CN114350463A - Workshop is made in automation of soy sauce wine - Google Patents

Abstract

The invention belongs to the technical field of liquor brewing, and particularly discloses an automatic liquor brewing workshop. The workshop comprises an upper workshop and a lower workshop, wherein the bottom surface of the upper workshop is sequentially provided with an equipment operation area, a first material transfer area, a material stacking area and a second material transfer area from left to right, the equipment operation area is provided with a grain moistening mechanism, a mixing mechanism, a wine steaming mechanism and a spread cooling and yeast adding mechanism, and the first material transfer area and the second material transfer area are respectively provided with a first material transfer hole and a second material transfer hole; the bottom surface of the lower layer workshop is provided with a plurality of cellar pools, and the positions of the bottom surface of the lower layer corresponding to the first material transfer hole and the second material transfer hole are respectively provided with a material receiving area and a material conveying channel; a beam type travelling crane is erected in the upper workshop and the lower workshop, and a grab bucket assembly and a hook assembly are arranged on the beam type travelling crane. The efficient working area of the workshop is large, all functional areas in the workshop are reasonable in layout, materials are convenient to operate, mechanical operation and production are achieved, and wine brewing efficiency is high.

Description

Workshop is made in automation of soy sauce wine

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of liquor brewing, in particular to an automatic liquor brewing workshop. .

[ background of the invention ]

Maotai-flavor liquor is also called Mao-flavor liquor and belongs to Daqu liquor. The Maotai-flavor liquor has rich mouthfeel, long aftertaste and a plurality of health elements, and has the following characteristics: firstly, the sauce-flavor wine has the characteristics of high four, high one and long one, so that volatile substances in the wine are few, and the harm to a human body is reduced; secondly, the acidity is high, and the traditional Chinese medicine considers that the acid mainly controls the spleen and stomach, protects the liver and softens blood vessels; thirdly, the liquor degree of the sauce-flavor liquor is reasonable, the affinity between 53% vol alcohol molecules and water molecules is better, long-time storage is realized, the number of free alcohol molecules is small, and the stimulation to a human body is small; and fourthly, the sauce-flavor wine is produced by natural fermentation of pure grains, and as no main flavor substance is found in the sauce-flavor wine, the possibility of artificially adding flavor components is eliminated.

At present, the liquor sauce production lines of a plurality of brewing enterprises are designed in a single-layer brewing workshop, so that the problems of large floor area, high total cost and the like exist, and the production areas are mutually crossed and mixed, so that the safety is poor. In view of the existing problems, some new designs design the production line in the multilayer brewing workshop, and although the problems are solved to a certain extent, the new problems are brought about: when materials are transferred in a multilayer workshop, the production requirements of fast-paced cloth can not be met due to the fact that the operation is troublesome, manpower, material resources and time are consumed.

[ summary of the invention ]

In view of the above, there is a need to provide an automatic brewing workshop for soy sauce and wine, which has a large effective working area, reasonable layout of functional areas in the workshop, convenient material operation, mechanical operation and production, and high brewing efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an automatic brewing workshop for sauce and wine is characterized in that the workshop comprises an upper workshop and a lower workshop, an equipment operation area, a first material transfer area, a material stacking area and a second material transfer area are sequentially arranged on the bottom surface of the upper workshop from left to right, the equipment operation area is provided with a grain moistening mechanism, a mixing mechanism, a wine steaming mechanism and a spreading and cooling yeast adding mechanism, the first material transfer area and the second material transfer area are respectively provided with a first material transfer hole and a second material transfer hole, and the first material transfer hole and the second material transfer hole are communicated with the lower workshop; a plurality of cellar pools are formed in the bottom surface of the lower layer workshop, and material receiving areas and material conveying channels are respectively arranged on the bottom surface of the lower layer corresponding to the first material transfer holes and the second material transfer holes; a beam type travelling crane is erected in the upper workshop and the lower workshop, a grab bucket assembly and a lifting hook assembly are arranged on the beam type travelling crane, and both the grab bucket assembly and the lifting hook assembly can move along the beam type travelling crane under the action of force.

