows the passage,
In the closed state, the volume in the passage 15a is set to a size that regulates the storage amount of coffee beans. That is, the bean input member 15 has a function of a measuring cup, and a scale indicating the amount of coffee beans stored is provided on the inner wall surface of the passage 15a on the input port side. In addition, the ventilation cover 21b of the roasting container 21 is also provided with a window insertion hole 21k at the center thereof so that coffee beans can be introduced.

The method of using such a bean feeding member 15 will be described. That is, the valve body 15 of the bean input member 15
When b is closed and a required amount of coffee beans is put in the passage 15a, the coffee beans can be held. By mounting the bean feeding member 15 holding such coffee beans in the gap h of the blower case 24 of the coffee maker 1 and opening it by pulling out the valve body 15b, the coffee beans can be ventilated through the roasting container 21. Window insertion hole 2 of cover 21b
It will be dropped into the roasting container 21 from 1k.

In this manner, the coffee beans are roasted in the roasting container 21.
Then, the beans input member 15 is removed, and the roasting process may be performed in the same manner as described above.

However, regarding the above-mentioned bean charging member 15,
If the mesh material is formed of a mesh material that allows the passage of hot air to prevent the leakage of coffee beans, the beans input member 15 can be inserted after the coffee beans are input.
The roasting process can be performed without removing the garment and with the garment attached. In this case, it is preferable to provide a flange serving as the opening / closing cover 25 on the bean feeding member 15, though not shown.

It should be noted that the present invention is not limited to only the above embodiment, and various applications and modifications are conceivable. (1) In the above-described embodiment, an example in which the coffee maker 1 is equipped with the roasting unit 2 has been described. However, a configuration in which the roasting unit 2 is configured as a single device is also included in the present invention. (2) In the above embodiment, the blade 21i of the bottom cover 21b provided in the roasting container 21 is provided with the slit 21j for allowing hot air to pass, but a plurality of through holes may be provided. In particular, as shown in FIG. 12, if a portion of the through hole 21j 'is cut and raised so as to protrude to one side, the cut and raised portion Z positively causes the epidermis of the coffee bean to be agitated when the coffee bean is stirred. This is advantageous because it can be peeled off. As a method of forming such a through hole 21j 'having the cut-and-raised portion Z, a so-called burring process may be mentioned.

[0050]

According to the first to fifth aspects of the present invention, hot air is blown to a region where coffee beans do not exist in the roasting container during rotation, and the temperature of the roasting container itself and the ambient temperature in the roasting container are reduced. Since the coffee beans are heated indirectly by increasing the temperature, the whole coffee beans can be heated almost evenly, which contributes to the improvement of reliability.

In particular, according to the invention of claim 3, since the coffee beans are dispersed over a wide range of the roasting container by the blades of the roasting container, it is advantageous in uniformly heating each of the coffee beans.

According to the fourth aspect of the present invention, since the plurality of slits for allowing the hot air to pass through are provided in the blade according to the third aspect, the hot air can easily reach the inside of the blade smoothly, and the temperature of the roasting container itself can be reduced. This is advantageous in efficiently raising the ambient temperature.

According to the fifth aspect of the present invention, since the projections for peeling the epidermis of the coffee beans are provided on the blades, it is possible to avoid the residual epidermis as in the case where the epidermis of the coffee beans is spontaneously exfoliated. Become.

Further, in the invention of claim 6, since the bean charging member for charging the coffee beans into the roasting container is used, the user removes the roasting container which is hot after the roasting process is completed. This eliminates the need and is advantageous when performing continuous roasting.

According to the seventh aspect of the present invention, since the bean charging member of the sixth aspect has a function as a measuring cup, it becomes easy to put a required amount of coffee beans into the roasting container.
Usability is improved.

In the invention of claim 8, since the bean charging member of claim 6 or 7 is formed of a mesh material,
The roasting process can be performed while the bean charging member is attached to the roasting container in a state of being applied thereto, and the handling is simplified.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a schematic configuration of a coffee maker according to an embodiment of the present invention.

FIG. 2 is a front view showing the appearance of a coffee maker;

FIG. 3 is a front view of a main part of the coffee maker in section.

FIG. 4 is an arrow view of a cross section taken along line (4)-(4) in FIG. 2;

FIG. 5 is a top view of the roasting unit.

FIG. 6 is a side view showing a cross section of a roasting container.

FIG. 7 is a side view of the roasting container in a disassembled state.

FIG. 8 is a sectional view taken along line (8)-(8) of FIG.

FIG. 9 is a timing chart showing a coffee generation sequence.

FIG. 10 shows a bean feeding member, (a) is a longitudinal front view,
(B) is a vertical side view

FIG. 11 is an explanatory view showing a use form of the bean input member of FIG. 10;

FIG. 12 is a view showing a modification of the roasting container, particularly the bottom cover, and corresponds to FIG. 7;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Coffee maker 2 Roasting part 21 Roasting container 21a Roasting container case 21b Vent cover 21c Bottom cover 21d Shutter 21e Bottom cover main body 21h Bottom cover through-hole 22 Drive unit 23 Blower 3 Crushing part 4 Extraction part 5 Control Department

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Yasunori Imaizumi, 1-chome, Shoda-cho, Seika-cho, Soraku-gun, Kyoto F-2, Sanyo Home Tech Co., Ltd. F-term (reference) 4B004 AA11 AA13 BA01 BA40 BA41 BA50 4B061 AA01 BA09 BB01 BB05 CD01 CD07 CD13 CD14 CD19

Claims (8)

[Claims] 1. Roasting a roasted coffee bean by putting hot air into the roasting container while rotating a cylindrical roasting container containing raw or semi-fresh coffee beans in a posture inclined with respect to a horizontal line. In the roasting device, in the roasting container in the inclined position, hot air is injected from the end surface on the upslope side, and in the roasting container, an area where coffee beans are gathered by the rotation in the rotatable downstream direction in the roasting direction. A roasting device characterized by spraying the inner surface except for the roasting device. 2. A roasting container having a cylindrical shape in which fresh or semi-fresh coffee beans are placed, a driving element for rotating the roasting container in an inclined position with respect to a horizontal line, and hot air in the roasting container. Having a hot air generating element, wherein the hot air generating element puts hot air from the end surface on the ascending slope side in the roasting container in the inclined posture, and the coffee beans are shifted to the rotation direction downstream side with the rotation in the roasting container. A roasting device characterized by spraying on the inner surface except for the area where it is collected. 3. The roasting apparatus according to claim 1, wherein a blade for stirring the coffee beans as it is rotated is provided in the roasting container in a fixed state. 4. The roasting apparatus according to claim 3, wherein the blade is provided with a slit for passing hot air supplied into the roasting container. 5. The roasting apparatus according to claim 3, wherein the blade is provided with a projection for peeling off the epidermis of the coffee bean. 6. The roasting apparatus according to claim 2, wherein the beans are removably mounted along the end face of the roasting container on the hot air introduction side and have a passage for introducing coffee beans into the roasting container. A roasting device comprising a member. 7. The roasting apparatus according to claim 6, wherein the bean input member has a valve body that is displaced to a discharge port side of a passage between a closed state for preventing passage of coffee beans and an open state for allowing passage. A roasting device, wherein the roasting device is provided, and in a closed state, the volume in the passage is set to a size that regulates the storage amount of coffee beans. 8. The roasting apparatus according to claim 6, wherein the bean charging member is formed of a mesh material that allows hot air to pass therethrough to prevent coffee beans from leaking. apparatus.