CN110368859B

CN110368859B - Equipment and method for blending multiple seasonings according to proportion

Info

Publication number: CN110368859B
Application number: CN201910494990.1A
Authority: CN
Inventors: 李功华
Original assignee: Hunan Chuanyu Food Co ltd
Current assignee: Hunan Chuanyu Food Co ltd
Priority date: 2019-06-10
Filing date: 2019-06-10
Publication date: 2022-04-12
Anticipated expiration: 2039-06-10
Also published as: CN110368859A

Abstract

The invention relates to the field of daily necessities, in particular to a device and a method for blending a plurality of seasonings according to a proportion, the device for proportionally mixing a plurality of seasonings comprises an upper box body, a lower box body, a mixing device, a linkage feeding device, a cutting device and a discharging device, wherein two partition plates are arranged in the upper box body and can divide the inner space of the upper box body into three equal material storage cavities, two vertical plates arranged at intervals are arranged in the lower space of the lower box body, the lower space is called as a lower cavity of the lower box body, the upper space without the vertical plate is called as an upper cavity of the lower box body, a heating pipeline is arranged in the lower cavity, a liquid inlet communicated with the lower cavity is formed in the side wall of the lower box body, and the discharging device is arranged at the bottom of the lower box body; and can satisfy the production demand of multiple flavouring, the practicality is stronger.

Description

Equipment and method for blending multiple seasonings according to proportion

Technical Field

The invention relates to the field of daily necessities, in particular to equipment and a method for blending a plurality of seasonings according to a proportion.

Background

Spices, mainly herbs and spices, herbs are leaves of various plants, which may be fresh, air-dried or ground; the spices are seeds, flower buds, fruits, flowers, bark and roots of the plants. The seasoning is an auxiliary food which can increase the color, the fragrance and the taste of dishes, promote appetite and benefit human health. Its main function is to improve the quality of the dish and meet the sensory requirements of consumers, thus stimulating appetite and improving human health.

At present, the existing seasoning is prepared by proportioning various raw materials, the various raw materials are required to be proportioned manually before the seasoning is produced and then put into production equipment, so that a finished seasoning product is generated, the mode has high labor intensity and low proportioning precision, and the qualification rate of the seasoning is influenced; and the structure of the existing seasoning production equipment is complex, and the requirement of automatic cutting of raw materials needing cutting cannot be met, so that the production efficiency is low.

Disclosure of Invention

In a first aspect, the present invention provides a device for blending a plurality of seasonings according to a certain proportion, so as to solve the problem of low production efficiency due to the complicated structure of the production device mentioned in the above background art and the inability to perform automatic cutting on the raw materials to be cut.

The technical scheme of the invention is as follows: the material storage device comprises an upper box body, a lower box body, a blending device, a linkage feeding device, a cutting device and a discharging device, wherein the upper box body is arranged at the top of the lower box body and communicated with the interior of the lower box body, the blending device is arranged on the upper box body, two vertical partition plates which are arranged at intervals are arranged in the upper box body, the internal space of the upper box body can be divided into three equal material storage cavities by the two partition plates, the linkage feeding device is arranged in the lower box body and can be connected and matched with the bottom of the upper box body, two vertical plates which are arranged at intervals are arranged in the lower space of the lower box body, the lower space is called as the lower cavity of the lower box body, the upper space without the vertical plates is called as the upper cavity of the lower box body, a heating pipeline is arranged in the lower cavity, the cutting device is arranged in the lower cavity, the output end of the cutting device extends to the lower part of the linkage feeding device, and a liquid inlet communicated with the lower cavity is arranged on the side wall of the lower box body, the discharging device is arranged at the bottom of the lower box body.

In a preferred embodiment of the present invention, the dispensing device comprises a supporting frame, a driving assembly and three distributing assemblies, wherein the supporting frame is in a cross structure and is fixed on the top of the upper box body, the driving assembly is arranged on the top of the supporting frame and is in transmission connection with the three distributing assemblies, the three distributing assemblies are respectively arranged in the three material storage cavities, each distributing assembly comprises a connecting shaft, stirring blade, break plate and rolling disc, the connecting axle is vertical setting in the material storage intracavity and its both ends respectively with the center department fixed connection of support frame and rolling disc, the break plate is the level and sets up and be equipped with a plurality of discharge gates on the material storage intracavity and the break plate, the rolling disc setting is in the bottom of break plate, a plurality of discharge gates increase the setting in proper order along the axis of rolling disc anticlockwise, stirring blade cover is established on the connecting axle, be equipped with on the rolling disc with the biggest a discharge gate corresponding interface.

