CN112251336B - Production and preparation process of saccharomycetes - Google Patents

Abstract

The invention relates to a yeast producing and preparing process, which uses a yeast producing and preparing device, comprising a supernatant mechanism and a bottom mechanism, wherein the lower end of the supernatant mechanism is arranged on the existing working ground, the bottom mechanism is arranged right under the supernatant mechanism, and the lower end of the bottom mechanism is arranged on the existing working ground, the invention adopts the design concept of a double-filtering structure to produce and prepare the yeast, the provided supernatant mechanism and the bottom mechanism can be matched to carry out double-filtering treatment on milk, thereby greatly improving the filtering effect of yeast emulsion to reduce the influence on the subsequent use and reprocessing of the yeast, simultaneously the bottom mechanism can synchronously play the role of synchronous material conveying, and the emulsion and the supernatant mechanism can be in a motion state, which can increase the floating amount of light impurities on the liquid level, thereby improving the filtering and removing effect of the light impurities.

Description

Production and preparation process of saccharomycetes

Technical Field

The invention relates to the technical field of yeast preparation, in particular to a yeast production and preparation process.

Background

Yeast is a common eukaryotic receptor cell in gene cloning experiments, is as convenient as culturing yeast and Escherichia coli, generally refers to various unicellular fungi capable of fermenting saccharides, is relatively early applied by human beings and is also the most widely applied microorganism, and people often utilize the fermentation effect of the yeast to manufacture various leavened foods and wine brewing. The yeast is live yeast cultured by pure culture bacteria in factories, the yeast is compressed yeast containing about 70 percent of water and dried yeast containing about 10 percent of water, the yeast autolysate can be used as an additive of meat, jam, soup, cheese, bread food, vegetables and seasonings, and the yeast can be prepared into yeast slices such as yeast tablets for treating dyspepsia caused by unreasonable diet, the process of preparing the natural yeast can be divided into two procedures of culturing yeast stock solution and feeding, replanting and renewing, but the following problems can occur in the process of producing and preparing the yeast:

1. the filtering degree of the saccharomycete emulsion is low by adopting a single filtering structure or a simple filtering structure aiming at the filtering of the saccharomycete emulsion, and the saccharomycete emulsion is in a unidirectional flowing state in the filtering process, so that light impurities contained in the saccharomycete emulsion are not easy to separate, and the integral filtering effect is poor;

2. the separation degree between liquid and the yeast in the yeast emulsion is lower, and the phenomenon remains in emulsion and the yeast that separates all easily filtration surface appearance, and filtration adopts integral mounting means more simultaneously, and this mode is unfavorable for the dismantlement clearance to itself.

Disclosure of Invention

Technical scheme (I)

In order to achieve the above object, the present invention adopts the following technical scheme, wherein a yeast production and preparation process uses a yeast production and preparation device, the yeast production and preparation device comprises a supernatant mechanism and a subnatant mechanism, and the specific preparation process when the yeast production and preparation device is used for producing and preparing yeast is as follows:

s1, separating impurities: after yeast emulsion is poured into the processing basket manually, standing for a certain time to enable light impurities to float on the surface, and then driving the sieve plate to press the yeast emulsion downwards through the electric sliding block, wherein the light impurities float to the upper end surface of the sieve plate from the periphery;

s2, impurity separation: after two thirds of the sieve plate is immersed in the emulsion, the sieve plate is driven to move upwards slowly by an electric sliding block, the sieve plate carries light impurities to move synchronously, the impurities are separated from the emulsion, and the emulsion is primarily filtered;

s3, secondary filtration: the emulsion flows downwards along the material conveying plate and simultaneously the motor works, the first rotating shaft and the second rotating shaft synchronously rotate along with the motor under the action of the first belt and the second belt, then the sieve cloth synchronously rotates under the driving of the first rotating shaft and the second rotating shaft, the sieve cloth in a moving state carries out secondary filtration treatment on the emulsion, and liquid passing through the sieve cloth freely flows into the water receiving drawer;

s4, collection after filtration: the yeast filtered by the moving screen cloth is conveyed rightwards and falls into the receiving vessel.

The lower end of the upper cleaning mechanism is arranged on the existing working ground, the lower cleaning mechanism is arranged right below the upper cleaning mechanism, and the lower end of the lower cleaning mechanism is arranged on the existing working ground.

The cleaning mechanism comprises a long vertical frame, a connecting shaft, a connecting plate, a processing basket, an electric slider, a connecting piece, a sieve plate and an electric control door, wherein the long vertical frame is symmetrically arranged on the existing working ground front and back, the connecting shaft is arranged between the upper ends of the long vertical frame, the connecting plate is symmetrically arranged at the front end and the rear end of the connecting shaft and is positioned between the long vertical frames, the processing basket is arranged between the lower ends of the connecting plates, the electric slider is symmetrically arranged at the middle parts of the left end surface and the right end surface of the upper end surface of the processing basket in a sliding fit mode, the connecting piece is arranged at the inner side end of the electric slider, the sieve plate is arranged between the lower ends of the connecting piece, a gap is formed between the side end surface of the sieve plate and the inner side end surface of the processing basket, a discharging through groove is formed in the middle, standing for a certain time, the light sundries float on the surface, then driving the sieve plate to press the yeast emulsion downwards through the electric slider, the light sundries float to the upper end surface of the sieve plate from all around, after the two thirds of the sieve plate is immersed into the emulsion, then driving the sieve plate to move upwards and slowly through the electric slider, the sieve plate carries the light sundries to move synchronously, so far, the emulsion finishes primary filtration treatment, after the sieve plate is completely separated from the emulsion, the electric control door moves backwards to enable the discharging through groove to be completely opened, the emulsion after the primary filtration flows to the downward cleaning mechanism, and then the emulsion is subjected to secondary filtration treatment through the downward cleaning mechanism.

