CN105300108B - Enter the blanking device of pre- firing for ferrite ball type particulate material - Google Patents

Abstract

The present invention relates to a kind of blanking device for entering pre- firing for ferrite ball type particulate material.There is presently no a kind of such device for preventing ferrite powder from entering pre- firing.It is characteristic of the invention that：Including fixed plate, motor provided with rotating shaft, rotating disk, center of turntable isolating cylinder, turntable periphery plate washer, front baffle board, rear baffle, turntable periphery plate washer fixture, front baffle board fixture and rear baffle fixture, the bottom surface of rotating disk is fixed on the end of rotating shaft, breach is formed between the two ends of turntable periphery plate washer, powder channel is formed between the bottom of front baffle board and the top surface of rotating disk, the one end of the height of powder channel along front baffle board gradually increases to the direction of the other end of front baffle board, the bottom of rear baffle and the top surface contact of rotating disk, the breach that turntable periphery plate washer is formed is separated into particle discharging opening and powder discharging opening by front baffle board and rear baffle.The present invention can prevent ferrite powder from entering pre- firing, prevent the situation that pre- firing is blocked.

Description

Enter the blanking device of pre- firing for ferrite ball type particulate material

Technical field

The present invention relates to a kind of blanking device for entering pre- firing for ferrite ball type particulate material, it is exclusively used in iron oxygen Body spheric granules raw material, which is added in pre- firing, carries out pre-burning, and ferrite ball type particulate material can be used as magnetic core, magnetic sheet, magnetic shoe Deng the raw material of magnetic material, belong to technical field of magnetic materials.

Background technology

The primary raw material of the magnetic materials such as magnetic core, magnetic sheet and magnetic shoe is ferrite ball type particulate material, ferrite ball type Grain raw material is shaped as spherical structure, when producing the magnetic materials such as magnetic core, magnetic sheet and magnetic shoe, it is necessary to using pre- firing to iron oxygen Body spheric granules raw material carries out pre-burning, and such as publication date is on 09 10th, 2014, and Publication No. CN104034154A China is specially In profit, a kind of segmented high-performance strontium ferrite preburning equipment and its burn in process are disclosed, for being carried out to ferrite raw material Pre-burning.

Due to being mixed with ferrite powder in ferrite ball type particulate material, ferrite powder is in company with ferrite ball type granular raw Material enters pre- firing and carries out pre-burning in the lump, and ferrite powder is easily burnt, and causes the situation that pre- firing is blocked occur, reduces Pre- firing adds cleaning, safeguards the workload of pre- firing to the pre-burning effect of ferrite ball type particulate material, influences production It is normally carried out.

There is presently no a kind of reasonable in design, before ferrite ball type particulate material enters pre- firing, by iron oxygen Body spheric granules raw material and ferrite powder separation, prevent ferrite powder from entering pre- firing, prevent pre- firing and block feelings The device of condition.

The content of the invention

It is an object of the invention to overcome above shortcomings in the prior art, and a kind of reasonable in design is provided, Before ferrite ball type particulate material enters pre- firing, ferrite ball type particulate material and ferrite powder are separated, prevented Ferrite powder enters pre- firing, and the ferrite ball type particulate material that is used for for preventing pre- firing stopping state enters pre- firing Blanking device.

