CN109603612A - A kind of graphite ingredient feeding device - Google Patents

Abstract

The invention discloses a kind of graphite ingredient feeding devices, including scale hooper, gravity sensor, vibration device, mixing barrel, conveying spiral-tube and pipeline chain conveyor；Vibration device and gravity sensor are mounted on scale hooper outer wall；Scale hooper is connected to mixing barrel；It is sealed on first discharge end and the first operated pneumatic valve is installed on the discharge nozzle of installation；Sieve plate, rotary shaft, the first connector, the second connector, first connecting rod, the second connecting rod, bristle and stirring rod were equipped in mixing barrel；Transmission of rotary axis connection is mounted on the second driving device of mixing the top of the barrel；It rotates axis connection sieving plate, the first connector, the second connector and the second connecting rod is connected by first connecting rod；Mixing barrel is connected to conveying spiral-tube；Conveying spiral-tube discharge port is connected to the charging port of pipeline chain conveyor.The present invention is fed directly to produce in production equipment after mixing the raw material that production needs；To avoid shifting mixed raw material.

Description

A kind of graphite ingredient feeding device

Technical field

The present invention relates to feed device technical field more particularly to a kind of graphite ingredient feeding devices.

Background technique

Since graphite has many excellent performances, thus in the industry such as metallurgy, mechanical, electrical, chemical industry, weaving, national defence Department is widely applied；Graphite has good chemical stability at normal temperature, not by any strong acid, highly basic and organic solvent Erosion.Therefore, graphite product is seldom loss is used for a long time, as long as wiped clean is also as new；

When the use of graphite being that raw material is produced, usually used graphite raw material is mostly powdered；To powdered stone It is added after other raw materials are mixed to be transported in production equipment again in ink and be produced；It is right in present graphite product production Raw material is often conveyed by the way of feed using first with postponing；It is collected after raw material is mixed in advance, then by feedstock transportation Into equipment；It is not only bothersome laborious using this conveying mode；And repeatedly raw material is shifted；It is easy so that mixed There is segregation phenomena after being produced into finished product in raw material, reduces the quality of generation；A kind of graphite ingredient feeding device is provided thus, with Meets the needs of graphite production conveying.

Summary of the invention

To solve technical problem present in background technique, the present invention proposes a kind of graphite ingredient feeding device, to production The raw material needed is fed directly to be produced in production equipment after being mixed, and avoids the transfer of raw material.

A kind of graphite ingredient feeding device proposed by the present invention, including scale hooper, the first sealing cover, the second sealing cover, company Lug, gravity sensor, vibration device, the first discharge nozzle, first flange, second flange, the second discharge nozzle, the first pneumatic operated valve Door, mixing barrel, the second operated pneumatic valve, third discharge nozzle, third flange, the 4th flange, the 4th discharge nozzle, conveying spiral-tube, First driving device, pipeline chain conveyor and the second driving device；

First seal cap sealing connects scale hooper；First sealing cover is equipped with air hole and the first charging port；First adds Expect that port sealing connects the second sealing cover；

Engaging lug is mounted on scale hooper outer wall, and circumferentially equidistantly distributed；Engaging lug lower end connects gravity sensor；

Vibration device is mounted on the outer wall of scale hooper lower part, and circumferentially equidistantly distributed；Scale hooper lower end is equipped with first Discharge end；

First discharge end is tightly connected one end nozzle of the first discharge nozzle；The other end of first discharge nozzle connects the first method It is blue；

Second discharge nozzle one end connects second flange；

First operated pneumatic valve is mounted between first flange and second flange；

Mixing barrel is located at below scale hooper；Mixing the top of the barrel be equipped with for add auxiliary material third feed port and with The second charging port that the second discharge nozzle other end is tightly connected；It mixes material tube inner wall and is equipped with groove；Mixing barrel bottom is to fall Taper, and it is equipped with the second discharge end；Sieve plate, rotary shaft, the first connector, the second connector, the were equipped in mixing barrel One connecting rod, the second connecting rod, bristle and stirring rod；

The first connecting plate and the second connecting plate are equipped in groove；