The lower cleaning mechanism comprises a material conveying plate, a vertical plate, a first rotating shaft, a middle vertical frame, a short vertical frame, a second rotating shaft, a sieve cloth, a first belt, a second belt, a motor, a machine base, a water receiving drawer and a material receiving vessel, wherein the material conveying plate is arranged at the right lower part of the processing basket, the left end of the material conveying plate is positioned under the discharging through groove, the material conveying plate is of a left-inclined structure, the vertical plate is symmetrically arranged at the front and back of the right end of the material conveying plate, the middle vertical frame is symmetrically arranged at the left and right of the outer side end face of the vertical plate, the lower end of the middle vertical frame is connected with the existing working ground, the first rotating shaft is arranged between the front and back opposite upper ends of the middle vertical frame through a bearing, the first rotating shaft is positioned under the vertical plate, the short vertical frame is arranged at the right side of the long vertical frame at the rightmost end of the vertical plate, the lower end of the short vertical frame is arranged on the existing working ground, the second, the sieve cloth is attached to the outer surface of a first rotating shaft and the outer surface of a second rotating shaft according to an equilateral triangle structure, the sieve cloth is connected with the first rotating shaft and the second rotating shaft in a sliding fit mode, the sieve cloth is positioned between vertical plates, first belts are symmetrically arranged on the front side and the rear side of each vertical plate, the first rotating shaft is connected with the second rotating shaft through the first belts, the first belts are positioned on the outer sides of the long vertical frames, the second belts are connected between the first rotating shaft and the second rotating shaft at the right ends of the first belts, the front ends of the first rotating shafts at the left ends of the first belts are connected with the output shaft ends of the motor, a base is installed at the lower end of the motor, the rear end of the base is connected with the front end face of the long vertical frame at the front end of the first rotating shaft, a water receiving drawer is installed between the inner side faces of the long vertical frames in a sliding fit mode, the pulling direction of the water receiving drawer is from back to front, the water receiving drawer is positioned between the first rotating shafts and is positioned below the sieve cloth, be provided with the receiving vessel between the short grudging post, the lower extreme of receiving vessel passes through the sliding fit mode and has linked to each other with existing work ground, the back is opened to ejection of compact logical groove, the motor work when the emulsion flows down along defeated flitch, a pivot and No. two pivots rotate along with the motor is synchronous under the effect of a belt and No. two belts, then the screen cloth is synchronous rotary motion under the drive of a pivot and No. two pivots, motion state's screen cloth carries out secondary filter to the emulsion and handles, can carry the yeast right simultaneously and make it fall into in the receiving vessel, the liquid that passes the screen cloth freely flows into in the water receiving steamer tray, after the liquid storage capacity in the area water receiving steamer tray reaches the certain degree, take the water receiving steamer tray backward through the manual mode and handle the liquid in it.

As a preferred technical scheme of the invention, the inner side of a middle vertical frame at the right end of a first belt is provided with an incomplete gear, the incomplete gear is sleeved on a first rotating shaft and is positioned at the outer side of a screen cloth, a bottom plate is arranged at the front and the back under the incomplete gear, teeth are equidistantly arranged on the upper end surface of the bottom plate from left to right, the teeth are meshed with the incomplete gear, the middle part of the outer end surface of the bottom plate is provided with a lug which is connected with a block groove in a sliding fit manner, the block groove is arranged on the inner side end surface of the middle vertical frame at the right outer side of the bottom plate, a spring is connected between the left end surface of the lug and the inner left side wall of the block groove, the middle part of the lower end of the bottom plate is provided with lug plates, beating plates are hinged with each other through a second pin shaft, the middle upper ends of the beating plates are rotatably connected with shaft rods, the shaft rods are, the right end of the beating plate is in an inclined state, the inclination angle is the same as the inclined structure between the first rotating shaft and the second rotating shaft at the right end of the first belt, the two first rotating shafts synchronously rotate along with the motor, the incomplete gear synchronously rotates along with the first rotating shaft connected with the incomplete gear, the bottom plate does left-right reciprocating horizontal motion due to the matching between the incomplete gear and the teeth, the convex block at the outer end of the bottom plate synchronously presses the spring in the leftward motion process of the bottom plate, the beating plate simultaneously rotates anticlockwise around the shaft rod under the driving of the bottom plate, the bottom plate resets rightwards under the spring resilience effect in the non-meshing process of the incomplete gear and the teeth, the beating plate synchronously rotates clockwise around the shaft rod, and in the whole process, the beating plate can repeatedly beat sieve cloth above the material vessel to generate large-amplitude vibration so as to achieve the purpose of reducing the residual quantity of saccharomycetes on the surface of the sieve cloth, thereby reducing the waste rate of the yeast and maintaining the filtering effect of the sieving cloth.

