CN217364555U - Grain soaking machine and grain cooking system - Google Patents

Abstract

The utility model relates to a grain soaking machine and grain system of cooking, grain soaking machine includes: the grain containing part is configured to rotate along a vertical rotating axis and comprises a plurality of stewing tanks which are arranged along the circumferential direction of the rotating axis and used for stewing grains in a static mode, and each stewing tank comprises an inlet which is positioned at the upper part of the stewing tank and used for introducing grains to be stewed and an outlet which is positioned at the lower part of the stewing tank and used for outputting the stewed grains; and the grain inlet part is fixedly arranged above the grain accommodating part and is arranged at an interval with the rotating axis so as to convey grains to be braised to the inlet of the braising tank which rotates to the lower part. The grain inlet part can convey grains to be braised to the stewing tanks in sequence, and is favorable for reducing the labor intensity of workers compared with manual grain filling. Meanwhile, the advantages of the static grain stewing process of the traditional grain stewing process are kept.

Description

Grain soaking machine and grain cooking system

Technical Field

The utility model relates to a grain processing machinery field particularly, relates to a grain soaking machine.

Background

Most traditional grain soaking schemes are that containers such as a barrel, a box and a tank are adopted for manual feeding, water adding, draining, discharging and the like, and the schemes do not have the problems of poor sanitation and difficulty in maintaining a plurality of parts in a grain soaking machine in the prior art, but have high manual labor intensity and non-uniform sanitation, and are difficult to realize large industrialization.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a grain stewing machine and grain system of cooking to improve the big problem of intensity of labour that the manual work that prior art exists stewed grain production.

According to the utility model discloses an aspect of embodiment, the utility model provides a grain soaking machine, include:

the grain containing part is configured to rotate along a vertical rotating axis and comprises a plurality of stewing tanks which are arranged along the circumferential direction of the rotating axis and used for stewing grains in a static mode, and each stewing tank comprises an inlet which is positioned at the upper part of the stewing tank and used for introducing grains to be stewed and an outlet which is positioned at the lower part of the stewing tank and used for outputting the stewed grains;

the grain inlet part is fixedly arranged above the grain containing part and is arranged at intervals with the rotating axis so as to convey grains to be braised to the inlet of the braising tank which rotates to the lower part.

In some embodiments, the device further comprises a gate valve for controlling the opening and closing of the outlet of the stewing pot.

In some embodiments of the present invention, the,

the gate valves are arranged in one-to-one correspondence with the braising pots and are arranged on the outlets of the corresponding braising pots; or

The bottom plate that seals a plurality of braising jars is equipped with to grain accommodate the below of part, is provided with the circulation mouth on the bottom plate, and the circulation mouth sets up with the axis interval of rotation to with rotate the export intercommunication to the braising jar above that, the gate valve is established on the circulation mouth.

In some embodiments, the gate valve includes a frame enclosing a passage communicating with the outlet of the pot, the frame being provided with a slot extending in a direction perpendicular to a thickness direction of the frame, and the gate valve further includes a first shutter insertable into the slot to close the outlet or withdrawn from the slot to open the outlet.

In some embodiments, the gate valve further includes a second shutter insertable into the socket to close the outlet or withdrawn from the socket to open the outlet, the first shutter and the second shutter being arranged side by side in a thickness direction of the frame, the second shutter being provided with drain holes.

In some embodiments, the grain soaking machine further comprises:

a first driving part fixed with respect to the grain inlet part and configured to drive the first shutter to be inserted into or withdrawn from the insertion slot;

and a second driving part fixed with respect to the grain inlet part and configured to independently drive the first shutter and the second shutter to be inserted into or withdrawn from the insertion slot, respectively, the second driving part being located upstream of the first driving part in a rotation direction of the grain accommodating part.

In some embodiments, the second ram is located outboard of the first ram.

