CN110540924B - Solid-state distilled spirit distillation steamer feeding machine - Google Patents

Abstract

The invention discloses a solid-state white spirit distillation retort feeding and distributing machine, relates to the technical field of white spirit distillation equipment, and is mainly used for solving the problem of non-uniform manual feeding. The main structure is as follows: including rabbling mechanism and feeding mechanism, feeding mechanism's discharge end is connected with cloth mechanism, cloth mechanism includes vertical upper portion feed bin that communicates in proper order and can rotate the unloading section of thick bamboo around axial pivoted, the inside unloading little storehouse that is equipped with of rotatory unloading section of thick bamboo around its axle center setting and opening ascending, unloading little storehouse lower part is equipped with the discharge gate that both ends extend to the axle center and the edge of rotatory unloading section of thick bamboo respectively, the discharge gate below is equipped with and closes close to the discharge gate setting and rather than the electronic cylinder of unloading that the syntropy extends, the below of rotatory unloading section of thick bamboo is equipped with the steamer bucket. The distilled spirit feeding and distributing machine for the solid-state distilled spirit can automatically and uniformly distribute fermented grains in the distilled spirit barrel, so that labor is saved, and meanwhile, the production quality is guaranteed.

Description

Solid-state distilled spirit distillation steamer feeding machine

Technical Field

The invention relates to the technical field of white spirit distillation equipment, in particular to a distillation retort feeding and distributing machine for white spirit by a solid state method.

Background

The traditional distillation equipment for the white spirit by the solid state method in China is a retort barrel. The distilled grain material is prepared by the processes of proportioning, mixing, grain wetting and retort distillation, and has great influence on the liquor yield and the liquor quality. The bran can be added only 5-10 minutes before the material distribution, and the bran is required to be accurately mixed and uniformly mixed. In addition, the steaming process has strict technical requirements and takes loose, light, accurate, thin, even and flat six as the principle. The fermented grain materials are loosened, the steamer filling action is light and handy, the cover material is accurate, the fermented grain materials are not suitable to be paved too thick at one time, the spreading and the steam feeding are uniform, and the fermented grain materials are required to be leveled from bottom to top.

The traditional retort operation is mainly finished manually. The worker pours a certain weight of cooked (cold) bran (23-27% of grain powder ratio) onto the grain lees pile for mixing according to experience 5-10 minutes before feeding the materials into the steamer. This results in a greater accuracy in the preparation of bran being affected by artifacts.

In addition, when the fermented grains are distributed, an operator generally stands beside the steamer barrel, and the fermented grains are scattered into the steamer barrel by using an iron shovel one by one. Each shovel material is scattered into the steamer barrel, and the shovel material is paved in the steamer barrel under the condition that the stacking densities are inconsistent, namely the edges of the shovel material are loose and the centers of the shovel material are dense. Because the diameter of the steamer barrel is larger, the distance feeding force of operators is different, and the stacking density is different. Meanwhile, as the steamer barrel is large in area, a plurality of shovels are required to be spread on each layer, a certain time is required to spread one layer of material, so that the steamer surface can not be penetrated by steam to obtain the timely compression and condensation of the cold material, and the wine leakage phenomenon can occur.

Therefore, the manual feeding is difficult to achieve consistent bulk density, and the steam penetration of the whole steamer is inconsistent. If the synchronous steam penetration during covering can not be realized on the surface layer vinasse surface of the steamer, the head and tail impurities are mixed and flow out during distillation, so that the first-grade wine yield is reduced.

In addition, the artificial shovel material can increase the physical effort of operators. With the lapse of time, operating personnel's physical power declines, spills the material quality and can further decline, can not guarantee the quality of production.

Therefore, a novel solid-state method white spirit distillation retort-feeding distributing machine capable of solving the defects is urgently needed at present.

Disclosure of Invention

The invention aims to provide a distilled spirit feeding and distributing machine by a solid-state method, which can automatically and uniformly distribute fermented grains in a distilled barrel, so that labor is saved, and meanwhile, the production quality is ensured.

