阅读说明：本技术 一种高品质植物蛋白饮品加工工艺 (Processing technology of high-quality vegetable protein beverage ) 是由 刘鹏 于 2021-07-23 设计创作，主要内容包括：本发明公开了一种高品质植物蛋白饮品加工工艺,所述加工工艺通过使用植物蛋白饮品制备装置来完成的,进而实现植物蛋白饮品的加工；所述植物蛋白饮品制备装置包括：外筒；所述外筒的底部环绕焊接有三处支撑腿,且外筒的顶端开口上勒紧对接封堵有两处半圆状盖板,此两处盖板上均支撑连通有一处进料管,且外筒的内部中心处贯穿焊接有一处内筒；所述外筒还包括电机,所述外筒圆周外壁的顶端位置锁紧竖撑有一处电机,此电机通过同步带与同步轮传动连接。本发明的两圈刀片采用三处长条驱动框联动驱使,省去人工额外手动翻转操作的麻烦,省时省力。(The invention discloses a processing technology of a high-quality vegetable protein drink, which is completed by using a vegetable protein drink preparation device so as to realize the processing of the vegetable protein drink; the vegetable protein beverage preparation device comprises: an outer cylinder; the bottom of the outer barrel is welded with three supporting legs in a surrounding manner, an opening at the top end of the outer barrel is tightly tightened, butted and plugged with two semicircular cover plates, a feeding pipe is supported and communicated on the two cover plates, and an inner barrel is welded in the center of the inner part of the outer barrel in a penetrating manner; the outer barrel further comprises a motor, the top end position of the outer wall of the circumference of the outer barrel is locked and vertically supported with the motor, and the motor is in transmission connection with a synchronous wheel through a synchronous belt. The two-circle blade is driven by the linkage of the three long driving frames, so that the trouble of manual turning operation is eliminated, and time and labor are saved.)

1. A processing technology of a high-quality vegetable protein beverage is characterized by comprising the following steps: the processing technology is completed by using the plant protein beverage preparation device, so that the processing of the plant protein beverage is realized; the vegetable protein beverage preparation device comprises:

an outer cylinder; the outer barrel comprises a cover plate, three supporting legs are welded at the bottom of the outer barrel in a surrounding mode, two semicircular cover plates are tightly tightened, butted and plugged on an opening at the top end of the outer barrel, a feeding pipe is supported and communicated on the two cover plates, and an inner barrel is welded at the center of the inner part of the outer barrel in a penetrating mode;

an inner barrel; the inner cylinder comprises a supporting frame, synchronizing wheels and cross brace limiting plates, six penetrating grooves are formed in the circumferential outer wall of the inner cylinder in a surrounding penetrating mode, metal filter screens are arranged on the six penetrating grooves in a covering mode, the supporting frame is welded to the top end of the inner cylinder, one synchronizing wheel is rotatably inserted into the center of the supporting frame, a driving shaft penetrates through the center of the synchronizing wheel and is inserted into the center of the synchronizing wheel, the two cross brace limiting plates are welded to the inner portion of the inner cylinder at intervals from top to bottom, and a rotating shaft sleeve is inserted into the middle sections of the two cross brace limiting plates; the outer barrel further comprises a motor, the top end position of the outer wall of the circumference of the outer barrel is locked and vertically supported with the motor, and the motor is in transmission connection with a synchronous wheel through a synchronous belt.

2. The processing technology of the high-quality vegetable protein beverage according to claim 1, characterized in that: the main body part of the driving shaft is symmetrically provided with two long strip sliding grooves, and the inner ring of the synchronizing wheel is symmetrically provided with two strip blocks which are correspondingly matched with the two long strip sliding grooves on the driving shaft in a sliding manner;

the drive shaft comprises

The top seat is welded and fixed at the top end of the driving shaft and consists of an upper limiting circular plate and a lower limiting circular plate which are welded together;

the connecting piece, the connecting piece rotates the cover to be connected on the footstock, and the connecting piece is whole to be formed by tail end lantern ring and head end screw ring welding jointly.

3. The processing technology of the high-quality vegetable protein beverage according to claim 1, characterized in that: the drive shaft further comprises

The bottom of the driving shaft is fixedly welded with three long strip driving frames which are arranged in a three-fork shape and are fixedly welded together, and vertical supporting plates on the outer sides of the three long strip driving frames are provided with a row of tooth sheets;

the bottom of the three long driving frames is fixedly welded with a short shaft, and a limiting rotating sleeve on the short shaft is connected with a conical cover;

the inner cylinder still includes the threaded spindle, it has a threaded spindle to rotate the vertical braces on one side that the motor was kept away from on the carriage top, and this threaded spindle corresponds and runs through the cooperation with the head end screw thread ring of connecting piece.