In some embodiments, the frame is a hollow structure, a hollow inner cavity of the frame is provided with a gas sealing part for sealing the first gate plate and the frame, and the frame is provided with a gas hole communicated with the gas sealing part.

In some embodiments, the grain stewing machine further comprises an annular part which is fixed relative to the grain inlet part and extends along the circumferential direction of the rotation axis, an air supply groove which extends along the circumferential direction of the rotation axis and an air exhaust groove which extends along the circumferential direction of the rotation axis and is arranged side by side with the air supply groove along the circumferential direction of the rotation axis are arranged on the annular part, and the air holes of the flashboard on the stewing tank are alternately communicated with the air supply groove and the air exhaust groove during the rotation of the grain containing part.

In some embodiments, the exhaust slot is circumferentially oriented with the first drive portion about the axis of rotation.

In some embodiments, the grain soaking machine further comprises:

the water inlet part is fixed relative to the grain inlet part, is positioned at the same circumferential direction of the rotation axis with the grain inlet part and is communicated with the same braising tank with the grain inlet part; or

The air outlet component is fixed relative to the grain inlet component, is positioned in the same direction of the circumferential direction of the rotating axis with the grain inlet component and is communicated with the grain inlet component and the same braising tank; or

And the cleaning spray head is fixed relative to the grain inlet part and is used for washing the stewing tank which rotates to the lower part of the cleaning spray head.

According to another aspect of the application, a grain stewing system is further provided and comprises the grain stewing machine.

In some embodiments, the grain cooking system further comprises a first grain cooker in communication with the grain inlet component.

In some embodiments, the grain cooking system further comprises:

the grain preheating machine is communicated with an inlet of the first grain cooking machine; or

The second grain cooking machine is communicated with the outlet of the stewing tank.

In some embodiments, the grain cooking system further comprises a cooling blender in communication with the outlet of the second grain cooker.

By applying the technical scheme, the grain inlet part can convey grains to be braised and soaked to the stewing tanks in sequence, and the grain stewing tank is favorable for reducing the labor intensity of workers for manually filling the grains. Furthermore, the advantages of the static grain stewing process of the traditional grain stewing process are kept.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments of the invention, which proceeds with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 shows a schematic perspective view of a grain soaking machine according to an embodiment of the present invention;

fig. 2 shows a schematic structural view of a grain soaking machine according to an embodiment of the present invention;

fig. 3 shows a schematic top view of the grain soaking machine according to the embodiment of the present invention;

fig. 4 is a schematic view showing the working principle of the grain soaking machine according to the embodiment of the present invention;

fig. 5 shows a schematic structural diagram of a ring-shaped component of the grain soaking machine according to the embodiment of the invention;

fig. 6 shows a schematic structural diagram of a gate valve of a grain stewing machine in an embodiment of the invention;

fig. 7 is a schematic structural diagram of a second driving part of the grain soaking machine according to the embodiment of the present invention; and

fig. 8 shows a schematic structural diagram of a grain cooking system according to an embodiment of the present invention.

In the figure:

1. a grain preheater; 2. a second valve; 3. a first grain cooking machine; 4. a first valve; 5. a grain soaking machine; 6. a third valve; 7. a second grain cooking machine; 8. a fourth valve; 9. cooling the stirrer; 10. a grain inlet component; 20. a grain outlet part; 30. a drain port member; 40. an exhaust port component; 50. a water inlet section; 60. a motor; 70. a gate valve; 71. a frame; 72. air holes; 73. a first shutter plate; 74. a second shutter plate; 75. draining holes; 80. a first driving section; 90. a second driving section; 91. a first drive member; 92. a second drive member; 93. a first moving member; 94. a second moving member; 100. an anti-seepage disc; 110. a base; 120. a grain accommodating part; 12a, stewing in a pot; 130. a rotational axis; 140. an annular member; 141. an air supply groove; 142. an air inlet; 143. an exhaust groove; 144. and (4) exhausting holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the grain smoldering machine includes a grain accommodating part 120 and a grain inlet part 10.

