CN103860040B - Automatic bread baking machine - Google Patents

Abstract

A kind of automatic bread baking machine is provided, clutch need not can be configured in baking room, and the reduction of the durability of the rotary shaft of blade can be suppressed.Automatic bread baking machine of the present invention possesses：Cooking-vessel（401、402）, it is accommodated in equipment body（10）Inside set baking room（30）It is interior；First blade and the second blade（82、84）, they are configured to rotate freely in cooking-vessel；Motor（70）, it is arranged on the outside of baking room, for producing rotary driving force；The rotary body of main body side first（17A）, it is arranged on the bottom of baking room the rotary driving force of motor is transferred to the rotary shaft of the first blade；And the rotary body of main body side second（16Ab）, it is arranged on the bottom of baking room the rotary driving force of motor is transferred to the rotary shaft of the second blade.

Description

Automatic bread baking machine

Technical field

The invention mainly relates to general home-use automatic bread baking machine.

Background technology

In recent years, the automatic bread baking machine for directly making bread from the cereal such as grain of rice grain is gradually popularized.As this automatic Bakery equipment, for example, have patent document 1（Japanese Unexamined Patent Publication 2011-161030 publications）Disclosed in automatic bread baking machine.

In patent document 1, such automatic bread baking machine is disclosed：That is, the automatic bread baking machine possesses：The rotation of blade Rotating shaft（Also referred to as blade（blade）Rotary shaft）, it is arranged on the bottom of cooking-vessel；Grinding（mill）Blade（Also referred to as powder Broken blade）, it, which is installed into, to be rotated relative to the rotary shaft of blade；Dome shape cover, it possesses stirring vane（Also referred to as mix And blade）；And clutch, it is used to make the rotary shaft of dome shape cover and blade to turn into link or non-link state.

In the automatic bread baking machine of patent document 1, when blade rotary shaft made using clutch dome shape cover with When the rotary shaft of blade in the state of non-link state to positive direction as rotating, blade rotation is only ground.Ground by described The rotation of blade is ground, the grain powder for being put into cooking-vessel broken breadstuffs can be made.On the other hand, blade is worked as Rotary shaft made using clutch dome shape cover and blade rotary shaft turn into connecting state in the state of revolved to opposite direction When turning, grinding blade and stirring vane rotation., can be by cooking-vessel by the rotation of the grinding blade and stirring vane Breadstuffs and the materials, stirring such as dry ferment and to make bread dough.The automatic bread baking machine of patent document 1 is configured to, Baking is carried out by the way that directly the bread dough produced like this is put into cooking-vessel, carrys out baking into bread.

Prior art literature

Patent document 1：Japanese Unexamined Patent Publication 2011-161030 publications

In the automatic bread baking machine of patent document 1, only make rotary shaft and make grinding blade and stir that grinding blade rotates The rotary shaft for mixing blade rotation is the rotary shaft of identical blade.Container side in the bottom for the rotary shaft for being arranged at the blade In the state of the main body side rotary body of bottom of the rotary body with being arranged at baking room engages, the rotary driving force of motor is passed to The rotary shaft of the blade is rotated so as to the rotary shaft of the blade.Here, grinding blade generally with low speed and obtains high torque (HT) Mode rotate so as to ground cereal grain.On the other hand, stirring vane is generally rotate at high speed so as to mix and stir rapidly Cook material.Therefore, in the case where making the situation of grinding blade rotation and rotating grinding blade and stirring vane, apply The load for being added on the rotary shaft of blade is different.Due to the difference of the load, the durability of the rotary shaft of blade is likely to decrease.

In addition, in the automatic bread baking machine of patent document 1, the transmission of the rotary driving force of motor is carried out using clutch The switching in path.The clutch is switched over due to the connecting state to dome shape cover and the rotary shaft of blade, so needing to match somebody with somebody Put in baking room.Thus, for example, breadstuffs are blocked between clutch and the rotary shaft of blade etc. sometimes, cause from The switching of clutch can not be carried out well.

The content of the invention

Therefore, it is an object of the invention to solve above-mentioned problem, there is provided a kind of automatic bread baking machine, it is not necessary to by clutch Configuration can suppress the reduction of the durability of the rotary shaft of blade in baking room.

In order to reach above-mentioned purpose, the present invention is constituted as follows.

According to the present invention there is provided a kind of automatic bread baking machine, the automatic bread baking machine possesses：

Cooking-vessel, it is accommodated in the baking room of the inside setting of equipment body；

First blade and the second blade, they are configured to rotate freely in the cooking-vessel；

Motor, it is arranged on the outside of the baking room, for producing rotary driving force；

The rotary body of main body side first, it is arranged on the bottom of the baking room to transmit the rotary driving force of the motor To the rotary shaft of first blade；And

The rotary body of main body side second, it is arranged on the bottom of the baking room to transmit the rotary driving force of the motor To the rotary shaft of second blade.

Invention effect

According to automatic bread baking machine of the present invention, the master for the rotary driving force of motor to be transferred to the first blade The rotary body of side first and set respectively for the rotary body of main body side second that the rotary driving force of motor is transferred to the second blade The bottom in baking room is put, therefore, there is no need to carry out the switching of the bang path of the rotary driving force of motor in baking room.Cause This, can need not configure clutch in baking room.

In addition, according to automatic bread baking machine of the present invention, by the rotation of the rotary shaft of the first blade and the second blade Axle is respectively set, therefore, it is possible to using the rotary shaft for being suitable for each blade, is caused so as to the difference that suppresses by load Rotary shaft durability reduction.

Brief description of the drawings

The stereogram for the automatic bread baking machine that Fig. 1 is related to for embodiments of the present invention.

Fig. 2 is the stereogram of the state of the opening lid for the automatic bread baking machine for showing Fig. 1.

Fig. 3 is the sectional view of Fig. 1 automatic bread baking machine.

Fig. 4 is the sectional view of the structure of the part associated with inverter motor for the automatic bread baking machine for showing Fig. 1.

The stereogram for the blade unit that Fig. 5 is possessed by Fig. 1 automatic bread baking machine.

Fig. 6 is to show the same part rotated to positive direction when the axial positive direction rotation of the output of Fig. 4 inverter motor Sectional view.

Fig. 7 is the part for showing equally to rotate in the opposite direction when the output shaft of Fig. 4 inverter motor is rotated in the opposite direction Sectional view.

Fig. 8 is to show to grind upward view of the blade relative to the relative position of dome shape cover.

Fig. 9 is the stereogram of grinding blade.

Figure 10 is the front view of grinding blade.

Figure 11 is the side view of grinding blade.

Figure 12 is the schematic diagram of the flow of the grain of rice bread process performed using Fig. 1 automatic bread baking machine.