As a preferred technical scheme of the invention, the connecting plate is rotatably connected with the connecting shaft, the connecting plate is arranged on the right end surface of the upper end of the connecting plate and is of a left-upward inclined structure, a long pin shaft is hinged between the right ends of the connecting plate, a rotating plate is hinged in the middle of the long pin shaft, a first pin shaft is hinged on the right end of the rotating plate, vertical frames are symmetrically arranged at the front end and the rear end of the first pin shaft, the lower ends of the vertical frames are arranged on the existing working ground, the vertical frames are positioned on the outer sides of short vertical frames, a supporting plate is arranged on the upper end of the right end surface of each vertical frame, a sleeve block is arranged between the right ends of the supporting plates, an electric push rod is sleeved in the middle of the sleeve block, the left end surface of the electric push rod is connected with the upper end surface of the rotating plate, yeast emulsion is poured into the processing basket along the gap between the sieve plate and the, the rotating plate drives the connecting plate to synchronously move through the long pin shaft, the connecting plate is driven by the connecting plate to synchronously and reciprocally rotate around the connecting shaft, the connecting plate drives the treatment basket to synchronously move, the emulsion and the inner side wall of the treatment basket are impacted by the output value and are in a large-amplitude stirring state, impurities at the bottom layer of the emulsion are raised, after the movement is kept for a period of time, the electric push rod stops moving, then the emulsion is kept still for a certain time to enable the emulsion to obviously stratify, the floating amount of the light impurities on the liquid level can be increased by matching between the rotating plate and the connecting plate, namely, the layering significance of the emulsion is improved, and further the filtering and removing effect on the light impurities can be realized.

As a preferred technical scheme of the invention, the connecting piece comprises a round rod and an inverted L-shaped plate, the lower end face of the round rod is connected with the upper end face of the sieve plate, the inverted L-shaped plate is mounted on the upper end face of the round rod, the outer end of the inverted L-shaped plate is connected with a plate groove in a sliding fit mode, the plate groove is formed in the middle of the upper end face of the electric sliding block, and the movable connection mode between the inverted L-shaped plate and the electric sliding block is convenient for operators to integrally lift off the sieve plate to sufficiently clean the sieve plate so as to maintain the filtering function of the sieve plate and reduce the probability of pollution to subsequent emulsion.

According to a preferable technical scheme, a rectangular groove is formed in the middle of the lower end of the inner left side wall of the treatment basket, an inverted V-shaped plate is installed in the rectangular groove in a sliding fit mode, the lower end face of the inverted V-shaped plate is connected with the inner bottom wall of the treatment basket in a sliding fit mode, a pull rod is installed in the middle of the lower end of the inverted V-shaped plate and connected with a rod groove in a sliding fit mode, the rod groove is formed in the lower end of the treatment basket, the right end of the pull rod groove is communicated with the outside, after the emulsion in the treatment basket is completely used, the pull rod is pulled rightwards in a manual mode and drives the inverted V-shaped plate to move synchronously, the inverted V-shaped plate synchronously scrapes residual emulsion on the inner bottom wall of the treatment basket, the relative cleanness degree of the inner environment of the treatment basket is further maintained, and meanwhile pollution of the.

As a preferred technical scheme of the invention, the front inner side wall and the rear inner side wall of the water receiving drawer are symmetrically provided with the object placing blocks, the object placing blocks are arranged at equal intervals from left to right, the middle part of the upper end surface of the object placing blocks is of an inwards concave circular structure, the rod cores are arranged between the middle parts of the upper end surfaces of the front object placing blocks and the rear object placing blocks which are opposite to each other in a sliding fit mode, the middle parts of the rod cores are clamped and sleeved with the water absorbing sponge in a sliding fit mode, the upper end surface of the water absorbing sponge is attached to the lower end surface of the sieve cloth above the water receiving drawer, the water absorbing sponge can play a role in quickly assisting in absorbing and removing liquid in emulsion, the removal amount of the liquid in the working range of the water receiving drawer is increased so as to prevent the liquid from flowing into the water receiving dish, and the movable connection mode between the rod cores and the object placing.

As a preferred technical scheme of the invention, clamping blocks are symmetrically arranged at the front and back of the right end of the material conveying plate, each clamping block is of an inverted L-shaped structure, the lower end of each clamping block is connected with the upper end of the corresponding vertical plate in a sliding fit mode, after emulsion in the treatment basket is completely treated, the pull rod is pulled rightwards in a manual mode, the pull rod drives the inverted V-shaped plates to move synchronously, the clamping blocks are pulled up in a manual mode, the material conveying plate is made to be in a horizontal state, and at the moment, the material conveying plate can take bearing effect on the emulsion scraped by the inverted V-shaped plates.

