JP2019187408A - Device for fermenting hard liquor - Google Patents

Abstract

To provide hard liquor.SOLUTION: The device comprises a housing, a water storage box is fixed and installed on the housing, a water storage housing is installed in the water storage box, support pillars are fixed and installed on a right side of the water storage box in a symmetric state, a free rotary block whose bottom becomes dent, is installed on an upper side of each support pillar, a T-shaped fixing ring is fixed and installed on each of relative end walls of the free rotary blocks, a columnar fermentation tub is installed between the support pillars, an annular groove is installed on an intermediate position of the wall of the fermentation tub, the T-shaped fixing ring is rotated and engaged/connected to the annular groove, a reverse cone-shaped fermentation housing is installed in the fermentation tub, a feed hole is installed on a lower end face of the fermentation housing, a seal lid is installed on a lower end face of the fermentation tub. The hard liquor of the invention is configured so that, a structure of a light emission device is simplified, effects of agitation and fermentation are enhanced by a planetary gear train, and eversion efficacy of the fermentation tub improves convenience of loading and take-out of the device, and enhances seal property of fermentation, enhances fermentation efficiency of the hard liquor, and reduces waste use of raw materials.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of fermented liquor, and specifically to spirits.

Fermentation technology has been increasingly applied in daily life, and fermentation technology has been developed gradually. During the fermentation process of shochu, the traditional fermenter is not stirred, so the fermentation effect is not desirable. The fermentation time is long and the effect is not uniform, and the fermentation apparatus has low sealing performance, so that air easily enters and affects the purity of the fermentation. If the fermentation device has a good sealing property, the gas in the fermentation will not be easily discharged, the pressure in the fermentation enclosure will increase, and there will be a threat to safety. Yes, the artificial cost is consumed more than necessary, and the fermented material is wasted, and the apparatus of the present invention can solve this problem.

Chinese Patent Application No. 102533489

  The object of the present invention is to provide spirit and to solve the above problems.

To achieve the above object, the present invention provides the following technical plan: Spirit includes a housing, a water storage box is fixedly installed in the housing, and a water storage housing is installed in the water storage box. A support column is fixed to the right side of the water storage box in a symmetrical manner, the support column is fixed to the housing by a foundation bolt, and a fixed support lever is fixed to the upper end surface of the support column in a symmetrical manner. A first fixed lever is fixedly installed between the symmetrical fixed support levers, a free rotating block having a recessed bottom is installed above the support column, and a second fixed lever is provided between the left and right top ends of the free rotating block. The first fixing lever is passed through the second fixing lever and rotated and connected to the second fixing lever, and a T-shaped fixing ring is fixed to the opposite end wall of the universal rotating block. A cylindrical fermenter is installed between the support pillars, an annular groove is installed at an intermediate position of the fermenter wall, and the T-shaped stationary ring rotates and engages with the annular groove, An inverted conical fermentation casing is installed in the fermentation bowl, a feed port is installed at the lower end surface of the fermentation casing, a first transmission casing is installed on the upper side of the fermentation casing, and the first transmission A planetary gear train is installed in the housing, the planetary gear train includes a main driving shaft, a spline groove is installed in an upper end surface of the main driving shaft, and a lower end wall of the main driving shaft is connected to a lower end wall of the first transmission housing. The first gear is fixedly connected to the main drive shaft, the second gear is meshed and connected to the left and right end walls of the first gear, and the second gear is meshed and connected to the fermenter and the gear. The upper end of the axis of the second gear is rotationally connected to the upper end wall of the first transmission housing. , The lower end of the shaft passes through the first transmission housing and is inserted into the fermentation housing, the stirring lever is evenly distributed in the shaft, and a cylindrical empty groove is formed in the fermentation koji. It is installed around the outer wall of the housing, an annular hot table is fixedly installed in the empty groove, a power supply is fixedly installed in the empty groove on the left side, the hot table is connected to a power source and a line, An energy replacement pipe is installed on the side of the empty groove far from the fermentation casing, a water pipe is fixedly installed on the left side wall of the fermentation tank, and even a water outlet is installed in the water pipe. A first magnetic valve is installed therein, a discharge hose is engaged and connected to the drain pipe with a screw, a lower end of the discharge hose is communicated with an upper end of the water storage housing, and an inlet is provided below the discharge hose. A pipe is installed in the inlet pipe A launch port is installed, a right end of the inlet pipe is fixedly connected to the energy replacement pipe, a second magnetic valve is installed at the launch port, and a launch hose is engaged and connected to the left side of the inlet pipe with a screw. A lower end of the launch hose communicates with a right end of the water storage casing, a temperature sensor is fixedly installed on a left side wall of the fermentation casing, a sealing lid is installed on a lower end surface of the fermentation trough, and the sealing lid The fixed column body is rotated and installed on the right end wall, the upper and lower ends of the fixed column body are fixedly installed on the light emitting lamp, the female screw limit housing is installed on the sealing lid, and the screw is installed in the limit housing. A limit plate is installed, the limit plate is engaged and connected to the inner wall of the limit housing by a screw thread, and a cylindrical sealing block is fixedly installed at an intermediate position of the upper end surface of the limit plate. Top of A limit hole is connected to the limit housing and the external space, the sealing block passes through the limit hole and is inserted into the feed port, and is positioned at an intermediate position of the lower end wall of the limit housing. A through-hole is installed in the through-hole, the through-hole communicates with the limit housing and the external space, a rotary shaft is fixedly installed at the center of the limit plate, and a lower end surface of the rotary shaft passes through the through-hole. A rotating disk is fixedly installed on the rotating shaft, an empty housing is installed at an intermediate position of the wall of the through hole, a first rotating vehicle is installed in the empty housing, and the first rotating vehicle Is fixedly connected to the rotary shaft, a right-facing concave second transmission housing is connected to the left end of the empty housing, and a second rotating vehicle is installed in the second transmission housing, The second rotating wheel is the first rotating wheel and the belt Therefore, the transmission shaft is connected, the fixed shaft penetrates and is fixed at the center position of the second transmission vehicle, and the upper and lower ends of the fixed shaft are rotationally connected to the upper and lower end walls of the second transmission housing, respectively, and the second rotation A third gear is installed on the upper side of the vehicle, the third gear is fixedly installed on the fixed shaft, and a first toothed gear engaging with the third gear is installed on the rear end surface of the third gear, A first locking groove in the horizontal direction is installed at a position corresponding to the first toothed hook, a fourth gear is meshed with the front end surface of the third gear, and a second gear meshingly rotates with the front end surface of the fourth gear. A toothpaste is installed, a horizontal second locking groove is installed at a location corresponding to the second toothpaste of the fermented rice cake, a locking gap is provided between the sealing lid and the fermented rice cake, A third transmission housing is installed on the housing on the upper side, An electric drive gear is installed in the three transmission housings, and a lifting gear is meshed with the left end surface of the power gear, and the lifting gear penetrates through the third transmission housing and extends into the external space. A fixed block is fixedly installed on the lower end surface of the lifting tooth ridge, an electric motor is fixedly installed on the fixed block, a spline shaft is fixedly installed on the lower end of the export shaft of the electric motor, and the spline shaft is connected to the spline groove. And splines connected to form a complete spirit fermentation apparatus.

Preferentially, a fixed column is installed symmetrically and fixedly on the front and rear end walls on the upper side of the support column, a rotary handle is connected to the fixed column in a rotationally fixed manner, and a through hole is installed at the upper end of the rotary handle. The through hole passes through the front and rear end walls of the rotary handle and communicates with the external space, and a fixed locking hole extending in the front and rear is installed in the free rotating block so as to correspond to the through hole. The rotary handle that passes through the universal rotating block and communicates with the external space and is symmetric with respect to the front and rear is connected by a fixed screw nail, and the front end of the shaft center of the fixed screw nail is the through hole at the rear end and the fixed locking hole in order. And it penetrates the said through hole of a front end, and is connected with a fixing nut and a screw.

Preferentially, the length of the second toothed hook is longer than the horizontal length of the first toothed hook, the length of the first locking groove is longer than the horizontal length of the second locking groove, The distance between the right end surface of the first locking groove and the right end surface of the first locking groove is equal to the distance between the right end surface of the second toothed hook and the right end surface of the second locking groove.

Preferentially, an exhaust pipe is installed between the outlet pipe and the inlet pipe, an exhaust duct is installed in the exhaust pipe, and a few precision air holes are equally installed in the circumference of the exhaust pipe. The precision air hole communicates with the exhaust duct and the external space, the exhaust duct passes through the fermentation trough and the empty groove, communicates with the fermentation casing, and a sealing plate is installed in the exhaust duct. A spring is vertically symmetrically installed on the right end wall of the sealing plate, and the other end of the spring is fixedly connected to the upper and lower end walls of the exhaust duct.

Preferentially, the sealing block is higher than the limit hole, the diameter of the sealing block is equal to the diameter of the feed opening, and the total height of the limit housing and the limit hole is the limit plate and the sealing block. A sealing rubber band is installed on the outer wall of the limit plate and the sealing plate that is larger than the total height.

Compared with the existing technology, the beneficial effects of the present invention are: When the present invention is in operation, the inlet pipe is not connected to the launch hose, and the drain pipe and the discharge hose are not connected, The spline shaft and the spline groove are in a state where the power source and the motor are off, and the safety of the device is guaranteed.

