CN217838879U - System integrating distillation and spreading and drying functions - Google Patents

Abstract

The utility model discloses a system of function is dried in air with stand to collection distillation, include: the distillation system comprises a wine retort, wherein two opposite sides outside the wine retort are respectively provided with a rotating assembly communicated with the inside of the wine retort, and the rotating assemblies are used for driving the wine retort to vertically overturn around the rotating assemblies for pouring materials; the spread-drying system comprises a spread-drying mechanism and a collecting mechanism arranged below the wine retort, wherein the collecting mechanism is used for collecting the fermented grains poured out of the wine retort and conveying the collected fermented grains to the spread-drying mechanism, the spread-drying mechanism comprises a multi-section spread-drying unit, and the spread-drying unit is used for scattering and radiating the fermented grains. The utility model discloses shorten last rice steamer technology and distillation process's linking clearance, improved last rice steamer and distillation relevance, whole efficiency and effect. The utility model discloses the system that utilizes this collection distillation and stand function of drying in the air can realize that the wine unstrained spirits after accomplishing the distillation in the wine rice steamer are discharged automatically to utilize the stand system of drying in the air to realize drying in the air to the automatic stand of wine unstrained spirits, improved relevance, whole efficiency and the effect of distilling and stand and drying in the air.

Description

System integrating distillation and spreading and drying functions

Technical Field

The utility model relates to a system technical field of function is dried in the air with spreading out to collection distillation specifically is a system of function is dried in the air with spreading out to collection distillation.

Background

In the maotai-flavor liquor brewing process, fermented grain is formed by mixing fermented grain and rice hull formed after grain moistening of sorghum raw materials, and is distilled in a distillation system through a steamer to brew liquor.

The wine retort is taken as a common distillation system, which is mainly a distillation container and is provided with a retort cover with a sealing structure, the retort cover needs to be opened when wine grains enter and exit the wine retort, wherein when the wine grains are poured out, because the temperature of the retort cover after distillation is higher, the retort cover needs to be manually worn with gloves or other tools to assist opening when being opened, the wine retort is very inconvenient and easy to scald, the weight of the retort cover is heavier, the labor intensity of workers is high, the retort cover needs to be opened, closed and moved frequently, other structures or pipelines cannot be installed, a plurality of structures such as a wine steam collecting pipeline and the like can only be installed in the wine retort, the structure of the wine retort is complex, the wine retort is also not beneficial to moving and pouring the wine grains, and a great deal of inconvenience exists in the whole wine retort structure when the wine retort is used.

After distillation of the fermented grains is completed, the fermented grains in the wine retort need to be spread and dried in the air, the traditional mode needs to be spread and dried in the air manually, the manual spreading and drying mode is time-consuming and labor-consuming, and the spread and drying in the air of the fermented grains is not uniform easily, so that subsequent fermentation of the fermented grains is affected.

Based on this, how to better realize distilling and tedding for the better link up of the two and improve tedding, distillation efficiency and effect simultaneously is the problem that we need to solve badly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a system that function was dried in the air with spreading in collection distillation, this system that function was dried in the air with spreading in collection distillation can realize automatic discharging the wine unstrained spirits after accomplishing the distillation in the wine rice steamer to the system realization that dries in the air to the automatic spreading of wine unstrained spirits of drying in the air of utilizing spreading in the air has improved relevance, whole efficiency and the effect that distillation and spreading in the air dry.

The purpose of the utility model is mainly realized through the following technical scheme: a system integrating distillation and tedding functions, comprising: the distillation system comprises a wine retort, wherein rotating assemblies communicated with the interior of the wine retort are arranged on two opposite sides outside the wine retort, and the rotating assemblies are used for driving the wine retort to vertically turn around the rotating assemblies for pouring materials; the spread-drying system comprises a spread-drying mechanism and a collecting mechanism arranged below the wine retort, wherein the collecting mechanism is used for collecting the fermented grains poured out of the wine retort and conveying the collected fermented grains to the spread-drying mechanism, the spread-drying mechanism comprises a multi-section spread-drying unit, and the spread-drying unit is used for scattering and radiating the fermented grains.

Furthermore, the rotating assemblies on the two sides are communicated with rotary joints, one rotary joint is communicated with a normal-temperature water supplementing pipeline and a tail wine supplementing pipeline which are connected in parallel, and the other rotary joint is communicated with a steam distribution pipeline; the wine retort is internally separated into an upper chamber and a lower chamber through a retort grate, a steam outlet coil pipe and a medium supplement pipe are arranged in the lower chamber, the steam outlet coil pipe is communicated with a rotating assembly communicated with a steam distribution pipeline, and the medium supplement pipe is communicated with the other rotating assembly.

Furthermore, the rotating assembly comprises a fixing piece fixedly connected with the wine retort and a shaft piece fixedly sleeved in the fixing piece; the fixing piece and the shaft piece are both provided with through holes, and the through holes of the fixing piece and the shaft piece are communicated with each other to form a communication hole; the position of the orifice of the through hole in the fixing piece is communicated with the steam outlet coil pipe or the medium supplementing pipe, and the position of the orifice of the through hole in the shaft piece is connected with the rotary joint in a sealing manner.

Furthermore, the wine steamer also comprises a steamer cover with a sealing cover arranged on the wine steamer and a wine steam collecting pipeline communicated with the steamer cover; the distillation system also comprises a retort cover opening and closing assembly; the retort cover opening and closing assembly comprises a fixed seat, a rotating arm is rotatably connected to the fixed seat, one end of the rotating arm is fixedly connected with the top of the retort cover, and a driving mechanism for driving the rotating arm to rotate so as to open and close the retort cover is fixed on the fixed seat; still including being fixed in the sealed adapter on the fixing base, wine steam collection pipeline includes outlet duct and intake pipe, sealed adapter one end intercommunication the outlet duct, the sealed intercommunication of the other end the intake pipe just the intake pipe can rotate around sealed adapter, the intake pipe walk the pipe and communicate with rice steamer lid top along the rotor arm is inside.

Further, the collecting mechanism comprises a collecting unit arranged below the wine retort, a feeding plate chain machine is arranged at the bottom of the collecting unit, the inlet end of the feeding plate chain machine is located below the collecting unit, a material collecting plate chain machine is arranged below the outlet end of the feeding plate chain machine, and a height limiting unit is arranged on the material collecting plate chain machine.

Further, the spreading and drying unit comprises a spreading and drying plate chain machine, a heat dissipation assembly and a scattering assembly, wherein the spreading and drying plate chain machine is positioned below the tail end of the material collecting plate chain machine; the heat dissipation assembly comprises a cover body and a fan, the cover body is arranged at the top of the spreading and drying plate chain machine, the fan is fixed on the cover body, and the fan is used for conveying gas into the cover body; the scattering assembly comprises a first driving mechanism and a first output shaft, the first driving mechanism is fixed on the side wall of the spreading and drying plate chain machine, one end of the first output shaft is connected with the first driving mechanism, the other end of the first output shaft is inserted into the spreading and drying plate chain machine, and the first output shaft is positioned below the cover body; and a plurality of L-shaped scattering rods are arranged on the first output shaft.

Further, the bottom of the spread drying plate chain machine of the spread drying unit is provided with a cleaning assembly, the cleaning assembly comprises a suspension, a second driving mechanism and a second output shaft, the suspension is hung at the bottom of the spread drying plate chain machine, the second driving mechanism is fixed on the suspension, one end of the second output shaft is connected with the second driving mechanism, the other end of the second output shaft is inserted into the suspension, and the second output shaft is further provided with a plurality of brushes.

Furthermore, a tail wine supplementing component, a yeast powder adding component and a wine yeast adding component are sequentially arranged on the last spreading and drying unit; the tail liquor supplementing assembly is used for adding tail liquor to the fermented grains conveyed by the spreading and drying plate chain machine; the yeast powder adding assembly is used for adding yeast powder to the fermented grains conveyed by the spreading and airing plate chain machine; the wine yeast adding component is used for adding wine yeast to the fermented grains conveyed by the spreading and airing plate chain machine.

The spreading and drying device further comprises a pushing-up mechanism, the pushing-up mechanism comprises a conveying assembly and a discharging assembly, the heights of two ends of the conveying assembly are higher than the height of the middle of the conveying assembly, and the tail end of the spreading and drying unit is positioned right above the middle of the conveying assembly; the discharging assembly is located below two ends of the conveying assembly and can move in the horizontal direction.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a wine rice steamer can revolute the vertical upset of subassembly, and then can accomplish the automatic discharging of wine unstrained spirits after the distillation is accomplished, has simplified the technology, has reduced the human cost to at wine rice steamer pouring in-process, mend normal atmospheric temperature water pipeline, mend tail wine pipeline and steam distribution pipeline and remain the intercommunication with wine rice steamer all the time, thereby can ensure that wine rice steamer lasts the use.

2. The utility model discloses the collecting vat that utilizes to set up can transmit the wine unstrained spirits that drops out from the wine rice steamer to delivery sheet chain machine on, utilize the delivery sheet chain machine of setting to carry the wine unstrained spirits in each wine rice steamer to collection flitch chain machine on, collect the wine unstrained spirits by the flitch chain machine that gathers materials at last again and carry the region of drying in the air to spreading out, thereby realized drying in the air to the automatic stand of wine unstrained spirits, the limit for height unit that utilizes the setting simultaneously can restrict the wine unstrained spirits on the board chain machine that gathers materials, the thickness of control wine unstrained spirits on the board chain machine that gathers materials, it is thick to avoid piling up the wine unstrained spirits thickness at delivery sheet chain machine, lead to follow-up difficult condition emergence of drying the wine unstrained spirits.

