CN107497677A - A kind of high efficiency corn carries embryo machine - Google Patents

Abstract

A kind of high efficiency corn carries embryo machine, including frame, two sieve nests being parallel to each other are set side by side with frame, sieve nest is obliquely installed along frame length direction right low left high, a vibrating motor is separately installed with the left of two sieve nests, rubber spring is provided between sieve nest bottom and frame, two sieve nest left parts are respectively arranged with feeding mechanism, the pneumatic separation device being provided with frame above two sieve nests.The compact-sized, working stability of the present invention, simple operation, put forward embryo efficiency high, carry embryo purity height.

Description

A kind of high efficiency corn carries embryo machine

Technical field

The invention belongs to Cereals Processing Machines equipment technical field, more particularly to a kind of high efficiency corn to carry embryo machine.

Background technology

Corn accounts for 30% of whole kernel corn or so as one of staple food crop, the volume of its embryo, and weight accounts for whole kernel corn 10%-12%.Maize germ is rich in vitamin E, vitamin A, lecithin and magnesium etc.；Containing 52% unrighted acid, nutritive value It is high.But simultaneously because corn fat majority concentrates on the embryo portion of seed, becoming sour for corn product is mainly derived from embryo, and maize stays In hominy grits, maize flour and maize peel, cause its product shelf-life short, especially summer is easy to become sour.In order to ensure into The quality of product and Business Economic Benefit is further improved, processing factory is designed with corn degerminating process, still, does not have also in the market Have dedicated for putting forward the equipment of embryo, most of producers are all to carry out carrying embryo with the other equipment of grain processing industry, and there is carry Embryo purity is low, the low, product that puies forward embryo efficiency from it is dirty serious, corn product deep processing is limited the defects of.

The content of the invention

The present invention is in order to solve weak point of the prior art, there is provided a kind of compact-sized, working stability, operation are just It is prompt, put forward embryo efficiency high, carry the high high efficiency corn of embryo purity and carry embryo machine.

In order to solve the above technical problems, the present invention adopts the following technical scheme that：A kind of high efficiency corn carries embryo machine, including machine Frame, two sieve nests being parallel to each other is set side by side with frame, sieve nest is obliquely installed along frame length direction right low left high, two A vibrating motor is separately installed with the left of sieve nest, rubber spring, two sieve nest left ends are provided between sieve nest bottom and frame Portion is respectively arranged with feeding mechanism, the pneumatic separation device being provided with frame above two sieve nests；

Feeding mechanism includes the feed hopper for being fixedly connected on sieve nest left part, and feed hopper bottom is connected with sieve nest, feed hopper top Portion offers charging aperture, and the flexible connection of charging aperture top has feeding cylinder, is fixedly connected with feed hopper and is connected with charging aperture lower end Logical surge chamber, surge chamber bottom are fixedly connected with fixed mount, and fixed mount tilts down setting, and fixed mount lower end is provided with charging Door is adjusted, charging regulation door includes the adjustable plate being vertically arranged, offers stopper slot on adjustable plate, be provided with and be used on fixed mount The clamping screw of adjustable plate is locked, clamping screw passes through stopper slot, leading below fixed mount is fixedly connected with feed hopper Flitch and the cutting plate below stock guide；

Both sides offer chute in sieve nest, are provided with least three sieve lattice in sieve nest along its length, and each sieve lattice two break away It is dynamic to be connected in chute, connected between two neighboring sieve lattice by linking up with, sieve nest sidepiece is provided with for locking sieve lattice locking screw Nail, sieve nest bottom is arranged at intervals with discharging opening along its length；

Pneumatic separation device includes the housing being fixedly connected in frame, and lower housing portion is connected with two sieve nests, is provided with housing Wind sucting chamber and main air duct, main air duct are located above wind sucting chamber, and the trapezoidal structure in cross section of wind sucting chamber, the cross section of main air duct is in Rectangular configuration, case top are provided with the discharge pipe being connected with main air duct, and both sides are respectively provided with some in wind sucting chamber Dividing plate, formed between two neighboring dividing plate and air draught chamber interior walls and divide air channel, each point of air channel is connected with main air duct.

The first air quantity adjusting mechanism is provided with the discharge pipe, the first air quantity adjusting mechanism includes being rotatably connected on air-out First rotating shaft in pipe, the first closed plate is fixedly connected with first rotating shaft, first rotating shaft one end is fixedly connected with positioned at air-out The first in command on the outside of pipe, the first deep-slotted chip breaker is offered on the first in command, be provided with the first in command for locking the first in command The first locking knob, the first locking knob passes through the first deep-slotted chip breaker.