When the device is in operation, the fermented rice cake is rotated by the free rotating block so that the sealing lid is at the top, and the symmetrical free rotating block and the supporting column are fixed by the rotating handle, so the fermented rice cake is fixed. In this state, the turntable is manually rotated, the limit plate is rotated upward into the limit housing with the screw by the rotating shaft, the sealing block is withdrawn from the feed port, retracted into the limit hole, and simultaneously rotated The shaft rotates, whereby the first rotating wheel rotates, the second rotating wheel rotates by the action of the belt, the third gear rotates with the fourth gear, and the first and second gears meshing with it rotate. Move to the left, exit from the first locking groove, unlock and lock the second, manually rotate the sealing lid horizontally, the sealing lid rotates around the fixed column, the sealing lid opens, Ferment enclosure by feed Put fermented spirit ingredients and baking powder into the bowl, and after placing the ingredients, rotate the sealing lid to close it with the fermenter, and manually rotate the rotating plate in the opposite direction to perform the sealing operation. The second toothpush moves to the right and is inserted into the first locking groove to lock it with the second locking groove, avoiding separation from the sealing lid when the fermented rice cake rotates or rotates, and enhances the sealing performance When the supply is finished, unlock the rotating handle, rotate the fermented rice cake with the free rotating block so that the sealing lid is at the bottom, and fix the fermented rice cake again with the rotating handle, Turn the power gear counterclockwise to move the lifting gear down, the spline shaft is inserted into the spline groove and engaged with the spline groove and the spline, the electric motor operates, the spline shaft rotates, As a result, the first gear is rotated by the main shaft, the second gear meshed with it is rotated, the fermenter and the mandrel are rotated in the same direction, fermentation and agitation are strengthened, the power supply is activated, and the line connection When the hot table is heated to provide an appropriate fermentation temperature to the fermentation ditch and the temperature sensor detects that the temperature of the fermentation trough is too high, the motor stops operating and the launch hose, inlet pipe and discharge hose The first magnetic valve and the second magnetic valve are opened manually, the cold water is cooled by the energy replacement pipe, and cooled to an appropriate temperature, and then the launch hose, inlet pipe, discharge hose, and drain pipe are connected. Connected, the electric motor is activated, the stirring and fermentation are performed again, and this operation ensures the safety and adjustability when the apparatus is activated, and the pressure in the enclosure is generated by the gas generated in the fermentation enclosure. When the force exceeds the normal pressure, the sealing plate moves to the left under the action of the gas, the precision air hole communicates with the exhaust duct to discharge the gas, the pressure drops to the normal value, and the sealing plate Moves to the right under the action of the contraction force of the spring to perform sealing, guaranteeing the release and stabilization of the gas in the fermentation housing and improving the fermentation effect of the device.

FIG. 1 is an orthographic view of the entire cross section of the entire spirit of the present invention. FIG. 2 is an orthographic view of the entire cross-section after the spirit of the present invention has been turned. FIG. 3 is a schematic structural view of the spirit of the present invention in the AA direction. FIG. 4 is a schematic view of the connection structure of the spirit free rotation block of the present invention. FIG. 5 is an enlarged schematic view of the spirit B of the present invention. FIG. 6 is an enlarged schematic view of the spirit C of the present invention. FIG. 7 is an enlarged schematic diagram of the spirit D of the present invention. FIG. 8 is a structural schematic diagram in the EE direction of the structural schematic diagram of spirit D of the present invention.

The accompanying drawings in the embodiments of the present invention are described below, the technical solutions of the embodiments of the present invention are clearly explained, and the described embodiments are only a part of the embodiments of the present invention and not all the embodiments. It is. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that ordinary engineers in this area do not pay creative labor belong to the protection scope of the present invention.

1 to 8, an embodiment provided by the present invention: Spirit includes a housing 1, a water storage box 25 is fixedly installed in the housing 1, and a water storage housing 251 is installed in the water storage box 25. The support column 3 is fixed to the right side of the water storage box 25 in a symmetrical manner, the support column 3 is fixed to the housing 1 by a foundation bolt 22, and a fixed support lever 23 is provided on the upper end surface of the support column 3. The first fixed lever 37 is fixedly installed between the front and rear symmetrical fixed support levers 23, and the free rotating block 19 whose bottom is recessed on the upper side of the support pillar 3 is installed. A second fixing lever 36 is fixedly installed between the left and right top ends of the rotating block 19, and the first fixing lever 36 passes through the second fixing lever 39 and is rotated and connected to the second fixing lever 39. A T-shaped stationary ring 18 is provided on the opposite end wall of the rotatable block 19. It is installed in a fixed manner, a columnar fermenter 2 is installed between the support columns 3, an annular groove 181 is installed in the middle of the wall of the fermenter 2, and the T-shaped stationary ring 18 is connected to the annular groove 181. Rotating and engaging and connecting, an inverted conical fermentation casing 58 is installed in the fermenter 2, a feed port 24 is installed at the lower end surface of the fermentation casing 58, and the upper side of the fermentation casing 58 is One transmission housing 4 is installed, a planetary gear train is installed in the first transmission housing 4, the planetary gear train includes a main driving shaft 13, and a spline groove 6 is installed on the upper end surface of the main driving shaft 13. The lower end wall of the main driving shaft 13 is rotationally connected to the lower end wall of the first transmission housing 4, the first gear 14 is fixedly installed on the main driving shaft 13, and the first and second end walls of the first gear 14 are The two gears 5 are symmetrically meshed and connected, the second gear 5 is meshed and connected to the fermenter 5 and the upper end of the axis 15 of the second gear 5 is the first gear It is rotationally connected to the upper end wall of the moving casing 4, and the lower end of the shaft 15 passes through the first transmission casing 4 and is inserted into the fermentation casing 58, and the stirring lever 17 is evenly placed on the axis. Distributed, a cylindrical empty groove 56 is installed around the outer wall of the fermentation casing 58 in the fermentation trough 2, an annular hot table 55 is fixedly installed in the empty groove 56, and the left side A power supply 54 is fixedly installed in the empty groove 56, the hot table 55 is line-connected to the power supply 54, an energy replacement pipe 20 is installed on the side of the empty groove 56 far from the fermentation casing 58, and the fermenter A drain pipe 57 is fixedly installed on the left side wall of 2, and even a drain hole 61 is installed in the drain pipe 57, the first magnetic valve 16 is installed in the drain hole 61, The discharge hose 32 is engaged with and connected to a screw, and the lower end of the discharge hose 32 is communicated with the upper end of the water storage casing 251 so that the discharge hose 32 An inlet pipe 33 is installed on the lower side of the inlet 57, a launching port 63 is installed in the inlet pipe 33, a right end of the inlet pipe is fixedly connected to the energy replacement pipe 20, and Two magnetic valves 35 are installed, and a launching hose 34 is engaged and connected to the left side of the inlet pipe 33 with a screw, and a lower end of the launching hose 34 is communicated with a right end of the water storage casing 251, and the fermentation casing A temperature sensor 21 is fixedly installed on the left side wall of 58, a sealing lid 26 is installed on the lower end surface of the fermenter 2, and a fixed column body 49 is rotated and installed on the right end wall of the sealing lid 26. The upper and lower ends of the body 49 are fixed to the light emitting rod 2, a female screw limit housing 47 is installed in the sealing lid 26, a thread limit plate 48 is installed in the limit housing 47, and the limit plate 48 is engaged and connected to the inner wall of the limit housing 47 with a screw thread. A cylindrical sealing block 46 is fixedly installed at an intermediate position of the upper end surface of the limit plate 48, a limit hole 471 is installed at the upper end surface of the limit housing 47, and the limit hole 471 is connected to the limit housing 47. The sealing block 46 passes through the limit hole 471 and is inserted into the feed port 24, and a through hole 472 is installed at an intermediate position of the lower end wall of the limit housing 47, and the through hole 472 communicates with the limit housing 47 and the external space, the rotary shaft 28 is fixedly installed at the center position of the limit plate 48, the lower end surface of the rotary shaft 28 extends to the external space through the through hole 472, and A rotating disk 29 is fixedly installed on the rotating shaft 28, an empty casing 281 is installed at an intermediate position of the wall of the through hole 472, a first rotating wheel 27 is installed in the empty casing 281, and the first A rotating wheel 27 is fixedly connected to the rotating shaft 28, and the empty wheel A concave second transmission housing 60 facing right is connected to the left end of the body 281. A second rotating wheel 31 is installed in the second transmission housing 60. The second rotating wheel 31 is connected to the first rotating wheel 31. Rotating wheel 27 is connected in transmission by a belt, and fixed shaft 50 penetrates and is fixed at the center position of second transmission wheel 31, and the upper and lower ends of fixed shaft 50 are respectively connected to the upper and lower end walls of second transmission housing 60. The third gear 51 is installed on the upper side of the second rotating wheel 31, and the third gear 51 is fixedly installed on the fixed shaft 50, and is engaged with the rear end surface of the third gear 51. A matching first toothed hook 511 is installed, a horizontal first locking groove 512 is installed at a position corresponding to the first toothed hook 511 of the light emitting rod 2, and a fourth gear is formed on the front end surface of the third gear 51. 52 is meshed and connected to the front end surface of the fourth gear 52. A horizontal second locking groove 522 is installed at a location corresponding to 521, a locking gap 53 is provided between the sealing lid 26 and the fermentation jar 2, and a third transmission housing is connected to the housing above the fermentation jar 2. A body 10 is installed, and an electric drive gear 9 is installed in the third transmission housing 10, a lifting gear 8 is meshed with the left end surface of the power gear 9, and the lifting gear 8 is It extends through the third transmission housing 10 to the outside space, and a fixed block 7 is fixedly installed on the lower end surface of the lifting / lowering toothed hook 8, and an electric motor 11 is fixedly installed on the fixed block 7, and the export of the electric motor 11 A spline shaft 12 is fixedly installed at the lower end of the shaft, and the spline shaft 12 is connected to the spline groove 6 by a spline and rotates, thereby constituting a complete spirit fermentation apparatus.

Beneficially, a fixed column 38 is installed symmetrically and fixedly on the front and rear end walls on the upper side of the support column 3, and a rotary handle 40 is connected to the fixed column 38 in a rotationally fixed manner. A through-hole 39 is installed, the through-hole 39 passes through the front and rear end walls of the rotary handle 40 and communicates with the external space, and the fixed rotation that extends forward and backward to the universal rotary block 19 at a position corresponding to the through-hole 39 A hole 43 is installed, the fixed locking hole 43 passes through the universal rotary block 19 and communicates with the external space, and the rotational handle 40 that is symmetrical in the front-rear direction is connected by a fixed screw nail 45, and the shaft of the fixed screw nail 45 The front end of the core 41 passes through the through hole 39 at the rear end, the fixed locking hole 43 and the through hole 39 at the front end in order, and is connected to the fixing nut 42 by screws, whereby the fermenter 2 rotates. Device to be guaranteed that no tumbled, increase the stability of the device.

Beneficially, the length of the second tooth 521 is longer than the horizontal length of the first tooth 511, the length of the first locking groove 512 is longer than the horizontal length of the second locking groove 522, and The distance between the right end surface of the first tooth 511 and the right end surface of the first locking groove 512 is equal to the distance between the right end surface of the second tooth 521 and the right end surface of the second locking groove 522, and Since the horizontal position of the third gear 51 is opposite to the intermediate position of the sealing lid 26, the fourth gear 52 is at the front end of the third gear 51, and the fourth gear 52 is biased to the intermediate position of the sealing lid 26, Therefore, by limiting the length, it is possible to guarantee the extreme accuracy of the synchronous locking of the first toothed hook 51 and the second toothed tooth 52 and the locking of the device.