(II) advantageous effects

1. According to the yeast production and preparation process, the yeast production and preparation are carried out by adopting the design concept of a double-filtering structure, the provided supernatant mechanism and the lower supernatant mechanism are matched to carry out double-filtering treatment on the milk, so that the filtering effect of the yeast emulsion is greatly improved to reduce the influence on the use and retreatment of the subsequent yeast, meanwhile, the lower supernatant mechanism can synchronously play a role in synchronous material conveying, and meanwhile, the emulsion and the supernatant mechanism can be in a motion state, so that the floating amount of light impurities on the liquid surface can be increased, and the filtering and removing effect on the light impurities is further improved;

2. the beating plate can repeatedly beat the sieve cloth above the material vessel to enable the sieve cloth to generate vibration with a larger amplitude so as to achieve the purpose of reducing the residual quantity of saccharomycetes on the surface of the sieve cloth, further reduce the waste rate of the saccharomycetes and keep the filtering effect of the sieve cloth;

3. the water absorption sponge can play a role in quickly assisting in absorbing and removing liquid in emulsion, so that the removal amount of the liquid in the working range of the water receiving drawer is increased to prevent the liquid from flowing into the material receiving dish, and the movable connection mode between the rod core and the material placing block can facilitate an operator to replace or wring the water absorption sponge;

4. the matching between the pull rod and the inverted V-shaped plate can carry out scraping treatment on the residual emulsion on the inner bottom wall of the treatment basket, so that the relative cleanness degree of the internal environment of the treatment basket is kept, and meanwhile, the pollution of the residual emulsion on the emulsion filtered in the next period is avoided;

5. the movable connection mode between the inverted L-shaped plate and the electric sliding block is convenient for operators to integrally lift off the sieve plate and fully clean the sieve plate so as to maintain the filtering function of the sieve plate and reduce the probability of pollution to subsequent emulsion.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a first cross-sectional view of the present invention;

FIG. 5 is a second cross-sectional view of the present invention;

FIG. 6 is a third cross-sectional view of the present invention;

FIG. 7 is an enlarged view of the invention in section X of FIG. 4;

FIG. 8 is an enlarged view of the Y-direction portion of FIG. 4 in accordance with the present invention;

FIG. 9 is an enlarged view of the invention in the Z-direction of FIG. 4;

FIG. 10 is an enlarged view of the M-direction portion of FIG. 5 in accordance with the present invention;

FIG. 11 is an enlarged view of the invention taken along the line N of FIG. 6.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 11, a yeast production and preparation process uses a yeast production and preparation device, which includes a supernatant mechanism 1 and a supernatant mechanism 2, and the specific preparation process when the yeast production and preparation device is used for yeast production and preparation is as follows:

s1, separating impurities: after the yeast emulsion is poured into the processing basket 13 manually, standing for a certain time to enable light impurities to float on the surface, and then in the process of driving the sieve plate 16 to press the yeast emulsion downwards through the electric slide block 14, the light impurities float to the upper end face of the sieve plate 16 from the periphery;

s2, impurity separation: after two thirds of the sieve plate 16 is immersed in the emulsion, the sieve plate 16 is driven to move upwards slowly by the electric slide block 14, the sieve plate 16 carries light impurities to move synchronously, the impurities are separated from the emulsion, and the emulsion is primarily filtered;

s3, secondary filtration: the emulsion flows downwards along the delivery board 20 and simultaneously the motor 29 works, the first rotating shaft 22 and the second rotating shaft 25 synchronously rotate along with the motor 29 under the action of the first belt 27 and the second belt 28, then the sieve cloth 26 synchronously rotates under the driving of the first rotating shaft 22 and the second rotating shaft 25, the sieve cloth 26 in a moving state carries out secondary filtration treatment on the emulsion, and the liquid passing through the sieve cloth 26 freely flows into the water receiving drawer 291;

s4, collection after filtration: the yeast filtered by the moving screen cloth 26 is transported to the right and falls into the receiving container 292.

The lower end of the upper cleaning mechanism 1 is arranged on the existing working ground, the lower cleaning mechanism 2 is arranged right under the upper cleaning mechanism 1, and the lower end of the lower cleaning mechanism 2 is arranged on the existing working ground.

The cleaning mechanism 1 comprises a long vertical frame 10, a connecting shaft 11, a connecting plate 12, a processing basket 13, electric sliders 14, connecting pieces 15, a sieve plate 16 and an electric control door 17, wherein the long vertical frame 10 is symmetrically arranged on the existing working ground in front and back, the connecting shaft 11 is arranged between the upper ends of the long vertical frame 10, the connecting plates 12 are symmetrically arranged at the front end and the rear end of the connecting shaft 11, the connecting plates 12 are positioned between the long vertical frames 10, the processing basket 13 is arranged between the lower ends of the connecting plates 12, the electric sliders 14 are symmetrically arranged in the middle of the left end and the right end of the upper end face of the processing basket 13 in a sliding fit mode, the connecting piece 15 is arranged at the inner side end of the electric slider 14, the sieve plate 16 is arranged between the lower ends of the connecting pieces 15, a gap exists between the side end face of the sieve plate 16 and the inner side end face of the processing basket 13, the yeast emulsion is poured into the processing basket 13 along the gap between the sieve plate 16 and the processing basket 13 by a manual mode, after the yeast emulsion is completely poured, the yeast emulsion is kept still for a certain time, the yeast emulsion is in a layered state, light impurities float on the liquid surface, then the sieve plate 16 is driven to move downwards by the electric slider 14, in the process that the sieve plate 16 presses the yeast emulsion downwards, the liquid is enabled to be discharged to the periphery and gather towards the center, the light impurities float to the upper end surface of the sieve plate 16, after the sieve plate 16 is immersed into the emulsion in two thirds, the sieve plate 16 is driven to move upwards and slowly by the electric slider 14, the sieve plate 16 carries the light impurities to move synchronously, the emulsion finishes primary filtering treatment, after the sieve plate 16 is completely separated from the emulsion, the electric control door 17 moves backwards to enable the discharge through groove to be completely opened, and the emulsion after primary filtering flows to the downward cleaning, then the emulsion is subjected to secondary filtration treatment by a lower cleaning mechanism 2.