3. The utility model discloses the multistage of utilizing the setting is spread and is dried in the air the unit and can be spread a pair of wine unstrained spirits one by one and dry in the air, reduce the temperature of wine unstrained spirits, and the in-process that the board chain machine that dries in the air carries out the transmission to the wine unstrained spirits at the utilization stand, the subassembly that breaks up on the board chain machine that dries in the air of utilization stand that sets up is broken up the wine unstrained spirits, break up the bulk form of bulk form, the in-process of breaking up simultaneously, the radiating component who utilizes the setting can dispel the heat to the wine unstrained spirits, improve the area of contact of cooling gas and wine unstrained spirits, thereby improve the radiating effect to the wine unstrained spirits.

4. The utility model can automatically add tail wine to the fermented grains conveyed on the spread-drying plate chain machine by utilizing the tail wine supplementing assembly, thereby achieving the purposes of sterilizing the fermented grains and promoting the fermentation of the fermented grains; the yeast powder can be automatically added to the fermented grains on the spreading and drying plate chain machine by utilizing the arranged yeast powder adding component, and the yeast powder amount can be controlled by utilizing the arranged vertical plate; the fermented grains on the spreading and drying plate chain machine can be uniformly added with the distiller's yeast by utilizing the set distiller's yeast adding component, and the distiller's yeast can be prevented from precipitating by utilizing the set air pump stirring system.

5. The utility model discloses the conveying subassembly that utilizes to set up can promote the wine unstrained spirits after the stand dries in the air to certain height, and the fermentation is piled up to the wine unstrained spirits to the transmission direction of wine unstrained spirits can be controlled in the turning to of the first actuating mechanism through control conveying subassembly, has realized the transport to two not equidirectional of wine unstrained spirits, thereby has realized piling up to the different positions of wine unstrained spirits.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic structural diagram of a system integrating distillation and spreading-drying functions;

FIG. 2 is a schematic diagram of the overall structure of the distillation system of the present invention;

FIG. 3 is a schematic view of a partial structure of a distillation system;

fig. 4 is a side view of the structure shown in fig. 11, with the lid in an open state;

FIG. 5 is a front view of the structure shown in FIG. 11;

fig. 6 is a schematic view of the wine retort;

FIG. 7 is a schematic structural view of the lid opening and closing assembly;

FIG. 8 is a top view of the structure shown in FIG. 7;

FIG. 9 is an exploded view of the wine vapor collection line;

figure 10 is a schematic view of the seal adapter;

FIG. 11 is a schematic diagram of the construction of the wine brewing system;

FIG. 12 is a top view of the structure shown in FIG. 11 with portions of the structure omitted;

FIG. 13 is a side view of the structure shown in FIG. 11 with portions of the structure omitted;

FIG. 14 is a schematic view of the structure of the collection mechanism;

FIG. 15 is a top view of a feed shoe chain machine and a shoe chain machine;

FIG. 16 is a schematic structural view of a chain machine of a material collecting plate;

fig. 17 is a schematic structural view of the spreading and drying unit;

fig. 18 is a top view of the spreading and drying unit;

fig. 19 is a schematic structural view of the last spreading and drying unit;

FIG. 20 is a schematic structural view of a heat sink assembly and a dissipating assembly;

FIG. 21 is a bottom view of the heat sink assembly and the break-up assembly;

fig. 22 is a schematic structural view of the first output shaft;

FIG. 23 is a schematic view of the cleaning assembly;

FIG. 24 is a schematic structural view of a tailwine replenishment assembly;

FIG. 25 is a schematic structural view of a koji powder assembly;

FIG. 26 is a schematic view of the construction of a koji-adding module;

FIG. 27 is a top view of a distillers yeast assembly;

FIG. 28 is a schematic diagram of a feed discharge piping system mechanism;

FIG. 29 is a schematic structural view of a stacking mechanism;

FIG. 30 is a top view of the transport assembly;

FIG. 31 is a schematic structural view of the take-off assembly.

The reference numerals in the drawings denote:

1. a fan; 2. collecting tank; 3. a height limiting unit; 4. a feeding plate chain machine; 6. a second support frame; 7. a material collecting plate chain machine; 8. a first support frame; 9. a drive shaft; 10. a chain; 11. a motor; 12. a carrier plate; 13. supporting legs; 14. a second pump body; 15. a first connecting pipe; 16. a spray head; 17. an overflow pipe; 18. a box body; 19. a second connection pipe; 20. a protective shell; 21. a second pump body; 22. a filter screen; 23. a strip-shaped opening; 30. spreading and airing the cells; 31. a collection mechanism; 33. a discharging barrel; 34. spreading and drying the plate chain machine; 35. a temperature measuring unit; 36. cleaning the assembly; 37. a heat dissipating component; 38. breaking up the assembly; 39. an inclined plate; 41. adding a wine yeast component; 42. a yeast powder adding component; 43. a tail liquor supplementing component; 44. a third support frame; 45. a support bar; 46. a yeast powder box; 47. a conveyor; 49. a vertical plate; 50. a first drive mechanism; 51. a cover body; 52. a first output shaft; 53. breaking up the rods; 54. a fan; 55. a second drive mechanism; 56. a second output shaft; 57. a brush; 58. a suspension; 61. a bend inlet pipe; 62. a water pump 63 and a bend pipe; 64. an air pump; 65. a gas delivery pipe; 66. a gas delivery valve; 67. a water yeast tank; 68. a sewage valve; 69. a yeast delivery valve; 70. a vertical bending outlet pipe; 71. transversely discharging a bent pipe; 72. a blow-off pipe; 73. a fourth support frame; 74. a discharge assembly; 75. a second drive mechanism; 76. a material cylinder; 77. a fixed mount; 79. a delivery assembly; 80. a rotating shaft; 81. a conveyor belt; 82. a second frame body; 83. a third drive mechanism; 102. a distillation system; 103. carrying out wine retort; 104. a retort cover; 105. a wine vapor collection line; 133. a supporting seat; 134. a rotating assembly; 135. a rotary joint; 136. supplementing a normal temperature water pipeline; 137. a tail liquor supplementing pipeline; 138. a steam distribution line; 139. steaming and grating; 140. discharging the steam coil; 141. a media replenishment conduit; 142. a blow-off pipe; 143. a fixing member; 144. a shaft member; 145. a through hole; 146. turning over a driving motor; 147. a driving gear; 148. a driven gear; 149. a water replenishing pipe; 150. a rotating arm; 151. sealing the adapter; 152. an air outlet pipe; 153. an air inlet pipe; 154. a rotating shaft; 155. fixing the motor; 156. a coupler supporting seat; 157. a hollow shaft body; 158. a flange plate; 159. a seal ring; 160. an operation platform; 161. a through-opening groove; 163. a support pillar; 164. a bearing seat; 165. a horizontal baffle.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

As shown in fig. 1, a first embodiment of the present invention relates to a system integrating distillation and tedding functions, which mainly comprises:

the distillation system 102, wherein the distillation equipment 102 comprises a wine retort 103, a retort cover 104 with a sealing cover arranged on the wine retort 103, and a wine steam collecting pipeline 105 communicated with the retort cover 104; the two opposite sides of the outside of the wine retort 103 are respectively provided with a rotating assembly 134 communicated with the inside of the wine retort, and the rotating assemblies 134 are used for driving the wine retort 103 to vertically turn around the rotating assemblies 134 for pouring materials; the spreading and drying system comprises a spreading and drying mechanism and a collecting mechanism 31 arranged below the wine retort, wherein the collecting mechanism 31 is used for collecting the fermented grains poured out of the wine retort 103 and conveying the collected fermented grains to the spreading and drying mechanism, the spreading and drying mechanism comprises a multi-section spreading and drying unit 30, and the spreading and drying unit 30 is used for scattering and radiating the fermented grains.

Example 2

As shown in fig. 2 to fig. 13, based on embodiment 1, the distillation system 102 is mainly used for distilling fermented grains, after the fermented grains 103 are put into the retort, the distillation can be started after the wine retort 103 is arranged on the retort cover 104 in a sealing manner, and wine steam is automatically collected through the wine steam collection pipeline 105 during the distillation process.

In specific application, the rotating assemblies 134 on the two sides are communicated with rotating joints 135, one rotating joint 135 is communicated with a normal-temperature water supplementing pipeline 136 and a tail wine supplementing pipeline 137 which are connected in parallel, and the other rotating joint 135 is communicated with a steam distribution pipeline 138; the wine retort 103 is separated into an upper chamber and a lower chamber by a retort grate 139, a steam outlet coil 140 and a medium supplementing pipe 141 are arranged in the lower chamber, the steam outlet coil 140 is communicated with a rotating assembly 134 communicated with a steam distribution pipeline 138, and the medium supplementing pipe 141 is communicated with the other rotating assembly 134.

When the device is used, fermented grains are loaded into the upper cavity of the wine retort 103, then the device is sealed through the retort cover 104, normal-temperature water, tail wine and steam are respectively supplemented through the normal-temperature water supplementing pipeline 136, the tail wine supplementing pipeline 137 and the steam distribution pipeline 138 before or during distillation, wine steam generated during distillation is continuously collected through the wine steam collecting pipeline 105, after distillation is completed, the wine retort 103 is controlled to vertically turn around the rotating assembly 134, then the fermented grains in the wine retort 103 are automatically poured out, and the fermented grains in the wine retort 103 are reset after the distillation is completed, and then the next loading and distillation cycle can be carried out.

In the embodiment, the normal temperature water supplementing pipeline 136, the tail liquor supplementing pipeline 137 and the steam distribution pipeline 138 required by the wine retort 103 are rotationally communicated with the wine retort 103 through the rotating assembly 134 and the rotary joint 135, so that the wine retort 103 can rotate to automatically pour materials after distillation, the fermented grains can be automatically discharged out of the wine retort, meanwhile, one rotary joint 135 is communicated with the steam distribution pipeline 138, and the other rotary joint 135 is communicated with the residual pipeline, so that high-temperature steam, normal temperature water and tail liquor can be supplied in a separated mode, normal temperature water and tail liquor are guaranteed to meet the supply temperature before entering the wine retort 103, and then the normal temperature water and the tail liquor can be slowly heated and evaporated in the wine retort 103 to guarantee the distillation effect, and the normal temperature water supplementing pipeline 136, the tail liquor supplementing pipeline 137 and the steam distribution pipeline 138 can achieve the communication of the wine retort 103 without complex structures, meanwhile, the rotation communication relation is guaranteed, the pipeline distribution difficulty and the cost of the three are reduced, the use of the distillation system 102 is integrally facilitated, and the distillation is more convenient.