The grain accommodating part 120 is configured to rotate with a vertical rotating axis 130, the grain accommodating part 120 comprises a plurality of stewing pots 12a which are arranged along the circumferential direction of the rotating axis 130 and are used for stewing grains in a static mode, and each stewing pot 12a comprises an inlet which is positioned at the upper part of the stewing pot and is used for introducing grains to be stewed and an outlet which is positioned at the lower part of the stewing pot and is used for outputting the stewed grains; the grain inlet part 10 is fixedly provided above the grain accommodating part 120 and spaced apart from the rotation axis 130 to feed the grain to be braised to the inlet of the braising pot 12a rotated to the lower side thereof.

In this embodiment, the grain inlet part 10 can sequentially convey grains to be braised to the plurality of braising tanks 12a, which is beneficial to reducing the labor intensity of workers compared with manual grain filling. Further, the grain stewing machine of the embodiment keeps the advantages of the static grain stewing process of the traditional grain stewing process, the grain stewing machine of the embodiment is static relative to the inner wall of the tank in the working process, the damage of the grain is reduced by the factor, and the yield is improved.

In the embodiment, the stewing pot 12a is adopted to stew the grains, so that the advantages of the traditional grain stewing scheme of a barrel, a box and a pot are kept; the grain inlet part 10 can convey grains to be braised to a plurality of braising tanks 12a in sequence, so that the process automation is improved. The stewing pots 12a in a plurality of petal forms are circumferentially arranged around the vertical rotating axis 130 and rotate around the rotating axis 130, so that the stewing pots 12a are sequentially filled with grains and unloaded with the grains, and continuous stewing is realized.

Further, the plurality of stewing pots 12a are arranged around the circumferential direction of the rotating axis 130, and the intensive design of the plurality of stewing pots 12a is beneficial to reducing the material consumption. In some embodiments, the stewing pot 12a has a fan shape, the vertex of the fan shape faces the rotation axis 130, and a plurality of fan-shaped stewing pots 12a form a cylindrical grain containing part 120.

In this embodiment, the rotation of the grain accommodating part 120 around the rotation axis 130 is only to adjust the position of the stewing tank 12a, the rotation speed of the grain accommodating part 120 is slow, and the resistance of the load collected on the bearing of the rotation shaft is small, so the required power is small, and the energy-saving advantage is achieved.

In some embodiments, the pot 12a includes a carbon steel frame and a stainless steel plate covering the carbon steel frame, which is advantageous for reducing the cost and ensuring the sanitary requirement and the corrosion resistance of the pot.

As shown in fig. 1 to 3, the grain smoldering machine further comprises a base 110 carrying a grain accommodating part 120, and the grain accommodating part 120 is rotatably mounted on the base 110. The grain soaking machine further comprises a motor 60 for driving the grain accommodating part 120 to rotate.

In some embodiments, the grain smoldering machine further includes an anti-seepage plate 100 for preventing water seepage, which is provided under the grain accommodating part 120.

The grain soaking machine further comprises a plurality of gate valves 70, the gate valves 70 are arranged in one-to-one correspondence with the soaking tanks 12a, and the gate valves 70 are arranged at the outlets of the corresponding soaking tanks 12 a.

The grain stewing machine further comprises a grain outlet part 20 positioned below the grain containing part 120, wherein the grain outlet part 20 is fixed relative to the grain inlet part 10 and is arranged at an interval with the rotating axis 130 so as to be communicated with an outlet of the stewing tank 12a above the rotating shaft, so that grains stewed in the stewing tank 12a are output.

As shown in fig. 1 to 4 and 6 in combination, the gate valve 70 includes a frame 71 disposed around an edge of an outlet of the pot 12a, the frame 71 being provided with a slot extending in a direction perpendicular to a thickness direction of the frame 71, and the gate valve 70 further includes a first shutter 73 insertable into the slot to close the outlet or withdrawn from the slot to open the outlet.