Figure 13 is the stereogram of the first cooking-vessel.

Figure 14 is the upward view for observing the first cooking-vessel from below.

Figure 15 is the partial sectional view of the first cooking-vessel.

Figure 16 is the stereogram of the second cooking-vessel.

Figure 17 is the upward view for observing the second cooking-vessel from below.

Figure 18 is the partial sectional view of the second cooking-vessel.

Figure 19 is the exploded perspective view for the structure for showing the rotary body of container side first and the rotary body of container side second.

Figure 20 is the top view of the central portion of the bottom of baking room viewed from above.

Label declaration

1：Automatic bread baking machine

10：Equipment body

10A：Hinge part

11：Cooking-vessel support

12：Bearing

13：3rd one-way clutch

14A：Main body side grinding shaft

14B：Container side grinding shaft（The rotary shaft of first blade）

15：Second one-way clutch

16A：Main body side agitating shaft

16Aa：Snap-latch piece（The holding section of main body side second）

16Ab：The rotary body of main body side second

16B：Container side agitating shaft（The rotary shaft of second blade）

16Ba：Snap-latch piece（The holding section of container side second）

16Bb：The rotary body of container side second

17A：Main body side-connector（The rotary body of main body side first）

17Aa：The holding section of main body side first

17Ab：Inclined-plane

17B：Container side-connector（The rotary body of container side first）

17Ba：The holding section of container side first

17Bb：Inclined-plane

18：E axle supporting part

20：Operating portion

30：Baking room

30a：Bottom wall

31：Sheathed heater（Heating part）

32：Temperature sensor

40：Cooking-vessel

41：Recess

42：Pedestal

50：Lid

51：Lid main body

52：Enclosing cover

53、54：Auxiliary material container

53a、54a：Opening-closing plate

61：First belt wheel

62：Second belt wheel

63：3rd belt wheel

64：4th belt wheel

65：First transmission belt

66：Second transmission belt

67：Bearing

68：First one-way clutch

70：Inverter motor

71：Output shaft

80：Blade unit

81：Cap

82：Grind blade

82A：Grind region

83：Dome shape cover

83a：Window portion

84：Stirring vane

85：Safety guard

90：Control unit

401：First cooking-vessel

402：Second cooking-vessel

403：Rotary shaft

404：The rotary body of container side second

405：The holding section of container side second

Embodiment

According to the 1st aspect of the present invention there is provided a kind of automatic bread baking machine, the automatic bread baking machine possesses：

Cooking-vessel, it is accommodated in the baking room of the inside setting of equipment body；

First blade and the second blade, they are configured to rotate freely in the cooking-vessel；

Motor, it is arranged on the outside of the baking room, for producing rotary driving force；

The rotary body of main body side first, it is arranged on the bottom of the baking room to transmit the rotary driving force of the motor To the rotary shaft of first blade；And

The rotary body of main body side second, it is arranged on the bottom of the baking room to transmit the rotary driving force of the motor To the rotary shaft of second blade.

Automatic bread baking machine according to described in the 2nd aspect of the present invention there is provided first method, wherein, second leaf The rotary shaft of piece is set in the way of the bottom wall of cooking-vessel described in through-thickness insertion, in the rotary shaft of second blade The end in the outside positioned at the cooking-vessel possess the rotary body of container side second, the rotary body of container side second with it is described The rotary body of main body side second engages.

Automatic bread baking machine according to described in the 3rd aspect of the present invention there is provided second method, wherein, first leaf The rotary shaft of piece is set in the way of the bottom wall of cooking-vessel described in through-thickness insertion, in the rotary shaft of first blade The end in the outside positioned at the cooking-vessel possess the rotary body of container side first, the rotary body of container side first with it is described The rotary body of main body side first engages.

Automatic bread baking machine according to described in the 4th aspect of the present invention there is provided Third Way, wherein, second leaf The rotary shaft of piece has hollow tubular structure, and the rotary shaft of first blade is arranged on second leaf in the way of rotating freely The inside of the rotary shaft of piece.

Automatic bread baking machine according to described in the 5th aspect of the present invention there is provided the 3rd or fourth way, wherein, it is described The rotary body of main body side second possesses the holding section of main body side second, and the holding section of main body side second rotates with the container side second Body engages, and the holding section of main body side second is arranged on around the rotary body of main body side first.

According to the 6th aspect of the present invention, there is provided the automatic bread processed that the either type in the 3rd~the 5th mode is recorded Machine, wherein, the rotary body of container side second possesses the holding section of container side second, the holding section of container side second and the master The rotary body engaging of side second, the holding section of container side second is arranged on around the rotary body of container side first.

According to the 7th aspect of the present invention, there is provided the automatic bread processed that the either type in the first~the 6th mode is recorded Machine, wherein, the motor is single inverter motor.

According to the 8th aspect of the present invention, there is provided the automatic bread processed that the either type in the first~the 7th mode is recorded Machine, wherein, first blade is the grinding blade crushed to the cereal grain being put into the cooking-vessel,

Second blade is the stirring vane mixed and stirred to the cooking material being put into the cooking-vessel.

According to the 9th aspect of the present invention, there is provided the automatic bread processed that the either type in first~eighth mode is recorded Machine, wherein, the diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

Below, while one side is illustrated to embodiments of the present invention referring to the drawings.

《Embodiment》

The overall structure for the automatic bread baking machine being related to embodiments of the present invention is illustrated.Fig. 1 is this embodiment party The stereogram for the automatic bread baking machine that formula is related to, Fig. 2 is the stereogram of the state for the opening lid for showing the automatic bread baking machine. Fig. 3 is the sectional view of automatic bread baking machine of the present embodiment.Fig. 4 is automatic bread baking machine of the present embodiment Enlarged partial sectional view.

In Fig. 1~Fig. 3, automatic bread baking machine 1 of the present embodiment possesses the equipment master of approximately parallelepiped body shape Body 10.A part in the upper surface of equipment body 10 is provided with operating portion 20.

Operating portion 20 is made up of operated key group and display part.Operated key group for example including：Start button, cancel key, timing key, Preengage key and select selection key of the gastronomical process of bread etc. etc..Gastronomical process for example including：The grain of rice is used as raw material Make the process of bread；Ground rice is made into the process of bread as raw material；And make wheat flour as raw material Process of bread etc..Display part by liquid crystal display panel such as constituting, in showing the time, being set by operated key group Appearance and mistake etc..

Baking room 30 is provided with the inside of equipment body 10.Baking room 30 is formed as the box-formed shape of upper surface open. The inside of baking room 30 is accommodated with cooking-vessel 40 by loading and unloading freely, and the cooking-vessel 40 is used to store bread dough Group, cake, rice cake etc. cook material.