It should be noted that, because the normal temperature water supplementing pipeline 136 and the tail liquor supplementing pipeline 137 need to supplement normal temperature water and tail liquor into the wine retort 103, the normal temperature water and the tail liquor still have a small amount of residual liquid after being consumed in the distillation process, and the residual liquid needs to be removed before the wine unstrained spirits are poured so as not to pollute the wine unstrained spirits, in this embodiment, the normal temperature water supplementing pipeline 136 and/or the tail liquor supplementing pipeline 137 may be set as a residual liquid recovery pipeline, and are communicated with the lower chamber of the wine retort 103 through the medium supplementing pipe 141 so as to adsorb the residual liquid through a pump and the like as needed, but the residual liquid may pollute the normal temperature water supplementing pipeline 136 and the tail liquor supplementing pipeline 137 in the design, so further, a drain pipe 142 communicating with the wine retort 103 may be set at the bottom of the wine retort 103, and the drain pipe 142 is opened after the distillation is completed to discharge the residual liquid, and the drain pipe 142 may also be provided with a corresponding electronic switch valve and the like to control the opening and closing of the drain pipe 142.

The rotating assembly 134 is mainly used for the rotation of the wine retort 3 and is used as a communicating piece of the wine retort 103, a normal temperature water supplementing pipeline 136, a tail wine supplementing pipeline 137 and a steam distribution pipeline 138.

In a specific application, the rotating assembly 134 comprises a fixing member 143 fixedly connected with the wine retort 103, and a shaft member 144 fixedly sleeved in the fixing member 143; the fixing piece 143 and the shaft piece 144 are both provided with through holes 145, and the through holes 145 of the fixing piece 143 and the shaft piece 144 are communicated with each other to form a communication hole; the opening position of the through hole 145 on the fixing part 143 is communicated with the steam outlet coil 140 or the medium supplement pipe 141, and the opening position of the through hole 145 on the shaft part 144 is in sealing connection with the rotary joint 135.

When the wine retort 103 is used, the rotating assemblies 134 are integrally fixed on two opposite sides of the wine retort 103, for example, any rotating assembly 134 is used, the fixing piece 143 of the rotating assembly 134 is fixed outside the wine retort 103 to form a shaft connecting piece or a sleeve piece fixed with the wine retort 103, in practical application, a fixing groove is formed in the outer wall of the wine retort 103 and used for fixing the fixing piece 143, meanwhile, the steam outlet coil pipe 140 or the medium replenishing pipe 141 can be communicated with the fixing groove through the inside of the wine retort 103, so that the fixing piece 143 is communicated with the fixing piece 143, the fixing piece 143 can be fixed through a bolt, a corresponding sealing piece is arranged in the fixing groove to keep the communication hole 145 sealed, the shaft piece 144 is of a long shaft piece structure, one end of the shaft piece is fixedly and hermetically connected with the fixing piece 143, the other end of the shaft piece extends out of the fixing piece 143 and then is hermetically connected with the rotary joint 135, and the normal temperature water replenishing pipeline 136, the tail wine replenishing pipeline 137 and the steam distribution pipeline 138 are communicated through the rotary joint 135, so that when the fixing piece 143 and the shaft piece 144 of the rotating assembly 134 rotate freely, the fixing piece can also ensure the pipeline communication.

In a specific application, one of the rotating assemblies 134 is further connected with a turnover driving system for driving the wine retort 103 to vertically turn around the rotating assembly 134. The overturning driving system mainly comprises an overturning driving motor 146, an output end of the overturning driving motor 146 is connected with a driving gear 147, a driven gear 148 is further fixed on the shaft member 144 of one of the rotating assemblies 134, and the driven gear 148 is meshed with the driving gear 147. When fermented grains need to be poured out after the distillation of the wine retort 103 is finished, the overturning driving motor 146 is started to drive the driving gear 147 and the driven gear 148 to drive, and at the moment, the shaft piece 144 can drive the wine retort 103 to overturn vertically, so that the fermented grains can be directly poured out.

It should be noted that, in order to facilitate installation of the tumble drive system, in the rotating assembly 134 on the side where the tumble drive system is installed, the length of the shaft member 144 may be longer than that of the shaft member 144 on the other side, so that more space may be left for installation and use of the tumble drive system, inconvenience in installation and use of the tumble drive system may be avoided, and influence of the tumble drive system on the pipe connection of the rotary joint 135 on the side may also be avoided through this design.

In order to ensure the stability of the wine retort 103 during the distillation process and during the pouring process of the fermented grains, the overturning driving motor 146 is a braking motor. The output end of the brake motor can be locked after the brake motor stops and cannot rotate randomly, so that the brake motor can fix the rotating assembly 134 to prevent the wine retort 103 from rotating when the wine retort 103 is distilled, the wine retort 103 is kept in a vertical state to ensure the distilling effect, and meanwhile, the brake motor can ensure that the wine retort 103 is stably overturned and rotates at a constant speed in the pouring process.

In a specific application, the wine retort 103 is further provided with an electronic liquid level meter in the lower chamber. During distillation, because steam can liquefy and form water, the liquid in the wine retort 103 can be more and more, and can influence the distillation of unstrained spirits after the liquid surpasss a take the altitude and contacts with unstrained spirits, consequently, the electronic level gauge of this embodiment can detect the liquid level height of room temperature water and tail-wine in the lower chamber, and when liquid level was higher than the setting value in it, staff can in time discharge unnecessary liquid medium in it according to the reading. Further, the discharged liquid medium may be discharged through the soil discharge pipe 142. Specifically, the electronic liquid level meter can be connected with an external display device in a wired or wireless mode for displaying the liquid level in real time, and can be connected with an alarm device such as an audible and visual alarm lamp and the like for alarming to remind a worker to drain water.

The retort cover 104 is integrally conical; the inner side wall of the steamer cover 104 is spirally provided with a water replenishing pipe 149, one end of the water replenishing pipe 149 extends out of the outer side wall of the upper end of the steamer cover 104, and the water replenishing pipe 149 is provided with a plurality of water replenishing holes. The whole body of the retort cover 104 is conical, so that the wine steam can be conveniently gathered to the top of the retort cover along the retort cover, the wine steam collecting pipeline 105 can be communicated with the top of the retort cover 101 to collect the wine steam more quickly and efficiently, water can be supplemented to the wine grains in the wine retort 103 after the water supplementing pipe 149 is arranged in the retort cover 104 (part of the process is sand as follows, and water supplementing operation is needed in the distillation process of the wine grains in coarse sand), the water supplementing requirement is met, the function of the retort cover 104 is further increased, and in order to ensure that the water supplementing pipe 149 can supplement water to the wine grains uniformly when supplementing water is carried out, the water supplementing pipe 149 is bent in a snake shape from bottom to top and coiled in the retort cover 114 integrally to form a spiral coil structure, and then the water can be supplemented to the wine grains uniformly through a plurality of water supplementing holes in the pipe body, and the water supplementing effect is improved. It should be noted that the portion of the water replenishing pipe 149 extending out of the cover 104 should be designed to be sealed to prevent wine steam from leaking, and the portion of the water replenishing pipe 149 extending out of the cover 104 can be connected to an external water replenishing hose, so that the opening and closing of the cover 104 are not affected, and the connection of the water replenishing pipe 149 is also not affected.

It should be noted that, in order to ensure the sealing effect of the retort cover 104, a sealing ring may be disposed on the end face of the retort cover 104 in butt joint with the wine retort 103, a sealing groove may be disposed on the wine retort 103, and a sealing structure is formed by pairing the sealing ring and the sealing groove.

In order to facilitate the opening and closing of the retort cover 104, the distillation system 102 further comprises a retort cover opening and closing assembly; the retort cover opening and closing assembly comprises a fixed seat, a rotating arm 150 is rotatably connected to the fixed seat, one end of the rotating arm 150 is fixedly connected with the top of the retort cover 104, and a driving mechanism for driving the rotating arm 150 to rotate so as to open and close the retort cover 104 is fixed on the fixed seat; still including being fixed in the sealed adapter 151 on the fixing base, wine steam collecting pipe 105 includes outlet duct 152 and intake pipe 153, sealed adapter 151 one end intercommunication outlet duct 152, the other end is sealed the intercommunication intake pipe 153 just intake pipe 153 can rotate around sealed adapter 151, intake pipe 153 is walked the pipe and is communicated with retort lid 104 top along the inside of rotor arm 150.

The retort cover opening and closing assembly is connected with the retort cover 104 through the rotating arm 150 which is connected to the fixing seat in a rotating mode, so that the retort cover 104 can be automatically rotated by driving the rotating arm 150 to rotate through the driving mechanism, opening and closing actions of the retort cover 104 are completed, automatic opening and closing of the retort cover 104 are realized, meanwhile, under the action of the sealing adapter 151, the air inlet pipe 153 is always communicated with the retort cover 104, the retort cover 104 can also ensure that the air inlet pipe 153 is communicated with the air outlet pipe 152 through the sealing adapter 151 when rotating, the air outlet pipe 152 can be communicated with a wine collecting system to conduct wine steam liquefaction collection, so that a steam collecting pipeline 105 formed by the air inlet pipe 153 and the air outlet pipe 152 can be used for collecting steam, the connection state can still be kept after the retort cover 104 is opened and closed, and wine steam collection can be realized on the premise that the opening and closing of the retort cover 104 are not influenced.

