CN112690430A - Preparation method of fruit and vegetable flavor seasoning and automatic production equipment thereof - Google Patents

Abstract

The invention discloses a preparation method of a fruit and vegetable flavor seasoning and automatic production equipment thereof, belonging to the field of food processing, wherein the preparation method comprises the steps of heating fruit and vegetable essence, introducing silicon dioxide, monosodium glutamate and edible salt into a mixing barrel for mixing, then introducing the fruit and vegetable essence into the mixing barrel for mixing, then introducing white granulated sugar, fruit and vegetable powder, maltodextrin, seasoning powder, yeast extract, malic acid, citric acid, glycine and 5' -flavor nucleotide disodium into the mixing barrel for uniformly mixing, and finally subpackaging; the automatic production equipment comprises a dust-free feeding station, an essence feeding barrel, an automatic packaging line, a vacuum feeding machine and a mixing and stirring barrel, wherein a vibrating screen, a dust absorption mechanism and a revolution shaft with permanent magnet strips are arranged in the dust-free feeding station. The preparation method of the fruit and vegetable flavor seasoning provided by the invention is convenient to process and treat, and the material mixing efficiency is high; the provided automatic production equipment has high automation degree and is convenient to regulate and control; better powder dispersion and impurity removal effects can be realized; and the dustless workshop can be realized.

Description

Preparation method of fruit and vegetable flavor seasoning and automatic production equipment thereof

Technical Field

The invention relates to the technical field of food processing, in particular to a preparation method of a fruit and vegetable flavor seasoning and automatic production equipment thereof.

Background

Flavorings, also known as seasonings, refer to food ingredients that are used to add small amounts to other foods to improve taste. The added taste of the seasoning is divided into sour, sweet, bitter, spicy, salty, fresh and numb. The added fragrance is sweet, spicy, mint, fruit, etc. From the technical means, most of ancient times are natural seasonings (such as salt, soybean oil, sugar and anise), and the Chinese people have multiple compound seasonings (monosodium glutamate, chicken essence and chicken powder).

The fruit and vegetable flavor seasoning in the prior art mostly adopts fresh vegetables and fruits to extract, and the obtained extracting solution is added into the seasoning to realize the purpose of endowing the seasoning with vegetable and fruit flavor, so that the processing and processing mode of extracting fresh vegetables and fruits is more complicated, the automatic production is not favorably realized, and the mixing efficiency of raw materials and materials is lower.

In the prior art, the automation degree of equipment for preparing the fruit and vegetable flavor seasoning is low, the labor intensity of workers is high, and the production efficiency is low; the powder dispersing and impurity removing effects are poor; dust pollution is easily caused in the production process.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to solve the technical problems of providing a preparation method of a fruit and vegetable flavor seasoning and automatic production equipment thereof, wherein the provided preparation method of the fruit and vegetable flavor seasoning is convenient to process and treat, is beneficial to realizing automatic production and has high material mixing efficiency; the provided automatic production equipment has high automation degree, is convenient to regulate and control, can reduce the labor intensity of workers and improves the production efficiency; better powder dispersion and impurity removal effects can be realized; and the dustless workshop can be realized.

2. Technical scheme

In order to solve the problems, the invention adopts the following technical scheme:

a preparation method of a fruit and vegetable flavor seasoning comprises the following steps:

s1, weighing the fruit and vegetable essence, pouring the fruit and vegetable essence into a feeding barrel, uniformly mixing, sealing the feeding barrel, heating to 45-50 ℃, and setting the pressure of the feeding barrel to be 1.5MPa to obtain liquid spice for later use;

s2, weighing the silicon dioxide, the monosodium glutamate and the edible salt respectively, filtering and dispersing the silicon dioxide, the monosodium glutamate and the edible salt through a vibrating screen, then introducing the silicon dioxide, the monosodium glutamate and the edible salt into a mixing container for preliminary mixing, and stirring the materials in the mixing container at a rotating speed of 30r/min until the materials are uniformly stirred;

s3, introducing the liquid spice obtained in the step S1 into a mixing container, and stirring at the rotating speed of 2000 r/min;

s4, after the liquid spice is fed, respectively weighing white granulated sugar, fruit and vegetable powder, maltodextrin, seasoning powder, yeast extract, malic acid, citric acid, glycine and 5' -flavor nucleotide disodium, filtering and dispersing by a vibrating screen, then introducing into a mixing container, carrying out secondary feeding and mixing, and keeping the stirring speed at 2000r/min until the materials are uniformly stirred;

s5, subpackaging in an automatic packaging production line to obtain the fruit and vegetable flavor seasoning;

the weight parts of the raw materials are as follows: 18-25 parts of fruit and vegetable essence, 32-40 parts of silicon dioxide, 105-120 parts of monosodium glutamate, 80-120 parts of edible salt, 250-345 parts of white granulated sugar, 120-190 parts of fruit and vegetable powder, 80-105 parts of maltodextrin, 50-60 parts of seasoning powder, 23-31 parts of yeast extract, 6-7 parts of malic acid, 3-6 parts of citric acid, 1-5 parts of glycine and 2-3 parts of 5' -flavor nucleotide disodium.

Specifically, when preparing the tomato-plum flavor seasoning,

in step S1, the fruit and vegetable essence is tomato essence and plum essence, wherein the tomato essence is 15 parts by weight, and the plum essence is 10 parts by weight;

in step S2, the silica is 40 parts by mass, the monosodium glutamate is 120 parts by mass, and the edible salt is 80 parts by mass;

in step S4, 345 parts by mass of white granulated sugar; the fruit and vegetable powder comprises tomato powder and green plum powder, wherein the tomato powder is 125 parts by weight, and the green plum powder is 65 parts by weight; the mass part of the maltodextrin is 105 parts; the seasoning powder comprises hydrolyzed vegetable protein seasoning powder and capsanthin seasoning powder, wherein the hydrolyzed vegetable protein seasoning powder comprises 35 parts by weight, and the capsanthin seasoning powder comprises 25 parts by weight; the mass portion of the yeast extract is 23 portions; 6 parts of malic acid; 3 parts of citric acid; 1 part of glycine in parts by weight; 2 parts of 5' -flavor nucleotide disodium by mass;

in step S5, the tomato plum flavor seasoning is obtained after being separately packaged.

Specifically, when preparing the green cucumber flavor seasoning,

in step S1, the fruit and vegetable essence is cucumber essence, and the mass portion of the cucumber essence is 18 parts;

in step S2, the silica is 32 parts by mass, the monosodium glutamate is 105 parts by mass, and the edible salt is 120 parts by mass;

in step S4, the white granulated sugar is 250 parts by mass; the fruit and vegetable powder comprises coriander powder, cucumber powder, coriander powder and onion powder, wherein the coriander powder is 36 parts by weight, the cucumber powder is 25 parts by weight, the coriander powder is 24 parts by weight, and the onion powder is 36 parts by weight; the mass portion of the maltodextrin is 80 portions; the seasoning powder is soy sauce seasoning powder, and the soy sauce seasoning powder accounts for 50 parts by mass; the mass part of the yeast extract is 31 parts; 7 parts of malic acid; the mass part of the citric acid is 6 parts; the mass part of the glycine is 5 parts; the mass portion of the 5' -flavor nucleotide disodium is 3 portions, and whey powder is added in the step, wherein the mass portion of the whey powder is 172 portions;

in step S5, the cucumber-flavored seasoning is obtained after being separately packaged.