Beneficially, an exhaust pipe 66 is installed between the outlet pipe 57 and the inlet pipe 33, an exhaust duct 62 is installed in the exhaust pipe 66, and a few precision air holes 67 are formed in the exhaust pipe 66. Evenly installed around the circumference, the precision air hole 67 communicates the exhaust duct and the external space, the exhaust duct 62 communicates the fermentation casing 58 through the fermentation trough 2 and the empty groove, A sealing plate 65 is installed in the exhaust duct 62, a spring 64 is installed symmetrically on the right end wall of the sealing plate 65, and the other end of the spring 64 is fixedly connected to the upper and lower end walls of the exhaust duct 62. This ensures the release and stabilization of the gas in the fermentation housing 26 and improves the fermentation effect of the apparatus.

Beneficially, the sealing block 46 is higher than the limit hole 471, the diameter of the sealing block 46 is equal to the diameter of the feed port 24, and the total height of the limit housing 47 and the limit hole 471 is the limit hole. The sealing rubber band 261 is installed on the outer wall of each of the limit plate 48 and the sealing plate 46 so that the thread limit plate 48 is attached to the limit casing 47. Ensuring that the top of the sealing block 46 is at the spout 24 when it is at the top, seals the fermentation housing 58, and the limit plate 48 is at the bottom of the limit housing 47, The upper end is in the limit housing 47, prevents the sealing block 46 from interfering with the rotation of the sealing lid 26, and the sealing rubber band 261 enhances the sealing performance of the device.

Specific implementation method: When the present invention is in operation, in the initial state, the inlet pipe 33 is not connected to the launch hose 34, the drain pipe 57 and the discharge hose are not connected, the power supply 54 and the electric motor 11 is in an off state, and the spline shaft 12 and the spline groove 6 are in a separated state, which ensures the safety of the apparatus.

When the device is operating, the fermenter 2 is rotated by the free rotating block 19 so that the sealing lid 26 is at the top, and the symmetrical free rotating block 19 and the support column 3 are fixed by the rotating handle 40. Therefore, the fermenter 2 is in a fixed state, the rotating disk 29 is manually rotated, the limit plate 48 is rotated upward into the limit housing 47 by the rotating shaft 28, and the sealing block 46 is moved from the feeding port 24. Withdrawing and retracting into the limit hole 471, at the same time, the rotating shaft 28 rotates, whereby the first rotating wheel 27 rotates, the second rotating wheel 31 rotates by the action of the belt 30, and the third gear 51 The first toothed tooth 511 and the second toothed tooth 521 that rotate and mesh with the fourth gear 52 move to the left to exit from the first locking groove 512 and unlock the second locking 522, and then manually seal the lid 26. And the sealing lid 26 rotates around the fixed column 49 to the outside. The sealing lid 26 opens, the fermenting spirit raw material and baking powder are put into the fermentation casing 58 through the feeding port 24, and the raw material is placed. Then, the sealing lid 26 is rotated to close the fermenter, and the rotating plate is rotated in the opposite direction. 29 is manually rotated to perform the sealing operation. At the same time, the first tooth 511 and the second tooth 521 move to the right and are inserted into the first locking groove 512 to be locked with the second locking groove 522. Avoid separation from the sealing lid 26 when the 2 is rotating or rotating, strengthen the sealing, and when the supply is finished, unlock the rotating handle and place the fermenter 2 so that the sealing lid is at the bottom The fermenter 2 is fixed by the rotatable rotary block 19 and fixed again by the rotary handle 40, and then the power gear 9 is rotated counterclockwise by an electric machine to move the elevating toothpick 8 downward, and the spline shaft 12 is inserted into the spline groove 6 and the spline groove 6 The motor 11 is operated and the spline shaft 12 is rotated, thereby rotating the first gear 14 by the main driving shaft 13 and the second gear 5 meshingly connected thereto, and the fermenter 2 And the mandrel 15 rotate in the same direction, strengthening the fermentation and stirring, the power supply 54 is activated, the hot table 55 connected to the line is heated to provide an appropriate fermentation temperature to the fermentation groove 2, and the temperature sensor 21 If it is detected that the temperature of the fermenter 2 is too high, the electric motor 11 stops operating, the launch hose 34, the inlet pipe, the discharge hose, and the outlet pipe are manually connected, and the first magnetic valve and the second magnetic valve After the cooling water is cooled by the energy replacement pipe 20 and cooled to an appropriate temperature, the launch hose 34, the inlet pipe 33, the discharge hose and the water discharge pipe 57 are connected, the electric motor 11 is activated, and stirring and fermentation are performed again. This operation is performed by the device. When the pressure in the housing becomes larger than the normal pressure due to the gas generated in the fermentation housing 26, the sealing plate 65 is moved to the left under the action of the gas. The precision air hole 67 communicates with the exhaust duct to discharge gas, the pressure drops to a normal value, and the sealing plate 65 moves to the right under the action of the contraction force of the spring 64 to seal it. To ensure the release and stabilization of the gas in the fermentation housing 26 and to improve the fermentation effect of the apparatus.

The spirit of the present invention has a simple structure of the light emitting device, the planetary gear train enhances the effect of stirring and fermentation, and the inversion ability of the fermenter improves the convenience of loading and unloading of the device, and the sealing property of the fermentation Strengthen the effect of spirit fermentation and reduce waste of raw materials.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, considering that this embodiment is exemplary and not restrictive from any perspective, the scope of the present invention is limited to the attached rights requirements, and all changes falling within the meaning and scope of equivalent important documents of rights requirements. It is included in the present invention. Do not consider all attached marks in the claim as limiting the claim.

The present invention relates to the field of fermented liquor, and specifically to spirits.

Fermentation technology has been increasingly applied in daily life, and fermentation technology has been developed gradually. During the fermentation process of shochu, the traditional fermenter is not stirred, so the fermentation effect is not desirable. The fermentation time is long and the effect is not uniform, and the fermentation apparatus has low sealing performance, so that air easily enters and affects the purity of the fermentation. If the fermentation device has a good sealing property, the gas in the fermentation will not be easily discharged, the pressure in the fermentation enclosure will increase, and there will be a threat to safety. Yes, the artificial cost is consumed more than necessary, and the fermented material is wasted, and the apparatus of the present invention can solve this problem.

Chinese Patent Application No. 102533489

The object of the present invention is to provide spirit and to solve the above problems.

In order to achieve the above object, the present invention provides the following technical plan: An apparatus for fermenting spirits includes a housing, and a water storage box is fixedly installed in the housing, and a water storage enclosure is provided in the water storage box. A body is installed, and a support column is fixed to the right side of the water storage box in a symmetrical manner, the support column is fixed to the housing by a foundation bolt, and a fixed support lever is symmetrical to the upper end surface of the support column. A first fixed lever is fixedly installed between the fixed support levers that are fixed and symmetrical in the longitudinal direction, and a free rotating block having a recessed bottom is installed on the upper side of the support column, and the left and right top ends of the free rotating block second fixing lever is fixedly installed between the connected the first fixing lever through said second fixing lever for rotation with said second locking lever, the rotatable blocks T-fixing ring on opposite sides of the end wall is installed fixedly, the is between the support column is installed a cylindrical fermentation tub, an annular groove is provided at an intermediate position of the wall of the fermentation trough, the T A mold stationary ring is engaged and connected so as to rotate with the annular groove , an inverted conical fermentation housing is installed in the fermentation trough, a feed port is installed at a lower end surface of the fermentation housing, and the fermentation housing the first transmission housing is installed on the upper side of the body, is installed planetary gear train in said first transmission housing, said planetary gear train comprises a driving shaft, a spline groove is disposed on the upper end surface of the driving shaft, The lower end wall of the main driving shaft is rotationally connected to the lower end wall of the first transmission housing, the first gear is fixedly installed on the main driving shaft, and the second gear is symmetrical to the left and right end walls of the first gear. And the second gear is meshed and connected to the fermenter with a gear. The upper end of the shaft center of the second gear is rotationally connected to the upper end wall of the first transmission housing, the lower end of the shaft core passes through the first transmission housing and is inserted into the fermentation housing, and the shaft Stirring levers are evenly distributed in the heart, a cylindrical empty groove is installed around the outer wall of the fermentation housing in the fermentation trough, and an annular hot table is fixedly installed in the empty groove, A power source is fixedly installed in the empty groove on the left side, the hot table and the power source are connected through a line , an energy replacement pipe is installed on the side of the empty groove far from the fermentation casing, A drain pipe is fixedly installed on the left side wall, a drain hole is installed in the drain pipe, a first magnetic valve is installed in the drain hole, and a discharge hose is engaged with a screw in the drain pipe. The lower end of the discharge hose communicates with the upper end of the water storage housing. An inlet pipe is installed below the discharge hose, a launch port is installed in the inlet pipe, a right end of the inlet pipe is fixedly connected to the energy replacement pipe, and a second magnetic field is connected to the launch port. A valve is installed, a launching hose is engaged and connected to the left side of the inlet pipe with a screw, a lower end of the launching hose is communicated with a right end of the water storage case, and a temperature sensor is provided on the left side wall of the fermentation case. It is fixedly installed , a sealing lid is installed on the lower end surface of the fermenter, and a fixed column is installed on the right end wall of the sealing lid so that the upper and lower ends of the fixed column can be fixed to the fermentation can . manner is installed, the installed in the sealing lid internal thread limit housing, wherein the thread limit plate placed in the limit case, the limit plate is engaged connected by the inner wall and the threads of the limit housing Cylindrical sealing block is fixedly installed at an intermediate position of the upper end surface of the limit plates, the limit holes are installed on the upper end face of the limit case, the limit hole communicates said limit housing and the outside space, The sealing block passes through the limit hole and is inserted into the feed port, and a through hole is provided at an intermediate position of the lower end wall of the limit housing, and the through hole communicates with the limit housing and the external space. A rotation shaft is fixedly installed at a center position of the limit plate, a lower end surface of the rotation shaft extends to the external space through the through hole, and a rotating disk is fixedly installed on the rotation shaft, and the through hole An empty housing is installed at an intermediate position of the wall body, a first rotating vehicle is installed in the empty housing, the first rotating vehicle is fixedly connected to the rotating shaft, and the left end of the empty housing is Concave right A transmission housing is installed in communication, a second rotating vehicle is installed in the second transmission housing, the second rotating vehicle is connected to the first rotating vehicle by a belt, and the second transmission vehicle A fixed shaft passes through and is fixed at a central position, and upper and lower ends of the fixed shaft are rotationally connected to upper and lower end walls of the second transmission housing, respectively, and a third gear is installed on the upper side of the second rotating wheel, The third gear is fixedly installed on the fixed shaft, and a first toothed mesh is formed on the rear end face of the third gear, and the third gear is placed horizontally corresponding to the first toothed tooth of the fermentation can. A first locking groove in the direction, a fourth gear meshingly connected to the front end surface of the third gear, and a second toothed mesh rotating on the front end surface of the fourth gear, A horizontal second locking groove is installed at a position corresponding to the second toothpaste, and the front There is a locking gap between the sealing lid and the fermenter, a third transmission housing is installed on the housing above the fermenter, and an electric drive gear is installed in the third transmission housing The elevating gear is meshed and connected to the left end surface of the power gear, the elevating gear extends through the third transmission housing to the external space, and a fixed block is fixed to the lower end surface of the elevating gear. It is installed , the motor is fixedly installed on the fixed block, the spline shaft is fixedly installed at the lower end of the output shaft of the motor , the spline shaft is connected to the spline groove and spline, and rotates, thereby completely A simple spirit fermentation apparatus.