The present invention the used technical scheme that solves the above problems is：This is used for ferrite ball type particulate material and enters pre-burning The design feature of the blanking device of kiln is：Including fixed plate, motor, rotating disk, center of turntable isolating cylinder, turntable periphery gear Plate, front apron, rear baffle, turntable periphery baffle plate fixture, front apron fixture, rear baffle fixture and material-falling hopper, it is described solid Through hole is provided with fixed board, the motor is provided with rotating shaft, the motor is fixed on the bottom surface of fixed plate, the rotating shaft It is through in the through hole of fixed plate, the rotating disk is circular configuration, and the top surface of the rotating disk is planar structure, and the bottom surface of the rotating disk is consolidated The end of rotating shaft is scheduled on, the axis of the rotating disk and the axis of rotating shaft are overlapping, the center of turntable isolating cylinder is cylindrical structural, The bottom of the center of turntable isolating cylinder is fixed on the top surface of rotating disk, the axis of the center of turntable isolating cylinder and the axis weight of rotating disk Folded, 3-5 times of the diameter of a diameter of center of turntable isolating cylinder of the rotating disk, the turntable periphery baffle plate is arc-shaped structure, The turntable periphery baffle plate is fixed by turntable periphery baffle plate fixture and fixed plate, and the turntable periphery baffle plate is by the top surface of rotating disk Surround, the bottom of the turntable periphery baffle plate and the top surface contact of rotating disk, breach formed between the two ends of the turntable periphery baffle plate, The front apron is fixed by front apron fixture and fixed plate, and one end of the front apron and center of turntable isolating cylinder are tangent, institute The other end for stating front apron is located at outside the top surface of rotating disk, and powder is formed between the bottom of the front apron and the top surface of rotating disk and is led to Road, the height of the powder channel is 0.5-1.5mm, the one end of the height of the powder channel along front apron to the another of front apron The direction at end gradually increases, and there is spacing between one end of front apron and the turntable periphery baffle plate, and the rear baffle passes through rear Baffle plate fixture and fixed plate are fixed, and one end of the rear baffle and center of turntable isolating cylinder are tangent, the other end of the rear baffle Outside the top surface of rotating disk, another end in contact of the rear baffle and turntable periphery baffle plate, the bottom of the rear baffle and rotating disk Top surface contact, the number of degrees of the angle between the front apron and rear baffle are 15-45 degree, and the front apron and rear baffle will turn The breach of the outer surrounding baffle formation of disk is separated into particle discharging opening and powder discharging opening, and the particle discharging opening is kept off positioned at turntable periphery Between one end of plate and front apron, the powder discharging opening is located between front apron and rear baffle, and material-falling hopper is being located at rotating disk just , there is gap between the bottom of the material-falling hopper and the top surface of rotating disk, the height in gap is 0.5-1.5mm, the side of material-falling hopper in top Face is provided with a blanking port, and the height of blanking port is less than the height of turntable periphery baffle plate, blanking port to turntable periphery baffle plate The distance of one end is more than blanking port to the distance of the other end of turntable periphery baffle plate.So that the structure design of the present invention is closed Reason, before ferrite ball type particulate material enters pre- firing, can enter ferrite ball type particulate material and ferrite powder Row separation, effectively prevents ferrite powder from entering pre- firing and carries out pre-burning, prevent the situation that pre- firing is blocked, and can return The ferrite powder separated is received, effective utilization of resource is realized.

Preferably, flushed at the top of the top of front apron of the present invention and turntable periphery baffle plate, the rear baffle Flushed at the top of top and turntable periphery baffle plate.

Preferably, being flushed at the top of the top of center of turntable isolating cylinder of the present invention and turntable periphery baffle plate.

Preferably, the quantity of turntable periphery baffle plate fixture of the present invention is three.

Preferably, motor of the present invention is fixed by bolt and fixed plate.

Preferably, the bottom of turntable periphery baffle plate of the present invention is provided with matter soft-component, the turntable periphery baffle plate Bottom is contacted by the top surface of matter soft-component and rotating disk.

Preferably, the rotating shaft on motor of the present invention is in vertical shape structure, the horizontal structure of rotating disk.

Preferably, front apron of the present invention and front apron fixture are screwed, the front apron fixture It is screwed with fixed plate.

Preferably, rear baffle of the present invention and rear baffle fixture are screwed, the rear baffle fixture It is screwed with fixed plate.

Preferably, rotating disk of the present invention is parallel with fixed plate.

