CN203565118U

CN203565118U - Automatic feedback regulation system of corn peeling and degerming machine

Info

Publication number: CN203565118U
Application number: CN201320642410.7U
Authority: CN
Inventors: 刘艺玲; 杨建华
Original assignee: Xi'an Segotep Corn Product Co Ltd
Current assignee: Xi'an Segotep Corn Product Co Ltd
Priority date: 2013-10-17
Filing date: 2013-10-17
Publication date: 2014-04-30
Anticipated expiration: 2023-10-17

Abstract

The utility model discloses an automatic feedback regulation system of a corn peeling and degerming machine. The automatic feedback regulation system comprises a machining cavity pressure loading and controlling unit, a feeding speed control unit, a machining cavity air inlet control unit and a main control center, wherein the machining cavity pressure loading and controlling unit comprises a pressure sensor, a pressure plate and a displacement moving part, the pressure plate can generate bending or displacement in the axial direction of a machining cavity under the driving of the displacement moving part, and pressure in the machining cavity is measured in real time by the pressure sensor; the feeding speed control unit comprises a speed regulating motor and a motor speed regulator; the machining cavity air inlet control unit comprises a fan and an air volume controller. The pressure in the whole machining cavity can be regulated and controlled, the intensity of corns in the machining cavity can be optimal, and therefore the optimal production efficiency can be achieved. Through real-time monitoring, feedback and automatic control of the feeding speed, the air flow speed and the pressure in the machining cavity, the production efficiency and the automation degree of production equipment are improved.

Description

The automatic feedback regulating system of corn decortication germ separator

Technical field

The utility model relates to a kind of Cereals Processing Machines, especially a kind of for corn decortication with take off the automatic feedback regulating system of embryo, has that working (machining) efficiency is high, automaticity high.

Background technology

The decortication of corn and de-embryo are the basic working procedure of corn particle processing, it is mainly to utilize mechanical strength to destroy the structure of corn, thereby it is separated that the body that makes crust, plumule and the corn of corn is that endosperm carries out, make it to meet the requirement of the finished product processing such as follow-up broken crushed grain and abrasive dust.

Common corn decortication germ separator as shown in Figure 1, corn is entered after processing cavity by feed hopper 1, by the helical feed of High Rotation Speed 7, drive maize raw materials 2 to enter in processing cavity in 14, processing cavity 14 is inner is and a helical feed 7 sand roller 3 that are solidified as a whole, the outside of processing cavity is screen drum 5 cylindraceous, maize raw material 2 rolls under the sand roller 3 of rotation and the effect of static screen drum 5, extruding and friction, finally the skin of corn and plumule are peeled off from corn body, skin wherein, the broken particles such as plumule 10 are collected in particle bucket 11 through the sieve aperture 17 on screen drum 4, and the semifinished or finished goods major ingredient 13 that comprises complete plumule is discharged by discharging opening 15.

Generally, sand roller 3 is more piece, clearance control between sand roller 3 and screen drum 5 is between 25-30mm, every joint sand roller 3 is connected by discharge iron roll 4, the outside of discharge iron roll 4 is helicoidal structure, Main Function is that skin and plumule etc. is discharged in particle bucket 11, simultaneously by helical rotation, the raw material in processing cavity 14 is derived to outlet from import.The type of drive of corn decortication germ separator be after conventional three asynchronous machines 9 slow down by belt pulley 8, drive rotating shaft 16 High Rotation Speeds, and rotating shaft 16 and helical feed 7, sand roller 3 are coaxially installed as one, and High Rotation Speed.In order to control the corn flow entering in processing cavity 14, below feed hopper 1, be provided with flow regulator 6, its operation principle is similar to valve, by the size of manual adjustments valve, changes and flows to the corn flow in processing cavity 14.

Because length and the joint number of separate unit machinery medium sand roller are limited, conventionally one-level processing only can reach the de-embryo rate of decortication of 15%-25%, therefore conventionally adopting the decortication germ separator cascade of four to six grades uses, the semi-finished product of previous stage decortication germ separator discharging opening 15, after conveying mechanism and pneumatic separator, by in the large scale plumule having departed from and semi-finished product or finished product major ingredient 13 separate, and major ingredient 13 is inputted to next stage again, until complete whole decortications and de-embryo.