The invention also provides automatic production equipment adopted by the preparation method of the fruit and vegetable flavor seasoning, which comprises a dust-free feeding station, an essence feeding barrel, an automatic packaging line, a vacuum feeding machine and a mixing and stirring barrel, wherein the dust-free feeding station is positioned at the lower part of the automatic packaging line, the vacuum feeding machine is positioned at the higher part of the automatic packaging line, the mixing and stirring barrel is arranged between the vacuum feeding machine and the automatic packaging line, the output end of the dust-free feeding station is connected with the input end of the vacuum feeding machine, the output ends of the vacuum feeding machine and the essence feeding barrel are respectively communicated with the output end of the mixing and stirring barrel, and a spiral conveying pipeline is arranged between the;

the dust-free feeding station comprises a main shell, wherein a vibrating screen is arranged in the main shell, a feeding hole is formed in the middle of the top of the main shell, and a sealable cabin door is arranged on the outer side of the feeding hole; the bottom surface of the main shell is in a conical shape, the height of the bottom surface of the main shell is gradually reduced from the peripheral side to the middle part, and a discharge pipe is connected to the center of the bottom surface of the main shell; the top of the main shell body is provided with a dust absorption mechanism at two sides of the feed inlet; the vibrating screen comprises a first-level vibrating screen and a second-level vibrating screen, wherein the first-level vibrating screen is horizontally arranged, the second-level vibrating screen is positioned under the first-level vibrating screen, the first-level vibrating screen is a 20-mesh sieve, the second-level vibrating screen is a 40-mesh sieve, the outer sides of the two vibrating screens are respectively sleeved with a lifting ring body which is horizontally arranged, each vibrating screen is rotatably connected with the corresponding lifting ring body through a first bearing, the outer side of each lifting ring body is connected with the inner wall of a main shell in a sliding manner through a longitudinally arranged sliding rail, one side of the main shell is provided with a driving mechanism for driving the lifting ring body to move up and down, the centers of the first-level vibrating screen and the second-level vibrating screen are jointly penetrated through and fixedly connected with an active sleeve, a fixed rod is arranged in the active sleeve, the upper end of the fixed rod extends to the upper part of the active sleeve and transversely extends, the rotary driving component comprises a ball embedded on the surface of the fixed rod and a spiral groove arranged on the inner side of the driving sleeve, the outer part of the ball is positioned in the spiral groove, and the spiral groove is in an arc shape extending from one side of the driving sleeve to the opposite side of the driving sleeve;

the utility model discloses a novel solar cell module, including the main casing body, the lower extreme inboard of main casing body is vertical to be equipped with through spline structure and the gangbar that initiative sleeve pipe lower extreme rotated the linkage, just initiative sleeve pipe inboard is equipped with the spline, set up on the gangbar with spline looks adaptation and along the cell body that self length direction extends, the lower extreme of gangbar is fixed with two piece at least public pivot that are on a parallel with main casing body bottom surface generating line along its week side equidistant, one side of public pivot is fixed with permanent-magnet strip, rotatable formula cover is equipped with the adsorption sleeve on the public pivot, the one end fixed cover that the adsorption sleeve dorsad gangbar is equipped with the helical gear, the top engagement formula of helical gear is equipped with the circle rack that the level set up, circle rack is fixed with main casing body fixed connection's fixed block along its week side equidistant, the outside of adsorption sleeve is equipped with the cross-section and is fan annular, the upper end of the shielding shell is open, the arc section in the shielding shell is attached to the adsorption sleeve, the upper end of the arc section in the shielding shell is a scraping inclined plane, the upper end of the arc section outside the shielding shell extends to the position above the top of the adsorption sleeve, one end of the shielding shell is fixedly connected with the linkage rod, a collecting cavity is formed in the lower end of the linkage rod, and the material guide cavity is communicated with the collecting cavity; the lower part of the linkage rod is communicated with a foreign matter discharge pipe extending to the outer side of the discharge pipe, a bearing plate is fixed at the top of the foreign matter discharge pipe, the lower end of the linkage rod is connected with the bearing plate through a second bearing, and the bottom of the bearing plate is fixedly connected with the inner wall of the discharge pipe through a reinforcing rod.

Furthermore, a pneumatic valve is arranged at the output end of the vacuum feeding machine, a ceramic filter element is arranged in the vacuum feeding machine, the upper end of the vacuum feeding machine is connected with a vacuum pump through a pipeline, and a corrugated paper filter element is arranged on the pipeline; be equipped with the axis of rotation on the axis in the mixing and stirring bucket, and be fixed with the screw in the axis of rotation, lower extreme one side of axis of rotation is fixed with the fly cutter, the both sides of mixing and stirring bucket lower extreme all are equipped with the cyclone shower nozzle with essence feed cylinder intercommunication, essence feed cylinder has the function of airtight pressurization and intermediate layer heating, spiral delivery pipeline has the pipe strap and the cylindric filter screen of 40 meshes of speed controller, cockscomb structure, be equipped with in the vacuum material loading machine and be used for the compressed air blowback device that blows to ceramic filter core. The pneumatic valve can control and adjust the speed of the vacuum feeder for feeding corresponding materials into the mixing and stirring barrel, the vacuum feeder can generate suction force only by starting the vacuum pump so as to suck powder in the dust-free feeding station, the ceramic filter element and the corrugated paper filter element can prevent the powder from being sucked into the vacuum pump, the damage of dust to the vacuum pump is reduced as much as possible, the service life of the vacuum pump is effectively prolonged, the ceramic filter element in direct contact with the materials can effectively prevent corrosion and acid and alkali, the aperture is smaller, and the dust absorption can be effectively reduced; the propeller and the fly cutter rotate simultaneously, so that the high-efficiency mixing of materials in the mixing and stirring barrel can be realized, and the cyclone spray head can spray vegetable and fruit essence into the mixing and stirring barrel to fully mix the essence and the powder; the essence charging barrel has the functions of sealing and pressurizing and interlayer heating, the temperature of the liquid spice containing oil is properly raised, the fluidity of the liquid spice can be increased, the pipeline cannot be blocked during material suction, the material suction is smooth, and the cyclone spray head spraying effect is facilitated; the conveying speed of the spiral conveying pipeline can be adjusted through the speed controller, the blanking speed is controlled according to different product characteristics, and the split charging speed of an automatic packaging machine is matched; the serrated pipe belt and the cylindrical filter screen of 40 meshes can further filter foreign matters, improve the management and control of the foreign matters and ensure the quality safety of products, and the serrated pipe belt and the filter screen can further sieve and disperse the products and have better dispersion effect on the products which are easy to generate false caking or have higher moisture content; the vacuum pump can absorb partial dust when sucking materials, a compressed air back-blowing device used for blowing air to the ceramic filter element is arranged in the vacuum feeding machine, and during each discharging, the compressed air back-blowing filter can back-blow the dust to a hopper of the vacuum feeding machine, so that the normal operation of the sucking materials and the feeding can be ensured.

Furthermore, the dust absorption mechanism comprises an air suction shell fixedly connected with the top of the main shell, a central rotating shaft horizontally arranged is arranged in the air suction shell, a suction fan is fixed on the central rotating shaft, one end of the central rotating shaft extends to the outer side of the air suction shell and is sleeved with a transmission sleeve, a third bearing is arranged at the position of the air suction shell through which the central rotating shaft passes, the inner side of the transmission sleeve is connected with the central rotating shaft through a one-way bearing, one end of the transmission sleeve, which faces the air suction shell, is connected with the air suction shell through a torsion spring, a tight pull rope is wound on the transmission sleeve, one end of the tight pull rope is fixed on the transmission sleeve, and the other end of the tensioning rope penetrates through the main shell and is fixedly connected with the lifting ring body, the bottom of the air suction shell is connected with an air suction pipe extending to the inner side of the main shell, and the other side of the air suction shell is connected with a dust collecting pipe. Can pull tight stay cord downstream when the lift ring body descends, thereby can drive the transmission sleeve and take place to rotate, the torsional spring takes place deformation thereupon, when the lift ring body ascends, relax tight stay cord, the reset action of torsional spring can drive transmission sleeve antiport and reset, under the effect of one-way bearing, the transmission sleeve can only drive central pivot and carry out one-way rotation, thereby can drive the suction fan and carry out one-way rotation, can make it produce suction force, can suck the dust of the internal raise of main casing through the breathing pipe, and send to dust treatment device through the dust collecting pipe and carry out unified processing, can high-efficiently reduce dust pollution.

