CN119924439A - A fully automatic sterilization equipment for fermented juice - Google Patents

Abstract

The invention discloses full-automatic sterilization equipment for fermenting fruit juice, which relates to the technical field of sterilization equipment and comprises a sterilization tank, a cooling tank and a sterilization box, wherein the cooling tank and the sterilization box are arranged on the outer side of the sterilization tank, a heat conduction coil pipe for circulating a heat conduction medium is arranged in an interlayer of the sterilization tank, and a cooling coil pipe for circulating a cooling medium is arranged on the circumferential side surface of the cooling tank in a surrounding manner. This a full-automatic sterilizing equipment for fermenting fruit juice carries out high temperature sterilization in through the sterilization jar, quick cooling in the reuse cooling jar carries out ultraviolet disinfection through the sterilization case at last to set up the foam removing mechanism in the sterilization jar and scrape the dross foam of getting to the liquid level upper strata of fermented fruit juice, the intermittent suction through the suction nozzle is taken off simultaneously and is absorbed the dross foam of collecting in the collection dish, makes the fermentation fruit juice can get rid of the dross foam that influences the taste of drinking fast when high temperature sterilization stirs, guarantees that the fermentation fruit juice can improve the taste of drinking after through full-automatic sterilization.

Description

Full-automatic sterilization equipment for fermenting fruit juice

Technical Field

The invention relates to the technical field of sterilization equipment, in particular to full-automatic sterilization equipment for fermenting fruit juice.

Background

Fermented juice refers to juice produced by fermentation after pulp is broken. The fermented fruit juice maintains the nutrition of the fruit to the maximum extent through fermenting the pulp, and a large amount of amino acids, short chain fatty acids and other nutrient substances can be produced in the fermentation process, and a large amount of probiotics metabolites can be brought by fermentation, so that the improvement of intestinal environment and the improvement of human immunity are facilitated. The fermented juice needs to be filtered and sterilized after fermentation is completed, so that superfluous fungus and metabolic products are removed, and nutrient components are preserved.

According to the Chinese patent with the publication number of CN221265116U, a fruit juice production sterilization device is disclosed, by arranging a sterilization tank, a storage tank, a first heat conduction pipe, a second heat conduction pipe, a connecting pipe, an inner heat conduction pipe, an inner connection pipe and an outer connection pipe, the internal and external heating of the sterilization tank is realized, the temperature of the sterilization tank is quickly increased, the time required by sterilization heating is shortened, the sterilization efficiency is improved, and meanwhile, after sterilization is finished, the fruit juice is preheated by utilizing waste heat, the time required by sterilization heating is shortened, and the sterilization efficiency is further improved;

above-mentioned technical scheme utilizes stirring subassembly to stir the fruit juice, makes the fruit juice stirring be heated evenly, further reduces the used time of sterilization, when stirring the fruit juice, makes the fruit juice liquid level upper layer of high temperature sterilization produce the dross foam easily for the fruit juice can influence the taste of drinking after the sterilization.

Disclosure of Invention

The invention aims to provide full-automatic sterilization equipment for fermenting fruit juice, so as to solve the problems of the background technology.

In order to achieve the aim, the invention provides the technical scheme that the full-automatic sterilization equipment for fermenting fruit juice comprises a sterilization tank, a cooling tank and a sterilization box, wherein the cooling tank and the sterilization box are arranged on the outer side of the sterilization tank, a heat conduction coil pipe for circulating a heat conduction medium is arranged in an interlayer of the sterilization tank, a cooling coil pipe for circulating a cooling medium is surrounded on the circumferential side surface of the cooling tank,

A current collecting bin is arranged on one side of the interior of the sterilization box, a lower drainage plate and an upper drainage plate are sequentially arranged in the sterilization box from bottom to top, and ultraviolet lamps which penetrate through the lower drainage plate and the upper drainage plate simultaneously are distributed in a rectangular array in the sterilization box;

