CN110975715A - Shaking type efficient preparation machine for vegetable and fruit enzyme beverage - Google Patents

Abstract

The invention relates to the technical field of preparation equipment of vegetable and fruit enzyme drinks, in particular to a shaking type efficient preparation machine for vegetable and fruit enzyme drinks; the first gear is driven and drives the first rotating shaft to rotate, so that the stirring rod rotates to stir materials in the stirring box, and meanwhile, the first rotating shaft directly enables the left pull rope to pull the stirring box through the left take-up pulley; on the other hand, the second rotating shaft is driven to rotate through gear transmission, so that the right take-up pulley pulls the stirring box through the right pull rope, the two ropes work correspondingly, and one end of each rope is pulled and the other end of each rope is put; the first rotating shaft rotates in a reciprocating mode, so that the stirring box is driven to move under the action of the pull rope, and the stirring area of the stirring assembly is changed; the agitator tank moves about to based on the design of bellying seat, when making the agitator tank remove, still produce reciprocal slope, make inside material rock, the cooperation stirring subassembly carries out the efficient and dissolves the mixing.

Description

Shaking type efficient preparation machine for vegetable and fruit enzyme beverage

Technical Field

The invention relates to the technical field of vegetable and fruit enzyme preparation equipment, in particular to a shaking type efficient preparation machine for vegetable and fruit enzyme drinks.

Background

The ferment is a mixed fermentation broth which is prepared by taking fresh vegetables, fruits, brown rice, medicinal and edible traditional Chinese medicines and other plants as raw materials, juicing or extracting a series of processes, and then adding yeast, lactobacillus and other fermentation strains for fermentation, and contains abundant nutrient components such as saccharides, organic acids, minerals, vitamins, phenols, terpenes and other biological active substances such as important enzymes.

The enzymes are mainly divided into enzyme solution, enzyme powder and enzyme tablet.

Enzyme solution: generally, the enzyme is a stock solution enzyme prepared by extracting and refining natural animal and plant components through an advanced fermentation control technology. The enzyme can be extracted and survived without boiling water, and the activity of the enzyme is the highest in a liquid state. The ferment liquid can most truly and originally retain extracted substances without any impurity. The liquid ferment can be absorbed into the nutrient components most directly and efficiently after being taken by a human body.

Enzyme powder: the preparation method mainly utilizes spray drying and freeze drying to dry solid matters in materials into powder by a technology, and belongs to secondary processing. Some trade companies add other substances to pulverize the ferment liquid easily for saving cost. The powder is more convenient to carry, but the powder is obtained by drying the liquid ferment at high temperature and removing water.

Enzyme tablet (capsule): or drying the liquid ferment at high temperature, removing water to obtain powdery ferment, and then adding other auxiliary materials for compression and packaging.

The ferment beverage is a beverage containing a plurality of ferment metabolites extracted from a huge ferment group derived from plants and microorganisms.

The ferment beverage has the functions of supplementing ferment which is lacked by human body and preserving health. The ferment component of the ferment beverage can regulate the stomach and intestine, improve digestion and absorption and strengthen the physique; enhancing immunity, improving resistance, diminishing inflammation, and killing bacteria; eliminating free radicals, delaying aging, preventing cancer, and caring skin; promoting metabolism of fat, starch and protein, and improving obesity caused by overnutrition.

The ferment beverage market shows a trend of increasing speed in recent years, and the corresponding industrialized production equipment of ferment beverages is not kept up with.

Most of the existing ferment beverages adopt a preparation method, namely, raw materials and a solvent are mixed, and the raw materials are dissolved in the solvent to prepare the beverage. The three enzyme raw materials are mainly adopted, and the situation that the two solid enzymes are used as the raw materials is common in consideration of transportation of enzyme finished products.

And current ferment drink prepares device, mix that the stirring time is long, the raw materials dissolves inefficiency, the composition homogeneity of drink is low, leads to the not good scheduling problem of taste, needs to design a formula vegetables and fruits ferment drink of rocking and uses high-efficient system machine.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provides a shaking type efficient preparation machine for vegetable and fruit enzyme drinks.

(II) technical scheme

A shaking type efficient preparation machine for vegetable and fruit enzyme drinks comprises a frame, a driving component, a stirring box and a pulling component;

the frame comprises a base, a convex seat, a right side plate, a partition plate, a top plate and a left side plate, wherein the convex seat is arranged on the base, the right end of the base is connected with the vertical right side plate, the middle part of the right side plate is connected with the partition plate leftwards, the top of the right side plate is connected with the top plate, and the left end of the top plate is downwards connected with the left side plate; the stirring box is arranged on the base, and the bottom of the stirring box is matched with the convex seat; a driving assembly is arranged on the right side of the left side plate, a stirring assembly is arranged on the partition plate, and the stirring assembly extends downwards into the stirring box; the left side and the right side of the stirring box are provided with pulling components which are matched with the stirring components.