The gate valve 70 further includes a second shutter 74 insertable into the socket to close the outlet or withdrawn from the socket to open the outlet, the first shutter 73 and the second shutter 74 being arranged side by side in a thickness direction of the frame 71, the second shutter 74 being provided with drain holes 75.

The grain smoldering machine further comprises a drain outlet member 30, the drain outlet member 30 is disposed below the grain accommodating member 120 and spaced apart from the rotation axis 130 to communicate with the drain hole 75 of the gate valve 70 on the smoldering pot 12a rotated therebelow.

The grain soaking machine also comprises a first driving part 80 and a second driving part 90. The first driving part 80 is fixed with respect to the grain inlet part 10 and configured to drive the first shutter 73 to be inserted into or withdrawn from the slot. The second driving part 90 is fixed relative to the grain inlet part 10 and is configured to drive the first shutter plate 73 and the second shutter plate 74 to be inserted into or withdrawn from the slot, the second driving part 90 is located at the upstream of the first driving part 80 in the rotation direction of the grain accommodating part 120, in the process that the grain accommodating part 120 rotates to adjust the position of the stewing tank 12a, a certain stewing tank 12a rotates to the position of the first driving part 80, the first driving part 80 opens the first shutter plate 73 to drain the grains in the stewing tank 12a, then rotates to the position of the second driving part 90, and the second rotating part 90 opens the second shutter plate 74 to drain the grains in the stewing tank.

In some embodiments, the first drive portion 80 is oriented circumferentially about the axis of rotation 130 with respect to the drain member 30.

The second driving portion 90 includes a first moving member 93 and a second moving member 94 that move relatively independently, one of the first moving member 93 and the second moving member 94 drives the first shutter 73 to be inserted into or withdrawn from the slot, and the other drives the second shutter 74 to be inserted into or withdrawn from the slot. The second driving part 90 is located at the same orientation as the grain outlet part 20 in the circumferential direction of the rotation axis 130.

As shown in fig. 1 to 4 and 7, the second driving portion 90 includes a first driving part 91 and a second driving part 92 arranged side by side in the vertical direction, and a first moving part 93 and a second moving part 94 belong to the first driving part 91 and the second driving part 92, respectively. The drive member may be a pneumatic or hydraulic cylinder. A first moving member 93 and a second moving member 94 are mounted on the piston rods of the two drive members, respectively.

In some embodiments, the first motion member 93 and the second motion member 94 are both detachable push-pull tabs.

In other embodiments, a bottom plate for closing the plurality of braising cans 12a is provided under the grain accommodating part 120, and a circulation port is provided on the bottom plate, which is spaced apart from the rotation axis 130 to communicate with the outlet of the braising can 12a rotated to the upper side thereof, and the gate valve 70 is provided on the circulation port.

In some embodiments, the second shutter 74 is located outside the first shutter 73, i.e., the second shutter 74 is located below the first shutter 73.

The frame 71 is of a hollow structure, a first flashboard 73 and an air sealing part of the frame 71 are arranged in a hollow inner cavity of the frame 71, an air hole 72 communicated with the air sealing part is arranged on the frame 71, the outlet of the stewing pot 12a is sealed by the gate valve 70, and compared with the open structures of the traditional stewing pots and other stewing equipment, the problems of steam leakage, sewage overflow, overflow and the like are reduced, the steam loss is reduced, namely, the environment is optimized, and the energy is saved. In some embodiments, the airtight seal includes an air bladder extending along the frame 71.

In some embodiments, the pot 12a further includes a cover plate disposed over the inlet thereof. In some embodiments, a cover plate is covered on a plurality of stewing pots 12a, and the cover plate is provided with a circulation port communicated with the grain inlet part 10, and the grain inlet part 10 conveys grains to the stewing pots 12a rotating to the lower part through the circulation port. In the working process of the grain stewing machine in the embodiment, the inlet of the stewing pot 12a is provided with the cover plate, the outlet is provided with the air pressure sealing gate valve 70, and compared with the open structures of the traditional grain stewing pot and other grain stewing devices, the open structure reduces the problems of steam leakage, sewage overflow, overflow and the like, reduces the steam loss, optimizes the environment and saves the energy.