The second air quantity adjusting mechanism is respectively arranged with each point of air channel, the second air quantity adjusting mechanism includes the company of rotation The second rotating shaft being connected on point air channel inwall, the second closed plate is fixedly connected with the second rotating shaft, second rotating shaft one end, which is fixed, to be connected The second in command being located on the outside of wind sucting chamber is connected to, the second deep-slotted chip breaker is offered on the second in command, is provided with and is used on the second in command The second locking knob of the second in command is locked, the second locking knob passes through the second deep-slotted chip breaker.

Height adjustment mechanism is provided between the rubber spring and frame, height adjustment mechanism includes leading screw and fixed company The pedestal being connected in frame, leading screw lower end are fixedly connected on pedestal, and leading screw upper end is plugged in sieve nest bottom, and screw thread connects on leading screw Adjusting nut is connected to, adjusting nut upper surface coordinates with rubber spring lower end top pressure.

Connected between the charging aperture and feed hopper by bellows.

The sieve nest side is provided with observation window.

Above-mentioned technical proposal is used, the invention has the advantages that：

1st, the present invention is provided with feeding mechanism, and material is entered through being dropped down onto under charging aperture in the surge chamber in feed hopper by feeding cylinder, After the cushioning effect of buffered room, dropped down onto under material on stock guide, material under stock guide through dropping down onto on cutting plate, and cutting plate is by under The material fallen is dispersed and imports in sieve nest, and charging regulation door is provided with above stock guide, unscrews regulating bolt, can on move down Dynamic adjustable plate adjusts charging regulation door opening size according to inventory, so as to control inlet amount, may insure using said apparatus Material is uniformly gently entered in sieve nest and sieved, and avoids material dispersion uneven, sunburner, mitigates material and sieve nest is rushed Hit, while control into the mass flow in sieve nest, improve screening efficiency and screening quality；

2nd, the present invention is provided with two structure identical sieve nests, and each sieve nest can handle different materials respectively, and material is by entering After hopper enters sieve nest, vibrating motor drives sieve nest vibration, is provided with least three sieve lattice along its length in sieve nest, respectively Individual sieve lattice both sides are slidably connected in chute, are connected between two neighboring sieve lattice by linking up with, sieve nest is horizontal by a constant inclination Angle, feed end is high, and discharge end is low, so that material smoothly can flow through from compass screen surface, height is provided between sieve nest and frame and is adjusted Mechanism is saved, the angle of inclination of sieve nest can be adjusted by turning adjusting nut up or down so that screening effect is more preferable；

3rd, the material for sieving lattice surfaces does reciprocal sling movement in the presence of vibrating motor, fall the material on compass screen surface be cast to Before, for air-flow from bottom to top through compass screen surface, through the bed of material, the material to be scattered to throwing produces upward, opposite with a gravity work Firmly so that material is during pushing ahead, in lower and upper AUTOMATIC ZONING in the following order：It is small pure endosperm particle, big Endosperm particle, hybrid particles, big embryo particle and small embryo particle, each interlayer chooses suitable air-flow without obvious boundary line Speed, it is in lighter particle and suspends and half suspended state, heavier particle contact compass screen surface, then by configuring appropriate sieve aperture Above-mentioned layering material is flowed out by different discharging openings；

4th, multiple points of air channels are divided into by dividing plate in the wind sucting chamber above sieve nest, the second wind is each provided with point air channel Governor motion is measured, unscrews the second locking knob, drives the second rotating shaft and the second closed plate to rotate by turning the second in command, so as to According to compass screen surface feeding thickness, material light specific gravity weight, the wind speed of each section of compass screen surface ascending air of regulation, side is equipped with observation window, just Compass screen surface material state is observed when regulation；

5th, the trapezoidal structure in the cross section of wind sucting chamber, the cross section of main air duct is in rectangular configuration, using variable cross-section form, wind sucting chamber With the tangential air intake of air-flow in main air duct, wind speed is higher and helical form is discharged to discharge pipe, can overcome wind sucting chamber and main air duct The deposition of middle fine particle, thus using effect is good, the air-flow in Liang Ge sieve nests wind sucting chamber imports main air duct and discharged through discharge pipe, The first air quantity adjusting mechanism is provided with discharge pipe, unscrews the first locking knob, first rotating shaft is driven by turning the first in command And first closed plate rotate, so as to control total suction air volume of each sieve nest；

6th, connected, avoided during sieve nest vibrates, feeding cylinder is with sieve nest one by bellows between charging aperture and feed hopper Play vibration.