In a preferred embodiment of the present invention, the driving assembly includes a first driving motor, a synchronous belt and three synchronous wheels, the first driving motor is installed on the top of the supporting frame, and the output end of the first driving motor is fixedly connected with a connecting shaft, the three synchronous wheels are respectively sleeved on the three connecting shafts, the synchronous belt is sleeved on the outer portions of the three synchronous wheels, the linkage feeding device includes a linkage assembly, a material guiding plate, a material stirring assembly, a feeding assembly and two separating tables, the linkage assembly is installed on the side wall of the lower box body and is respectively in transmission connection with the material stirring assembly and the feeding assembly, the material guiding plate is obliquely arranged in the lower box body, and the two separating tables are vertically fixed on the material guiding plate and can separate the feeding assembly into three sections.

In a preferred embodiment of the present invention, the material stirring assembly includes a stirring shaft and a helical blade, the stirring shaft is horizontally disposed in the lower cavity, the helical blade is fixed on the stirring shaft, the material feeding assembly includes a linking shaft and three sleeves, the sleeves are all sleeved on the linking shaft, each sleeve is provided with a plurality of baffles which are distributed at equal intervals along the axial line of the sleeve, and a groove for storing the raw material can be formed between every two adjacent baffles.

In a preferred embodiment of the present invention, the linkage assembly includes an L-shaped plate, a second driving motor, a chain and two chain wheels, the L-shaped plate is fixed on the sidewall of the lower box, the second driving motor is horizontally installed on the sidewall of the L-shaped plate and its output end is fixedly connected with the stirring shaft, the two chain wheels are respectively installed on the stirring shaft and the linkage shaft, and the chain is sleeved on the outer portions of the two chain wheels.

In a preferred embodiment of the present invention, the cutting device includes a third driving motor, a driving shaft, two driving bevel gears and two cutting components, the two cutting components are symmetrically disposed, the third driving motor is mounted on a side wall of the lower box and fixedly connected to the driving shaft, the two driving bevel gears are fixed to the driving shaft and respectively in transmission connection with the two cutting components, each cutting component includes a cutting disc, a loading shaft and a driven bevel gear, the loading shaft is vertically disposed in the lower cavity, the cutting disc is fixed to a top of the loading shaft, and the driven bevel gear is sleeved on the loading shaft and is engaged with one driving bevel gear.

In a preferred embodiment of the present invention, the discharging device includes a material control block, a screw, a discharging channel, a fourth driving motor, a worm, and two material supporting platforms, the two material supporting platforms are symmetrically disposed on the bottom wall of the lower cavity, the top end surface of each material supporting platform is an inclined surface, the discharging channel is disposed at the bottom of the lower box, the material control block is disposed in the lower cavity, the top end of the screw is fixedly connected with the material control block, the fourth driving motor is disposed on the side wall of the discharging channel and is fixedly connected with the worm, and the worm is in transmission fit with the screw.

In a second aspect, the invention also aims to provide a method for preparing equipment for blending a plurality of condiments in proportion, so as to solve the problems of high labor intensity, low proportioning precision and influence on the qualified rate of the condiments in the background art; the method comprises the following steps:

the seasoning raw materials are placed in the three material storage cavities according to classes, the first driving motor drives one connecting shaft fixedly connected with the output end of the first driving motor to rotate, and under the action of a synchronous belt and three synchronous wheels, the other two connecting shafts are driven to synchronously rotate, so that the three rotating discs are driven to synchronously rotate, three butt joints on the three rotating discs correspond to a plurality of discharge ports on three distribution plates, and the adding amount of the seasoning raw materials is controlled by utilizing different sizes of the plurality of discharge ports, so that the aim of automatic distribution proportion is fulfilled;

the second driving motor is used for driving the stirring shaft fixedly connected with the output end of the second driving motor to rotate, the linkage shaft is driven to synchronously rotate under the action of the chain and the two chain wheels, and then the three sleeves sleeved on the linkage shaft rotate along with the linkage shaft, and then the raw materials on the plurality of baffles are driven to rotate and are conveyed into the lower cavity, so that the feeding speed of various raw materials is controlled, and the purpose of secondary distribution proportion is achieved;