The subject matter that existing corn decortication germ separator exists has:

One, efficiency is not high, only rely on helical feed head that corn particle is passed on, and under the friction of sand roller and screen drum and extruding the de-embryo of decortication, efficiency is not high, and in High Rotation Speed between corn, sand roller and screen drum because of frictional heat, can have influence on the quality quality such as color, mouthfeel of finished product, if because heat dissipation problem is taked batch production, can greatly reduce the efficiency of corn processing.

Two, cannot regulate the dense degree of the pressure in processing cavity and corn particle, thereby reach the best de-embryo efficiency of decortication, in addition because the gap size between sand roller and screen drum is fixed, after the wearing and tearing of sand roller, can only guarantee that certain decortication takes off embryo efficiency by the sand roller more renewing;

Three, prior art by arranging manual flow controller below feed hopper, combine with the driven by motor helical feed head of fixed rotating speed, thereby realize the adjusting of corn charging rate, in application, cannot carry out to flow the meticulous adjusting of continuous parameter variation in practice, and adjustment process is manually, cannot realize automatic feedback control and accurate operation.

Summary of the invention

For addressing the above problem, the utility model has designed a kind of automatic feedback regulating system of corn decortication germ separator, by hollow rotating shaft, air-flow is introduced to processing cavity, and induction air flow ratio in pressure, charging rate and the chamber in automatic controlled working chamber, realize upset and the processing cavity cooling of corn, and greatly improved production efficiency.

The technical solution of the utility model is as follows:

The automatic feedback regulating system of corn decortication germ separator, comprises process chamber pressure Loading Control unit, charging rate control module, processing cavity air inlet control module and control axis; Described process chamber pressure Loading Control unit comprises pressure sensor, pressure plare and displacement moving-member; Described pressure plare is arranged on the axle head of processing cavity, and can under the driving of displacement moving-member, produce bending or the displacement along processing cavity axial direction, and described pressure sensor is measured the pressure of processing cavity inside in real time;

Charging rate control module comprises buncher and machine governor; Described buncher is connected by transmission device and helical feed head; Processing cavity air inlet control module comprises the blast volume controller of blower fan and fan outlet, and described blast volume controller is connected by the hollow rotating shaft of pipeline and processing cavity;

Control axis comprises collecting unit and processing execution unit, and described collecting unit and pressure sensor, machine governor and fan speed regulation device electrically connect, for Real-time Obtaining motor speed, fan delivery, cavity pressure signal or equivalent signal parameter; Described processing execution unit and displacement moving-member, machine governor and fan speed regulation device electrically connect, and after the data of the parameter that collecting unit is collected and in advance storage compare, output is carried out instruction to displacement moving-member, machine governor and fan speed regulation device.

In the pressure-regulating device of above-mentioned corn decortication germ separator, pressure plare is for having flexible thin-slab structure, one end is fixed in the frame of processing cavity axle head, and the other end is unsettled, and the free end of described pressure plare can produce flexural deformation under the driving of displacement moving-member.

In the pressure-regulating device of above-mentioned corn decortication germ separator, displacement moving-member comprises push rod, leading screw and drive motors, and described drive motors drives leading screw to rotate, and makes push rod produce displacement, and the free end of squeeze pressure plate, makes pressure plare flexural deformation.

In the pressure-regulating device of above-mentioned corn decortication germ separator, displacement moving-member comprises pressure mandril, gas source or hydraulic power source, and the free end of described pressure mandril squeeze pressure plate under the driving of air pressure or hydraulic pressure, makes pressure plare flexural deformation.

In the pressure-regulating device of above-mentioned corn decortication germ separator, buncher is variable-frequency motor, and machine governor is variable-frequency governor.

In the pressure-regulating device of above-mentioned corn decortication germ separator, blower fan is frequency conversion fan, and blast volume controller is fan frequency conversion speed regulator.

In the pressure-regulating device of above-mentioned corn decortication germ separator, blower fan is permanent power Fan, and blast volume controller is the automatic damper that is arranged on fan outlet.

