CN115521847A - Three-dimensional source terahertz wave rapid ripening machine for fresh wine - Google Patents

Abstract

The invention discloses a three-dimensional source terahertz wave rapid ripening new wine processor which comprises a vertical upward irradiation source, an irradiation implementation system, an inclined downward irradiation source, an electric cabinet and a transfusion system. In the invention, 15 sets of irradiation sources are tightly attached to the peripheral window of the irradiation chamber, and 5 sets of irradiation sources vertically irradiate upwards; 10 sets of the three-dimensional energy field are obliquely irradiated downwards to form a multi-radiation source interference-enhanced three-dimensional energy field, so that the new wine can be fully irradiated by terahertz waves. The winery needs a new wine ripening processor which can meet the requirements of digital temperature control, irradiation according to programs and short-time ripening of new wine, has the characteristics of mellow and soft wine quality, and enables vast consumers to be difficult to drink and enjoy the pleasure of wine culture. The invention applies the terahertz wave irradiation technology to rapidly mature the new wine and improve the internal value of the wine, thereby developing towards the industrialization direction, and having the characteristics of mechanical and electrical integration, automation, intellectualization, 24-hour continuous operation, no fault in long-term production, safe, simple and convenient use, mobility and the like.

Description

Three-dimensional source terahertz wave rapid ripening machine for fresh wine

Technical Field

The invention relates to the technical field of terahertz wave technology and wine industry fresh wine ripening, in particular to a three-dimensional source terahertz wave rapid ripening fresh wine processor.

Background

The wavelength of the terahertz wave is between that of microwave and infrared wave, the terahertz wave has many novel advantages, and the related technology belongs to the very important and promising frontier crossing field.

The terahertz wave technology is competitively developed in the world at present, and the key point is to see which enterprise takes the lead to popularize the application of the terahertz wave technology to a specific industry and quickly form a new industrialized power source, so that considerable economic benefit and social effect are generated.

For hundreds of years, a set of method is formed in human society, new wine is sealed in a cellar for a plurality of years and slowly fermented for a long time in an anoxic state, so that aged wine is obtained, and people find that the new wine can cause headache and flushing after drinking and has drunk reaction. However, the drunk reaction of the wine made in the rush years is reduced, although the price of the wine is at least ten times higher than that of the new wine, and the side effect on the human body is very small. The commercial opportunity is taken as the product with the magnetized cup on the market, and the relevant principles are mentioned in the 'magnetized wine' data associated with the magnetized cup: through the biomagnetic action of the nanometer titanium dioxide and the catalytic and oxidation actions of negative ions, molecules in the wine can generate energy resonance, and methanol, fusel oil, formaldehyde, acetaldehyde, sulfide and the like in the white spirit are decomposed and converted into acid, alcohol, small molecular groups and other harmless substances. The nano titanium dioxide catalytic treatment accelerates the aging process of the wine, the wine is aged for more than 30 years after being used for 10 minutes. Firstly 10 minutes and 30 years later, the catalyst is basically oxidation resistant, and contradicts with the oxidation action after parallel. Even if the fact is stated in the data, the technology of adopting industrialized mass ripening of the new wine in the market is still blank.

Disclosure of Invention

The invention aims to provide a three-dimensional source terahertz wave rapid ripening wine processor aiming at the defects of the existing rapid ripening wine technology, which comprises a vertical upward irradiation source, an irradiation implementation system, an inclined downward irradiation source, an electric cabinet and a transfusion system. In the invention, 15 sets of irradiation sources are tightly attached to the peripheral window of the irradiation chamber, and 5 sets of irradiation sources vertically irradiate upwards; and (3) irradiating the wine obliquely downwards to form a three-dimensional energy field reinforced by the interference of multiple radiation sources, so that the new wine can be fully irradiated by terahertz waves. The winery needs a new wine ripening processor which can meet the requirements of digital temperature control, irradiation according to programs and short-time ripening of new wine, has the characteristics of mellow and soft wine quality, and enables vast consumers to be difficult to drink and enjoy the pleasure of wine culture. The invention applies the terahertz wave irradiation technology to rapidly mature the new wine and improve the internal value of the wine, thereby developing towards the industrialization direction, and having the characteristics of mechanical and electrical integration, automation, intellectualization, 24-hour continuous operation, no fault in long-term production, safe, simple and convenient use, mobility and the like.