A rotating shaft 154 is fixed at one end of the rotating arm 150, and the rotating shaft 154 is rotatably arranged on the fixed seat; the rotating shaft 154 is hollow, and the air inlet pipe 153 extends into the rotating shaft 154, bends and extends out of the rotating shaft 154 to be rotatably connected with the sealing adapter 151. The axis of rotation 154 can be fine drive rotor arm 150 rotate and be fixed in on the fixing base, and for the convenience of intake pipe 153 installation and rotation, axis of rotation 154 can set to inside hollow axle body structure, and then intake pipe 153 is connected with sealed adapter 151 rotation after the inside pipe of walking of axis of rotation 154 and can be guaranteed that axis of rotation 154 rotates, intake pipe 153 remains throughout and retort lid 104 and outlet duct 152 intercommunication, the inside cavity of axis of rotation 154 also can further reduce its weight simultaneously, required power when reducing actuating mechanism rotates. Specifically, the middle of the rotating shaft 154 is provided with a notch communicated with the inside of the rotating shaft 154, and the air inlet pipe 153 can extend into the rotating shaft 154 from the notch, bend and extend out of the end of the rotating shaft 154, and further is rotatably connected with the rotating joint 135, so that the structure is further simplified.

On the basis, as an embodiment, the driving mechanism is a fixed motor 155; the fixing seat is further provided with a coupling supporting seat 156, a coupling is supported on the coupling supporting seat 156 through a bearing, and the rotating shaft 154 is connected with an output shaft of the fixed motor 155 through a coupling. The fixed motor 155 drives the rotating shaft 154 to rotate through the coupler, so that the rotating arm 150 rotates, opening and closing of the retort cover 104 can be well achieved, the control technology of the fixed motor 155 is also relatively conventional, and opening and closing control of the retort cover 104 can be well achieved.

As a specific structure, the sealing adapter 151 includes a hollow shaft body 157 and flange plates 158 fixed to two ends of the hollow shaft body 157; the flange plate 158 at one end of the sealing adapter 151 is fixed with the fixed seat through bolts, and the flange plate 158 at the other end is connected with the air outlet pipe 152 in a flange manner; the air inlet pipe 153 extends into the hollow shaft body 157 and can rotate, and a plurality of sealing rings 159 sealed on the outer wall of the air inlet pipe 153 are further arranged in the hollow shaft body 157. When the air inlet pipe 153 rotates, the air inlet pipe extends into the hollow shaft body 157 and is sealed through the sealing ring 159, so that the air inlet pipe can rotate and can ensure sealing, and wine steam cannot leak when the steamer cover 104 is opened and closed.

In specific application, a temperature sensor is further arranged at the position where the inner wall of the air inlet pipe 153 is communicated with the retort cover 104. Intake pipe 153 is used for wine steam to collect to when it collects wine steam, can detect wine steam temperature through temperature sensor, and then can judge this moment wine steam belongs to first wine, well wine or tail wine through its temperature value, can judge the wine body collection that the wine body classification realized different classes when can conveniently follow-up receipts wine.

In a specific application, the air outlet pipe 152 and the air inlet pipe 153 are both stainless steel pipes. Because of outlet duct 152 and intake pipe 153 constitute the pipeline and be used for collecting wine steam, and wine steam is high temperature gas, it can liquefy in the cooling when collecting, consequently, outlet duct 152 and intake pipe 153 need design into high temperature resistance body, and can not be corroded by high temperature softening and wine steam, avoid influencing steam and collect or cause the pollution to the wine body, so this embodiment is the nonrust steel pipe structure of stereoplasm through design outlet duct 152 and intake pipe 153, can guarantee the collection and the pipeline of wine steam and use for a long time, and nonrust steel pipe also can not corrode because of the influence of wine steam.

The whole content of the system of the function of drying in the air of collection distillation and stand above promptly is based on the system of the function of drying in the air of above-mentioned collection distillation and stand, the utility model discloses the second embodiment still provides a making wine system, and this making wine system includes operation platform 160, wherein, there are a plurality of opening grooves 161 on the operation platform 160, all install in every opening groove 161 distillation system 102's wine rice steamer 103, wine rice steamer 103 can be at the vertical upset in opening groove 161.

In particular, the operation platform 160 is mainly used for the operation of the staff, so that the staff can observe fermented grains or distillation conditions in each distillation system 102 conveniently. Specifically, the whole level of operation platform 160 is laid, and set up corresponding opening groove 161 according to distillation system 102 quantity and position, distillation system 102 wholly is located opening groove 161, distillation system 102's wine rice steamer 103 lower part includes that runner assembly 134 all is located operation platform 160 below, thereby can keep apart runner assembly 134 in operation platform 160 below, avoid the staff to touch and arouse the accident, and simultaneously, distillation system 102's wine rice steamer 103 upper portion is located operation platform 160 top, be convenient for the staff to observe the interior wine unstrained spirits condition of wine rice steamer 103.

In a specific application, a plurality of support columns 163 are arranged below the working platform 160 at intervals, and bearing seats 164 are arranged at the upper ends of the support columns 163; two of the support columns 163 form a group, an opening groove 161 is formed between each group of the support columns 163, and the rotation assemblies 134 on two sides of the distillation system 102 in the opening groove 161 are respectively connected to the bearing seats 164 of the two support columns 163 in the group in a rotating manner. Through a plurality of support column 163 intervals according to a plurality of distillation system 102 to set up a plurality of distillation system 102 side by side, be convenient for the unstrained spirits concentrate go up the rice steamer and pour out the collection, can reduce distillation site demand, and the spaced department of a plurality of support column 163 below of accessible collects after the unstrained spirits are poured out, also do not influence the upper portion distillation system 102 and go up rice steamer and distillation, practiced thrift man-hour, also made things convenient for the unstrained spirits to go up the rice steamer and go out the rice steamer.

It should be noted that the bearing seat 164 is a supporting seat structure fixed on the top of the supporting column 163, a bearing is disposed in the supporting seat structure, and the shaft 144 of the rotating assembly 134 penetrates through the bearing and is then rotatably disposed on the bearing seat 164 and positioned. Further, the lower end of the supporting column 163 can be fixed to the ground through embedding, or a cement foundation is poured, and a metal horizontal plate is arranged for supporting.

In order to further facilitate the operation of workers on the operation platform 160, a horizontal baffle plate 165 is further arranged on the outer side of the wine retort 103, and the horizontal baffle plate 165 is arranged in the middle of the wine retort 103 and used for shielding a port groove 161 outside the wine retort 103. During the design of through port groove 161, owing to need to guarantee that wine rice steamer 103 can accomplish the upset action in it, consequently the maximum dimension requirement when its opening size needs to satisfy wine rice steamer 103 upset, so when wine rice steamer 103 accomplishes the installation back, more space is left when it does not overturn in the through port groove 161 of its outside, the staff just has the risk of dropping from through port groove 161 in the operation, consequently this embodiment can shelter from through port groove 161 through horizontal baffle 165, and when wine rice steamer 103 rotates, also can ensure wine rice steamer 103 can the free rotation. Specifically, the horizontal baffle 165 is configured to mate with the through-slot 161. Specifically, the through-slot 161 is a rectangular slot structure, the four side joints thereof are arranged to be oblique corners, the horizontal baffle 165 is also a rectangular plate, and the four corners thereof are chamfered to form structures matched with the oblique corners.

In a specific application, when the wine retort 103 is turned over and the material is poured, in order to avoid that the turning angle of the wine retort 103 is too large to affect the resetting of the wine retort 103, a gas spring (not shown in the figure) is further fixed in the through-hole groove 161 of the working platform 160, and a piston rod of the gas spring is hinged to the lower end of the horizontal baffle plate 165. Through the arrangement of the gas spring, the maximum overturning angle of the wine retort 103 can be controlled when the wine retort 103 is overturned, and the influence on the pouring position of fermented grains caused by the reverse overturning of the wine retort 103 can be avoided.

When specifically using, remove base 162 and set up the fly leaf of pulley mechanism for the bottom, set up a plurality ofly along linear interval on the operation platform 160 wine rice steamer 103, remove base 162 and set up in the wine rice steamer 103 outside to be provided with the slide rail group on the operation platform 160, the slide rail group sets up the direction parallel arrangement along wine rice steamer 103, thereby remove base 162 and can follow the translation of slide rail group to arbitrary wine rice steamer 3 positions.

Example 3

As shown in fig. 14 to 16, in embodiment 2, the collecting mechanism 31 includes a collecting unit disposed below the wine retort 103, a feeding plate chain machine 4 is disposed at the bottom of the collecting unit, an inlet end of the feeding plate chain machine 4 is located below the collecting unit, a material collecting plate chain machine 7 is disposed below an outlet end of the feeding plate chain machine 4, and a height limiting unit 3 is disposed on the material collecting plate chain machine 7.

According to the technical scheme, in order to realize automatic spread drying of the fermented grains in the wine retort 103, the collecting mechanism 31 is arranged below the wine retort 103, when the wine retort 103 is driven to rotate under the action of the rotating assembly 134, the fermented grains in the wine retort 103 are poured into the collecting unit, centralized collection of the fermented grains is realized, then the fermented grains poured out from the wine retort are transferred to the feeding plate chain machine 4 by the aid of the set collecting unit, the fermented grains falling onto the feeding plate chain machine 4 are conveyed towards the direction of the collecting plate chain machine 7 by the aid of the set feeding plate chain machine 4, and the fermented grains in the fermented grains are conveyed to an aggregate plate chain machine 7 by the aid of the set feeding plate chain machine 4 in a centralized mode in an actual wine brewing process, so that automatic spread drying of the fermented grains is realized, and compared with the traditional spread drying efficiency of manual drying of the fermented grains is improved; simultaneously when utilizing the aggregate plate chain machine 7 of setting to carry the unstrained spirits to spreading to dry in the air the region, in order to prevent to pile up the unstrained spirits on aggregate plate chain machine 7 and have thicker thickness, thereby be not convenient for dry fast to the unstrained spirits, so still be provided with limit for height unit 3 at aggregate plate chain machine 7, when piling up the unstrained spirits on aggregate plate chain machine 7 through limit for height unit 3, utilize the height of the unstrained spirits on the present aggregate plate chain machine 7 of limit for height unit 3 that sets up, thereby guaranteed to pile up the unstrained spirits on aggregate plate chain machine 7 and can't exceed predetermined thickness, and then improved the follow-up efficiency of spreading to dry in the air of unstrained spirits.