Further, two link together through the connecting rod between the lift ring body, and the lift ring body that is located the top connects actuating mechanism, actuating mechanism includes the motor, with the output shaft fixed connection's of motor carousel to and connect the swinging arms between carousel and the lift ring body, the vertical setting of carousel, the eccentric department of carousel is fixed with the connecting rod that the level set up, the swinging arms is on a parallel with the carousel, and the both ends of swinging arms are articulated with connecting rod and corresponding lift ring body respectively. The starting motor can drive the turntable to rotate, the connecting rod revolves along with the turntable and can drive the swinging rod to swing, the swinging rod can drive the lifting ring body located above to perform lifting movement under the limiting effect of the sliding rail, and then the connecting rod drives the lifting ring body located below to perform lifting movement synchronously, so that the driving effect of the driving mechanism is realized.

Furthermore, the rotation driving assembly comprises two balls symmetrically embedded on the surface of the fixed rod and spiral grooves corresponding to the balls one to one, and the two spiral grooves are respectively positioned on two opposite sides of the fixed rod. Through two sets of corresponding helicla flutes and ball, and two sets of helicla flutes and ball are located the double-phase offside of dead lever respectively, when the initiative sleeve pipe moves down along with the shale shaker together, through the mating reaction of two balls and helicla flutes that the symmetry set up, it is more secure to drive the rotation of initiative sleeve pipe.

Furthermore, at least two long reinforcing rods fixedly connected with the driving sleeve are fixed on the inner side wall of the periphery of the first-stage vibrating screen and the second-stage vibrating screen at equal intervals along the periphery of the inner side wall. The reinforcing long rod can enhance the fixed connection relation between the vibrating screen and the driving sleeve, and further enhance the synchronous movement of the vibrating screen and the driving sleeve.

Furthermore, a material guide plate is fixedly sleeved at the lower end of the driving sleeve, and the upper end face of the material guide plate is gradually lowered from the middle part to the peripheral side. The powder that passes the secondary vibrating screen falls on the stock guide, then moves to week side along stock guide up end, falls to week side of main casing internal bottom afterwards, moves to the middle part along main casing internal bottom again, compares in the mode of direct whereabouts, sets up the stock guide after, can prolong the dwell time of powder in main casing internal bottom to in fully carry out the getting rid of metallic foreign matter in the powder.

3. Advantageous effects

(1) The preparation method of the fruit and vegetable flavor seasoning comprises the steps of heating the fruit and vegetable essence, then sieving silicon dioxide, monosodium glutamate and edible salt, removing metal foreign matters, then guiding the sieved fruit and vegetable essence into a mixing barrel to be uniformly mixed, then guiding the fruit and vegetable essence into the mixing barrel to be uniformly mixed, then sieving white granulated sugar, fruit and vegetable powder, maltodextrin, seasoning powder, yeast extract, malic acid, citric acid, glycine and 5' -flavor nucleotide disodium, removing the metal foreign matters, guiding the sieved product into the mixing barrel to be uniformly mixed, and finally entering an automatic packaging production line to be subpackaged. The fruit and vegetable essence and the fruit and vegetable powder are adopted to endow the seasoning with fruit and vegetable flavor, and compared with a mode of extracting fresh vegetables and fruits, the processing and the processing of the seasoning are more convenient, and the automatic production is favorably realized. In addition, the fruit and vegetable essence is heated firstly, so that the liquidity of the liquid spice containing grease can be improved, a pipeline cannot be blocked during material suction, the material suction is smooth, and the full mixing of the liquid spice and powder can be promoted; the purity of the powder before mixing can be improved by dispersing and sieving the powder and removing metal foreign matters, so that the quality of the fruit and vegetable flavored seasoning powder can be improved.

(2) The automatic production equipment for preparing the fruit and vegetable flavor seasoning comprises a dust-free feeding station, an essence feeding barrel, an automatic packaging line, a vacuum feeding machine and a mixing and stirring barrel, wherein when the equipment is applied, after powder is manually fed from the dust-free feeding station, a cabin door of the feeding station is closed, after a motor is started, the powder is automatically dispersed and filtered in the dust-free feeding station, and then the powder is sucked by the vacuum feeding machine under negative pressure and is guided into the mixing and stirring barrel; liquid spices are manually poured into the essence feeding barrel, the liquid spices are sucked into the mixing and stirring barrel after being pressurized and heated, the mixing and stirring barrel automatically and fully stirs and mixes powder and liquid essences, the powder and the liquid essences are conveyed to an automatic packaging line through a spiral conveying pipeline, the automatic packaging line automatically weighs and subpackages, the whole production process is basically in a closed state, dust pollution is avoided, and the possibility of bacterial pollution in the production process is reduced; and the automation degree of the whole device is higher.

(3) According to the invention, the feeding station, the essence feeding barrel and the automatic packaging line are arranged at a low position, such as a first floor, so that production staff can conveniently feed raw materials and package finished products, the production staff does not need to carry out a large amount of material carrying work, the labor intensity of workers is reduced, and the production efficiency is improved.

(4) The dust-free feeding station comprises a primary vibrating screen and a secondary vibrating screen, wherein the primary vibrating screen is a 20-mesh screen, the secondary vibrating screen is a 40-mesh screen, the primary vibrating screen and the secondary vibrating screen are driven by a lifting ring body to move in a lifting manner, and in application, materials pass through the two layers of vibrating screens successively, so that impurities and particles which do not reach the standard can be effectively removed; in addition, the vibration of the vibrating screen is rotationally connected with the lifting ring body through the first bearing, and the fixed rod, the driving sleeve and the rotary driving assembly are arranged, so that the vibrating screen can deflect in a reciprocating mode while moving in a lifting mode, in the process that the vibrating screen moves upwards and rotates, powder is extruded downwards onto the vibrating screen under the action of gravity, the vibrating screen moves upwards, the adhesion tightness between the powder and the vibrating screen is higher, and when the vibrating screen deflects, a larger acting force for driving the powder to disperse towards the peripheral side can be generated, the dispersion of the powder is promoted, and the sieving speed of the powder can be increased; and then at the moment that the vibrating screen moves downwards, the powder begins to move downwards due to the inertia effect in a delayed way, namely the powder can generate the effect of vibrating up and down in the process that the vibrating screen moves up and down, so that the powder can be promoted to pass through the screen holes, the sieving speed of the powder can be promoted, and the dust-free feeding station provided by the invention can promote the dispersion and filtration of the powder.

(5) The invention is provided with a dust absorbing mechanism on the top of a main shell, the dust absorbing mechanism comprises an air suction shell communicated with the interior of the main shell through an air suction pipe, a suction fan arranged in the air suction shell, a central rotating shaft arranged on the axis of the suction fan, a transmission sleeve sleeved on the central rotating shaft through a one-way bearing and a tight pull rope wound on the transmission sleeve, and one end of the tight pull rope penetrates through the inner side of the main shell and is fixedly connected with a lifting ring body, in application, the tight pull rope can be pulled to move downwards when the lifting ring body descends, so that the transmission sleeve can be driven to rotate, a torsion spring arranged between the transmission sleeve and the air suction shell deforms along with the transmission sleeve, when the lifting ring body ascends, the tight pull rope is loosened, the reset function of the torsion spring can drive the transmission sleeve to reversely rotate and reset, and under the action, thereby can drive the suction fan and carry out unidirectional rotation, can make it produce suction force, at the in-process that the powder sieved, the suction fan rotates the dust that the accessible breathing pipe suction main casing internal was raised to send to dust treatment device in through the dust collecting pipe and carry out unified processing, can high-efficiently reduce dust pollution.