Preferably, the driving assembly comprises an electric take-up pulley, a first pull rope, a moving block, an S-shaped hole, a sliding shaft, a first type of spring, a first support plate, a first sliding block, a first sliding rail, a first rod, a second sliding block and a second sliding rail;

the bottom of the top plate is provided with an electric take-up pulley, the electric take-up pulley is connected with a first pull rope, and the bottom end of the first pull rope is connected with a moving block; the left side of the moving block is connected with a first sliding block, the right side of the left side plate is provided with a first sliding rail, and the first sliding block is connected with the first sliding rail in a sliding manner; a first support plate is arranged below the moving block, the left end of the first support plate is fixedly connected with a left side plate, and a first-class spring is connected between the moving block and the first support plate; the moving block is provided with an S-shaped hole, a sliding shaft is matched in the S-shaped hole, the front end of the sliding shaft is rightwards connected with a first rod, and the right end of the first rod is connected with the stirring assembly; a rod upwards is connected with a second rod, the top end of the second rod is provided with a second sliding block, the bottom of the top plate is provided with a second sliding rail, and the second sliding block is connected with the second sliding rail in a sliding mode.

Preferably, the stirring assembly comprises a first rack, a first gear, a first rotating shaft, a stirring rod, a second spring and a small ball;

the right end of the first rod is connected with a first rack which is matched with a first gear, and the first gear is arranged at the top of the first rotating shaft; the first rotating shaft penetrates downwards and is rotatably connected with the partition plate; the first rotating shaft extends downwards into the stirring box and is uniformly provided with stirring rods; the outer end of the stirring rod is connected with a small ball through a second type spring.

Preferably, the pulling assembly comprises a second gear, a third gear, a shaft sleeve, a fourth gear, a second rotating shaft, a left take-up pulley, a left pull rope, a left wire guide wheel, a right take-up pulley, a right pull rope and a right wire guide wheel;

a left take-up pulley is arranged on the first rotating shaft and connected with a left pull rope; a left wire guide wheel is arranged on the right side of the left side plate, and a left pull rope bypasses the left wire guide wheel and is connected with a hanging ring on the left side of the stirring box; a shaft sleeve is arranged on the right side of the first rotating shaft, and the bottom end of the shaft sleeve is rotatably connected with the partition plate through a bearing; the first rotating shaft is also provided with a second gear, the shaft sleeve is provided with a third gear, and the second gear is matched with the third gear; a second rotating shaft is arranged on the right side of the shaft sleeve, the bottom end of the second rotating shaft is also rotatably connected with the partition plate through a bearing, a fourth gear is arranged on the second rotating shaft, and the fourth gear is matched with the third gear; a right take-up pulley is also arranged on the second rotating shaft and connected with a right pull rope; and a right wire guide wheel is arranged on the right side plate, and a right pull rope is wound around the right wire guide wheel and is connected with a hanging ring on the right side of the stirring box.

Preferably, the stirring box comprises a box body, a hanging ring, a liquid discharge pipe, support legs and rollers;

the top of the box body is provided with an opening, the inner side of the bottom of the box body is provided with an inclined plane with a higher end and a lower end, the lower end of the inclined plane is also externally connected with a liquid discharge pipe, and a valve is arranged on the liquid discharge pipe; hanging rings are arranged on the left outer wall and the right outer wall of the box body; the bottom of the box body is connected with support legs, and the bottom ends of the support legs are provided with idler wheels.

Preferably, the convex seat is an arc-shaped table, an arc-shaped groove is formed in the arc-shaped table, and the roller is matched with the arc-shaped groove.

Preferably, the device further comprises a feeding assembly; the feeding assembly is arranged on the left side of the right side plate and comprises a crushing hopper, a material guide pipe, a discharging pipe and a first supporting rod;

the crushing hopper is fixedly connected with the right side plate through a first supporting rod; the bottom end of the crushing hopper is connected with a material guide pipe, and the bottom end of the material guide pipe is connected with a discharging pipe; the blanking pipe coaxially penetrates through the shaft sleeve downwards, and a rubber ring is arranged between the blanking pipe and the shaft sleeve; the bottom end of the blanking pipe passes through the clapboard and faces to the stirring box.

Preferably, the crushing device also comprises a third rod, a second rack, a fifth gear, a third rotating shaft and a crushing cutter;

the second rod is connected with a third rod rightwards, the right end of the third rod is connected with a second rack, and the second rack is matched with the fifth gear; the fifth gear is arranged on the third rotating shaft, and the top end of the third rotating shaft is rotatably connected with the top plate through a bearing; the third rotating shaft extends downwards into the crushing hopper and is uniformly provided with crushing knives.