Brief description of the drawings

Fig. 1 is the main structure diagram of the present invention；

Fig. 2 is the overlooking the structure diagram of the present invention；

Fig. 3 is the side structure schematic view of the present invention；

Fig. 4 is the structural representation of feeding mechanism in the present invention；

Fig. 5 is the main structure diagram of pneumatic separation device in the present invention；

Fig. 6 is the side structure schematic view of pneumatic separation device in the present invention；

Fig. 7 is the structural representation of sieve nest in the present invention；

Fig. 8 is the enlarged drawing at A in Fig. 1.

Embodiment

As shown in figures 1-8, a kind of high efficiency corn of the invention puies forward embryo machine, including frame 1, and two are set side by side with frame 1 The individual sieve nest 2 being parallel to each other, sieve nest 2 are obliquely installed along the length direction right low left high of frame 1, and two left sides of sieve nest 2 are installed respectively There is a vibrating motor 3, rubber spring 4 is provided between the bottom of sieve nest 2 and frame 1, two left parts of sieve nest 2 are respectively arranged with Feeding mechanism 5, the pneumatic separation device 6 being provided with frame 1 above two sieve nests 2.

Feeding mechanism 5 includes the feed hopper 7 for being fixedly connected on the left part of sieve nest 2, and the bottom of feed hopper 7 is connected with sieve nest 2, The top of feed hopper 7 offers charging aperture 8, and the flexible connection of the top of charging aperture 8 has feeding cylinder 9, is fixedly connected with and enters in feed hopper 7 The surge chamber 10 that the lower end of material mouth 8 is connected, the bottom of surge chamber 10 are fixedly connected with fixed mount 11, and fixed mount 11, which tilts down, to be set Put, the lower end of fixed mount 11 is provided with charging regulation door, and charging regulation door includes the adjustable plate 12 being vertically arranged, opened on adjustable plate 12 Provided with stopper slot, the clamping screw 13 for locking adjustable plate 12 is provided with fixed mount 11, clamping screw 13 passes through stopper slot, The stock guide 14 positioned at the lower section of fixed mount 11 and the cutting plate 15 positioned at the lower section of stock guide 14 are fixedly connected with feed hopper 7.

Both sides offer chute in sieve nest 2, are provided with least three sieve lattice, each sieve lattice in sieve nest 2 along its length Both sides are slidably connected in chute, are connected between two neighboring sieve lattice by linking up with, the sidepiece of sieve nest 2 is provided with for locking sieve lattice Lock-screw 16, the bottom of sieve nest 2 are arranged at intervals with discharging opening 17 along its length.Lattice are sieved not shown in figure.

Pneumatic separation device 6 includes the housing being fixedly connected in frame 1, and lower housing portion is connected with two sieve nests 2, in housing Wind sucting chamber 18 and main air duct 19 are provided with, main air duct 19 is located above wind sucting chamber 18, the trapezoidal structure in cross section of wind sucting chamber 18, The cross section of main air duct 19 is in rectangular configuration, and case top is provided with the discharge pipe 20 being connected with main air duct 19, wind sucting chamber 18 Interior both sides are respectively provided with some dividing plates 21, are formed between two neighboring dividing plate 21 and the inwall of wind sucting chamber 18 and divide air channel 22, Each point of air channel 22 is connected with main air duct 19.

The first air quantity adjusting mechanism is provided with the discharge pipe 20, the first air quantity adjusting mechanism includes being rotatably connected on out First rotating shaft in airduct 20, the first closed plate 23 is fixedly connected with first rotating shaft, first rotating shaft one end is fixedly connected with position The first in command 24 in the outside of discharge pipe 20, the first deep-slotted chip breaker 25 is offered on the first in command 24, is provided with the first in command 24 For locking the first locking knob 26 of the first in command 24, the first locking knob 26 passes through the first deep-slotted chip breaker 25.