The connecting plate 12 is rotatably connected with the connecting shaft 11, the connecting plate 120 is arranged on the right end face of the upper end of the connecting plate 12, the connecting plate 120 is of a left-inclined structure, a long pin shaft is hinged between the right ends of the connecting plate 120, a rotating plate 121 is hinged in the middle of the long pin shaft, a first pin shaft is hinged at the right end of the rotating plate 121, vertical frames 122 are symmetrically arranged at the front end and the rear end of the first pin shaft, the lower end of each vertical frame 122 is arranged on the existing working ground, each vertical frame 122 is positioned on the outer side of the corresponding short vertical frame 24, a supporting plate 123 is arranged at the upper end of the right end face of each vertical frame 122, a sleeve block 124 is arranged between the right ends of the supporting plates 123, an electric push rod 125 is sleeved in the middle of the sleeve block 124, the left end face of the electric push rod 125 is connected with the upper end face of the rotating plate 121, yeast emulsion is poured into the processing basket 13 along the gap between the sieve plate, the rotating plate 121 drives the connecting plate 120 to move synchronously through the long pin shaft, the connecting plate 12 is driven by the connecting plate 120 to synchronously and reciprocally rotate around the connecting shaft 11, the connecting plate 12 drives the treatment basket 13 to move synchronously, the emulsion and the inner side wall of the treatment basket 13 are impacted by the output value and are in a large-amplitude stirring state, impurities at the bottom layer of the emulsion are raised, after the movement is kept for a period of time, the electric push rod 125 stops moving, then the emulsion is kept still for a certain time so as to have an obvious layering phenomenon, the floating amount of the light impurities on the liquid level can be increased through the cooperation between the electric push rod 125, the rotating plate 121, the connecting plate 120 and the connecting plate 12, the layering degree of the emulsion is improved, and the filtering and removing effects of the light.

Connecting piece 15 include round bar 150 and fall L template 151, the lower terminal surface of round bar 150 links to each other with the up end of sieve 16, fall L template 151 is installed to the up end of round bar 150, the outside end of falling L template 151 links to each other with the board recess through sliding fit mode, the board recess is seted up at the up end middle part of electronic slider 14, the swing joint mode between fall L template 151 and the electronic slider 14 is convenient for operating personnel whole to lift sieve 16 off and carry out sufficient clearance to it to keep the filtering capability of sieve 16 and reduce the probability that causes the pollution to follow-up emulsion.

The lower end middle part of the inner left side wall of the treatment basket 13 is provided with a rectangular groove, an inverted V plate 130 is installed in the rectangular groove in a sliding fit mode, the lower end face of the inverted V plate 130 is connected with the inner bottom wall of the treatment basket 13 in a sliding fit mode, a pull rod 131 is installed in the middle of the lower end of the inverted V plate 130, the pull rod 131 is connected with the rod groove in a sliding fit mode, the rod groove is formed in the lower end of the treatment basket 13, the right end of the pull rod 131 groove is communicated with the outside, after the emulsion in the treatment basket 13 is completely used, the pull rod 131 is pulled rightwards in a manual mode, the pull rod 131 drives the inverted V plate 130 to move synchronously, the inverted V plate 130 synchronously scrapes off the inner bottom wall of the treatment basket 13 to treat the residual emulsion, so that the relative cleanness degree of the internal environment of the treatment basket 13 is kept, and meanwhile.

