CN110280347B

CN110280347B - A integrative device of stoving crocus for crops processing

Info

Publication number: CN110280347B
Application number: CN201910616542.4A
Authority: CN
Inventors: 程壑
Original assignee: Rudong Jiahua Food Machinery Co ltd
Current assignee: Rudong Jiahua Food Machinery Co.,Ltd.
Priority date: 2019-07-09
Filing date: 2019-07-09
Publication date: 2020-11-24
Anticipated expiration: 2039-07-09
Also published as: CN110280347A; JP2021010904A

Abstract

The invention discloses a drying and grinding integrated device for crop processing, which comprises a main machine body, wherein a stirring cavity is formed in the main machine body, a stirring mechanism is arranged in the stirring cavity, the stirring mechanism comprises a rotatable spiral blade, the spiral blade can stir crops in the stirring cavity, the drying efficiency is accelerated, a feeding pipeline extending upwards is communicated with the left side of the stirring cavity, the top of the feeding pipeline is provided with an opening, a heating cavity is formed in the bottom of the stirring cavity, a drying mechanism is arranged in the heating cavity, and the drying mechanism comprises an electric heating wire.

Description

A integrative device of stoving crocus for crops processing

Technical Field

The invention relates to the technical field of agricultural product processing, in particular to a drying and grinding integrated device for processing crops.

Background

The crops contain a lot of moisture after being harvested, the crops need to be aired in the open air and then stored, the airing in the open air is dependent on the weather, sometimes the crops need to be processed when being harvested due to shortage of raw materials, but the crops are wet and are not easy to grind into powder, so a device capable of drying the crops needs to be designed, and then the crops need to be ground;

the traditional processing mode is that two steps of drying and grinding are carried out by two production lines which are separated, the two production lines are mutually independent, the occupied area is large, the structure is not compact, in addition, the drying efficiency is low, and the production rhythm is slowed down.

Disclosure of Invention

The invention aims to provide a drying and grinding integrated device for crop processing, which is used for overcoming the defects in the prior art.

According to the invention, the drying and grinding integrated device for crop processing comprises a main machine body, wherein a stirring cavity is formed in the main machine body, a stirring mechanism is arranged in the stirring cavity, the stirring mechanism comprises a rotatable spiral blade, the spiral blade can stir crops in the stirring cavity, the drying efficiency is accelerated, a feeding pipeline extending upwards is communicated with the left side of the stirring cavity, the top of the feeding pipeline is opened, a heating cavity is formed at the bottom of the stirring cavity, a drying mechanism is arranged in the heating cavity, the drying mechanism comprises an electric heating wire, the electric heating wire can generate heat to heat and dry the crops, a middle cavity is formed at the bottom of the stirring cavity, long sliding cavities are formed in the inner walls of the left side and the right side of the middle cavity, a baffle mechanism is arranged between the two long sliding cavities, and the baffle mechanism comprises two sets of baffles which are bilaterally symmetrical, the two sets of baffles can shelter from the bottom in stirring chamber, the grinding chamber has been seted up to the bottom in middle part chamber, be equipped with grinding mechanism in the grinding chamber, grinding mechanism includes rotary disk and fixed disk, the rotary disk with all be equipped with the round hole on the fixed disk, just on the rotary disk the round hole diameter is great, makes crops can grind levigating.

A further technical scheme, the transmission chamber has been seted up at the top in heating chamber, the transmission chamber with rotate between the heating chamber and be equipped with the fan axle that two sets of upper and lower extensions set up, the top extension section of fan axle all stretches into the transmission intracavity, just all set firmly first band pulley in the periphery of fan axle, it is two sets of connect through first belt between the first band pulley, be located the right side the top of fan axle has set firmly first bevel gear, the bottom of fan axle has all set firmly the fan, the heating wire sets firmly the heating intracavity, just the heating wire is located the fan bottom, the bottom of heating wire has set firmly the screen panel.