The utility model provides a sterilizing tank, including sterilizing tank, shell, inner wall top surface, bottom shell, inner wall top surface, foam removing mechanism and foam removing roller, the shell is installed at the top of sterilizing tank, and the top central authorities of shell install the motor to the top edge butt joint of shell has the filling tube, the below of motor is provided with the driving shell with the shell butt joint, the output of motor is fixed with the (mixing) shaft that runs through with shell and driving shell, the outside cover of (mixing) shaft is equipped with the sleeve pipe with driving shell swing joint, the overhead guard that cup joints with the sleeve pipe activity is installed to the inner wall top surface of shell, the below swivelling joint of overhead guard has the bottom shell for conical structure, the middle part of bottom shell is fixed with the inner tube that installs mutually with the sleeve pipe lower extreme, the outside that the bottom shell is close to the inner tube still is fixed with the foam removing mechanism of liquid level dross is scraped in the rotation on the downside conical surface of bottom shell, the both ends that are close to the through-hole upside are fixed with the circular arch strip, and the inner wall integrated into of circular arch strip has the arch, foam removing mechanism including the extrusion shaft with the rotatory extrusion shaft at both ends of inner wall, the inner tube stretches into the end of little awl, and the slip joint has the foam removing roller.

Preferably, the bottom discharge hole of the sterilizing tank is communicated with the top feed hole of the cooling tank and the bottom discharge hole of the cooling tank is communicated with the top feed hole of the collecting bin through a water pipe, and a water pump is arranged on the water pipe.

Preferably, one side of sterilization case bottom is provided with the inlet, the upper and lower both sides that the collection storehouse one end was kept away from to the sterilization case are connected with drain valve and discharge valve respectively, the upper surface of drainage board and last drainage board down is the inclined plane, the one end and the collection storehouse of drainage board down are fixed, the one end of going up the drainage board is fixed mutually with the sterilization case inner wall that is close to the drain valve, and down the drainage board keep away from between the inner wall of collection storehouse and the sterilization case and go up the drainage board and be close to the one end of collection storehouse and all offered the drain clearance, the inside of sterilization case forms S-shaped drain passageway through drainage board and last drainage board down.

Preferably, the inside of the driving shell is symmetrically connected with a transmission gear through a bearing, and the upper side and the lower side of the transmission gear are meshed with driving gears respectively fixed with the stirring shaft and the sleeve.

Preferably, the outer side of the stirring shaft is also fixed with a large conical fluted disc meshed with the small conical fluted disc.

Preferably, the extrusion shaft is integrally formed by a cylindrical shaft at two ends and a rectangular strip at the middle part, a U-shaped cavity which is in butt joint with the rectangular strip is formed in the plane at one side of the foam removing roller, and springs are connected between two sides of the rectangular strip and the U-shaped cavity.

Preferably, an inner cavity is formed in the edge of one side of the foam removing roller, an elastic foam absorbing cylinder and a pressing plate are connected to the inner portion of the inner cavity, the pin end of the pressing plate is butted with a rectangular strip of the extrusion shaft, and a guide groove is formed in the outer side, close to the circular arch strip, of the foam removing roller.

Preferably, a rotating paddle is connected between the two circular arch bars, and a synchronizing assembly is connected between one end of the rotating paddle extending into the waterproof cover and the extrusion shaft.

Preferably, two adjacent collecting plates installed with the bottom shell are arranged between the through holes, a raised line for scraping floating foam on the surface of the rotating paddle is arranged at one side edge of each collecting plate, a baffle for blocking the floating foam of the floating foam is arranged at the other side of each collecting plate, a circular arc-shaped slide way is arranged on the outer side of each bottom shell, a slag suction channel is connected between the outer side of each collecting plate and each slide way, a suction nozzle with an opening facing the slag suction channel is arranged in each slide way, a slag discharge pipe penetrating through the top cover and the tank cover is fixed at the top of each suction nozzle, and a suction pump connected with the slag discharge pipe is arranged on the outer side of each tank cover.

Preferably, a photoelectric liquid level sensor capable of resisting high temperature is arranged on the side surface of the sterilization tank.

Compared with the prior art, the full-automatic sterilizing equipment for the fermented juice has the beneficial effects that the full-automatic sterilizing equipment for the fermented juice is used for performing high-temperature sterilization in the sterilizing tank, then rapidly cooling in the cooling tank, finally performing ultraviolet sterilization by the sterilizing tank, scraping scum foam on the upper layer of the liquid surface of the fermented juice by the foam removing mechanism arranged in the sterilizing tank, and intermittently sucking and removing the scum foam collected in the collecting tray by the suction nozzle, so that the scum foam affecting the drinking taste can be rapidly removed when the fermented juice is stirred by high-temperature sterilization, and the drinking taste of the fermented juice can be improved after the full-automatic sterilization.