The lower cleaning mechanism 2 comprises a material conveying plate 20, vertical plates 21, a first rotating shaft 22, a middle vertical frame 23, a short vertical frame 24, a second rotating shaft 25, a screen cloth 26, a first belt 27, a second belt 28, a motor 29, a base 290, a water receiving drawer 291 and a material receiving dish 292, wherein the material conveying plate 20 is arranged at the lower right part of the processing basket 13, the left end of the material conveying plate 20 is positioned under the material discharging through groove, the material conveying plate 20 is in a left-inclined structure, the vertical plates 21 are symmetrically arranged at the front and back of the right end of the material conveying plate 20, the middle vertical frame 23 is symmetrically arranged at the left and right of the outer side end face of each vertical plate 21, the lower end of the middle vertical frame 23 is connected with the existing working ground, the first rotating shaft 22 is arranged between the upper ends of the front and back opposite middle vertical frames 23 through a bearing, the first rotating shaft 22 is positioned under the vertical plate 21, the short vertical frame 24 is arranged at the right side of the long vertical frame 10 at the right, a second rotating shaft 25 is arranged between the upper ends of the short vertical frames 24 through a bearing, an equilateral triangle structure is formed between the first rotating shaft 22 and the second rotating shaft 25, a screen cloth 26 is attached to the outer surface of the first rotating shaft 22 and the outer surface of the second rotating shaft 25 according to the equilateral triangle structure, the screen cloth 26 is connected with the first rotating shaft 22 and the second rotating shaft 25 in a sliding fit mode, the screen cloth 26 is positioned between vertical plates 21, first belts 27 are symmetrically arranged on the front side and the rear side of the vertical plates 21, the first rotating shaft 22 is connected with the first belts 27, the first belts 27 are positioned on the outer side of the long vertical frames 10, a second belt 28 is connected between the first rotating shaft 22 at the right end of the first belt 27 and the second rotating shaft 25, the second belt 28 is positioned on the outer side of the first belt 27, the front end of the first rotating shaft 22 at the left end of the first belt 27 is connected with the output shaft of the motor 29, a base 290 is arranged at the lower end of, the rear end of the base 290 is connected with the front end face of the long vertical frame 10 at the front end of the first rotating shaft 22, a water receiving drawer 291 is installed between the inner side end faces of the long vertical frame 10 in a sliding fit manner, the pulling direction of the water receiving drawer 291 is from back to front, the water receiving drawer 291 is located between the first rotating shafts 22 and the water receiving drawer 291 is located below the sieve cloth 26 at the upper end of the first rotating shaft 22, a material receiving dish 292 is arranged between the short vertical frames 24, the lower end of the material receiving dish 292 is connected with the existing working ground in a sliding fit manner, after the discharging through groove is opened, the emulsion flows downwards along the material conveying plate 20, the first rotating shaft 22 connected with the emulsion is driven to rotate clockwise by a motor 29, the rest first rotating shaft 22 and the rest second rotating shaft 25 synchronously rotate along with the first rotating shaft 27 and the second rotating shaft 28, then the sieve cloth 26 is driven by the first rotating shaft 22 and the second rotating shaft 25 to synchronously rotate, and the sieve cloth 26 in a motion state performs secondary filtration treatment on the emulsion, simultaneously can carry the yeast right again and make it fall into in receiving basin 292, the liquid that passes sieve cloth 26 freely flows into in water receiving steamer tray 291, after the liquid storage capacity in the water receiving steamer tray 291 reaches certain degree, take water receiving steamer tray 291 backward through the manual work mode and handle with the liquid in it, the cooperation between clear mechanism 1 and the clear mechanism 2 down can carry out dual filtration processing to the milk, and then improve the filter effect of emulsion greatly in order to reduce the use and the influence of retreatment to follow-up yeast, clear mechanism 2 can play the effect of defeated material again in step down simultaneously.

The front inner side wall and the rear inner side wall of the water receiving drawer 291 are symmetrically provided with the object placing blocks 29a, the object placing blocks 29a are arranged in an equidistance mode from left to right, the middle part of the upper end face of the object placing block 29a is of an inwards concave circular arc structure, the rod cores 29b are arranged between the middle parts of the upper end faces of the front object placing block 29a and the rear object placing block 29a which are opposite, the middle parts of the rod cores 29b are clamped and sleeved with water absorbing sponges 29c in a sliding fit mode, the upper end faces of the water absorbing sponges 29c are attached to the lower end face of the sieve cloth 26 above the water receiving drawer 291, the water absorbing sponges 29c can play a role in quickly assisting in absorbing and removing liquid in emulsion, the removing amount of the liquid in the working range of the water receiving drawer 291 is increased so as to prevent the liquid from flowing into the material receiving tray 292, and the movable connection mode between the rod cores 29b and the object placing blocks 29a can facilitate.

An incomplete gear 270 is arranged on the inner side of a middle stand 23 at the right end of the first belt 27, the incomplete gear 270 is sleeved on the first rotating shaft 22, the incomplete gear 270 is positioned on the outer side of the screen cloth 26, a bottom plate 271 is arranged on the front and back of the position under the incomplete gear 270, teeth 272 are equidistantly arranged on the upper end face of the bottom plate 271 from left to right, the teeth 272 are meshed with the incomplete gear 270, a bump 273 is arranged in the middle of the outer end face of the bottom plate 271, the bump 273 is connected with a block groove in a sliding fit manner, the block groove is arranged on the inner end face of the middle stand 23 on the outer side of the bottom plate 271, a spring 274 is connected between the left end face of the bump 273 and the inner left side wall of the block groove, an ear plate 275 is arranged in the middle of the lower end of the bottom plate 271, a knock plate 276 is hinged between the ear plates 275 through a second pin shaft, a shaft lever 277 is rotatably, the beating plate 276 is of a T-like structure, the right end of the beating plate 276 is in an inclined state, the inclined angle is the same as the inclined structure between the first rotating shaft 22 and the second rotating shaft 25 at the right end of the first belt 27, under the action of the first belt 27, in the synchronous rotation process of the two first rotating shafts 22 along with the motor 29, the incomplete gear 270 rotates synchronously along with the first rotating shaft 22 connected with the incomplete gear 270, the matching between the incomplete gear 270 and the teeth 272 enables the bottom plate 271 to do left-right reciprocating horizontal motion, in the leftward motion process of the bottom plate 271, the convex blocks 273 at the outer end synchronously press the springs 274, simultaneously the beating plate 276 rotates anticlockwise around the shaft 277 under the driving of the bottom plate 271, in the non-meshing process of the incomplete gear 270 and the teeth 272, the bottom plate 271 resets rightwards under the resilience of the springs 274, the beating plate 276 synchronously rotates clockwise around the shaft 277, in the whole process, the beating plate 276 can repeatedly beat the sieve cloth 26 above the receiving vessel 292 to enable the sieve cloth 26 to generate, so as to achieve the purpose of reducing the residual quantity of the yeasts on the surface of the screen cloth 26, further reduce the waste rate of the yeasts and keep the filtering effect of the screen cloth 26.