4. The processing technology of the high-quality vegetable protein beverage according to claim 1, characterized in that: the rotation bushing includes:

the blades are connected with the outer wall of the circumference of the rotating shaft sleeve in a surrounding and rotating manner at intervals from top to bottom, and the number of the blades is six;

the tail end rotating shafts of the six blades are sleeved with one attitude gear;

the rotary shaft sleeve further comprises power transmission strips, two power transmission strips are symmetrically arranged inside the top end section of the rotary shaft sleeve, and the two power transmission strips are correspondingly in sliding fit with the two long strip sliding grooves in the driving shaft.

5. The processing technology of the high-quality vegetable protein beverage according to claim 4, wherein the processing technology comprises the following steps: six installation grooves are formed in the circumferential outer wall of the rotary shaft sleeve in an up-down interval surrounding mode, six attitude gears rotate and are located in the six installation grooves, and the six attitude gears are correspondingly in meshing transmission with the tooth sheets on the three long strip driving frames; the three long strip driving frames are in sleeve insertion fit with the rotary shaft sleeve, and the conical cover cap rotationally connected with the bottoms of the three long strip driving frames is covered on the bottom opening of the inner cylinder in a sliding manner.

Technical Field

The invention relates to the technical field of preparation of high-quality vegetable protein drinks, in particular to a processing technology of a high-quality vegetable protein drink.

Background

Vegetable protein beverages are described as: a milky beverage is prepared from plant kernel, fruit pulp and soybean (such as soybean, peanut, almond, walnut kernel, coconut, etc.) through processing, mixing, and high-pressure sterilizing or aseptic packing. The production of vegetable protein beverage is that the seeds and fruits of plant are cleaned, dried and then put into a stirring or grinding device such as a wall breaking machine to be broken into powder.

Patent No. CN202020435105.0 discloses a wall breaking machine for making solid beverage. However, most of the existing preparation processes need to be stopped to unload the crushed slag and fill the crushed slag in the crushing cylinder, so that the unloading and the material filling of the crushing cylinder need to occupy the normal crushing operation time of the equipment, the crushing use efficiency of the equipment is indirectly reduced, and the crushed slag in the crushing cylinder is very easy to splash by the centrifugal force generated by high-speed rotation to throw away large-area polluted ground when being unloaded, thereby causing the trouble of subsequent cleaning.

Disclosure of Invention

The invention aims to provide a high-quality plant protein beverage processing technology, and aims to solve the problem that in the background technology, when the crushed slag in a crushing cylinder is unloaded, the crushed slag is easy to splash and throw out of a large area of polluted ground due to centrifugal force generated by high-speed rotation, so that the trouble of subsequent cleaning is caused.

In order to achieve the purpose, the invention provides the following technical scheme: a processing technology of a high-quality vegetable protein drink is completed by using a vegetable protein drink preparation device, so that the processing of the vegetable protein drink is realized; the vegetable protein beverage preparation device comprises: an outer cylinder; the outer barrel comprises a cover plate, three supporting legs are welded at the bottom of the outer barrel in a surrounding mode, two semicircular cover plates are tightly tightened, butted and plugged on an opening at the top end of the outer barrel, a feeding pipe is supported and communicated on the two cover plates, and an inner barrel is welded at the center of the inner part of the outer barrel in a penetrating mode; the outer barrel further comprises a motor, the top end position of the circumferential outer wall of the outer barrel is locked and vertically supported with the motor, and the motor is in transmission connection with a synchronous wheel through a synchronous belt; the main body part of the driving shaft is symmetrically provided with two long strip sliding grooves, and the inner ring of the synchronizing wheel is symmetrically provided with two strip blocks which are correspondingly matched with the two long strip sliding grooves on the driving shaft in a sliding manner; an inner barrel; the inner cylinder comprises a supporting frame, synchronizing wheels and cross brace limiting plates, six penetrating grooves are formed in the circumferential outer wall of the inner cylinder in a surrounding penetrating mode, metal filter screens are arranged on the six penetrating grooves in a covering mode, the supporting frame is welded to the top end of the inner cylinder, one synchronizing wheel is rotatably inserted into the center of the supporting frame, a driving shaft penetrates through the center of the synchronizing wheel and is inserted into the center of the synchronizing wheel, the two cross brace limiting plates are welded to the inner portion of the inner cylinder at intervals from top to bottom, and a rotating shaft sleeve is inserted into the middle sections of the two cross brace limiting plates; six installation grooves are formed in the circumferential outer wall of the rotary shaft sleeve in an up-down interval surrounding mode, six attitude gears rotate and are located in the six installation grooves, and the six attitude gears are correspondingly in meshing transmission with the tooth sheets on the three long strip driving frames; the three long strip driving frames are in sleeve insertion fit with the rotary shaft sleeve, and the conical cover cap rotationally connected with the bottoms of the three long strip driving frames is covered on the bottom opening of the inner cylinder in a sliding manner.