Rotary shaft is mounted in mixing barrel, and transmission connection is mounted on the second driving device of mixing the top of the barrel；Rotation Shaft was rotatablely connected sieve plate by sealing bearing, and penetrated through sieve plate；

It crosses on sieve plate and is uniformly provided with the identical sieve pore excessively in aperture；It crosses sieve plate and is located at groove close to one end of mixing material tube inner wall It is interior, and cross sieve plate upper end and connect the first connecting plate, it crosses sieve plate lower end and connects the second connecting plate；It crosses sieve plate lower end and is located at rotary shaft The first connector of place's connection；

First connecting plate and the second connecting board structure are identical, and projecting all is arc；First connecting plate and the second connecting plate Connection mixing barrel；

First connector is equipped with the second mounting hole and wheel tooth socket；First connector is rotatablely connected rotary shaft；First connection Part lower end is fitted and connected the second connector；Wherein, the second connector connects rotary shaft；Second connector be equipped with the first mounting hole and The gear teeth；

Second mounting hole is connected to the first mounting hole, and all for running through rotary shaft；

It is circumferentially equidistant respectively in the first connector lower end centered on the second mounting hole to take turns tooth socket；Take turns tooth socket and the gear teeth It corresponds；The shape for taking turns tooth socket is identical as the gear teeth, for placing the gear teeth；

The gear teeth are circumferentially equidistant respectively in the second connector upper end centered on the first mounting hole；

First connecting rod was located at below sieve plate；First connecting rod one end connects rotary shaft, and is vertically arranged with rotary shaft； The first connecting rod other end connects the second connecting rod；Second connecting rod is vertically arranged with first connecting rod；Second connecting rod direction The one end for mixing barrel is installed by bristle；Bristle fitting contact mixing material tube inner wall；

Second discharge end is tightly connected third discharge nozzle one end；The third discharge nozzle other end installs third flange；

4th discharge nozzle one end connects the 4th flange；

The second operated pneumatic valve is installed between third flange and the 4th flange；

Conveying spiral-tube is located at below mixing barrel, and horizontally disposed；Conveying spiral-tube upper end is equipped with for being tightly connected 4th charging port of the 4th discharge nozzle other end；Conveying spiral-tube lower end is equipped with third discharge end；It is set in conveying spiral-tube There is spiral feeding spiro rod；

Spiral feeding spiro rod is mounted in conveying spiral-tube, and the first driving that transmission connection is mounted on conveying spiral-tube Device；

First driving device is located remotely from the side of third discharge end, and close to the 4th charging port；

Third discharge end is tightly connected one end of the 5th discharge nozzle；The other end of 5th discharge nozzle is tightly connected the 6th and goes out One end of expects pipe；

Pipeline chain conveyor is located at below conveying spiral-tube, and is equipped with for being tightly connected the 5th of the 6th discharge nozzle other end Feed port.

Preferably, anti-dust filter mesh is equipped in air hole；The inner hole wall of anti-dust filter mesh connection air hole.

Preferably, groove is equipped with elastic rubber protective layer close to the side of mixing barrel bottom.

Preferably, it crosses and the second stirring rod is set above sieve plate；Second stirring rod connects rotary shaft.

Preferably, it is inverted cone-shaped structure that scale hooper top, which is cylindrical lower portion, and upper part and lower part are seamlessly connected.

Preferably, removal filtration net is equipped in the 6th discharge nozzle.

Preferably, vibration device selects air pulsation hammer.

In the present invention, the graphite raw material of production and application is placed in scale hooper；Pass through the first operated pneumatic valve pair when use Scale hooper carries out blowing；Graphite is added in mixing barrel；Simultaneously to the various auxiliary materials being added in mixing barrel；To being added to After raw material in mixing barrel is stirred；The raw material mixed in barrel passes through third discharge nozzle and the 4th discharge nozzle In decentralization to conveying spiral-tube；The raw material that conveying comes is continued on to the conveying of pipe chain by the spiral feeding spiro rod in conveying spiral-tube In machine；Pipeline chain conveyor will be at mixed feedstock transportation to production equipment；Delivery rate is controlled by conveying spiral-tube；It avoids Raw material accumulation, and product occur inclined when avoiding raw material vertical drop conveying from causing to produce by conveying spiral-tube horizontal feed raw material Analyse phenomenon；