Preferably, the material vibrating device further comprises a material vibrating component, wherein the material vibrating component is arranged on the right side of the feeding component and comprises a sixth gear, a fourth rotating shaft, a cylindrical cam, a roller, a bending rod, a collision end and a second support rod;

no. two pivot tops are provided with the cylindrical cam, and the cylindrical cam cooperation has a roller, and the roller setting is in the pole bottom of buckling, and the end of buckling the pole is articulated with No. two branch left ends, and No. two branch right-hand members rigid coupling is provided with the collision end on the pole top of buckling on the right side board, and the collision end is facing to smashing and is fought.

Preferably, the material vibration device further comprises a second material vibration component, wherein the second material vibration component is arranged on the left side of the feeding component and comprises a second pull rope, a first wire guide wheel, a second support plate, a third support rod, a collision plate and a third type of spring;

the second support plate is arranged on the left side of the material guide pipe and is fixedly connected with the material guide pipe through a third support rod; a second wire guide wheel is arranged on the second support plate, a collision plate is arranged below the second support plate, and the collision plate is connected with the second support plate through a third type of spring; no. one rack right-hand member is connected with the stay cord No. two, smashes the fill left side and is provided with the wire wheel No. one, and No. two stay cords are walked around wire wheel No. one, No. two wire wheels and are passed and connect the collision board behind No. two extension boards.

(III) advantageous effects

The invention provides a shaking type efficient preparation machine for vegetable and fruit enzyme drinks, which has the following advantages:

1, an electric take-up pulley is adopted to take up and pay off a first pull rope, and a moving block moves up and down under the action of self gravity and a bottom spring; in the process of moving the moving block up and down, the sliding shaft and the S-shaped hole act to enable the sliding shaft to drive the first rod to move left and right, the first rack also moves along with the first rod, the first gear is driven to drive the first rotating shaft to rotate, so that the stirring rod rotates to stir materials in the stirring box, and meanwhile, the first rotating shaft directly enables the left pull rope to pull the stirring box through the left take-up pulley; on the other hand, the second rotating shaft is driven to rotate through gear transmission, so that the right take-up pulley pulls the stirring box through the right pull rope, the two ropes work correspondingly, and one end of each rope is pulled and the other end of each rope is put; the first rotating shaft rotates in a reciprocating mode, so that the stirring box is driven to move under the action of the pull rope, and the stirring area of the stirring assembly is changed; the agitator tank moves about to based on the design of bellying seat, when making the agitator tank remove, still produce reciprocal slope, make inside material rock, the cooperation stirring subassembly carries out the efficient and dissolves the mixing.

2, still set up the feeding subassembly, utilize No. two poles to follow the pole and remove about, make No. two racks remove, drive No. five gear belts No. three pivots and rotate, make crushing sword smash the ferment piece that drops into from smashing the fill, later through passage, unloading pipe fall into the agitator tank in, the ferment piece after smashing, the size of granule reduces, is convenient for dissolve with higher speed.

3, still set up a shake material subassembly, when utilizing No. two pivot rotations, still drive cylindrical cam and rotate, the channel cooperation of roller and cylindrical cam makes the pole of buckling take place to sway to make the collision end to smashing fill intermittent type collision, make to smash and fight and produce vibrations, the unloading with higher speed.

4, a second material vibrating component is further arranged, and the first pull rope is released while the first rack moves left and right along with the first rod; the collision plate intermittently collides the material guide pipes under the action of the second pull rope and the third springs, so that the material guide pipes vibrate and discharge is accelerated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of one embodiment of the present invention;

FIG. 3 is a block diagram of a drive assembly;

FIG. 4 is a block diagram of a stirring assembly;

FIG. 5 is a block diagram of the pulling assembly;

FIG. 6 is a perspective view of the boss;

FIG. 7 is a block diagram of a feed assembly;

FIG. 8 is a block diagram of the first seismic assembly;

FIG. 9 is a structural diagram of the second vibration material assembly;

in the drawings, the components represented by the respective reference numerals are listed below:

1-frame, 101-base, 102-convex base, 1021-arc table, 1022-arc groove, 103-right side plate, 104-partition plate, 105-top plate, 106-left side plate;

2-a driving assembly, 201-an electric take-up pulley, 202-a pull rope, 203-a moving block, 204-an S-shaped hole, 205-a sliding shaft, 206-a type of spring, 207-a support plate, 208-a sliding block, 209-a sliding rail, 210-a rod, 211-a rod, 212-a sliding block and 213-a sliding rail;

3-stirring component, 301-first rack, 302-first gear, 303-first rotating shaft, 304-stirring rod, 305-second type spring, 306-small ball;