As shown in fig. 5, the grain smoldering machine further comprises an annular member 140 fixed relative to the grain inlet part 10 and extending in a circumferential direction of the rotation axis 130, the annular member 140 is provided with an air supply groove 141 extending in the circumferential direction of the rotation axis 130 and an air discharge groove 143 extending in the circumferential direction of the rotation axis 130 and arranged side by side with the air supply groove 141 in the circumferential direction of the rotation axis 130, and the air holes 72 of the gate valve 70 on the smoldering pot 12a alternately communicate with the air supply groove 141 and the air discharge groove 143 during rotation of the grain accommodating part 120.

The exhaust groove 143 is located at the same position in the circumferential direction of the rotation axis 130 as the first driving portion 80.

As shown in fig. 5, the ring member 140 is further provided with an air inlet 142 communicating with the air supply groove 141 and an air outlet 144 communicating with the air outlet groove 143.

In this embodiment, an independent discharge double-layer airtight gate valve 70 is provided at the outlet of the braising pot 12a, and the gate valve 70 sequentially passes through a pressurization region (air supply groove 141) and a pressure release region (air discharge groove 143) of the rotary joint to realize the airtight inflation and deflation operation in the rotation process of the braising pot 12 a.

The grain soaking machine also comprises a water inlet component 50 and an air outlet component 40. The water inlet part 50 is fixed relative to the grain inlet part 10 and is positioned at the same direction of the circumference of the rotating axis 130 with the grain inlet part 10 so as to be communicated with the grain inlet part 10 and the same stewing tank 12 a; the air outlet part 40 is fixed relative to the grain inlet part 10 and is positioned at the same orientation with the grain inlet part 10 in the circumferential direction of the rotation axis 130 so as to communicate with the grain inlet part 10 and the same braising pot 12 a.

In the process of rotating the grain containing part 120, when the stewing tank 12a rotates to the positions of the grain inlet part 10, the air outlet part 40 and the water inlet part 50, grains to be stewed are conveyed to the stewing tank 12a through the grain inlet part 10, water for stewing the grains is injected into the stewing tank 12a through the water inlet part 50, and air in the stewing tank 12a is exhausted through the air outlet part 40.

After the grains after being braised for a predetermined time move to the orientation of the first driving part 80 along with the braising pot 12a, the air discharge groove 143 is communicated with the air hole 72 of the gate valve 70 on the braising pot 12a, the air in the air-tight sealing part is discharged through the air discharge groove 143 and the air discharge hole 144, and the air hole 72 of the gate valve 70 on the other braising pot 12a is communicated with the air supply groove 141. The first driving portion 80 opens the first shutter 73 of the gate valve 70 of the corresponding pot 12a, and the water in the pot 12a is drained through the drain hole 75 and the drain member 30.

Then, the braising pot 12a is further rotated to the position of the second driving part 90, the second driving part 90 opens the second shutter 74, and the grain in the braising pot 12a is discharged through the grain outlet part 20. Since the first shutter 73 has been opened by the first driving portion 80, only the second shutter 74 needs to be opened.

After the grains are discharged, the second driving part 90 closes the first and second shutters 73 and 74 of the gate valve 70 of the pot 12a, the pot 12a further rotates, then the air hole 72 of the gate valve 70 of the pot 12a communicates with the air supply duct 141, and the pot 12a rotates again to a position below the grain inlet part 10, the air outlet part 40, and the water inlet part 50, and then the grains and the water for soaking the grains are injected.