a third driving motor is used for driving the driving shaft to rotate so as to drive the two driving bevel gears to rotate, so that the two driven bevel gears meshed and matched with the two driving bevel gears are driven to rotate, the two connecting shafts are driven to rotate, the two cutting disks are driven to rotate, and seasoning raw materials to be cut are subjected to automatic cutting operation;

fourthly, a stirring shaft fixedly connected with the output end of the second driving motor is driven to rotate by the second driving motor, the spiral blade is driven to rotate, water is conveyed into the lower cavity through the liquid inlet, so that the seasoning raw materials are fully contacted and stirred, and the temperature in the lower cavity reaches the preset requirement by the operation of the heating pipeline, so that the production of the seasoning is completed;

and (V) the worm is driven to rotate by the fourth driving motor, the screw rod is driven to move in the vertical direction, the material control block is enabled to move in the vertical direction synchronously, the opening and closing operation of the material discharging channel can be controlled, and therefore the automatic material discharging operation is achieved.

The invention provides a method for proportioning a plurality of seasonings by improving the equipment, which has the following improvements and advantages compared with the prior art:

(1) according to the seasoning dispensing device, seasoning raw materials are placed in the three material storage cavities according to classes, the first driving motor drives one connecting shaft fixedly connected with the output end of the first driving motor to rotate, and under the action of the synchronous belt and the three synchronous wheels, the other two connecting shafts are driven to synchronously rotate, so that the three rotating discs are driven to synchronously rotate, three butt joints on the three rotating discs correspond to a plurality of discharge holes on the three distribution plates, the adding amount of the seasoning raw materials is controlled by utilizing different sizes of the plurality of discharge holes, the purpose of automatic distribution proportion is achieved, the raw materials do not need to be manually proportioned when the seasoning is produced, the manual labor force is reduced, and the production efficiency is improved;

(2) the stirring shaft fixedly connected with the output end of the second driving motor is driven to rotate by the second driving motor, the linkage shaft is driven to synchronously rotate under the action of the chain and the two chain wheels, and then the three sleeves sleeved on the linkage shaft rotate along with the linkage shaft, and then the raw materials on the plurality of baffles are driven to rotate and are conveyed into the lower cavity, so that the feeding speed of various raw materials is controlled, the purpose of secondary distribution proportion is achieved, and the distribution proportion precision and the production qualified rate of the raw materials are improved;

(3) the automatic cutting machine drives the driving shaft to rotate by utilizing the third driving motor to drive the two driving bevel gears to rotate, so that the two driven bevel gears meshed and matched with the two driving bevel gears are driven to rotate, the two loading shafts are driven to rotate, the two cutting disks are driven to rotate, automatic cutting operation is carried out on seasoning raw materials to be cut, the stirring shaft fixedly connected with the output end of the stirring shaft is driven to rotate by utilizing the second driving motor, the spiral blades are driven to rotate, water is conveyed into the lower cavity through the liquid inlet, full contact stirring operation among the seasoning raw materials is realized, the temperature in the lower cavity reaches the preset requirement by the operation of the heating pipeline, and therefore the production requirements of various seasonings are met.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a schematic view of a first angular configuration of the present invention;

FIG. 2 is a second angular configuration of the present invention;

FIG. 3 is a perspective sectional view of the present invention;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is a top view of the present invention;

FIG. 6 is a cross-sectional view taken along line C-C of FIG. 5;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is a cross-sectional view taken along line A-A of FIG. 5;

description of reference numerals: the device comprises an upper box body 1, a material storage cavity 101, a lower box body 2, an upper cavity 201, a lower cavity 202, a blending device 3, a support frame 301, a driving component 302, a first driving motor 3021, a synchronous belt 3022, a synchronous wheel 3023, a distribution component 303, a connecting shaft 3031, a stirring blade 3032, a distribution plate 3034, a rotating disk 3035, a discharge port 3036, a linkage feeding device 4, a linkage component 401, an L-shaped plate 4011, a second driving motor 4012, a chain 4013, a chain wheel 4014, a guide plate 402, a stirring component 403, a stirring shaft 4031, a spiral blade 4032, a feeding component 404, a linkage shaft 4041, a sleeve 4042, a baffle 4043, a separating table 405, a cutting device 5, a third driving motor 501, a driving shaft 502, a driving bevel 503, a cutting component 504, a cutting disk 5041, a linkage shaft 5042, a driven bevel 5043, a discharging device 6, a material control block 601, a screw 602, a discharging channel 603, a fourth driving motor 603, a worm 605 and a material supporting table 606, a partition plate 7, a vertical plate 8, a heating pipeline 9 and a liquid inlet 10.

