Starch processes dedicated airflow drier
Technical field
The present invention relates to starch processing technique fields, and more specifically, in particular to starch processes dedicated airflow drying dress
It sets.
Background technique
Dryer can be divided into it is civilian with industrial two kinds, civilian dryer is one of washing machine, generally in water elution
After water, for removing the moisture in clothes and other textiles, industrial drier is also drying equipment or drying machine.
It is found by the technology analysis that technical staff processes dedicated airflow drier to starch, the starch in existing market
Drying equipment in use, since starch is powder, is easy to gather in a device, causes drying efficiency bad, this
Outside, excessive starch is usually taken out of by air-flow when collecting starch using hot-air seasoning starch, causes starch excessive.
Therefore, existing noise reduction technology all exists: starch starch is powder, is easy to gather in a device, causes to dry
Dry efficiency is bad, in addition, when collecting starch, usually being taken out of excessive starch using hot-air seasoning starch by air-flow, leading to starch
The problems such as excessive.
Summary of the invention
(1) technical problem
In conclusion the present invention, which provides starch, processes dedicated airflow drier, by structure and functional improvement, with
It solves due to starch to be powder, is easy to gather in a device, causes drying efficiency bad, in addition, forming sediment using hot-air seasoning
Powder usually takes excessive starch out of by air-flow when collecting starch, leads to the problem that starch is excessive.
(2) technical solution
The present invention provides starch to process dedicated airflow drier, for starch process dedicated airflow drier into
Row technological innovation is processed in dedicated airflow drier in starch provided by the invention, is specifically included: air blower, hot bellows, company
It connects bend pipe, charging pipeline section, feed inlet, first axle bearing sleeve, the outer liner plate of bearing, drying box main body, flow-disturbing wing, lantern ring, supporting table, turn
Dynamic roller, driven gear, second bearing set, discharge pipeline section, escape pipe, drainage conduit, driving gear and aeroscopic plate;The air blower
Right end air draught end is fixedly connected with hot bellows, and hot bellows and air blower are on same straight line;The upper end of the air blower
Exhaust outlet is connected on the side wall of the right end of charging pipeline section by bridge piece;The charging pipeline section left end is then fixedly connected on
On the outer fixed shell of one bearing holder (housing, cover);The inner ring of the outer liner plate of the bearing of the left end of the first axle bearing sleeve is then connected to cylindric
The right end of the drying box main body, and first axle bearing sleeve lower end is then fixed on the ground by fixed station;The drying box main body
Left end then in the inner ring ring wall of the fixed second bearing set for being embedded in left end;The left end outer housing of the second bearing set
On be then connected with the discharge pipeline section of extension;The upper end of the discharge pipeline section has been arranged vertically upwards escape pipe, and discharge pipeline section
Lower end is then vertically arranged with drainage conduit.
Preferably, the bridge piece is just equal with the left end edge of feed inlet positioned at the position of charging inner tube segment
Together;
Preferably, the right end of the charging pipeline section is the shape of tangent sealing with the inner tubal wall of the left end of drying box main body just
State, charging pipeline section is fixed structure, and dries box main body then and be and be integrated fixed structure with first axle bearing sleeve inner ring, and
Discharge pipeline section and the connection type of drying box main body and above structure are also consistent;
Preferably, then circular array shows several flow-disturbing wings for bending 120 degree to the inner barrel wall of the drying box main body;
Preferably, the middle part annular of the outer wall of the drying box main body is provided with driven gear, and the lower end of driven gear
Then the driving gear of the rotary electric machine with setting on the ground is mutually twisted;
Preferably, the left end of the drying box body outer wall and the annular fixing sleeve of right end are connected to lantern ring, and under lantern ring
End is just tangent with the rotating roller of rear and front end at the top of supported underneath platform;
Preferably, the middle upper end of the discharge inner tube segment is fixedly installed the spherical aeroscopic plate of a quarter, air guide
The extrados of plate is towards drying box main body, and there are discharge pipeline section diameters 1/5th for the top of aeroscopic plate and the lower end of escape pipe
Distance;
Preferably, the left end of the aeroscopic plate extends horizontally on the left end side wall of discharge pipeline section, and a left side for discharge pipeline section
Secondary discharge through-hole is offered in the middle part of the wall of end side.
(3) beneficial effect
The present invention provides starch to process dedicated airflow drier, first axle bearing sleeve and second bearing set and drying
The setting of box main body, the right end by feeding pipeline section are the shape of tangent sealing with the inner tubal wall of the left end of drying box main body just
State, charging pipeline section is fixed structure, and dries box main body then and be and be integrated fixed structure with first axle bearing sleeve inner ring, and
Discharge pipeline section and the connection type of drying box main body and above structure are also consistent, so that drying box main body can be first
It is rotated between bearing holder (housing, cover) and second bearing set, avoiding starch, there is a phenomenon where buildups during the drying process, further through drying box
The middle part annular of the outer wall of main body is provided with driven gear, and the lower end of the driven gear then rotary electric machine with setting on the ground
Driving gear be mutually twisted, thus by rotary electric machine for dry box main body rotation power is provided
The present invention is cooperated by above-mentioned various structure acquaintanceships, comprehensive to realize a kind of dedicated airflow drying dress of starch processing
It sets, by the device, can be improved the automatic continuous drying operation of starch, and starch can be reduced and gathered in the device, improve
Processing efficiency, compared to traditional starch drying equipment, easy to operate, maintenance is saved worry.