Wherein, mixing barrel first passed through sieve plate to the raw material of addition；Sieve plate was used to carry out screening effect；When work, The gear teeth rotate with when second connector rotates, the gear teeth and wheel tooth socket engagement；Second connector drives and moves down on the first connector It is dynamic；Sieve plate is crossed as the first connector carries out vertical tremor, will be crossed under the sieve of the material on sieve plate；Sieve plate is equipped with second is crossed simultaneously Stirring rod is stirred the raw material crossed on sieve plate, accelerates raw material and falls；Raw material in mixing barrel is in the second driving dress Under the driving set, rotary shaft rotation is driven；Stirring rod rotation is driven to carry out full and uniform stirring to raw material simultaneously；It is opened after stirring Second operated pneumatic valve will be in feedstock transportation to conveying spiral-tube；Bristle will mix the remaining raw material of material tube inner wall and carry out clearly simultaneously It sweeps.

In the present invention, the dustproof filter hole being equipped with avoids the raw material dust in scale hooper from raising out；Foreign matter is avoided simultaneously Enter scale hooper pollution raw material；Elastic rubber protective layer is supported the second connecting plate moved up and down and reduces the second connection The collision of mixing barrel is lost in plate.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of graphite ingredient feeding device proposed by the present invention.

Fig. 2 is the structural schematic diagram of feeding tube in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 3 is the structural schematic diagram of mixing tank in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 4 is the structural schematic diagram of partial enlargement at A in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 5 is the structural schematic diagram of the second connector in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 6 is the structural schematic diagram of the first connector in a kind of graphite ingredient feeding device proposed by the present invention.

In figure: 1, scale hooper；2, the first sealing cover；3, air hole；4, the first charging port；5, the second sealing cover；6, even Lug；7, gravity sensor；8, vibration device；9, the first discharge nozzle；10, first flange；11, second flange；12, the second discharging Pipe；13, the first operated pneumatic valve；14, barrel is mixed；15, the second operated pneumatic valve；16, third discharge nozzle；17, third flange；18, 4th flange；19, the 4th discharge nozzle；20, conveying spiral-tube；21, the 5th discharge nozzle；22, the 6th discharge nozzle；23, pipe chain conveys Machine；24, spiral feeding spiro rod；25, first driving device；26, the second charging port；27, the second driving device；28, third adds Expect port；29, sieve plate is crossed；30, rotary shaft；31, the first connector；32, the second connector；33, first connecting rod；34, second Connecting rod；35, bristle；36, stirring rod；37, the gear teeth；38, the first mounting hole；39, tooth socket is taken turns；40, the second mounting hole；41, recessed Slot；42, the first connecting plate；43, the second connecting plate.

Specific embodiment

As shown in figures 1 to 6, Fig. 1 is a kind of structural schematic diagram of graphite ingredient feeding device proposed by the present invention.

Fig. 2 is the structural schematic diagram of feeding tube in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 3 is the structural schematic diagram of mixing tank in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 4 is the structural schematic diagram of partial enlargement at A in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 5 is the structural schematic diagram of the second connector in a kind of graphite ingredient feeding device proposed by the present invention.

Fig. 6 is the structural schematic diagram of the first connector in a kind of graphite ingredient feeding device proposed by the present invention.

Referring to Fig.1-6, a kind of graphite ingredient feeding device proposed by the present invention, including scale hooper 1, the first sealing cover 2, Two sealing covers 5, engaging lug 6, gravity sensor 7, vibration device 8, the first discharge nozzle 9, first flange 10, second flange 11, Two discharge nozzles 12, the first operated pneumatic valve 13, mixing barrel 14, the second operated pneumatic valve 15, third discharge nozzle 16, third flange 17, 4th flange 18, the 4th discharge nozzle 19, conveying spiral-tube 20, first driving device, pipeline chain conveyor 23 and the second driving device 27；