Also, it is described as shown in figure 3, be internally provided with sheathed heater 31 and temperature sensor 32 in baking room 30 Sheathed heater 31 is that, for an example of the heating part for heating cooking-vessel 40, the temperature sensor 32 is for detecting One example of the temperature detecting part of the temperature in baking room 30.

Sheathed heater 31 is configured to, and the bottom for separating cooking-vessel 40 with gap to being accommodated in baking room 30 is carried out Surround.Temperature sensor 32 is configured in the position from sheathed heater 31 slightly away, so as to detect in baking room 30 Mean temperature.

The opening portion of the upper surface of baking room 30 is opened and closed by lid 50, and the lid 50 is arranged on equipment body 10 Top.Lid 50 is installed on hinge part 10A, the hinge part 10A and is arranged on the top of equipment body 10 in a rotatable manner Rear portion（Fig. 3 upper right side）.Lid 50 possesses lid main body 51 and enclosing cover 52.Auxiliary material container 53 is installed in lid main body 51 and auxiliary material holds Device 54, the auxiliary material container 53 is used to store the powdered auxiliary material such as gluten or dry ferment, and the auxiliary material container 54 is used to store The big auxiliary material of raisins, nut equal volume comparison.Auxiliary material container 53,54 is configured in the top of cooking-vessel 40.Enclosing cover 52 is installed Into the opening portion on the top that can be opened and closed auxiliary material container 53,54.

The bottom wall of auxiliary material container 53 is made up of opening-closing plate 53a.Opening-closing plate 53a is configured to rotate, so as to will be auxiliary Auxiliary material in material container 53 is put into cooking-vessel 40.Similarly, the bottom wall of auxiliary material container 54 is made up of opening-closing plate 54a.Open Closing plate 54a is configured to rotate, so as to which the auxiliary material in auxiliary material container 54 is put into cooking-vessel 40.Opening-closing plate The opportunity of 53a, 54a opening and closing is controlled by control unit 90 described later.

In addition, the substantially central portion in the bottom wall 30a of baking room 30 is provided with cooking-vessel support 11.As shown in figure 4, Cooking-vessel support 11 is shaped generally as tubular, and be formed as with from the bottom wall 30a of baking room 30 downwards away from, internal diameter Reduce by stages.In the bottom of the outer peripheral face of cooking-vessel support 11, bearing 12 is provided with the first belt wheel 61.

Centre bore in the bottom of cooking-vessel support 11, is provided with the 3rd one-way clutch 13 of general cylindrical shape. In the inner side of the 3rd one-way clutch 13, the main body side agitating shaft of general cylindrical shape is provided with the way of being extends in the vertical direction （The rotary shaft of second blade）16A.3rd one-way clutch 13 is configured to：Allow main body side agitating shaft 16A to positive direction（For example Clockwise）Rotation, on the other hand, main body side agitating shaft 16A is to opposite direction for limitation（For example counterclockwise）Rotation.

Main body side agitating shaft 16A periphery bottom is provided with the second one-way clutch 15.The quilt of second one-way clutch 15 It is arranged to the first belt wheel 61 engage through housing 15A.Second one-way clutch 15 is configured to：When the first belt wheel 61 revolves to positive direction When turning, main body side agitating shaft 16A is set to be rotated to positive direction, on the other hand, when the first belt wheel 61 is rotated in the opposite direction, limitation master Side agitating shaft 16A rotation, to avoid main body side agitating shaft 16A from rotating in the opposite direction.

In main body side agitating shaft 16A inside, generally cylindrical main body is provided with the way of being extends in the vertical direction Side grinding shaft（The rotary shaft of first blade）14A.Main body side grinding shaft 14A is configured to relative to main body side agitating shaft 16A is rotated against.The second belt wheel 62 is fixed with main body side grinding shaft 14A bottom.

In addition, baking room 30 outside and be equipment body 10 inside, be provided with example as motor Inverter motor 70.Inverter motor 70 is rotating speed and the direction of rotation for the time per unit that can change output shaft 71 freely（Just Direction, opposite direction）Motor.

The 3rd belt wheel 63 is fixed with the periphery top of the output shaft 71 of inverter motor 70.In the 3rd belt wheel 63 and first band Wheel 61 has the first transmission belt 65 around frame.When inverter motor 70 is rotated by driving so as to output shaft 71, the rotation of the output shaft 71 Power is delivered to the first belt wheel 61 via the 3rd belt wheel 63, the first transmission belt 65.

Also, the periphery bottom of the output shaft 71 in inverter motor 70 through bearing 67 is provided with the 4th belt wheel 64.The 4th The belt wheel 62 of belt wheel 64 and second has the second transmission belt 66 around frame.

Also, the outer peripheral face of the output shaft 71 in inverter motor 70, is set between the 3rd belt wheel 63 and the 4th belt wheel 64 There is the first one-way clutch 68, first one-way clutch 68 engages through housing 68A with the 4th belt wheel 64.When output shaft 71 is to anti- When direction rotates, the first one-way clutch 68 rotates in the opposite direction the 4th belt wheel 64, on the other hand, when output shaft 71 is to pros To during rotation, the first one-way clutch 68 limits the rotation of the 4th belt wheel 64, to avoid the 4th belt wheel 64 from being rotated to positive direction.

In addition, being fixed with main body side-connector 17A in main body side grinding shaft 14A upper end.Main body side-connector 17A structures As that can engage with container side-connector 17B, container side-connector 17B is fixed on the container side grinding shaft of substantial cylindrical 14B bottom.In the state of main body side-connector 17A engages with container side-connector 17B, as main body side grinding shaft 14A During rotation, container side grinding shaft 14B rotations.

Also, main body side agitating shaft 16A upper end is provided with snap-latch piece 16Aa.Snap-latch piece 16Aa be configured to Snap-latch piece 16Ba engages, and snap-latch piece 16Ba is fixed on the container side agitating shaft 16B of general cylindrical shape bottom.When main body side is stirred When mixing axle 16A rotations, snap-latch piece 16Aa engages with snap-latch piece 16Ba, container side agitating shaft 16B rotations.

Container side grinding shaft 14B is arranged on container side agitating shaft 16B inner side through columnar e axle supporting part 18.Container side Grinding shaft 14B and container side agitating shaft 16B are configured to：When cooking-vessel 40 is placed in baking room 30, by cooking The through hole that the central part of the bottom of capacity transfer device 40 is set is projected into cooking-vessel 40.