The collecting unit comprises a collecting gutter 2 in a funnel-like structure. In order to guarantee that the unstrained spirits of pouring out in each wine rice steamer can drop to delivery sheet chain machine 4 smoothly, so be provided with the collection unit between delivery sheet chain machine 4 and wine rice steamer, the collection unit among this technical scheme is that the upper end is big, the lower extreme is little the collecting vat 2 of funnel shaped structure, when the unstrained spirits of storage in the wine rice steamer drops to the collecting vat 2 in, the collecting vat 2 that utilizes to set up can shift the unstrained spirits to delivery sheet chain machine 4 smoothly on, shift to on the collection flitch chain machine 7 with the unstrained spirits by delivery sheet chain machine 4 again.

The number of the feeding plate chain machines 4 is two, the two feeding plate chain machines 4 are in parallel and are in opposite transmission, and the material collecting plate chain machine 7 is located right below the space between the two feeding plate chain machines 4.

This technique all is provided with delivery sheet chain machine 4 in the both sides top of collecting sheet chain machine 7, delivery sheet chain machine 4 one end is located collecting sheet chain machine 7 one side directly over, the other end is located collecting vat 2 under, make the interior wine unstrained spirits that drops to collecting vat 2 of wine rice steamer drop to delivery sheet chain machine 4 smoothly, utilize the delivery sheet chain machine 4 that sets up will pile up the concentrated transportation of the wine unstrained spirits on delivery sheet chain machine 4 to collecting sheet chain machine 7, carry the wine unstrained spirits to the region of drying in the air at the stand by collecting sheet chain machine 7 again at last.

The feeding plate chain machine 4 and the collecting plate chain machine 7 respectively comprise a motor 11, two transmission shafts 9, two chains 10 and a plurality of bearing plates 12, the motor 11 is connected with one of the transmission shafts 9, gears are further sleeved on the transmission shafts 9, two ends of the chains 10 are respectively sleeved on the gears of the two transmission shafts 9, and two ends of the bearing plates 12 are connected with the two chains 10.

Conveying plate chain machine 4 and material collecting plate chain machine 7 among this technical scheme are prior art, all adopt chain formula plate chain machine as the transport means of wine unstrained spirits, conveying plate chain machine 4 and material collecting plate chain machine 7 during operation, utilize a transmission shaft 9 of motor 11 drive wherein that sets up to rotate, transmission shaft 9 drives chain 10 at the pivoted in-process and rotates, thereby the removal of loading board 12 on the chain 10 has been driven, and then will drop on the wine unstrained spirits on loading board 12 of conveying plate chain machine 4 carry to loading board 12 of material collecting plate chain machine 7 smoothly, carry to the district that dries in the air at the district by the material collecting plate chain machine 7 on its loading board 12 again, thereby accomplished the transportation to the automation of wine unstrained spirits.

The automatic feeding mechanism is characterized by further comprising a first support frame 8, wherein the first support frame 8 is located at the bottom of the feeding plate chain machine 4 and is rotatably connected with a transmission shaft 9 of the feeding plate chain machine 4.

In order to guarantee that feed plate chain machine 4 can stably set up in the workshop of making of white spirit, so be provided with first support frame 8 in the bottom of feed plate chain machine 4, utilize the first support frame 8 that sets up to support feed plate chain machine 4, support it at predetermined height, reduce the drop that the wine unstrained spirits fell from the wine rice steamer, collecting vat 2 also fixes the top at first support frame 8 through the steel pipe simultaneously.

The material collecting plate chain machine is characterized by further comprising a second supporting frame 6, wherein the second supporting frame 6 is located at the bottom of the material collecting plate chain machine 7 and is in rotating connection with a transmission shaft 9 of the material collecting plate chain machine 7.

In a similar way, the second support frame 6 is used for supporting the material collecting plate chain machine 7 between the spreading and airing area and the brewing workshop, so that the material collecting plate chain machine 7 can convey the produced fermented grains to the spreading and airing area.

The end of the material collecting plate chain machine 7, which is far away from the direction of the material conveying plate chain machine 4, is inclined upwards, and the height limiting unit 3 is positioned above the inclined position of the material collecting plate chain machine 7.

This technical scheme is in order to promote certain height with the fermented grain that gathers materials plate chain machine 7 end goes out, make things convenient for follow-up conveyer belt to the continuous transmission of fermented grain, so be the slope setting with gathering materials plate chain machine 7 latter half section, in order to guarantee that the latter half section of album flitch chain machine 7 is in the tilt state, so gather materials plate chain machine 7 still includes the pivot, one of them transmission shaft 9 is in same level with the pivot, another transmission shaft 9 is in the oblique top of pivot, make the chain 10 of cover setting on transmission shaft 9 can be in the state that the slope is up under the effect of pivot like this, and set up limit for height unit 3 and be in album flitch chain machine 7 and slope out directly over, make the fermented grain of piling up on gathering materials plate chain machine 7 advance to cross limit for height unit 3 and restrict its thickness after, again climb to certain height along the slope of album flitch chain machine 7.

The height limiting unit 3 comprises a limiting plate and a supporting rod, the supporting rod is fixed to the top of the second supporting frame 6, and the limiting plate is connected with the supporting rod.

The height limiting unit 3 in the technical scheme limits the thickness of the fermented grains conveyed on the collecting plate chain machine 7 by utilizing the limiting plate, the distance between the bottom of the limiting plate and the bearing plate 12 of the collecting plate chain machine 7 is the thickness of the fermented grains, and the length of the limiting plate is greater than the distance between two chains 10 of the collecting plate chain machine 7, so that the fermented grains on the bearing plate 12 of the collecting plate chain machine 7 are limited at the limiting plate under the action of the limiting plate when passing through the limiting plate, the fermented grains higher than the preset thickness are limited at the limiting plate, and the fermented grains to be conveyed subsequently pass through the limiting plate together when the thickness of the fermented grains is smaller, thereby realizing the control of the thickness of the fermented grains.

The tail end of the material collecting plate chain machine 7, which is far away from the direction of the feeding plate chain machine 4, is also provided with a rack, and the rack is provided with a fan 1.

Because the fermented grains poured out of the wine retort have a certain temperature, in order to improve the cooling rate of the fermented grains, the fan used for cooling the fermented grains is further arranged on the material collecting plate chain machine 7, cold air is generated when the fan works and acts on the material collecting plate chain machine 7 to cool the fermented grains passing through the material collecting plate chain machine 7, and therefore the cooling rate of the fermented grains is improved.

Example 4

As shown in fig. 17 to 28, based on embodiment 3, the spreading and drying unit 30 includes a spreading and drying plate chain machine 34, a heat dissipation assembly 37 and a scattering assembly 38, the spreading and drying plate chain machine 34 is located below the end of the material collecting plate chain machine 7, the heat dissipation assembly 37 and the scattering assembly 38 are both disposed on the spreading and drying plate chain machine 34, and the heat dissipation assembly 37 and the scattering assembly 38 are both disposed at the same position of the spreading and drying plate chain machine 34.

Aiming at the problem that the fermented grains are not rapidly scattered in the traditional spreading and drying mode because the fermented grains just pour out from the wine retort 102 have higher temperature and are of a bulk structure when the fermented grains are spread and dried in the prior art, so that the fermented grains cannot be rapidly cooled down in the spreading and drying process, and further the brewing efficiency of white spirit is reduced, the technical scheme is that a multi-section spreading and drying unit 30 sequentially connected is arranged at the output end of a collecting mechanism 31, the arranged spreading and drying unit 30 comprises a spreading and drying plate chain machine 34, a heat dissipation assembly 37 and a scattering assembly 38, wherein the arranged spreading and drying plate chain machine 34 is the prior art and comprises a motor, a chain, a plurality of rotating shafts and a plurality of bearing plates, and the motor drives the rotating shafts to rotate when in work so as to drive the bearing plates connected to rotate and further drive the bearing plates connected to move, so that the fermented grains stacked on the bearing plates are transported, in the process of conveying the fermented grains by using the spreading and drying plate chain machine 34, the fermented grains can be scattered by using the scattering assembly 38, namely, the bulk fermented grains are scattered into fine fermented grains, so that the heat of the fermented grains in the middle part can be better dissipated, meanwhile, the spreading and drying plate chain machine 34 is also provided with the heat dissipation assembly 37, the set heat dissipation assembly is used for dissipating the fermented grains on the spreading and drying plate chain machine 34, the cooling rate of the fermented grains is further accelerated, in order to improve the cooling rate of the fermented grains, the heat dissipation assembly 37 and the scattering assembly 38 are arranged at the same position of the spreading and drying plate chain machine 34, so that the fermented grains on the spreading and drying plate chain machine 34 can be scattered by using the set scattering assembly 38, and meanwhile, when the scattering assembly is used for scattering the fermented grains, the set heat dissipation assembly can act on the scattered fermented grains, the contact area of the radiating assembly and the vinasse is increased, so that the radiating assembly can fully radiate the vinasse, and the cooling rate of the vinasse is increased.

The spreading and drying unit 30 further includes a third support frame 44 disposed at the bottom of the spreading and drying plate chain machine 34, and the third support frame 44 is used for supporting the spreading and drying plate chain machine 34.