According to the technical scheme, a belt cavity is formed in the right side of the transmission cavity, a transverse shaft which is arranged in a left-right extending mode is arranged between the belt cavity and the transmission cavity in a rotating mode, a left extending section of the transverse shaft extends into the transmission cavity, a second bevel gear is fixedly arranged at the tail end of the transverse shaft and meshed with the first bevel gear, a right extending section of the transverse shaft extends into the belt cavity, and a second belt wheel located in the belt cavity is fixedly arranged at the tail end of the transverse shaft.

According to the technical scheme, a stirring shaft extending left and right is rotatably arranged between the stirring cavity and the belt cavity, a right extending section of the stirring shaft extends into the belt cavity, a third belt wheel is fixedly arranged at the right end of the stirring shaft, the third belt wheel is connected with the second belt wheel through a second belt, a left extending section of the stirring shaft extends leftwards and extends into the left long sliding cavity, the spiral blades are fixedly arranged on the periphery of the part, located in the stirring cavity, of the stirring shaft, and a third bevel gear is fixedly arranged at the left end of the stirring shaft.

According to the technical scheme, the long sliding cavities are provided with sliding blocks in a sliding mode, a fixing plate is fixedly arranged between the sliding blocks, a funnel is fixedly arranged on the fixing plate, the baffle is hinged to the top wall of the middle cavity, and the baffle is hinged to the sliding blocks through a connecting rod.

According to the technical scheme, a first motor is fixedly arranged in the bottom wall of the long sliding cavity on the right side, a screw shaft is dynamically connected to the top surface of the first motor, the screw shaft is connected with the sliding block on the right side in a threaded fit mode, a second motor is fixedly arranged in the top wall of the long sliding cavity on the left side, a spline shaft is dynamically connected to the bottom surface of the second motor, a spline sleeve is arranged on the sliding block on the left side in a rotating mode, the spline sleeve extends up and down, the extending portion of the bottom of the spline sleeve is provided with teeth, the extending tail end of the top of the spline sleeve is fixedly provided with a fourth bevel gear, the fourth bevel gear can be meshed with the third bevel gear, and the spline shaft is inserted into the spline sleeve and is in spline fit connection with the spline sleeve.

Further technical scheme, grind the left side in chamber and seted up the slave chamber, the slave chamber rotates and is equipped with the fourth band pulley, the top of fourth band pulley has set firmly rotatory circle piece, rotatory circle piece is located the left in the long smooth chamber, the bottom of spline housing can insert in the rotatory circle piece top surface, the rotary disk rotates and sets up grind the intracavity, the fixed disk sets firmly in grinding the intracavity, the rotary disk with the fixed disk butt, the rotary disk with connect through the third belt between the fourth band pulley.

According to a further technical scheme, a collecting box is fixedly arranged on the bottom surface of the main machine body and is communicated with the grinding cavity.

The invention has the beneficial effects that: the device can automatically dry crops, the crops can be dried more quickly through the overturning effect of the helical blades, the working efficiency is improved, the device can automatically fall into the grinding cavity to grind after the crops are dried, the grinding mechanism and the drying mechanism are driven by the same power source, the number of motors is saved, the cost is controlled, and the device is more suitable for being used by small families and convenient to popularize.

Drawings

FIG. 1 is a schematic view of the internal overall structure of a drying and grinding integrated device for crop processing according to the present invention;

FIG. 2 is an enlarged partial schematic view of the spline housing of the present invention;