As shown in figure 3, being formed with the recess 41 of bottomed tube in the bottom of cooking-vessel 40.Also, in cooking-vessel 40 Bottom outer surface, the pedestal 42 of tubular is provided with the way of surrounding container side agitating shaft 16B.By the way that pedestal 42 is placed in Cooking-vessel support 11 simultaneously makes main body side-connector 17A engage with container side-connector 17B, so that cooking-vessel 40 is placed In fire room 30.On the other hand, released by making main body side-connector 17A and container side-connector 17B engaging, can be by Cooking-vessel 40 takes out out of baking room 30.In addition, pedestal 42 can be formed as with the split of cooking-vessel 40, can also be formed as With the one of cooking-vessel 40.

The part of grinding shaft 14B and container side agitating shaft the 16B inside for being projected into cooking-vessel 40 in container side, to fill The mode unloaded freely is provided with blade unit 80.

Blade unit 80 possesses：Cap 81；It is used as the grinding blade 82 of one of the first blade；Dome shape cover 83；It is used as The stirring vane 84 of one of two blades；And safety guard 85.

Cap 81 is detachably arranged on container side grinding shaft 14B terminal part.Grinding blade 82 is configured to from cap 81 Outer peripheral face protrude laterally.Grinding blade 82 is to make the blades of breadstuffs for crushing the cereal such as grain of rice grain. Cooking-vessel 40 is placed in baking room 30 and cap 81 is installed in the state of the grinding shaft 14B of container side, blade is ground 82 are configured to be located substantially in the recess 41 of cooking-vessel 40.Concrete structure and preferred shape for grinding blade 82 etc. It is described in detail below.

Dome shape cover 83 is formed as covering from above grinding blade 82.As shown in Figure 5 and Figure 6, set in dome shape cover 83 There are multiple window portion 83a, the window portion 83a is by the space of the inner side of dome shape cover 83 and the space in the outside of dome shape cover 83 Connection is got up.The breadstuffs produced using the rotation for grinding blade 82, dome is discharged to by multiple window portion 83a The space in the outside of shape cover 83.

Stirring vane 84, which is set, vertically to be erected in the outer surface of dome shape cover 83.Stirring vane 84 is to be used to mix The blade of bread dough is made with the breadstuffs in cooking-vessel 40.

Safety guard 85 is arranged on the bottom of dome shape cover 83 and is formed as covering grinding blade 82 from below.Also, peace Full cover 85 is installed on container side agitating shaft 16B in the way of one part and container side agitating shaft 16B inner surface coordinate.Work as appearance When device side agitating shaft 16B rotates, safety guard 85, dome shape cover 83 and stirring vane 84 integratedly rotate.By cooking-vessel 40 are placed in baking room 30 and safety guard 85 are installed in the state of the agitating shaft 16B of container side, and grinding blade 82 is set It is set in the recess 41 for being located substantially at cooking-vessel 40.Also, safety guard 85 is provided with opening portion（It is not shown）, the opening Portion is used to the materials such as the grain of rice and water be put into cooking-vessel 40 being taken into dome shape cover 83.

Also, the lower section of the operating portion 20 in equipment body 10 is provided with the control unit 90 of the driving for controlling each portion. The cooking corresponding with multiple gastronomical process is stored in control unit 90 sequentially.The cooking is sequentially（sequence）Refer to entering successively During each production process such as row immersion, grinding, cooling, stirring, fermentation, baking, it is previously determined armouring in each production process and heats Conduction time of device 31, warm temperature regulating, the direction of rotation of inverter motor 70, rotary speed and opening-closing plate 53a, 54a opening and closing The program of the step of cooking on opportunity etc..Control unit 90 is corresponding based on the specific gastronomical process with being selected by operating portion 20 The detection temperature of cooking order and temperature sensor 32, to control inverter motor 70, sheathed heater 31 and opening-closing plate 53a, 54a driving.

Next, using Fig. 6 to the output shaft 71 of inverter motor 70 to positive direction rotate when action illustrate.Fig. 6 For the sectional view for the structure for showing the part associated with inverter motor 70.In figure 6, oblique line portion, which is shown to positive direction, rotates Part.

As shown in fig. 6, when the output shaft 71 of inverter motor 70 rotates to positive direction, the revolving force transmission of the output shaft 71 To the 3rd belt wheel 63 and the first one-way clutch 68, these parts rotate to positive direction.

The revolving force of 3rd belt wheel 63 is transferred to the first transmission belt 65, the first belt wheel 61 and the second one-way clutch 15, These parts rotate to positive direction.Because the first belt wheel 61 rotates to positive direction, therefore the second one-way clutch 15 makes main body side Agitating shaft 16A rotates to positive direction.At this moment, the 3rd one-way clutch 13 allows rotations of the main body side agitating shaft 16A to positive direction. Main body side agitating shaft 16A revolving force is transferred to container side agitating shaft 16B, safety guard 85, dome shape cover 83 and stirring vane 84, these parts rotate to positive direction.

On the other hand, because output shaft 71 rotates to positive direction, therefore the first one-way clutch 68 limits the 4th belt wheel 64 Rotation to avoid the 4th belt wheel 64 from being rotated to positive direction.

That is, when the output shaft 71 of inverter motor 70 rotates to positive direction, stirring vane 84 rotates to positive direction, and another Aspect, grinding blade 82 does not rotate.

Next, action when being rotated in the opposite direction using Fig. 7 to the output shaft 71 of inverter motor 70 is illustrated.Fig. 7 For the sectional view for the structure for showing the part associated with inverter motor 70.In the figure 7, oblique line portion, which is shown, rotates in the opposite direction Part.

As shown in fig. 7, when the output shaft 71 of inverter motor 70 is rotated in the opposite direction, the revolving force transmission of the output shaft 71 To the 3rd belt wheel 63 and the first one-way clutch 68, these parts are rotated in the opposite direction.

The revolving force of 3rd belt wheel 63 is transferred to the first transmission belt 65, the first belt wheel 61 and the second one-way clutch 15, These parts are rotated in the opposite direction.Because the first belt wheel 61 is rotated in the opposite direction, therefore the second one-way clutch 15 limitation main body Side agitating shaft 16A rotation is rotated in the opposite direction with avoiding main body side agitating shaft 16A.

On the other hand, because output shaft 71 is rotated in the opposite direction, thus the first one-way clutch 68 make the 4th belt wheel 64 to Opposite direction rotates.The revolving force of 4th belt wheel 64 is transferred to the second transmission belt 66, the second belt wheel 62, main body side grinding shaft 14A, container side grinding shaft 14B, cap 81 and grinding blade 82, these parts are rotated in the opposite direction.In addition, at this moment, the 3rd is single Rotated in the opposite direction to the limitation of clutch 13 main body side agitating shaft 16A by means of main body side grinding shaft 14A revolving force（It is so-called Common rotation）.