Detailed Description

The invention provides a device for proportionally mixing a plurality of seasonings by improvement, as shown in figures 1-8, comprising an upper box body 1, a lower box body 2, a mixing device 3, a linkage feeding device 4, a cutting device 5 and a discharging device 6, wherein the upper box body 1 is arranged at the top of the lower box body 2 and is communicated with the inside of the lower box body 2, the mixing device 3 is arranged on the upper box body 1, two partition plates 7 which are vertical and arranged at intervals are arranged in the upper box body 1, the two partition plates 7 can divide the inner space of the upper box body 1 into three equal material storage cavities 101, the linkage feeding device 4 is arranged in the lower box body 2 and can be connected and matched with the bottom of the upper box body 1, two vertical plates 8 which are arranged at intervals are arranged in the lower space of the lower box body 2, the lower space is called as a lower cavity 202 of the lower box body 2, the upper space without the vertical plates 8 is called as an upper cavity 201 of the lower box body 2, and a heating pipeline 9 is arranged in the lower cavity 202, the cutting device 5 is arranged in the lower cavity 202, the output end of the cutting device extends to the lower part of the linkage feeding device 4, the liquid inlet 10 communicated with the lower cavity 202 is arranged on the side wall of the lower box body 2, and the discharging device 6 is arranged at the bottom of the lower box body 2.

Preferably, the blending device 3 includes a supporting frame 301, a driving assembly 302 and three distributing assemblies 303, the supporting frame 301 is in a cross structure and is fixed at the top of the upper box 1, the driving assembly 302 is arranged at the top of the supporting frame 301 and is in transmission connection with the three distributing assemblies 303, the three distributing assemblies 303 are respectively arranged in the three material storage cavities 101, each distributing assembly 303 includes a connecting shaft 3031, stirring blades 3032, a distributing plate 3034 and a rotating disc 3035, the connecting shaft 3031 is vertically arranged in the material storage cavity 101, two ends of the connecting shaft 3031 are respectively and fixedly connected with the centers of the supporting frame 301 and the rotating disc 3035, the distributing plate 3034 is horizontally arranged in the material storage cavity 101, a plurality of material outlets 3036 are arranged on the distributing plate 3034, the plurality of material outlets 3036 are sequentially arranged along the axis of the rotating disc 3035 in an increasing manner, the stirring blades 3032 are sleeved on the connecting shaft 3031 in a counterclockwise direction, the rotary disc 3035 is provided with a butt joint port corresponding to the largest discharge port 3036, the driving assembly 302 drives the three connecting shafts 3031 to synchronously rotate, so that the three rotary discs 3035 are driven to synchronously rotate, the three butt joint ports on the three rotary discs 3035 correspond to the plurality of discharge ports 3036 on the three distribution plates 3034, and the addition amount of the seasoning raw materials is controlled by utilizing different sizes of the plurality of discharge ports 3036, so that the purpose of automatic distribution proportion is achieved.

Preferably, the driving assembly 302 includes a first driving motor 3021, a synchronous belt 3022 and three synchronous wheels 3023, the first driving motor 3021 is installed on the top of the supporting frame 301, and an output end of the first driving motor 3021 is fixedly connected to one connecting shaft 3031, the three synchronous wheels 3023 are respectively sleeved on the three connecting shafts 3031, the synchronous belt 3022 is sleeved on the outer portions of the three synchronous wheels 3023, the first driving motor 3021 drives one connecting shaft 3031 fixedly connected to the output end of the first driving motor 3021 to rotate, under the action of the synchronous belt 3022 and the three synchronous wheels 3023, the other two connecting shafts 3031 are driven to rotate synchronously, so that the three rotating discs 3035 are driven to rotate synchronously, thereby three pairs of interfaces on the three rotating discs 3035 correspond to the plurality of discharge ports 3036 on the three distributing plates 3034, the amount of seasoning ingredient added is controlled by using the different sizes of the plurality of discharge ports 3036, and the purpose of automatic distribution example is achieved, the linkage feeding device 4 comprises a linkage assembly 401, a guide plate 402, a material stirring assembly 403, a feeding assembly 404 and two partition platforms 405, wherein the linkage assembly 401 is installed on the side wall of the lower box body 2 and is in transmission connection with the material stirring assembly 403 and the feeding assembly 404 respectively, the guide plate 402 is obliquely arranged in the lower box body 2, and the two partition platforms 405 are vertically fixed on the guide plate 402 and can divide the feeding assembly 404 into three sections.