4-stirring box, 401-box, 402-hanging ring, 403-liquid discharge pipe, 404-supporting foot, 405-roller;

5-pulling component, 501-gear II, 502-gear III, 503-shaft sleeve, 504-gear IV, 505-shaft II, 506-left take-up pulley, 507-left pull rope, 508-left guide pulley, 509-right take-up pulley, 510-right pull rope and 511-right guide pulley;

6-feeding component, 601-third rod, 602-second rack, 603-fifth gear, 604-third rotating shaft, 605-crushing knife, 606-first supporting rod, 607-crushing hopper, 608-material guide pipe, 609-discharging pipe and 610-rubber ring;

7-a material vibrating component, 701-a sixth gear, 702-a fourth rotating shaft, 703-a cylindrical cam, 704-a roller, 705-a bent rod, 706-a collision end and 707-a second support rod;

8-second vibration component, 801-second pull rope, 802-first wire guide wheel, 803-second wire guide wheel, 804-second support plate, 805-third support rod, 806-collision plate and 807-third type spring.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A shaking type efficient preparation machine for vegetable and fruit enzyme drinks comprises a frame 1, a driving component 2, a stirring component 3, a stirring box 4 and a pulling component 5;

the frame 1 comprises a base 101, a convex seat 102, a right side plate 103, a partition plate 104, a top plate 105 and a left side plate 106, wherein the convex seat 102 is arranged on the base 101, the right end of the base 101 is connected with the vertical right side plate 103, the middle part of the right side plate 103 is connected with the partition plate 104 leftwards, the top of the right side plate 103 is connected with the top plate 105, and the left end of the top plate 105 is downwards connected with the left side plate 106; the stirring box 4 is arranged on the base 101, and the bottom of the stirring box is matched with the boss 102; the right side of the left side plate 106 is provided with a driving assembly 2, the partition plate 104 is provided with a stirring assembly 3, and the stirring assembly 3 extends downwards into the stirring box 4; the left side and the right side of the stirring box 4 are provided with pulling components 5, and the pulling components 5 are matched with the stirring components 3.

Example 2

A shaking type efficient preparation machine for vegetable and fruit enzyme drinks comprises a frame 1, a driving component 2, a stirring component 3, a stirring box 4 and a pulling component 5;

the frame 1 comprises a base 101, a convex seat 102, a right side plate 103, a partition plate 104, a top plate 105 and a left side plate 106, wherein the convex seat 102 is arranged on the base 101, the right end of the base 101 is connected with the vertical right side plate 103, the middle part of the right side plate 103 is connected with the partition plate 104 leftwards, the top of the right side plate 103 is connected with the top plate 105, and the left end of the top plate 105 is downwards connected with the left side plate 106; the stirring box 4 is arranged on the base 101, and the bottom of the stirring box is matched with the boss 102; the right side of the left side plate 106 is provided with a driving assembly 2, the partition plate 104 is provided with a stirring assembly 3, and the stirring assembly 3 extends downwards into the stirring box 4; the left side and the right side of the stirring box 4 are provided with pulling components 5, and the pulling components 5 are matched with the stirring components 3.

The driving assembly 2 comprises an electric take-up pulley 201, a first pull rope 202, a moving block 203, an S-shaped hole 204, a sliding shaft 209, a first type of spring 206, a first support plate 207, a first sliding block 208, a first sliding rail 209, a first rod 210, a second rod 211, a second sliding block 212 and a second sliding rail 213;

an electric take-up pulley 201 is mounted at the bottom of the top plate 105, the electric take-up pulley 201 is connected with a first pull rope 202, and the bottom end of the first pull rope 202 is connected with a moving block 203; a first sliding block 208 is fixedly connected to the left side of the moving block 203, a first sliding rail 209 is arranged on the right side of the left side plate 106, and the first sliding block 208 is in sliding connection with the first sliding rail 209; a first support plate 207 is arranged below the moving block 203, the left end of the first support plate 207 is fixedly connected with the left side plate 106, and a first-class spring 206 is connected between the moving block 203 and the first support plate 207; the moving block 203 is provided with an S-shaped hole 206, a sliding shaft 209 is matched in the S-shaped hole 206, the front end of the sliding shaft 209 is connected with a first rod 209 rightwards, and the right end of the first rod 209 is connected with the stirring component 3; no. one pole 210 upwards is connected with No. two poles 211, and No. two pole 211 top rigid coupling has No. two sliders 212, and No. two slide rail 213 are equipped with to roof 105 bottom, No. two slider 212 and No. two slide rail 213 sliding connection.

