CN117695965A - Tartary buckwheat rice wine after-ripening processing equipment and processing technology - Google Patents

Abstract

The utility model relates to a bitter buckwheat rice wine after-ripening processing equipment and processing technology, it is including the hydroxy conversion tower that is used for carrying the wine liquid, metal ion catalytic tower, complexing reaction tower, photoelectron purifier and purifying column that communicate in proper order, the hydroxy conversion tower includes the tower body, ultraviolet generator, the intake pipe of injecting into ozone in the orientation tower body and set up in a plurality of grid plates of tower body inner chamber, the intake pipe is coaxial to be set up in tower body inner chamber and its upper end and tower body upper end rotation are connected, the lower extreme circumference of intake pipe is provided with a plurality of blast pipes that are the level setting, the axis of the gas outlet of blast pipe is the contained angle setting with the axis of the blast pipe of its connection, the axis circumference of grid plate around the intake pipe sets up, the gas outlet of blast pipe is towards the grid plate. After ozone is introduced below the wine, the large bubbles are changed into small bubbles by utilizing the grid plate, and the contact area between the bubbles and the wine is increased under the condition of introducing the same amount of gas by reducing the volume of the bubbles, so that the ozone is more easily dissolved into the wine.

Description

Tartary buckwheat rice wine after-ripening processing equipment and processing technology

Technical Field

The application relates to the technical field of tartary buckwheat rice wine aging treatment equipment, in particular to tartary buckwheat rice wine after-ripening processing equipment and processing technology.

Background

In the process of wine production, the wine can be stored for a period of time according to the type of wine, so that the quality of the wine can be obtained.

However, when aging is performed by time, the aged wine needs to occupy a large amount of storage space, which increases the site cost. Therefore, in order to accelerate the aging of alcoholic beverages, physical or chemical processing is performed on the alcoholic beverages, thereby accelerating the aging rate.

At present, ozone and hydroxyl free radicals are generally introduced into wine, unsaturated compounds in the wine are oxidized into water and carbon dioxide by utilizing the hydroxyl free radicals and ozone with strong oxidation effect, and heavy metal components in the wine are reduced and precipitated to be removed, so that the aging of the wine is accelerated.

However, in the ozone-introducing process, ozone is directly introduced from above the wine, so that the ozone directly contacts with the wine solution on the surface layer, and the oxidation rate of the ozone on unsaturated compounds in the wine is affected.

It is therefore necessary to propose a new solution to the above-mentioned problems.

Disclosure of Invention

In order to enable ozone to be more easily dissolved into wine liquid and accelerate the oxidation rate of unsaturated compounds, the application provides tartary buckwheat rice wine after-ripening processing equipment and processing technology.

The application provides a bitter buckwheat rice wine after-ripening processing equipment and processing technology, adopts following technical scheme:

the utility model provides a bitter buckwheat rice wine after-ripening processing equipment, is including the hydroxy conversion tower, metal ion catalytic tower, complexing reaction tower, photoelectron purifier and the purifying column that communicate in proper order that are used for carrying the wine liquid, the hydroxy conversion tower includes the tower body, sets up in the ultraviolet generator of tower body, pours into the intake pipe of ozone and sets up in a plurality of grid plates of tower body inner chamber into in the tower body, the intake pipe is coaxial to be set up in tower body inner chamber and its upper end and tower body upper end rotation connection, the upper end of intake pipe is used for connecting ozone generator, the lower extreme circumference of intake pipe is provided with a plurality of blast pipes that are the level and set up, the axis of the gas outlet of blast pipe is the contained angle setting with the axis of the blast pipe that its is connected, the axis circumference setting of grid plate around the intake pipe, the gas outlet of blast pipe is towards the grid plate.

Through adopting above-mentioned technical scheme, after letting in the ozone below the wine liquid, make big bubble become the little bubble with the grid plate, thereby then the gas outlet rotates and makes little bubble diffuse in the wine liquid, through reducing the volume of bubble, increase the area of contact between bubble and the wine liquid under the condition of letting in the same gas quantity, make ozone more dissolve in the wine liquid.