That is, when the output shaft 71 of inverter motor 70 is rotated in the opposite direction, grinding blade 82 is rotated in the opposite direction, the opposing party Face, stirring vane 84 does not rotate.

In addition, in the present embodiment, the first belt wheel 61 is configured to bigger than the second~the 4th belt wheel 62~64 straight Footpath.Thus, relative to inverter motor 70 output shaft 71 rotary speed, make stirring vane 84 rotary speed be low speed（Example Such as 250rpm）, and high torque (HT) can be obtained.In addition, relative to the rotary speed of stirring vane 84, making the rotation of grinding blade 82 Speed is at a high speed（Such as 4000rpm）.

In addition, in the present embodiment, " grinding shaft " is made up of main body side grinding shaft 14A and container side grinding shaft 14B, institute State main body side grinding shaft 14A and container side grinding shaft 14B engaged by main body side-connector 17A with container side-connector 17B and Link together.Moreover, " agitating shaft " is made up of main body side agitating shaft 16A and container side agitating shaft 16B, the main body side stirring Axle 16A and container side agitating shaft 16B are engaged by snap-latch piece 16Aa and linked together with snap-latch piece 16Ba.Ground moreover, turning into Grind the central axis of the grinding shaft of the center of rotation of axle 82, the central shaft with the agitating shaft of the center of rotation as stirring vane 84 Line is configured to be located on same axis.

In addition, in the present embodiment, " driving force switching part " is by the belt wheel 61~64 of bearing 12,67, first~the four, One and the one-way clutch 68,15,13 of the second transmission belt the 65,66 and first~the 3rd constitute." driving force switching part " is used to cut The rotary driving force of inverter motor 70 is changed to grinding shaft and the bang path of agitating shaft.

Next, being illustrated using Fig. 8, Fig. 9~Figure 11 to preferred shape of grinding blade 82 etc..Fig. 8 is to show Grind upward view of the blade 82 relative to the relative position of dome shape cover 83.Fig. 9 is the stereogram of grinding blade 82, and Figure 10 is to grind The front view of blade 82 is ground, Figure 11 is the side view of grinding blade 82.

As shown in figure 8, the both ends of grinding blade 82 are formed as ground grains grain rather than chopping cereal grain.Specifically Say, the both ends of grinding blade 82, which are formed as having, grinds region 82A, and this grinds region 82A to look up observation along the vault The mode of the inner peripheral end thereof of dome-shaped cover 83 has certain length.Cereal grain is fabricated to bread processed thereby, it is possible to expeditiously former Material, can make the rotary speed of grinding blade 82 reduces.Cereal grain is being fabricated to breadstuffs as a result, can reduce When, grinding when the sound that produces.

Also, the edge for grinding the both ends of blade 82 is formed as wavy.Thereby, it is possible to make the edge and cereal grain Contact area increase, improve cereal grain grinds effect.Also, it is preferred that the edge at the both ends of grinding blade 82 is formed as sinusoidal It is wavy（What is be made up of curve is wavy）.Thereby, it is possible to suppress because user touches grinding blade 82 and cuts user's The situation of finger.

Also, the edge at grinding blade 82 both ends is configured to certain thickness（Such as 1.5mm）（That is, without knife Sword）.Thereby, it is possible to further suppress because user touches the feelings ground blade 82 and cut the finger of user Condition.Moreover, can make the contact area increase at the edge and cereal grain, that improves cereal grain grinds effect.Moreover, can be true The overall intensity of blade 82 is ground in safeguarding the Graduate Record Examination.In addition, grinding blade 82 can also be configured to including edge be homogeneous thickness.

Also, as shown in Figure 10 and Figure 11, the both ends of grinding blade 82 are tilted to opposite direction each other from front.Tool Say, the both ends of grinding blade 82 are tilted as follows body：Downstream positioned at the direction of rotation of grinding blade 82（At first The side collided with the grain of rice）Part, be in the part position on the lower than trip side disposed thereon.Also, grind blade 82 Both ends angle of inclination with respect to the horizontal plane it is bigger than conventional angle of inclination, for example, 13 degree.Thereby, it is possible to expeditiously Cereal grain is fabricated to breadstuffs, and the rotary speed of grinding blade 82 can be made further to reduce.As a result, can Further reduce the sound produced when when cereal grain is fabricated into breadstuffs, i.e. grinding.

In addition, in the present embodiment, the edge at the both ends that will grind blade 82 is formed as wavy, but the present invention not by This is limited.For example, the edge at the both ends of grinding blade 82 can also be curve-like.

Next, using Figure 12 to the grain of rice bread processed using automatic bread baking machine 1 of the present embodiment execution One example of the flow of process is illustrated.Figure 12 is to show to perform using automatic bread baking machine 1 of the present embodiment The grain of rice schematic diagram of the flow of bread process processed.As shown in figure 12, during the grain of rice is with bread processed, immersion is performed successively Process, grinding step, refrigerating work procedure, stirring（Pinch ね）Process, fermentation procedure and baking process.

When starting the grain of rice with bread process processed, user carries out following work.

First, cap 81 is installed on container side grinding shaft 14B by user, and makes a part and the container side of safety guard 85 Agitating shaft 16B inner surface coordinates.Thus, as shown in figure 3, blade unit 80 is positioned in cooking-vessel 40.

Then, user is by the grain of rice, water, flavoring（For example, salt, granulated sugar and shortening）It is put into and cooks Deng main material In capacity transfer device 40, and the auxiliary materials such as the dry ferment, gluten and nut that are automatically put into the midway of the production process of bread are put Enter auxiliary material container 53,54.

Then, cooking-vessel 40 is placed in baking room 30 by user, and the opening portion of baking room 30 is closed using lid 50. Then, user selects grain of rice bread process processed by operating portion 20, and presses start button.Thus, control unit 90 start by The grain of rice makes the grain of rice control action of bread process processed of bread as raw material.

When grain of rice bread process starts, started to soak process according to the instruction of control unit 90.It is this to soak process The process of sample：By making to contain water in the grain of rice, so that in the grinding step carried out after, easily making the grain of rice be crushed to core Portion.In immersion process, the static condition for being placed in advance in the main material of cooking-vessel 40 maintains the defined time（In this implementation It is 30 minutes in mode）.

When since immersion process after the defined time, according to the order fulfillment of control unit 90 soak process, Start grinding step.Grinding step is the process for crushing the grain of rice being put into cooking-vessel 40 to make breadstuffs. In grinding step, control unit 90 is controlled to inverter motor 70 and rotates in the opposite direction output shaft 71, is such as existed using Fig. 7 As being described above, grinding blade 82 is set to be rotated in the mixture containing the grain of rice and water（Such as 4000rpm）.Thus, rice Grain is pulverized.