The useful technique effect the utlity model has is as follows:

1, the utility model by air-flow by hollow rotating shaft and be with leachy sand roller to import in processing cavity, accelerated rolling and the friction of corn in processing cavity, improved the de-embryo efficiency of decortication, air-flow can be taken away the heat that partial frictional produces simultaneously, improve production efficiency, made the machinery can long time continuous working and can be not overheated, thereby can be because of the frictional heat of processing, have influence on the quality such as color, mouthfeel of finished product, guaranteed the quality of product.

2, the utility model is provided with cavity pressure Loading Control unit in one end of processing cavity outlet, and the pressure of whole processing cavity is regulated to control, makes the closeness of corn in processing cavity reach optimum, thereby reaches best production efficiency.Adopt the adjusting of cavity pressure simultaneously, can compensate the wearing and tearing of sand roller, extended to a certain extent the life-span of sand roller, reduce production costs.

3, the utility model has been carried out Real-Time Monitoring, feedback and has automatically been controlled by the pressure in charging rate, air velocity, processing cavity, has improved the automaticity of production efficiency and production equipment.

Accompanying drawing explanation:

Fig. 1 is existing corn decortication germ separator operation principle schematic diagram;

Fig. 2 is the improved corn decortication of the utility model germ separator operation principle schematic diagram;

Fig. 3 is the utility model air-flow and sand roller, screen drum action principle schematic diagram;

Fig. 4 is the principle of device schematic diagram that the utility model has increased wire brush;

Fig. 5 is the de-embryo automation control principle schematic diagram of the utility model corn decortication;

Fig. 6 is the utility model automation pressure Loading Control unit principle schematic.

Reference numeral is as follows:

1-feed hopper; 2-maize raw material; 3-sand roller; 4-discharge iron roll; 5-screen drum; 6-flow regulator; 7-helical feed head; 8-belt pulley; 9-motor; 10-particle; 11-particle bucket; 12-frame; 13-major ingredient; 14-processing cavity; 15-discharging opening; 16-rotating shaft, 17-sieve aperture, 21-blower fan; 22-hollow-core construction; 23-wire brush; 24-salient point; 25-pressure-loaded control module; 251-spring; 252-pressure plare; 253-compression knob; 254-pressure sensor; 255-displacement moving-member; 26-helicla flute; 27-pore; 28-discharge auger; 29-damper; 30-air-flow; 41-concentration equipment.

The specific embodiment

With respect to traditional corn decortication germ separator of Fig. 1, improvement of the present utility model is as follows:

One, sand roll structure

As shown in Figures 2 and 3, change traditional solid spindle 16 into hollow-core construction 22, one end of hollow rotating shaft 16 is fixed with

belt pulley

8, and 3, sand roller is enclosed within other one end of hollow rotating shaft 16; The hollow rotating shaft 16 of belt pulley 8 one end is connected over against the outlet of blower fan 21 or by pipeline and blower fan 21 outlets, and uniform some the pores 27 in surface of sand roller 3, can make the air-flow of blower fan 21 to be drained in processing cavity 14 by pore 27 in processing.Like this, when sand roller 3 rotates and screen drum 5 while maintaining static, when friction in the space of corn between sand roller 3 and screen drum 5, extruding, the air-flow 30 that pore 27 blows out can accelerate frictional force and the tumbling rate of processing cavity 14 interior corns, air-flow 30 can be taken away the heat that partial frictional produces simultaneously, greatly improved production efficiency, make the machinery can long time continuous working and can be not overheated simultaneously, thereby can be because of the frictional heat of processing, have influence on the quality such as color, mouthfeel of finished product, guaranteed the quality of product.In order to reach best effect, the utility model is provided with damper 29 on the pipeline of fan outlet, and by changing the size of damper, best air velocity is obtained in experiment.

For skin and the broken plumule that prevents from deviating from, directly discharge the airborne dust causing into particle bucket 11, as shown in Figure 2, the utility model is provided with and closes wind discharge auger 28 below particle bucket 11, and under the turning effort of discharge auger 28 helical blades, particle, dust etc. is sucked in releasing bin automatically, and keep good sealing characteristics, prevent the airborne dust that traditional direct discharge causes, avoided environmental pollution, improved workman's work situation.