1. According to the full-automatic sterilization equipment for fermenting fruit juice, high-temperature sterilization is carried out in a sterilization tank, fruit juice is fed into a cooling tank to be rapidly cooled after sterilization is completed, then cooled fermented fruit juice is led into a collecting bin, so that the fermented fruit juice enters an S-shaped liquid guide channel of a sterilization box through a liquid inlet to complete full and continuous ultraviolet sterilization, when the fermented fruit juice in the sterilization box needs to be emptied, fruit juice on an upper drainage plate and a lower drainage plate can flow back along the S-shaped liquid guide channel and be rapidly discharged along the discharge valve by opening a discharge valve on the sterilization box, and meanwhile, the fruit juice can be repeatedly sterilized by irradiation of an ultraviolet lamp during backflow;

2. this a full-automatic sterilizing equipment for fermenting fruit juice makes drain pan at liquid level upside counter-rotation through the coaxial reversal effect of sleeve pipe and (mixing) shaft, when the (mixing) shaft is with the forward rotatory stirring of fermented fruit juice, the froth removal roller can produce the circumference rotation opposite with fruit juice stirring rotation direction, simultaneously drive the extrusion axle through the big awl tooth dish of forward rotation and reverse, make the froth removal roller still can realize the rotation round the central line of extrusion axle, two froth removal rollers of dislocation can drive the elastic froth suction tube and scrape the dross foam on fermented fruit juice liquid level upper layer this moment when circumference rotation and rotation, and utilize clamp plate compression elastic froth suction tube to spout the dross foam, simultaneously send into the collection dish with the dross foam rotation of spraying through rotating the oar in, afterwards suck through the inside air of suction nozzle through rotating the impeller, make the intermittent type of suction nozzle with the sediment passageway alignment of inhaling of different positions, thereby can be through suction nozzle and sediment passageway cooperation, can get rid of the dross in the froth collection dish of suction, and the fruit juice that can get fast dross removal when stirring and sterilizing, and the taste that can improve fermented fruit juice drinks.

Drawings

Fig. 1 is a schematic view of a first three-dimensional structure of a full-automatic sterilization apparatus according to the present invention;

Fig. 2 is a schematic view of a second perspective structure of the full-automatic sterilization apparatus according to the present invention;

FIG. 3 is a schematic view showing a three-dimensional cutaway structure of the sterilization case of the present invention;

FIG. 4 is a schematic perspective view of the inside of the sterilization tank according to the present invention;

FIG. 5 is a schematic view of a first perspective exploded view of the top housing, bottom housing, defoaming mechanism and collection tray of the present invention;

FIG. 6 is a schematic view of a second perspective exploded view of the top housing, bottom housing, defoaming mechanism and collection tray of the present invention;

FIG. 7 is a schematic view of a perspective structure of the connection of the bottom shell and the defoaming mechanism;

FIG. 8 is a schematic view of a perspective cutaway structure of the connection of the bottom shell and the defoaming mechanism of the present invention;

FIG. 9 is a schematic perspective view of a stirring shaft according to the present invention;

FIG. 10 is a schematic perspective view of the linkage of the stirring shaft, defoaming mechanism and collecting tray of the present invention;

FIG. 11 is a schematic view of a three-dimensional exploded view of the defoaming mechanism of the present invention;

FIG. 12 is a schematic side view in cross-section of two adjacent demisting rolls in the present invention;

Fig. 13 is a schematic side sectional view of an elastic foam cylinder of a foam removing roller of the present invention compressed by a pressing plate.