The second air quantity adjusting mechanism is respectively arranged with each point of air channel 22, the second air quantity adjusting mechanism includes rotating The second rotating shaft being connected on the inwall of point air channel 22, the second closed plate 27, second rotating shaft one end are fixedly connected with the second rotating shaft The second in command 28 positioned at the outside of wind sucting chamber 18 is fixedly connected with, the second deep-slotted chip breaker 29 is offered on the second in command 28, it is second The second locking knob 30 for locking the second in command 28 is provided with hand 28, the second locking knob 30 passes through the second deep-slotted chip breaker 29。

Height adjustment mechanism 31 is provided between the rubber spring 4 and frame 1, height adjustment mechanism 31 includes leading screw 32 With the pedestal being fixedly connected in frame 1, the lower end of leading screw 32 is fixedly connected on pedestal, and the upper end of leading screw 32 is plugged in the bottom of sieve nest 2 Portion, adjusting nut 33 is threaded with leading screw 32, and the upper surface of adjusting nut 33 coordinates with the lower end top pressure of rubber spring 4.

Connected between the charging aperture 8 and feed hopper 7 by bellows 34.

The side of sieve nest 2 is provided with observation window 35.

The present invention is in work in use, material drops down onto the surge chamber in feed hopper 7 under being entered by feeding cylinder 9 through charging aperture 8 In 10, after the cushioning effect of buffered room 10, dropped down onto under material on stock guide 14, material under stock guide 14 through dropping down onto cutting plate 15 On, cutting plate 15 is dispersed and import in sieve nest 2 by the material of whereabouts, and the top of stock guide 14 is provided with charging regulation door, twists Loose regulating bolt, adjustable plate 12 can be moved up and down charging regulation door opening size is adjusted according to inventory, so as to control inlet amount, It may insure that material is uniformly gently entered in sieve nest 2 using said apparatus to be sieved, avoid material dispersion uneven, local mistake Thickness, mitigate impact of the material to sieve nest 2, while control into the mass flow in sieve nest 2, improve screening efficiency and screening matter Amount；The present invention is provided with two structure identical sieve nests 2, and each sieve nest 2 can handle different materials respectively, and material is by feeding After bucket 7 enters sieve nest 2, vibrating motor 3 drives sieve nest 2 to vibrate, and is provided with least three sieves in sieve nest 2 along its length Lattice, each sieve lattice both sides are slidably connected in chute, are connected between two neighboring sieve lattice by linking up with, sieve nest 2 horizontal by Certain inclination angle, feed end is high, and discharge end is low, so that material smoothly can flow through from compass screen surface, is set between sieve nest 2 and frame 1 There is height adjustment mechanism 31, the angle of inclination of sieve nest 2 can be adjusted by turning adjusting nut up or down so that screening effect is more Good, the material on sieve lattice surface does reciprocal sling movement in the presence of vibrating motor 3, fall the material on compass screen surface be cast to Before, for air-flow from bottom to top through compass screen surface, through the bed of material, the material to be scattered to throwing produces upward, opposite with a gravity work Firmly so that material is during pushing ahead, in lower and upper AUTOMATIC ZONING in the following order：It is small pure endosperm particle, big Endosperm particle, hybrid particles, big embryo particle and small embryo particle, each interlayer chooses suitable air-flow without obvious boundary line Speed, it is in lighter particle and suspends and half suspended state, heavier particle contact compass screen surface, then by configuring appropriate sieve aperture Above-mentioned layering material is flowed out by different discharging openings 17；Separated in wind sucting chamber 18 above sieve nest 2 by dividing plate 21 For multiple points of air channels 22, the second air quantity adjusting mechanism is each provided with point air channel 22, unscrews the second locking knob 30, by twisting The dynamic second in command 28 drives the second rotating shaft and the second closed plate 27 to rotate, so as to according to compass screen surface feeding thickness, material light specific gravity Weight, the wind speed of each section of compass screen surface ascending air is adjusted, side is equipped with observation window 35, is easy to observe compass screen surface material state during regulation, inhales The trapezoidal structure in cross section of air compartment 18, the cross section of main air duct 19 is in rectangular configuration, using variable cross-section form, the He of wind sucting chamber 18 The tangential air intake of air-flow in main air duct 19, wind speed is higher and helical form is discharged to discharge pipe 20, can overcome wind sucting chamber 18 and master The deposition of fine particle in air channel 19, thus using effect is good, the air-flow in two wind sucting chamber 18 of sieve nest 2 imports main air duct 19 and passed through Discharge pipe 20 is discharged, and the first air quantity adjusting mechanism is provided with discharge pipe 20, unscrews the first locking knob 26, by turning first Handle 24 drives first rotating shaft and the first closed plate 23 to rotate, so as to control total suction air volume of each sieve nest 2.