In order to achieve the above purpose, the invention provides a solid-state white spirit distillation retort feeding and distributing machine, which comprises a stirring mechanism and a feeding mechanism, wherein the discharging end of the feeding mechanism is connected with a distributing mechanism, the distributing mechanism comprises an upper bin and a rotary discharging barrel which are vertically and sequentially communicated, the rotary discharging barrel can rotate around an axial direction, a discharging small bin which is arranged around the axis of the rotary discharging barrel and is provided with an upward opening is arranged in the rotary discharging barrel, the lower part of the discharging small bin is provided with a discharging hole of which the two ends extend towards the axis and the edge of the rotary discharging barrel respectively, a discharging electric roller which is arranged close to the discharging hole and extends in the same direction is arranged below the discharging hole, and a retort barrel which is coaxially arranged below the rotary discharging barrel and has the same diameter is arranged below the rotary discharging barrel.

As a further improvement of the invention, the distributing mechanism further comprises a frame for mounting the upper bin and the rotary blanking cylinder, and a driving device for driving the rotary blanking cylinder to axially rotate is arranged on the frame.

As a further improvement of the invention, the outer wall of the rotary blanking barrel is provided with a pin wheel which is arranged around the axle center of the rotary blanking barrel, and the power output end of the driving device is provided with a transmission gear which is meshed with the pin wheel; the stand is also provided with a riding wheel device for supporting the pin wheel.

As a further improvement of the invention, a blanking cylinder top plate is arranged at the upper part of the inner wall of the rotary blanking cylinder, the upper opening of the blanking small bin is connected with the lower plate surface of the blanking cylinder top plate, and a material leakage opening corresponding to the opening of the blanking small bin is arranged on the blanking cylinder top plate.

As a further improvement of the invention, an electric wire leading-in pipe which penetrates through the blanking cylinder top plate and extends downwards is arranged at the axis of the blanking cylinder top plate, an electric conduction slip ring is arranged at the upper end of the electric wire leading-in pipe, a protective cover is arranged outside the electric conduction slip ring, and a wire which is electrically connected with the blanking electric cylinder is arranged in the electric wire leading-in pipe.

As a further improvement of the invention, the lower shaft center in the rotary blanking cylinder is provided with a mounting part, the shaft centers of the end surfaces of the two ends of the blanking electric cylinder are provided with mounting shafts, and the mounting shafts on the two end surfaces are respectively connected with the mounting part and the inner wall of the rotary blanking cylinder.

As a further improvement of the invention, the outer walls of the two sides of the discharge hole along the extending direction of the discharge hole are respectively provided with a discharge movable adjusting door plate and an elastic baffle plate.

As a further improvement of the invention, the stirring mechanism comprises a mother grain bin and a cooked bran bin which are arranged oppositely, wherein a conveying belt for conveying fermented grains oppositely is arranged below the mother grain bin and the cooked bran bin, a mixing tank with one end being a discharge end is arranged between the two conveying belts, and a feeding screw rod which is arranged along the extending direction of the mixing tank and can axially rotate is arranged in the mixing tank.

As a further improvement of the invention, a bin cover is arranged at the upper part of the mother grain bin, and a weighing sensor for weighing the weight of the fermented grains on the conveying belt is arranged below the conveying belt.

As a further improvement of the invention, the feeding structure comprises a feeding belt and a movable bracket for installing the feeding belt, wherein one end of the feeding belt is arranged below the discharging end of the stirring mechanism, and the other end of the feeding belt is arranged above the upper bin.

Advantageous effects

Compared with the prior art, the distillation retort feeding and distributing machine for the white spirit by the solid state method has the advantages that:

1. according to the invention, through synchronous rotation of the axially-rotating blanking cylinder and the blanking electric cylinder, the fermented grain material is fed into the steamer barrel in a rotary scattering mode by taking the axle center of the steamer barrel as the center. Meanwhile, the rotary blanking barrel and the steamer barrel are coaxially arranged and have the same diameter. The fermented grains can be uniformly scattered in the steamer barrel layer by layer in the scattering process. The device can replace the manual work, and is automatic evenly to scatter fermented grain material in the rice steamer bucket, can improve output, quality, reduce grain consumption, reduce cost of labor etc. simultaneously, can also make enterprise's product cost reduce, improves enterprise economic benefits and competitiveness.