fig. 3 is a partially enlarged schematic view at the rotating disk in the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 3, the drying and grinding integrated device for crop processing according to the embodiment of the present invention includes a main body 10, a stirring cavity 32 is formed in the main body 10, a stirring mechanism 71 is disposed in the stirring cavity 32, the stirring mechanism 71 includes a rotatable helical blade 29, the helical blade 29 can stir crops in the stirring cavity 32 to accelerate drying efficiency, a feeding pipeline 11 extending upward is disposed on a left side of the stirring cavity 32, a top opening of the feeding pipeline 11 is disposed, a heating cavity 25 is disposed at a bottom of the stirring cavity 32, a drying mechanism 70 is disposed in the heating cavity 25, the drying mechanism 70 includes a heating wire 24, the heating wire 24 can generate heat to heat and dry crops, a middle cavity 60 is disposed at the bottom of the stirring cavity 32, long sliding cavities 61 are disposed on inner walls of left and right sides of the middle cavity 60, the baffle mechanism 72 is arranged between the two groups of long sliding cavities 61, the baffle mechanism 72 comprises two groups of baffles 30 which are bilaterally symmetrical, the bottoms of the stirring cavities 32 can be shielded by the two groups of baffles 30, the grinding cavity 37 is formed in the bottom of the middle cavity 60, a grinding mechanism 73 is arranged in the grinding cavity 37, the grinding mechanism 73 comprises a rotating disk 56 and a fixed disk 38, round holes 57 are formed in the rotating disk 56 and the fixed disk 38, and the round holes 57 in the rotating disk 56 are large in diameter, so that crops can be ground finely.

Beneficially or exemplarily, a transmission cavity 12 is opened at the top of the heating cavity 25, two sets of fan shafts 20 extending up and down are rotatably disposed between the transmission cavity 12 and the heating cavity 25, top extension sections of the fan shafts 20 both extend into the transmission cavity 12, and the periphery of the fan shaft 20 is fixedly provided with first pulleys 17, two groups of the first pulleys 17 are connected through a first belt 13, the top end of the fan shaft 20 positioned at the right side is fixedly provided with a first bevel gear 14, the bottom end of the fan shaft 20 is fixedly provided with a fan 23, the heating wire 24 is fixedly arranged in the heating cavity 25, the electric heating wire 24 is positioned at the bottom of the fan 23, a mesh enclosure 26 is fixedly arranged at the bottom of the electric heating wire 24, by controlling the operation of the fan shaft 20, the fan 23 blows air to make the heat on the heating wire 24 enter the stirring chamber 32.

Beneficially or exemplarily, a belt cavity 22 is formed at the right side of the transmission cavity 12, a transverse shaft 16 extending left and right is rotatably disposed between the belt cavity 22 and the transmission cavity 12, a left extending section of the transverse shaft 16 extends into the transmission cavity 12, and a second bevel gear 15 is fixedly disposed at the end thereof, the second bevel gear 15 is engaged with the first bevel gear 14, a right extending section of the transverse shaft 16 extends into the belt cavity 22, and a second pulley 18 positioned in the belt cavity 22 is fixedly disposed at the end thereof.

Beneficially or exemplarily, a stirring shaft 28 extending left and right is rotatably disposed between the stirring chamber 32 and the belt chamber 22, a right extending section of the stirring shaft 28 extends into the belt chamber 22, a third belt wheel 27 is fixedly disposed at a right end of the stirring shaft, the third belt wheel 27 is connected to the second belt wheel 18 through a second belt 19, a left extending section of the stirring shaft 28 extends left and extends into the long sliding chamber 61 on the left side, the helical blade 29 is fixedly disposed on a portion of the outer circumference of the stirring shaft 28 located in the stirring chamber 32, a third bevel gear 45 is fixedly disposed at a left end of the stirring shaft 28, and the helical blade 29 turns the crop over through rotation of the stirring shaft 28, and the third belt wheel 27 drives the second belt wheel 18 to rotate, so that the fan 23 blows air to accelerate drying of the crop.

Advantageously or exemplarily, two sets of the long sliding cavities 61 are provided with sliding blocks 42 in a sliding manner, a fixed plate 34 is fixedly arranged between the two sets of the sliding blocks 42, a funnel 33 is fixedly arranged on the fixed plate 34, the baffle 30 is hinged to the top wall of the middle cavity 60, and the baffle 30 is hinged to the sliding blocks 42 through a connecting rod 31, so that when the sliding blocks 42 move downwards, the baffle 30 is opened, and the crops in the stirring cavity 32 fall downwards.