Further, the grain moistening mechanism and the spreading and cooling yeast adding mechanism are respectively positioned on the front side and the rear side of the mixing mechanism, and the wine steaming mechanism is positioned on the left side of the mixing mechanism.

Furthermore, the grain moistening mechanism comprises a hot water tank, a water pump, a grain moistening hopper and a grain moistening conveyor, wherein the hot water tank is connected with the water pump through a water inlet pipe, the water pump is connected with an upper end opening of the grain moistening hopper through a water outlet pipe, and a feeding end of the grain moistening conveyor is positioned right below a discharge hole of the grain moistening hopper.

Furthermore, the mixing mechanism comprises a raw grain metering hopper, a raw grain conveyor, a rice hull metering hopper, a rice hull conveyor, a cooked grain metering hopper, a cooked grain conveyor, a first mixing conveyor, a mixing receiving hopper and a discharging conveyor, the feeding end of the raw grain conveyor is positioned right below the discharge port of the raw grain metering hopper, the feeding end of the rice hull conveyor is positioned right below the discharge port of the rice hull metering hopper, the feeding end of the cooked grain conveyor is positioned right below the cooked grain metering hopper, the discharging ends of the raw grain conveyor, the rice hull conveyor and the cooked grain conveyor are all positioned right above the feeding end of the first mixing conveyor, the discharging end of the first mixing conveyor is located right above the feeding port of the mixing receiving hopper, and the discharging port of the mixing receiving hopper is located right above the feeding end of the discharging conveyor.

Furthermore, the mixing mechanism further comprises a second mixing conveyor which is a bidirectional conveyor, the discharging end of the first mixing conveyor is located right above the middle of the second mixing conveyor, two ends of the second mixing conveyor are correspondingly provided with one mixing receiving hopper, and two ends of the second mixing conveyor are located right above a feed inlet of the mixing receiving hopper.

Furthermore, the raw grain conveyor, the cooked grain conveyor and the first mixing conveyor are all provided with scattering components.

Still further, evaporate wine mechanism including wine examine with automatic feeding ware, wine examine with automatic feeding ware is side by side and adjacent setting, just the feed inlet of automatic feeding ware is located compounding mechanism final discharge gate under.

Furthermore, the spread cooling and koji adding mechanism comprises a spread cooling metering hopper, a spread cooling conveyor, a koji adding and heat dissipating conveyor and a koji adding device, wherein the feeding end of the spread cooling conveyor is positioned under the discharging port of the spread cooling metering hopper, the discharging end of the spread cooling conveyor is positioned over the feeding end of the koji adding and heat dissipating conveyor, and the discharging port of the koji adding device is positioned over the spread cooling and heat dissipating conveyor.

Furthermore, the grab bucket assembly comprises a first grab bucket driving piece, a second grab bucket driving piece and an openable grab bucket, the first grab bucket driving piece is installed on the beam type traveling crane and can move along the beam type traveling crane, the second grab bucket driving piece is installed on the first grab bucket driving piece, the openable grab bucket is connected with the second grab bucket driving piece, and the openable grab bucket can move up and down relative to the beam type traveling crane under the driving of the second grab bucket driving piece.

Further, the lifting hook subassembly includes first lifting hook driving piece, second lifting hook driving piece and lifting hook, first lifting hook driving piece is installed on the beam type driving vehicle and can follow the beam type driving vehicle removes, second lifting hook driving piece is installed on the first lifting hook driving piece, the lifting hook with second lifting hook driving piece is connected under the drive of second lifting hook driving piece, the lifting hook can be relative the beam type driving vehicle reciprocates.

The invention has the following beneficial effects:

1. through upper and lower two-layer workshop combination use, the cellar for storing things pond is seted up in lower floor's workshop and is used for accomplishing fermentation process, and upper workshop is through setting up equipment operation area and material and piling up the district and accomplish whole wine technology of getting, can improve the effective work area in making wine workshop, and the production area is divided clearly, and the security is high.

2. Through set up the material transfer hole in the upper bottom surface, the beam type driving that two-layer set up about the cooperation, grab bucket subassembly and lifting hook subassembly can accomplish the material transfer in the layer and between the layer, overall structure is simple, convenient operation.