Containing the grain of rice and the mixture of water after crushing dome is discharged to by multiple window portion 83a of dome shape cover 83 The space in the outside of shape cover 83.With this mutually everywhere, the mixture containing the grain of rice and water in the recess 41 of cooking-vessel 40, from The opening portion that safety guard 85 is set（It is not shown）It is taken into the space of the inner side of dome shape cover 83.So, the grain of rice constantly by Grinding blade 82 is crushed, as a result, the breadstuffs of the comminuted powder containing pasty state are produced out.

In addition, when the size of the grain of rice collided with grinding blade 82 is larger, big collision sound can be produced.Therefore, exist In present embodiment, preferably control unit 90 carries out such control to inverter motor 70：In regulation since grinding step Time（Such as 5 minutes）Inside make the low speed rotation of grinding blade 82, afterwards, grinding blade 82 is rotated at a high speed.Thereby, it is possible to press down The generation of big collision sound in grinding step processed.

When since grinding step by the defined time（It is 70 minutes in the present embodiment）Afterwards, according to control The order fulfillment grinding step in portion 90, begins to cool down process.Refrigerating work procedure is the cooking-vessel for making to rise by grinding step The temperature of breadstuffs in 40 is reduced to the temperature that dry ferment can actively work（Such as 30 DEG C or so）Process. In refrigerating work procedure, control unit 90 stops the driving of inverter motor 70.

When since refrigerating work procedure by the defined time（It is 32 minutes in the present embodiment）Afterwards, according to control The order fulfillment refrigerating work procedure in portion 90, starts agitating procedure.Agitating procedure is that the auxiliary materials such as dry ferment, gluten, nut are put into system In bread raw materials, they are mixed and stirred with the process to make bread dough.In agitating procedure, control unit 90 opens opening and closing Plate 53a, 54a and auxiliary material is put into cooking-vessel 40, also, control inverter motor 70 and output shaft 71 is revolved to positive direction Turn, as being described above, made the low speed in the mixture containing breadstuffs and auxiliary material of stirring vane 84 using Fig. 6 Rotation（Such as 250rpm）.Thus, the mixture containing breadstuffs and auxiliary material is mixed and stirred, and is produced with defined elastic force Bread dough.

In addition, during agitating procedure, if making stirring vane 84 persistently be rotated with identical speed, particularly containing system At the initial stage for mixing and stirring the agitating procedure being not yet in progress of the mixture of bread raw materials and auxiliary material, there are breadstuffs and auxiliary material disperses To the danger in the outside of cooking-vessel 40.It is therefore preferable that control unit 90 controls into inverter motor 70：With pushing away for agitating procedure And then the rotating speed of stirring vane 84 is gradually increased.Thus, in agitating procedure, breadstuffs can be suppressed and auxiliary material disperses To the outside of cooking-vessel 40.

When since agitating procedure by the defined time（It is 23 minutes in the present embodiment）Afterwards, according to control The order fulfillment agitating procedure in portion 90, starts fermentation procedure.Fermentation procedure is the process for making bread dough ferment.In fermentation work In sequence, control unit 90 is controlled to sheathed heater 31, the temperature of baking room 30 is maintained the temperature that fermentation is constantly promoted （Such as 38 DEG C）.

When since fermentation procedure by the defined time（It is 75 minutes in the present embodiment）Afterwards, according to control The order fulfillment fermentation procedure in portion 90, starts baking process.Baking process is to the bread dough progress baking after fermentation Process of the baking into bread.In baking process, control unit 90 is controlled to sheathed heater 31, makes the temperature of baking room 30 Rise to the temperature for suitably carrying out baking bread（Such as 125 DEG C）.

When since baking process by the defined time（It is 40 minutes in the present embodiment）Afterwards, according to control The order fulfillment baking process in portion 90.Thus, whole bread processes processed are terminated.This thing of the end of bread process processed of whole Part, user is informed such as by the display of the liquid crystal panel of operating portion 20 or warning tone.

According to automatic bread baking machine 1 of the present embodiment, grinding blade 82 can be made using single inverter motor 70 With both rotations of stirring vane 84, therefore, device can be realized compared with possessing the existing automatic bread baking machine of two motors Miniaturization.

Also, according to automatic bread baking machine 1 of the present embodiment, the axle of driving force switching part function will be used as Hold the 12,67, first~the 4th belt wheel 61~64, the one-way clutch of the first and second transmission belt the 65,66 and first~the 3rd 68th, 15,13 the inside of equipment body 10 is provided entirely in and in the outside of baking room 30, therefore, it is possible to suppress breadstuffs A problem that etc. each part is blocked in.Thereby, it is possible to the transmission for the rotary driving force for more reliably carrying out inverter motor 70 The switching in path.

Also, according to automatic bread baking machine 1 of the present embodiment, inverter motor 70 is used as motor, accordingly, it is capable to Enough make the variable speed of grinding blade 82 and stirring vane 84.Thus, for example can be since grinding step when defined It is interior to make the low speed rotation of grinding blade 82, so as to suppress the generation of the big collision sound in grinding step.

Also, according to automatic bread baking machine 1 of the present embodiment, it is configured to the output shaft 71 according to inverter motor 70 Direction of rotation be still transferred to agitating shaft to the rotary driving force of inverter motor 70 is transferred into grinding shaft and switch over, because This, can more reliably carry out the switching of the bang path of the rotary driving force of inverter motor 70.

Also, according to automatic bread baking machine 1 of the present embodiment, agitating shaft 16A, 16B is configured to hollow tube knot Structure, and grinding shaft 14A, 14B are set in the inside of the agitating shaft.Thereby, it is possible to further realize the miniaturization of device.

In addition, hereinbefore, inverter motor, but this have been used in the automatic bread baking machine for being ground and stirring both Invention not limited to this.Inverter motor can also be used in the common automatic bread baking machine being only stirred.In such case Under, due to the variable speed of stirring vane can be made, so for example inverter motor can be controlled into：Make the rotating speed of stirring vane Gradually increase with the propulsion of agitating procedure.Dispersed thereby, it is possible to suppress breadstuffs and auxiliary material to the outer of cooking-vessel Side.

Next, the structure to cooking-vessel 40 carries out more specific description.

In automatic bread baking machine 1 of the present embodiment, two kinds of cooking-vessels 401,402 can be used as the cooking Container 40.First cooking-vessel 401 is the container used when making bread from the grain dust such as wheat flour or ground rice.First cooks Container 401 is configured to only load and unload stirring vane 84.Second cooking-vessel 402 is when making bread from the cereal such as grain of rice grain The container used.Second cooking-vessel 402 is configured to handling grinding blade 82 and stirring vane 84.