The right end of defeated flitch 20 install fixture block 200 around the symmetry, fixture block 200 is the type of falling L structure, link to each other through sliding fit between the lower extreme of fixture block 200 and the upper end of riser 21, handle behind the emulsion basic unit in the basket 13, through artifical mode pulling pull rod 131 right, pull rod 131 drives board 130 synchronous motion that falls V, pull up fixture block 200 and make defeated flitch 20 be the horizontality through artifical mode simultaneously, defeated flitch 20 can play the supporting role to the emulsion that board 130 that falls V struck off this moment.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The yeast producing and preparing process uses a yeast producing and preparing device which comprises a supernatant mechanism (1) and a supernatant mechanism (2), and is characterized in that: the specific preparation process for producing and preparing the saccharomycetes by adopting the saccharomycetes production and preparation device is as follows:

s1, separating impurities: after yeast emulsion is poured into the processing basket (13) manually, standing for a certain time to enable light impurities to float on the surface, and then in the process that the electric slider (14) drives the sieve plate (16) to press the yeast emulsion downwards, the light impurities float to the upper end surface of the sieve plate (16) from the periphery;

s2, impurity separation: after two thirds of the sieve plate (16) is immersed into the emulsion, the sieve plate (16) is driven to move upwards slowly by the electric slide block (14), the sieve plate (16) carries light impurities to move synchronously, the impurities are separated from the emulsion, and the emulsion is primarily filtered;

s3, secondary filtration: the emulsion flows downwards along the material conveying plate (20) and simultaneously the motor (29) works, the first rotating shaft (22) and the second rotating shaft (25) synchronously rotate along with the motor (29) under the action of the first belt (27) and the second belt (28), then the sieve cloth (26) synchronously rotates under the drive of the first rotating shaft (22) and the second rotating shaft (25), the sieve cloth (26) in a moving state carries out secondary filtration treatment on the emulsion, and liquid passing through the sieve cloth (26) freely flows into the water receiving drawer (291);

s4, collection after filtration: the yeast filtered by the moving screen cloth (26) is conveyed rightwards and falls into the receiving vessel (292);

the lower end of the upper cleaning mechanism (1) is arranged on the existing working ground, the lower cleaning mechanism (2) is arranged right below the upper cleaning mechanism (1), and the lower end of the lower cleaning mechanism (2) is arranged on the existing working ground in a rotating mode;

the cleaning mechanism (1) comprises a long vertical frame (10), a connecting shaft (11), connecting plates (12), a treatment basket (13), electric sliding blocks (14), connecting pieces (15), sieve plates (16) and an electric control door (17), wherein the long vertical frame (10) is symmetrically arranged on the existing working ground front and back, the connecting shaft (11) is arranged between the upper ends of the long vertical frame (10), the connecting plates (12) are symmetrically arranged at the front and back ends of the connecting shaft (11), the connecting plates (12) are positioned between the long vertical frames (10), the treatment basket (13) is arranged between the lower ends of the connecting plates (12), the electric sliding blocks (14) are symmetrically arranged in the middle of the left end and the right end of the upper end face of the treatment basket (13) in a sliding fit mode, the connecting pieces (15) are arranged at the inner side ends of the electric sliding blocks (14), the sieve plates (16) are arranged between the lower ends of the connecting pieces (15), and gaps exist, a discharging through groove is formed in the middle of the lower end of the right end face of the processing basket (13), and an electric control door (17) is installed between the front inner side wall and the rear inner side wall of the discharging through groove in a sliding fit mode;

the lower cleaning mechanism (2) comprises a material conveying plate (20), vertical plates (21), a first rotating shaft (22), a middle vertical frame (23), a short vertical frame (24), a second rotating shaft (25), a sieve cloth (26), a first belt (27), a second belt (28), a motor (29), a machine base (290), a water receiving drawer (291) and a material receiving vessel (292), wherein the material conveying plate (20) is arranged at the right lower part of the processing basket (13), the left end of the material conveying plate (20) is positioned under the material discharging through groove, the material conveying plate (20) is of a left-inclined structure, the vertical plates (21) are symmetrically arranged at the front and the back of the right end of the material conveying plate (20), the middle vertical frames (23) are symmetrically arranged at the left and the right of the outer end face of the vertical plates (21), the lower ends of the middle vertical frames (23) are connected with the existing working ground, the first rotating shaft (22) is arranged between the upper ends of the middle vertical frames (23) which are right opposite from front to back through bearings, and the, the right side of a long vertical frame (10) at the rightmost end of a vertical plate (21) is provided with a short vertical frame (24), the lower end of the short vertical frame (24) is installed on the existing working ground, a second rotating shaft (25) is installed between the upper ends of the short vertical frames (24) through a bearing, an equilateral triangle structure is formed between the two first rotating shafts (22) and the second rotating shaft (25), a sieve cloth (26) is attached to the outer surface of the first rotating shaft (22) and the outer surface of the second rotating shaft (25) according to the equilateral triangle structure, the sieve cloth (26) is connected with the first rotating shaft (22) and the second rotating shaft (25) in a sliding fit mode, the sieve cloth (26) is positioned between the vertical plates (21), first belts (27) are symmetrically arranged on the front side and the rear side of the vertical plate (21), the first rotating shafts (22) are connected with each other through the first belts (27), and the first belts (27) are positioned on the outer side of the long vertical frame, a second belt (28) is connected between a first rotating shaft (22) and a second rotating shaft (25) at the right end of a first belt (27), the second belt (28) is located on the outer side of the first belt (27), the front end of the first rotating shaft (22) at the left end of the first belt (27) is connected with the output shaft end of a motor (29), a base (290) is installed at the lower end of the motor (29), the rear end of the base (290) is connected with the front end face of a long vertical frame (10) at the front end of the first rotating shaft (22), a water receiving drawer (291) is installed between the inner side end faces of the long vertical frame (10) in a sliding fit mode, a material receiving dish (292) is arranged between the short vertical frames (24) from back to front, the water receiving drawer (291) is located between the first rotating shafts (22) and below a sieve cloth (26) at the upper end of the first rotating shaft (22), and the lower end of the material receiving dish (292) is connected with the existing working ground in a sliding fit mode.