The spreading and drying plate chain machine 34 can be stably fixed in the brewing workshop by the aid of the third support frame 44, and stable conveying of fermented grains is guaranteed.

The spreading and drying plate chain machines 34 of the spreading and drying unit 30 are respectively provided with a folding component, the folding component comprises a discharge cylinder 33 and two inclined plates 39, one ends of the two inclined plates 39 are respectively fixed on two sides of the inner wall of the outlet end of the spreading and drying plate chain machine 34, and the other ends of the two inclined plates 39 are distributed along the direction of the outlet end of the spreading and drying plate chain machine 34 and face each other; the discharging barrel 33 is fixed at the outlet end of the spreading and drying plate chain machine 34.

Because the multi-section spreading and drying unit 30 is arranged in the technical scheme, in order to ensure that fermented grains on each section of spreading and drying unit 30 can be uniformly scattered, the tail end of each section of spreading and drying unit 30 is provided with the collecting component for collecting the originally scattered fermented grains again so that the next section of spreading and drying unit 30 can continuously scatter the collected fermented grains, the specific principle is that when the fermented grains on the spreading and drying plate chain machine 34 are transferred to the inclined plate 39, the fermented grains on the spreading and drying plate chain machine 34 can be gathered towards the middle under the action of the inclined plate 39 and then fall from the discharge cylinder 33 to the spreading and drying plate chain machine 34 of the next spreading and drying unit 30 due to the fact that the two inclined plates 39 incline towards the axial direction in the spreading and drying plate chain machine, and therefore the purpose of collecting the fermented grains in the spreading and drying process is achieved.

The heat dissipation assembly 37 includes a cover 51 and a fan 54, the cover 51 is disposed on the top of the spreading and drying plate chain machine 34, the fan 54 is fixed on the cover 51, and the fan 51 is used for conveying gas into the cover 51.

When the heat dissipation assembly 37 in the technical scheme works, gas generated by the arranged fan 54 is blown into the cover body 51 and then acts on fermented grains entering the lower part of the cover body 51, so that the purpose of heat dissipation of the fermented grains is achieved.

The scattering assembly 38 comprises a first driving mechanism 50 and a first output shaft 52, the first driving mechanism 50 is fixed on the side wall of the spreading and drying plate chain machine 34, one end of the first output shaft 52 is connected with the first driving mechanism 50, the other end of the first output shaft is inserted into the spreading and drying plate chain machine 34, and the first output shaft 52 is located below the cover body 51; a plurality of L-shaped scattering rods 53 are arranged on the first output shaft 52.

When the first driving mechanism 50 of the breaking-up assembly 38 works in the technical scheme, the first driving mechanism 50 is a motor, the first output shaft 51 is driven to rotate, so that the breaking-up rod 53 on the first output shaft 51 is driven to rotate quickly, the fermented grains entering the position are broken up, the first output shaft 51 arranged at the same time is positioned under the cover body 51, the breaking-up assembly 38 breaks up the fermented grains entering the position, the heat dissipation assembly 38 arranged at the position can be used for conducting heat dissipation on the fermented grains, the contact area between gas generated by the fan 54 and the fermented grains is increased, and the cooling rate of the fermented grains is improved.

The bottom of the spreading and drying plate chain machine 34 of the spreading and drying unit 30 is provided with a cleaning assembly 36, the cleaning assembly 36 comprises a suspension 58, a second driving mechanism 55 and a second output shaft 56, the suspension 58 is suspended at the bottom of the spreading and drying plate chain machine 34, the second driving mechanism 55 is fixed on the suspension 58, one end of the second output shaft 56 is connected with the second driving mechanism 55, the other end of the second output shaft is inserted into the suspension 58, and the second output shaft 56 is further provided with a plurality of brushes 57.

Because certain clearance has between each loading board on the chain of the spread drying plate chain machine 34 among this technical scheme, utilize this clearance can improve the radiating efficiency to the fermented grains on the spread drying plate chain machine, but also lead to some lees to remain easily in this clearance, for this reason, this technical scheme is in order to carry out the automation to the fermented grains that remain on spread drying plate chain machine 34 and clear up, so all be provided with clearance subassembly 36 in the bottom of each spread drying unit 30 that dries in the air, the second actuating mechanism 55 who sets up is the motor, can drive second output shaft 56 and rotate in the bottom of spread drying in the air board chain machine 34, and then drive each brush 57 on the second output shaft 56 and follow and rotate together, make the loading board of spread drying in the air board chain machine 34 when advancing through clearance subassembly 36, utilize the brush 57 that sets up to clear up the fermented grains that remain between each loading board, in practical application, can still be provided with the containing box in the bottom of this clearance subassembly 36, the fermented grains that utilize brush 57 to clear up are collected.

A tail liquor supplementing assembly 43 is further arranged on the last spreading and drying unit 30, and the tail liquor supplementing assembly 43 comprises a box body 18, a first pump body 21, a guide pipe and a spray head 16; the box body 18 is fixed on the spreading and drying plate chain machine 34 through the supporting legs 13, the first pump body 21 is fixed on the box body 18, one end of the guide pipe extends into the box body 18, the other end of the guide pipe enters the first body 21 and then is connected with the spray head 16, and the spray head 16 is used for spraying tail wine onto the spreading and drying plate chain machine 34.

In the technical scheme, the three spreading and drying units 30 are provided, in order to add tail wine into fermented grains in the spreading and drying process of the fermented grains, the tail wine mixed in the fermented grains can be used for disinfecting and sterilizing the fermented grains and inhibiting the growth of harmful strains, and on the other hand, the fermented grains are fermented again by using alkyd aldehyde ester in the tail wine in the fermentation process to generate more fragrant substances, so that the taste of the wine is more mellow, a tail wine supplementing assembly 43 is arranged on the last spreading and drying unit 30, a first pump body 21 is an electric pump, the tail wine stored in the box body 18 is pumped into a guide pipe, and finally the tail wine is sprayed out by using the spray head 16 and acts on the fermented grains spreading and drying machine 34, so that the purpose of automatically adding the tail wine into the fermented grains is realized, the spray heads 16 in the technical scheme are multiple and are fixed at the bottom of the box body 18 crossing the spreading and drying machine 34, and the spray head 16 can effectively act.

The bottom of the box body 18 is also provided with a supporting leg 13, one end of the supporting leg is connected with the spreading and drying plate chain machine, and the other end of the supporting leg is fixed at the bottom of the box body 18, so that the box body 18 is fixedly arranged on the spreading and drying plate chain machine 34.

Still including the holding vessel that is used for storing the tail-wine, still be equipped with the second pump body 14 between holding vessel and the box 18, the output of the second pump body 14 is equipped with first connecting pipe 15, first connecting pipe 15 is connected with the holding vessel, still be equipped with the second connecting pipe 19 of being connected with first connecting pipe 15 in the box 18.

In order to guarantee that box 18 is internal to be stored with the tail-wine of capacity, thereby guaranteed that shower nozzle 16 can continuously spray the tail-wine to the fermented grain on the spreading and drying machine, the event has set up the holding vessel that is used for carrying out the collection to the tail-wine that produces when the white spirit distills, the holding vessel can be collected the tail-wine that a plurality of wine rice steamer distills the production, it has great capacity, the second pump body 14 of setting is the water pump, in operation, utilize the first connecting pipe 15 of setting to take out the tail-wine of storing in the holding vessel, then rethread second connecting pipe 19 continuously carries to in the box 18, thereby realized continuously carrying the required tail-wine of fermented grain in the box 18.

An overflow pipe 17 is also arranged on the side wall of the box body 18.

In order to avoid that the tail wine when storing in box 18 is more, the second pump body 14 that sets up still continues to carry the tail wine to box 18 in, the condition that leads to the potential safety hazard to take place appears, so still be provided with overflow pipe 17 on the lateral wall of box 18, when the tail wine that lets in to box 18 reaches overflow pipe 17 department, discharge unnecessary tail wine through the overflow pipe 17 that sets up, the overflow pipe 17 that sets up can be connected with the holding vessel for the tail wine that overflows can flow back to the holding vessel in, so that follow-up continuation carries the tail wine to box 18 in.

The top of the box 18 is further provided with a protective shell 20, and the first pump body 21 is located in the protective shell 20.

In order to prevent the first pump 21 provided in the casing 18 from being damaged by the outside, a protective case 20 for protecting the first pump 21 is provided in the first body 21.

A filter screen 22 is further arranged in the box body 18, the filter screen 22 is of an L-shaped structure, and a rectangular space is defined by the filter screen 22 and the inner wall of the box body 18; the end of the conduit located in the box 18 extends into the rectangular space enclosed by the filter screen 22 and the box 18.

In order to prevent impurities in the box 18 from entering the spray head 16 and causing blockage of the spray head 16 when the first pump body 21 extracts the tail wine stored in the box 18 and sprays out of the spray head 16, a filter screen 22 is further arranged in the box 18, the filter screen 22 is in an L shape, one side of the filter screen 22 is fixed to the inner bottom of the box 18, the other side of the filter screen is connected with one side wall of the box 18, two end parts of the filter screen 22 are also connected with two opposite side walls of the box 18 to form a rectangular space, the tail end of the guide pipe positioned in the box 18 extends into the rectangular space formed by the filter screen 22, and when the tail wine in the box 18 is extracted, the impurities in the tail wine can be prevented from being sucked into the guide pipe by the arranged filter screen 22, so that the blockage of the spray head 16 is prevented.

Last it still is equipped with on the unit 30 of airing in the stand adds bent powder subassembly 42, add bent powder subassembly 42 and include bracing piece 45, bent powder case 46, conveyer 47 and riser 49, bent powder case 46 passes through bracing piece 45 to be fixed on the board chain machine 34 that dries in the stand, bent powder case 46's bottom is equipped with the opening, conveyer 47 is located bent powder case 46's opening below, the vertical insertion of riser 49 is in bent powder case 46's opening, riser 49's top still is equipped with the regulation pole, be equipped with the diaphragm that is used for with adjusting lever connection on bent powder case 46.