(6) In the invention, a revolution shaft with permanent magnetic strips is arranged at the inner bottom of a main shell, an adsorption sleeve is sleeved on the revolution shaft, through the arrangement of the linkage rod, the vibrating screen can drive the revolution shaft and the adsorption sleeve to deflect in a reciprocating manner while deflecting, under the magnetic attraction effect of the magnetic stripe, the metal foreign matters which can be magnetically attracted can be absorbed on the absorption sleeve, and the absorption sleeve can revolve and rotate simultaneously through the matching effect of the helical gear and the ring-shaped rack, thereby continuously and more adsorbing metal foreign matters, and through the arrangement of the shielding shell with the scraping inclined plane, the metal foreign matters adsorbed on the adsorption sleeve can be scraped off and enter the material guide cavity, and then are discharged out of the main shell along the material guide cavity, the collection cavity and the foreign matter discharge pipe in sequence, so that the dust-free feeding station can remove the metal foreign matters in the powder, and the purity of the powder is improved; simultaneously, revolution axis, absorption sleeve and shelter from the casing and transversely rotate at main casing internal bottom, can play the effect that prevents the material and produce the bridging, avoid the material to pile up at the feed opening to can avoid piling up the material transmission effect that leads to because of the material not good.

(7) After the motor is started, the lifting ring body and the vibrating screen can be driven to move in a lifting manner, and the vibrating screen can deflect in a reciprocating manner while moving in the lifting manner by matching with the fixed rod, the driving sleeve and the rotation driving assembly; meanwhile, the lifting ring body can drive the suction fan through tightening the pull rope, so that the dust absorption mechanism is driven; meanwhile, the driving sleeve can drive the revolution shaft with the permanent magnetic strips to deflect in a reciprocating mode through the linkage rod so as to adsorb metal foreign bodies, so that the linkage of each mechanism is strong, each mechanism can be driven through one motor, and the regulation and the control are convenient.

In conclusion, the preparation method of the fruit and vegetable flavor seasoning provided by the invention is convenient to process and treat, is beneficial to realizing automatic production, and has high material mixing efficiency; the provided automatic production equipment has high automation degree, is convenient to regulate and control, can reduce the labor intensity of workers and improves the production efficiency; better powder dispersion and impurity removal effects can be realized; and the dustless workshop can be realized.

Drawings

FIG. 1 is a schematic diagram of an automated manufacturing facility provided by the present invention;

FIG. 2 is a cross-sectional view of the dust-free material charging station 100 taken along a vertical central plane that is also transverse;

FIG. 3 is an enlarged view of the structure of the area A in FIG. 2;

FIG. 4 is an enlarged view of the structure of the area B in FIG. 2;

FIG. 5 is an enlarged view of the structure of the area C in FIG. 2;

FIG. 6 is an enlarged view of the structure of the region D in FIG. 2;

FIG. 7 is a top view of the structure for magnetically removing metallic foreign matter in the dust-free material feeding station 100;

FIG. 8 is a cross-sectional view of a structure for magnetically removing metallic foreign matter;

fig. 9 is an enlarged schematic view of the structure of the drive mechanism 16.

Reference numerals: 1. a discharge pipe; 2. a revolution axis; 3. a ring-shaped rack; 4. a main housing; 5. a secondary vibrating screen; 6. a slide rail; 7. a first-stage vibrating screen; 8. tightening the pull rope; 9. a suction fan; 10. a suction housing; 11. a cabin door; 12. a dust collecting pipe; 13. a torsion spring; 14. a central rotating shaft; 15. an air intake duct; 16. a drive mechanism; 17. a lifting ring body; 18. a first bearing; 19. a material guide plate; 20. a foreign matter discharge pipe; 21. a long reinforcing rod; 22. fixing the rod; 23. a helical groove; 24. an active bushing; 25. a shielding shell; 26. a fixed block; 27. a helical gear; 28. adsorbing the sleeve; 29. a reinforcing bar; 30. a support plate; 31. a collection chamber; 32. a linkage rod; 33. a second bearing; 34. a material guiding cavity; 35. scraping a material inclined plane; 36. a permanent magnet strip; 37. a one-way bearing; 38. a drive sleeve; 39. a third bearing; 40. a swing lever; 41. a turntable; 42. a connecting rod; 43. a motor; 44. a ball bearing; 50. a screw conveying pipe; 51. a pneumatic valve; 52. a ceramic filter element; 53. a vacuum pump; 54. a pleated paper filter element; 55. a propeller; 56. a cyclonic spray head; 57. flying a cutter; 100. a dust-free feeding station; 200. an essence feed barrel; 300. an automatic packaging line; 400. a vacuum feeding machine; 500. and (5) mixing and stirring the materials.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

The preparation method of the tomato plum flavor seasoning comprises the following steps:

s1, preparing the following raw materials by weight: 345kg of white granulated sugar, 120kg of monosodium glutamate, 80kg of edible salt, 125kg of tomato powder, 65kg of green plum powder, 105kg of maltodextrin, 35kg of hydrolyzed vegetable protein seasoning powder, 23kg of yeast extract, 40kg of silicon dioxide, 25kg of capsanthin seasoning powder, 15kg of tomato essence, 10kg of plum essence, 6kg of malic acid, 3kg of citric acid, 1kg of glycine and 2kg of 5' -flavor nucleotide disodium;

s2, pouring the tomato essence and the plum essence into a feeding barrel, uniformly mixing, sealing the feeding barrel, heating to 50 ℃, and setting the pressure of the feeding barrel to be 1.5MPa to obtain liquid spice for later use;

s3, filtering and dispersing the silicon dioxide, the monosodium glutamate and the edible salt through a vibrating screen respectively, then introducing the silicon dioxide, the monosodium glutamate and the edible salt into a mixing container for preliminary mixing, and stirring the materials in the mixing container at a rotating speed of 30r/min for 1 min;

s4, introducing the liquid spice obtained in the step S1 into a mixing container, and stirring at the rotating speed of 2000 r/min;

s5, after the liquid spice is fed, respectively filtering and dispersing white granulated sugar, tomato powder, green plum powder, maltodextrin, hydrolyzed plant protein seasoning powder, yeast extract, capsanthin seasoning powder, malic acid, citric acid, glycine and 5' -flavor nucleotide disodium by a vibrating screen, then introducing into a mixing container for secondary feeding and mixing, and keeping the stirring speed at 2000r/min for 15min to obtain 1000kg of mixed material;

and S6, conveying the mixture to an automatic packaging production line for subpackaging to obtain the tomato plum flavor seasoning.

The seasoning is prepared by adopting the automatic production equipment shown in fig. 1, the automatic production equipment comprises a dust-free feeding station 100, an essence feeding barrel 200, an automatic packaging line 300, a vacuum feeding machine 400 and a mixing and stirring barrel 500, the dust-free feeding station 100 is positioned at a lower position, the vacuum feeding machine 400 is positioned at an upper position, the mixing and stirring barrel 500 is arranged between the vacuum feeding machine 400 and the automatic packaging line 300, the output end of the dust-free feeding station 100 is connected with the input end of the vacuum feeding machine 400, the output ends of the vacuum feeding machine 400 and the essence feeding barrel 200 are respectively communicated with the output end of the mixing and stirring barrel 500, a spiral conveying pipeline 50 is arranged between the output end of the mixing and stirring barrel 500 and the automatic packaging line 300, the discharge end of the mixing and stirring barrel 500 is staggered with the feed end of the; the output end of the vacuum feeding machine 400 is provided with a pneumatic valve 51, a ceramic filter element 52 is arranged in the vacuum feeding machine 400, the upper end of the vacuum feeding machine 400 is connected with a vacuum pump 53 through a pipeline, and a corrugated paper filter element 54 is arranged on the pipeline; a rotating shaft is arranged on the axis in the mixing and stirring barrel 500, a propeller 55 is fixed on the rotating shaft, a fly cutter 57 is fixed on one side of the lower end of the rotating shaft, cyclone spray heads 56 communicated with the essence feeding barrel 200 are arranged on both sides of the lower end of the mixing and stirring barrel 500, a pneumatic valve 51 can control and adjust the speed of the vacuum feeding machine 400 for feeding corresponding materials into the mixing and stirring barrel 500, the vacuum feeding machine 400 can generate suction force only by starting the vacuum pump 53 so as to suck powder in the dust-free feeding station 100, the ceramic filter element 52 and the pleated paper filter element 54 can prevent the powder from being sucked into the vacuum pump 53, the damage of dust to the vacuum pump 53 is reduced as much as possible, the service life of the vacuum pump 53 is effectively prolonged, the ceramic filter element 52 directly contacted with the materials can effectively prevent corrosion and acid and alkali, the pore size is smaller; the propeller 55 and the fly cutter 57 rotate simultaneously, so that efficient mixing of materials in the mixing and stirring barrel 500 can be realized, the cyclone spray head 56 can spray vegetable and fruit essence into the mixing and stirring barrel 500, so that the essence and powder are fully mixed, the essence feeding barrel 200 has the functions of sealing pressurization and interlayer heating, the temperature of liquid essence containing grease is properly increased, the fluidity of the liquid essence can be increased, the pipeline cannot be blocked during material suction, the material suction is smooth, and the spraying effect of the cyclone spray head 56 is facilitated; the spiral conveying pipeline 50 is provided with a speed controller, the conveying speed can be adjusted, the blanking speed is controlled according to different product characteristics, and the split charging speed of an automatic packaging machine is matched; the spiral conveying pipeline 50 is provided with a serrated pipe belt and a 40-mesh cylindrical filter screen, so that foreign matters can be further filtered, the foreign matter control is improved, the product quality safety is ensured, and the serrated pipe belt and the serrated filter screen can further sieve and disperse products, so that a good dispersing effect is realized on the products which are easy to generate false caking or have high moisture content; the vacuum pump 53 can absorb part of dust when sucking materials, a compressed air back-blowing device for blowing air to the ceramic filter element 52 is arranged in the vacuum feeding machine 400, and the compressed air back-blowing device back-blows a filter when discharging materials each time, so that the dust can be back-blown into a hopper of the vacuum feeding machine 400, and the normal operation of the sucking materials and the feeding materials is ensured;