The present invention compared with prior art, with advantages below and effect：It is simple in construction, it is reasonable in design, it is easy to use, Ferrite ball type particulate material enters before pre- firing, effectively can enter ferrite ball type particulate material and ferrite powder Row separation, only makes ferrite ball type particulate material enter pre- firing and carries out pre-burning, prevent ferrite powder from entering pre- firing, prevent There is the situation that pre- firing is blocked, be conducive to improving operating efficiency, the expense of pre- firing is safeguarded and repaired in reduction, extends pre- firing Service life..

In use, needing after being transported into the ferrite ball type particulate material that pre- firing carries out pre-burning on rotating disk, the iron Oxysome spheric granules raw material both include granular iron oxysome, also comprising powdered ferrite, ferrite ball type particulate material with turn The rotation of disk is moved to front apron, under gravity, and ferrite ball type particulate material is in moving process above and below automatic progress Layering, ferrite powder is located at lower floor, and ferrite particle is located at upper strata, when ferrite ball type particulate material is moved to front apron During position, because the particle diameter of ferrite ball type particle is more than the height of powder channel so that ferrite ball type particle is by front apron Interception is got off, and the ferrite ball type particle intercepted by front apron enters pre- firing from particle discharging opening；Ferrite ball type Powder in grain raw material can be by powder channel, and the ferrite powder after powder channel is moved to rear baffle, when iron oxygen Body powder moving is intercepted to after rear baffle by rear baffle, and the ferrite powder being blocked is exported from powder discharging opening, So as to complete the work for being effectively separated the spheric granules and powder in ferrite ball type particulate material, ferrite ball is prevented Powder in shape particulate material enters pre- firing, before ferrite ball type particulate material enters pre- firing, by ferrite ball type Particulate material and ferrite powder separation, prevent ferrite powder from entering pre- firing, prevent pre- firing stopping state.

Brief description of the drawings

Fig. 1 is to be used for the main view knot that ferrite ball type particulate material enters the blanking device of pre- firing in the embodiment of the present invention Structure schematic diagram.

Fig. 2 is to remove the structural representation after material-falling hopper and powder collection bucket in Fig. 1.

Fig. 3 is Fig. 2 left view structural representation.

Fig. 4 is Fig. 2 overlooking the structure diagram.

Fig. 5 is the structural representation of the angle formed between front apron and rear baffle in the embodiment of the present invention.

Fig. 6 is the structural representation of the powder channel formed between front apron and rotating disk in the embodiment of the present invention.

Fig. 7 is the structural representation between material position bar and front apron in the embodiment of the present invention.

Fig. 8 is the main structure schematic diagram between powder baffle plate and rotating disk in the embodiment of the present invention.

Fig. 9 is Fig. 8 left view structural representation.

Figure 10 is Fig. 8 overlooking the structure diagram.

Figure 11 is the structural representation between turntable periphery baffle plate, material-falling hopper and rotating disk in the embodiment of the present invention.

Figure 12 is the main structure schematic diagram of the material-falling hopper in the embodiment of the present invention.

Figure 13 is Figure 12 left view structural representation.

Figure 14 is the structure between turntable periphery baffle plate, powder collection bucket, rear baffle and rotating disk in the embodiment of the present invention Schematic diagram.

Figure 15 is Figure 14 overlooking the structure diagram.

Figure 16 is the structural representation of front apron of the embodiment of the present invention.

Figure 17 is the structural representation of rear baffle of the embodiment of the present invention.

Figure 18 is the structural representation between turntable periphery baffle plate and rotating disk in the embodiment of the present invention.

In figure：1st, fixed plate；2nd, motor；3rd, material-falling hopper；4th, rotating disk；5th, center of turntable isolating cylinder；6th, turntable periphery Baffle plate；7th, material position bar；8th, front apron；9th, rear baffle；10th, powder baffle plate；11st, powder collection bucket；12nd, turntable periphery baffle plate is fixed Part；13rd, front apron fixture；14th, rear baffle fixture；15th, powder baffle plate fixture；16th, powder channel；17th, breach；18、 Particle discharging opening；19th, powder discharging opening；21st, rotating shaft；22nd, flange；31st, blanking port；32nd, gap；81st, front apron matter soft-component； 82nd, front apron matter hard component；91st, rear baffle matter soft-component；92nd, rear baffle matter hard component；β, angle.