The drive shaft comprises

The top seat is welded and fixed at the top end of the driving shaft and consists of an upper limiting circular plate and a lower limiting circular plate which are welded together;

the connecting piece, the connecting piece rotates the cover to be connected on the footstock, and the connecting piece is whole to be formed by tail end lantern ring and head end screw ring welding jointly.

Preferably, the drive shaft further comprises

The bottom of the driving shaft is fixedly welded with three long strip driving frames which are arranged in a three-fork shape and are fixedly welded together, and vertical supporting plates on the outer sides of the three long strip driving frames are provided with a row of tooth sheets;

the conical cover cap is characterized in that a short shaft is fixedly welded at the bottom of the three long driving frames, and the limiting rotating sleeve on the short shaft is connected with the conical cover cap.

The inner cylinder still includes the threaded spindle, it has a threaded spindle to rotate the vertical braces on one side that the motor was kept away from on the carriage top, and this threaded spindle corresponds and runs through the cooperation with the head end screw thread ring of connecting piece.

Preferably, the rotary sleeve comprises

The blades are connected with the outer wall of the circumference of the rotating shaft sleeve in a surrounding and rotating manner at intervals from top to bottom, and the number of the blades is six;

the tail end rotating shafts of the six blades are sleeved with one attitude gear.

The rotary shaft sleeve further comprises power transmission strips, two power transmission strips are symmetrically arranged inside the top end section of the rotary shaft sleeve, and the two power transmission strips are correspondingly in sliding fit with the two long strip sliding grooves in the driving shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. the synchronous wheel is in sliding fit with the driving shaft, so that the power transmission with the synchronous wheel can not be interrupted when the driving shaft slides up and down, and the power transmission strip is in sliding fit with the driving shaft, so that the power transmission with the rotating shaft sleeve can not be interrupted when the driving shaft slides up and down;

2. the inner barrel can be supplemented with materials in the operation process of the machine through the two feeding pipes on the two cover plates, the connecting piece can be pushed to slide up and down through the threads of the threaded shaft, the driving shaft which runs at high speed is driven to lift, the driving shaft can drive the conical cover cap to slide down and separate from the inner barrel when pushed downwards, the bottom opening of the inner barrel is opened, so that crushed slag formed by crushing the inner barrel and accumulated on the conical cover cap by gravity can fall along the arc conical surface of the conical cover cap, and further the invention can unload the broken-wall crushed slag in the inner barrel in the operation process and supplement materials for the inner barrel after unloading is finished, thus the trouble of unloading and filling materials for the inner barrel by stopping the machine is saved, the normal operation time of unloading and supplementing materials is avoided, and the crushing use efficiency of the device is indirectly improved;

3. through three position rectangular drive frames, but the drive shaft pushes away the in-process of opening the toper shroud at the gliding and can link the meshing and order about two rings of blades and turn over in vertical user state in step, two rings of blades are arranged in and are erected the state and can lose crushing function, avoid carrying out the centrifugal throw-out of the high-speed rotatory blade with its inside disintegrating slag when unloading to the inner tube, cause the disintegrating slag to scatter and splash all around, large tracts of land pollutes the ground, cause the trouble of follow-up clearance, and two rings of blades adopt three position rectangular drive frames to link and order about, save the trouble of artifical extra manual upset operation, time saving and labor saving.