The sterilization tank, the heat conduction coil, the photoelectric liquid level sensor, the 103, the feeding tube, the 2, the cooling tank, the 201, the cooling coil, the 3, the sterilization tank, the 301, the collecting bin, the 302, the liquid inlet, the 303, the ultraviolet lamp, the 304, the lower drainage plate, the 305, the upper drainage plate, the 306, the liquid outlet valve, the 4, the water pump, the 5, the driving shell, the 501, the motor, the 502, the stirring shaft, the 503, the transmission gear, the 504, the driving gear, the 505, the sleeve, the 506, the large bevel gear, the 6, the top cover, the 7, the bottom shell, the 701, the water isolation cover, the 702, the through hole, the 703, the slideway, the 704, the circular arch bar, the 8, the foam removing mechanism, the 801, the extrusion shaft, the 802, the small bevel gear, the 803, the spring, the 804, the pressing plate, the 805, the foam removing roller, the 806, the inner cavity, the 807, the elastic foam absorbing cylinder, the 808, the guide groove, the 809, the synchronization component, the 810, the rotating paddle, the 9, the collecting disc, the 901, the residue absorbing pump, the 902, the suction nozzle 903 and the suction pump.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the invention provides a technical scheme that a full-automatic sterilizing device for fermenting fruit juice comprises a sterilizing tank 1, a cooling tank 2 and a sterilizing box 3, wherein the cooling tank 2 and the sterilizing box 3 are arranged at the outer side of the sterilizing tank 1, a heat conducting coil 101 for circulating a heat conducting medium is arranged in an interlayer of the sterilizing tank 1, a cooling coil 201 for circulating a cooling medium is surrounded on the circumferential side surface of the cooling tank 2,

A current collecting bin 301 is arranged on one side of the interior of the sterilization box 3, a lower current guiding plate 304 and an upper current guiding plate 305 are sequentially arranged in the sterilization box 3 from bottom to top, and ultraviolet lamps 303 which penetrate through the lower current guiding plate 304 and the upper current guiding plate 305 simultaneously are distributed in a rectangular array in the sterilization box 3;

The top of the sterilizing tank 1 is provided with a tank cover, the center of the top of the tank cover is provided with a motor 501, the edge of the top of the tank cover is butted with a charging pipe 103, the lower part of the motor 501 is provided with a driving shell 5 butted with the tank cover, the output end of the motor 501 is fixedly provided with a stirring shaft 502 penetrating through the tank cover and the driving shell 5, the outer side of the stirring shaft 502 is sleeved with a sleeve 505 movably connected with the driving shell 5, the top surface of the inner wall of the tank cover is provided with a top cover 6 movably sleeved with the sleeve 505, the lower part of the top cover 6 is rotatably connected with a bottom shell 7 with a conical bottom surface, the outer edge of the bottom of the top cover 6 is fixedly provided with a sealing strip butted with the outer edge of the top of the bottom shell 7, the side surface of the sterilizing tank 1 is provided with a high-temperature-resistant photoelectric liquid level sensor 102, when fermented juice is added into the sterilizing tank 1 through the charging pipe 103, the photoelectric liquid level sensor 102 on the side surface of the sterilizing tank 1 is detected, thereby the excessive juice level can be prevented from being directly contacted with the bottom surface of the bottom shell 7 due to the fact that the juice level is excessively high, and the foam removing roller 805 is prevented from absorbing excessive juice when being rotated, and the photoelectric liquid level sensor 102 adopts a model LT-1/a model, and the type of the photoelectric liquid level sensor is capable of being detected by the type of being a high-level sensor J, and a high-level sensor is capable of being used for detecting the juice level sensor;

An inner cylinder which is installed with the lower end of the sleeve 505 is fixed in the middle of the bottom shell 7, a water-proof cover 701 is also fixed on the outer side of the bottom shell 7 close to the inner cylinder, a through hole 702 is formed in the conical surface of the lower side of the bottom shell 7, a defoaming mechanism 8 for rotationally scraping liquid level scum is arranged in the through hole 702, round arch bars 704 are fixed at the two ends of the bottom shell 7 close to the upper side of the through hole 702, protrusions are integrally formed on the inner wall of the round arch bars 704, the defoaming mechanism 8 comprises a squeezing shaft 801 which rotates with the two ends of the inner wall of the through hole 702, a small conical tooth disc 802 is fixed at one end of the squeezing shaft 801 penetrating into the inner cylinder, and defoaming rollers 805 are connected to the two sides of the squeezing shaft 801 in a sliding mode;