In order to promote fermentation of fermented grains, a yeast powder adding component 42 is further arranged on the last spreading and drying unit 30 to achieve the purpose of automatically adding yeast powder to the fermented grains on the spreading and drying unit 30, wherein a yeast powder box 46 is fixed to the top of the spreading and drying plate chain machine 34 through a support rod 45, yeast powder is filled in the yeast powder box 46, an opening is formed in the bottom of the yeast powder box 46, and a conveyor 47 is fixed to the bottom of the yeast powder box 46.

Simultaneously, this technical scheme is in order to realize the addition of the curved powder of control, the event still is provided with riser 46 in curved powder case 46, the riser is vertical to be inserted in curved powder case 46's opening, be provided with the regulation pole simultaneously at riser 49's top, be provided with the diaphragm on curved powder case 46, adjust the vertical diaphragm that runs through of pole, still set up adjusting nut on the regulation pole, utilize the adjusting nut who sets up to adjust riser 49 at the intraoral height of curved powder case 46 opening, thereby realized the regulation to forming the clearance between riser 49 and the conveyer 47, size through controlling this clearance, thereby the thickness that conveyer 47 carried out curved powder has been controlled, and then realized the regulation to the curved powder volume of interpolation.

The last spreading and drying unit 30 is also provided with a wine yeast adding component 41, the wine yeast adding component 41 comprises a water yeast box 67, a feeding pipeline system, an air pump stirring system and a discharging pipeline system which are communicated with the water yeast box 67, the feeding pipeline system comprises a yeast feeding pipe 61, a water pump 62 and a yeast conveying pipe 63, the yeast feeding pipe 61, the water pump 62, the yeast conveying pipe 63 and the water yeast box 7 are sequentially communicated, and the water yeast box 7 is fixedly spread and dried on the plate chain machine 34 through supporting legs;

the air pump stirring system comprises an air pump 64 and an air conveying pipe 65 communicated with the air pump 64, and the port of the air conveying pipe 65 extends into the bottom of the water yeast box 67;

the discharging pipeline system comprises a transverse bent-out pipe 71 and a plurality of vertical bent-out pipes 70, the upper ends of the vertical bent-out pipes 70 are communicated with the bottom of the water bent box 67, and the lower ends of the vertical bent-out pipes are communicated with the transverse bent-out pipe 71; the transverse bending outlet pipe 71 is horizontally arranged, and a plurality of small holes are uniformly formed in the lower side wall of the transverse bending outlet pipe.

During the brewing process of white spirit, brewing yeast needs to be added into fermented grains, the traditional mode is that solid brewing yeast is directly ground into powder and then the powder brewing yeast is mixed with the fermented grains, however, the fermented grains and the fermented grains are not conveniently and fully mixed by adopting the mode, and the fermented grains are poor in fermentation effect, therefore, a brewing yeast adding component 41 is further arranged on the last section of spreading and drying unit 30, the set brewing yeast adding component 41 can automatically add the fermented grains into the spreading and drying plate chain machine 34, when the technical scheme is used, the fermented grains are conveyed into the fermented grains box 67 through a feeding pipeline system, the fermented grains at the bottom of the fermented grains box 67 are inflated through a gas conveying pipe 65 of a gas pump stirring system, so that the stirring of the fermented grains is realized, the fermented grains are prevented from being precipitated in the fermented grains box 67, and finally the fermented grains uniformly stirred in the fermented grains box 67 are conveyed to a small hole of a transverse fermented grains discharging pipe 71 through a vertical fermented grains conveying pipe 70 communicated with the bottom of the fermented grains box 67, and the fermented grains are sprayed on the spreading and the fermented grains chain plate 34 to realize the adding of the fermented grains.

The bottom surface area of the water bending box 67 is smaller than the upper end surface area and the remaining four side surfaces are inclined surfaces. When the water yeast box 67 is actually used, when gas is conveyed to the bottom of the water yeast box 67 through the gas conveying pipe 65 to stir the water yeast, the water yeast at the bottom of the water yeast box 67 drives the water yeast in the whole water yeast box 67 to stir, and as the area of the bottom of the water yeast box 67 is small, the water yeast amount at the bottom is less compared with that at the upper part, when stirring is carried out, the stirring is more sufficient, and the water yeast precipitation caused by excessive stirring and insufficient stirring of the water yeast at the bottom can be effectively avoided; when the fermented grains are sprayed, the water yeast can collect along the four inclined surfaces of the water yeast box 67 to the bottom of the water yeast box 67, and the water yeast is prevented from being locally blocked and generating sediment.

The port of the air pipe 65 is set to be an inclined surface opening facing upwards, the port of the air pipe 65 is arranged at the center of the bottom of the water bending box 67, and the air pipe 65 is further provided with an air valve 66. When the water yeast in the water yeast box 67 is stirred, the opening of the gas transmission valve 66 can be adjusted according to the water yeast amount in the water yeast box 67 to control the gas output, so that the water yeast is prevented from being stirred insufficiently and generating precipitates; simultaneously the inclined plane opening makes the air that comes out from the gas-supply pipe 65 bigger with the bent area of contact of water, stirs more abundant, and the inclined plane opening sets up in the central point of bent case 67 and puts, when stirring, stirs more evenly, avoids local bent of water to produce because of the stirring inadequately and deposits.

Each vertical bending outlet pipe 70 is provided with a bending output valve 69. In the embodiment, each vertical koji discharging pipe 70 is provided with a koji conveying valve 69, and during actual use, the opening size of the koji conveying valve 69 is adjusted according to the amount of the fermented grains, so that the amount of the fermented grains discharged is controlled, and the influence on the fermentation effect of the fermented grains caused by excessive or insufficient amount of water added to the fermented grains is prevented.

The discharge pipeline system further comprises a drain pipe 72, the drain pipe 72 is transversely arranged and is communicated with the vertical bent pipes 70, and two ends of the drain pipe 72 and two ends of the transverse bent pipes 71 are provided with sewage valves 68. The utility model discloses need wash around using, clear away the inside remaining bent or impurity of water of equipment, in the cleaning process, pass through feeding pipe system entering equipment with the clear water, air pump mixing system stirs the clear water and washs bent case 67, then opens sewage valve 68, and sewage passes through discharge pipe system's blow off pipe 72 and transversely goes out bent pipe 71 and discharges, and the clear water also can erode remaining bent of water in the flow. The utility model discloses at the unstrained spirits in-process that adds the water song, the sewage valve 68 of this embodiment keeps the closed condition, prevents that the water song from flowing.

The spreading and drying units 30 are all provided with temperature measuring units 35.

In order to detect the temperature of the fermented grains on each spreading and drying unit 30 in real time, the temperature measuring units 35 are further arranged on each spreading and drying unit 30, the arranged temperature measuring units 35 are temperature sensors, the temperature sensors are fixed on the spreading and drying plate chain machine 34 through third support frames, the temperature sensors can extend into the fermented grains entering the position, and the temperature of the fermented grains entering the position can be detected through the arranged temperature sensors.

Example 5

As shown in fig. 29 to 31, on the basis of embodiment 4, the spreading and drying device further includes a stacking mechanism disposed at the tail end of the spreading and drying mechanism, the stacking mechanism includes a conveying component 79, the conveying component 79 is located below the discharge port of the last spreading and drying unit 30, the heights of the two ends of the conveying component 79 are higher than the height of the middle portion of the conveying component 79, and the conveying component 79 is used for conveying the material in the middle portion towards the directions of the two ends of the conveying component 79 respectively; the lower parts of the two ends of the conveying assembly 79 are also provided with discharging assemblies 74, the discharging assemblies 74 can convey the materials falling onto the discharging assemblies 74 out of the two ends of the discharging assemblies 74, and the discharging assemblies 74 can reciprocate in the horizontal direction.

Aiming at the problems that in the prior art, fermented grains are piled up in a manual piling mode, the piled height is limited, so that the fermented grains are not convenient to pile up to a higher height, and more places are required to be occupied for piling up the fermented grains, therefore, the technical scheme is that a piling mechanism is arranged at the tail end of a spreading and drying mechanism, a conveying assembly 79 of the piling mechanism is of a structure with the middle position at the bottom and the two ends higher than the central position of the conveying assembly, after the spreading and drying mechanism finishes spreading and drying the fermented grains, the spread and dried fermented grains are conveyed to the central position of the conveying assembly 79, and then the conveying device 79 is used for conveying the fermented grains positioned at the central part of the conveying assembly towards the two ends of the conveying device 79, so that the spread and dried fermented grains are conveyed to a certain height; still all be provided with ejection of compact subassembly 74 simultaneously below conveyor 79's both ends, the unstrained spirits that lie in conveyor 79 both ends drop to ejection of compact subassembly 74 on, because the ejection of compact subassembly 74 that sets up can move on the horizontal direction, consequently through adjusting ejection of compact subassembly 74 position on the horizontal direction, realize the regulation that the unstrained spirits piled up the position, the unstrained spirits that set up simultaneously can drop from two directions, make the unstrained spirits have great drop scope in the horizontal direction, thereby realized stacking the unstrained spirits in one end within range.

A fourth support bracket 73 is also included, the fourth support bracket 73 being disposed at the bottom of the conveyor assembly 79.

The conveying assembly 79 can be stably supported in the white spirit processing workshop by the aid of the arranged fourth supporting frame 73, and the length of the fourth supporting frame 73 can be selected according to the actual workshop height.

The conveying assembly 79 comprises a first frame body, a first driving mechanism, a plurality of transmission shafts, chains and a plurality of material plates, the first frame body is fixed at the top of the fourth support frame 73, the transmission shafts are uniformly arranged on the first frame body, gears are arranged on the rotating shafts, and the chains are sleeved on the rotating shafts and connected with the gears; the material plates are uniformly arranged on the chain, and the first driving mechanism is fixed on the first frame body and connected with one transmission shaft.