Preferentially, a fixed column is symmetrically and fixedly installed on the front and rear end walls on the upper side of the support column, a rotary handle is rotationally fixedly connected to the fixed column, and a through hole is formed at the upper end of the rotary handle. A fixed locking hole extending through the front and rear at a position corresponding to the through hole in the freely rotating block, the through hole penetrating the front and rear end walls of the rotary handle and communicating with an external space; A hole passes through the free rotating block and communicates with the outer space, and the rotational handle that is symmetrical in the longitudinal direction is connected by a fixing screw nail, and the front end of the shaft center of the fixing screw nail is the through hole at the rear end, and the fixing It passes through the locking hole and the through hole at the front end and is connected with a fixing nut and a screw.

Preferentially, the length of the second toothed hook is longer than the horizontal length of the first toothed hook, the length of the first locking groove is longer than the horizontal length of the second locking groove, The distance between the right end surface of the first locking groove and the right end surface of the first locking groove is equal to the distance between the right end surface of the second toothed hook and the right end surface of the second locking groove.

Preferentially, an exhaust pipe is installed between the outlet pipe and the inlet pipe, an exhaust duct is installed in the exhaust pipe, and a few precision air holes are equally installed in the circumference of the exhaust pipe. The precision air hole communicates with the exhaust duct and the external space, the exhaust duct passes through the fermentation trough and the empty groove, communicates with the fermentation casing, and a sealing plate is installed in the exhaust duct. , spring is installed in a vertically symmetrical to the right end wall of the sealing plate, the other end of the spring is Ru is fixedly connected to the upper and lower end walls of the exhaust duct.

Preferentially, the sealing block is higher than the limit hole, the diameter of the sealing block is equal to the diameter of the feed opening, and the total height of the limit housing and the limit hole is the limit plate and the sealing block. A sealing rubber ring is installed on the outer wall of each of the limit plate and the sealing plate that is larger than the total height.

Compared with the existing technology, the beneficial effects of the present invention are: When the present invention is in operation, the inlet pipe is not connected to the launch hose, and the drain pipe and the discharge hose are not connected, The spline shaft and spline groove are in a state where the power supply and the motor are off, ensuring the safety of the device.

When the device is in operation, the fermented rice cake is rotated by the free rotating block so that the sealing lid is at the top, and the symmetrical free rotating block and the supporting column are fixed by the rotating handle, so the fermented rice cake is fixed. In this state, the turntable is manually rotated, the limit plate is rotated upward into the limit housing with the screw by the rotating shaft, the sealing block is withdrawn from the feed port, retracted into the limit hole, and simultaneously rotated The shaft rotates, whereby the first rotating wheel rotates, the second rotating wheel rotates by the action of the belt, the third gear rotates with the fourth gear, and the first and second gears meshing with it rotate. Move to the left, exit from the first locking groove, unlock and lock the second, manually rotate the sealing lid horizontally, the sealing lid rotates around the fixed column, the sealing lid opens, Ferment enclosure by feed Put fermented spirit ingredients and baking powder into the bowl, and after placing the ingredients, rotate the sealing lid to close it with the fermenter, and manually rotate the rotating plate in the opposite direction to perform the sealing operation. The second toothpush moves to the right and is inserted into the first locking groove to lock it with the second locking groove, avoiding separation from the sealing lid when the fermented rice cake rotates or rotates, and enhances the sealing performance When the supply is finished, unlock the rotating handle, rotate the fermented rice cake with the free rotating block so that the sealing lid is at the bottom, and fix the fermented rice cake again with the rotating handle, Te power gear by turning it counterclockwise by movement of the lifting tooth rod down, the spline shaft is engaged connection and spline grooves and the spline to be inserted into the spline grooves, the motor is operated, the spline shaft is rotated As a result, the first gear is rotated by the main shaft, the second gear meshed with it is rotated, the fermenter and the mandrel are rotated in the same direction, fermentation and agitation are strengthened, the power supply is activated, and the line connection When the hot table is heated to provide an appropriate fermentation temperature to the fermentation ditch and the temperature sensor detects that the temperature of the fermentation trough is too high, the motor stops operating, the launch hose, inlet pipe and discharge hose The first magnetic valve and the second magnetic valve are opened manually, the cold water is cooled by the energy replacement pipe, and cooled to an appropriate temperature, and then the launch hose, inlet pipe, discharge hose, and drain pipe are connected. Connected, the motor is activated, the agitation and fermentation are performed again, this operation ensures the safety and adjustability when the device is activated, the gas produced in the fermentation enclosure When the pressure inside becomes larger than the normal pressure, the sealing plate moves to the left under the action of the gas, the precision air hole communicates with the exhaust duct and discharges the gas, the pressure drops to the normal value, The sealing plate moves to the right under the action of the contraction force of the spring to perform sealing, guaranteeing the release and stabilization of the gas in the fermentation housing and improving the fermentation effect of the apparatus.

FIG. 1 is an orthographic view of the entire cross section of the entire spirit of the present invention. FIG. 2 is an orthographic view of the entire cross-section after the spirit of the present invention has been turned. FIG. 3 is a schematic structural view of the spirit of the present invention in the AA direction. FIG. 4 is a schematic view of the connection structure of the spirit free rotation block of the present invention. FIG. 5 is an enlarged schematic view of the spirit B of the present invention. FIG. 6 is an enlarged schematic view of the spirit C of the present invention. FIG. 7 is an enlarged schematic diagram of the spirit D of the present invention. FIG. 8 is a structural schematic diagram in the EE direction of the structural schematic diagram of spirit D of the present invention.

The accompanying drawings in the embodiments of the present invention are described below, the technical solutions of the embodiments of the present invention are clearly explained, and the described embodiments are only a part of the embodiments of the present invention and not all the embodiments. It is. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that ordinary engineers in this area do not pay creative labor belong to the protection scope of the present invention.

1 to 8, an embodiment provided by the present invention: an apparatus for fermenting spirits includes a housing 1, and a water storage box 25 is fixedly installed in the housing 1, and water is stored in the water storage box 25. A housing 251 is installed, and a support column 3 is fixed to the right side of the water storage box 25 in a symmetrical manner. The support column 3 is fixed to the housing 1 by a foundation bolt 22, and an upper end surface of the support column 3 The fixed support lever 23 is fixedly installed symmetrically in the front-rear direction, and the first fixed lever 37 is fixedly installed between the fixed support levers 23 symmetrically in the front-rear direction. A block 19 is installed, a second fixing lever 36 is fixedly installed between the left and right top ends of the universal rotating block 19, and the first fixing lever 36 penetrates the second fixing lever 39 and the second fixing lever connected for rotation with the lever 39, the rotatable blocks T-type fixed sleeve 18 on opposite sides of the end wall 19 is fixedly installed, the cylindrical fermentation tub 2 is installed between the supporting pillars 3, an annular groove 181 in an intermediate position of said fermentation tub second wall Is installed, and the T-shaped stationary ring 18 is engaged and connected to the annular groove 181 so as to be rotatable , and an inverted conical fermentation casing 58 is installed in the fermenter 2. A feed port 24 is installed on the end surface, a first transmission housing 4 is installed on the upper side of the fermentation housing 58, a planetary gear train is installed in the first transmission housing 4, and the planetary gear train is connected to the main drive shaft 13. A spline groove 6 is installed on the upper end surface of the main driving shaft 13, the lower end wall of the main driving shaft 13 is rotationally connected to the lower end wall of the first transmission housing 4, and the first gear is connected to the main driving shaft 13. 14 is fixedly installed, the second gear 5 on the left and right end walls of the first gear 14 is meshed connected symmetrical, the second gear 5 is issued The upper end of the axis 15 of the second gear 5 is rotationally connected to the upper end wall of the first transmission housing 4 and the lower end of the shaft 15 is connected to the first transmission housing. 4 is inserted into the fermentation casing 58, the stirring lever 17 is evenly distributed in the axial center, and a cylindrical empty groove 56 surrounds the outer wall of the fermentation casing 58 in the fermentation trough 2. An annular hot table 55 is fixedly installed in the empty groove 56, a power supply 54 is fixedly installed in the left empty groove 56, and the hot table 55 and the power supply 54 are connected through a line. An energy replacement pipe 20 is installed on the side away from the fermentation casing 58 of the empty groove 56, and a water discharge pipe 57 is fixedly installed on the left side wall of the fermenter 2, and the water discharge pipe 57 Izumi hole 61 is installed, the first magnetic valve 16 is installed in the water outlet hole 61, engaged in the discharge hose 32 screw into the water outlet tube 57 Connected, the lower end of the discharge hose 32 is communicated with the upper end of the water storage housing 251, the inlet pipe 33 is installed below the discharge hose 57, the launch port 63 is installed in the inlet pipe 33, A right end of the inlet pipe is fixedly connected to the energy replacement pipe 20, a second magnetic valve 35 is installed at the launching port 63, and a launching hose 34 is engaged and connected to the left side of the inlet pipe 33 with a screw. The lower end of the launch hose 34 is in communication with the right end of the water storage casing 251, the temperature sensor 21 is fixedly installed on the left side wall of the fermentation casing 58, and the sealing lid 26 is attached to the lower end surface of the fermentation trough 2. There is provided, the fixed pillar 49 to the right end wall of the sealing cap 26 is installed to be rotatable, the upper and lower ends of the fixed cylindrical body 49 is fixedly installed in the fermentation can 2, the internal thread on the sealing lid 26 A limit housing 47 is installed, and the limit housing 47 During the threads limit plate 48 is installed, the limit plate 48 is engaged connected by the inner wall and the threads of the limit housing 47, a cylindrical sealing block 46 is fixed at the middle position of the upper end face of the limit plate 48 A limit hole 471 is installed on the upper end surface of the limit housing 47, the limit hole 471 communicates with the limit housing 47 and the external space, and the sealing block 46 penetrates the limit hole 471. And a through hole 472 is inserted in the middle position of the lower end wall of the limit housing 47, and the through hole 472 communicates with the limit housing 47 and the external space, and the limit plate The rotary shaft 28 is fixedly installed at the center position of 48, the lower end surface of the rotary shaft 28 extends to the external space through the through hole 472, and the rotary disk 29 is fixedly installed on the rotary shaft 28, Empty housing 2 in the middle of the wall of the hole 472 81 is installed, the first rotating wheel 27 is installed in the empty casing 281, the first rotating wheel 27 is fixedly connected to the rotating shaft 28, and a right-facing concave shape is formed at the left end of the empty casing 281. A second transmission case 60 is installed in communication, a second rotary wheel 31 is installed in the second transmission case 60, and the second rotary wheel 31 is connected to the first rotary wheel 27 by a belt. The fixed shaft 50 penetrates and is fixed at the center position of the second transmission vehicle 31, and the upper and lower ends of the fixed shaft 50 are rotationally connected to the upper and lower end walls of the second transmission housing 60, respectively, and the second rotation A third gear 51 is installed on the upper side of the vehicle 31, the third gear 51 is fixedly installed on the fixed shaft 50, and a first toothed gear 511 that meshes with the rear end surface of the third gear 51 is installed. is, first locking groove 512 in the horizontal direction is installed in place corresponding to the first tooth rod 511 of the fermentation can 2, the front end surface of the third gear 51 The fourth gear 52 is meshed and connected, and a second toothed tooth 521 that meshes and rotates with the front end surface of the fourth gear 52 is installed. Two locking grooves 522 are installed, there is a locking gap 53 between the sealing lid 26 and the fermenter 2, a third transmission housing 10 is installed in the housing above the fermenter 2, and the third transmission An electric drive power gear 9 is installed in the housing 10, and a lifting gear 8 is meshed with the left end surface of the power gear 9, and the lifting gear 8 penetrates the third transmission housing 10. Extending to the external space, a fixed block 7 is fixedly installed on the lower end surface of the elevating toothed hook 8, a motor 11 is fixedly installed on the fixed block 7, and a spline shaft 12 is connected to the lower end of the output shaft of the motor 11. fixedly installed, the spline shaft 12 is connected by the spline groove 6 and the spline It rotated, thereby constituting a complete Supiritsu fermentor.