The bottom discharge port of the sterilization tank 1 is communicated with the top feed port of the cooling tank 2 and the bottom discharge port of the cooling tank 2 is communicated with the top feed port of the current collecting bin 301 through a water pipe, a water pump 4 is arranged on the water pipe, a liquid inlet 302 is arranged on one side of the bottom of the sterilization tank 3, a liquid outlet valve 306 and a discharge valve are respectively connected to the upper side and the lower side of one end of the sterilization tank 3, which is far away from the current collecting bin 301, the upper surfaces of a lower current guiding plate 304 and an upper current guiding plate 305 are inclined surfaces, one end of the lower current guiding plate 304 is fixed with the current collecting bin 301, one end of the upper current guiding plate 305 is fixed with the inner wall of the sterilization tank 3, which is close to the liquid outlet valve 306, a liquid guiding gap is formed between one end of the lower current guiding plate 304, which is far away from the current collecting bin 301, and one end of the upper current guiding plate 305, which is close to the current collecting bin 301, respectively, and the inside of the sterilization tank 3 forms an S-shaped liquid guiding channel through the lower current guiding plate 304 and the upper current guiding plate 305.

During implementation, fermented juice is led into the sterilizing tank 1 from the feeding pipe 103 of the tank cover, then a heat conducting medium is led into the heat conducting coil 101, the sterilizing tank 1 is heated up rapidly to sterilize the fermented juice, after sterilization, the juice enters into the cooling tank 2 along the water pipe by starting the water pump 4 between the sterilizing tank 1 and the cooling tank 2, the fermented juice is cooled down rapidly in the cooling tank 2 by adding the cooling medium into the cooling coil 201 outside the cooling tank 2, the taste of the fermented juice is not affected, then the cooling tank 2 and the water pump 4 of the collecting bin 301 are started, the cooled fermented juice in the cooling tank 2 is led into the collecting bin 301 along the water pipe, at this time, the collecting bin 301 enters into the lower layer of the 3S-shaped guide liquid channel of the sterilizing tank through the liquid inlet 302 at the bottom, when the liquid level rises, the lower guide plate 304 and the upper guide plate 305 are subjected to S-shaped tracks, the fermented juice can be distributed in a rectangular manner by the ultraviolet lamp 303 when flowing in the S-shaped guide liquid channel, the fermented juice can be cooled down rapidly, the fermented juice can be discharged out of the upper guide plate 306 along the upper guide plate 3, and the upper guide plate 306 is fully discharged along the upper guide liquid guide plate 3, and the upper guide plate 306 is completely discharged along the upper guide plate 3, and the upper side of the sterilizing valve is required to be discharged.

Referring to fig. 8-13, a driving gear 503 is symmetrically connected to the inside of the driving shell 5 through bearings, and driving gears 504 respectively fixed to a stirring shaft 502 and a sleeve 505 are meshed with the upper and lower sides of the driving gear 503;

The extrusion shaft 801 is integrally formed by cylindrical shafts at two ends and rectangular strips in the middle, a U-shaped cavity which is in butt joint with the rectangular strips is formed in the plane of one side of the foam removal roller 805, springs 803 are connected between two sides of the rectangular strips and the U-shaped cavity, clamping blocks are arranged on two sides of the rectangular strips of the extrusion shaft 801, and clamping grooves which are in sliding fit with the clamping blocks are formed in the surfaces of the U-shaped cavities of the foam removal roller 805, so that the rectangular strips of the extrusion shaft 801 have guiding and deviation preventing effects when in sliding connection with the foam removal roller 805;

An inner cavity 806 is formed in the edge of one side plane of the foam removing roller 805, an elastic foam absorbing cylinder 807 and a pressing plate 804 are connected to the inner portion of the inner cavity 806, the pin end of the pressing plate 804 is in butt joint with a rectangular strip of the extrusion shaft 801, a guide groove 808 is formed in the outer side of the foam removing roller 805, which is close to the circular arch strip 704, the foam removing roller 807 is made of silica gel or rubber, the foam removing roller 807 is enabled to have elastic deformation and resetting effects, the foam removing roller 805 is of a semi-cylindrical structure, the arc angle of the guide groove 808 is smaller than 180 degrees, and therefore when the outer edge of the foam removing roller 805, which is close to the guide groove 808, is extruded with the protrusion of the inner wall of the circular arch strip 704, a U-shaped cavity of the foam removing roller 805 can slide with the extrusion shaft 801 and compress the spring 803.