The specific technical scheme for realizing the purpose of the invention is as follows:

a processor for rapidly ripening new wine by using three-dimensional source terahertz waves comprises a vertical upward irradiation source, an irradiation implementation system, an inclined downward irradiation source, an electric cabinet and a transfusion system;

the vertical upward irradiation source consists of a bottom rack, a rack top plate, a bottom connector, a lower generator base, an air cooling device, a lower generator group, a caster, an infusion pump base, a right-angle elbow and an electric cabinet mounting plate;

the bottom rack is formed by mutually connecting a plurality of rectangular tube steels;

the top plate of the machine frame is arranged on the top surface of the machine frame at the bottom,

the bottom connectors are 4 pieces, each piece is composed of a small square plate and a short shaft, the short shaft is arranged beside the top surface of the small square plate, and the top surface of the small square plate is connected with four corners of the bottom surface of the bottom rack; the bottom surface of the bottom connector small square plate is connected with a caster; the top surface of the short shaft of the bottom connector is connected with the lower generator base and the air cooling device;

the lower generator base and the air cooling device are composed of a generator bracket, a rectangular frame plate and a fan set from top to bottom; the top surface of the short shaft of the bottom connector is connected with the round holes at the four corners of the rectangular frame plate;

the lower generator set comprises 5 terahertz wave generators which are arranged on the lower generator base and the generator bracket of the air cooling device, and the top surface of the lower generator set is flush with the top surface of the top plate of the rack;

the caster wheels are arranged below the bottom surface of the small square plate of the frame connector in 4 pieces;

the infusion pump seat is arranged on one side of the bottom rack;

the right-angle bent pipe is arranged on one side of the bottom rack and is positioned on the same side of the infusion pump seat, and the right-angle bent pipe and the infusion pump seat are different in height and front and back positions;

the electric cabinet is arranged on the top surface of the right-angle elbow;

the irradiation implementation system consists of a middle case, a frame connector, an irradiation chamber and a liquid flow turning device; the middle case consists of a top frame plate, a transverse side plate, a longitudinal side plate and a bottom frame plate, wherein the transverse side plate and the longitudinal side plate are 2 symmetrical parts and are mutually connected with the top frame plate and the bottom frame plate to form a hexahedron;

the frame connector consists of a connecting frame plate and a lifting device;

the bottom surface of the connecting frame plate is connected with the top frame plate of the middle case by a lifter; the top surface of the connecting frame plate is connected with 4 square plates in the irradiation system which inclines downwards by screws;

the lifting devices are 4 in number and are arranged at four corners of the rack connector, and each lifting device consists of a lifting ring screw, a washer and a nut;

the irradiation chamber consists of a support beam, a herringbone bending plate, left and right blocking strips of a generator, a bottom plate of the irradiation chamber, vertical plates on two sides, front and rear vertical plates, an upper generator thrust washer, a terahertz wave isolator and a convection fan;

the number of the supporting beams is 5, and 1 supporting beam is arranged at the top of the herringbone bending plate; 2 pieces are arranged at the junctions of the two ends of the herringbone bending plate and the vertical plates at the two sides; the other 2 pieces are arranged at the junction of the vertical plates at the two sides and the bottom plate of the irradiation chamber, and the 9 structural parts are mutually connected into a whole; the 5 supporting beams are different in shape and equal in length, screw holes are formed in two ends of each supporting beam, so that a liquid flow turning device can enter the supporting beams conveniently, and then the front vertical plate and the rear vertical plate are connected with the supporting beams through screws to form a main body of the irradiation chamber;

two rows of upper generator groups are symmetrically arranged on the herringbone bending plate, and a left generator barrier strip and a right generator barrier strip are arranged between two adjacent generators in each row of upper generator groups; two ends of the herringbone bending plate are provided with upper generator thrust washers;

the vertical plates on the two sides are provided with terahertz wave isolators and convection fans;

the front vertical plate and the rear vertical plate are 2 pieces, and 2 small holes are formed in 1 piece, so that a fresh wine infusion hose and a temperature measuring probe signal wire can be conveniently led into an irradiation chamber; the other 1 piece is provided with 1 small hole, which is convenient for leading the mature wine transfusion hose out from the irradiation chamber;

the terahertz wave isolators are 2 in number and are all arranged on the inner sides of the vertical plates on the two sides;