Beneficially, a fixed column 38 is symmetrically and fixedly installed on the front and rear end walls on the upper side of the support column 3, and a rotary handle 40 is rotationally fixedly connected to the fixed column 38. A through hole 39 is installed at the upper end. The through hole 39 passes through the front and rear end walls of the rotary handle 40 and communicates with the external space, and extends to the free rotating block 19 in a position corresponding to the through hole 39. A fixed locking hole 43 is installed, the fixed locking hole 43 passes through the universal rotary block 19 and communicates with the external space, and the rotational handle 40 that is symmetrical in the front-rear direction is connected by a fixed screw nail 45, and the fixed screw nail 45 The front end of the shaft center 41 passes through the through hole 39 at the rear end, the fixed locking hole 43 and the through hole 39 at the front end in order, and is connected to the fixing nut 42 by screws, whereby the fermenter 2 is rotated. It can ensure that the device does not tumbled when that increase the stability of the device.

Beneficially, the length of the second tooth 521 is longer than the horizontal length of the first tooth 511, the length of the first locking groove 512 is longer than the horizontal length of the second locking groove 522, and The distance between the right end surface of the first tooth 511 and the right end surface of the first locking groove 512 is equal to the distance between the right end surface of the second tooth 521 and the right end surface of the second locking groove 522, and Since the horizontal position of the third gear 51 is opposite to the intermediate position of the sealing lid 26, the fourth gear 52 is at the front end of the third gear 51, and the fourth gear 52 is biased to the intermediate position of the sealing lid 26, Therefore, by limiting the length, it is possible to guarantee the extreme accuracy of the synchronous locking of the first toothed hook 51 and the second toothed tooth 52 and the locking of the device.

Beneficially, an exhaust pipe 66 is installed between the outlet pipe 57 and the inlet pipe 33, an exhaust duct 62 is installed in the exhaust pipe 66, and a few precision air holes 67 are formed in the exhaust pipe 66. Evenly installed around the circumference, the precision air hole 67 communicates the exhaust duct and the external space, the exhaust duct 62 communicates the fermentation casing 58 through the fermentation trough 2 and the empty groove, A sealing plate 65 is installed in the exhaust duct 62, a spring 64 is installed symmetrically on the right end wall of the sealing plate 65, and the other end of the spring 64 is fixedly fixed to the upper and lower end walls of the exhaust duct 62. Connected to ensure the release and stabilization of gas in the fermentation housing 26 and improve the fermentation effect of the device.

Beneficially, the sealing block 46 is higher than the limit hole 471, the diameter of the sealing block 46 is equal to the diameter of the feed port 24, and the total height of the limit housing 47 and the limit hole 471 is the limit hole. A sealing rubber ring 261 is installed on the outer wall of each of the limit plate 48 and the sealing plate 46 so that the thread limit plate 48 is attached to the limit casing 47. Ensuring that the top of the sealing block 46 is at the spout 24 when it is at the top, seals the fermentation housing 58, and the limit plate 48 is at the bottom of the limit housing 47, The upper end is in the limit housing 47, prevents the sealing block 46 from interfering with the rotation of the sealing lid 26, and the sealing rubber ring 261 enhances the sealing performance of the device.

Specific implementation method: When the present invention is in operation, in the initial state, the inlet pipe 33 is not connected to the launch hose 34, the drain pipe 57 and the discharge hose are not connected, the power supply 54 and the motor 11 is in an off state, and the spline shaft 12 and the spline groove 6 are in a separated state, which ensures the safety of the apparatus.

When the device is operating, the fermenter 2 is rotated by the free rotating block 19 so that the sealing lid 26 is at the top, and the symmetrical free rotating block 19 and the support column 3 are fixed by the rotating handle 40. Therefore, the fermenter 2 is in a fixed state, the rotating disk 29 is manually rotated, the limit plate 48 is rotated upward into the limit housing 47 by the rotating shaft 28, and the sealing block 46 is moved from the feeding port 24. Withdrawing and retracting into the limit hole 471, at the same time, the rotating shaft 28 rotates, whereby the first rotating wheel 27 rotates, the second rotating wheel 31 rotates by the action of the belt 30, and the third gear 51 The first toothed tooth 511 and the second toothed tooth 521 that rotate and mesh with the fourth gear 52 move to the left to exit from the first locking groove 512 and unlock the second locking 522, and then manually seal the lid 26. And the sealing lid 26 rotates around the fixed column 49 to the outside. The sealing lid 26 opens, the fermenting spirit raw material and baking powder are put into the fermentation casing 58 through the feeding port 24, and the raw material is placed. Then, the sealing lid 26 is rotated to close the fermenter, and the rotating plate is rotated in the opposite direction. 29 is manually rotated to perform the sealing operation. At the same time, the first tooth 511 and the second tooth 521 move to the right and are inserted into the first locking groove 512 to be locked with the second locking groove 522. Avoid separation from the sealing lid 26 when the 2 is rotating or rotating, strengthen the sealing, and when the supply is finished, unlock the rotating handle and place the fermenter 2 so that the sealing lid is at the bottom The fermenter 2 is fixed by the rotatable rotary block 19 and fixed again by the rotary handle 40, and then the power gear 9 is rotated counterclockwise by an electric machine to move the elevating toothpick 8 downward, and the spline shaft 12 is inserted into the spline groove 6 and the spline groove 6 Is engaged connection line, the motor 11 is operated, to rotate the spline shaft 12, thereby rotating the first gear 14 by the driving shaft 13 therewith to rotate the second gear 5 meshing connection, fermentation tubs 2 And the mandrel 15 rotate in the same direction, strengthening the fermentation and stirring, the power supply 54 is activated, the hot table 55 connected to the line is heated to provide an appropriate fermentation temperature to the fermentation groove 2, and the temperature sensor 21 If it is detected that the temperature of the fermenter 2 is too high, the motor 11 stops operating, the launch hose 34, the inlet pipe, the discharge hose, and the outlet pipe are manually connected, and the first magnetic valve and the second magnetic valve After the cooling water is cooled by the energy replacement pipe 20 and cooled to an appropriate temperature, the launch hose 34, the inlet pipe 33, the discharge hose and the discharge pipe 57 are connected, the motor 11 is activated, and stirring and fermentation are performed again. This operation is When the pressure in the housing becomes greater than the normal pressure due to the gas generated in the fermentation housing 26, the sealing plate 65 is activated under the action of the gas. Moves to the left, the precision air hole 67 communicates with the exhaust duct to discharge gas, the pressure drops to a normal value, and the sealing plate 65 moves to the right under the action of the contraction force of the spring 64. Sealing is performed to ensure the release and stabilization of the gas in the fermentation housing 26 and improve the fermentation effect of the apparatus.

The spirit of the present invention has a simple structure of the light emitting device, and the effect of stirring and fermentation is enhanced by the planetary gear train , and the inversion effect of the fermenter improves the convenience of loading and unloading of the device and seals the fermentation. Strengthen the effect of spirit fermentation and reduce waste of raw materials.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, considering that this embodiment is exemplary and not restrictive from any perspective, the scope of the present invention is limited to the attached rights requirements, and all changes falling within the meaning and scope of equivalent important documents of rights requirements. It is included in the present invention. Do not consider all attached marks in the claim as limiting the claim.

The present invention relates to the field of fermented liquor, specifically to an apparatus for fermenting spirits.

Fermentation technology has been increasingly applied in daily life, and fermentation technology has been developed gradually. During the fermentation process of shochu, the traditional fermenter is not stirred, so the fermentation effect is not desirable. The fermentation time is long and the effect is not uniform, and the fermentation apparatus has low sealing performance, so that air easily enters and affects the purity of the fermentation. If the fermentation device has a good sealing property, the gas in the fermentation will not be easily discharged, the pressure in the fermentation enclosure will increase, and there will be a threat to safety. Yes, the artificial cost is consumed more than necessary, and the fermented material is wasted, and the apparatus of the present invention can solve this problem.

Chinese Patent Application No. 102533489

An object of the present invention is to provide an apparatus for fermenting spirits and to solve the above problems.