2. Meanwhile, a pin wheel which is arranged around the axle center of the rotary blanking cylinder is arranged on the outer wall of the rotary blanking cylinder. The power output end of the driving device is provided with a transmission gear meshed with the pin wheel. The stand is also provided with a riding wheel device for supporting the pin wheel. The transmission gear is meshed with the pin wheel, and the pin wheel is matched with the riding wheel device for supporting the pin wheel, so that the rotating stability and the uniform speed of the rotary discharging barrel can be ensured, the fermented grain materials are uniformly distributed, and the product quality is improved.

3. The upper part of the inner wall of the rotary blanking cylinder is provided with a blanking cylinder top plate. The opening of the discharging small bin is connected with the lower plate surface of the top plate of the discharging barrel. And a material leakage opening corresponding to the opening of the discharging small bin is arranged on the discharging cylinder top plate. The design of feed cylinder roof and weeping mouth has guaranteed that fermented grain material enters into the unloading capsule from the weeping mouth, can not appear the condition that the fermented grain material was missed from other places, has guaranteed operational environment's cleanness, has avoided the waste of fermented grain material.

4. The upper end of the wire leading-in pipe is provided with a conductive slip ring, and the outside of the conductive slip ring is provided with a protective cover. By arranging the anti-slip cover, the fermented grains containing moisture are prevented from being directly covered on the conductive slip ring, and adverse effects such as corrosion and the like are caused on the conductive slip ring, so that the normal operation of the conductive slip ring is ensured. Similarly, a wire electrically connected with the blanking motorized pulley is arranged in the wire introducing pipe. The lead is arranged in the wire leading-in pipe, so that adverse effects caused by direct contact of the fermented grain materials containing moisture and the lead are avoided.

5. The outer walls of the two sides of the discharge hole along the extending direction are respectively provided with a discharge movable adjusting door plate and an elastic baffle plate. The position of the door plate is adjusted through adjusting the discharging activity, so that the discharging amount of the fermented grain material can be controlled, and the excessive/insufficient discharging amount of the fermented grain material in unit time is avoided.

6. The mixing tank is internally provided with a feeding screw rod which is arranged along the extending direction and can axially rotate. Through axial pivoted feeding screw, can stir the unstrained spirits material when carrying the unstrained spirits material, and the tooth nail that follows the helix setting on the feeding screw is very excellent to the stirring effect of scattering of unstrained spirits material, two purposes.

7. The upper part of the mother grain bin is provided with a bin cover, and a weighing sensor for weighing the weight of the fermented grains on the conveying belt is arranged below the conveying belt. The storage bin cover can effectively reduce volatilization loss of fermented grains in the mother grain storage bin, and ensures product quality. Meanwhile, the arrangement of the weighing sensor can better control the feeding quantity and the batching quantity, manual batching is not needed, and the automation degree of the whole equipment is improved while manual labor is saved.

The invention will become more apparent from the following description taken in conjunction with the accompanying drawings which illustrate embodiments of the invention.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a top view of the overall structure of the present invention;

FIG. 4 is a block diagram of the distributing mechanism of the present invention;

FIG. 5 is an enlarged view of part B of FIG. 4;

FIG. 6 is a top view of the rotary blanking cartridge and frame of the present invention;

FIG. 7 is a perspective view of the blanking cartridge of the present invention;

FIG. 8 is a front view of the blanking cartridge of the present invention

Fig. 9 is a structural view of the stirring mechanism of the present invention.