Specifically, the electric take-up pulley 201 is started to take up and pay off the first pull rope 202, and the moving block 203 moves up and down under the action of self gravity, the bottom spring 206 and the guide action of the slide block slide rail; in the process of moving the moving block 203 up and down, the sliding shaft 209 acts on the S-shaped hole 206 and also has the guiding function of the sliding block sliding rail, so that the sliding shaft 209 drives the first rod 210 to move left and right, and power is supplied to the stirring assembly 3.

The stirring component 3 comprises a first rack 301, a first gear 302, a first rotating shaft 303, a stirring rod 304, a second spring 305 and a small ball 306;

the right end of the first rod 210 is connected with a first rack 301, the first rack 301 is matched with a first gear 302, and the first gear 302 is arranged at the top of a first rotating shaft 303; a first rotating shaft 303 penetrates downwards and is rotatably connected with the partition plate 104; the first rotating shaft 303 extends downwards into the stirring box 4 and is uniformly connected with stirring rods 304; the outer end of the stirring rod 304 is connected with a small ball 306 through a second type spring 305.

Specifically, when the first rod 210 moves left and right, the first rack 301 moves along with the first rod, so that the first gear 302 is driven to drive the first rotating shaft 303 to rotate, the stirring rod 304 rotates, and materials in the stirring box 4 are stirred; the second type spring 305 and the small ball 306 are arranged, so that the turbulence effect of the material is increased, and the uniformity is improved.

Wherein, also comprises a pulling component 5; the pulling assembly 5 comprises a second gear 501, a third gear 502, a shaft sleeve 503, a fourth gear 504, a second rotating shaft 505, a left take-up pulley 506, a left pulling rope 507, a left wire guide pulley 508, a right take-up pulley 509, a right pulling rope 510 and a right wire guide pulley 511;

a left take-up pulley 506 is arranged on the first rotating shaft 303, and the left take-up pulley 506 is connected with a left pull rope 507; a left wire guide wheel 509 is arranged on the right side of the left side plate 106, and a left pull rope 507 bypasses the left wire guide wheel 509 and is connected with a hanging ring 402 on the left side of the stirring box 4; a shaft sleeve 503 is arranged on the right side of the first rotating shaft 303, and the bottom end of the shaft sleeve 503 is rotatably connected with the partition plate 104 through a bearing; a second gear 501 is further arranged on the first rotating shaft 303, a third gear 502 is arranged on a shaft sleeve 503, and the second gear 501 is matched with the third gear 502; a second rotating shaft 509 is arranged on the right side of the shaft sleeve 503, the bottom end of the second rotating shaft 509 is also rotatably connected with the partition plate 104 through a bearing, a fourth gear 504 is arranged on the second rotating shaft 509, and the fourth gear 504 is matched with the third gear 502; a right take-up pulley 509 is further arranged on the second rotating shaft 509, and the right take-up pulley 509 is connected with a right pull rope 510; the right side plate 102 is provided with a right wire guide wheel 511, and a right pull rope 510 is passed around the right wire guide wheel 511 and connected to the hanging ring 402 on the right side of the agitation case 4.

In order to facilitate the installation of the right pulling rope 510, the right side plate 102 is provided with a through groove for the right pulling rope 510 to pass through. When the first rotating shaft 303 rotates, on one hand, the left take-up pulley 506 rotates along with the first rotating shaft, and the stirring box 4 is pulled through the left pull rope 508; on the other hand, the first rotating shaft 303 also rotates the second rotating shaft 509 through gear transmission, so that the right take-up pulley 509 rotates, the stirring box 4 is pulled through the right pull rope 510, the two ropes correspond to each other in work, and one end of each rope is pulled; because the first rotating shaft 303 rotates in a reciprocating manner, the stirring box 4 is driven to move under the action of the pull rope, and the stirring area of the stirring assembly 3 is changed.

The stirring box 4 comprises a box body 401, a hanging ring 402, a drain pipe 403, a support leg 404 and a roller 405;

an opening is formed in the top of the box body 401, an inclined plane with a higher end and a lower end is machined on the inner side of the bottom of the box body, a liquid discharge pipe 403 is further externally connected to the lower end of the box body, and a valve is mounted on the liquid discharge pipe 403; hanging rings 402 are fixedly connected to the left outer wall and the right outer wall of the box body 401; the bottom of the box 401 is connected with a support leg 404, and the bottom end of the support leg 404 is provided with a roller 405.

Wherein, the convex seat 102 is an arc-shaped platform 1021, an arc-shaped groove 1022 is arranged on the arc-shaped platform 1021, and the roller 405 is matched with the arc-shaped groove 1022.