3. Each mechanism in the equipment operation area is reasonably and compactly distributed, and the material transfer among the mechanisms is rapid and convenient, so that the production efficiency is improved, and the occupied ground area is reduced.

[ description of the drawings ]

Fig. 1 is a schematic three-dimensional structure diagram of an automatic brewing workshop for making soy sauce wine.

Fig. 2 is a left side view of fig. 1.

FIG. 3 is a schematic view of the structure of the floor of the upper plant according to the present invention.

Fig. 4 is a partial top view of fig. 3.

Description of the main elements

In the figure, 1-a lower workshop, 2-an upper workshop, 3-a grain wetting mechanism, 31-a hot water tank, 32-a water pump, 33-a grain wetting hopper, 34-a grain wetting conveyor, 4-a mixing mechanism, 41-a raw grain weighing hopper, 42-a raw grain conveyor, 43-a rice hull weighing hopper, 44-a rice hull conveyor, 45-a cooked grain weighing hopper, 46-a cooked grain conveyor, 47-a first mixing conveyor, 48-a second mixing conveyor, 49-a mixed material receiving hopper, 491-a discharge conveyor, 5-a wine steaming mechanism, 51-a wine screen, 52-an automatic feeder, 6-a spread cooling and koji adding mechanism, 61-a spread cooling and weighing hopper, 62-a spread conveyor, 63-a koji adding and heat dissipating conveyor, 64-a koji adding device, 7-a first material transferring hole, 8-second material transfer hole, 9-beam crane, 10-pit, 11-material receiving area, 12-material conveying channel, 13-grab bucket component, 131-first grab bucket driving component, 132-second grab bucket driving component, 133-openable grab bucket, 14-hook component, 141-first hook driving component, 142-second hook driving component, 143-hook, 15-material transfer barrel and 16-material stacking area.

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

[ detailed description ] embodiments

Referring to fig. 1 to 4, in a preferred embodiment of the present invention, an automated liquor brewing plant comprises an upper plant 2 and a lower plant 1. An equipment operation area, a first material transfer area, a material stacking area 16 and a second material transfer area are sequentially arranged on the bottom surface of the upper workshop 2 from left to right, the equipment operation area is provided with a grain moistening mechanism 3, a mixing mechanism 4, a wine steaming mechanism 5 and a spread cooling yeast adding mechanism 6 and is used for correspondingly completing the steps of grain moistening, mixing, wine steaming and spread cooling yeast adding in the wine making process, the grain moistening mechanism 3 and the spread cooling yeast adding mechanism 6 are respectively positioned on the front side and the rear side of the mixing mechanism 4, the wine steaming mechanism 5 is positioned on the left side of the mixing mechanism 4, the first material transfer area and the second material transfer area are respectively provided with a first material transfer hole 7 and a second material transfer hole 8, the first material transfer hole 7 and the second material transfer hole 8 are both communicated with the lower workshop, so that materials can be conveniently transferred in the upper workshop and the lower workshop, in order to ensure safety, fences are arranged around the first material transfer hole 7 and the second material transfer hole 8. The bottom surface of the lower-layer workshop 1 is provided with a plurality of cellar pools 10 for fermenting materials, and the bottom surface of the lower-layer workshop 1 is provided with a material receiving area 11 and a material conveying channel 12 corresponding to the positions of the first material transfer hole 7 and the second material transfer hole 8 respectively; a beam type travelling crane 9 is erected in the upper workshop 2 and the lower workshop 1, the beam type travelling crane 9 can move along the upper workshop 2 or the lower workshop 1 in a left-right mode, a grab bucket assembly 13 and a lifting hook assembly 14 are arranged on the beam type travelling crane 9, and the grab bucket assembly 13 and the lifting hook assembly 14 can move along the beam type travelling crane 9 under the stress.

The transfer of the materials in different positions of a single layer can be realized through the beam type crane 9, the grab bucket assembly 13 and the hook assembly 14, the transfer of the materials in the upper workshop 2 and the lower workshop 1 before and after fermentation can be realized through the beam type crane 9, the grab bucket assembly 13, the hook assembly 14, the receiving area 11 and the first material transfer hole 7, and the transfer of the initial materials and the final materials in the upper workshop 2 and the lower workshop 1 can be realized through the beam type crane 9, the grab bucket assembly 13, the hook assembly 14, the material conveying channel 12 and the second material transfer hole 8.