Embodiment

Below in conjunction with the accompanying drawings and the present invention is described in further detail by embodiment, following examples are to this hair Bright explanation and the invention is not limited in following examples.

Embodiment.

Referring to Fig. 1 to Figure 18, the blanking device bag that ferrite ball type particulate material enters pre- firing is used in the present embodiment Include fixed plate 1, motor 2, material-falling hopper 3, rotating disk 4, center of turntable isolating cylinder 5, turntable periphery baffle plate 6, material position bar 7, front Plate 8, rear baffle 9, powder baffle plate 10, powder collection bucket 11, turntable periphery baffle plate fixture 12, front apron fixture 13, rear gear Plate fixture 14, powder baffle plate fixture 15 and flange 22.

Motor 2 in the present embodiment is provided with rotating shaft 21, and rotating shaft 21 can be rotated, and being provided with fixed plate 1 is used for Rotating shaft 21 is through the through hole on the top surface of fixed plate 1 under the bottom surface of fixed plate 1, and motor 2 is fixed on fixed plate 1 Bottom surface, rotating shaft 21 is through in the through hole of fixed plate 1, and rotating shaft 21 is not limited and can freely rotated by through hole.Rotating disk 4 is tied to be circular Structure, the top surface of the rotating disk 4 and bottom surface are planar structure, and flange 22 is fixed on the end of rotating shaft 21, and the bottom surface of rotating disk 4 is fixed on On flange 22, i.e. the underrun flange 22 of rotating disk 4 is fixed on the end of rotating shaft 21 so that the fixation of rotating disk 4 and rotating shaft 21 is more Plus firmly, the rotation of rotating disk 4 is more steady, and the axis of rotating disk 4 and the axis of rotating shaft 21 are overlapping, can by the rotation of rotating shaft 21 Rotating disk 4 is driven to be rotated, the axis of rotating shaft 21 and the top surface of rotating disk 4 are vertical.

Center of turntable isolating cylinder 5 in the present embodiment is cylindrical structural, and the bottom of the center of turntable isolating cylinder 5 is fixed on The top surface of rotating disk 4, can drive center of turntable isolating cylinder 5 to be rotated by the rotation of rotating disk 4, center of turntable isolating cylinder 5 The axis of axis and rotating disk 4 is overlapping, 3-5 times of the diameter of a diameter of center of turntable isolating cylinder 5 of rotating disk 4.Due to the center of rotating disk 4 Linear velocity be zero, close to the center of rotating disk 4 linear velocity it is also slow, if ferrite ball type particulate material be located at the center of rotating disk 4 When place or close 4 center of rotating disk, the situation that ferrite ball type particulate material herein can be caused to stop for a long time is unfavorable for Ferrite ball type particulate material timely enters pre- firing and carries out pre-burning, and center of turntable isolating cylinder 5, which is played, prevents ferrite ball type Grain raw material is in the center of rotating disk 4 or the effect close to the center of rotating disk 4.

Turntable periphery baffle plate 6 in the present embodiment is arc-shaped structure, usually excellent arcuate structure, the turntable periphery baffle plate 6 are fixed by turntable periphery baffle plate fixture 12 and fixed plate 1, and turntable periphery baffle plate 6 will not be rotated with the rotation of rotating disk 4, Turntable periphery baffle plate 6 and rotating disk 4 are vertical, and turntable periphery baffle plate 6 surrounds the top surface of rotating disk 4, form a receiving ferrite ball The cavity of shape particulate material, the bottom of the turntable periphery baffle plate 6 and the top surface contact of rotating disk 4, prevent ferrite ball type granular raw Material is spilt between the top surface of the bottom of turntable periphery baffle plate 6 and rotating disk 4, and breach is formed between the two ends of turntable periphery baffle plate 6 17。