Preferably, the stirring component 403 includes a stirring shaft 4031 and a helical blade 4032, the stirring shaft 4031 is horizontally disposed in the lower cavity 202, the helical blade 4032 is fixed on the stirring shaft 4031, the linkage component 401 drives the helical blade 4032 on the stirring shaft to rotate, so as to achieve sufficient contact stirring operation of each raw material of the seasoning, the feeding component 404 includes a linkage shaft 4041 and three sleeves 4042 which are all sleeved on the linkage shaft 4041, each sleeve 4042 is provided with a plurality of baffles 4043 which are distributed at equal intervals along the axial line of the sleeve 4042, a groove for storing the raw material can be formed between every two adjacent baffles 4043, and the raw material in the upper box 1 can be intermittently conveyed.

Preferably, the linkage assembly 401 includes an L-shaped plate 4011, a second driving motor 4012, a chain 4013, and two chain wheels 4014, the L-shaped plate 4011 is fixed on a side wall of the lower box 2, the second driving motor 4012 is horizontally installed on a side wall of the L-shaped plate 4011, and an output end of the second driving motor 4012 is fixedly connected to the stirring shaft 4031, the two chain wheels 4014 are respectively installed on the stirring shaft 4031 and the linkage shaft 4041, the chain 4013 is sleeved on an outer portion of the two chain wheels 4014, the second driving motor 4012 drives the stirring shaft 4031 fixedly connected to an output end of the second driving motor 4012 to rotate, under the action of the chain 4013 and the two chain wheels 4014, the linkage shaft 4041 is driven to synchronously rotate, and then three sleeves 4042 sleeved on the linkage shaft 4041 rotate along with the chain wheels, and then the raw materials on the plurality of baffles 4043 are driven to rotate and are conveyed into the lower cavity 202, so as to control feeding speeds of various raw materials, and achieve the purpose of the secondary distribution example.

Preferably, the cutting device 5 includes a third driving motor 501, a driving shaft 502, two driving bevel gears 503 and two cutting components 504, the two cutting components 504 are symmetrically arranged, the third driving motor 501 is mounted on the side wall of the lower case 2 and is fixedly connected with the driving shaft 502, the two driving bevel gears 503 are fixed on the driving shaft 502 and are respectively in transmission connection with the two cutting components 504, each cutting component 504 includes a cutting disc 5041, a loading shaft 5042 and a driven bevel gear 5043, the loading shaft 5042 is vertically arranged in the lower cavity 202, the cutting disc 5041 is fixed on the top of the loading shaft 5042, the driven bevel gear 5043 is sleeved on the loading shaft 5042 and is in meshing fit with one driving bevel gear 503, the driving shaft 502 is driven to rotate by the third driving motor 501, the two driving bevel gears 503 are driven to rotate, so that the two driven bevel gears 5043 which are in meshing fit with the two driving bevel gears 503 are driven to rotate, both the two loading shafts 5042 are driven to rotate, the two cutting plates 5041 are rotated to automatically cut the seasoning materials to be cut.

Preferably, the discharging device 6 includes a material control block 601, a screw 602, a discharging channel 603, a fourth driving motor 604, a worm 605 and two material receiving tables 606, the two material receiving tables 606 are symmetrically disposed on the inner bottom wall of the lower chamber 202, the top end surface of each material receiving table 606 is disposed in an inclined plane, the bottom of the lower tank 2 is provided with the discharging channel 603, the material control block 601 is disposed in the lower chamber 202, the top end of the screw 602 is fixedly connected with the material control block 601, the fourth driving motor 604 is disposed on the side wall of the discharging channel 603 and is fixedly connected with the worm 605, the worm 605 and the screw 602 are in transmission fit, the worm 605 is driven to rotate by the fourth driving motor 604, the screw 602 is driven to move in the vertical direction, so that the material control block 601 synchronously moves in the vertical direction, and the opening and closing operations of the discharging channel 603 can be controlled, thereby realizing the automatic discharging operations.