Wherein: 1-a stirring mechanism; 11-a mother grain bin; 12-a cooked bran bin; 13-a bin cover; 14-a conveyor belt; 15-a material mixing groove; 16-a feeding screw; 2-a feeding mechanism; 21-moving the support; 22-feeding belt; 3-an upper bin; 31-a feed hopper; 32-pushing plates; 4-rotating a blanking cylinder; 41-blanking cylinder top plate; 42-pin wheel; 43-mounting part; 5-blanking a small bin; 51-discharging movable adjusting door plate; 52-a spring baffle; 53-a discharge hole; 6-blanking an electric roller; 61-wire introduction tube; 62-conductive slip rings; 63-protecting cover; 64-mounting a shaft; 7-a frame; 71-riding wheel device; 72-positioning a catch wheel; 73-a drive device; 74-a transmission gear; 8-steamer barrel.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation or be constructed and operated in a specific orientation, and thus they should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; of course, it may be mechanically or electrically connected; in addition, the connection may be direct, indirect via an intermediate medium, or communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Examples

The specific embodiment of the invention is shown in figures 1-9, and the distillation retort feeding and distributing machine for the white spirit by a solid state method comprises a stirring mechanism 1 and a feeding mechanism 2. The discharge end of the feeding mechanism 2 is connected with a material distributing mechanism. Through the equipment, the raw materials for steaming wine can be stirred into fermented grains, and the fermented grains are uniformly spread into the steamer barrel layer by layer.

Wherein, cloth mechanism includes upper portion feed bin 3 that vertical to communicate in proper order and can axial pivoted rotatory feed cylinder 4 down. The rotary blanking barrel 4 is internally provided with a blanking small bin 5 which is arranged around the axle center of the rotary blanking barrel and has an upward opening. The lower part of the discharging small bin 5 is provided with a discharging hole 53 with two ends respectively extending to the axle center and the edge of the rotary discharging barrel 4; a discharging electric roller 6 which is arranged close to the discharging hole 53 and extends in the same direction with the discharging hole 53 is arranged below the discharging hole 53, namely, the discharging hole 53 and the discharging electric roller 6 are arranged at the axial center of the rotary discharging barrel 4 at one end, and the other end is arranged at the edge of the rotary discharging barrel 4. In this embodiment, a retort 8 which is coaxial with the rotary blanking barrel 4 and has the same diameter is arranged below the rotary blanking barrel 4.

By the synchronous rotation of the axially rotating blanking cylinder 4 and the blanking electric roller 6, the fermented grain materials are fed into the steamer barrel 8 in a rotary scattering mode by taking the axle center of the steamer barrel 8 as the center. Meanwhile, the rotary blanking barrel 4 and the steamer barrel 8 are coaxially arranged and have the same diameter. The fermented grains can be uniformly scattered in the steamer barrel 8 layer by layer in the scattering process. The device can replace the manual work, and is automatic evenly to scatter fermented grain material in steamer bucket 8, can improve output and the quality of wine, reduces grain consumption and cost of labor, simultaneously, can also make enterprise's product cost reduce, improves enterprise economic benefits and competitiveness.

Meanwhile, the distributing mechanism further comprises a frame 7 for mounting the upper bin 3 and the rotary blanking cylinder 4. The frame 7 is provided with a driving device 73 for driving the rotary blanking barrel 4 to axially rotate. In this embodiment, the driving device 73 is a servo motor, which can control the rotation speed of the rotary blanking barrel 4, further control the process parameters such as the thickness of each layer of cloth and the distribution time of each layer of cloth in the retort barrel 8, and further ensure stable high quality and high yield.

The outer wall of the rotary blanking cylinder 4 is provided with a pin wheel 42 arranged around the axis of the rotary blanking cylinder. The power take-off of the drive 73 is provided with a transmission gear 74 which meshes with the peg wheel 42. The frame 7 is also provided with a riding wheel device 71 for supporting the pin wheel 42. The transmission gear 74 is meshed with the pin wheel 42, and is matched with the riding wheel device 71 for supporting the pin wheel 42, so that the rotating stability and the uniform speed of the rotary blanking cylinder 4 can be ensured, the uniform scattering of fermented grains is further ensured, and the product quality is improved. In this embodiment, the frame 7 is further provided with a plurality of positioning wheels 72 disposed around the rotary blanking barrel 4, so as to limit the axial center of the rotary blanking barrel 4 from being displaced and to rotate only in one place.