In specific implementation, the stirring shaft 502 is driven to rotate positively by the starting motor 501, so that the stirring shaft 502 stirs the fermented juice in the sterilizing tank 1, the fermented juice in the sterilizing tank 1 is driven to heat up rapidly, the fermented juice can be prevented from precipitating, the driving gear 504 on the stirring shaft 502 drives the driving gear 504 on the sleeve 505 to engage and drive through the driving gear 503 in the driving shell 5, and the sleeve 505 and the stirring shaft 502 generate coaxial reverse rotation effect;

When the bottom shell 7 is reversed, the small conical fluted disc 802 at one end of the extrusion shaft 801 is driven to be meshed with the large conical fluted disc 506 on the stirring shaft 502, so that the extrusion shaft 801 rotates between the two foam removing rollers 805, the extrusion shaft 801 is in sliding fit with the clamping grooves of the foam removing rollers 805 through clamping blocks, the foam removing rollers 805 can be driven to rotate, and the adjacent two foam removing rollers 805 are connected with the extrusion shaft 801 by adopting the spring 803 to realize dislocation, so that the edge of one side of one foam removing roller 805 close to the elastic foam absorbing cylinder 807 is dislocated with the edge of the other foam removing roller 805, and the opening of the elastic foam absorbing cylinder 807 is exposed;

When the stirring shaft 502 rotates and stirs the fermented juice positively, the sleeve 505 drives the bottom shell 7 to rotate reversely, so that the foam removing roller 805 also generates circumferential rotation opposite to the stirring rotation direction of the juice, and simultaneously drives the extrusion shaft 801 to rotate reversely through the large conical fluted disc 506 rotating positively, so that the foam removing roller 805 also rotates around the central line of the extrusion shaft 801, and at the moment, the two foam removing rollers 805 which are staggered can drive the elastic foam absorbing cylinder 807 to scrape floating foam on the upper layer of the liquid level of the fermented juice during circumferential rotation and rotation; when one of the foam removing rollers 805 is close to the outer edge of the elastic foam absorbing cylinder 807 and the bulge on the inner wall of the circular arch strip 704 are mutually extruded, the bulge on the inner wall of the circular arch strip 704 can push the foam removing roller 805, so that the U-shaped cavity of the foam removing roller 805 can slide with the rectangular strip of the extrusion shaft 801, the pressing plate 804 can compress the elastic foam absorbing cylinder 807 in the inner cavity 806, and the elastic foam absorbing cylinder 807 can spray the scum foam collected in the inner cavity from the opening during compression;

When the foam removing roller 805 rotates to the outside, the guide groove 808 is abutted with the protrusion on the inner wall of the circular arch strip 704, the two foam removing rollers 805 can be driven to be misplaced again by the reset of the spring 803, so that the foam removing roller 805 with the opening of the elastic foam absorbing cylinder 807 facing downwards is convenient to scrape the floating foam of the floating foam.

Referring to fig. 1, fig. 2, fig. 4-fig. 8 and fig. 10-fig. 13, a rotating paddle 810 is connected between two circular arch bars 704, the paddles of the rotating paddle 810 are made of silica gel materials, so that the paddles of the rotating paddle 810 have the effects of elastic deformation and resetting, a synchronization assembly 809 is connected between one end of the rotating paddle 810 extending into the inside of the waterproof cover 701 and the extrusion shaft 801, the synchronization assembly 809 adopts synchronous belt and synchronous wheel transmission or chain and chain wheel transmission, the rotating paddle 810 and the extrusion shaft 801 are driven to rotate in the same direction by the synchronization assembly 809, a collecting disc 9 mounted with a bottom shell 7 is arranged between two adjacent through holes 702, a baffle plate for blocking floating slag foam on one side edge of the collecting disc 9 is arranged on the other side of the collecting disc 9, a circular arc-shaped slide 703 is arranged on the outer side of the bottom shell 7, a slag suction channel 901 is connected between the outer side of the collecting disc 9 and the slide 703, an opening of the slide 703 faces the suction channel 901, the top of the suction nozzle 902 is fixed with a slag suction pipe 901 penetrating through the slag cover 6 and the tank cover, and a pump is mounted on the outer side of the tank cover.