The grab bucket assembly 13 includes a first grab bucket driving member 131, a second grab bucket driving member 132 and an openable and closable grab bucket 133, the first grab bucket driving member 131 is mounted on the beam type traveling crane 9 and can move along the beam type traveling crane 9, the second grab bucket driving member 132 is mounted on the first grab bucket driving member 131, the openable and closable grab bucket 133 is connected with an output end of the second grab bucket driving member 132, and the openable and closable grab bucket 133 can move up and down relative to the beam type traveling crane 9 under the driving of the second grab bucket driving member 132. The lifting hook assembly 14 comprises a first lifting hook driving part 141, a second lifting hook driving part 142 and a lifting hook 143, the first lifting hook driving part 141 is installed on the beam type crane 9 and can move along the beam type crane 9, the second lifting hook driving part 142 is installed on the first lifting hook driving part 141, the lifting hook 143 is connected with the output end of the second lifting hook driving part 142, the lifting hook 143 can move up and down relative to the beam type crane 9 under the driving of the second lifting hook driving part 142, the lifting hook 143 can be detachably hooked with the material transfer barrel 15, and the bottom of the material transfer barrel 15 can be opened and closed.

The material transfer barrel 15 is used for receiving the materials output from the grain moistening mechanism 3, the mixing mechanism 4, the spread cooling and yeast adding mechanism 6 or the openable and closable grab bucket 133, so as to combine with the lifting hook 143 to continue the Ningning transfer.

The grain moistening mechanism 3 comprises a hot water tank 31, a water pump 32, a grain moistening hopper 33 and a grain moistening conveyor 34, a water inlet is formed in the top of the hot water tank 31, a temperature control system is arranged in the hot water tank 31 to control water temperature conveniently, the lower portion of the hot water tank 31 is connected with the water pump 32 through a water inlet pipe, a spraying assembly is arranged at an upper end opening of the grain moistening hopper 33 and comprises a spraying pipe and a flow meter, the water pump 32 is connected with the spraying pipe through a water outlet pipe, the flow meter is used for controlling water outlet quantity so as to provide quantitative hot water for grains in the grain moistening hopper 33 and enable starch in the grains to be preliminarily gelatinized, a stirring assembly is arranged in the grain moistening hopper 33 and comprises a stirring driving piece and a stirring shaft, and spiral stirring blades are arranged on the stirring shaft to improve stirring uniformity; the feeding end of the grain moistening conveyor 34 is located right below the discharge hole of the grain moistening hopper 33, the discharging end of the grain moistening conveyor 34 is located right above the feed hole of the material transfer barrel 15 and used for outputting the moistened grains, and the moistened grains can be transferred to the material stacking area 16 to be stacked by combining the hook assembly 14, so that the next operation is performed.

The mixing mechanism 4 comprises a raw grain metering hopper 41, a raw grain conveyor 42, a rice hull metering hopper 43, a rice hull conveyor 44, a cooked grain metering hopper 45, a cooked grain conveyor 46, a first mixing conveyor 47, a second mixing conveyor 48, a mixing receiving hopper 49 and a discharging conveyor 491, wherein the feeding end of the raw grain conveyor 42 is positioned under the discharging port of the raw grain metering hopper 41, the feeding end of the rice hull conveyor 44 is positioned under the discharging port of the rice hull metering hopper 43, the feeding end of the cooked grain conveyor 46 is positioned under the cooked grain metering hopper 45, the feeding ends of the raw grain conveyor 42, the rice hull conveyor 44 and the cooked grain conveyor 46 are all positioned over the feeding end of the first mixing conveyor 47, the discharging end of the first mixing conveyor 47 is positioned over the middle part of the second mixing conveyor 48, the second mixing conveyor 48 is a bidirectional mixing conveyor, the first mixing conveyor 47 and the second mixing conveyor 48 are perpendicular to each other in the longitudinal direction, that is, the first mixing conveyor 47 is disposed along the left-right direction of the workshop, the second mixing conveyor 48 is disposed along the front-rear direction of the workshop, both ends of the second mixing conveyor 48 are located right above the feed inlet of a mixing receiving hopper 49, and the discharge outlet 491 of the mixing receiving hopper 49 is located right above the feed inlet of the discharging conveyor.