Detailed description of the invention
Fig. 1 is that the right back axis in the embodiment of the present invention regards structural schematic diagram;
Fig. 2 is that the left front square shaft in the embodiment of the present invention regards structural schematic diagram;
Fig. 3 is the schematic view of the front view in the embodiment of the present invention;
Fig. 4 is amplifier section structural schematic diagram in Fig. 2 in the embodiment of the present invention;
Fig. 5 is the overlooking structure diagram in the embodiment of the present invention;
Fig. 6 is the position B-B schematic cross-sectional view in Fig. 5 in the embodiment of the present invention;
Fig. 7 is that the whole device in the embodiment of the present invention dries decomposed right front axis view structural schematic diagram;
Fig. 8 is that the whole device in the embodiment of the present invention dries decomposed left back square shaft view structural schematic diagram;
Fig. 9 is the discharge pipeline section partial structure diagram in the embodiment of the present invention;
Figure 10 is that the drying box main part split axle in the embodiment of the present invention regards structural schematic diagram;
In Fig. 1 into Figure 10, the corresponding relationship of component names or lines and accompanying drawing number are as follows:
1- air blower, 2- hot bellows, 3- bridge piece, 4- feed pipeline section, 5- feed inlet, 6- first axle bearing sleeve, 601- axis
Hold outer liner plate, 7- drying box main body, 701- flow-disturbing wing, 8- lantern ring, 9- supporting table, 10- rotating roller, 11- driven gear, 12- the
Two bearing holder (housing, cover)s, 13- discharge pipeline section, 14- escape pipe, 15- drainage conduit, 16- rotary electric machine, 17- driving gear, 18- aeroscopic plate.
Specific embodiment
Embodiments of the present invention are described in further detail with reference to the accompanying drawings and examples.Following embodiment is used for
Illustrate the present invention, but cannot be used to limit the scope of the invention.
In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more;Term " on ",
The orientation or positional relationship of the instructions such as "lower", "left", "right", "inner", "outside", " front end ", " rear end ", " head ", " tail portion " is
It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark
Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair
Limitation of the invention.In addition, term " first ", " second ", " third " etc. are used for description purposes only, and should not be understood as instruction or
Imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " connected " " connects
Connect " it shall be understood in a broad sense, for example, it may be being fixedly connected, it may be a detachable connection, or be integrally connected;It can be machine
Tool connection, is also possible to be electrically connected;It can be directly connected, it can also be indirectly connected through an intermediary.For this field
For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.
Fig. 1 is please referred to Figure 10.
Easily gather in a device to solve starch existing for the dedicated airflow drier of starch processing in the prior art, dries
The bad problem of dry efficiency, the invention proposes starch to process dedicated airflow drier, for processing dedicated air-flow to starch
Drying unit carries out technological innovation, comprising: air blower 1, hot bellows 2, bridge piece 3, charging pipeline section 4, feed inlet 5, first axle
The outer liner plate 601 of bearing sleeve 6, bearing, drying box main body 7, flow-disturbing wing 701, lantern ring 8, supporting table 9, rotating roller 10, driven gear 11,
Second bearing set 12, discharge pipeline section 13, escape pipe 14, drainage conduit 15, rotary electric machine 16, driving gear 17 and aeroscopic plate 18;Institute
The right end air draught end for stating air blower 1 is fixedly connected with hot bellows 2, and hot bellows 2 and air blower 1 are on same straight line;It is described
The exhaust outlet of the upper end of air blower 1 is connected on the side wall of the right end of charging pipeline section 4 by bridge piece 3;The charging pipeline section 4
Left end is then fixedly connected on the outer fixed shell of first axle bearing sleeve 6;The outer liner plate of the bearing of the left end of the first axle bearing sleeve 6
601 inner ring is then connected to the right end of the cylindric drying box main body 7, and 6 lower end of first axle bearing sleeve then passes through fixed station
It fixes on the ground;The interior ring for being embedded in the second bearing set 12 of left end is then fixed in the left end of the drying box main body 7
In wall;The discharge pipeline section 13 of extension is then connected on the left end outer housing of the second bearing set 12;The discharge pipeline section 13
Upper end has been arranged vertically upwards escape pipe 14, and the lower end of discharge pipeline section 13 is then vertically arranged with drainage conduit 15.