Optionally: the tower body is internally provided with a guide plate coaxially arranged with the air inlet pipe, the grid plate is arranged on the end face, close to the exhaust pipe, of the guide plate, a gap for passing through bubbles is reserved between the grid plate and the guide plate, and liquid moves along the side wall, close to the air inlet pipe, of the guide plate towards the axial direction of the air inlet pipe.

Through adopting above-mentioned technical scheme, when ozone spouts and drives the wine liquid flow to the guide plate in the gas outlet, thereby the guide plate is directed the wine liquid and is driven wine liquid and move towards the intake pipe direction, makes the bubble that ozone formed more mix in wine liquid.

Optionally: the tower body is internally provided with a moving mechanism for driving the guide plates and the air inlet pipes to vertically move, the moving mechanism comprises a sliding frame, a plurality of guide rods arranged on the sliding frame and a driving piece for driving the guide rods to vertically move, the sliding frame surrounds the guide plates, the guide plates are arranged on the sliding frame, the guide rods penetrate through the upper end of the tower body and are in sliding fit with the tower body, and the upper end of the air inlet pipe is connected to the guide rods.

Through adopting above-mentioned technical scheme, when the gas outlet pours into the interior with ozone wine, the injection position of ozone can reciprocate from top to bottom to make the bubble that ozone formed more easily distribute in each position in the wine, the efficiency of ozone dissolving in the wine is accelerated.

Optionally: the air guide plate comprises a plurality of support plates which are circumferentially arranged around the axis of the air inlet pipe, the middle part of the side wall of the air inlet pipe, which is far away from the support plate, is rotationally connected onto the sliding frame, the upper end of the support plate is rotated to cover the upper end of the air outlet of the exhaust pipe, and the lower end of the support plate is rotated to cover the lower end of the air outlet of the exhaust pipe.

Through adopting above-mentioned technical scheme, when upwards moving, the extension board rotates to covering gas outlet lower extreme, when moving downwards, the extension board rotates to covering gas outlet upper end to make at the in-process extension board of vertical removal can drive rivers and remove towards the direction of intake pipe, accelerate ozone mix to in the wine liquid.

Optionally: the top wall and the bottom wall of the tower body are coaxially provided with driving rings for driving the support plates to rotate, the side walls of the driving rings, which are close to the axis of the driving rings, are provided with guide cambered surfaces, and the end parts of the support plates move along the guide cambered surfaces.

Through adopting above-mentioned technical scheme, when the extension board removes to the upper and lower both ends that are close to the tower body, thereby the guide arc makes the extension board automatic rotation to the extension board application of force, makes the use of extension board more convenient.

Optionally: the support plate is close to all be provided with the laminating inclined plane on the lateral wall of adjacent support plate, the laminating inclined plane sets up respectively in the upper and lower both sides of the axis of rotation of support plate, and the one end that the axis of rotation was kept away from to the laminating inclined plane that is located support plate axis of rotation same one side is close to each other, and the laminating inclined plane of adjacent support plate butt each other.

Through adopting above-mentioned technical scheme, when the extension board rotates to certain angle, thereby make the extension board form a complete structure between the mutual butt between the adjacent extension board to make the direction removal of wine liquid more easily towards the intake pipe.

Optionally: the upper side and the lower side of the sliding frame are vertically slid with limiting rings, the limiting rings are connected through limiting rods and synchronously move, the inner wall of each limiting ring is abutted to the side wall, far away from the exhaust pipe, of the guide plate turned towards the air outlet, and the driving ring is abutted to the side wall, far away from the mounting ring, of each limiting ring so as to drive the mounting ring to move.

Through adopting above-mentioned technical scheme, the spacing ring butt is in the baffle one side that deviates from its direction of movement when the baffle removes to make the extension board can keep a stable position.

Optionally: the air inlet pipe is provided with a connecting mechanism used for being connected with the ozone generator, the connecting mechanism comprises a connector arranged on the air inlet pipe, a rotary joint arranged on the ozone generator and a hose for connecting the rotary joint to the connector, a plurality of guide rods are coaxially fixed on the connector, and the guide rods penetrate through the rotary joint and are in sliding fit with the rotary joint.

Through adopting above-mentioned technical scheme, at intake pipe vertical movement and pivoted in-process, can remain the connection throughout in ozone generator, make ozone can continuously let in the wine liquid.