First, the structure of the first cooking-vessel 401 is illustrated using Figure 13~Figure 15.Figure 13 is the first cooking-vessel 401 stereogram.Figure 14 is the upward view for observing the first cooking-vessel 401 from below.Figure 15 is the office of the first cooking-vessel 401 Portion's sectional view.In addition, to being marked in the first cooking-vessel 401 with the mark identical reference of the structure identical part of cooking-vessel 40 Number, and the repetitive description thereof will be omitted.

As shown in figure 15, in the first cooking-vessel 401, with the bottom wall of through-thickness insertion first cooking-vessel 401 Mode be provided with container side agitating shaft（The rotary shaft of second blade）403.Container side agitating shaft 403 is to rotate about the axis freely Mode be supported on the bottom wall of the first cooking-vessel 401.In container side, agitating shaft 403 is located at the outer of the first cooking-vessel 401 The end in portion is provided with the second rotary body of container side 404.As shown in figure 14, the second rotary body of container side 404 is shaped generally as S Shape.As shown in figure 15, it is formed with the both ends of the second rotary body of container side 404 and protrudes the holding section of container side second downwards 405.The second holding section of two container sides 405 is located on substantially same straight line.

Pedestal 42 is placed in cooking-vessel support 11, by main body side-connector 17A and the second holding section of container side 405 First cooking-vessel 401, is thus placed in baking room 30 by engaging（Reference picture 4）.In container side, agitating shaft 403 is located at the The end of the inside of one cooking-vessel 401, stirring vane 84 is provided with via safety guard 85.Pacified in the first cooking-vessel 401 Container side agitating shaft 403 is rotated in the state of putting in baking room 30, so that stirring vane 84 rotates.

Next, being illustrated using Figure 16~Figure 18 to the structure of the second cooking-vessel 402.Figure 16 is that second cooking is held The stereogram of device 402.Figure 17 is the upward view for observing the second cooking-vessel 402 from below.Figure 18 is the second cooking-vessel 402 Partial sectional view.Second cooking-vessel 402 has and the above-mentioned identical structure of cooking-vessel 40.In addition, to the second cooking-vessel Identical reference number is marked with the structure identical part of cooking-vessel 40 in 402, and the repetitive description thereof will be omitted.

As shown in figure 18, in the second cooking-vessel 402, with the bottom wall of through-thickness insertion second cooking-vessel 402 Mode be provided with container side agitating shaft 16B.Container side agitating shaft 16B has a hollow tubular structure, container side agitating shaft 16B with around The mode that axis is rotated freely is supported on the bottom wall of the second cooking-vessel 402.In container side, agitating shaft 16B's is located at second cooking The end of the outside of container 402 is provided with container side the second rotary body 16Bb.As shown in figure 17, the second rotary body of container side 16Bb It is shaped generally as S shapes.As shown in figure 18, container prominent downwards is formed with container side the second rotary body 16Bb both ends The second holding section of side 16Ba.Two container sides the second holding section 16Ba is located substantially on same straight line.Block including container side second Conjunction portion 16Ba container side the second rotary body 16Bb metals such as using stainless steel are formed.By using the metal shape such as stainless steel Into container side the second rotary body 16Bb, the rotary body of container side second when user cleans the second cooking-vessel 402 is prevented from 16Bb gets rusty.

Also, as shown in figure 18, in the second cooking-vessel 402, with through-thickness insertion second cooking-vessel 402 The mode of bottom wall is provided with container side grinding shaft 14B.Container side grinding shaft 14B is arranged at container side in the way of rotating freely and stirred Mix axle 16B inside.In container side, the end of the grinding shaft 14B outside positioned at the second cooking-vessel 402 is provided with container side Connector（Hereinafter, referred to as the rotary body of container side first）17B.It is provided with around the first rotary body 17B of the container side above-mentioned Two container sides the second holding section 16Ba.As shown in figure 18, it is formed with what is protruded downwards in container side the first rotary body 17B Three container sides the first holding section 17Ba.

Figure 19 is container side the first rotary body 17B and container side the second rotary body 16Bb for showing the second cooking-vessel 402 Structure exploded perspective view.The metal shape such as container side the first rotary body 17B elastomers such as using silicon rubber or stainless steel Into.Three container sides, the first holding section 17Ba is respectively formed with inclined-plane 17Bb.When the second cooking-vessel 402 is placed in into baking When in room 30, guided using these inclined-planes 17Bb, container side the first holding section 17Ba is blocked with main body side described later first Conjunction portion 17Aa reliably engages.

Pedestal 42 is placed in cooking-vessel support 11, makes container side the first holding section 17Ba and main body side described later One holding section 17Aa engages and makes container side the second holding section 16Ba and snap-latch piece（Hereinafter, referred to as the holding section of main body side second） 16Aa engages, and thus the second cooking-vessel 402 is placed in baking room 30（Reference picture 3）.In container side agitating shaft 16B position End in the inside of the second cooking-vessel 402, stirring vane 84 is provided with via safety guard 85.In container side grinding shaft 14B The inside positioned at the second cooking-vessel 402 end be provided with grinding blade 82.By being placed in the second cooking-vessel 402 Rotate container side grinding shaft 14B and container side agitating shaft 16B in the state of in baking room 30, so that the grinding He of blade 82 Stirring vane 84 rotates.

Next, being illustrated using Figure 20 to the structure of the bottom of baking room 30 of equipment body 10.Figure 20 is from top Observe the figure of the central portion of the bottom of baking room 30.

In fig. 20, the central portion in the bottom of baking room 30 is provided with main body side-connector（Hereinafter, referred to as main body side One rotary body）17A and the second rotary body of main body side 16Ab.The first rotary body of main body side 17A is for example formed by resin.In main body side Three the first holding section of main body side 17Aa are formed with first rotary body 17A.In three the first holding section of main body side 17Aa difference It is formed with inclined-plane 17Ab.When the second cooking-vessel 402 is placed in baking room 30, drawn using these inclined-planes 17Ab Lead so that main body side the first holding section 17Aa reliably engages with the first holding section of container side 17Ba.

The second rotary body of main body side 16Ab is configured in the first rotary body of main body side 17A lower section.Rotated in main body side second Two the second holding section of main body side 16Aa are formed with body 16Ab.Two the second holding section of main body side 16Aa are arranged on main body side Around one rotary body 17A.