Front apron 8 in the present embodiment is fixed by front apron fixture 13 and fixed plate 1, and front apron 8 will not be with rotating disk 4 Rotation and rotate, one end of the front apron 8 and center of turntable isolating cylinder 5 are tangent, prevent ferrite ball type particulate material in the past Leaked through between baffle plate 8 and center of turntable isolating cylinder 5, the other end of front apron 8 is located at outside the top surface of rotating disk 4, i.e. front apron 8 Extended to from center of turntable isolating cylinder 5 outside rotating disk 4, it is ensured that front apron 8 can block all ferrite ball type particles. Powder channel 16 is formed between the bottom of front apron 8 and the top surface of rotating disk 4, the height of the powder channel 16 is 0.5-1.5mm, powder The direction of one end other end to front apron 8 of the height of last passage 16 along front apron 8 gradually increases, i.e. the bottom of front apron 8 For ramp structure, i.e., the height of the powder channel 16 at center of turntable isolating cylinder 5 is relatively low, away from center of turntable isolating cylinder 5 The height of the powder channel 16 at place is higher, because linear velocity of the rotating disk 4 at away from center of turntable isolating cylinder 5 is larger, and is turning When disk 4 is rotated, powder is subject to centrifugal forces to be displaced outwardly so that the powder of the position accumulation of rotating disk 4 here can compare More, the height of powder channel 16 herein is high, is easy to powder to pass through.One end of front apron 8 and turntable periphery baffle plate 6 it Between there is spacing.

Rear baffle 9 in the present embodiment is fixed by rear baffle fixture 14 and fixed plate 1, and rear baffle 9 will not be with rotating disk 4 Rotation and rotate, one end of the rear baffle 9 and center of turntable isolating cylinder 5 are tangent, prevent in ferrite ball type particulate material Powder is leaked through between rear baffle 9 and center of turntable isolating cylinder 5, and the other end of rear baffle 9 is located at outside the top surface of rotating disk 4, I.e. rear baffle 9 is extended to outside rotating disk 4 from center of turntable isolating cylinder 5, it is ensured that rear baffle 9 can block all ferrites Powder in spheric granules raw material.Another end in contact of rear baffle 9 and turntable periphery baffle plate 6, prevents ferrite ball type granular raw Material is spilt between the other end of rear baffle 9 and turntable periphery baffle plate 6.The bottom of rear baffle 9 and the top surface contact of rotating disk 4, make All dust can be intercepted by obtaining rear baffle 9, prevent dust from being spilt between rear baffle 9 and rotating disk 4.

The breach 17 that turntable periphery baffle plate 6 is formed is separated into particle discharging by front apron 8 and rear baffle 9 in the present embodiment Mouth 18 and powder discharging opening 19, particle discharging opening 18 are located between one end of turntable periphery baffle plate 6 and front apron 8, i.e. front apron 8 There is spacing between one end of turntable periphery baffle plate 6 and form particle discharging opening 18, powder discharging opening 19 is located at the He of front apron 8 Between rear baffle 9.The number of degrees of angle β between front apron 8 and rear baffle 9 are 15-45 degree, it is ensured that ferrite ball type particulate material In powder more easily can be exported from powder discharging opening 19, the ferrite powder of output can also be recycled.