Scale hooper 1, mixing barrel 14, conveying spiral-tube 20 and pipeline chain conveyor 23 are mounted on the mounting rack of production vehicle frame On；Scale hooper 1, mixing barrel 14, conveying spiral-tube 20 and pipeline chain conveyor 23 are successively installed from top to bottom；By scale hooper 1, mix It closes barrel 14, conveying spiral-tube 20 and 23 right angle setting of pipeline chain conveyor and weight progress feeding is utilized, improve conveying efficiency；

First sealing cover 2 is tightly connected scale hooper 1；First sealing cover 2 is equipped with air hole 3 and the first charging port 4；The One charging port 4 is tightly connected the second sealing cover 5；

Engaging lug 6 is mounted on 1 outer wall of scale hooper, and circumferentially equidistantly distributed；6 lower end of engaging lug connects gravity sensitive Device 7；Each gravity sensor 7 is located at sustained height, guarantees each 7 uniform force of gravity sensor, equipped with numerous gravity Sensor 7 further increases quantitative precision；

Vibration device 8 is mounted on 1 lower part outer wall of scale hooper, and circumferentially equidistantly distributed；Vibration device 8 selects air Vibration hammer；The symmetrical batch box 1 of vibration device 8 carries out vibration and beats quickening blanking；

1 lower end of scale hooper is equipped with the first discharge end；

First discharge end is tightly connected one end nozzle of the first discharge nozzle 9；The other end connection first of first discharge nozzle 9 Flange 10；First flange 10 is connect with the first discharge nozzle 9 and is installed using nut and bolt, and second flange 11, third are passed through Flange 17 is identical with the connection mounting means of the 4th flange 18, is all installed using nut and bolt；

Second discharge nozzle, 12 one end connects second flange 11；

First operated pneumatic valve 13 is mounted between first flange 10 and second flange 11；First operated pneumatic valve 13 by using Nut and bolt are mounted in first flange 10 and second flange 11；

Mixing barrel 14 is located at 1 lower section of scale hooper；14 upper end of barrel is mixed equipped with the third feed end for adding auxiliary material Mouth 28 and the second charging port 26 being tightly connected with 12 other end of the second discharge nozzle；It mixes 14 inner wall of barrel and is equipped with groove 41； Mixing 14 bottom of barrel is back taper, and is equipped with the second discharge end；Mixing barrel 14 in be equipped with sieve plate 29, rotary shaft 30, First connector 31, the second connector 32, first connecting rod 33, the second connecting rod 34, bristle 35 and stirring rod 36；

Further, third charging port 28 again may be by pipeline and connect the second scale hooper；Second scale hooper is used for Place auxiliary material；Certainly, mixing barrel 14 is equipped with multiple charging ports, and multiple charging ports are separately connected multiple use by pipeline In the scale hooper for placing auxiliary material；To realize the automatic addition of auxiliary material raw material；

The first connecting plate 42 and the second connecting plate 43 are equipped in groove 41；

Rotary shaft 30 is mounted in mixing barrel 14, and transmission connection is mounted on the second driving dress of mixing 14 upper end of barrel Set 27；Rotary shaft 30 was rotatablely connected sieve plate 29 by sealing bearing, and penetrated through sieve plate 29；

It crosses on sieve plate 29 and is uniformly provided with the identical sieve pore excessively in aperture；Cross one end position of the sieve plate 29 close to mixing 14 inner wall of barrel It in groove 41, and crosses 29 upper end of sieve plate and connects the first connecting plate 42, cross 29 lower end of sieve plate and connect the second connecting plate 43；Cross sieve plate 29 lower ends and the first connector 31 of connection at rotary shaft 30；

First connecting plate 42 is identical with 43 structure of the second connecting plate, and projecting all is arc；First connecting plate 42 and second The connection mixing barrel 14 of connecting plate 43；First connecting plate 42 and the second connecting plate 43 are located in groove 41, when work, the first connection Plate 42 and the second connecting plate 43 move up and down in groove 41 with crossing sieve plate 29；

First connector 31 is equipped with the second mounting hole 40 and wheel tooth socket 39；First connector 31 is rotatablely connected rotary shaft 30；First connector, 31 lower end is fitted and connected the second connector 32；Wherein, the second connector 32 connects rotary shaft 30；Second connects Fitting 32 is equipped with the first mounting hole 38 and the gear teeth 37；