Wherein, the position that the bridge piece 3 is located inside charging pipeline section 4 is just equal with the left end edge of feed inlet 5
Together, after starch charging since feed inlet 5, baking can be entered under the air-flow direct-injection effect of lower section bridge piece 3 just
In dry box main body 7, starch back-mixing under airflow function is avoided;
Wherein, the right end of the charging pipeline section 4 is the shape of tangent sealing with the inner tubal wall of the left end of drying box main body 7 just
State, charging pipeline section 4 is fixed structure, and drying box main body 7 then is to be integrated fixed structure with 6 inner ring of first axle bearing sleeve,
And discharge pipeline section 13 and the connection type of drying box main body 7 and above structure are also consistent, so that drying 7 energy of box main body
Enough to rotate between first axle bearing sleeve 6 and second bearing set 12, avoiding starch, there is a phenomenon where buildups during the drying process;
Wherein, then circular array shows several flow-disturbing wings 701 for bending 120 degree to the inner barrel wall of the drying box main body 7, increases
Residence time of the starch in drying box main body 7, improve drying efficiency;
Wherein, the middle part annular of the outer wall of the drying box main body 7 is provided with driven gear 11, and under driven gear 11
End is then mutually twisted with the driving gear 17 that rotary electric machine 16 on the ground is arranged, to be drying box by rotary electric machine 16
The rotation of main body 7 provides power;
Wherein, the left end of drying 7 outer wall of box main body and the annular fixing sleeve of right end are connected to lantern ring 8, and under lantern ring 8
End is just tangent with the rotating roller 10 of 9 top rear and front end of supported underneath platform, provides the work of guiding to dry the rotation of box main body 7
With, avoid drying box main body 7 glance off during rotation;
Wherein, the middle upper end inside the discharge pipeline section 13 is fixedly installed the spherical aeroscopic plate 18 of a quarter, leads
The extrados of gas plate 18 is towards drying box main body 7, and there are discharge pipeline sections 13 for the top of aeroscopic plate 18 and the lower end of escape pipe 14
The distance of diameter 1/5th enables starch and air-flow to be shunted, since air-flow itself is by drying box main body 7
Afterwards, gas velocity has been substantially reduced, and when reaching discharge pipeline section 13, can only be shown the excessive speed of gas, therefore, added
After aeroscopic plate 18, have been able to guarantee gas solid separation;
Wherein, the left end of the aeroscopic plate 18 extends horizontally on the left end side wall of discharge pipeline section 13, and discharge pipeline section 13
Left end side wall in the middle part of offer secondary discharge through-hole, the use when material cannot get timely outlet.
The specifically used mode and effect of the present embodiment: in the use of the present invention, by air blower 1, hot bellows 2 and turning first
Dynamic motor 16 is opened, and the hot blast temperature of hot bellows 2 is promoted to preset temperature, starch is poured into from feed inlet 5 and is dried, by
In the inner barrel wall of drying box main body 7, then circular array shows 120 degree of flow-disturbing wings 701 of several bendings, and increase starch is in drying box master
Residence time in body 7 improves drying efficiency, and feeds the inner tube of the right end of pipeline section 4 just with the left end of drying box main body 7
Wall is the state of tangent sealing, and charging pipeline section 4 is fixed structure, and drying box main body 7 is then to be with 6 inner ring of first axle bearing sleeve
Integrally fixed structure, and discharge pipeline section 13 and the connection type of drying box main body 7 and above structure are also consistent, to make
Box main body 7, which must be dried, to be rotated between first axle bearing sleeve 6 and second bearing set 12, and starch is avoided to occur during the drying process
The phenomenon that buildup, in addition, the middle part annular of the outer wall of drying box main body 7 is provided with driven gear 11, and under driven gear 11
End is then mutually twisted with the driving gear 17 that rotary electric machine 16 on the ground is arranged, to be drying box by rotary electric machine 16
The rotation of main body 7 provides power, finally, starch enters in discharge pipeline section 13, the middle upper end fixation inside discharge pipeline section 13 is set
It is equipped with the spherical aeroscopic plate 18 of a quarter, the extrados direction drying box main body 7 of aeroscopic plate 18, and the top of aeroscopic plate 18
With the lower end of escape pipe 14 there are at a distance from 13 diameter 1/5th of discharge pipeline section, starch and air-flow are shunted,
Since air-flow itself is after drying box main body 7, gas velocity has been substantially reduced, only being capable of table when reaching discharge pipeline section 13
Reveal the excessive speed of gas, therefore, after adding aeroscopic plate 18, has been able to guarantee gas solid separation.
The embodiment of the present invention is given for the purpose of illustration and description, and is not exhaustively or by this to send out
It is bright to be limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Choosing
Selecting and describe embodiment is and to make those skilled in the art to more preferably illustrate the principle of the present invention and practical application
It will be appreciated that the present invention is to design various embodiments suitable for specific applications with various modifications.