Advantageously or exemplarily, a first motor 40 is fixedly arranged in the bottom wall of the long sliding cavity 61 on the right side, a screw shaft 41 is dynamically connected to the top surface of the first motor 40, the screw shaft 41 is connected with the sliding block 42 on the right side in a screw-fit manner, a second motor 43 is fixedly arranged in the top wall of the long sliding cavity 61 on the left side, a spline shaft 44 is dynamically connected to the bottom surface of the second motor 43, a spline housing 49 is rotatably arranged in the sliding block 42 on the left side, the spline housing 49 extends up and down, the bottom extension part of the spline housing 49 is provided with teeth, a fourth bevel gear 46 is fixedly arranged at the top extension end of the spline housing 49, the fourth bevel gear 46 can be meshed with the third bevel gear 45, the spline shaft 44 is inserted into the spline housing 49 and is in spline-fit connection with the spline housing 49, and through the operation of the second motor 43, the fourth bevel gear 46 drives the third bevel gear 45 to rotate, so that the stirring shaft 28 rotates, and the drying mechanism 70 operates.

Beneficially or exemplarily, a driven chamber 36 is opened at the left side of the grinding chamber 37, a fourth belt wheel 35 is rotatably provided in the driven chamber 36, a rotating round block 52 is fixedly provided at the top end of the fourth belt wheel 35, the rotating round block 52 is located in the long sliding chamber 61 at the left side, the bottom of the spline housing 49 can be inserted into the top surface of the rotating round block 52, the rotating disc 56 is rotatably provided in the grinding chamber 37, the fixed disc 38 is fixedly provided in the grinding chamber 37, the rotating disc 56 abuts against the fixed disc 38, the rotating disc 56 is connected with the fourth belt wheel 35 through a third belt 54, and the rotating disc 56 is rotated by rotating the fourth belt wheel 35, so that crops are ground.

Advantageously or exemplarily, a collection tank 39 is fixed on the bottom surface of the main body 10, and the collection tank 39 is communicated with the grinding chamber 37.

When the crop drying device is used, firstly, crops are put into the feeding pipeline 11, the second motor 43 is controlled to work, the spline shaft 44 drives the spline sleeve 49 to rotate, the fourth bevel gear 46 drives the third bevel gear 45 to rotate, the stirring shaft 28 is further driven to rotate, the helical blade 29 is driven to turn over the crops, the second belt pulley 18 is driven to rotate through the third belt pulley 27, the second bevel gear 15 drives the first bevel gear 14 to rotate, the fan 23 rotates to blow air, the heating wire 24 is controlled to work, drying operation is carried out, after drying is finished, the first motor 40 is controlled to work, the screw shaft 41 drives the sliding block 42 to move downwards, the baffle 30 is opened, the crops fall into the grinding cavity 37, the spline sleeve 49 is inserted into the top surface of the rotary circular block 52, the fourth bevel gear 46 is separated from the third bevel gear 45, the second motor 43 is controlled to work, the spline sleeve 49 drives the rotary circular block 52 to rotate, and the fourth belt wheel 35 drives the rotating disc 56 to rotate, so that the crops are ground and fall into the collecting box 39 after being ground into powder.

The invention has the beneficial effects that: the device can automatically dry crops, the crops can be dried more quickly through the overturning effect of the helical blades, the working efficiency is improved, the device can automatically fall into the grinding cavity to grind the crops after the crops are dried, the drying function and the grinding function are integrated, the occupied space is saved, the grinding mechanism and the drying mechanism are driven by the same power source, the number of motors is saved, the cost is controlled, the device is more suitable for being used by small families, and the device is convenient to popularize, simple in structure, convenient to operate and stable in transmission.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an integrative device of stoving crocus for crops processing, includes the host computer body, its characterized in that:

a stirring cavity is formed in the main body, a stirring mechanism is arranged in the stirring cavity and comprises a rotatable spiral blade, the spiral blade can stir crops in the stirring cavity, the drying efficiency is improved, the left side of the stirring cavity is communicated with a feeding pipeline extending upwards, the top of the feeding pipeline is provided with an opening, the bottom of the stirring cavity is provided with a heating cavity, a drying mechanism is arranged in the heating cavity and comprises a heating wire, and the heating wire can generate heat to heat and dry the crops; the bottom of the stirring cavity is provided with a middle cavity, the inner walls of the left side and the right side of the middle cavity are provided with long sliding cavities, a baffle mechanism is arranged between the two groups of long sliding cavities and comprises two groups of baffles which are bilaterally symmetrical, the bottoms of the stirring cavities can be shielded by the two groups of baffles, a grinding cavity is arranged at the bottom of the middle cavity, a grinding mechanism is arranged in the grinding cavity and comprises a rotating disk and a fixed disk, circular holes are formed in the rotating disk and the fixed disk, and the diameter of the circular hole in the rotating disk is larger, so that crops can be ground and milled; the heating device comprises a heating cavity, a transmission cavity, two groups of fan shafts, a first belt pulley, a second belt pulley, a first bevel gear, a fan, a heating wire, a mesh enclosure and a second belt pulley, wherein the transmission cavity is formed in the top of the heating cavity, two groups of fan shafts extending up and down are rotatably arranged between the transmission cavity and the heating cavity, the extending sections at the top of the fan shafts extend into the transmission cavity, the first belt pulleys are fixedly arranged on the periphery of each fan shaft, the two groups of first belt pulleys are connected through first belts, the first bevel gears are fixedly arranged at the top ends of the fan shafts on the right side, the fans are fixedly arranged at the bottom ends of the fan shafts, the; a belt cavity is formed in the right side of the transmission cavity, a transverse shaft which extends left and right is rotatably arranged between the belt cavity and the transmission cavity, a left extending section of the transverse shaft extends into the transmission cavity, a second bevel gear is fixedly arranged at the tail end of the transverse shaft, the second bevel gear is meshed with the first bevel gear, a right extending section of the transverse shaft extends into the belt cavity, and a second belt wheel positioned in the belt cavity is fixedly arranged at the tail end of the transverse shaft; a stirring shaft extending leftwards and rightwards is rotatably arranged between the stirring cavity and the belt cavity, a right extending section of the stirring shaft extends into the belt cavity, a third belt wheel is fixedly arranged at the right tail end of the stirring shaft, the third belt wheel is connected with the second belt wheel through a second belt, a left extending section of the stirring shaft extends leftwards and extends into the long sliding cavity on the left side, the spiral blades are fixedly arranged on the partial periphery of the stirring shaft positioned in the stirring cavity, and a third bevel gear is fixedly arranged at the left tail end of the stirring shaft; sliding blocks are arranged in the two groups of long sliding cavities in a sliding mode, a fixed plate is fixedly arranged between the two groups of sliding blocks, a funnel is fixedly arranged on the fixed plate, the baffle is hinged to the top wall of the middle cavity, and the baffle is hinged to the sliding blocks through a connecting rod; a first motor is fixedly arranged in the bottom wall of the long sliding cavity on the right side, a screw shaft is dynamically connected to the top surface of the first motor, the screw shaft is connected with the sliding block on the right side in a threaded fit manner, a second motor is fixedly arranged in the top wall of the long sliding cavity on the left side, a spline shaft is dynamically connected to the bottom surface of the second motor, a spline sleeve is rotatably arranged in the sliding block on the left side, the spline sleeve extends up and down, teeth are arranged on the bottom extending part of the spline sleeve, a fourth bevel gear is fixedly arranged at the top extending tail end of the spline sleeve and can be meshed with the third bevel gear, and the spline shaft is inserted into the spline sleeve and is in spline fit connection with the spline sleeve; a driven cavity is formed in the left side of the grinding cavity, a fourth belt wheel is rotatably arranged in the driven cavity, a rotary round block is fixedly arranged at the top end of the fourth belt wheel and positioned in the long sliding cavity on the left side, the bottom of the spline sleeve can be inserted into the top surface of the rotary round block, the rotary disc is rotatably arranged in the grinding cavity, the fixed disc is fixedly arranged in the grinding cavity, the rotary disc is abutted against the fixed disc, and the rotary disc is connected with the fourth belt wheel through a third belt; the bottom surface of the main machine body is fixedly provided with a collecting box which is communicated with the grinding cavity.