Second mounting hole 40 is connected to the first mounting hole 38, and all for running through rotary shaft 30；

It is circumferentially equidistant respectively in 31 lower end of the first connector centered on the second mounting hole 40 to take turns tooth socket 39；Take turns tooth socket 39 correspond with the gear teeth 37；The shape for taking turns tooth socket 39 is identical as the gear teeth 37, for placing the gear teeth 37；

The gear teeth 37 are circumferentially equidistant respectively in 32 upper end of the second connector centered on the first mounting hole 38；When work, The gear teeth 37 rotate with when second connector 32 rotates, and the gear teeth 37 and wheel tooth socket 39 engage；Second connector 32 drives first to connect Fitting 31 moves up and down；Sieve plate 29 is crossed as the first connector 31 carries out vertical tremor, will be crossed under the sieve of the material on sieve plate 29；

First connecting rod 33 was located at 29 lower section of sieve plate；33 one end of first connecting rod connects rotary shaft 30, and and rotary shaft 30 are vertically arranged；33 other end of first connecting rod connects the second connecting rod 34；Second connecting rod 34 is vertical with first connecting rod 33 Setting；One end of second connecting rod 34 towards mixing barrel 14 is installed by bristle 35；Fitting contact mixing 14 inner wall of barrel of bristle 35； Bristle 35 is cleaned for that will mix the remaining raw material of 14 inner wall of barrel；

Second discharge end is tightly connected 16 one end of third discharge nozzle；16 other end of third discharge nozzle installs third flange 17；

4th discharge nozzle, 19 one end connects the 4th flange 18；

Second operated pneumatic valve 15 is installed between third flange 17 and the 4th flange 18；

Conveying spiral-tube 20 is located at 14 lower section of mixing barrel, and horizontally disposed；20 upper end of conveying spiral-tube is equipped with for close 4th charging port of envelope connection 19 other end of the 4th discharge nozzle；20 lower end of conveying spiral-tube is equipped with third discharge end；Conveying Spiral feeding spiro rod 24 is equipped in spiral-tube 20；

Spiral feeding spiro rod 24 is mounted in conveying spiral-tube 20, and transmission connection is mounted on the on conveying spiral-tube 20 One driving device 25；

First driving device 25 is located remotely from the side of third discharge end, and close to the 4th charging port；First driving Device 25 selects variable-frequency motor；

Third discharge end is tightly connected one end of the 5th discharge nozzle 21；The other end of 5th discharge nozzle 21 is tightly connected the One end of six discharge nozzles 22；

Pipeline chain conveyor 23 is located at 20 lower section of conveying spiral-tube, and is equipped with for being tightly connected 22 other end of the 6th discharge nozzle The 5th charging port.

In a kind of specific work process of graphite ingredient feeding device of the present embodiment, the graphite raw material of production and application is put It sets in scale hooper 1；Blowing is carried out by the symmetrical batch box 1 of the first operated pneumatic valve 13 when use；Graphite is added to mixing barrel In 14；Simultaneously to the various auxiliary materials being added in mixing barrel 14；The raw material being added in mixing barrel 14 is sufficiently stirred After uniformly；The raw material mixed in barrel 14 passes through in third discharge nozzle 16 and the decentralization to conveying spiral-tube 20 of the 4th discharge nozzle 19； Spiral feeding spiro rod in conveying spiral-tube 20 continues on to the raw material that conveying comes in pipeline chain conveyor 23；Pipeline chain conveyor 23 will be at mixed feedstock transportation to production equipment；Delivery rate is controlled by conveying spiral-tube 20；Raw material is avoided to accumulate, and Raw material vertical drop conveying is avoided to cause product segregation phenomena occur when production by 20 horizontal feed raw material of conveying spiral-tube；