Drawings

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

FIG. 2 is a schematic bottom three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the half-section internal structure of the outer cylinder according to the present invention;

FIG. 4 is a schematic view of the inner barrel structure of the present invention;

FIG. 5 is a schematic view of the inner cylinder half-section internal structure of the present invention;

FIG. 6 is a schematic view of a half-section internal structure of the rotary sleeve according to the present invention;

FIG. 7 is a schematic view of the drive shaft of the present invention;

FIG. 8 is a schematic view of a strip drive frame according to the present invention;

FIG. 9 is a schematic view of a half-section of the rotary sleeve of the present invention;

in the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an outer cylinder; 101. a cover plate; 102. a motor; 2. a drive shaft; 201. a top seat; 202. a connecting member; 203. a conical cover; 204. a strip drive frame; 3. an inner barrel; 301. a support frame; 302. a synchronizing wheel; 303. a threaded shaft; 304. a cross brace limiting plate; 4. rotating the shaft sleeve; 401. a blade; 402. an attitude gear; 403. a power transmission bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 9, an embodiment of the present invention includes: a processing technology of a high-quality vegetable protein drink is completed by using a vegetable protein drink preparation device, so that the processing of the vegetable protein drink is realized; the vegetable protein beverage preparation device comprises: an outer cylinder 1; the outer barrel 1 comprises a cover plate 101, three supporting legs are welded at the bottom of the outer barrel 1 in a surrounding mode, two semicircular cover plates 101 are tightly connected and blocked on an opening at the top end of the outer barrel 1 in a tightening and butting mode, a feeding pipe is supported and communicated on the two cover plates 101, an inner barrel 3 is welded in the center of the inner portion of the outer barrel 1 in a penetrating mode, and the inner barrel 3 can be supplemented with materials in the operation process of the machine through the two feeding pipes on the two cover plates 101; the three long driving frames 204 are in sleeve insertion fit with the rotary shaft sleeve 4, and the conical cover 203 rotationally connected with the bottoms of the three long driving frames 204 is covered on the bottom opening of the inner cylinder 3 in a sliding manner; the outer cylinder 1 further comprises a motor 102, the motor 102 is locked and vertically supported at the top end position of the circumferential outer wall of the outer cylinder 1, and the motor 102 is in transmission connection with a synchronous wheel 302 through a synchronous belt;

an inner cylinder 3; the inner cylinder 3 comprises a supporting frame 301, a synchronizing wheel 302 and cross brace limiting plates 304, six penetrating grooves are formed in the circumferential outer wall of the inner cylinder 3 in a surrounding penetrating mode, metal filter screens are covered on the six penetrating grooves, the supporting frame 301 is welded to the top end of the inner cylinder 3, the synchronizing wheel 302 is rotatably inserted into the center of the supporting frame 301, a driving shaft 2 is inserted into the center of the synchronizing wheel 302 in a penetrating mode, the two cross brace limiting plates 304 are welded to the inner portion of the inner cylinder 3 at intervals from top to bottom, and a rotating shaft sleeve 4 is inserted into the middle sections of the two cross brace limiting plates 304; the rotary shaft sleeve 4 comprises blades 401, and six circles of blades 401 are connected to the circumferential outer wall of the rotary shaft sleeve 4 in a surrounding and rotating mode at intervals from top to bottom; the attitude gears 402 are sleeved on the rotating shafts at the tail ends of the six blades 401; the driving shaft 2 further comprises a long driving frame 204, the bottom of the driving shaft 2 is fixedly welded with three long driving frames 204, the three long driving frames 204 are arranged in a three-fork shape and are fixedly welded together, and vertical support plates on the outer sides of the three long driving frames 204 are provided with a row of tooth sheets; the conical cover 203 is formed by welding and fixing a short shaft at the bottom of the three long driving frames 204, and the limiting rotary sleeve on the short shaft is connected with the conical cover 203.

Two long sliding grooves are symmetrically formed in the main body portion of the driving shaft 2, two blocks are symmetrically arranged on the inner ring of the synchronizing wheel 302 and are in sliding fit with the two long sliding grooves in the driving shaft 2 correspondingly, the motor 102 can drive the driving shaft 2 to rotate at a high speed through the synchronizing wheel 302, and the synchronizing wheel 302 is in sliding fit with the driving shaft 2, so that power transmission between the driving shaft 2 and the synchronizing wheel 302 cannot be interrupted when the driving shaft 2 slides up and down.

The drive shaft 2 comprises

The top seat 201, the top seat 201 is welded and fixed on the top of the driving shaft 2, the top seat 201 is formed by welding an upper limit circular plate and a lower limit circular plate together;

connecting piece 202, connecting piece 202 rotate the cover and connect on footstock 201, and connecting piece 202 is whole to be welded jointly by tail end lantern ring and head end screw thread ring and constitutes, because connecting piece 202 and footstock 201 swing rotary connection, and then even when drive shaft 2 is rotatory broken at a high speed, connecting piece 202 also can be to its lifting drive.