Optionally: still be provided with supplementary rabbling mechanism in the tower body, supplementary rabbling mechanism is including coaxial drive cover, coaxial cover that is fixed in outside the intake pipe locate a plurality of stirring leaves outside the drive cover and rotate the guide piece of connecting on the stirring leaf, the horizontal cross-section of drive cover is the polygon, the drive cover wears to locate in the stirring leaf and with stirring She Huayi cooperation, drive cover and stirring leaf synchronous rotation, the guide piece upper end rotates with the stirring leaf and is connected, a plurality of guide slots of bottom surface difference in height have been seted up to the tower body inner wall, the one end that the stirring leaf was kept away from to the guide piece sets up in the guide slot and vertically slides, lower the bottom surface height of the guide slot that the guide piece set up is lower, the blast pipe upper end is used for the butt guide piece and drives the guide piece and upwards moves.

Through adopting above-mentioned technical scheme, at the in-process that the guide plate moved downwards, stirring leaf can continue stirring to the wine liquid that is located the top to make newly inflow wine liquid can be faster with the wine liquid mixture that has ozone, thereby accelerate the efficiency that mixes with ozone.

A processing technology for after-ripening of tartary buckwheat rice wine comprises the following steps:

s1, introducing ozone into the wine liquor and irradiating ultraviolet light on the wine liquor into which the ozone is introduced, and then stopping introducing the ozone and continuing irradiating the ultraviolet light until the ozone is completely decomposed;

s2, introducing metal ions into the wine, and carrying out complexation reaction by using a high-energy ion generator;

s3, filtering the wine after complexing.

By adopting the technical scheme, the unsaturated compounds in the wine liquid are removed by utilizing ozone for oxidation, and then metal ions are introduced so as to meet the content of the metal ions permeated into the wine liquid by the storage of the pottery pot, thereby achieving the purpose of rapid aging.

In summary, the present application includes at least one of the following beneficial technical effects:

1. ozone is introduced into the wine, and large bubbles are scattered into small bubbles by using a grid plate, so that the contact area between the ozone and the wine is increased, and the ozone is more easily dissolved into the wine;

2. the air outlet is vertically reciprocated, so that the injection position of ozone is vertically moved, the guide plate drives the wine liquid to move towards the air inlet pipe, bubbles formed by the ozone in the wine liquid are easier to fill the wine liquid, and the mixing efficiency of the ozone and the wine liquid is further improved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic view for showing the internal structure of a tower according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an embodiment of the present application for showing a support plate structure;

fig. 4 is a schematic structural diagram for showing a connection mechanism according to an embodiment of the present application.

In the figure, 1, a hydroxyl conversion tower; 11. a tower body; 12. an ultraviolet light generator; 13. an air inlet pipe; 14. a grid plate; 15. an exhaust pipe; 16. a deflector; 161. a support plate; 162. attaching the inclined plane; 17. a drive ring; 171. a guide cambered surface; 18. a guide groove; 2. a metal ion catalytic tower; 3. a complexing reaction tower; 4. an optoelectronic purification device; 5. a purifying tower; 6. a moving mechanism; 61. a sliding frame; 62. a guide rod; 63. a driving member; 64. a mounting ring; 65. a connecting rod; 66. a connecting ring; 67. a limiting ring; 68. a limit rod; 7. a connecting mechanism; 71. a connector; 72. a rotary joint; 73. a hose; 78. a guide rod; 8. an auxiliary stirring mechanism; 81. a drive sleeve; 82. stirring the leaves; 83. a guide member; 84. a rotating ring;

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The application discloses a bitter buckwheat rice wine after-ripening processing equipment, as shown in fig. 1, including connect gradually and be used for carrying hydroxyl transfer tower 1, metal ion catalytic tower 2, complexing reaction tower 3, photoelectron purifier 4 and purifying column 5 of wine liquid, thereby the wine liquid lets in hydroxyl transfer tower 1 and oxidizes and get rid of heavy metal ion and aldehydes material, thereafter pour into metal ion in metal ion catalytic tower 2, thereby carry out complex reaction or macromolecular pattern in complexing reaction tower 3, thereafter get rid of remaining ozone and balanced potential energy in photoelectron purifier 4, finally utilize purifying column 5 to accomplish the ageing of wine liquid after filtering impurity in the wine liquid.