In order to achieve the above object, the present invention provides the following technical plan: An apparatus for fermenting spirits includes a housing, and a water storage box is fixedly installed in the housing, and a water storage enclosure is provided in the water storage box. A body is installed, and a support column is fixed to the right side of the water storage box in a symmetrical manner, the support column is fixed to the housing by a foundation bolt, and a fixed support lever is symmetrical to the upper end surface of the support column. A first fixed lever is fixedly installed between the fixed support levers that are fixed and symmetrical in the longitudinal direction, and a free rotating block having a recessed bottom is installed on the upper side of the support column, and the left and right top ends of the free rotating block The second fixing lever is fixedly installed between the first fixing lever and the second fixing lever so as to be able to rotate through the second fixing lever and rotate with the second fixing lever. A T-shaped stationary ring is fixedly installed on the opposite end walls of the fermenter, a cylindrical fermented rice cake is installed between the support columns, an annular groove is installed in the middle of the wall of the fermented rice cake, and the T A mold stationary ring is engaged and connected so as to rotate with the annular groove, an inverted conical fermentation housing is installed in the fermentation trough, a feed port is installed at a lower end surface of the fermentation housing, and the fermentation housing A first transmission housing is installed on the upper side of the body, a planetary gear train is installed in the first transmission housing, the planetary gear train includes a main driving shaft, and a spline groove is installed on an upper end surface of the main driving shaft, The lower end wall of the main driving shaft is rotationally connected to the lower end wall of the first transmission housing, the first gear is fixedly installed on the main driving shaft, and the second gear is symmetrical to the left and right end walls of the first gear. And the second gear is meshed and connected to the fermenter with a gear. The upper end of the shaft center of the second gear is rotationally connected to the upper end wall of the first transmission housing, the lower end of the shaft core passes through the first transmission housing and is inserted into the fermentation housing, and the shaft Stirring levers are evenly distributed in the heart, a cylindrical empty groove is installed around the outer wall of the fermentation housing in the fermentation trough, and an annular hot table is fixedly installed in the empty groove, A power source is fixedly installed in the empty groove on the left side, the hot table and the power source are connected through a line, an energy replacement pipe is installed on the side of the empty groove far from the fermentation casing, A drain pipe is fixedly installed on the left side wall, a drain hole is installed in the drain pipe, a first magnetic valve is installed in the drain hole, and a discharge hose is engaged with a screw in the drain pipe. The lower end of the discharge hose communicates with the upper end of the water storage housing. An inlet pipe is installed below the discharge hose, a launch port is installed in the inlet pipe, a right end of the inlet pipe is fixedly connected to the energy replacement pipe, and a second magnetic field is connected to the launch port. A valve is installed, a launching hose is engaged and connected to the left side of the inlet pipe with a screw, a lower end of the launching hose is communicated with a right end of the water storage case, and a temperature sensor is provided on the left side wall of the fermentation case. It is fixedly installed, a sealing lid is installed on the lower end surface of the fermented rice cake, a fixed column body is installed on the right end wall of the sealing lid so that it can rotate, and the upper and lower ends of the fixed column body are fixed to the fermentation rice cake A female screw limit housing is installed on the sealing lid, a thread limit plate is installed in the limit housing, and the limit plate is engaged and connected to the inner wall of the limit housing by a screw thread. A cylindrical sealing block is fixedly installed at an intermediate position on the upper end surface of the limit plate, a limit hole is installed on the upper end surface of the limit housing, and the limit hole communicates with the limit housing and the external space, The sealing block passes through the limit hole and is inserted into the feed port, and a through hole is provided at an intermediate position of the lower end wall of the limit housing, and the through hole communicates with the limit housing and the external space. A rotation shaft is fixedly installed at a center position of the limit plate, a lower end surface of the rotation shaft extends to the external space through the through hole, and a rotating disk is fixedly installed on the rotation shaft, and the through hole An empty housing is installed at an intermediate position of the wall body, a first rotating vehicle is installed in the empty housing, the first rotating vehicle is fixedly connected to the rotating shaft, and the left end of the empty housing is Concave right A transmission housing is installed in communication, a second rotating vehicle is installed in the second transmission housing, the second rotating vehicle is connected to the first rotating vehicle by a belt, and the second transmission vehicle A fixed shaft passes through and is fixed at a central position, and upper and lower ends of the fixed shaft are rotationally connected to upper and lower end walls of the second transmission housing, respectively, and a third gear is installed on the upper side of the second rotating wheel, said third gear is fixedly mounted on the fixed shaft, the third gear on the rear end face to the same meshing consuming each other first tooth rod is installed, the horizontal at which corresponding to the first tooth rod of said fermentation tub A first locking groove in the direction, a fourth gear meshingly connected to the front end surface of the third gear, and a second toothed mesh rotating on the front end surface of the fourth gear, A horizontal second locking groove is installed at a position corresponding to the second toothpaste, and the front There is a locking gap between the sealing lid and the fermenter, a third transmission housing is installed on the housing above the fermenter, and an electric drive gear is installed in the third transmission housing The elevating gear is meshed and connected to the left end surface of the power gear, the elevating gear extends through the third transmission housing to the external space, and a fixed block is fixed to the lower end surface of the elevating gear. It is installed, the motor is fixedly installed on the fixed block, the spline shaft is fixedly installed at the lower end of the output shaft of the motor, the spline shaft is connected to the spline groove and spline, and rotates, thereby completely A simple spirit fermentation apparatus.

Preferentially, a fixed column is symmetrically and fixedly installed on the front and rear end walls on the upper side of the support column, a rotary handle is rotationally fixedly connected to the fixed column, and a through hole is formed at the upper end of the rotary handle. A fixed locking hole extending through the front and rear at a position corresponding to the through hole in the freely rotating block, the through hole penetrating the front and rear end walls of the rotary handle and communicating with an external space; A hole passes through the free rotating block and communicates with the outer space, and the rotational handle that is symmetrical in the longitudinal direction is connected by a fixing screw nail, and the front end of the shaft center of the fixing screw nail is the through hole at the rear end, and the fixing It passes through the locking hole and the through hole at the front end and is connected with a fixing nut and a screw.

Preferentially, the length of the second toothed hook is longer than the horizontal length of the first toothed hook, the length of the first locking groove is longer than the horizontal length of the second locking groove, The distance between the right end surface of the first locking groove and the right end surface of the first locking groove is equal to the distance between the right end surface of the second toothed hook and the right end surface of the second locking groove.

Preferentially, an exhaust pipe is installed between the outlet pipe and the inlet pipe, an exhaust duct is installed in the exhaust pipe, and a few precision air holes are equally installed in the circumference of the exhaust pipe. The precision air hole communicates with the exhaust duct and the external space, the exhaust duct passes through the fermentation trough and the empty groove, communicates with the fermentation casing, and a sealing plate is installed in the exhaust duct. A spring is vertically symmetrically installed on the right end wall of the sealing plate, and the other end of the spring is fixedly connected to the upper and lower end walls of the exhaust duct.

Preferentially, the sealing block is higher than the limit hole, the diameter of the sealing block is equal to the diameter of the feed opening, and the total height of the limit housing and the limit hole is the limit plate and the sealing block. A sealing rubber ring is installed on the outer wall of each of the limit plate and the sealing plate that is larger than the total height.

Compared with the existing technology, the beneficial effects of the present invention are: When the present invention is in operation, the inlet pipe is not connected to the launch hose, and the drain pipe and the discharge hose are not connected, The spline shaft and spline groove are in a state where the power supply and the motor are off, ensuring the safety of the device.

When the device is in operation, the fermented rice cake is rotated by the free rotating block so that the sealing lid is at the top, and the symmetrical free rotating block and the supporting column are fixed by the rotating handle, so the fermented rice cake is fixed. In this state, the turntable is manually rotated, the limit plate is rotated upward into the limit housing with the screw by the rotating shaft, the sealing block is withdrawn from the feed port, retracted into the limit hole, and simultaneously rotated The shaft rotates, whereby the first rotating wheel rotates, the second rotating wheel rotates by the action of the belt, the third gear rotates with the fourth gear, and the first and second gears meshing with it rotate. Move to the left, exit from the first locking groove, unlock and lock the second, manually rotate the sealing lid horizontally, the sealing lid rotates around the fixed column, the sealing lid opens, Ferment enclosure by feed Put fermented spirit ingredients and baking powder into the bowl, and after placing the ingredients, rotate the sealing lid to close it with the fermenter, and manually rotate the rotating plate in the opposite direction to perform the sealing operation. The second toothpush moves to the right and is inserted into the first locking groove to lock it with the second locking groove, avoiding separation from the sealing lid when the fermented rice cake rotates or rotates, and enhances the sealing performance When the supply is finished, unlock the rotating handle, rotate the fermented rice cake with the free rotating block so that the sealing lid is at the bottom, and fix the fermented rice cake again with the rotating handle, Turn the power gear counterclockwise to move the lifting gear down, the spline shaft is inserted into the spline groove and engaged and connected with the spline groove, the motor operates, and the spline shaft rotates. As a result, the first gear is rotated by the main shaft, the second gear meshed with it is rotated, the fermenter and the mandrel are rotated in the same direction, fermentation and agitation are strengthened, the power supply is activated, and the line connection When the hot table is heated to provide an appropriate fermentation temperature to the fermentation ditch and the temperature sensor detects that the temperature of the fermentation trough is too high, the motor stops operating, the launch hose, inlet pipe and discharge hose The first magnetic valve and the second magnetic valve are opened manually, the cold water is cooled by the energy replacement pipe, and cooled to an appropriate temperature, and then the launch hose, inlet pipe, discharge hose, and drain pipe are connected. Connected, the motor is activated, the agitation and fermentation are performed again, this operation ensures the safety and adjustability when the device is activated, the gas produced in the fermentation enclosure When the pressure inside becomes larger than the normal pressure, the sealing plate moves to the left under the action of the gas, the precision air hole communicates with the exhaust duct and discharges the gas, the pressure drops to the normal value, The sealing plate moves to the right under the action of the contraction force of the spring to perform sealing, guaranteeing the release and stabilization of the gas in the fermentation housing and improving the fermentation effect of the apparatus.

FIG. 1 is an orthographic view of the entire cross section of the entire apparatus for fermenting spirits of the present invention. FIG. 2 is an orthographic view of the entire cross section after the apparatus for fermenting spirits of the present invention is turned . FIG. 3 is a schematic structural view in the AA direction of the apparatus for fermenting spirits of the present invention. FIG. 4 is a schematic view of the connection structure of the freely rotating block of the apparatus for fermenting spirits of the present invention. FIG. 5 is an enlarged structural schematic diagram of B of the apparatus for fermenting spirits of the present invention. FIG. 6 is an enlarged schematic diagram of C of the apparatus for fermenting spirits of the present invention. FIG. 7 is an enlarged schematic diagram of D of the apparatus for fermenting spirits of the present invention. FIG. 8 is a structural schematic diagram in the EE direction of the structural schematic diagram of D of the apparatus for fermenting spirits of the present invention.