as shown in fig. 2, the dust-free feeding station 100 includes a main housing 4 with a vibrating screen inside, a feeding port is provided in the middle of the top of the main housing 4, and a sealable hatch 11 is provided outside the feeding port; the bottom surface of the main shell 4 is in a conical shape gradually decreasing from the peripheral side to the middle, and the center of the bottom surface of the main shell 4 is connected with a discharge pipe 1 communicated with a vacuum feeder 400;

the vibrating screen comprises a horizontally arranged first-stage vibrating screen 7 and a second-stage vibrating screen 5 located under the first-stage vibrating screen 7, the first-stage vibrating screen 7 is a 20-mesh sieve, the second-stage vibrating screen 5 is a 40-mesh sieve, lifting ring bodies 17 horizontally arranged are respectively sleeved on the outer sides of the two vibrating screens, each vibrating screen is rotatably connected with the corresponding lifting ring body 17 through a first bearing 18, the outer sides of the lifting ring bodies 17 are connected with the inner wall of a main shell 4 in a sliding mode through longitudinally arranged sliding rails 6, the two lifting ring bodies 17 are connected together through connecting rods, the lifting ring body 17 located above is connected with a driving mechanism 16, as shown in figure 9, the driving mechanism 16 comprises a motor 43, a turntable 41 fixedly connected with an output shaft of the motor 43, and a swinging rod 40 connected between the turntable 41 and the lifting ring body 17, the turntable 41 is vertically arranged, a connecting rod 42 horizontally arranged is fixed at the eccentric position of the turntable 41, the swinging rod 40 is parallel to the turntable 41, two ends of the swinging rod 40 are respectively hinged with the connecting rod 42 and the corresponding lifting ring body 17, a motor 43 is started to drive the turntable 41 to rotate, the connecting rod 42 revolves along with the turntable to drive the swinging rod 40 to swing, under the limiting action of the sliding rail 6, the swinging rod 40 can drive the lifting ring body 17 positioned above to perform lifting movement, and then the lifting ring body 17 positioned below is driven by a connecting rod to perform synchronous lifting movement, so that the driving effect of the driving mechanism 16 is realized; as shown in fig. 2 and 3, the centers of the primary vibrating screen 7 and the secondary vibrating screen 5 commonly penetrate and are fixedly connected with a driving sleeve 24, a fixed rod 22 is arranged in the driving sleeve 24, the upper end of the fixed rod 22 extends to the upper side of the driving sleeve 24 and transversely extends to be fixedly connected with the inner wall of the main housing 4, a rotation driving component which is in one-to-one correspondence with and aligned with the vibrating screen is arranged between the fixed rod 22 and the driving sleeve 24, the rotation driving component comprises a ball 44 embedded on the surface of the fixed rod 22 and a spiral groove 23 arranged on the inner side of the driving sleeve 24, the outer part of the ball 44 is positioned in the spiral groove 23, the spiral groove 23 is in an arc shape extending from one side of the driving sleeve 24 to the opposite side thereof, two reinforcing long rods 21 fixedly connected with the driving sleeve 24 are fixed on the inner side walls of the circumference of the primary vibrating screen 7 and the secondary vibrating screen, the long reinforcing rod 21 can enhance the fixed connection relationship between the vibrating screen and the driving sleeve 24, and further enhance the synchronous movement of the vibrating screen and the driving sleeve 24;

the both sides that the top of main casing body 4 is located the feed inlet are equipped with the dust absorption mechanism respectively, as shown in fig. 2 and fig. 4, the dust absorption mechanism include with main casing body 4 top fixed connection inhale casing 10, the central pivot 14 that is equipped with the level setting in the casing 10 of inhaling, and be fixed with suction fan 9 on the central pivot 14, the one end of central pivot 14 extends to the casing 10 outside of breathing in and the cover is equipped with transmission sleeve 38, the position department that supplies central pivot 14 to pass on the casing 10 of breathing in is equipped with third bearing 39, the inboard of transmission sleeve 38 is connected with central pivot 14 through one-way bearing 37, the one end of transmission sleeve 38 orientation casing 10 of breathing in is passed through torsional spring 13 and is connected with the casing 10 of breathing in, it has tight stay cord 8 to coil on the transmission sleeve 38, the one end of tight stay cord 8 is fixed on transmission sleeve 38, and the other end of tight stay cord 8 pass main casing body 4 and with lift, the bottom of the air suction housing 10 is connected with an air suction pipe 15 extending to the inner side of the main housing 4, and the other side of the air suction housing 10 is connected with a dust collection pipe 12. When the lifting ring body 17 descends, the tensioning rope 8 can be pulled to move downwards, so that the transmission sleeve 38 can be driven to rotate, the torsion spring 13 deforms accordingly, when the lifting ring body 17 ascends, the tensioning rope 8 is loosened, the reset effect of the torsion spring 13 can drive the transmission sleeve 38 to rotate reversely to reset, under the action of the one-way bearing 37, the transmission sleeve 38 can only drive the central rotating shaft 14 to rotate in one direction, so that the suction fan 9 can be driven to rotate in one direction, suction force can be generated, dust raised in the main shell 4 can be sucked through the air suction pipe 15, and the dust can be conveyed to the dust treatment device through the dust collection pipe 12 to be treated in a unified mode, and dust pollution can be reduced efficiently;