The wine steaming mechanism 5 comprises a wine screen 51 and automatic material loading devices 52, the wine screen 51 and the automatic material loading devices 52 are located on the same horizontal line, the horizontal line is parallel to the second mixing conveyor 48, in order to match with the second mixing conveyor 48, the number of the wine screen 51 is four, the number of the automatic material loading devices 52 is two, one automatic material loading device 52 is located between the two wine screen 51, the material receiving barrels of the two automatic material loading devices 52 are located under the discharging port of the discharging conveyor 491, and when the material receiving barrels of the automatic material loading devices 52 are filled with materials, the automatic material loading devices 52 move the material receiving barrels to be right above the wine screen 51, so that the materials are poured into the wine screen 51 to steam wine. In this embodiment, the wine screen 51 and the automatic feeder 52 are both in the prior art, and the detailed structure thereof is not described herein.

Through raw grain weighing hopper 41 raw grain conveyer 42 rice husk weighing hopper 43 rice husk conveyer 44 cooked grain weighing hopper 45 cooked grain conveyer 46 and first thoughtlessly expect conveyer 47 can be with raw grain, rice husk and/or cooked grain according to certain proportion misce bene, and but combine through two-way transmission's second thoughtlessly expect conveyer 48 evaporate wine mechanism 5, rationally distributed, the incessant material loading of double-end can improve wine screens 51's material loading efficiency to whole promotion evaporates wine efficiency.

Spread cooling adds bent mechanism 6 and includes spread cooling weighing hopper 61, spread cooling conveyer 62, adds bent heat dissipation conveyer 63 and adds bent ware 64, spread cooling weighing hopper 61 is used for the dress to be in the lees of 51 outputs are discriminated to the wine, spread cooling conveyer 63's material loading end is located under the spread cooling weighing hopper 61 discharge gate, spread cooling conveyer 62's unloading end is located directly over adding bent heat dissipation conveyer 63 material loading end, add bent ware 64's discharge gate be located directly over spread cooling heat dissipation conveyer 63 and be close to add bent heat dissipation conveyer 63's unloading end, be equipped with hair-dryer, temperature sensor and humidity transducer on the heat dissipation conveyer 63 of adding bent for according to the humiture control of sensing the air ratio and the watering volume of hair-dryer.

In order to improve the uniform loosening degree of the materials in the conveying process, at least one group of scattering assemblies (not shown in the figure) are arranged on the raw grain conveyor 42, the cooked grain conveyor 46, the first mixing conveyor 47 and the yeast-adding heat-dissipating conveyor 63, each scattering assembly comprises a scattering driver and a scattering shaft, each scattering shaft spans the conveyors, and scattering rods are uniformly arranged on the scattering shafts.

In another embodiment of the present invention, the mixing mechanism 4 may not include the second mixing conveyor 48.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a workshop is made in sauce wine automation, the workshop includes upper workshop and lower floor's workshop, its characterized in that: an equipment operation area, a first material transfer area, a material stacking area and a second material transfer area are sequentially arranged on the bottom surface of the upper workshop from left to right, the equipment operation area is provided with a grain moistening mechanism, a mixing mechanism, a wine steaming mechanism and a cooling and yeast adding mechanism, the first material transfer area and the second material transfer area are respectively provided with a first material transfer hole and a second material transfer hole, and the first material transfer hole and the second material transfer hole are communicated with the lower workshop; a plurality of cellar pools are formed in the bottom surface of the lower layer workshop, and material receiving areas and material conveying channels are respectively arranged on the bottom surface of the lower layer corresponding to the first material transfer holes and the second material transfer holes; a beam type travelling crane is erected in the upper workshop and the lower workshop, a grab bucket assembly and a lifting hook assembly are arranged on the beam type travelling crane, and both the grab bucket assembly and the lifting hook assembly can move along the beam type travelling crane under the action of force.