The working principle of the device for blending a plurality of seasonings according to the proportion is as follows: seasoning raw materials are placed in the three storage cavities 101 according to classes, a first driving motor 3021 drives one connecting shaft 3031 fixedly connected with the output end of the first driving motor to rotate, under the action of a synchronous belt 3022 and three synchronous wheels 3023, the other two connecting shafts 3031 are driven to synchronously rotate, so three rotating discs 3035 are driven to synchronously rotate, three butt joints on the three rotating discs 3035 correspond to a plurality of discharge ports 3036 on three distribution plates 3034, the adding amount of the seasoning raw materials is controlled by utilizing different sizes of the plurality of discharge ports 3036, the purpose of automatic distribution proportion is achieved, a second driving motor 4012 drives a stirring shaft 4031 fixedly connected with the output end of the second driving motor 4032 to rotate, under the action of a chain 4013 and two chain wheels 4014, a linkage shaft 4041 is driven to synchronously rotate, then three sleeves 4042 sleeved on the linkage shaft 4041 rotate along with the linkage shaft 4042, and then the raw materials on the plurality of baffles 4043 are driven to rotate and are sent to the lower cavity 202, the feeding speed of various raw materials is controlled, the purpose of secondary distribution proportion is achieved, the third driving motor 501 is used for driving the driving shaft 502 to rotate to drive the two driving bevel gears 503 to rotate, so that the two driven bevel gears 5043 meshed and matched with the two driving bevel gears 503 are driven to rotate, the two loading shafts 5042 are then driven to rotate, the two cutting disks 5041 are driven to rotate to automatically cut seasoning raw materials to be cut, the second driving motor 4012 is used for driving the stirring shaft 4031 fixedly connected with the output end of the second driving motor to rotate to drive the spiral blades 4032 to rotate, water is conveyed into the lower cavity 202 through the liquid inlet 10, full contact stirring operation between the seasoning raw materials is achieved, the heating pipeline 9 works to enable the temperature in the lower cavity 202 to reach preset requirements, and therefore production requirements of various seasonings are met.

A method of an apparatus for proportioning a plurality of condiments, comprising the steps of:

the seasoning raw materials are placed in the three storage cavities 101 according to classes, a first driving motor 3021 drives one connecting shaft 3031 fixedly connected with the output end of the first driving motor to rotate, and under the action of a synchronous belt 3022 and three synchronous wheels 3023, the other two connecting shafts 3031 are driven to synchronously rotate, so that the three rotating discs 3035 are driven to synchronously rotate, three butt joints on the three rotating discs 3035 correspond to a plurality of discharge ports 3036 on three distribution plates 3034, and the amount of the seasoning raw materials is controlled by utilizing different sizes of the plurality of discharge ports 3036, so that the purpose of automatic distribution proportion is achieved;

secondly, a stirring shaft 4031 fixedly connected with the output end of the stirring shaft is driven to rotate by a second driving motor 4012, and under the action of a chain 4013 and two chain wheels 4014, a linkage shaft 4041 is driven to synchronously rotate, so that three sleeves 4042 sleeved on the linkage shaft 4041 rotate along with the linkage shaft, and then raw materials on a plurality of baffles 4043 are driven to rotate and are conveyed into the lower cavity 202, so that the feeding speed of various raw materials is controlled, and the purpose of secondary distribution proportion is achieved;

thirdly, a third driving motor 501 is used for driving a driving shaft 502 to rotate so as to drive two driving bevel gears 503 to rotate, so that two driven bevel gears 5043 which are meshed and matched with the two driving bevel gears 503 are driven to rotate, and then the two loading shafts 5042 rotate, so that the two cutting disks 5041 rotate, and seasoning raw materials to be cut are automatically cut;

fourthly, the stirring shaft 4031 fixedly connected with the output end of the second driving motor 4012 is driven to rotate to drive the helical blades 4032 to rotate, water is conveyed into the lower cavity 202 through the liquid inlet 10, so that the seasoning raw materials are fully contacted and stirred, and the heating pipeline 9 works to enable the temperature in the lower cavity 202 to reach the preset requirement, so that the production of the seasoning is completed;