The present embodiment is not that the shape to the present invention, material, structure etc. make any formal limitation, every according to this hair Any simple modification, equivalent change and modification that bright technical spirit is made to above example, belongs to the technology of the present invention side The protection domain of case.

Claims (6)

1. a kind of high efficiency corn carries embryo machine, it is characterised in that：Including frame, two sieves being parallel to each other are set side by side with frame Body, sieve nest are obliquely installed along frame length direction right low left high, and a vibrating motor, sieve nest are separately installed with the left of two sieve nests Rubber spring is provided between bottom and frame, two sieve nest left parts are respectively arranged with feeding mechanism, position is provided with frame Pneumatic separation device above two sieve nests；

Feeding mechanism includes the feed hopper for being fixedly connected on sieve nest left part, and feed hopper bottom is connected with sieve nest, feed hopper top Portion offers charging aperture, and the flexible connection of charging aperture top has feeding cylinder, is fixedly connected with feed hopper and is connected with charging aperture lower end Logical surge chamber, surge chamber bottom are fixedly connected with fixed mount, and fixed mount tilts down setting, and fixed mount lower end is provided with charging Door is adjusted, charging regulation door includes the adjustable plate being vertically arranged, offers stopper slot on adjustable plate, be provided with and be used on fixed mount The clamping screw of adjustable plate is locked, clamping screw passes through stopper slot, leading below fixed mount is fixedly connected with feed hopper Flitch and the cutting plate below stock guide；

Both sides offer chute in sieve nest, are provided with least three sieve lattice in sieve nest along its length, and each sieve lattice two break away It is dynamic to be connected in chute, connected between two neighboring sieve lattice by linking up with, sieve nest sidepiece is provided with for locking sieve lattice locking screw Nail, sieve nest bottom is arranged at intervals with discharging opening along its length；

Pneumatic separation device includes the housing being fixedly connected in frame, and lower housing portion is connected with two sieve nests, is provided with housing Wind sucting chamber and main air duct, main air duct are located above wind sucting chamber, and the trapezoidal structure in cross section of wind sucting chamber, the cross section of main air duct is in Rectangular configuration, case top are provided with the discharge pipe being connected with main air duct, and both sides are respectively provided with some in wind sucting chamber Dividing plate, formed between two neighboring dividing plate and air draught chamber interior walls and divide air channel, each point of air channel is connected with main air duct.

2. high efficiency corn according to claim 1 carries embryo machine, it is characterised in that：The first air quantity is provided with the discharge pipe Governor motion, the first air quantity adjusting mechanism include the first rotating shaft being rotatably connected in discharge pipe, are fixedly connected in first rotating shaft There is the first closed plate, first rotating shaft one end is fixedly connected with the first in command on the outside of discharge pipe, offered on the first in command First deep-slotted chip breaker, is provided with the first locking knob for locking the first in command on the first in command, and the first locking knob is through the One deep-slotted chip breaker.

3. high efficiency corn according to claim 2 carries embryo machine, it is characterised in that：It is respectively arranged with each point of air channel Second air quantity adjusting mechanism, the second air quantity adjusting mechanism include being rotatably connected on the second rotating shaft on point air channel inwall, second turn It is fixedly connected with the second closed plate on axle, second rotating shaft one end is fixedly connected with the second in command on the outside of wind sucting chamber, and second The second deep-slotted chip breaker is offered on handle, the second locking knob for locking the second in command, the second lock are provided with the second in command Tight knob passes through the second deep-slotted chip breaker.

4. high efficiency corn according to claim 1 carries embryo machine, it is characterised in that：Set between the rubber spring and frame There is height adjustment mechanism, height adjustment mechanism includes leading screw and the pedestal being fixedly connected in frame, and leading screw lower end is fixedly connected On pedestal, leading screw upper end is plugged in sieve nest bottom, and adjusting nut, adjusting nut upper surface and rubber are threaded with leading screw Lower spring end top pressure coordinates.

5. high efficiency corn according to claim 1 carries embryo machine, it is characterised in that：Pass through between the charging aperture and feed hopper Bellows connects.

6. high efficiency corn according to claim 1 carries embryo machine, it is characterised in that：The sieve nest side is provided with observation window.