the convection fans are 2 in total and are arranged on the outer sides of the vertical plates on the two sides;

the liquid flow turning back device consists of a liquid flow sequential cavity die, a cluster quartz tube group, a cluster stay bar group, an annular sealing ring and a temperature measuring probe;

the liquid flow turning-back device is arranged in the irradiation chamber;

the liquid flow sequential cavity molds are 2 in number, and the outer plane of one liquid flow sequential cavity mold is provided with a water inlet and a temperature measuring probe; the outer side plane of the other set of liquid flow cavity die is provided with a water outlet, the cluster quartz tube group and the cluster stay bar group are arranged in parallel at intervals, two ends of the cluster stay bar group are respectively and tightly connected with the inner side planes of the two sets of liquid flow sequential cavity dies through screws, meanwhile, two ends of the cluster quartz tube group are tightly pressed with the inner side tube seats of the two sets of liquid flow sequential cavity dies through annular sealing rings, and the liquid flow turn-back device does not leak any more;

the inclined downward irradiation source consists of a square plate, a vertical beam, a cross beam, a longitudinal beam, a fan shield, a fan seat, a fan group and an upper generator group;

the top surfaces of the square plates are connected with the vertical beam; the bottom surface of the square plate is connected with a connecting frame plate of the frame connector by a screw;

the number of the vertical beams is 4, the vertical beams are respectively connected to the centers of the top surfaces of the 4 square plates, and the positions, close to the tops, of the vertical beams are connected with the cross beams and the longitudinal beams;

the number of the cross beams is 3; the number of the longitudinal beams is 4;

the fan seats are 8 in number and are all connected to a frame formed by the cross beams and the longitudinal beams;

the fan shields are 8 pieces and are all arranged on the fan seat;

the upper generator group consists of 10 terahertz wave generators; the upper generator group is arranged on the herringbone bending plate;

the electric cabinet consists of an electric control panel, an electric control box body, an air switch, a rear cover plate, an element mounting plate, an intelligent temperature controller, an indicator light, a circulating operation time controller, a button switch and a button switch;

the electric control panel is arranged on the front side of the electric control box body;

the electric control box body is arranged on the electric control box mounting plate of the vertically upward irradiation source;

the air switch is arranged on one side of the electric control box body;

the rear cover plate is arranged on the back of the electric control box body;

the element mounting plate is arranged at the bottom layer in the electric control box body and is connected with the electric control box body through screws;

the intelligent temperature controller, the indicator light, the circulating operation time controller, the button switch and the toggle switch are all arranged on the electric control panel;

the infusion system consists of an infusion pump and an infusion hose net;

the infusion pump is arranged on the top surface of the infusion pump seat on one side of the bottom rack;

the infusion soft pipe network connects the outlet of the new wine source with the negative pressure inlet of the infusion pump, simultaneously connects the positive pressure outlet of the infusion pump with the inlet pipe of the quartz tube group bunched in the liquid flow returning device, then repeatedly returns through dozens of quartz tubes of the quartz tube group bunched in the bundle, and finally outputs the boiled wine from the outlet pipe of the quartz tube group bunched in the bundle to the boiled wine storage place.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a schematic diagram of a vertically upward irradiation source according to the present invention;

FIG. 4 is a schematic structural diagram of an irradiation implementation system of the present invention;

FIG. 5 is a schematic diagram of a tilted downward irradiation source according to the present invention;

FIG. 6 is a schematic view of the structure of the electric cabinet of the present invention;

fig. 7 is a schematic view of the distribution of the infusion system of the present invention.

Detailed Description

The invention is described in detail below with reference to the drawings and examples.

Referring to fig. 1 and 2, the present invention includes a vertically upward irradiation source 1, an irradiation implementation system 2, an obliquely downward irradiation source 3, an electric cabinet 4 and a transfusion system 5.