The conveying assembly 79 that this technical scheme set up is plate chain conveyor, first support body has been included promptly, a drive mechanism, a plurality of transmission shaft, chain and a plurality of material board, the first actuating mechanism who sets up is the motor, first actuating mechanism during operation, drive the axis of rotation that sets up and rotate, thereby the chain in the drive axis of rotation rotates, and then the removal of the material board that sets up between two chains, concrete during operation, the unstrained spirits that will spread after drying in the air are placed on the material board of conveying assembly 79 central point, the direction of rotation of first actuating mechanism is selected according to the demand of stacking of reality, when first actuating mechanism corotation promptly, can carry the unstrained spirits of stacking on the material board towards the one end direction of conveying assembly 79, and when first actuating mechanism reverses, can carry the unstrained spirits of stacking on the material board towards another direction of conveying assembly 79, thereby through the direction of rotation of controlling first actuating mechanism, the control of the position is stacked to the unstrained spirits has been realized.

The first frame body is of an inverted 'n' -shaped structure.

According to the technical scheme, in order to lift the fermented grains at the lower part to a certain height and facilitate stacking of the fermented grains, the first frame body is of an inverted 'n' -shaped structure, namely the height of the central position of the first frame body is lower than the heights of the two ends of the first frame body, after the fermented grains are spread and dried, the fermented grains are stacked on the material plate at the central position of the first frame body, and then the rotation direction of the chain is controlled according to the rotation direction of the first driving mechanism, so that the conveying direction of the fermented grains on the material plate is controlled.

The material barrel 76 is further included, and the material barrel 76 is located right above the central portion of the first frame body.

In order to ensure that the fermented grains can stably fall at the central position of the conveying assembly 79 after being spread and dried on the spreading and drying mechanism, a material cylinder 76 is further arranged at the central position of the first frame body, the arranged material cylinder 76 is positioned below the tail end of the last spreading and drying unit 30, so that the fermented grains can fall into the material cylinder 76 after being spread and dried, then fall at the central position of the conveying assembly 79, and finally the fermented grains at the central position are conveyed to two ends of the material assembly 79 by the conveying assembly 79.

Both sides of first support body still all are equipped with mount 77, be equipped with second actuating mechanism 75 on the lateral wall of mount 77, second actuating mechanism 75's output is connected with ejection of compact subassembly 74, second actuating mechanism 75 is used for driving ejection of compact subassembly 74 and removes along the horizontal direction.

This technical scheme is in order to realize the regulation to ejection of compact subassembly 74 position on the horizontal direction, the event has set up second actuating mechanism 75, second actuating mechanism 75 is electric putter or hydraulic cylinder, second actuating mechanism 75 during operation, can promote ejection of compact subassembly 74 and remove in the horizontal direction, the concrete principle does, utilize the conveying subassembly 79 that sets up to carry the unstrained spirits to conveying subassembly 79's terminal department, later drop to ejection of compact subassembly 74 on, then utilize the second actuating mechanism 75 that sets up to adjust ejection of compact subassembly 74 position on the horizontal direction, thereby adjust the position of dropping the unstrained spirits from ejection of compact subassembly 74, the control of stacking the position to the unstrained spirits has been realized.

The discharging assembly 74 comprises a third driving mechanism 83, a second frame body 82, a transmission belt 81 and two rotation shafts 80, the second frame body 82 is connected with the output end of the second driving mechanism 75, the rotation shafts 80 are arranged on the second frame body 82, two ends of the transmission belt 81 are respectively sleeved on the two rotation shafts 80, and the third driving mechanism 83 is fixed on the second frame body 82 and is connected with one rotation shaft 80.

When fermented grains fall from the tail end of the conveying assembly 79 to the conveying belt 81 on the discharging assembly 74, the arranged third driving mechanism 83 is a motor and can drive the rotating shaft 80 to rotate when the motor works, so that the conveying belt 81 is driven to rotate, the fermented grains falling on the conveying belt 81 fall from the tail end of the conveying belt 81 to the stacking ground, and the stacking of the fermented grains is completed; meanwhile, the third driving mechanism 83 arranged in the technical scheme can rotate forwards and backwards, so that the falling direction of the fermented grains falling onto the conveying belt 81 can be controlled by controlling the rotating direction of the third driving mechanism 83, namely the fermented grains fall from the left end or the right end of the conveying belt 81, and the control of the fermented grain stacking position is further realized.

Claims (9)

1. The utility model provides a system of collection distillation and stand function of drying in the air which characterized in that includes:

the distillation system comprises a wine retort, wherein rotating assemblies communicated with the interior of the wine retort are arranged on two opposite sides outside the wine retort, and the rotating assemblies are used for driving the wine retort to vertically turn around the rotating assemblies for pouring materials;

the spread-drying system comprises a spread-drying mechanism and a collecting mechanism arranged below the wine retort, wherein the collecting mechanism is used for collecting the fermented grains poured out of the wine retort and conveying the collected fermented grains to the spread-drying mechanism, the spread-drying mechanism comprises a multi-section spread-drying unit, and the spread-drying unit is used for scattering and radiating the fermented grains.

2. The system with the functions of distilling and tedding according to claim 1, wherein the rotating assemblies on two sides are communicated with rotating joints, one rotating joint is communicated with a normal-temperature water supplementing pipeline and a tail wine supplementing pipeline which are connected in parallel, and the other rotating joint is communicated with a steam distribution pipeline;

the wine retort is internally separated into an upper cavity and a lower cavity through a retort grate, a steam outlet coil pipe and a medium supplementing pipe are arranged in the lower cavity, the steam outlet coil pipe is communicated with a rotating assembly communicated with a steam distribution pipeline, and the medium supplementing pipe is communicated with the other rotating assembly.

3. The system of claim 2, wherein the rotating assembly comprises a fixed member fixedly connected to the wine retort, and a shaft member fixedly sleeved in the fixed member;

the fixing piece and the shaft piece are provided with through holes, and the through holes of the fixing piece and the shaft piece are communicated with each other to form a communication hole; the position of the orifice of the through hole in the fixing piece is communicated with the steam outlet coil pipe or the medium supplementing pipe, and the position of the orifice of the through hole in the shaft piece is connected with the rotary joint in a sealing manner.

4. The system integrating the distilling and tedding functions as claimed in claim 3, further comprising a retort cover with a sealing cover arranged on the wine retort and a wine vapor collecting pipeline communicated with the retort cover;

the distillation system also comprises a retort cover opening and closing assembly;

the retort cover opening and closing assembly comprises a fixed seat, a rotating arm is rotatably connected to the fixed seat, one end of the rotating arm is fixedly connected with the top of the retort cover, and a driving mechanism for driving the rotating arm to rotate so as to open and close the retort cover is fixed on the fixed seat;

still including being fixed in the sealed adapter on the fixing base, wine steam collection pipeline includes outlet duct and intake pipe, sealed adapter one end intercommunication the outlet duct, the sealed intercommunication of the other end the intake pipe just the intake pipe can rotate around sealed adapter, the intake pipe walk the pipe and communicate with rice steamer lid top along the rotor arm is inside.

5. The system for integrating distillation and tedding functions as claimed in claim 1, wherein the collecting mechanism comprises a collecting unit arranged below the wine retort, a feeding plate chain machine is arranged at the bottom of the collecting unit, the inlet end of the feeding plate chain machine is positioned below the collecting unit, a material collecting plate chain machine is arranged below the outlet end of the feeding plate chain machine, and a height limiting unit is arranged on the material collecting plate chain machine.

6. The system integrating distillation and spreading drying functions as claimed in claim 5, wherein the spreading drying unit comprises a spreading drying plate chain machine, a heat dissipation component and a scattering component, and the spreading drying plate chain machine is positioned below the tail end of the material collecting plate chain machine;

the heat dissipation assembly comprises a cover body and a fan, the cover body is arranged at the top of the spreading and drying plate chain machine, the fan is fixed on the cover body, and the fan is used for conveying gas into the cover body;

the scattering assembly comprises a first driving mechanism and a first output shaft, the first driving mechanism is fixed on the side wall of the spreading and drying plate chain machine, one end of the first output shaft is connected with the first driving mechanism, the other end of the first output shaft is inserted into the spreading and drying plate chain machine, and the first output shaft is located below the cover body;

and a plurality of L-shaped scattering rods are arranged on the first output shaft.

7. The system integrating distillation and spreading drying functions as claimed in claim 6, wherein the bottom of each spreading drying plate chain machine of the spreading drying unit is provided with a cleaning assembly, the cleaning assembly comprises a suspension, a second driving mechanism and a second output shaft, the suspension is suspended at the bottom of each spreading drying plate chain machine, the second driving mechanism is fixed on the suspension, one end of the second output shaft is connected with the second driving mechanism, the other end of the second output shaft is inserted into the suspension, and the second output shaft is further provided with a plurality of brushes.

8. The system integrating distillation and spreading and drying functions as claimed in claim 6, wherein a tail wine supplementing component, a yeast powder adding component and a wine yeast adding component are further sequentially arranged on the last spreading and drying unit;

the tail liquor supplementing assembly is used for adding tail liquor to the fermented grains conveyed by the spreading and drying plate chain machine;

the yeast powder adding component is used for adding yeast powder to the fermented grains conveyed by the spread-airing plate chain machine;

the wine yeast adding component is used for adding wine yeast to the fermented grains conveyed by the spreading and airing plate chain machine.

9. The system integrating distillation and spreading and drying functions as claimed in claim 6, further comprising a push-up mechanism, wherein the push-up mechanism comprises a conveying component and a discharging component, the heights of two ends of the conveying component are higher than the height of the middle of the conveying component, and the tail end of the spreading and drying unit is positioned right above the middle of the conveying component;

the discharging assembly is located below two ends of the conveying assembly and can move in the horizontal direction.

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