As shown in fig. 2, the hydroxyl conversion tower 1 comprises a tower body 11, an ultraviolet light generator 12 arranged in the tower body 11, an air inlet pipe 13 for injecting ozone into the tower body 11, and a plurality of grid plates 14 arranged in the inner cavity of the tower body 11. The upper end of the side wall of the tower body 11 is provided with a liquid inlet pipe communicated with the inner cavity of the tower body, the wine is injected into the tower body 11 through the liquid inlet pipe, the lower end of the tower body 11 is provided with a liquid outlet pipe, and the liquid outlet pipe outputs the wine into the metal ion catalytic tower 2. The air inlet pipe 13 penetrates through the upper end face of the tower body 11 and extends to the inner cavity of the tower body 11, and the air inlet pipe 13 is coaxially and rotatably matched with the tower body 11. The lower extreme circumference of intake pipe 13 is provided with a plurality of blast pipes 15 that are the level setting, blast pipe 15 all communicates with the inner chamber of intake pipe 13, and the gas outlet that blast pipe 15 kept away from intake pipe 13 is the slope setting, the axis of gas outlet is the contained angle setting with the axis of its blast pipe 15 that connects, the upper end of intake pipe 13 is used for connecting ozone generator to utilize the gas outlet to inject ozone into the interior of wine liquid, and at the in-process of filling ozone into the interior of wine liquid, thereby the feed liquor pipe can rotate and make ozone more even in the distribution of wine liquid.

As shown in fig. 3, a baffle 16 for driving bubbles containing ozone to move towards the middle of the wine is further arranged in the tower body 11, the baffle 16 and the air inlet pipe 13 are coaxially arranged, and the side wall of the baffle 16 close to the air outlet is arranged in an arc shape, so that when ozone is sprayed onto the side wall of the baffle 16, water flow can flow towards the air inlet pipe 13 under the guidance of the baffle 16, so that the wine containing ozone bubbles moves towards the wine at the air inlet pipe 13, and ozone is easier to mix in the wine.

As shown in fig. 2 and 4, since the air outlet is located below the inner cavity of the tower 11, the bubbles containing ozone need to rise slowly, so that the mixing efficiency of ozone and wine is still low. Therefore, the moving mechanism 6 driving the baffle 16 and the air inlet pipe 13 to move vertically is disposed in the tower 11, and the moving mechanism 6 includes a sliding frame 61 disposed in the tower 11, a plurality of guide rods 62 disposed on the sliding frame 61, and a driving member 63 driving the guide rods 62 to move vertically. The axis of the sliding frame 61 is coincident with the axis of the air inlet pipe 13, the sliding frame 61 is arranged outside the guide plate 16 in a surrounding way, and the guide plate 16 is connected with the sliding frame 61. The guide rod 62 is circumferentially arranged on the upper end face of the sliding frame 61, the upper end of the guide rod 62 penetrates through the upper end face of the tower body 11 and is in sliding fit with the tower body 11, and a mounting ring 64 is fixed at the upper end of the guide rod 62. The inner wall axial of collar 64 is fixed with a plurality of connecting rods 65 that are the level setting, and the connecting rod 65 is kept away from collar 64's one end and is fixed with go-between 66 jointly, and go-between 66 cover is located outside intake pipe 13 and is connected with intake pipe 13 rotation to drive intake pipe 13 and guide plate 16 synchronous motion. The driving member 63 is a combination of a screw and a motor in this embodiment, the screw is rotatably connected to the tower 11, and the screw is threaded through the mounting ring 64 and is in threaded engagement with the mounting ring, so as to drive the mounting ring 64 to move.

As shown in fig. 3, in the course of the vertical movement of the baffle 16, when moving in one direction, there arises a problem that it is difficult to push the liquid toward the axis of the tower 11. Therefore, the baffle 16 includes a plurality of support plates 161 circumferentially disposed around the axis of the air inlet pipe 13, the support plates 161 are all rotatably connected to the side wall of the sliding frame 61 close to the axis of the air inlet pipe 13, the rotation axis of the support plates 161 and the axis of the air outlet are on the same horizontal plane, the upper ends of the support plates 161 can rotate to cover the upper ends of the air outlets, and the lower ends of the support plates 161 can rotate to cover the lower ends of the air outlets, so that in the process of vertically moving the baffle 16, the liquid mixed with ozone can be pushed towards the axis of the air inlet pipe 13.