As a kind of optimal way, as shown in Figure 3, the inwall of screen drum 5 designs more coarsely, inwall at screen drum 5 is inlaid with several salient points 24 simultaneously, the particle diameter of salient point 24 is approximately 2-5mm, spacing between adjacent salient point 24 is about 20-30mm, can increase the frictional force between screen drum 5 and corn like this, has further improved production efficiency.

As a kind of optimal way, as shown in Figure 2, the outer surface of sand roller 3 is carved with the helicla flute 26 that runs through whole sand roller length, when sand roller 3 rotates, iblet to be processed can export from inlet guide rapidly by the helicla flute 26 on sand roller 3, make particle more even in the distribution of particles of sand roller 3 outer surfaces, than existing simple employing discharge iron roll 4, derive faster, thereby improved the working (machining) efficiency of corn.Experiment shows, the parameter influences such as the pitch of helicla flute 26, groove depth the guiding speed of corn, thereby the embryo efficiency of peeling is exerted an influence, the helicla flute 26 that the utility model adopts is single helical, groove depth is 0.8-1.5cm, and pitch is 20-30cm, accessible good effect.

In order further to improve the efficiency of corn decortication, as shown in Figure 4, wire brush 23 has been installed in discharge iron roll 4 positions between sand roller 3, wire brush 23 one week along 360 ° of outer rings that are distributed on discharge iron roll 4, the length of steel wire is about 5-10mm, height is radially concordant with the outer ring of sand roller 3, the width of wire brush 23 is about 30-50mm vertically, when corn to be processed is carved with by the surface of sand roller 3 under helicla flute 26 drives, while exporting from inlet guide, friction through 23 pairs of corn surfaces of wire brush, corn epidermis and plumule are brushed off, and under the effect of air-flow, enter aggregate bin 11.Experiment effect shows, the device that has increased wire brush 23 is compared with original discharge iron roll 4, can significantly increase friction number of times, effectively improves decortication and the de-embryo efficiency of corn.In order to prevent that the on-stream generation of wire brush 23 from falling the impact on finished product such as silk, fracture of wire, in the bottom of discharging opening 15, be provided with concentration equipment 41, will fall silk, fracture of wire adsorbs, and has guaranteed food security.

Experiment showed, the measure of the present utility model of taking, can be so that the de-embryo efficiency of the decortication of unitary device reaches 30%-40%, therefore only need the cascade of 2-3 stage arrangement can complete whole decortications and de-embryo.

Two, process chamber pressure regulates

In order to realize the de-embryo efficiency of best decortication, as shown in Figure 2, the corn semi-finished product closeness in the utility model employing change processing cavity 14 and the scheme of cavity pressure.In certain scope, when corn semi-finished product closeness and cavity pressure are when larger, corn frictional force between sand roller 3 and screen drum 4 can increase with friction number of times, and then the efficiency of raising decortication and de-embryo, but when corn semi-finished product closeness is too high, be not easy to cause the rolling of corn, can have influence on the contrary the efficiency of decortication and de-embryo, therefore best cavity pressure parameter of necessary selection.

The utility model above discharging opening 15, the axle head of sand roller 3 and screen drum 4, pressure-loaded control module 25 has been installed, pressure-loaded control module 25 comprises spring 251, pressure plare 252, compresses knob 253 and pressure sensor 254; While working at ordinary times, under the effect of the cavity pressure of processing cavity 14 and spring 251, pressure plare 252 is in a fixing position, when the corn particle density in need to regulating processing cavity 14 and processing cavity 14 cavity pressure, by adjusting, compress knob 253, pressure plare 252 direction outside Nei Huo chamber, chamber is moved, and corn particle density in the pressure in change chamber and chamber, to reach the best de-embryo efficiency of decortication.Pressure sensor 254 has also been installed on pressure plare 252, has been monitored in real time the pressure in processing cavity 14 chambeies, for follow-up automation pressure, controlled parameter is provided.