Specifically, the manual work is to throwing in ferment raw materials and solvent in agitator tank 4, pulls subassembly 5 and takes agitator tank 4 to remove to based on the design of protruding seat 102, when making agitator tank 4 remove, still produce reciprocal slope, make inside material rock, cooperation stirring subassembly 3 carries out the efficient and dissolves the mixing. After the mixing is completed, the liquid discharge pipe 403 is opened to discharge the beverage, and the beverage is processed in the next step.

Example 3

On the basis of the example 2, the method comprises the following steps of,

also comprises a feeding component 6; the feeding assembly 6 is arranged on the left side of the right side plate 102 and comprises a crushing hopper 607, a material guide pipe 608, a discharging pipe 609 and a first support rod 606;

the crushing hopper 607 is fixedly connected with the right side plate 102 through a first supporting rod 606; the bottom end of the crushing hopper 607 is connected with a material guide pipe 608, and the bottom end of the material guide pipe 608 is connected with a discharging pipe 609; the feeding pipe 609 coaxially penetrates through the shaft sleeve 503 downwards, and a rubber ring 611 is arranged between the feeding pipe 609 and the shaft sleeve 503; the bottom end of the feed pipe 609 passes through the partition 104 and faces the stirring tank 4.

The crushing device also comprises a third rod 601, a second rack 602, a fifth gear 603, a third rotating shaft 604 and a crushing knife 605;

the second rod 211 is connected with a third rod 601 rightwards, the right end of the third rod 601 is connected with a second rack 602, and the second rack 602 is matched with a fifth gear 603; the fifth gear 603 is arranged on the third rotating shaft 604, and the top end of the third rotating shaft 604 is rotatably connected with the top plate 105 through a bearing; the third rotating shaft 604 extends downwards into the crushing hopper 607 and is uniformly provided with crushing blades 605.

Concretely, throw into ferment raw materials from smashing fill 607, because No. two poles 211 and follow No. one pole 210 and remove about, with stirring subassembly 3 principle similar, move through No. two racks 602, drive No. five gears 603 and take No. three pivot 604 to rotate, make crushing sword 605 smash the ferment raw materials after pass through passage 608, blanking pipe 609 and fall into agitator tank 4. The size of the crushed ferment raw material particles is reduced, so that the accelerated dissolution is facilitated.

Example 4

On the basis of the example 3, the method comprises the following steps,

the material vibrating device further comprises a first material vibrating component 7, wherein the first material vibrating component 7 is arranged on the right side of the feeding component 6 and comprises a sixth gear 701, a fourth rotating shaft 702, a cylindrical cam 703, a roller 704, a bending rod 705, a collision end 706 and a second supporting rod 707;

the top end of the second rotating shaft 702 is connected with a cylindrical cam 703, the cylindrical cam 703 is matched with a roller 704, the roller 704 is arranged at the bottom end of the bent rod 705, the bent end of the bent rod 705 is hinged with the left end of a second supporting rod 707, the right end of the second supporting rod 707 is fixedly connected to the right side plate 102, the top end of the bent rod 705 is provided with a collision end 706, and the collision end 706 faces the crushing hopper 607.

Specifically, the second rotating shaft 702 drives the cylindrical cam 703 to rotate while rotating, and the rollers 704 are matched with the grooves of the cylindrical cam 703 to enable the bent rod 705 to swing, so that the collision end 706 intermittently collides with the crushing hopper 607, the crushing hopper 607 vibrates, and blanking is accelerated.

Example 5

On the basis of the example 4, the method comprises the following steps of,

the material vibrating device further comprises a second material vibrating component 8, wherein the second material vibrating component 8 is arranged on the left side of the feeding component 6 and comprises a second pull rope 801, a first wire guide wheel 802, a second wire guide wheel 803, a second support plate 804, a third support rod 805, a collision plate 806 and a third type of spring 807;

the second support plate 804 is arranged on the left side of the material guide pipe 608, and the second support plate 804 is fixedly connected with the material guide pipe 608 through a third support rod 805; a second wire guide wheel 803 is arranged on the second support plate 804, a collision plate 806 is arranged below the second support plate 804, and the collision plate 806 is connected with the second support plate 804 through a third type of spring 807; the right end of the first rack 301 is connected with a second pull rope 801, the left side of the crushing bucket 607 is provided with a first wire guide wheel 802, and the second pull rope 801 bypasses the first wire guide wheel 802 and the second wire guide wheel 803 and passes through a second support plate 804 to be connected with a collision plate 806.

Specifically, the first rack 301 moves left and right along with the first rod 210, and simultaneously the second pull rope 801 is released; the collision plate 806 intermittently collides with the material guide pipe 608 under the action of the second pull rope 801 and the third type spring 807, so that the material guide pipe 608 vibrates to accelerate the blanking.