The grid plates 14 are respectively arranged on the end faces of the support plates 161, which are close to the air inlet pipe 13, gaps are reserved between the grid plates 14 and the support plates 161, when ozone is sprayed into wine at the air outlets, the wine mixed with the ozone passes through the grid plates 14 and breaks up large bubbles into small bubbles by using holes on the grid plates 14, and then the small bubbles are pushed towards the air inlet pipe 13 by using the guide plates 16, so that the mixing efficiency of the ozone and the wine is accelerated.

The side walls of the support plates 161 close to the adjacent support plates 161 are provided with attaching inclined planes 162, the attaching inclined planes 162 are respectively arranged on two sides of the rotation axis of the support plates 161, and one ends, far away from the rotation axis, of the attaching inclined planes 162 on the same side of the rotation axis of the support plates 161 are mutually close. Therefore, when the support plates 161 rotate upwards and downwards, the adjacent support plates 161 can still be attached to form a complete guide plate 16, so that the wine mixed with ozone bubbles can flow towards the middle part of the tower 11.

As shown in fig. 2, the upper end and the lower end of the inner cavity of the tower body 11 are coaxially provided with a driving ring 17 for driving the support plate 161 to rotate, the axis of the driving ring 17 coincides with the axis of the air inlet pipe 13, the inner wall of the driving ring 17 is provided with a guiding cambered surface 171 for driving the support plate 161 to move, the radian of the guiding cambered surface 171 is the same as that of the guide plate 16, so that when the support plate 161 contacts with the guiding cambered surface 171 and rotates along the guiding cambered surface 171, the support plate 161 can rotate to the same state as the guiding cambered surface 171, and the adjacent support plates 161 are mutually attached to drive water flow.

As shown in fig. 3, during the vertical movement of the baffle 16, the wine will exert a force on the baffle 16 that resists its movement, thereby causing the baffle 16 to rotate in a direction opposite to the direction of movement, thereby affecting the flow of ozone bubbles in the direction of the air inlet pipe 13. Therefore, the upper and lower sides of the sliding frame 61 are vertically slid with the limiting rings 67, the limiting rings 67 are connected by the limiting rods 68, so that the two limiting rings 67 slide synchronously, and the limiting rods 68 penetrate through the mounting rings 64 and are connected with the mounting rings 64 in a sliding manner. The inner wall of the limiting ring 67 is used for abutting against the side wall of the support plate 161, which is far away from the air inlet pipe 13 after overturning, so as to limit the support plate 161 to move towards the direction opposite to the moving direction of the sliding frame 61. The driving ring 17 can be abutted with the limiting ring 67 so as to drive the limiting ring 67 to move, and locking and unlocking of the support plate 161 are achieved.

As shown in fig. 4, the air inlet pipe 13 is further provided with a connection mechanism 7 for connecting with an ozone generator, and the connection mechanism 7 includes a connector 71 coaxially provided at the upper end of the air inlet pipe 13, a rotary joint 72 provided on the ozone generator, and a hose 73 connecting the rotary joint 72 to the connector 71. The rotary joint 72 and the connector 71 are coaxially arranged, a plurality of guide rods 78 which are vertically arranged are coaxially fixed on the connector 71, the upper ends of the guide rods 78 penetrate through the rotary joint 72 and are in sliding fit with the rotary joint 72, the rotary joint 72 can synchronously rotate with the connector 71, and the rotary joint 72 can still synchronously rotate in the process of vertically moving the connector 71.