The accompanying drawings in the embodiments of the present invention are described below, the technical solutions of the embodiments of the present invention are clearly explained, and the described embodiments are only a part of the embodiments of the present invention and not all the embodiments. It is. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that ordinary engineers in this area do not pay creative labor belong to the protection scope of the present invention.

1 to 8, an embodiment provided by the present invention: an apparatus for fermenting spirits includes a housing 1, and a water storage box 25 is fixedly installed in the housing 1, and water is stored in the water storage box 25. A housing 251 is installed, and a support column 3 is fixed to the right side of the water storage box 25 in a symmetrical manner. The support column 3 is fixed to the housing 1 by a foundation bolt 22, and an upper end surface of the support column 3 The fixed support lever 23 is fixedly installed symmetrically in the front-rear direction, and the first fixed lever 37 is fixedly installed between the fixed support levers 23 symmetrically in the front-rear direction. A block 19 is installed, a second fixing lever 36 is fixedly installed between the left and right top ends of the universal rotating block 19, and the first fixing lever 36 penetrates the second fixing lever 39 and the second fixing lever It is connected to the lever 39 so that it can rotate. A T-shaped stationary ring 18 is fixedly installed on end walls on the opposite side of 19, a column-shaped fermenter 2 is installed between the support pillars 3, and an annular groove 181 is provided at an intermediate position of the wall of the fermenter 2 Is installed, and the T-shaped stationary ring 18 is engaged and connected to the annular groove 181 so as to be rotatable, and an inverted conical fermentation casing 58 is installed in the fermenter 2. A feed port 24 is installed on the end surface, a first transmission housing 4 is installed on the upper side of the fermentation housing 58, a planetary gear train is installed in the first transmission housing 4, and the planetary gear train is connected to the main drive shaft 13. A spline groove 6 is installed on the upper end surface of the main driving shaft 13, the lower end wall of the main driving shaft 13 is rotationally connected to the lower end wall of the first transmission housing 4, and the first gear is connected to the main driving shaft 13. 14 is fixedly installed, and the second gear 5 is symmetrically meshed with the left and right end walls of the first gear 14, and the second gear 5 The upper end of the axis 15 of the second gear 5 is rotationally connected to the upper end wall of the first transmission housing 4 and the lower end of the shaft 15 is connected to the first transmission housing. 4 is inserted into the fermentation casing 58, the stirring lever 17 is evenly distributed in the axial center, and a cylindrical empty groove 56 surrounds the outer wall of the fermentation casing 58 in the fermentation trough 2. An annular hot table 55 is fixedly installed in the empty groove 56, a power supply 54 is fixedly installed in the left empty groove 56, and the hot table 55 and the power supply 54 are connected through a line. An energy replacement pipe 20 is installed on the side away from the fermentation casing 58 of the empty groove 56, and a water discharge pipe 57 is fixedly installed on the left side wall of the fermenter 2, and the water discharge pipe 57 A water outlet 61 is installed, the first magnetic valve 16 is installed in the water outlet 61, and the discharge hose 32 is engaged with the screw in the water outlet 57. Connected, the lower end of the discharge hose 32 is communicated with the upper end of the water storage housing 251, the inlet pipe 33 is installed below the discharge hose 57, the launch port 63 is installed in the inlet pipe 33, A right end of the inlet pipe is fixedly connected to the energy replacement pipe 20, a second magnetic valve 35 is installed at the launching port 63, and a launching hose 34 is engaged and connected to the left side of the inlet pipe 33 with a screw. The lower end of the launch hose 34 is in communication with the right end of the water storage casing 251, the temperature sensor 21 is fixedly installed on the left side wall of the fermentation casing 58, and the sealing lid 26 is attached to the lower end surface of the fermentation trough 2. Is installed on the right end wall of the sealing lid 26 so that the fixed column body 49 can rotate, and the upper and lower ends of the fixed column body 49 are fixedly installed on the fermenter 2, and the female screw is attached to the sealing lid 26. A limit housing 47 is installed, and the limit housing 47 A screw thread limit plate 48 is installed therein, the limit plate 48 is engaged and connected to the inner wall of the limit housing 47 by a screw thread, and the cylindrical sealing block 46 is fixed at an intermediate position of the upper end surface of the limit plate 48. A limit hole 471 is installed on the upper end surface of the limit housing 47, the limit hole 471 communicates with the limit housing 47 and the external space, and the sealing block 46 penetrates the limit hole 471. And a through hole 472 is inserted in the middle position of the lower end wall of the limit housing 47, and the through hole 472 communicates with the limit housing 47 and the external space, and the limit plate The rotary shaft 28 is fixedly installed at the center position of 48, the lower end surface of the rotary shaft 28 extends to the external space through the through hole 472, and the rotary disk 29 is fixedly installed on the rotary shaft 28, Empty housing 2 in the middle of the wall of the hole 472 81 is installed, the first rotating wheel 27 is installed in the empty casing 281, the first rotating wheel 27 is fixedly connected to the rotating shaft 28, and a right-facing concave shape is formed at the left end of the empty casing 281. A second transmission case 60 is installed in communication, a second rotary wheel 31 is installed in the second transmission case 60, and the second rotary wheel 31 is connected to the first rotary wheel 27 by a belt. The fixed shaft 50 penetrates and is fixed at the center position of the second transmission vehicle 31, and the upper and lower ends of the fixed shaft 50 are rotationally connected to the upper and lower end walls of the second transmission housing 60, respectively, and the second rotation A third gear 51 is installed on the upper side of the vehicle 31, the third gear 51 is fixedly installed on the fixed shaft 50, and a first toothed gear 511 that meshes with the rear end surface of the third gear 51 is installed. is, first locking groove 512 in the horizontal direction is installed in place corresponding to the first tooth rod 511 of the fermenting tub 2, the front end surface of the third gear 51 The fourth gear 52 is meshed and connected, and a second toothed tooth 521 that meshes and rotates with the front end surface of the fourth gear 52 is installed. Two locking grooves 522 are installed, there is a locking gap 53 between the sealing lid 26 and the fermenter 2, a third transmission housing 10 is installed in the housing above the fermenter 2, and the third transmission An electric drive power gear 9 is installed in the housing 10, and a lifting gear 8 is meshed with the left end surface of the power gear 9, and the lifting gear 8 penetrates the third transmission housing 10. Extending to the external space, a fixed block 7 is fixedly installed on the lower end surface of the elevating toothed hook 8, a motor 11 is fixedly installed on the fixed block 7, and a spline shaft 12 is connected to the lower end of the output shaft of the motor 11. It is fixedly installed, and the spline shaft 12 is connected to the spline groove 6 by a spline. It rotated, thereby constituting a complete Supiritsu fermentor.

Beneficially, a fixed column 38 is symmetrically and fixedly installed on the front and rear end walls on the upper side of the support column 3, and a rotary handle 40 is rotationally fixedly connected to the fixed column 38. A through hole 39 is installed at the upper end. The through hole 39 passes through the front and rear end walls of the rotary handle 40 and communicates with the external space, and extends to the free rotating block 19 in a position corresponding to the through hole 39. A fixed locking hole 43 is installed, the fixed locking hole 43 passes through the universal rotary block 19 and communicates with the external space, and the rotational handle 40 that is symmetrical in the front-rear direction is connected by a fixed screw nail 45, and the fixed screw nail 45 The front end of the shaft center 41 passes through the through hole 39 at the rear end, the fixed locking hole 43 and the through hole 39 at the front end in order, and is connected to the fixing nut 42 by screws, whereby the fermenter 2 is rotated. It can ensure that the device does not tumbled when that increase the stability of the device.

Beneficially, the length of the second tooth 521 is longer than the horizontal length of the first tooth 511, the length of the first locking groove 512 is longer than the horizontal length of the second locking groove 522, and The distance between the right end surface of the first tooth 511 and the right end surface of the first locking groove 512 is equal to the distance between the right end surface of the second tooth 521 and the right end surface of the second locking groove 522, and Since the horizontal position of the third gear 51 is opposite to the intermediate position of the sealing lid 26, the fourth gear 52 is at the front end of the third gear 51, and the fourth gear 52 is biased to the intermediate position of the sealing lid 26, Therefore, by limiting the length, it is possible to guarantee the extreme accuracy of the synchronous locking of the first toothed hook 51 and the second toothed tooth 52 and the locking of the device.

Beneficially, an exhaust pipe 66 is installed between the outlet pipe 57 and the inlet pipe 33, an exhaust duct 62 is installed in the exhaust pipe 66, and a few precision air holes 67 are formed in the exhaust pipe 66. Evenly installed around the circumference, the precision air hole 67 communicates the exhaust duct and the external space, the exhaust duct 62 communicates the fermentation casing 58 through the fermentation trough 2 and the empty groove, A sealing plate 65 is installed in the exhaust duct 62, a spring 64 is installed symmetrically on the right end wall of the sealing plate 65, and the other end of the spring 64 is fixedly fixed to the upper and lower end walls of the exhaust duct 62. Connected to ensure the release and stabilization of gas in the fermentation housing 26 and improve the fermentation effect of the device.

Beneficially, the sealing block 46 is higher than the limit hole 471, the diameter of the sealing block 46 is equal to the diameter of the feed port 24, and the total height of the limit housing 47 and the limit hole 471 is the limit hole. A sealing rubber ring 261 is installed on the outer wall of each of the limit plate 48 and the sealing plate 46 so that the thread limit plate 48 is attached to the limit casing 47. Ensuring that the top of the sealing block 46 is at the spout 24 when it is at the top, seals the fermentation housing 58, and the limit plate 48 is at the bottom of the limit housing 47, The upper end is in the limit housing 47, prevents the sealing block 46 from interfering with the rotation of the sealing lid 26, and the sealing rubber ring 261 enhances the sealing performance of the device.

Specific implementation method: When the present invention is in operation, in the initial state, the inlet pipe 33 is not connected to the launch hose 34, the drain pipe 57 and the discharge hose are not connected, the power supply 54 and the motor 11 is in an off state, and the spline shaft 12 and the spline groove 6 are in a separated state, which ensures the safety of the apparatus.