Wherein, the raw material for mixing 14 pairs of barrel additions first passed through sieve plate 29；Sieve plate 29 was used to carry out screening effect；Work When making, the gear teeth 37 are rotated with when the second connector 32 rotates, and the gear teeth 37 and wheel tooth socket 39 engage；Second connector 32 drives the A connection piece 31 moves up and down；Sieve plate 29 is crossed as the first connector 31 carries out vertical tremor, the material on sieve plate 29 will be crossed and sieved Under；The second stirring rod that sieve plate 29 is equipped with is crossed simultaneously to be stirred the raw material crossed on sieve plate 29, is accelerated raw material and is fallen；Positioned at mixed The raw material in barrel 14 is closed under the driving of the second driving device 27, rotary shaft 30 is driven to rotate；Stirring rod 36 is driven to revolve simultaneously Turn to carry out full and uniform stirring to raw material；The second operated pneumatic valve 15 is opened after stirring will be in feedstock transportation to conveying spiral-tube 20； Bristle 35 is cleaned the remaining raw material of 14 inner wall of barrel is mixed simultaneously；

In a specific embodiment, anti-dust filter mesh is equipped in air hole 3；The inner hole of anti-dust filter mesh connection air hole 3 Wall；

In work, the dustproof filter hole being equipped with avoids the raw material dust in scale hooper 1 from raising out；Simultaneously avoid foreign matter into Scale hooper is gone to pollute raw material；

In a specific embodiment, groove 41 is equipped with elastic rubber protective layer close to the side of mixing 14 bottom of barrel；

In work, elastic rubber protective layer is supported the second connecting plate 43 moved up and down and reduces the second connecting plate The collision loss of 43 pairs of mixing barrels 14.

In a specific embodiment, it crosses above sieve plate 29 and second stirring rod is set；Second stirring rod connects rotary shaft 30；Work When making, the second stirring rod is not contacted with sieve plate 29 is crossed；

In work, the second stirring rod being equipped with is stirred the raw material crossed on sieve plate 29, accelerates raw material and falls；

In a specific embodiment, it is inverted cone-shaped structure that 1 top of scale hooper, which is cylindrical lower portion, and upper part and lower part without Seam connection；Engaging lug 6 is located at the junction of 1 upper and lower part of scale hooper；Vibration device 8 is located at the inverted cone-shaped structure of scale hooper 1 Lower part outer wall on.

In a specific embodiment, removal filtration net is equipped in the 6th discharge nozzle 22.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (7)

1. a kind of graphite ingredient feeding device, which is characterized in that including scale hooper (1), the first sealing cover (2), the second sealing cover (5), engaging lug (6), gravity sensor (7), vibration device (8), the first discharge nozzle (9), first flange (10), second flange (11), the second discharge nozzle (12), the first operated pneumatic valve (13), mixing barrel (14), the second operated pneumatic valve (15), third discharge nozzle (16), third flange (17), the 4th flange (18), the 4th discharge nozzle (19), conveying spiral-tube (20), first driving device, pipe Chain conveyer (23) and the second driving device (27)；

First sealing cover (2) is tightly connected scale hooper (1)；First sealing cover (2) is equipped with air hole (3) and the first charging port (4)；First charging port (4) is tightly connected the second sealing cover (5)；

Engaging lug (6) is mounted on scale hooper (1) outer wall, and circumferentially equidistantly distributed；Engaging lug (6) lower end connects gravity and passes Sensor (7)；

Vibration device (8) is mounted on the outer wall of scale hooper (1) lower part, and circumferentially equidistantly distributed；Scale hooper (1) lower end is equipped with First discharge end；

First discharge end is tightly connected one end nozzle of the first discharge nozzle (9)；The other end connection first of first discharge nozzle (9) Flange (10)；

Second discharge nozzle (12) one end connects second flange (11)；

First operated pneumatic valve (13) is mounted between first flange (10) and second flange (11)；

Mixing barrel (14) is located at below scale hooper (1)；Mixing barrel (14) upper end is equipped with the third for adding auxiliary material and feeds Port (28) and the second charging port (26) being tightly connected with the second discharge nozzle (12) other end；Mixing barrel (14) inner wall is set Fluted (41)；Mixing barrel (14) bottom is back taper, and is equipped with the second discharge end；It mixes and is equipped with sieving in barrel (14) Plate (29), rotary shaft (30), the first connector (31), the second connector (32), first connecting rod (33), the second connecting rod (34), bristle (35) and stirring rod (36)；

The first connecting plate (42) and the second connecting plate (43) are equipped in groove (41)；