as shown in fig. 2, a linkage rod 32 rotationally linked with the lower end of the driving sleeve 24 through a spline structure is vertically arranged on the inner side of the lower end of the main housing 4, a spline is arranged on the inner side of the driving sleeve 24, a groove body matched with the spline and extending along the length direction of the linkage rod 32 is formed on the linkage rod 32, as shown in fig. 2, 5, 6, 7 and 8, two revolution shafts 2 parallel to a bus on the bottom surface of the main housing 4 are fixed on the lower end of the linkage rod 32 at equal intervals along the circumferential side of the linkage rod, a permanent magnet bar 36 with the magnetic strength of 6000GS is fixed on one side of each revolution shaft 2, an adsorption sleeve 28 is rotatably sleeved on each revolution shaft 2, a helical gear 27 is fixedly sleeved at one end of the adsorption sleeve 28, which faces away from the linkage rod 32, a horizontally arranged ring-shaped rack 3 is meshed above the helical gear 27, and fixed blocks 26 fixedly connected with the main housing 4 at equal intervals along the circumferential side, a shielding shell 25 with a sector-ring-shaped cross section is arranged on one side, back to the permanent magnet strips 36, of the outer side of the shielding sleeve 28, a material guide cavity 34 is formed inside the shielding shell 25, the upper end of the shielding shell 25 is open, the inner arc section of the shielding shell 25 is attached to the absorbing sleeve 28, the upper end of the inner arc section of the shielding shell 25 is a scraping inclined plane 35, the upper end of the outer arc section of the shielding shell 25 extends to the position above the top of the attached absorbing sleeve 28, one end of the shielding shell 25 is fixedly connected with a linkage rod 32, a collection cavity 31 is formed inside the lower end of the linkage rod 32, and the material guide cavity 34 is communicated with the collection cavity 31; a foreign matter discharge pipe 20 extending to the outer side of the discharge pipe 1 is arranged below the linkage rod 32 in a communicated manner, a bearing plate 30 is fixed at the top of the foreign matter discharge pipe 20, the lower end of the linkage rod 32 is connected with the bearing plate 30 through a second bearing 33, and the bottom of the bearing plate 30 is fixedly connected with the inner wall of the discharge pipe 1 through a reinforcing rod 29; the lower end of the driving sleeve 24 is fixedly sleeved with a material guide plate 19, and the upper end surface of the material guide plate 19 is gradually lowered from the middle part to the peripheral side. The powder passing through the secondary vibrating screen 5 falls on the material guide plate 19, then moves towards the peripheral side along the upper end surface of the material guide plate 19, then falls to the peripheral side of the bottom in the main shell 4, and then moves towards the middle part along the bottom in the main shell 4, compared with the mode of direct falling, after the material guide plate 19 is arranged, the retention time of the powder at the bottom in the main shell 4 can be prolonged, so that the metal foreign matters in the powder can be removed sufficiently.

Example 2

The preparation method of the green cucumber flavor seasoning comprises the following steps:

s1, preparing the following raw materials by weight: 250kg of white granulated sugar, 172kg of whey powder, 120kg of edible salt, 105kg of monosodium glutamate, 80kg of maltodextrin, 50kg of soy sauce seasoning powder, 31kg of yeast extract, 32kg of silicon dioxide, 36kg of caraway powder, 25kg of cucumber powder, 24kg of coriander powder, 36kg of onion powder, 18kg of cucumber essence, 7kg of malic acid, 6kg of citric acid, 5kg of glycine and 3kg of 5' -flavor nucleotide disodium;

s2, pouring the cucumber essence into a feeding barrel, sealing the feeding barrel, heating to 45 ℃, and setting the pressure of the feeding barrel to be 1.5MPa to obtain liquid spice for later use;

s3, filtering and dispersing the silicon dioxide, the monosodium glutamate and the edible salt through a vibrating screen respectively, then introducing the silicon dioxide, the monosodium glutamate and the edible salt into a mixing container for preliminary mixing, and stirring the materials in the mixing container at a rotating speed of 30r/min for 1 min;

s4, introducing the liquid spice obtained in the step S1 into a mixing container, and stirring at the rotating speed of 2000 r/min;

s5, after the liquid spice is fed, respectively filtering and dispersing white granulated sugar, whey powder, maltodextrin, soy sauce seasoning powder, yeast extract, coriander powder, cucumber powder, coriander powder, onion powder, malic acid, citric acid, glycine and 5' -flavour development disodium ribonucleotide by using a vibrating screen, then introducing the materials into a mixing container for secondary feeding and mixing, keeping the stirring speed at 2000r/min, and stirring for 15min to obtain 1000kg of mixed material;

and S6, conveying the mixture to an automatic packaging production line for subpackaging to obtain the green cucumber flavor seasoning.

The automated production equipment used in the preparation of the above seasoning is the same as in example 1.

The application principle of the automatic production equipment is as follows:

weighing fruit and vegetable essence, pouring the fruit and vegetable essence into an essence feeding barrel 200, uniformly mixing, sealing the essence feeding barrel 200, setting heating temperature and pressure, and heating to obtain liquid spice for later use; then, respectively weighing the silicon dioxide, the monosodium glutamate and the edible salt, pouring the weighed materials into a dust-free feeding station 100, filtering and dispersing the materials by a primary vibrating screen 7 and a secondary vibrating screen 5, sucking the materials into a vacuum feeding machine 400 through a vacuum pump 53, then feeding the materials into a mixing and stirring barrel 500, starting a propeller 55 to stir at the rotating speed of 30r/min, and realizing primary mixing for 1 min; then spraying liquid spice into a mixing and stirring barrel 500 through a cyclone spray head 56, sucking the liquid spice into the mixing and stirring barrel 500 for spraying through a spice feeding barrel 200 with an interlayer heated by closed pressurization, fully cutting and mixing essence and powder while stirring the powder, setting stirring time and rotating speed according to the amount and spraying speed of the liquid spice to uniformly mix raw materials, controlling a propeller 55 to stir at the rotating speed of 2000r/min, and stirring the propeller 55 and a fly cutter 57 together; after the liquid spice is loaded, respectively weighing and pouring the white granulated sugar, the fruit and vegetable powder, the maltodextrin, the seasoning powder, the yeast extract, the malic acid, the citric acid, the glycine, the 5' -flavor nucleotide disodium and other powder materials into a dust-free feeding station 100, filtering and dispersing the powder materials, guiding the powder materials into a mixing and stirring barrel 500 through a vacuum feeder 400, carrying out secondary feeding and mixing, keeping the rotating speed of a propeller 55 at 2000r/min, stirring the powder materials for 15min, stopping driving and stirring, conveying the mixed materials to an automatic packaging line 300 through a spiral conveying pipeline 50, and carrying out automatic sub-packaging to complete the preparation of the fruit and vegetable flavor seasoning.

Specifically, the working process of the dust-free feeding station 100 is as follows:

firstly, opening the cabin door 11, pouring powder into the main shell 4, and then closing the cabin door 11; then the motor 43 is started to drive the turntable 41 to rotate, the connecting rod 42 revolves along with the turntable to drive the swinging rod 40 to swing, under the limiting action of the slide rail 6, the swinging rod 40 can drive the lifting ring body 17 positioned above to perform lifting movement, and then the lifting ring body 17 positioned below is driven by the connecting rod to perform lifting movement synchronously, the primary vibrating screen 7 and the secondary vibrating screen 5 perform lifting movement along with the lifting ring body 17 and drive the driving sleeve 24 to perform lifting movement, because the balls 44 prevent the driving sleeve 24 from directly lifting and descending, the driving sleeve 24 rotates in the horizontal plane and drives the primary vibrating screen 7, the secondary vibrating screen 5 and the material guide plate 19 to rotate under the action of the spiral groove 23, namely the vibrating screen and the driving sleeve 24 perform reciprocating rotation while performing lifting movement, due to the existence of the first bearing 18, so that the lifting ring 17 does not rotate; meanwhile, when the lifting ring body 17 descends, the tensioning rope 8 can be pulled to move downwards, so that the transmission sleeve 38 can be driven to rotate, the torsion spring 13 deforms accordingly, when the lifting ring body 17 ascends, the tensioning rope 8 is loosened, the reset function of the torsion spring 13 can drive the transmission sleeve 38 to rotate reversely to reset, and under the action of the one-way bearing 37, the transmission sleeve 38 can only drive the central rotating shaft 14 to rotate in one direction, so that the suction fan 9 can be driven to rotate in one direction, and the suction force can be generated; meanwhile, the lower end of the driving sleeve 24 drives the linkage rod 32 to rotate along with the driving sleeve through a spline structure, the linkage rod 32 keeps the height of the linkage rod unchanged, the linkage rod 32 drives the revolution shaft 2 and the shielding shell 25 to transversely rotate, the revolution shaft 2 drives the adsorption sleeve 28 to synchronously rotate, and the adsorption sleeve 28 drives the helical gear 27 to move along the ring-shaped rack 3, so that the helical gear 27 rotates and drives the adsorption sleeve 28 to autorotate;