The inner barrel 3 also comprises a threaded shaft 303, one side of the top end of the supporting frame 301, which is far away from the motor 102, is rotatably and vertically supported with a threaded shaft 303, the threaded shaft 303 is correspondingly matched with a threaded ring at the head end of the connecting piece 202 in a penetrating way, the connecting piece 202 can be pushed to slide up and down through the threaded shaft 303 in a threaded way, the driving shaft 2 running at high speed is driven to lift up and down, the driving shaft 2 can drive the conical cover 203 to slide down and separate from the inner barrel 3 when pushed downwards, the bottom opening of the inner barrel 3 is opened, so that the inner part of the inner barrel is crushed to form crushed slag which is accumulated on the conical cover 203 by gravity and can fall along the arc conical surface of the conical cover 203, further, the invention can unload the broken wall crushed slag in the inner barrel 3 in the running process and supplement the inner barrel 3 after unloading is finished, the trouble of unloading and supplementing the inner barrel 3 by stopping the machine is saved, and the unloading and supplementing operation occupies normal operation time, the crushing use efficiency of the device is indirectly improved.

The rotating shaft sleeve 4 further comprises a power transmission strip 403, two power transmission strips 403 are symmetrically arranged inside the top end section of the rotating shaft sleeve 4, the two power transmission strips 403 are correspondingly in sliding fit with two long strip sliding grooves on the driving shaft 2, the driving shaft 2 can rotate to drive the rotating shaft sleeve 4 and two circles of blades 401 thereon to be crushed at a high speed through the two power transmission strips 403, and the power transmission with the rotating shaft sleeve 4 cannot be interrupted when the driving shaft 2 slides up and down due to the sliding fit of the power transmission strips 403 and the driving shaft 2.

Six installation grooves are formed on the circumferential outer wall of the rotary shaft sleeve 4 in an up-down interval surrounding manner, six attitude gears 402 are rotatably arranged in the six installation grooves, and the six attitude gears 402 are correspondingly engaged with the teeth on the three long driving frames 204 for transmission, through the three long driving frames 204, the driving shaft 2 can be linked and meshed to drive the two circles of blades 401 to be synchronously turned upwards and placed in a vertical use state in the process of downwards sliding and pushing to open the conical cover 203, the two circles of blades 401 are placed in a vertical supporting state to lose the crushing function, the situation that when the inner cylinder 3 is unloaded in operation, the inner slag is centrifugally thrown out by the blades 401 rotating at high speed, the crushed slag is scattered and splashed, the ground is polluted by a large area, and the subsequent cleaning trouble is caused is avoided, and the two-circle blade 401 is driven by the linkage of the three long driving frames 204, so that the trouble of manual turning operation is avoided, and time and labor are saved.

In another embodiment, filter screens can be additionally arranged at the inlet ends of six liquid outlet pipes which are welded and communicated at the bottom of the circumferential outer wall of the outer barrel 1, and the filter screens can reduce impurities in discharged liquid and improve the purity of the discharged liquid.

The processing technology specifically comprises the following steps:

firstly, filling materials such as fruits and seeds of plants into the inner barrel 3, filling clear water into the inner barrel, then tightly covering two semicircular cover plates 101 on an opening at the top end of the outer barrel 1, and then starting the motor 102;

through the synchronizing wheel 302, the motor 102 can drive the driving shaft 2 to rotate at a high speed, through the two power transmission strips 403, the driving shaft 2 can rotate to drive the rotating shaft sleeve 4 and the two rings of blades 401 thereon to crush at a high speed in the inner cylinder 3, and mixed liquid formed by mixing crushed juice and clean water is discharged, collected and utilized through six liquid outlet pipes at the bottom of the circumferential outer wall of the outer cylinder 1;

the connecting piece 202 can be pushed to slide up and down through the screw thread of the screw thread shaft 303, the driving shaft 2 running at a high speed is driven to lift, the driving shaft 2 can drive the conical cover 203 to slide down and separate from the inner cylinder 3 when pushed downwards, the bottom opening of the inner cylinder 3 is opened, the inner part of the inner cylinder is broken to form crushed slag accumulated on the conical cover 203, the crushed slag can fall along the arc conical surface of the conical cover 203, the driving shaft 2 can be linked and meshed to drive the two circles of blades 401 to be synchronously turned upwards and placed in a vertical use state in the process of pushing the conical cover 203 downwards by sliding and pushing, the two circles of blades 401 are placed in a vertical supporting state to lose the breaking function, and the situation that the crushed slag inside the blades 401 are centrifugally thrown out when the inner cylinder 3 is unloaded in a running mode is avoided, and the crushed slag splashes around.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.