It should be noted that the electrical components are provided with power supplies, and the control method is the prior art, and is unified here for avoiding the redundancy of description; and the present invention is primarily intended to protect mechanical devices, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. A shaking type efficient preparation machine for vegetable and fruit enzyme drinks is characterized by comprising a frame (1), a driving component (2), a stirring component (3), a stirring box (4) and a pulling component (5);

the frame (1) comprises a base (101), a convex seat (102), a right side plate (103), a partition plate (104), a top plate (105) and a left side plate (106), wherein the convex seat (102) is arranged on the base (101), the right end of the base (101) is connected with the vertical right side plate (103), the middle part of the right side plate (103) is connected with the partition plate (104) leftwards, the top of the right side plate (103) is connected with the top plate (105), and the left end of the top plate (105) is downwards connected with the left side plate (106); the stirring box (4) is arranged on the base (101), and the bottom of the stirring box is matched with the boss (102); a driving assembly (2) is arranged on the right side of the left side plate (106), a stirring assembly (3) is arranged on the partition plate (104), and the stirring assembly (3) extends downwards into the stirring box (4); the left side and the right side of the stirring box (4) are provided with pulling components (5), and the pulling components (5) are matched with the stirring component (3).

2. The shaking type efficient mixing machine for the vegetable and fruit ferment beverages as claimed in claim 1, wherein the driving assembly (2) comprises an electric take-up pulley (201), a first pull rope (202), a moving block (203), an S-shaped hole (204), a sliding shaft (205), a first type spring (206), a first support plate (207), a first sliding block (208), a first sliding rail (209), a first rod (210), a second rod (211), a second sliding block (212) and a second sliding rail (213);

an electric take-up pulley (201) is arranged at the bottom of the top plate (105), the electric take-up pulley (201) is connected with a first pull rope (202), and the bottom end of the first pull rope (202) is connected with a moving block (203); the left side of the moving block (203) is connected with a first sliding block (208), the right side of the left side plate (106) is provided with a first sliding rail (209), and the first sliding block (208) is in sliding connection with the first sliding rail (209); a first support plate (207) is arranged below the moving block (203), the left end of the first support plate (207) is fixedly connected with the left side plate (106), and a first-class spring (206) is connected between the moving block (203) and the first support plate (207); the moving block (203) is provided with an S-shaped hole (204), a sliding shaft (205) is matched in the S-shaped hole (204), the front end of the sliding shaft (205) is connected with a first rod (210) rightwards, and the right end of the first rod (210) is connected with the stirring assembly (3); a rod (210) is upwards connected with a second rod (211), a second sliding block (212) is arranged at the top end of the second rod (211), a second sliding rail (213) is arranged at the bottom of the top plate (105), and the second sliding block (212) is connected with the second sliding rail (213) in a sliding mode.

3. The shaking type fruit and vegetable enzyme beverage high-efficiency preparation machine according to claim 2, wherein the stirring assembly (3) comprises a first rack (301), a first gear (302), a first rotating shaft (303), a stirring rod (304), a second spring (305) and a small ball (306);

the right end of the first rod (210) is connected with a first rack (301), the first rack (301) is matched with a first gear (302), and the first gear (302) is arranged at the top of the first rotating shaft (303); the first rotating shaft (303) penetrates downwards and is rotatably connected with the partition plate (104); the first rotating shaft (303) extends downwards into the stirring box (4) and is uniformly provided with stirring rods (304); the outer end of the stirring rod (304) is connected with a small ball (306) through a second type spring (305).

4. The shaking type fruit and vegetable enzyme efficient beverage preparation machine according to claim 3, wherein the pulling assembly (5) comprises a second gear (501), a third gear (502), a sleeve (503), a fourth gear (504), a second rotating shaft (505), a left take-up pulley (506), a left pulling rope (507), a left wire guiding wheel (508), a right wire guiding wheel (509), a right pulling rope (510) and a right wire guiding wheel (511);

a left take-up pulley (506) is arranged on the first rotating shaft (303), and the left take-up pulley (506) is connected with a left pull rope (507); a left wire guide wheel (508) is arranged on the right side of the left side plate (106), and a left pull rope (507) bypasses the left wire guide wheel (508) and is connected with a hanging ring (402) on the left side of the stirring box (4); a shaft sleeve (503) is arranged on the right side of the first rotating shaft (303), and the bottom end of the shaft sleeve (503) is rotatably connected with the partition plate (104) through a bearing; the first rotating shaft (303) is also provided with a second gear (501), the shaft sleeve (503) is provided with a third gear (502), and the second gear (501) is matched with the third gear (502); a second rotating shaft (505) is arranged on the right side of the shaft sleeve (503), the bottom end of the second rotating shaft (505) is also rotatably connected with the partition plate (104) through a bearing, a fourth gear (504) is arranged on the second rotating shaft (505), and the fourth gear (504) is matched with the third gear (502); a right take-up pulley (509) is further arranged on the second rotating shaft (505), and the right take-up pulley (509) is connected with a right pull rope (510); the right side plate (103) is provided with a right wire guide wheel (511), and a right pull rope (510) bypasses the right wire guide wheel (511) and is connected with a hanging ring (402) on the right side of the stirring box (4).