the powder falls on the first-stage vibrating screen 7 firstly, and in the process that the first-stage vibrating screen 7 moves upwards and rotates, the powder is extruded downwards on the vibrating screen under the action of gravity, and the first-stage vibrating screen 7 moves upwards, so that the attaching tightness between the powder and the first-stage vibrating screen 7 is higher, and when the first-stage vibrating screen 7 deflects, a larger acting force for driving the powder to disperse towards the peripheral side can be generated, the dispersion of the powder is promoted, and the sieving speed of the powder can be increased; then, at the moment that the first-stage vibrating screen 7 moves downwards, the powder begins to move downwards due to the inertia effect, namely, the powder can generate the effect of vibrating up and down in the process that the first-stage vibrating screen 7 moves up and down, so that the powder can be promoted to pass through the screen holes, and the sieving speed of the powder can be increased; then, the powder falls on a secondary vibrating screen 5, and the screening process of the powder by the secondary vibrating screen 5 is the same as that of a primary vibrating screen 7;

in the process of sieving the powder, the suction fan 9 rotates to suck the dust raised in the main shell 4 through the air suction pipe 15 and sends the dust to the dust treatment device through the dust collection pipe 12 for uniform treatment, so that the dust pollution can be efficiently reduced;

the powder material falls to the guide plate 19 after sieving, and moves along the upper end face of the guide plate 19 to the peripheral side, and the rotating guide plate 19 can promote the powder material to fall, the powder material falls to the peripheral side of the bottom in the main shell 4, and then moves along the bottom in the main shell 4 to the middle part, in the process, the part of the adsorption sleeve 28 corresponding to the side where the permanent magnetic strip 36 is located can adsorb the metal foreign matters such as iron in the powder material, which can be adsorbed by magnetic adsorption, and the self-rotation of the adsorption sleeve 28 can keep continuously adsorbing the metal foreign matters, when the adsorption sleeve 28 carries the metal foreign matters and rotates to the position of the scraping inclined plane 35, because the scraping inclined plane 35 is attached to the adsorption sleeve 28, along with the continuous rotation of the adsorption sleeve 28, the metal foreign matters adsorbed on the surface can be scraped by the scraping inclined plane 35 to be separated from the adsorption sleeve 28, and the scraped metal foreign matters fall into the guide cavity 34 and move along the guide cavity 3 to, then enters the collection cavity 31 and finally is discharged out of the main shell 4 along the foreign matter discharge pipe 20, thereby effectively removing the metal foreign matters; the powder from which the metallic foreign matter is removed is introduced into the discharge pipe 1 from the middle of the inner bottom surface of the main casing 4, and then introduced into the mixing and stirring tank 500 by the vacuum feeder 400. In addition, revolution axis 2, absorption sleeve 28 and shelter from casing 25 and transversely rotate at main casing body 4 bottom, can play and prevent that the material from producing the bridging effect, avoid the material to pile up at the feed opening to can avoid piling up the material transmission effect that leads to because of the material not good.

According to the above content, the preparation method of the fruit and vegetable flavor seasoning provided by the invention is convenient to process and treat, is beneficial to realizing automatic production, and has high material mixing efficiency; the provided automatic production equipment has high automation degree, is convenient to regulate and control, can reduce the labor intensity of workers and improves the production efficiency; better powder dispersion and impurity removal effects can be realized; and the dustless workshop can be realized.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that changes and modifications to the above embodiments are within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims (10)

1. The preparation method of the fruit and vegetable flavor seasoning is characterized by comprising the following steps:

s1, weighing the fruit and vegetable essence, pouring the fruit and vegetable essence into a feeding barrel, uniformly mixing, sealing the feeding barrel, heating to 45-50 ℃, and setting the pressure of the feeding barrel to be 1.5MPa to obtain liquid spice for later use;

s2, weighing the silicon dioxide, the monosodium glutamate and the edible salt respectively, filtering and dispersing the silicon dioxide, the monosodium glutamate and the edible salt through a vibrating screen, then introducing the silicon dioxide, the monosodium glutamate and the edible salt into a mixing container for preliminary mixing, and stirring the materials in the mixing container at a rotating speed of 30r/min until the materials are uniformly stirred;

s3, introducing the liquid spice obtained in the step S1 into a mixing container, and stirring at the rotating speed of 2000 r/min;

s4, after the liquid spice is fed, respectively weighing white granulated sugar, fruit and vegetable powder, maltodextrin, seasoning powder, yeast extract, malic acid, citric acid, glycine and 5' -flavor nucleotide disodium, filtering and dispersing by a vibrating screen, then introducing into a mixing container, carrying out secondary feeding and mixing, and keeping the stirring speed at 2000r/min until the materials are uniformly stirred;

s5, subpackaging in an automatic packaging production line to obtain the fruit and vegetable flavor seasoning;

the weight parts of the raw materials are as follows: 18-25 parts of fruit and vegetable essence, 32-40 parts of silicon dioxide, 105-120 parts of monosodium glutamate, 80-120 parts of edible salt, 250-345 parts of white granulated sugar, 120-190 parts of fruit and vegetable powder, 80-105 parts of maltodextrin, 50-60 parts of seasoning powder, 23-31 parts of yeast extract, 6-7 parts of malic acid, 3-6 parts of citric acid, 1-5 parts of glycine and 2-3 parts of 5' -flavor nucleotide disodium.

2. The method for preparing fruit and vegetable flavor seasoning according to claim 1, wherein the seasoning is prepared by mixing the fruit and vegetable flavor seasoning with the vegetable flavor seasoning,

in step S1, the fruit and vegetable essence is tomato essence and plum essence, wherein the tomato essence is 15 parts by weight, and the plum essence is 10 parts by weight;

in step S2, the silica is 40 parts by mass, the monosodium glutamate is 120 parts by mass, and the edible salt is 80 parts by mass;

in step S4, 345 parts by mass of white granulated sugar; the fruit and vegetable powder comprises tomato powder and green plum powder, wherein the tomato powder is 125 parts by weight, and the green plum powder is 65 parts by weight; the mass part of the maltodextrin is 105 parts; the seasoning powder comprises hydrolyzed vegetable protein seasoning powder and capsanthin seasoning powder, wherein the hydrolyzed vegetable protein seasoning powder comprises 35 parts by weight, and the capsanthin seasoning powder comprises 25 parts by weight; the mass portion of the yeast extract is 23 portions; 6 parts of malic acid; 3 parts of citric acid; 1 part of glycine in parts by weight; 2 parts of 5' -flavor nucleotide disodium by mass;

in step S5, the tomato plum flavor seasoning is obtained after being separately packaged.

3. The method for preparing fruit and vegetable flavor seasoning according to claim 1, wherein the seasoning is prepared by mixing the fruit and vegetable flavor seasoning with the vegetable flavor seasoning,

in step S1, the fruit and vegetable essence is cucumber essence, and the mass portion of the cucumber essence is 18 parts;

in step S2, the silica is 32 parts by mass, the monosodium glutamate is 105 parts by mass, and the edible salt is 120 parts by mass;

in step S4, the white granulated sugar is 250 parts by mass; the fruit and vegetable powder comprises coriander powder, cucumber powder, coriander powder and onion powder, wherein the coriander powder is 36 parts by weight, the cucumber powder is 25 parts by weight, the coriander powder is 24 parts by weight, and the onion powder is 36 parts by weight; the mass portion of the maltodextrin is 80 portions; the seasoning powder is soy sauce seasoning powder, and the soy sauce seasoning powder accounts for 50 parts by mass; the mass part of the yeast extract is 31 parts; 7 parts of malic acid; the mass part of the citric acid is 6 parts; the mass part of the glycine is 5 parts; the mass portion of the 5' -flavor nucleotide disodium is 3 portions, and whey powder is added in the step, wherein the mass portion of the whey powder is 172 portions;

in step S5, the cucumber-flavored seasoning is obtained after being separately packaged.