Need after being transported into the ferrite ball type particulate material that pre- firing carries out pre-burning on rotating disk 4, with turning for rotating disk 4 Trend front apron 8 is moved, after ferrite ball type particulate material is moved to front apron 8, due to the particle diameter of ferrite ball type particle More than the height of powder channel 16 so that ferrite ball type particle is intercepted by front apron 8, intercepted by front apron 8 Ferrite ball type particle enters pre- firing from particle discharging opening 18；Powder in ferrite ball type particulate material can pass through powder Passage 16, the ferrite powder after powder channel 16 is moved to rear baffle 9, after ferrite powder is moved to rear baffle 9, Intercepted by rear baffle 9, the ferrite powder being blocked is exported from powder discharging opening 19, so as to complete ferrite ball The work that spheric granules and powder in shape particulate material are effectively separated, prevents the powder in ferrite ball type particulate material Into pre- firing, before ferrite ball type particulate material enters pre- firing, by ferrite ball type particulate material and ferrite powder End separation, prevents ferrite powder from entering pre- firing, prevents pre- firing stopping state.

Material position bar 7 in the present embodiment is cylindrical structural, and one end of material position bar 7 is fixed on turntable periphery baffle plate 6, should The other end of material position bar 7 is fixed on front apron 8, and the axis of material position bar 7 is parallel with the top surface of rotating disk 4, and the material position bar 7 arrives rotating disk The distance between 4 top surface is 1-10cm.Material position bar 7 can be played to height of materials position on rotating disk 4 with reference to effect, be easy to work Whether the charging that people immediately arrives at pre- firing in daily production process by range estimation is normal, and the material on rotating disk 4 can be entered again Row shakeouts so that it is more uniform that material enters pre- firing.

Powder baffle plate 10 in the present embodiment is fixed by powder baffle plate fixture 15 and fixed plate 1, the powder baffle plate 10 For arc-shaped structure, powder baffle plate 10 is located at the position of powder discharging opening 19, and the radian of powder baffle plate 10 is less than powder discharging opening 19 radian, one end of powder baffle plate 10 and front apron 8 are contacted, between existing between the other end and rear baffle 9 of powder baffle plate 10 Away from the wall contact of powder baffle plate 10 and rotating disk 4.Powder baffle plate 10 will not be rotated, powder discharging opening 19 with the rotation of rotating disk 4 The other end and rear baffle 9 between there is spacing, the powder separated from ferrite ball type particulate material is defeated from the spacing Go out；The wall contact of powder baffle plate 10 and rotating disk 4, prevents the powder separated from being spilt between powder baffle plate 10 and rotating disk 4. Powder baffle plate 10 reduces powder discharging opening 19 so that the collection of powder more facilitates.

Material-falling hopper 3 in the present embodiment is located at the surface of rotating disk 4, between the bottom of the material-falling hopper 3 and the top surface of rotating disk 4 There is gap 32, the height in gap 32 is 0.5-1.5mm, and the side of material-falling hopper 3 is provided with a blanking port 31, blanking port 31 Highly it is less than the height of turntable periphery baffle plate 6, the distance of blanking port 31 to one end of turntable periphery baffle plate 6 is arrived more than blanking port 31 The distance of the other end of turntable periphery baffle plate 6.It is easy to rotating disk 4 in gap 32 between the bottom of material-falling hopper 3 and the top surface of rotating disk 4 Rotate, be also not in the situation that powder is accumulated in the position of material-falling hopper 3 even if rotating disk 4 remains powder above；Blanking port 31 Height be less than turntable periphery baffle plate 6 height, blanking port 31 to turntable periphery baffle plate 6 one end distance be more than blanking port 31 To the distance of the other end of turntable periphery baffle plate 6 so that ferrite ball type particulate material falls on the top surface of rotating disk 4 from material-falling hopper 3 After upper, ferrite ball type particulate material has sufficiently long range to carry out the separation of particle and powder, in ferrite ball type During grain raw material is fed forward, powder gradually sinks to bottom, and particle is located at top, when the movement of ferrite ball type particulate material To the position of front apron 8, particle and powder have been completed separation, have and only ferrite ball type particle is intercepted by front apron 8, Ferrite powder is by the powder channel 16 between front apron 8 and rotating disk 4, so as to prevent ferrite powder from entering pre- firing, prevents Only pre- firing occur burning, coking situation.