A blanking cylinder top plate 41 is provided on the upper portion of the inner wall of the rotary blanking cylinder 4. The upper opening of the blanking small bin 5 is connected with the lower plate surface of the blanking cylinder top plate 41. The blanking cylinder top plate 41 is provided with a material leakage opening corresponding to the opening of the blanking small bin 5. The lower part of the inner wall of the upper bin 3 is provided with a pushing plate 32 with the lower edge contacted with the upper plate surface of the lower barrel top plate 41. The design of the blanking cylinder top plate 41 and the material leakage opening ensures that the fermented grain material enters the blanking small bin 5 from the material leakage opening, the condition that the fermented grain material is omitted from other places can not occur, the cleaning of the working environment is ensured, and the waste of the fermented grain material is avoided. Meanwhile, due to the arrangement of the pushing plate 32, in the rotation process of the rotary blanking cylinder 4, the pushing plate 32 can scrape off the fermented grain materials which do not fall into the material leakage opening on the blanking cylinder top plate 41, and push the fermented grain materials into the material leakage opening.

In the present embodiment, a wire introduction pipe 61 extending downward through the lower cartridge top plate 41 is provided at the axial center of the lower cartridge top plate 41. The upper end of the wire introduction tube 61 is provided with a conductive slip ring 62. The conductive slip ring 62 is externally provided with a shield 63. By arranging the anti-slip cover 63, the fermented grains containing moisture are prevented from being directly covered on the conductive slip ring 62, and adverse effects such as corrosion and the like are generated on the conductive slip ring 62, so that the normal operation of the conductive slip ring 62 is ensured. Meanwhile, a wire electrically connected to the discharging motorized pulley 6 is provided in the wire introduction tube 61. The lead wire is provided in the wire introduction pipe 61, so that adverse effects caused by direct contact of the fermented grain material containing moisture with the lead wire can be avoided.

Further, an attachment portion 43 is provided at the lower axial center in the rotary blanking cylinder 4. Mounting shafts 64 are arranged at the axle centers of the end surfaces of the two ends of the blanking motorized pulley 6. The mounting shafts 64 on both end surfaces are connected to the mounting portion 43 and the inner wall of the rotary blanking cylinder 4, respectively. In this embodiment, the blanking motorized pulley 6 is a tapered pulley having a cross-sectional area gradually increasing from the axis of the blanking chamber 5 toward the edge. And the upper surface of the tapered roller is parallel to the discharge port 53.

The discharging opening 53 of the discharging small bin is respectively provided with a discharging movable adjusting door plate 51 and an elastic baffle plate 52 along the extending direction. By adjusting the gap between the discharging movable adjusting door plate 51 and the discharging electric roller 6, the discharging amount of the fermented grain material can be controlled, and the excessive/insufficient discharging amount of the fermented grain material in unit time is avoided.

It should be noted that:

the stirring mechanism 1 comprises a mother grain bin 11 and a cooked bran bin 12 which are arranged oppositely. And a conveying belt 14 for conveying fermented grains is arranged below the mother grain bin 11 and the cooked bran bin 12. A mixing tank 15 with one end being a discharge end is arranged between the two conveying belts 14, and a feeding screw 16 which is arranged along the extending direction of the mixing tank 15 and can axially rotate is arranged in the mixing tank. Through axial pivoted feeding screw 16, can stir the unstrained spirits material when carrying the unstrained spirits material, and the tooth nail that follows the helix setting on feeding screw 16 is very excellent to the stirring effect of scattering of unstrained spirits material, two purposes.

The upper part of the mother grain bin 11 in the embodiment is provided with a bin cover 13. A weighing sensor 17 for weighing the fermented grain material on the conveyor belt 14 is arranged below the conveyor belt 14. The storage bin cover 13 can effectively reduce volatilization loss of fermented grains in the mother grain storage bin 11, and ensures product quality. Meanwhile, the feeding quantity and the batching quantity can be better controlled through the arrangement of the weighing sensor 17, manual batching is not needed, and the automation degree of the whole equipment is improved while manpower is saved.