4. An automatic production device adopted by the preparation method of the fruit and vegetable flavor seasoning according to claim 1, characterized by comprising a dust-free feeding station (100) at a lower position, an essence feeding barrel (200), an automatic packaging line (300), a vacuum feeding machine (400) at an upper position, and a mixing and stirring barrel (500) arranged between the vacuum feeding machine (400) and the automatic packaging line (300), wherein the output end of the dust-free feeding station (100) is connected with the input end of the vacuum feeding machine (400), the output ends of the vacuum feeding machine (400) and the essence feeding barrel (200) are respectively communicated with the output end of the mixing and stirring barrel (500), and a spiral conveying pipeline (50) is arranged between the output end of the mixing and stirring barrel (500) and the automatic packaging line (300);

the dust-free feeding station (100) comprises a main shell (4) with a vibrating screen arranged inside, a feed inlet is formed in the middle of the top of the main shell (4), and a sealable cabin door (11) is arranged on the outer side of the feed inlet; the bottom surface of the main shell (4) is in a conical shape gradually decreasing from the peripheral side to the middle, and the center of the bottom surface of the main shell (4) is connected with a discharge pipe (1); the top of the main shell (4) is provided with a dust absorption mechanism at two sides of the feed inlet; the vibrating screen comprises a first-level vibrating screen (7) and a second-level vibrating screen (5), wherein the first-level vibrating screen (7) is horizontally arranged, the second-level vibrating screen (5) is positioned under the first-level vibrating screen (7), the first-level vibrating screen (7) is a 20-mesh sieve, the second-level vibrating screen (5) is a 40-mesh sieve, the outer sides of the two vibrating screens are respectively sleeved with a lifting ring body (17) which is horizontally arranged, each vibrating screen is rotatably connected with the corresponding lifting ring body (17) through a first bearing (18), the outer side of each lifting ring body (17) is connected with the inner wall of a main shell (4) in a sliding mode through a sliding rail (6) which is longitudinally arranged, one side of the main shell (4) is provided with a driving mechanism (16) which drives the lifting ring body (17) to move up and down, the centers of the first-level vibrating screen (7) and the second-level vibrating screen (5), the upper end of the fixed rod (22) extends to the upper part of the driving sleeve (24) and transversely extends to be fixedly connected with the inner wall of the main shell (4), a rotary driving assembly which is in one-to-one correspondence and aligned with the vibrating screen is arranged between the fixed rod (22) and the driving sleeve (24), the rotary driving assembly comprises a ball (44) embedded on the surface of the fixed rod (22) and a spiral groove (23) arranged on the inner side of the driving sleeve (24), the outer part of the ball (44) is positioned in the spiral groove (23), and the spiral groove (23) is arc-shaped and extends from one side of the driving sleeve (24) to the opposite side of the driving sleeve;

the lower extreme inboard of main casing body (4) is vertical to be equipped with through spline structure and the gangbar (32) that initiative sleeve pipe (24) lower extreme rotated the linkage, just initiative sleeve pipe (24) inboard is equipped with the spline, set up on gangbar (32) with spline looks adaptation and along the cell body that self length direction extends, the lower extreme of gangbar (32) is fixed with at least two public pivot (2) that are on a parallel with main casing body (4) bottom surface generating line along its week side equidistance, one side of public pivot (2) is fixed with permanent-magnet strip (36), rotatable formula cover is equipped with adsorption sleeve (28) on public pivot (2), the one end fixed cover that adsorption sleeve (28) dorsad gangbar (32) is equipped with helical gear (27), the top joggle of helical gear (27) is equipped with annular rack (3) that the level set up, annular rack (3) are fixed with fixed block (26) with main casing body (4) fixed connection along its week side equidistance, a shielding shell (25) with a sector-ring-shaped section is arranged on one side, back to the permanent magnet strips (36), of the outer side of the shielding sleeve (28), a material guide cavity (34) is formed inside the shielding shell (25), the upper end of the shielding shell (25) is open, the inner arc section of the shielding shell (25) is attached to the shielding sleeve (28), the upper end of the inner arc section of the shielding shell (25) is a material scraping inclined plane (35), the upper end of the outer arc section of the shielding shell (25) extends to the position above the top of the attached absorbing sleeve (28), one end of the shielding shell (25) is fixedly connected with a linkage rod (32), a collecting cavity (31) is formed inside the lower end of the linkage rod (32), and the material guide cavity (34) is communicated with the collecting cavity (31); the below intercommunication formula of gangbar (32) is equipped with foreign matter discharge pipe (20) that extend to the discharging pipe (1) outside, the top of foreign matter discharge pipe (20) is fixed with bearing board (30), the lower extreme of gangbar (32) is connected with bearing board (30) through second bearing (33), the bottom of bearing board (30) is passed through stiffener (29) and discharging pipe (1) inner wall fixed connection.

5. The automatic production equipment according to claim 4, wherein the output end of the vacuum feeder (400) is provided with a pneumatic valve (51), a ceramic filter element (52) is arranged in the vacuum feeder (400), the upper end of the vacuum feeder (400) is connected with a vacuum pump (53) through a pipeline, and a corrugated paper filter element (54) is arranged on the pipeline; be equipped with the axis of rotation on the axis in mixing and stirring bucket (500), and be fixed with screw (55) in the axis of rotation, lower extreme one side of axis of rotation is fixed with fly sword (57), both sides of mixing and stirring bucket (500) lower extreme all are equipped with cyclone shower nozzle (56) with essence feed cylinder (200) intercommunication.

6. The automatic production equipment of claim 4, wherein the dust absorption mechanism comprises an air suction shell (10) fixedly connected with the top of the main shell (4), a horizontally arranged central rotating shaft (14) is arranged in the air suction shell (10), a suction fan (9) is fixed on the central rotating shaft (14), one end of the central rotating shaft (14) extends to the outer side of the air suction shell (10) and is sleeved with a transmission sleeve (38), a third bearing (39) is arranged at a position on the air suction shell (10) through which the central rotating shaft (14) passes, the inner side of the transmission sleeve (38) is connected with the central rotating shaft (14) through a one-way bearing (37), one end of the transmission sleeve (38) facing the air suction shell (10) is connected with the air suction shell (10) through a torsion spring (13), and a tightening pull rope (8) is wound on the transmission sleeve (38), one end of the tight pulling rope (8) is fixed on the transmission sleeve (38), the other end of the tight pulling rope (8) penetrates through the main shell (4) and is fixedly connected with the lifting ring body (17), the bottom of the air suction shell (10) is connected with an air suction pipe (15) extending to the inner side of the main shell (4), and the other side of the air suction shell (10) is connected with a dust collection pipe (12).

7. The automatic production equipment of claim 4, wherein the two lifting ring bodies (17) are connected together through a connecting rod, the lifting ring body (17) positioned above is connected with a driving mechanism (16), the driving mechanism (16) comprises a motor (43), a rotating disc (41) fixedly connected with an output shaft of the motor (43), and a swinging rod (40) connected between the rotating disc (41) and the lifting ring body (17), the rotating disc (41) is vertically arranged, a connecting rod (42) horizontally arranged is fixed at an eccentric position of the rotating disc (41), the swinging rod (40) is parallel to the rotating disc (41), and two ends of the swinging rod (40) are respectively hinged with the connecting rod (42) and the corresponding lifting ring body (17).

8. The automated production equipment according to claim 4, wherein the rotary driving assembly comprises two balls (44) symmetrically embedded on the surface of the fixing rod (22) and two spiral grooves (23) corresponding to the balls (44) one by one, and the two spiral grooves (23) are respectively positioned on two opposite sides of the fixing rod (22).

9. The automated production equipment according to claim 4, wherein the inner side wall of the periphery of the primary vibrating screen (7) and the secondary vibrating screen (5) is fixed with at least two long reinforcing rods (21) fixedly connected with the driving sleeve (24) at equal intervals along the periphery.

10. The automatic production equipment according to claim 4, wherein a material guide plate (19) is fixedly sleeved on the lower end of the driving sleeve (24), and the upper end surface of the material guide plate (19) is gradually lowered from the middle part to the peripheral side.

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