5. The shaking type fruit and vegetable enzyme beverage high-efficiency preparation machine according to claim 4, wherein the stirring tank (4) comprises a tank body (401), a hanging ring (402), a drain pipe (403), a support leg (404) and a roller (405);

an opening is formed in the top of the box body (401), an inclined plane with a higher end and a lower end is arranged on the inner side of the bottom of the box body, a liquid discharge pipe (403) is further externally connected to the lower end of the box body, and a valve is arranged on the liquid discharge pipe (403); hanging rings (402) are arranged on the left outer wall and the right outer wall of the box body (401); the bottom of the box body (401) is connected with a supporting leg (404), and the bottom end of the supporting leg (404) is provided with a roller (405).

6. The shaking type fruit and vegetable ferment beverage high-efficiency preparation machine according to claim 5, wherein the convex seat (102) is an arc-shaped platform (1021), an arc-shaped groove (1022) is formed on the arc-shaped platform (1021), and the roller (405) is matched with the arc-shaped groove (1022).

7. The shaking type fruit and vegetable enzyme beverage high-efficiency preparation machine according to claim 6, further comprising a feeding assembly (6); the feeding assembly (6) is arranged on the left side of the right side plate (103) and comprises a crushing hopper (607), a material guide pipe (608), a discharging pipe (609) and a first support rod (606);

the crushing hopper (607) is fixedly connected with the right side plate (103) through a first supporting rod (606); the bottom end of the crushing hopper (607) is connected with a material guide pipe (608), and the bottom end of the material guide pipe (608) is connected with a discharging pipe (609); the feeding pipe (609) penetrates through the shaft sleeve (503) downwards and coaxially, and a rubber ring (610) is arranged between the feeding pipe and the shaft sleeve (503); the bottom end of the blanking pipe (609) penetrates through the partition plate (104) and faces the stirring box (4).

8. The shaking type fruit and vegetable enzyme efficient preparation machine for beverages as claimed in claim 7, further comprising a third rod (601), a second rack (602), a fifth gear (603), a third rotating shaft (604) and a crushing knife (605);

the second rod (211) is connected with a third rod (601) rightwards, the right end of the third rod (601) is connected with a second rack (602), and the second rack (602) is matched with a fifth gear (603); the fifth gear (603) is arranged on the third rotating shaft (604), and the top end of the third rotating shaft (604) is rotatably connected with the top plate (105) through a bearing; the third rotating shaft (604) extends downwards into the crushing hopper (607) and is uniformly provided with crushing knives (605).

9. The shaking type efficient mixing machine for vegetable and fruit ferment beverages as claimed in claim 8, further comprising a first material shaking component (7), wherein the first material shaking component (7) is arranged on the right side of the feeding component (6) and comprises a sixth gear (701), a fourth rotating shaft (702), a cylindrical cam (703), a roller (704), a bending rod (705), a collision end (706) and a second support rod (707);

a cylindrical cam (703) is arranged at the top end of the second rotating shaft (505), the cylindrical cam (703) is matched with a roller (704), the roller (704) is arranged at the bottom end of the bent rod (705), the bent end of the bent rod (705) is hinged with the left end of the second supporting rod (707), the right end of the second supporting rod (707) is fixedly connected to the right side plate (103), a collision end (706) is arranged at the top end of the bent rod (705), and the collision end (706) faces the crushing hopper (607).

10. The shaking type efficient vegetable and fruit enzyme beverage preparation machine according to claim 9, further comprising a second shaking assembly (8), wherein the second shaking assembly (8) is arranged on the left side of the feeding assembly (6) and comprises a second pulling rope (801), a first wire guiding wheel (802), a second wire guiding wheel (803), a second support plate (804), a third support rod (805), a collision plate (806) and a third type of spring (807);

the second support plate (804) is arranged on the left side of the material guide pipe (608), and the second support plate (804) is fixedly connected with the material guide pipe (608) through a third support rod (805); a second wire guide wheel (803) is arranged on the second support plate (804), a collision plate (806) is arranged below the second support plate (804), and the collision plate (806) is connected with the second support plate (804) through three types of springs (807); the right end of the first rack (301) is connected with a second pull rope (801), the left side of the crushing hopper (607) is provided with a first guide wheel (802), and the second pull rope (801) bypasses the first guide wheel (802) and the second guide wheel (803) and penetrates through a second support plate (804) to be connected with a collision plate (806).

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