Rotary shaft (30) is mounted in mixing barrel (14), and transmission connection is mounted on second driving of mixing barrel (14) upper end Device (27)；Rotary shaft (30) was rotatablely connected sieve plate (29) by sealing bearing, and penetrated through sieve plate (29)；

It crosses on sieve plate (29) and is uniformly provided with the identical sieve pore excessively in aperture；Sieve plate (29) are crossed close to one end of mixing barrel (14) inner wall In groove (41), and sieve plate (29) upper end connection the first connecting plate (42) is crossed, crosses the second connection of sieve plate (29) lower end connection Plate (43)；It crosses sieve plate (29) lower end and is located at rotary shaft (30) and connect the first connector (31)；

First connecting plate (42) is identical with the second connecting plate (43) structure, and projecting all is arc；First connecting plate (42) and Two connecting plates (43) connection mixing barrel (14)；

First connector (31) is equipped with the second mounting hole (40) and wheel tooth socket (39)；First connector (31) rotation connection rotation Axis (30)；First connector (31) lower end is fitted and connected the second connector (32)；Wherein, the second connector (32) connects rotary shaft (30)；Second connector (32) is equipped with the first mounting hole (38) and the gear teeth (37)；

Second mounting hole (40) is connected to the first mounting hole (38)；

It is circumferentially equidistant respectively in the first connector (31) lower end centered on the second mounting hole (40) to take turns tooth socket (39)；The gear teeth Slot (39) and the gear teeth (37) correspond；The shape for taking turns tooth socket (39) is identical as the gear teeth (37), for placing the gear teeth (37)；

The gear teeth (37) are circumferentially equidistant respectively in the second connector (32) upper end centered on the first mounting hole (38)；

First connecting rod (33) was located at below sieve plate (29)；First connecting rod (33) one end connect rotary shaft (30), and with rotation Shaft (30) is vertically arranged；First connecting rod (33) other end connects the second connecting rod (34)；Second connecting rod (34) and first Connecting rod (33) is vertically arranged；Second connecting rod (34) installs bristle (35) towards one end of mixing barrel (14)；Bristle (35) Fitting contact mixing barrel (14) inner wall；

Second discharge end is tightly connected third discharge nozzle (16) one end；Third discharge nozzle (16) other end installs third flange (17)；

4th discharge nozzle (19) one end connects the 4th flange (18)；

The second operated pneumatic valve (15) are installed between third flange (17) and the 4th flange (18)；

Conveying spiral-tube (20) is located at below mixing barrel (14), and horizontally disposed；Conveying spiral-tube (20) upper end is equipped with and is used for It is tightly connected the 4th charging port of the 4th discharge nozzle (19) other end；Conveying spiral-tube (20) lower end is equipped with third discharge end Mouthful；Spiral feeding spiro rod (24) are equipped in conveying spiral-tube (20)；

Spiral feeding spiro rod (24) is mounted in conveying spiral-tube (20), and transmission connection is mounted on conveying spiral-tube (20) First driving device (25)；

First driving device (25) is located remotely from the side of third discharge end, and close to the 4th charging port；

Third discharge end is tightly connected one end of the 5th discharge nozzle (21)；The other end of 5th discharge nozzle (21) is tightly connected the One end of six discharge nozzles (22)；

Pipeline chain conveyor (23) is located at below conveying spiral-tube (20), and is equipped with another for being tightly connected the 6th discharge nozzle (22) The 5th charging port at end.

2. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that be equipped in air hole (3) dust-proof Filter screen；Anti-dust filter mesh connects the inner hole wall of air hole (3).

3. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that groove (41) is close to mixing barrel (14) side of bottom is equipped with elastic rubber protective layer.

4. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that cross setting the above sieve plate (29) Two stirring rods；Second stirring rod connects rotary shaft (30).

5. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that scale hooper (1) top is cylinder Shape lower part is inverted cone-shaped structure, and upper part and lower part are seamlessly connected.

6. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that be equipped in the 6th discharge nozzle (22) Removal filtration net.

7. a kind of graphite ingredient feeding device according to claim 1, which is characterized in that vibration device (8) selects air Vibration hammer.