The feeding mechanism 2 includes a feeding belt 22 and a moving bracket 21 for mounting the feeding belt 22. One end of the feeding belt 22 is arranged below the discharge end of the stirring mechanism 1, and the other end is arranged above the upper bin 32. A feeding funnel 31 with an opening facing the discharge end of the feeding belt 22 is connected above the upper bin 3.

The using method of the device comprises the following steps:

taking a retort mother tank 1h before loading, pouring grain powder into the mother tank (30 min before the first retort) for mixing and moistening, then placing into a mother tank storage bin 11 of a stirring mechanism 1, and covering a storage bin cover 13 to reduce volatilization loss.

5-10min before steaming, the distributing mechanism is moved to the upper part of the steamer barrel 8 and aligned with the center of the steamer barrel 8. Starting the stirring mechanism 1, and conveying the uniformly mixed fermented grains into an upper bin 3 of the distributing mechanism; starting a driving device 73 on the frame 7, and driving a pin wheel 42 to rotate by a transmission gear 74 so as to rotate the discharging barrel 4; pushing plate 32 pushes the material on the inner top plate 41 of the rotary blanking cylinder into the blanking small bin 5; when the rotary blanking cylinder 4 rotates, the blanking small bin 5 and the blanking electric roller 6 which are arranged in the rotary blanking cylinder are driven to revolve around the central axis of the steamer barrel 8.

When the discharging is needed after 5-10min, a driving device of the discharging electric roller 6 is started, the discharging electric roller 6 rotates, and fermented grains in the discharging small bin 5 are driven by the surface of the discharging electric roller 6 to flow out from the discharging hole 53 and fall into the steamer barrel 8.

The materials output by the stirring mechanism 1 are continuously sent into the upper bin 3 of the distributing mechanism. The input quantity and output quantity of the material distributing mechanism are completed by a specially designed control system. The thickness of the material layer and the material distribution speed are related to the rotating speed of the blanking electric roller 6, the rotating speed of the rotary blanking cylinder 4, the size of the discharging movable adjusting door plate 51 and the like. The opening size of the door plate 51 can be adjusted by collecting the relevant technological parameters in the steamer barrel 8. When the clearance between the discharging movable adjusting door plate 51 and the discharging electric roller 6 is fixed, the control of the material distribution speed and the material layer thickness can be realized by adjusting the rotation speed of the rotary discharging cylinder 4 or the rotation speed of the discharging electric roller 6. The material distribution process can be accurately controlled by adopting multipoint control, so that the traditional retort feeding process is more completely duplicated, and the method is superior to the traditional manual retort feeding process.

The control key points of the device are as follows:

1. the ingredients are accurate, the stirring is uniform, the stirring is quick, the times are not excessive, and the time is not excessively long.

2. When the temperature of the material surface in the steamer barrel 8 rises and material is required to be distributed, the pin wheel 42 drives the rotary blanking barrel 4 to rotate, and then drives the blanking small bin 5 to revolve. Simultaneously, the blanking electric roller 6 is started to rotate, so that fermented grains in the blanking small bin 5 are pushed out to uniformly fall into the steamer barrel 8 along the radial direction of the steamer barrel 8.

When the discharging small bin 5 rotates for one circle, the fermented grains are paved in one or more layers in the steamer barrel 8. After filling the fermented grains in the steamer barrel 8, removing the material distribution mechanism, and scraping the fermented grains in the steamer barrel 8 into middle and low side heights (the middle is slightly lower than 40-50 mm) by using a wood scraper by an operator; after scraping, the air passing and covering disc is carried out, the steam passing bent pipe is connected, sealing water at the pipe opening at the joint of the edge of the steamer barrel 8 and the bent pipe is filled, and the steamer feeding and distributing process is completed. The time for filling a retort 8 is generally about 40-50 minutes, depending on the capacity of the retort 8 and the steam pressure and temperature, as in the conventional retort filling method.

The invention has been described in connection with the preferred embodiments, but the invention is not limited to the embodiments disclosed above, but it is intended to cover various modifications, equivalent combinations according to the essence of the invention.