In particular, when the pressure plate 804 compresses the elastic foam absorbing cylinder 807, the scum foam containing a small amount of juice is ejected from the opening of the elastic foam absorbing cylinder 807 and is ejected along the outer edge of the other foam removing roller 805, meanwhile, the pressing shaft 801 drives the rotating paddle 810 to rotate through the synchronizing component 809, so that the rotating paddle 810 can rotate and send the ejected scum foam into the collecting tray 9, as the edge of the collecting tray 9 close to the rotating paddle 810 is provided with the convex strips for scraping the scum foam on the surface of the rotating paddle 810, the rotating paddle 810 can not leave excessive scum foam in one circle, when the scum foam enters the collecting tray 9, the rotating bottom shell 7 and the collecting tray 9 can centrifugally flick the scum foam, and the flick scum foam is blocked by the baffle plate on one side of the collecting tray 9, meanwhile, the suction pump 903 is started to suck the air inside the suction nozzle 902, and the outside slide channels 703 and 902 are driven to slide relatively, so that the intermittent and different positions of the suction channels 901 are aligned, and the scum foam can be cleaned in the collecting tray 9 and the collecting tray 8 are opened through the suction nozzle 7 and the suction channel 1, and the cleaning mechanism 1 can be opened in the collecting tray 8, and the cleaning mechanism is required to be opened in the collecting tray 8.