and (V) the worm 605 is driven to rotate by the fourth driving motor 604, the screw 602 is driven to move in the vertical direction, the material control block 601 is enabled to synchronously move in the vertical direction, the opening and closing operation of the material discharging channel 603 can be controlled, and therefore the automatic material discharging operation is realized.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A device for blending a plurality of seasonings according to a proportion is characterized in that: comprises an upper box body (1), a lower box body (2), a blending device (3), a linkage feeding device (4), a cutting device (5) and a discharging device (6), wherein the upper box body (1) is arranged at the top of the lower box body (2) and is communicated with the interior of the lower box body (2), the blending device (3) is arranged on the upper box body (1), two partition plates (7) which are vertical and arranged at intervals are arranged in the upper box body (1), the two partition plates (7) can divide the internal space of the upper box body (1) into three equal material storage cavities (101), the linkage feeding device (4) is arranged in the lower box body (2) and can be connected and matched with the bottom of the upper box body (1), two vertical plates (8) which are arranged at intervals are arranged in the lower space of the lower box body (2), the lower space is called as a lower cavity (202) of the lower box body (2), and the upper space which is not provided with the vertical plates (8) is called as an upper cavity (201) of the lower box body (2), the automatic feeding device is characterized in that a heating pipeline (9) is arranged in the lower cavity (202), the cutting device (5) is arranged in the lower cavity (202), the output end of the cutting device extends to the lower portion of the linkage feeding device (4), a liquid inlet (10) communicated with the lower cavity (202) is formed in the side wall of the lower box body (2), the discharging device (6) is arranged at the bottom of the lower box body (2), the allocating device (3) comprises a supporting frame (301), a driving assembly (302) and three distributing assemblies (303), the supporting frame (301) is of a cross structure and is fixed at the top of the upper box body (1), the driving assembly (302) is arranged at the top of the supporting frame (301) and is in transmission connection with the three distributing assemblies (303), the three distributing assemblies (303) are respectively arranged in the three material storage cavities (101), each distributing assembly (303) comprises a connecting shaft (3031), stirring blades (3032), distributing plates (3034) and a rotating disc (3035), the connecting shaft (3031) is vertically arranged in the material storage cavity (101), two ends of the connecting shaft are fixedly connected with the centers of the supporting frame (301) and the rotating disc (3035) respectively, the distributing plate (3034) is horizontally arranged in the material storage cavity (101), a plurality of material outlets (3036) are arranged on the distributing plate (3034), the rotating disc (3035) is arranged at the bottom of the distributing plate (3034), the plurality of material outlets (3036) are sequentially and increasingly arranged along the axis of the rotating disc (3035) in a counterclockwise direction, the stirring blade (3032) is sleeved on the connecting shaft (3031), the rotating disc (3035) is provided with a butt joint corresponding to the largest one material outlet (3036), the driving assembly (302) comprises a first driving motor (3021), a synchronous belt (3022) and three synchronous wheels (3023), the first driving motor (3021) is arranged at the top of the supporting frame (301), and the output end of the first driving motor (3021) is fixedly connected with one connecting shaft (3031), three synchronizing wheels (3023) are respectively sleeved on three connecting shafts (3031), a synchronous belt (3022) is sleeved on the outer portions of the three synchronizing wheels (3023), the linkage feeding device (4) comprises a linkage assembly (401), a material guide plate (402), a stirring assembly (403), a feeding assembly (404) and two partition tables (405), the linkage assembly (401) is installed on the side wall of the lower box body (2) and is respectively in transmission connection with the stirring assembly (403) and the feeding assembly (404), the material guide plate (402) is obliquely arranged in the lower box body (2), the two partition tables (405) are vertically fixed on the material guide plate (402) and can divide the feeding assembly (404) into three sections, the stirring assembly (403) comprises a stirring shaft (4031) and a spiral blade (4032), the stirring shaft (4031) is horizontally arranged in the lower cavity (202), and the spiral blade (4032) is fixed on the stirring shaft (4031), the feeding component (404) comprises a linkage shaft (4041) and three sleeves (4042) which are sleeved on the linkage shaft (4041), each sleeve (4042) is provided with a plurality of baffle plates (4043) which are distributed at equal intervals along the axis of the sleeve (4042), a groove for storing raw materials can be formed between every two adjacent baffle plates (4043), the cutting device (5) comprises a third driving motor (501), a driving shaft (502), two driving bevel gears (503) and two cutting components (504), the two cutting components (504) are symmetrically arranged, the third driving motor (501) is installed on the side wall of the lower box body (2) and is fixedly connected with the driving shaft (502), the two driving bevel gears (503) are fixed on the driving shaft (502) and are respectively in transmission connection with the two cutting components (504), each cutting component (504) comprises a cutting disc (5041), a linkage shaft (5042) and a driven bevel gear (5043), the connecting and carrying shaft (5042) is vertically arranged in the lower cavity (202), the cutting disc (5041) is fixed at the top of the connecting and carrying shaft (5042), and the driven bevel gear (5043) is sleeved on the connecting and carrying shaft (5042) and is engaged and matched with the driving bevel gear (503).