Referring to fig. 3, the vertically upward irradiation source 1 is composed of a bottom rack 11, a rack top plate 12, a bottom connector 13, a lower generator base and air cooling device 14, a lower generator set 15, a caster 16, an infusion pump base 17, a right-angle elbow 18 and an electric cabinet mounting plate 19;

the bottom frame 11 is formed by mutually connecting a plurality of rectangular tube steels;

the top plate 12 of the frame is arranged on the top surface of the bottom frame 11,

the number of the bottom connectors 13 is 4, each bottom connector is composed of a small square plate and a short shaft, the short shaft is arranged beside the top surface of the small square plate, and the top surface of the small square plate is connected with four corners of the bottom surface of the bottom rack 11; the bottom surface of the small square plate of the bottom connector 13 is connected with a caster 16 of the host; the top surface of the short shaft of the bottom connector 13 is connected with the lower generator base and the air cooling device 14;

the lower generator base and the air cooling device 14 are composed of a generator bracket, a rectangular frame plate and a fan set from top to bottom; round holes are formed in four corners of the rectangular frame plate, and the top faces of short shafts of the bottom connectors 13 are connected with the round holes in the four corners of the rectangular frame plate;

the lower generator group 15 comprises 5 terahertz wave generators which are all arranged on the lower generator base and the generator bracket of the air cooling device 14, and the top surface of the lower generator group 15 is flush with the top surface of the top plate 22 of the machine frame;

the caster wheels 16 are arranged below the bottom surface of the small square plate of the frame connector 13 in 4 pieces;

the infusion pump seat 17 is arranged on one side of the bottom frame 11;

the right-angle bent pipe 18 is arranged on one side of the bottom rack 11 and is positioned on the same side of the infusion pump seat 17, and the height of the right-angle bent pipe and the height of the infusion pump seat are different;

the electric cabinet 19 is arranged on the top surface of the right-angle elbow 18.

Referring to fig. 4, a is a front view of the irradiation execution system 2, which shows that the irradiation execution system 2 is composed of a middle frame 21, a frame connector 22, an irradiation chamber 23 and a liquid flow turning device 24;

the middle chassis 21 is composed of a top frame plate 211, a transverse side plate 212, a longitudinal side plate 213 and a bottom frame plate 214, wherein the transverse side plate 212 and the longitudinal side plate 213 are symmetrical 2 pieces, and are mutually connected with the top frame plate 211 and the bottom frame plate 214 to form a hexahedron;

the frame connector 22 is composed of a connecting frame plate 221 and a lifting device 222;

the bottom surface of the connecting frame plate 221 is connected with the top frame plate 211 of the middle chassis 21 by a lifting device 222; the top surface of the connecting frame plate 221 is connected with the 4 square plates 31 in the downward inclined irradiation system 3 by screws;

the lifting devices 222 are 4 in number and are arranged at four corners of the frame connector, and each lifting device 222 is composed of a lifting bolt, a washer and a nut.

Referring to fig. 4, a diagram b is a schematic structural diagram of the irradiation chamber 23, which shows that the irradiation chamber 23 is composed of a support beam 231, a herringbone bending plate 232, left and right generator barrier strips 233, a bottom plate 234 of the irradiation chamber, vertical plates 235 on two sides, front and rear vertical plates 236, an upper generator thrust washer 237, a terahertz wave isolator 238 and a convection fan 239;

the number of the supporting beams 231 is 5, and 1 supporting beam is arranged at the top of the herringbone bending plate; 2 pieces of the bent plate 232 are arranged at the junction of two ends of the herringbone bent plate and the vertical plates 235 at two sides; the other 2 pieces are arranged at the junction of the vertical plates 235 at the two sides and the irradiation chamber bottom plate 234, and the 9 pieces of structural parts are connected into a whole; the 5 supporting beams 231 are different in shape and equal in length, and both ends of the supporting beams are provided with screw holes, so that the liquid flow turning device 24 can conveniently enter the supporting beams, and then the front vertical plate 236 and the rear vertical plate 236 are connected with the supporting beams 231 through screws to form a main body of the irradiation chamber 23;

two rows of upper generator groups 38 are symmetrically arranged on the herringbone bending plate 232, and a left generator barrier strip 233 and a right generator barrier strip 233 are arranged between two adjacent generators in each row of the upper generator groups 38; two ends of the herringbone bending plate 232 are provided with an upper generator thrust block 237;

the vertical plates 235 on the two sides are provided with terahertz wave isolators 238 and convection fans 239;

the number of the front vertical plate 236 and the rear vertical plate 236 is 2, wherein 2 small holes are formed in 1 plate, so that a fresh wine transfusion hose and a temperature probe signal wire can be conveniently led into an irradiation chamber; the other 1 piece is provided with 1 small hole, so that the cooked wine transfusion hose can be conveniently led out from the irradiation chamber;

the terahertz wave isolators 238 are 2 pieces and are arranged inside the vertical plates 235 on the two sides;

the convection fans 239 are arranged on the outer sides of the vertical plates 235.