2. The automated brewed wine plant according to claim 1, characterized in that: the grain moistening mechanism and the spreading and cooling yeast adding mechanism are respectively positioned on the front side and the rear side of the mixing mechanism, and the wine steaming mechanism is positioned on the left side of the mixing mechanism.

3. An automated makeshift workshop according to claim 1 or 2, characterized in that: the grain moistening mechanism comprises a hot water tank, a water pump, a grain moistening hopper and a grain moistening conveyor, the hot water tank is connected with the water pump through a water inlet pipe, the water pump is connected with an upper end opening of the grain moistening hopper through a water outlet pipe, and a feeding end of the grain moistening conveyor is located right below a discharge port of the grain moistening hopper.

4. An automated makeshift workshop according to claim 1 or 2, characterized in that: the mixing mechanism comprises a raw grain metering hopper, a raw grain conveyor, a rice hull metering hopper, a rice hull conveyor, a cooked grain metering hopper, a cooked grain conveyor, a first mixing conveyor, a mixing receiving hopper and a discharging conveyor, wherein a feeding end of the raw grain conveyor is positioned under a discharging port of the raw grain metering hopper, a feeding end of the rice hull conveyor is positioned under a discharging port of the rice hull metering hopper, a feeding end of the cooked grain conveyor is positioned under the cooked grain metering hopper, the raw grain conveyor, the rice hull conveyor and a discharging end of the cooked grain conveyor are both positioned over a feeding end of the first mixing conveyor, a discharging end of the first mixing conveyor is positioned over a feeding port of the mixing receiving hopper, and a discharging port of the mixing receiving hopper is positioned over a feeding end of the discharging conveyor.

5. The automated brewed plant for brewed wine according to claim 4, characterized in that: the mixing mechanism further comprises a second mixing conveyor, the second mixing conveyor is a bidirectional conveyor, the discharging end of the first mixing conveyor is located right above the middle of the second mixing conveyor, two ends of the second mixing conveyor are correspondingly provided with one mixing receiving hopper, and two ends of the second mixing conveyor are located right above a feed inlet of the mixing receiving hopper.

6. The automated brewed plant for brewed wine according to claim 4, characterized in that: the raw grain conveyor, the cooked grain conveyor and the first mixing conveyor are all provided with scattering components.

7. An automated makeshift workshop according to claim 1 or 2, characterized in that: evaporate wine mechanism including wine and examine and automatic feeding ware, wine examine with automatic feeding ware is just adjacent setting side by side, just the feed inlet of automatic feeding ware is located compounding mechanism final discharge gate is under.

8. An automated makeshift workshop according to claim 1 or 2, characterized in that: the spread cooling koji adding mechanism comprises a spread cooling metering hopper, a spread cooling conveyor, a koji adding heat dissipation conveyor and a koji adding device, wherein the feeding end of the spread cooling conveyor is positioned under the discharging port of the spread cooling metering hopper, the discharging end of the spread cooling conveyor is positioned over the feeding end of the koji adding heat dissipation conveyor, and the discharging port of the koji adding device is positioned over the spread cooling heat dissipation conveyor.

9. The automated soy sauce brewing plant of claim 1, wherein: the grab bucket assembly comprises a first grab bucket driving piece, a second grab bucket driving piece and an openable grab bucket, the first grab bucket driving piece is installed on the beam type traveling crane and can move along the beam type traveling crane, the second grab bucket driving piece is installed on the first grab bucket driving piece, the openable grab bucket is connected with the second grab bucket driving piece, and under the driving of the second grab bucket driving piece, the openable grab bucket can move up and down relative to the beam type traveling crane.

10. The automated soy sauce brewing plant of claim 1, wherein: the lifting hook subassembly includes first lifting hook driving piece, second lifting hook driving piece and lifting hook, first lifting hook driving piece is installed beam type driving is last and can be followed beam type driving removes, second lifting hook driving piece is installed on the first lifting hook driving piece, the lifting hook with second lifting hook driving piece connects under the drive of second lifting hook driving piece, the lifting hook can be relative beam type driving reciprocates.

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