As shown in fig. 2, after the baffle 16 moves downward, the wine still flows into the tower 11, so that an auxiliary stirring mechanism 8 for stirring the wine is further disposed in the tower 11, and the auxiliary stirring mechanism 8 includes a driving sleeve 81 coaxially fixed outside the air inlet pipe 13, a plurality of stirring blades 82 coaxially sleeved on the driving sleeve 81, and a guide member 83 rotatably connected to the stirring blades 82. The horizontal section of the driving sleeve 81 is in a regular hexagon shape, the stirring blade 82 slides along the driving sleeve 81, and the driving sleeve 81 drives the stirring blade 82 to synchronously rotate. The lower end of the stirring blade 82 is rotatably connected with a rotating ring 84, a gap is reserved between the rotating ring 84 and the driving sleeve 81, and a guide piece 83 is fixed on the side wall of the rotating ring 84. The inner wall of the tower body 11 is provided with a plurality of guide grooves 18 which are vertically arranged, the heights of the bottoms of the guide grooves 18 are different, the guide grooves 18 penetrate through the driving ring 17, one end, far away from the rotating ring 84, of the driving piece 63 is arranged in the guide grooves 18 to slide, and the height of the bottoms of the guide grooves 18, where the guide piece 83 connected with the stirring blade 82 positioned below slides, is lower. The upper end of the exhaust pipe 15 can be abutted with the rotating ring 84, so that the stirring blade 82 is sequentially driven to move upwards, and the vertical movement of the exhaust pipe 15 is not easy to influence.

The implementation principle of the embodiment is as follows: ozone is injected into the wine liquid through the air inlet pipe 13 by the ozone generator, when the ozone is sprayed out from the air outlet, the air inlet pipe 13 is driven to rotate, and when bubbles formed in the wine liquid by the ozone pass through the grid plate 14, the large bubbles are scattered by the grid plate 14 to form small bubbles, and the small bubbles move towards the air inlet pipe 13 under the driving of the guide plate 16. The driving piece 63 drives the sliding frame 61 to vertically move, the supporting plate 161 can rotate along the guide cambered surface 171 when contacting the guide cambered surface 171, and the driving ring 17 is also contacted with the limiting ring 67 when the guide cambered surface 171 contacts the supporting plate 161, so that the supporting plate 161 can rotate when driving the limiting ring 67 to move, and ozone bubbles always move towards the air inlet pipe 13 under the driving of the guide plate 16 in the vertical moving process.

A processing technology for after-ripening of tartary buckwheat rice wine comprises the following steps:

s1, introducing ozone into the wine liquor and irradiating ultraviolet light on the wine liquor into which the ozone is introduced, and then stopping introducing the ozone and continuing irradiating the ultraviolet light until the ozone is completely decomposed;

s2, introducing metal ions into the wine, and carrying out complexation reaction by using a high-energy ion generator;

s3, filtering the wine after complexing.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides a bitter buckwheat rice wine after-ripening processing equipment which characterized in that: including the hydroxyl transfer tower (1), metal ion catalytic tower (2), complexing reaction tower (3), photoelectron purifier (4) and purifying column (5) that communicate in proper order are used for carrying the wine, hydroxyl transfer tower (1) including tower body (11), ultraviolet generator (12) that set up in tower body (11), in the Xiang Dati (11) intake pipe (13) of injection ozone and set up in a plurality of grid plates (14) of tower body (11) inner chamber, intake pipe (13) coaxial set up in tower body (11) inner chamber and its upper end and tower body (11) upper end rotate and are connected, the upper end of intake pipe (13) is used for connecting ozone generator, the lower extreme circumference of intake pipe (13) is provided with a plurality of blast pipes (15) that are the level setting, the axis of the gas outlet of blast pipe (15) is the contained angle setting with the axis of its blast pipe (15) that connects, grid plates (14) are around the axis circumference of intake pipe (13), the gas outlet of blast pipe (15) is towards grid plates (14).

2. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 1, wherein: be provided with in tower body (11) with intake pipe (13) coaxial guide plate (16) that sets up, grid plate (14) knot sets up on the terminal surface that guide plate (16) are close to blast pipe (15), leave the clearance that is used for passing through the bubble between grid plate (14) and guide plate (16), liquid is followed guide plate (16) are close to the lateral wall of intake pipe (13) and move towards the axis direction of intake pipe (13).

3. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 2, wherein: be provided with in tower body (11) and drive guide plate (16) and intake pipe (13) vertical movement's shifter (6), shifter (6) are including slide frame (61), set up a plurality of guide bars (62) and drive guide bar (62) vertical movement's driving piece (63) on slide frame (61), slide frame (61) are centers on guide plate (16) set up, guide plate (16) set up on slide frame (61), guide bar (62) wear to locate tower body (11) upper end and slide the cooperation with tower body (11), intake pipe (13) upper end is connected on guide bar (62).

4. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 2, wherein: the air deflector (16) comprises a plurality of support plates (161) which are circumferentially arranged around the axis of the air inlet pipe (13), the middle part of the side wall of the air inlet pipe (13) away from the support plates (161) is rotationally connected to the sliding frame (61), the upper ends of the support plates (161) rotate to the upper ends of air outlets of the exhaust pipes (13), and the lower ends of the support plates (161) rotate to the lower ends of the air outlets of the exhaust pipes (13).

5. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 4, wherein: the top wall and the bottom wall of the tower body (11) are coaxially provided with driving rings (17) for driving the support plates (161) to rotate, the side walls, close to the axis, of the driving rings (17) are provided with guide cambered surfaces (171), and the end parts of the support plates (161) move along the guide cambered surfaces (171).

6. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 4, wherein: the support plates (161) are provided with attaching inclined planes (162) on the side walls, which are close to the adjacent support plates (161), of the support plates (161), the attaching inclined planes (162) are respectively arranged on the upper side and the lower side of the rotation axis of the support plates (161), one ends, far away from the rotation axis, of the attaching inclined planes (162) on the same side of the rotation axis of the support plates (161) are mutually close, and the attaching inclined planes (162) of the adjacent support plates (161) are mutually abutted.

7. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 6, wherein: limiting rings (67) vertically slide on the upper side and the lower side of the sliding frame (61), the limiting rings (67) are connected through limiting rods (68) and synchronously move, the inner wall butt of spacing ring (67) is on the lateral wall that baffle (16) that is turned over towards the gas outlet kept away from blast pipe (15), thereby actuating ring (17) are used for the butt to keep away from collar (64) on the lateral wall of spacing ring (67) and drive collar (64) and remove.

8. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 7, wherein: the novel ozone generator is characterized in that a connecting mechanism (7) used for being connected with the ozone generator is arranged on the air inlet pipe (13), the connecting mechanism (7) comprises a connector (71) arranged on the air inlet pipe (13), a rotary joint (72) arranged on the ozone generator and a hose (73) used for connecting the rotary joint (72) to the connector (71), a plurality of guide rods (78) are coaxially fixed on the connector (71), and the guide rods (78) penetrate through the rotary joint (72) and are in sliding fit with the rotary joint (72).

9. The tartary buckwheat rice wine after-ripening processing device as claimed in claim 7, wherein: still be provided with supplementary rabbling mechanism (8) in tower body (11), supplementary rabbling mechanism (8) are including coaxial drive cover (81) outside being fixed in intake pipe (13), coaxial cover locate a plurality of stirring leaf (82) outside drive cover (81), and rotate guide piece (83) of connecting on stirring leaf (82), the horizontal cross-section of drive cover (81) is the polygon, drive cover (81) wear to locate in stirring leaf (82) and with stirring leaf (82) cooperation of sliding, drive cover (81) and stirring leaf (82) synchronous rotation, guide piece (83) upper end and stirring leaf (82) rotate and are connected, a plurality of guide slots (18) of bottom surface difference in height have been seted up to tower body (11) inner wall, one end that stirring leaf (82) were kept away from to guide piece (83) sets up in guide slot (18) vertical slip, lower the bottom surface height of guide slot (18) that guide piece (83) set up is lower, blast pipe (15) upper end is used for butt guide piece (83) and drives guide piece (83) and upwards moves.

10. A processing technology for after-ripening of tartary buckwheat rice wine is characterized in that: the method comprises the following steps:

s1, introducing ozone into the wine liquor and irradiating ultraviolet light on the wine liquor into which the ozone is introduced, and then stopping introducing the ozone and continuing irradiating the ultraviolet light until the ozone is completely decomposed;

s2, introducing metal ions into the wine, and carrying out complexation reaction by using a high-energy ion generator;

s3, filtering the wine after complexing.