Powder collection bucket 11 in the present embodiment is fixed in fixed plate 1, and the powder collection bucket 11 is located at powder discharging opening , there is spacing in 19 underface, the height of the spacing is 0.2- between the top of powder collection bucket 11 and the bottom surface of rotating disk 4 0.5mm.Powder collection bucket 11 effectively can collect the powder exported from powder discharging opening 19, prevent powder to be transformed into Flying dust, it is ensured that workshop it is clean and tidy.

The external diameter of the present embodiment center of turntable isolating cylinder 5 is 10-15cm, and the top surface of front apron 8 and rotating disk 4 is vertical, rear gear Plate 9 is vertical with the top surface of rotating disk 4；Turntable periphery baffle plate 6 is stainless steel, and the top surface of turntable periphery baffle plate 6 and rotating disk 4 hangs down Directly；Front apron 8 includes front apron matter soft-component 81 and front apron matter hard component 82, and front apron matter soft-component 81 and front apron matter are hard Part 82 is fixed, and front apron matter soft-component 81 is located at one end of front apron 8, front apron matter soft-component 81 and center of turntable isolating cylinder 5 is tangent；Rear baffle 9 includes rear baffle matter soft-component 91 and rear baffle matter hard component 92, rear baffle matter soft-component 91 and rear baffle Matter hard component 92 is fixed, and rear baffle matter soft-component 91 is located at the lower section of rear baffle matter hard component 92, rear baffle matter soft-component 91 Length is more than the length of rear baffle matter hard component 92, and rear baffle matter soft-component 91 is tangent with center of turntable isolating cylinder 5, rear baffle matter The bottom of soft-component 91 and the top surface contact of rotating disk 4；Fixed plate 1 is circular configuration, diameter of the diameter than rotating disk 4 of fixed plate 1 Big 3-10cm, the center of circle of fixed plate 1 is located at the underface in the center of circle of rotating disk 4.

The top of the present embodiment front apron 8 and the top of turntable periphery baffle plate 6 are flushed, outside the top of rear baffle 9 and rotating disk The top of surrounding baffle 6 is flushed；The top of center of turntable isolating cylinder 5 and the top of turntable periphery baffle plate 6 are flushed；Turntable periphery baffle plate The quantity of fixture 12 is three, and structure is simpler；Motor 2 is fixed by bolt and fixed plate 1, is connected more square Just, firmly；The bottom of turntable periphery baffle plate 6 is provided with matter soft-component, the bottom of the turntable periphery baffle plate 6 by matter soft-component and The top surface contact of rotating disk 4, it is significantly more efficient to prevent ferrite ball type particle and ferrite powder from turntable periphery baffle plate 6 and rotating disk Spilt between 4.

Rotating shaft 21 in the present embodiment on motor 2 is in vertical shape structure, the horizontal structure of rotating disk 4；The He of front apron 8 Front apron fixture 13 is screwed, and front apron fixture 13 and fixed plate 1 are screwed, connection more facilitate, Firmly；Rear baffle 9 and rear baffle fixture 14 are screwed, and rear baffle fixture 14 and fixed plate 1 are screwed, Connection more facilitates, firmly；Rotating disk 4 is located at the surface of fixed plate 1, and rotating disk 4 is parallel with fixed plate 1, rotating disk 4 and fixed plate 1 Typically each horizontal structure.

Furthermore, it is necessary to explanation, the specific embodiment described in this specification, is named the shape of its parts and components Title etc. can be different, and the above content described in this specification is only to structure example explanation of the present invention.It is all according to The equivalence changes or simple change done according to the construction described in inventional idea of the present invention, feature and principle, are included in this hair In the protection domain of bright patent.Those skilled in the art can do various to described specific embodiment The modification of various kinds or supplement or using similar mode substitute, without departing from the present invention structure or surmount present claims Scope defined in book, all should belong to protection scope of the present invention.