In summary, the fermented juice is introduced into the sterilizing tank 1 to perform high-temperature sterilization, when the stirring sterilization is performed, the scum froth in the fermented juice is scraped by the froth removing mechanism 8, after the sterilization is completed, the water pump 4 between the sterilizing tank 1 and the cooling tank 2 is started, so that the juice enters into the cooling tank 2 to be rapidly cooled, the taste of the fermented juice is not affected, and then the cooled fermented juice is introduced into the sterilizing tank 3 to perform ultraviolet sterilization, so that the device can perform full-automatic sterilization on the fermented juice when in operation, and the content which is not described in detail in the specification belongs to the prior art known to the expert in the field.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. A fully automatic sterilizing device for fermenting fruit juice, comprising a sterilizing tank (1), a cooling tank (2) and a sterilizing box (3), wherein the cooling tank (2) and the sterilizing box (3) are arranged outside the sterilizing tank (1), a heat conducting coil (101) for circulating a heat conducting medium is installed in the interlayer of the sterilizing tank (1), and a cooling coil (201) for circulating a cooling medium is surrounded on the circumferential side surface of the cooling tank (2), characterized in that: A flow collecting bin (301) is installed on one side of the interior of the sterilization box (3); a lower flow guide plate (304) and an upper flow guide plate (305) are sequentially arranged inside the sterilization box (3) from bottom to top; ultraviolet lamps (303) are distributed in a rectangular array inside the sterilization box (3) and penetrate the lower flow guide plate (304) and the upper flow guide plate (305); The top of the sterilizing tank (1) is provided with a tank cover, and a motor (501) is installed at the center of the top of the tank cover, and a feeding pipe (103) is docked at the top edge of the tank cover, a driving shell (5) docked with the tank cover is arranged below the motor (501), a stirring shaft (502) penetrating the tank cover and the driving shell (5) is fixed to the output end of the motor (501), a sleeve (505) movably connected to the driving shell (5) is sleeved on the outer side of the stirring shaft (502), a top cover (6) movably sleeved with the sleeve (505) is installed on the top surface of the inner wall of the tank cover, a bottom shell (7) with a conical bottom surface is rotatably connected to the bottom of the top cover (6), and a screw thread (506) is fixed to the middle of the bottom shell (7) so as to be connected to the lower end of the sleeve (505). The inner cylinder is installed with the bottom shell (7), and a water-proof cover (701) is fixed on the outer side of the bottom shell (7) close to the inner cylinder. A through hole (702) is opened on the lower conical surface of the bottom shell (7). A defoaming mechanism (8) for rotating and scraping scum on the liquid surface is arranged inside the through hole (702). Circular arch strips (704) are fixed at both ends of the upper side of the bottom shell (7) close to the through hole (702), and the inner wall of the circular arch strip (704) is integrally formed with a protrusion. The defoaming mechanism (8) includes an extrusion shaft (801) that rotates with both ends of the inner wall of the through hole (702). A small conical toothed disc (802) is fixed on one end of the extrusion shaft (801) that extends through the inner cylinder, and defoaming rollers (805) are slidably connected to the two sides of the extrusion shaft (801). 2. A fully automatic sterilization device for fermented fruit juice according to claim 1, characterized in that: the bottom discharge port of the sterilization tank (1) and the top feed port of the cooling tank (2) as well as the bottom discharge port of the cooling tank (2) and the top feed port of the collecting bin (301) are connected by a water pipe, and a water pump (4) is installed on the water pipe. 3. A fully automatic sterilizing device for fermenting fruit juice according to claim 1, characterized in that: a liquid inlet (302) is provided on one side of the bottom of the sterilizing box (3), a liquid outlet valve (306) and a discharge valve are connected to the upper and lower sides of one end of the sterilizing box (3) away from the collecting bin (301), respectively, the upper surfaces of the lower guide plate (304) and the upper guide plate (305) are both inclined surfaces, one end of the lower guide plate (304) is connected to the collecting bin ( The upper drain plate (305) is fixed to the inner wall of the sterilization box (3) near the liquid outlet valve (306), and a liquid guide gap is provided between the end of the lower drain plate (304) away from the collecting bin (301) and the inner wall of the sterilization box (3), as well as the end of the upper drain plate (305) near the collecting bin (301), so that an S-shaped liquid guide channel is formed inside the sterilization box (3) through the lower drain plate (304) and the upper drain plate (305). 4. The fully automatic sterilizing device for fermented fruit juice according to claim 1, characterized in that: the interior of the driving housing (5) is symmetrically connected to a transmission gear (503) through a bearing, and the upper and lower sides of the transmission gear (503) are meshed with driving gears (504) respectively fixed to the stirring shaft (502) and the sleeve (505). 5. The fully automatic sterilizing device for fermented fruit juice according to claim 4, characterized in that a large conical toothed disc (506) meshing with the small conical toothed disc (802) is fixed to the outer side of the stirring shaft (502). 6. A fully automatic sterilizing device for fermented fruit juice according to claim 1, characterized in that: the extrusion shaft (801) is composed of cylindrical shafts at both ends and a rectangular strip in the middle, and a U-shaped cavity abutting against the rectangular strip is opened on the plane of one side of the defoaming roller (805), and springs (803) are connected between the two sides of the rectangular strip and the U-shaped cavity. 7. A fully automatic sterilizing device for fermented fruit juice according to claim 6, characterized in that: an inner cavity (806) is provided on the edge of a plane on one side of the defoaming roller (805), an elastic defoaming tube (807) and a pressing plate (804) are connected inside the inner cavity (806), a pin end of the pressing plate (804) is connected to the rectangular strip of the extrusion shaft (801), and a guide groove (808) is provided on the outer side of the defoaming roller (805) close to the arch strip (704). 8. A fully automatic sterilization device for fermented fruit juice according to claim 7, characterized in that: a rotating paddle (810) is connected between the two circular arch bars (704), and a synchronization component (809) is connected between the end of the rotating paddle (810) extending into the interior of the water-proof cover (701) and the extrusion shaft (801). 9. A fully automatic sterilizing device for fermented fruit juice according to claim 8, characterized in that: a collecting tray (9) mounted on the bottom shell (7) is arranged between two adjacent through holes (702), a convex strip for scraping off scum and foam on the surface of the rotating paddle (810) is arranged on one side edge of the collecting tray (9), a baffle for blocking scum and foam is arranged on the other side of the collecting tray (9), an arc-shaped slideway (703) is arranged on the outer side of the bottom shell (7), a slag suction channel (901) is connected between the outer side of the collecting tray (9) and the slideway (703), a suction nozzle (902) with an opening facing the slag suction channel (901) is arranged inside the slideway (703), a slag discharge pipe penetrating the top cover (6) and the tank cover is fixed on the top of the suction nozzle (902), and a suction pump (903) connected to the slag discharge pipe is installed on the outer side of the tank cover. 10. The fully automatic sterilization equipment for fermented fruit juice according to claim 1, characterized in that a photoelectric liquid level sensor (102) capable of withstanding high temperatures is installed on the side of the sterilization tank (1).