The cleaning spray head is arranged on the cover plate at the top of the stewing pot 12a and is used for spraying liquid or gas for cleaning the stewing pot 12 a. Specifically, the cleaning nozzle is arranged above the outlet of the stewing tank 12a, optionally, the cleaning nozzle is arranged on the top cover of the stewing tank 12a, and the stewing tank can be washed after each discharge to remove residual materials adhered to the inner wall. It can also be used for cleaning in production stop.

In some embodiments, a cleaning spray head is secured to the cover plate and spaced from the axis of rotation 130 to clean the pot 12a rotated thereunder. When the stewing pot 12a passes through the cleaning nozzle in the process of rotating around the rotating axis 130, the stewing pot 12a can be cleaned, and the sanitary standard in the grain processing process is further ensured.

In this embodiment, when the braising tank 12a rotates to a position below the grain inlet part 10, the air outlet part 40 and the water inlet part 50, grains and water for braising the grains are added into the braising tank 12 a. When the braising pot 12a rotates until the air hole 72 of the gate valve 70 is communicated with the air discharge groove 143, the air in the air sealing part is discharged, the first driving part 80 opens the first gate plate 73 of the gate valve 70 on the corresponding braising pot 12a, the water in the braising pot 12a is discharged through the draining hole 75 and the water discharge opening part 30, the braising pot 12a further rotates to the position of the second driving part 90, the second driving part 90 opens the second gate plate 74, and the grains in the braising pot 12a are discharged through the grain outlet part 20.

According to another aspect of the application, a grain cooking system is also provided, which comprises a grain stewing machine 5.

As shown in fig. 8, the grain cooking system further includes a first grain cooking machine 3 communicating with the grain inlet part 10 and a first valve 4 provided between the first grain cooking machine 3 and the grain inlet part 10.

The grain cooking system also comprises a grain preheating machine 1 and a second grain cooking machine 7, wherein the grain preheating machine 1 is communicated with an inlet of the first grain cooking machine 3; the second grain cooking machine 7 is communicated with the outlet of the stewing pot 12 a.

The grain cooking system also comprises a second valve 2 arranged between the grain preheating machine 1 and the first grain cooking machine 3 and a third valve 6 arranged between the outlet of the grain stewing machine 5 and the second grain cooking machine 7.

The grain cooking system further comprises a cooling mixer 9 communicating with the outlet of the second grain cooking machine 7 and a fourth valve 8 arranged between the second grain cooking machine 7 and the cooling mixer 9.

In the embodiment, the grain preheating machine 1, the first grain cooking machine 3, the grain stewing machine 5, the second grain cooking machine 7 and the cooling stirrer 9 are arranged from top to bottom in the vertical direction once so as to realize the conveying of grains to the downstream process by using gravity.

The above description is only exemplary embodiments of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The above are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. A grain soaking machine is characterized by comprising:

the grain containing part (120) is configured to rotate along a vertical rotating axis (130), the grain containing part (120) comprises a plurality of stewing tanks (12a) which are arranged along the circumferential direction of the rotating axis (130) and used for stewing grains in a static mode, and each stewing tank (12a) comprises an inlet which is positioned at the upper part of the stewing tank and used for introducing the grains to be stewed and an outlet which is positioned at the lower part of the stewing tank and used for outputting the stewed grains;

and the grain inlet part (10) is fixedly arranged above the grain accommodating part (120) and is arranged at an interval with the rotating axis (130) so as to convey grains to be braised to the inlet of the braising tank (12a) which rotates to the lower part.

2. The grain stewing machine according to claim 1, further comprising a gate valve (70) for controlling the opening and closing of the outlet of the stewing tank (12 a).

3. The grain soaking machine as claimed in claim 2,

the gate valves (70) are arranged in one-to-one correspondence with the braising cans (12a), and the gate valves (70) are arranged at the outlets of the corresponding braising cans (12 a); or

A bottom plate for sealing the stewing tanks (12a) is arranged below the grain containing part (120), a circulation port is arranged on the bottom plate, the circulation port and the rotating axis (130) are arranged at intervals so as to be communicated with an outlet of the stewing tank (12a) which rotates to the upper side of the circulation port, and the gate valve (70) is arranged on the circulation port.