Referring to fig. 4, in a diagram, the liquid flow turning back device 24 is shown to be composed of a liquid flow sequential cavity mold 241, a bundling quartz tube group 242, a bundling brace rod group 243, an annular sealing ring 244 and a temperature measuring probe 245;

the liquid flow turning device 24 is arranged in the irradiation chamber 23;

the liquid flow sequential cavity molds 241 are 2 sets, wherein the outer side plane of one set of liquid flow sequential cavity molds 241 is provided with a water inlet and a temperature measuring probe; the outer plane of the other liquid flow cavity die 241 is provided with a water outlet, the bundling quartz tube group 242 and the bundling support rod group 243 are arranged in a spaced and parallel manner, two ends of the bundling support rod group 343 are respectively and tightly connected with the inner planes of the two liquid flow sequential cavity dies 241 through screws, and two ends of the bundling quartz tube group 242 are tightly pressed with the inner tube seats of the two liquid flow sequential cavity dies 241 through an annular sealing ring 244, so that the liquid flow return device 24 is ensured to be not leak.

Referring to fig. 5, a is a front view of the irradiation source 3 facing obliquely downward, and b is a top view of a;

the inclined downward radiation source 3 consists of a square plate 31, a vertical beam 32, a cross beam 33, a longitudinal beam 34, a fan shield 35, a fan seat 36, a fan group 37 and an upper generator group 38;

the square plates 31 are 4 pieces in total, and the top surfaces of the square plates are connected with the vertical beams 32; the bottom surface of the square plate 31 is connected with a connecting frame plate 321 of the frame connector 32 by screws;

the number of the vertical beams 32 is 4, and the vertical beams 32 are respectively connected to the centers of the top surfaces of the 4 square plates 31, and the vertical beams 32 are connected with the cross beams 33 and the longitudinal beams 34 close to the top;

the cross beams 33 are 3 pieces; 4 pieces in total for the longitudinal beam 34;

the fan bases 36 are 8 in number and are all connected to a frame formed by the cross beams 32 and the longitudinal beams 33;

the fan shields 35 are 8 pieces and are all arranged on the fan base 36;

the upper generator group 38 has 10 terahertz wave generators; the upper generator set 38 is arranged on the herringbone bent plate 232.

Referring to fig. 6, a is a front view of the electric cabinet 4, and b is a side view of a;

the electric control box 4 is composed of an electric control panel 41, an electric control box body 42, an air switch 43, a rear cover plate 44, an element mounting plate 45, an intelligent temperature controller 46, an indicator lamp 47, a circulating operation time controller 48, a button switch 49 and a selection switch 410;

the electric control panel 41 is arranged on the front surface of the electric control box body 42;

the electric control box body 42 is arranged on the electric control box mounting plate 19 of the vertically upward irradiation system 1;

the air switch 43 is arranged on one side of the electric control box body 42;

the rear cover plate 44 is arranged on the back of the electric control box body 42;

the element mounting plate 45 is arranged at the bottom layer in the electric control box body 42 and is connected with the electric control box body by screws;

the intelligent temperature controller 46, the indicator light 47, the cycle time controller 48, the button switch 49 and the selection switch 410 are all arranged on the electric control panel 41.

Referring to fig. 7, the infusion system 5 is composed of an infusion pump 51 and an infusion hose network 52;

the infusion pump 51 is arranged on the top surface of the infusion pump seat 17 on one side of the bottom rack 11;

the infusion hose network 52 connects the outlet of the new wine source with the negative pressure inlet of the infusion pump 51, simultaneously connects the positive pressure outlet of the infusion pump 51 with the inlet of the bundled quartz tube set 242 of the liquid flow returning device 24, then repeatedly returns through dozens of quartz tubes of the bundled quartz tube set 242, and finally outputs the boiled wine from the outlet of the bundled quartz tube 242 to the boiled wine storage place.