In addition, for traditional working method, when sand roller 3 may wear to a certain degree, will certainly increase the gap between sand roller 3 and screen drum 4, for guaranteeing the de-embryo efficiency of decortication, can only change sand roller 3, and the utility model has adopted after pressure-loaded control module 25, only needed to regulate compression knob 253, pressure plare 252 is moved to direction in chamber, just can guarantee to a certain extent the corn semi-finished product closeness in processing cavity, extend to a certain extent the life-span of sand roller, reduce production costs.

Three, automation is controlled

As shown in Figure 5, for further meticulous adjusting, and the auto-adjustment control of realization to cavity pressure and corn dense degree, enhance productivity and the automaticity of production equipment, the utility model has carried out Real-Time Monitoring, feedback and has automatically controlled the pressure in charging rate, air velocity, processing cavity, specifically describes as follows:

Control axis comprises collecting unit and processing execution unit, collecting unit connects with air flow speed sensor, charging rate sensor, cavity pressure sensor electrical, and processing execution unit and air-flow velocity regulate parts, charging rate to regulate parts, cavity pressure to regulate parts to electrically connect; Collecting unit Real-time Obtaining air velocity, charging rate, cavity pressure parameter, after processing execution unit compares the above-mentioned parameter collecting and the data of storing in advance, output is carried out instruction and is regulated parts, charging rate to regulate parts and cavity pressure to regulate parts to air-flow velocity, makes it to meet the demands.

Concrete operating procedure is as follows:

First carry out the debugging experiment under different air-flow velocities, charging rate and cavity pressure parameter, the optimal parameter while obtaining the de-embryo efficiency of best decortication, is inputted into control axis; In concrete processing, the collecting unit of control axis carries out Real-Time Monitoring to air-flow velocity, charging rate and cavity pressure, and according to the optimal parameter that experiment obtains in advance, by the processing execution unit of control axis, control to adjust respectively air-flow velocity, charging rate and cavity pressure.

For realizing the continuous adjusting of charging rate, the utility model changes the traditional constant-seed motor 9 shown in Fig. 2 into buncher, by buncher 9, by transmission device, drive helical feed 7 that maize raw material 2 is imported in processing cavitys 14, drive sand roller 3 to rotate simultaneously, by monitoring and adjusting to buncher 9 rotating speeds, can be so that raw material 2 enters in processing cavity 14 according to the charging rate of imagination, and can, by the adjusting of machine governor parameter being carried out to the meticulous adjusting of continous way rotating speed, save the flow regulator 6 in original device simultaneously.Other equivalent signal parameters such as the rotary speed parameter signal that the collecting unit of control axis can be exported machine governor in concrete enforcement or voltage, frequency gather, and the instruction of being sent by the processing execution unit of control axis is to machine governor, realizes real-time feedback, control and adjusting.Buncher can adopt variable-frequency motor, and realizes rotational speed regulation by frequency converter, reaches the effect of controlling charging rate, equally also can take the motor of other kinds such as stepper motor, and configure corresponding speed regulator.

Equally, the adjusting of air-flow velocity can realize by blower fan and blast volume controller combination, and blower fan is connected by pipeline and processing cavity hollow shaft, and blast volume controller is arranged on blower fan 21 outlets.The frequency conversion fan that can adopt variable-frequency governor to control is realized, and also can adopt permanent power Fan, but automatic damper 29 is set on the connecting line of blower fan 21 and hollow rotating shaft 16.In the specific implementation, the collecting unit of control axis can gather the rotating speed of fan frequency conversion speed regulator, voltage, frequency or other equivalent signal parameters, or the output voltage signal to automatic damper 29 gathers, and the instruction fan variable-frequency governor being sent by the processing execution unit of control axis or damper size automatically, simultaneously real-time feedback, control and adjusting, realize the adjusting to gas flow rate.