2. The apparatus for proportioning a plurality of flavorings as in claim 1, wherein: linkage subassembly (401) includes L template (4011), second driving motor (4012), chain (4013) and two sprocket (4014), L template (4011) is fixed on the lateral wall of box (2) down, second driving motor (4012) are horizontal installation on the lateral wall of L template (4011) and its output and stirring axle (4031) fixed connection, install respectively on stirring axle (4031) and linkage axle (4041) two sprocket (4014), chain (4013) cover is established on the outside of two sprocket (4014).

3. The apparatus for proportioning a plurality of flavorings as in claim 1, wherein: the discharging device (6) comprises a material control block (601), a screw rod (602), a discharging channel (603), a fourth driving motor (604), a worm (605) and two material bearing tables (606), wherein the two material bearing tables (606) are symmetrically arranged on the inner bottom wall of the lower cavity (202), the top end face of each material bearing table (606) is arranged in an inclined plane, the discharging channel (603) is arranged at the bottom of the lower box body (2), the material control block (601) is arranged in the lower cavity (202), the top end of the screw rod (602) is fixedly connected with the material control block (601), the fourth driving motor (604) is arranged on the side wall of the discharging channel (603) and is fixedly connected with the worm (605), and the worm (605) is in transmission fit with the screw rod (602).

4. A method of using the apparatus for proportioning a plurality of condiments according to claim 1, comprising the steps of:

the seasoning raw materials are placed in three storage cavities (101) according to classes, a first driving motor (3021) drives a connecting shaft (3031) fixedly connected with the output end of the first driving motor to rotate, and under the action of a synchronous belt (3022) and three synchronous wheels (3023), the other two connecting shafts (3031) are driven to synchronously rotate, so that three rotating discs (3035) are driven to synchronously rotate, three pairs of interfaces on the three rotating discs (3035) correspond to a plurality of discharge ports (3036) on three distribution plates (3034), and the seasoning raw materials are controlled by utilizing different sizes of the plurality of discharge ports (3036), so that the purpose of automatic distribution proportion is achieved;

the stirring shaft (4031) fixedly connected with the output end of the stirring shaft is driven to rotate by a second driving motor (4012), the linkage shaft (4041) is driven to synchronously rotate under the action of a chain (4013) and two chain wheels (4014), three sleeves (4042) sleeved on the linkage shaft (4041) rotate along with the linkage shaft, and then raw materials on a plurality of baffles (4043) are driven to rotate and are conveyed into the lower cavity (202), so that the feeding speed of various raw materials is controlled, and the purpose of secondary distribution proportion is achieved;

thirdly, a third driving motor (501) is used for driving a driving shaft (502) to rotate to drive two driving bevel gears (503) to rotate, so that two driven bevel gears (5043) which are meshed and matched with the two driving bevel gears (503) are driven to rotate, and then two loading shafts (5042) are driven to rotate, two cutting discs (5041) are driven to rotate, and seasoning raw materials to be cut are subjected to automatic cutting operation;

fourthly, a stirring shaft 4031 fixedly connected with the output end of the second driving motor 4012 is driven to rotate to drive a spiral blade 4032 to rotate, water is conveyed into the lower cavity 202 through a liquid inlet 10, so that the seasoning raw materials are fully contacted and stirred, and a heating pipeline 9 works to enable the temperature in the lower cavity 202 to reach a preset requirement, so that the seasoning production is completed;

and (V) the worm (605) is driven to rotate by the fourth driving motor (604), the screw rod (602) is driven to move in the vertical direction, the material control block (601) is enabled to move in the vertical direction synchronously, the opening and closing operation of the material discharging channel (603) can be controlled, and therefore the automatic material discharging operation is achieved.