4. The grain smoldering machine according to claim 2 or 3, characterized in that said gate valve (70) comprises a frame (71) enclosing a channel communicating with an outlet of said smoldering pot (12a), said frame (71) being provided with a slot extending in a direction perpendicular to a thickness direction of said frame (71), said gate valve (70) further comprising a first shutter plate (73) insertable into said slot to close said outlet or withdrawn from said slot to open said outlet.

5. The grain smoldering machine as claimed in claim 4, wherein said gate valve (70) further comprises a second shutter plate (74) insertable into said insertion slot to close said outlet or withdrawn from said insertion slot to open said outlet, said first shutter plate (73) and said second shutter plate (74) are arranged side by side along a thickness direction of said frame (71), and said second shutter plate (74) is provided with a drainage hole (75).

6. The grain soaking machine as claimed in claim 5, further comprising:

a first driving part (80) fixed with respect to the grain inlet part (10) and configured to drive the first shutter (73) to be inserted into or withdrawn from the insertion slot;

a second driving part (90) fixed with respect to the grain inlet part (10) and configured to independently drive the first and second shutters (73, 74) to respectively insert into or exit from the insertion slot, the second driving part (90) being located upstream of the first driving part (80) in a rotational direction of the grain accommodating part (120).

7. The grain smoldering machine according to claim 5, characterized in that said second shutter (74) is located outside said first shutter (73).

8. The grain soaking machine according to claim 5, wherein the frame (71) is a hollow structure, a first gate plate (73) and an air sealing component for sealing the frame (71) are arranged in a hollow inner cavity of the frame, and an air hole (72) communicated with the air sealing component is arranged on the frame (71).

9. The grain smoldering machine as claimed in claim 8, further comprising an annular member (140) fixed to said grain inlet part (10) and extending in a circumferential direction of said rotation axis (130), said annular member (140) being provided with a gas supply groove (141) extending in the circumferential direction of said rotation axis (130) and a gas discharge groove (143) extending in the circumferential direction of said rotation axis (130) and arranged side by side with said gas supply groove (141) in the circumferential direction of said rotation axis (130), said gas holes (72) of said gate valve (70) on said smoldering pot (12a) being alternately communicated with said gas supply groove (141) and said gas discharge groove (143) during rotation of said grain accommodating part (120).

10. The grain smoldering machine as claimed in claim 9, characterized in that said air discharge groove (143) is located at the same orientation in a circumferential direction of said rotation axis (130) as a first driving portion (80) driving said first shutter plate (73) to be inserted into or withdrawn from said insertion groove.

11. The grain soaking machine as claimed in claim 1, further comprising:

the water inlet part (50) is fixed relative to the grain inlet part (10), is positioned at the same direction of the circumferential direction of the rotating axis (130) with the grain inlet part (10), and is communicated with the grain inlet part (10) and the stewing tank (12 a); and/or

An air outlet member (40) fixed relative to the grain inlet member (10) and located at the same direction of the rotation axis (130) and the grain inlet member (10) in the circumferential direction so as to be communicated with the grain inlet member (10) and the same braising tank (12 a); and/or

And the cleaning spray head is fixed relative to the grain inlet part (10) and is used for flushing the stewing tank (12a) which rotates to the lower part.

12. A grain cooking system, characterized in that it comprises a grain smoldering machine (5) according to any of the claims from 1 to 11.

13. The grain cooking system according to claim 12, further comprising a first grain cooking machine (3) in communication with the grain inlet component (10).

14. The grain cooking system of claim 13, further comprising:

the grain preheating machine (1) is communicated with an inlet of the first grain cooking machine (3); or

And the second grain cooking machine (7) is communicated with the outlet of the stewing tank (12 a).

15. The grain cooking system according to claim 14, further comprising a cooling blender (9) in communication with an outlet of the second grain cooking machine (7).

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