Examples

The aim of the embodiment is to realize the quick ripening of the new wine by a pure physical method, referring to figures 1 and 2,

in one embodiment, 15 sets of terahertz wave irradiation sources are tightly attached to a peripheral window of an irradiation chamber, wherein 5 sets of terahertz wave irradiation sources irradiate vertically upwards, and in addition, 10 sets of terahertz wave irradiation sources irradiate obliquely downwards to form a multi-radiation-source interference-enhanced three-dimensional energy field, so that the novel wine can be fully irradiated by the terahertz waves.

The process that the terahertz waves irradiate the wine must be seen: the irradiated liquid stores the energy of the terahertz electromagnetic field; and the temperature rise is inevitable. The wine, especially the white spirit with high alcohol content, can be burnt when exposed fire occurs.

The second embodiment is to keep the liquid flowing in the mold cavity, the quartz glass tube, the infusion hose and the tube joint from leaking, enhance the ventilation and cooling of the irradiation chamber, and structurally ensure that the ventilation window does not leak the terahertz wave and does not affect the inlet and outlet of cold and hot air.

Referring to fig. 4a, it can be seen that the irradiation implementation system 2 is composed of a middle frame 21, a frame connector 22, an irradiation chamber 23 and a liquid flow turning device 24;

in the third embodiment, a 'box-in-box' form is adopted, the liquid flow turning device 24 is arranged inside the irradiation chamber 23, and the irradiation chamber 23 is also arranged inside the middle machine box 31; in addition, the frame connector 22 connects the middle case 21 and the 4 square plates 31 of the inclined downward irradiation source 3 into a whole, and the assembly is reasonable, and the connection is fastened by screws.

Referring to FIG. 7, the infusion system 5 is shown to be comprised of an infusion pump 51, a quartz tube 242 for a flow-reversing device 24, and a hose network 52;

in the fourth embodiment, the infusion pump 51 is an internal circulation intermittent pump, which generates negative pressure at the right side pipe orifice and positive pressure at the left side pipe orifice during the power-on period, and the negative pressure pipeline pumps new wine to be delivered to the inlet pipe of the bundling quartz pipe set 242;

the infusion hose network 52 connects the outlet of the new wine source with the negative pressure inlet of the infusion pump 51, simultaneously connects the positive pressure outlet of the infusion pump 51 with the inlet of the bundled quartz tube set 242 of the liquid flow returning device 24, then repeatedly returns through dozens of quartz tubes of the bundled quartz tube set 242, and finally outputs the boiled wine from the outlet of the bundled quartz tube set 242 to the boiled wine storage place.

This example combines to accomplish the rapid ripening of new wine: specifically, the air switch 43, the intelligent temperature controller 46, the indicator lamp 47, the cycle time controller 48, the button switch 49 and the button switch 410 which are arranged on the electric control panel 41 of the electric cabinet 4 are used for operation, which is briefly described as follows:

firstly, an air switch 43 is switched on by an operator, and the processor is electrified;

the circulation operation time controller 49 has 2 sets, 1 set controls the circulation period of the intermittent infusion of the infusion pump 51; the other 1 set controls the intermittent irradiation or air cooling alternate cycle period, the operator sets 2 sets of the sub-periods of the controller 48 during the circulating operation in advance respectively, if the air cooling sub-period is not changed, the longer the irradiation sub-period is, the higher the treatment efficiency of the new wine is, but the temperature of the wine in the bundling quartz tube 242 can be improved, which is not good for safety; similarly, if the infusion is not changed in different periods, the longer the infusion is not changed, the longer the period is, the year of the conversion of the new wine into the cooked wine is correspondingly prolonged, but the yield of the cooked wine in unit time is reduced.

Secondly, the operator firstly presses the two starting buttons on the right side of the 3 button switches 49 which are respectively control buttons of the external cooling and infusion pump 51 to fill the bundling quartz tube group 242 with the fresh wine for about half an hour;

thirdly, an operator presses down the irradiation inner-cooling button switch on the left side, and the infusion pump 51 stops working within a plurality of hours, so that the purpose that the new wine in the quartz tube at the inlet of the bundling quartz tube group 242 also achieves the ripening acceleration effect is achieved;

fourthly, the operator starts a button switch of the infusion pump 51, then the automatic operation of the normalization fresh wine ripening is started, the processor needs to ensure that the fresh wine is continuously supplied to the infusion pump 51 for extraction after the processor is normally operated for a long time, and meanwhile, the mature wine also needs to have a corresponding mature wine storage position;

and a fifth step of shutting down the processor by switching off the air switch 43 and cutting off the power supply.