Claims (8)

1. The solid-state white spirit distillation retort feeding and distributing machine comprises a stirring mechanism (1) and a feeding mechanism (2), and is characterized in that the discharging end of the feeding mechanism (2) is connected with a distributing mechanism, the distributing mechanism comprises an upper bin (3) and a rotary discharging barrel (4) which are communicated vertically and sequentially, the rotary discharging barrel (4) is internally provided with a discharging small bin (5) which is arranged around the axis of the rotary discharging barrel and is provided with an upward opening, the lower part of the discharging small bin (5) is provided with a discharging hole (53) the two ends of which extend towards the axis and the edge of the rotary discharging barrel (4) respectively, a discharging electric roller (6) which is arranged close to the discharging hole (53) and extends in the same direction as the discharging hole is arranged below the discharging hole, and a retort barrel (8) which is coaxially arranged below the rotary discharging barrel (4) and has the same diameter is arranged below the rotary discharging barrel (4);

the material distribution mechanism further comprises a frame (7) for mounting the upper bin (3) and the rotary blanking barrel (4), a driving device (73) for driving the rotary blanking barrel (4) to axially rotate is arranged on the frame (7), a pin wheel (42) arranged around the axis of the pin wheel is arranged on the outer wall of the rotary blanking barrel (4), and a transmission gear (74) meshed with the pin wheel (42) is arranged at the power output end of the driving device (73); the stand (7) is also provided with a riding wheel device (71) for supporting the pin wheel (42).

2. The solid state method white spirit distillation retort feeding and distributing machine according to claim 1, wherein a discharging barrel top plate (41) is arranged at the upper part of the inner wall of the rotary discharging barrel (4), the upper opening of the discharging small bin (5) is connected with the lower plate surface of the discharging barrel top plate (41), and a material leakage opening corresponding to the opening of the discharging small bin (5) is arranged on the discharging barrel top plate (41).

3. The solid state method white spirit distillation retort feeding and distributing machine according to claim 2, wherein an electric wire introducing pipe (61) penetrating through the blanking cylinder top plate (41) and extending downwards is arranged at the axis of the blanking cylinder top plate (41), an electric slip ring (62) is arranged at the upper end of the electric wire introducing pipe (61), a protective cover (63) is arranged outside the electric slip ring (62), and a wire electrically connected with the blanking electric roller (6) is arranged in the electric wire introducing pipe (61).

4. The solid state method white spirit distillation retort feeding and distributing machine according to claim 1, wherein a mounting part (43) is arranged at the lower axis in the rotary blanking barrel (4), mounting shafts (64) are arranged at the axes of the end faces of two ends of the blanking electric roller (6), and the mounting shafts (64) on the two end faces are respectively connected with the mounting part (43) and the inner wall of the rotary blanking barrel (4).

5. The solid state method white spirit distillation retort feeding and distributing machine according to claim 1, wherein the two side outer walls of the discharge port (53) along the extending direction are respectively provided with a discharge movable adjusting door plate (51) and an elastic baffle plate (52).

6. The solid state method white spirit distillation retort feeding and distributing machine according to claim 1, wherein the stirring mechanism (1) comprises a mother grain bin (11) and a cooked bran bin (12) which are oppositely arranged, a conveying belt (14) for conveying fermented grains is arranged below the mother grain bin (11) and the cooked bran bin (12), a mixing tank (15) with one end being a discharging end is arranged between the two conveying belts (14), and a feeding screw (16) which is arranged in the mixing tank (15) along the extending direction and can axially rotate is arranged in the mixing tank.

7. The solid state method white spirit distillation retort feeding and distributing machine according to claim 6, wherein a bin cover (13) is arranged at the upper part of the mother grain bin (11), and a weighing sensor (17) for weighing the weight of fermented grains on the conveying belt (14) is arranged below the conveying belt (14).

8. The solid state method white spirit distillation retort feeding and distributing machine according to claim 1, wherein the feeding structure (2) comprises a feeding belt (22) and a movable support (21) for mounting the feeding belt (22), one end of the feeding belt (22) is arranged below the discharging end of the stirring mechanism (1), and the other end of the feeding belt is arranged above the upper bin (32).