Claims (8)

1. a kind of blanking device for entering pre- firing for ferrite ball type particulate material, it is characterised in that：Including fixed plate, drive Dynamic motor, rotating disk, center of turntable isolating cylinder, turntable periphery baffle plate, front apron, rear baffle, turntable periphery baffle plate fixture, front Through hole is provided with plate fixture, rear baffle fixture and material-falling hopper, the fixed plate, the motor is provided with rotating shaft, The motor is fixed on the bottom surface of fixed plate, and the rotating shaft is through in the through hole of fixed plate, and the rotating disk is circular configuration, should The top surface of rotating disk is planar structure, and the bottom surface of the rotating disk is fixed on the end of rotating shaft, the axis of the rotating disk and the axle of rotating shaft Line overlap, the center of turntable isolating cylinder is cylindrical structural, and the bottom of the center of turntable isolating cylinder is fixed on the top surface of rotating disk, The axis of the center of turntable isolating cylinder and the axis of rotating disk are overlapping, the diameter of a diameter of center of turntable isolating cylinder of the rotating disk 3-5 times, the turntable periphery baffle plate is arc-shaped structure, and the turntable periphery baffle plate passes through turntable periphery baffle plate fixture and solid Fixed board is fixed, and the turntable periphery baffle plate surrounds the top surface of rotating disk, and the bottom of the turntable periphery baffle plate and the top surface of rotating disk connect Touch, breach formed between the two ends of the turntable periphery baffle plate, the front apron is fixed by front apron fixture and fixed plate, One end of the front apron and center of turntable isolating cylinder are tangent, and the other end of the front apron is located at outside the top surface of rotating disk, described Powder channel is formed between the bottom of front apron and the top surface of rotating disk, the height of the powder channel is 0.5-1.5mm, the powder The one end of the height of passage along front apron gradually increases to the direction of the other end of front apron, and the front apron is kept off with turntable periphery There is spacing between one end of plate, the rear baffle is fixed by rear baffle fixture and fixed plate, one end of the rear baffle with Center of turntable isolating cylinder is tangent, and the other end of the rear baffle is located at outside the top surface of rotating disk, and the rear baffle is kept off with turntable periphery Another end in contact of plate, the bottom of the rear baffle and the top surface contact of rotating disk, the angle between the front apron and rear baffle The number of degrees be 15-45 degree, the front apron and rear baffle by the breach that turntable periphery baffle plate is formed be separated into particle discharging opening and Powder discharging opening, the particle discharging opening is located between one end of turntable periphery baffle plate and front apron, the powder discharging opening position Between front apron and rear baffle, material-falling hopper is located at the surface of rotating disk, is deposited between the bottom of the material-falling hopper and the top surface of rotating disk In gap, the height in gap is 0.5-1.5mm, and the side of material-falling hopper is provided with a blanking port, and the height of blanking port, which is less than, to be turned The height of the outer surrounding baffle of disk, the distance of blanking port to one end of turntable periphery baffle plate is more than blanking port to the another of turntable periphery baffle plate The distance of one end；Flushed at the top of the top of the front apron and turntable periphery baffle plate, outside the top of the rear baffle and rotating disk Flushed at the top of surrounding baffle；Flushed at the top of the top of the center of turntable isolating cylinder and turntable periphery baffle plate.

2. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：The quantity of the turntable periphery baffle plate fixture is three.

3. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：The motor is fixed by bolt and fixed plate.

4. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：The bottom of the turntable periphery baffle plate is provided with matter soft-component, and the bottom of the turntable periphery baffle plate is by matter soft-component and turns The top surface contact of disk.

5. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：Rotating shaft on the motor is in vertical shape structure, the horizontal structure of rotating disk.

6. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：Front apron and the front apron fixture is screwed, and the front apron fixture and fixed plate are screwed.

7. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：Rear baffle and the rear baffle fixture is screwed, and the rear baffle fixture and fixed plate are screwed.

8. the blanking device according to claim 1 for entering pre- firing for ferrite ball type particulate material, its feature exists In：The rotating disk is parallel with fixed plate.