Claims (1)

1. A three-dimensional source terahertz wave rapid ripening machine for fresh wine is characterized by comprising a vertical upward irradiation source (1), an irradiation implementation system (2), an inclined downward irradiation source (3), an electric cabinet (4) and a transfusion system (5);

the vertical upward irradiation source (1) consists of a bottom rack (11), a rack top plate (12), a bottom connector (13), a lower generator base and air cooling device (14), a lower generator group (15), a caster (16), an infusion pump base (17), a right-angle elbow (18) and an electric cabinet mounting plate (19);

the bottom rack (11) is formed by mutually connecting a plurality of rectangular tube steels;

the rack top plate (12) is arranged on the top surface of the bottom rack (11),

the number of the bottom connectors (13) is 4, each bottom connector is composed of a small square plate and a short shaft, the short shaft is arranged beside the top surface of the small square plate, and the top surface of the small square plate is connected with four corners of the bottom surface of the bottom rack (11); the bottom surface of the small square plate of the bottom connector (13) is connected with a caster (16) of the host; the top surface of the short shaft of the bottom connector (13) is connected with the lower generator base and the air cooling device (14);

the lower generator base and the air cooling device (14) are composed of a generator bracket, a rectangular frame plate and a fan set from top to bottom; round holes are formed in four corners of the rectangular frame plate, and the top faces of short shafts of the bottom connectors (13) are connected with the round holes in the four corners of the rectangular frame plate;

the lower generator set (15) comprises 5 terahertz wave generators, which are arranged on a lower generator base and a generator bracket of the air cooling device (14), and the top surface of the lower generator set (15) is flush with the top surface of a rack top plate (22);

the 4 caster wheels (16) are arranged below the bottom surface of the small square plate of the frame connector (13);

the infusion pump seat (17) is arranged on one side of the bottom rack (11);

the right-angle elbow (18) is arranged on one side of the bottom rack (11) and is positioned on the same side as the infusion pump seat (17); the electric cabinet (19) is arranged on the top surface of the right-angle elbow (18);

the irradiation implementation system (2) is composed of a middle case (21), a frame connector (22), an irradiation chamber (23) and a liquid flow turning device (24);

the middle case (21) is composed of a top frame plate (211), a transverse side plate (212), a longitudinal side plate (213) and a bottom frame plate (214), wherein the transverse side plate (212) and the longitudinal side plate (213) are symmetrical 2 pieces and are mutually connected with the top frame plate (211) and the bottom frame plate (214) to form a cuboid;

the frame connector (22) is composed of a connecting frame plate (221) and a lifting device (222);

the bottom surface of the connecting frame plate (221) is connected with the top frame plate (211) of the middle chassis (21) by a lifter (222); the top surface of the connecting frame plate (221) is connected with the irradiation system (3) which is inclined downwards by screws;

the lifting devices (222) are 4 in number and are arranged at four corners of a connecting frame plate (221) of the rack connector (22), and each lifting device (222) consists of a lifting ring screw, a washer and a nut;

the irradiation chamber (23) is composed of a support beam (231), a herringbone bending plate (232), left and right generator barrier strips (233), an irradiation chamber bottom plate (234), vertical plates (235) on two sides, front and rear vertical plates (236), an upper generator thrust washer (237), a terahertz wave isolator (238) and a convection fan (239);

the number of the supporting beams (231) is 5, wherein 1 supporting beam is arranged at the top of the herringbone bending plate; 2 pieces of the bent plate are respectively arranged at the junctions of the two sides of the herringbone bent plate (232) and the vertical plates (235) at the two sides; 2 pieces of the material are respectively arranged at the junction of the vertical plates (235) at the two sides and the bottom plate (234) of the irradiation chamber; the 5 supporting beams (231) are different in shape and equal in length, screw holes are formed in two ends of each supporting beam, so that the liquid flow turning device (24) can conveniently enter the supporting beams, and then the front vertical plate (236), the rear vertical plate (236) and the supporting beams (231) are connected through screws to form a main body of the irradiation chamber (23);

two rows of upper generator groups (38) are symmetrically arranged on the herringbone bending plate (232), and a left generator blocking strip (233) and a right generator blocking strip (233) are arranged between two adjacent generators in each row of the upper generator groups (38); two side ends of the herringbone bending plate (232) are provided with an upper generator thrust washer (237);