Also, the first rotary body of main body side 17A diameter is smaller than the second rotary body of main body side 16Ab diameter.Generally, if Make the rotary body that diameter is big（Rotary shaft）Rotate at high speed, then big load can be applied to rotary body and its rotary shaft, it is possible to The reason for as failure.On the other hand, stirring is made for making main body side the first rotary body 17A that grinding blade 82 rotates with being used for The second rotary body of main body side 16Ab that blade 84 rotates is compared, it is necessary to be carried out at high speed rotation.Therefore, in the present embodiment, Make the first rotary body of main body side 17A diameter smaller than the second rotary body of main body side 16Ab diameter.Thus, even if making main body side Rotary speed of the one rotary body 17A rotary speed than the second rotary body of main body side 16Ab is fast, can also suppress to put on main body Side the first rotary body 17A and its rotary shaft are main body side grinding shaft 14A load.

In addition, hereinbefore, main body side the second rotary body 16Ab is configured with below the first rotary body of main body side 17A, But the invention is not restricted to this.For example, it is also possible to around the first rotary body of main body side 17A the rotary body of disposal subject side second 16Ab.I.e., it is possible to be configured to main body side the first rotary body 17A and the second rotary body of main body side 16Ab is not overlapping.

According to automatic bread baking machine 1 of the present embodiment, by for the rotary driving force of inverter motor 70 to be transmitted To main body side the first rotary body 17A of grinding blade 82 and for the rotary driving force of inverter motor 70 to be transferred into paddle The second rotary body of main body side 16Ab of piece 84 is separately positioned on the bottom of baking room 30, therefore, there is no need to enter in baking room 30 The switching of the bang path of the rotary driving force of row inverter motor 70.Therefore, it is possible to need not be by clutch as patent document 1 Device is configured in baking room 30.

Also, according to automatic bread baking machine 1 of the present embodiment, by grinding shaft 14A, 14B and agitating shaft 16A, 16B Respectively it is configured, therefore, it is possible to using the rotary shaft for being respectively adapted to grind blade 82 and stirring vane 84, so as to Suppress the reduction of the durability by the caused rotary shaft of difference of load.

Also, according to automatic bread baking machine 1 of the present embodiment, two the second holding section of main body side 16Aa are set Around the first rotary body of main body side 17A, therefore, it is possible to make main body side the first rotary body 17A and the rotary body of main body side second 16Ab is approached.Thereby, it is possible to the structure for the neighbouring part for making main body side the first rotary body 17A and the second rotary body of main body side 16Aa It is compact.

Also, according to automatic bread baking machine 1 of the present embodiment, two container sides the second holding section 16Ba is set Around the first rotary body 17B of container side, therefore, it is possible to make container side the first rotary body 17B and the rotary body of container side second 16Bb is approached.Thereby, it is possible to the structure for the neighbouring part for making container side the first rotary body 17B and container side the second rotary body 16Bb It is compact.

In addition, hereinbefore, using stirring vane 84 as the first blade, using grinding blade 82 as the second blade, But the invention is not restricted to this.For example, it is also possible to the cut-out cut off using the cooking material to being put into cooking-vessel 40 Blade（It is not shown）Or to stirring vane that the cooking material being put into cooking-vessel 40 is stirred（It is not shown）It is used as One or second blade.

The present invention is useful in it can load and unload the automatic bread baking machine that cooking-vessel is used.

Claims (18)

1. a kind of automatic bread baking machine, the automatic bread baking machine possesses：

Cooking-vessel, it is accommodated in the baking room of the inside setting of equipment body；

First blade and the second blade, they are configured to rotate freely in the cooking-vessel；

Motor, it is arranged on the outside of the baking room, for producing rotary driving force；

The rotary body of main body side first, it is arranged on the bottom of the baking room rotary driving force of the motor is transferred into institute State the rotary shaft of the first blade；And

The rotary body of main body side second, it is arranged on the bottom of the baking room rotary driving force of the motor is transferred into institute The rotary shaft of the second blade is stated,

The rotary shaft of second blade is set in the way of the bottom wall of cooking-vessel described in through-thickness insertion, described The end in the outside positioned at the cooking-vessel of the rotary shaft of two blades possesses the rotary body of container side second, the container side Two rotary bodies engage with the rotary body of main body side second.

2. automatic bread baking machine according to claim 1,

The rotary shaft of first blade is set in the way of the bottom wall of cooking-vessel described in through-thickness insertion, described The end in the outside positioned at the cooking-vessel of the rotary shaft of one blade possesses the rotary body of container side first, the container side One rotary body engages with the rotary body of main body side first.

3. automatic bread baking machine according to claim 2,

The rotary shaft of second blade has hollow tubular structure,

The rotary shaft of first blade is arranged on the inside of the rotary shaft of second blade in the way of rotating freely.

4. automatic bread baking machine according to claim 2,

The rotary body of main body side second possesses the holding section of main body side second, the holding section of main body side second and the container side Second rotary body engages,

The holding section of main body side second is arranged on around the rotary body of main body side first.

5. automatic bread baking machine according to claim 3,

The rotary body of main body side second possesses the holding section of main body side second, the holding section of main body side second and the container side Second rotary body engages,

The holding section of main body side second is arranged on around the rotary body of main body side first.

6. the automatic bread baking machine according to any one of claim 2~5,

The rotary body of container side second possesses the holding section of container side second, the holding section of container side second and the main body side Second rotary body engages,

The holding section of container side second is arranged on around the rotary body of container side first.

7. the automatic bread baking machine according to any one of Claims 1 to 5,

The motor is single inverter motor.

8. automatic bread baking machine according to claim 6,

The motor is single inverter motor.

9. the automatic bread baking machine according to any one of Claims 1 to 5,

First blade is the grinding blade crushed to the cereal grain being put into the cooking-vessel,

Second blade is the stirring vane mixed and stirred to the cooking material being put into the cooking-vessel.

10. automatic bread baking machine according to claim 6,

First blade is the grinding blade crushed to the cereal grain being put into the cooking-vessel,

Second blade is the stirring vane mixed and stirred to the cooking material being put into the cooking-vessel.

11. automatic bread baking machine according to claim 7,

First blade is the grinding blade crushed to the cereal grain being put into the cooking-vessel,

Second blade is the stirring vane mixed and stirred to the cooking material being put into the cooking-vessel.

12. the automatic bread baking machine according to any one of Claims 1 to 5,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

13. automatic bread baking machine according to claim 6,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

14. automatic bread baking machine according to claim 7,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

15. automatic bread baking machine according to claim 8,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

16. automatic bread baking machine according to claim 9,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

17. automatic bread baking machine according to claim 10,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.

18. automatic bread baking machine according to claim 11,

The diameter of the rotary body of main body side first is smaller than the diameter of the rotary body of main body side second.