2. The yeast production and preparation process according to claim 1, characterized in that: an incomplete gear (270) is arranged on the inner side of a middle vertical frame (23) at the right end of a first belt (27), the incomplete gear (270) is sleeved on a first rotating shaft (22), the incomplete gear (270) is located on the outer side of a screen cloth (26), bottom plates (271) are arranged on the front and back of the position under the incomplete gear (270), teeth (272) are arranged on the upper end face of each bottom plate (271) in an equal distance from left to right, the teeth (272) are meshed with the incomplete gear (270), a convex block (273) is arranged in the middle of the outer end face of each bottom plate (271), the convex block (273) is connected with a block groove in a sliding fit mode, the block groove is formed in the inner end face of the middle vertical frame (23) on the outer side of the bottom plate (271), a spring (274) is connected between the left end face of the convex block (273) and the inner left side wall of the block groove, and an ear, a beating plate (276) is hinged between the lug plates (275) through a second pin shaft, the middle upper end of the beating plate (276) is rotatably connected with a shaft lever (277), the shaft lever (277) is installed between the inner side end faces of the middle vertical frame (23), the beating plate (276) is of a T-shaped structure, the right end of the beating plate (276) is in an inclined state, and the inclined angle is the same as that of an inclined structure between a first rotating shaft (22) and a second rotating shaft (25) at the right end of the first belt (27).

3. The yeast production and preparation process according to claim 2, characterized in that: connecting plate (12) and connecting axle (11) between rotate and be connected, even board (120) are installed to the right-hand member face of connecting plate (12) upper end, even board (120) are left tilt-up structure, it has long round pin axle to articulate between even board (120) the right-hand member, the middle part of long round pin axle articulates there is commentaries on classics board (121), the right-hand member of commentaries on classics board (121) articulates there is a round pin axle, perpendicular frame (122) are installed to the front and back both ends symmetry of round pin axle, the lower extreme of perpendicular frame (122) is installed on having the work ground, perpendicular frame (122) are located the outside of short grudging post (24), extension board (123) are installed to the right-hand member face upper end of perpendicular frame (122), nest block (124) are installed between the right-hand member of extension board (123), the middle part cover of nest block (124) is equipped with electric.

4. The yeast production and preparation process according to claim 1, characterized in that: connecting piece (15) include round bar (150) and fall L template (151), the lower terminal surface of round bar (150) links to each other with the up end of sieve (16), fall L template (151) are installed to the up end of round bar (150), the outside end of falling L template (151) links to each other with the board recess through sliding fit mode, the board recess is seted up at the up end middle part of electronic slider (14).

5. The yeast production and preparation process according to claim 1, characterized in that: handle the lower extreme middle part of the interior left side wall of basket (13) seted up the rectangle recess, install board (130) of falling V through the sliding fit mode in the rectangle recess, the lower terminal surface of board (130) of falling V links to each other through the sliding fit mode between the interior diapire of handling basket (13), the lower extreme mid-mounting of board (130) of falling V has pull rod (131), pull rod (131) link to each other with the pole recess through the sliding fit mode, the pole recess is seted up at the lower extreme of handling basket (13), and the right-hand member and the outside of pull rod (131) recess communicate with each other.

6. The yeast production and preparation process according to claim 1, characterized in that: the front inner side wall and the rear inner side wall of the water receiving drawer (291) are symmetrically provided with object placing blocks (29a), the object placing blocks (29a) are arranged at equal intervals from left to right, the middle part of the upper end face of each object placing block (29a) is of an inwards concave circular arc structure, rod cores (29b) are arranged between the middle parts of the upper end faces of the front object placing blocks and the rear object placing blocks, which are right opposite, in a sliding fit mode, water absorbing sponges (29c) are sleeved in the middle parts of the rod cores (29b) in a clamping mode in a sliding fit mode, and the upper end faces of the water absorbing sponges (29c) are attached to the lower end faces of the screen cloth (26) above the water receiving drawer (.

7. The yeast production and preparation process according to claim 1, characterized in that: the material conveying plate is characterized in that clamping blocks (200) are symmetrically arranged at the front and back of the right end of the material conveying plate (20), the clamping blocks (200) are of an inverted L-shaped structure, and the lower ends of the clamping blocks (200) are connected with the upper ends of the vertical plates (21) in a sliding fit mode.

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