the vertical plates (235) on the two sides are provided with terahertz wave isolators (238) and convection fans (239);

one side plate of the front and rear vertical plates (236) is provided with 2 small holes, so that the new wine transfusion hose and a temperature probe signal line can conveniently enter an irradiation chamber; the other side plate is provided with 1 small hole, so that the cooked wine transfusion hose can conveniently flow out of the irradiation chamber;

the terahertz wave isolators (238) are 2 in number and are arranged on the inner sides of the vertical plates (235) on the two sides;

the convection fans (239) are arranged on the outer sides of the vertical plates (235) on the two sides in total of 2 pieces;

the liquid flow turning-back device (24) is arranged in the irradiation chamber (23) and consists of a liquid flow sequential cavity die (241), a bundling quartz tube group (242), a bundling stay bar group (243), an annular sealing ring (244) and a temperature measuring probe (245);

the liquid flow sequential cavity molds (241) are 2 in number, and the outer side plane of one liquid flow sequential cavity mold (241) is provided with a water inlet and a temperature measuring probe; a water outlet is arranged on the outer side plane of the other liquid flow cavity die (241), the bundling quartz tube group (242) and the bundling support rod group (243) are arranged in parallel at intervals, two ends of the bundling support rod group (243) are respectively and tightly connected with the inner side planes of the two liquid flow sequential cavity dies (241) through screws, and meanwhile, two ends of the bundling quartz tube group (242) are tightly pressed with the inner side tube seats of the two liquid flow sequential cavity dies (241) through an annular sealing ring (244), so that the liquid flow turn-back device (24) is ensured to be leak-proof;

the inclined downward irradiation source (3) is composed of a square plate (31), a vertical beam (32), a cross beam (33), a longitudinal beam (34), a fan shield (35), a fan seat (36), a fan group (37) and an upper generator group (38);

the number of the square plates (31) is 4, and the top surfaces of the square plates are connected with the vertical beam (32); the bottom surface of the square plate (31) is connected with a connecting frame plate (221) of the frame connector (22) by a screw;

the number of the vertical beams (32) is 4, and the vertical beams are respectively connected to the centers of the top surfaces of the 4 square plates (31), and the vertical beams (32) are connected with the cross beams (33) and the longitudinal beams (34) close to the tops;

the cross beams (33) are 3 pieces in total; 4 longitudinal beams (34) in total;

the fan seats (36) are 8 in number and are all connected to a frame formed by the cross beams (32) and the longitudinal beams (33);

the number of the fan shields (35) is 8, and the fan shields are all arranged on the fan base (36);

the upper generator group (38) is composed of 10 terahertz wave generators; the upper generator set (38) is arranged on the herringbone bending plate (232);

the electric cabinet (4) is composed of an electric control panel (41), an electric control cabinet body (42), an air switch (43), a rear cover plate (44), an element mounting plate (45), an intelligent temperature controller (46), an indicator lamp (47), a controller (48) during circulating operation, a button switch (49) and a button switch (410);

the electric control panel (41) is arranged on the front surface of the electric control box body (42);

the electric control box body (42) is arranged on an electric control box mounting plate (19) of the vertically upward irradiation source (1);

the air switch (43) is arranged on one side of the electric control box body (42);

the rear cover plate (44) is arranged on the back of the electric control box body (42);

the element mounting plate (45) is arranged at the bottom layer in the electric control box body (42) and is connected with the electric control box body through screws;

the intelligent temperature controller (46), the indicator lamp (47), the circulating operation controller (48), the button switch (49) and the button switch (410) are all arranged on the electric control panel (41);

the infusion system (5) is composed of an infusion pump (51) and an infusion hose network (52); the infusion pump (51) is arranged on the top surface of the infusion pump seat (17) on one side of the bottom rack (11);

the infusion soft tube net (52) is connected with a new wine source outlet and an infusion pump (51) negative pressure liquid inlet, and meanwhile, a positive pressure liquid outlet of the infusion pump (51) is connected with a bundle quartz tube group (242) inlet tube of the liquid flow returning device (24), then dozens of quartz tubes of the bundle quartz tube group (242) are repeatedly returned, and finally, cooked wine is output from an outlet tube of the bundle quartz tube (242) to a cooked wine storage place.

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