For realizing the automatic adjusting of cavity pressure, pressure-loaded control module 25 of the present utility model is except the structure shown in Fig. 2, compress knob 253 by manual adjustments, can also adopt structure as shown in Figure 6, comprise pressure plare 252, displacement drive parts 255 and pressure sensor 254, pressure plare 252 is for having flexible thin-slab structure, one end is fixed in frame 12, and the other end is unsettled, and can produce towards the flexural deformation of processing cavity 14 directions under pressure.Pressure parameter in pressure sensor 254 Real-time Obtaining processing cavitys, and fed back to the collecting unit of control axis, control axis is according to 255 motions of default result drive displacement driver part, make pressure plare 252 distortion, thereby play the regulating action to the pressure in processing cavity 14 and corn particle density.Pressure sensor 254 comprises pressure sensing head and transmitter, and by transmitter, parameter is inputed to control axis; Displacement moving-member 255 can be mounted in the push rod on leading screw, by stepper motor, drives leading screw to rotate, and makes push rod displacement realize the driving to pressure plare; Also can adopt the pressure mandril of gases at high pressure or liquid driven, by changing the driving force of pressure mandril, thereby make pressure plare 252 produce distortion, play the effect that regulates processing cavity internal pressure.

The utility model has been realized the de-embryo of high efficiency decortication of corn, and has that efficiency is high, environmental pollution is little, automation mechanized operation degree advantages of higher, successfully for the processing of corn, has obtained good benefit.

Claims

1. the automatic feedback regulating system of corn decortication germ separator, comprises process chamber pressure Loading Control unit (25), charging rate control module, processing cavity air inlet control module and control axis; Described process chamber pressure Loading Control unit (25) comprises pressure sensor (254), pressure plare (252) and displacement moving-member (255); Described pressure plare (252) is arranged on the axle head of processing cavity (14), and can under the driving of displacement moving-member (255), produce along bending or the displacement of processing cavity (14) axial direction, described pressure sensor (254) is measured the inner pressure of processing cavity (14) in real time;

Described charging rate control module comprises buncher (9) and machine governor; Described buncher (9) is connected by transmission device and helical feed head (7);

Described processing cavity air inlet control module comprises the blast volume controller (29) of blower fan (21) and fan outlet, and described blast volume controller (29) is connected by the hollow rotating shaft (16) of pipeline and processing cavity;

Described control axis comprises collecting unit and processing execution unit, described collecting unit and pressure sensor (254), machine governor and fan speed regulation device electrically connect, for Real-time Obtaining motor speed, fan delivery, cavity pressure signal or equivalent signal parameter; Described processing execution unit and displacement moving-member (255), machine governor and fan speed regulation device electrically connect, and after the data of the parameter that collecting unit is collected and in advance storage compare, output is carried out instruction to displacement moving-member (255), machine governor and fan speed regulation device.

2. the pressure-regulating device of corn according to claim 1 decortication germ separator, it is characterized in that: described pressure plare (252) is for having flexible thin-slab structure, one end is fixed in the frame (12) of processing cavity (14) axle head, the other end is unsettled, and the free end of described pressure plare (252) can produce flexural deformation under the driving of displacement moving-member (255).

3. the automatic feedback regulating system of corn according to claim 2 decortication germ separator, it is characterized in that: described displacement moving-member (255) comprises push rod, leading screw and drive motors, described drive motors drives leading screw to rotate, make push rod produce displacement, the free end of squeeze pressure plate (252), makes pressure plare (252) flexural deformation.

4. the pressure-regulating device of corn according to claim 2 decortication germ separator, it is characterized in that: described displacement moving-member comprises pressure mandril, gas source or hydraulic power source, the free end of described pressure mandril squeeze pressure plate under the driving of air pressure or hydraulic pressure, makes pressure plare (252) flexural deformation.

5. according to the automatic feedback regulating system of one of any described corn decortication of claim 1 to 4 germ separator, it is characterized in that: described buncher (9) is variable-frequency motor, and described machine governor is variable-frequency governor.

6. according to the automatic feedback regulating system of one of any described corn decortication of claim 1 to 4 germ separator, it is characterized in that: described blower fan (21) is frequency conversion fan, and described blast volume controller is fan frequency conversion speed regulator.

7. according to the automatic feedback regulating system of one of any described corn decortication of claim 1 to 4 germ separator, it is characterized in that: described blower fan (21) is permanent power Fan, described blast volume controller is for being arranged on the automatic damper (29) of blower fan (21) outlet.