When the device is operating, the fermenter 2 is rotated by the free rotating block 19 so that the sealing lid 26 is at the top, and the symmetrical free rotating block 19 and the support column 3 are fixed by the rotating handle 40. Therefore, the fermenter 2 is in a fixed state, the rotating disk 29 is manually rotated, the limit plate 48 is rotated upward into the limit housing 47 by the rotating shaft 28, and the sealing block 46 is moved from the feeding port 24. Withdrawing and retracting into the limit hole 471, at the same time, the rotating shaft 28 rotates, whereby the first rotating wheel 27 rotates, the second rotating wheel 31 rotates by the action of the belt 30, and the third gear 51 The first toothed tooth 511 and the second toothed tooth 521 that rotate and mesh with the fourth gear 52 move to the left to exit from the first locking groove 512 and unlock the second locking 522, and then manually seal the lid 26. And the sealing lid 26 rotates around the fixed column 49 to the outside. The sealing lid 26 opens, the fermenting spirit raw material and baking powder are put into the fermentation casing 58 through the feeding port 24, and the raw material is placed. Then, the sealing lid 26 is rotated to close the fermenter, and the rotating plate is rotated in the opposite direction. 29 is manually rotated to perform the sealing operation. At the same time, the first tooth 511 and the second tooth 521 move to the right and are inserted into the first locking groove 512 to be locked with the second locking groove 522. Avoid separation from the sealing lid 26 when the 2 is rotating or rotating, strengthen the sealing, and when the supply is finished, unlock the rotating handle and place the fermenter 2 so that the sealing lid is at the bottom The fermenter 2 is fixed by the rotatable rotary block 19 and fixed again by the rotary handle 40, and then the power gear 9 is rotated counterclockwise by an electric machine to move the elevating toothpick 8 downward, and the spline shaft 12 is inserted into the spline groove 6 and the spline groove 6 The motor 11 is operated and the spline shaft 12 is rotated, thereby rotating the first gear 14 by the main driving shaft 13 and the second gear 5 meshingly connected with it, and the fermenter 2 And the mandrel 15 rotate in the same direction, strengthening the fermentation and stirring, the power supply 54 is activated, the hot table 55 connected to the line is heated to provide an appropriate fermentation temperature to the fermentation groove 2, and the temperature sensor 21 If it is detected that the temperature of the fermenter 2 is too high, the motor 11 stops operating, the launch hose 34, the inlet pipe, the discharge hose, and the outlet pipe are manually connected, and the first magnetic valve and the second magnetic valve After the cooling water is cooled by the energy replacement pipe 20 and cooled to an appropriate temperature, the launch hose 34, the inlet pipe 33, the discharge hose and the discharge pipe 57 are connected, the motor 11 is activated, and stirring and fermentation are performed again. This operation is When the pressure in the housing becomes greater than the normal pressure due to the gas generated in the fermentation housing 26, the sealing plate 65 is activated under the action of the gas. Moves to the left, the precision air hole 67 communicates with the exhaust duct to discharge gas, the pressure drops to a normal value, and the sealing plate 65 moves to the right under the action of the contraction force of the spring 64. Sealing is performed to ensure the release and stabilization of the gas in the fermentation housing 26 and improve the fermentation effect of the apparatus.

The apparatus for fermenting spirits of the present invention has a simple light-emitting device structure, the effect of stirring and fermentation is enhanced by the planetary gear train, and the inversion effect of the fermenter improves the convenience of loading and unloading of the device, Strengthen the sealing of fermentation, increase the fermentation effect of spirits, reduce waste of raw materials.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, considering that this embodiment is exemplary and not restrictive from any perspective, the scope of the present invention is limited to the attached rights requirements, and all changes falling within the meaning and scope of equivalent important documents of rights requirements. It is included in the present invention. Do not consider all attached marks in the claim as limiting the claim.

Claims (1)

The spirit includes a housing, a water storage box is fixedly installed in the housing, a water storage housing is installed in the water storage box, and a support column is fixedly fixed symmetrically on the right side of the water storage box. A column is fixed to the housing by a foundation bolt, a fixed support lever is fixedly installed on the upper end surface of the support column in a symmetric manner, and a first fixing lever is fixedly installed between the symmetric fixed support levers, A free rotating block whose bottom is recessed is installed on the upper side of the support column, a second fixing lever is fixedly installed between the left and right top ends of the free rotating block, and the first fixing lever penetrates the second fixing lever. The second fixed lever is rotated and connected, a T-shaped stationary ring is fixedly installed on the opposite end wall of the free rotating block, and a columnar fermenter is installed between the support pillars. An annular groove is installed at an intermediate position of the wall, the T-shaped stationary ring rotates and engages with the annular groove, an inverted conical fermentation housing is installed in the fermentation trough, A feeding port is installed at a lower end surface, a first transmission housing is installed on the upper side of the fermentation housing, a planetary gear train is installed in the first transmission housing, the planetary gear train includes a main driving shaft, A spline groove is provided on an upper end surface of the main driving shaft, a lower end wall of the main driving shaft is rotationally connected to a lower end wall of the first transmission housing, a first gear is fixedly installed on the main driving shaft, and the first A second gear is symmetrically meshed and connected to the left and right end walls of the gear, the second gear is meshed and connected to the fermentation fermenter, and the upper end of the axis of the second gear is connected to the upper end wall of the first transmission housing. Rotational connection, the lower end of the shaft center penetrates the first transmission housing and is inserted into the fermentation housing. A stirring lever is evenly distributed in the shaft center, a cylindrical empty groove is installed in the fermenter so as to surround an outer wall of the fermentation housing, and an annular hot table is fixed in the empty groove. Installed, a power source is fixedly installed in the left empty groove, the hot table is connected to the power source, and an energy replacement pipe is installed on the side of the empty groove far from the fermentation casing, A drain pipe is fixedly installed on the left side wall, and even if a drain hole is installed in the drain pipe, a first magnetic valve is installed in the drain hole, and a discharge hose is engaged with the screw in the drain pipe. Connected, the lower end of the discharge hose communicates with the upper end of the water storage housing, an inlet pipe is installed below the discharge hose, a launch port is installed in the inlet pipe, and the right end of the inlet pipe is Energy storage A second magnetic valve is fixedly connected to the exchange pipe, a second magnetic valve is installed at the launch port, a launch hose is engaged with a screw on the left side of the inlet pipe, and the lower end of the launch hose is the right end of the water storage housing The temperature sensor is fixedly installed on the left side wall of the fermentation casing, a sealing lid is installed on the lower end surface of the fermentation bowl, a fixed column is rotated and installed on the right end wall of the sealing lid, The upper and lower ends of the fixed column body are fixedly mounted on the light emitting rod, the female screw limit housing is installed on the sealing lid, the thread limit plate is installed in the limit housing, and the limit plate is mounted on the limit housing. The inner wall of the body is engaged and connected with a screw thread, a cylindrical sealing block is fixedly installed at an intermediate position of the upper end surface of the limit plate, a limit hole is installed on the upper end surface of the limit housing, and the limit hole is Said limit A body and an external space are communicated, the sealing block passes through the limit hole and is inserted into the feed port, and a through hole is provided at an intermediate position of a lower end wall of the limit housing, and the through hole is formed in the limit housing. The rotating shaft is fixedly installed at the center position of the limit plate, the lower end surface of the rotating shaft extends to the outer space through the through hole, and the rotating disk is fixedly installed on the rotating shaft. An empty housing is installed at an intermediate position of the wall of the through hole, a first rotating vehicle is installed in the empty housing, the first rotating vehicle is fixedly connected to the rotating shaft, and the empty housing A right-handed concave second transmission casing is connected to the left end of the second transmission casing, a second rotating wheel is installed in the second transmission casing, and the second rotating wheel is transmitted by the first rotating wheel and a belt. Connected, and the fixed shaft passes through the center position of the second transmission vehicle. Upper and lower ends of the fixed shaft are rotationally connected to upper and lower end walls of the second transmission housing, respectively, a third gear is installed on the upper side of the second rotating wheel, and the third gear is connected to the fixed shaft. A first toothed tooth that is fixedly mounted on the rear end surface of the third gear and meshes with the first toothed tooth is installed on the rear end surface of the third gear, and a horizontal first locking groove is provided at a position corresponding to the first toothed tooth of the light emitting rod. A fourth gear meshingly connected to the front end surface of the third gear, and a second toothed meshingly rotating on the front end surface of the fourth gear, corresponding to the second toothed tooth of the fermented rice cake A horizontal second locking groove is provided, a locking gap is provided between the sealing lid and the fermenter, a third transmission housing is installed on the housing above the fermenter, and the third transmission housing is provided. An electric drive gear is installed in the body, An elevating toothed hook is meshed and connected to the end surface, the elevating toothed tooth extends through the third transmission housing to the outside space, and a fixed block is fixedly installed on the lower end surface of the raised and lowered toothed hook. Is fixedly installed, a spline shaft is fixedly installed at the lower end of the export shaft of the electric motor, the spline shaft is connected to the spline groove and spline and rotates, thereby constituting a complete spirit fermentation apparatus, A fixed column is installed symmetrically and fixed to the front and rear end walls on the upper side of the support column, a rotary handle is connected to the fixed column for rotation, a through hole is installed at the upper end of the rotary handle, and the through hole is A fixed locking hole that extends through the front and rear end walls of the rotating handle and communicates with the external space and extends to the front and rear at a position corresponding to the through hole in the freely rotating block, The fixed locking hole passes through the universal rotating block and communicates with the external space, and the rotational handle that is symmetrical in the longitudinal direction is connected by a fixed screw nail, and the front end of the axis of the fixed screw nail is the through hole in the rear end in order. , Through the fixed locking hole and the through hole at the front end, and connected by a fixing nut and a screw, and the length of the second toothed tooth is longer than the horizontal length of the first toothed tooth, and the length of the first locking groove Is longer than the horizontal length of the second locking groove, and the distance between the right end surface of the first toothed hook and the right end surface of the first locking groove is equal to the right end surface of the second toothed tooth and the second locking groove. An exhaust pipe is installed between the outlet pipe and the inlet pipe, an exhaust duct is installed in the exhaust pipe, and a few precision air holes are formed in the circumference of the exhaust pipe. Set evenly The precision air hole communicates with the exhaust duct and the outside space, the exhaust duct passes through the fermentation trough and the empty groove, communicates with the fermentation casing, and a sealing plate is installed in the exhaust duct. A spring is vertically symmetrically installed on the right end wall of the sealing plate, the other end of the spring is fixedly connected to the upper and lower end walls of the exhaust duct, the sealing block is higher than the limit hole, and the diameter of the sealing block is Is equal to the diameter of the feed opening, the total height of the limit housing and the limit hole is larger than the total height of the limit plate and the sealing block, and both the limit plate and the outer wall of the sealing plate Sealed rubber band is installed.

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