CN111744618A

CN111744618A - Rare material processing machine of graphite

Info

Publication number: CN111744618A
Application number: CN202010617435.6A
Authority: CN
Inventors: 杨小继
Original assignee: Heze Bird New Energy Co ltd
Current assignee: Hunan Chengyue new energy Co.,Ltd.
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-10-09
Anticipated expiration: 2040-06-30
Also published as: CN111744618B

Abstract

The invention discloses a graphene material processing machine which structurally comprises a stirring device, a transmission pipe, a purification tank and a device cabin, wherein the stirring device is installed on the right side end face of the device cabin through welding, the transmission pipe is movably connected with the purification tank in a clamping mode and is connected with the stirring device, the purification tank is fixedly embedded right above the stirring device, the device cabin is located below the purification tank, sharp blocks fixedly embedded on the end face of the purification tank can further decompose graphite through embedding blocks symmetrically installed on the left side and the right side of the purification tank, so that graphite blocks are disintegrated, and then cutting blades in a scraping mechanism are used for further scraping surface tissues of the graphite, so that the volume of the graphite is further reduced, and the problem that the graphite is difficult to crush due to rolling of spherical outer outlines in the crushing process of scraping blades is solved.

Description

Rare material processing machine of graphite

Technical Field

The invention belongs to the field of graphene processing equipment, and particularly relates to a graphene material processing machine.

Background

Graphite alkene material processing machine utilizes the interact cooperation of stirring garrulous device and circulating pipe down to stir garrulous equipment of becoming with graphite alkene raw and other materials, mainly uses in former material processing factory of graphite alkene and the factory of generation, because graphite alkene draws comparatively easily from dry graphite, generally can be equipped with the adsorbed layer that keeps air drying in the equipment.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: because the past stirring device generally adopts single pole screw thread post to carry out the transmission and the stirring work to graphite, and can cut apart into the graphite piece of bulky size when monoblock graphite is lost into stirring device, when the graphite piece of circular outline fell into stirring device, graphite can take place the rotation along with the rotation of threaded rod, can not be driven by the threaded rod and extrude and cut up, make it keep in stirring device with rolling mode always.

Therefore, it is necessary to provide a graphene material processing machine.

Disclosure of Invention

In order to solve the above-mentioned technique because the single pole screw thread post of the general adoption of stirring in the past of device carries out the transmission and the stirring work to graphite, and can be cut apart into the graphite piece that the volume size is different when the monoblock graphite is thrown into the stirring device, when the graphite piece of circular outline fell into the stirring device, graphite can take place the rotation along with the rotation of threaded rod, can not be driven by the threaded rod and extrude the comminution, make it keep the problem that persists in stirring device with the rolling mode all the time.

The invention relates to a graphene material processing machine, which is realized by the following specific technical means: the device comprises a stirring device, a transmission pipe, a purification tank and a device cabin, wherein the stirring device is installed on the end face of the right side of the device cabin through welding, the transmission pipe is movably connected with the purification tank in a clamping manner and is connected with the stirring device, the purification tank is fixedly embedded and installed right above the stirring device, and the device cabin is located below the purification tank; stir garrulous equipment and include pivot, threaded rod, feed inlet, power shaft, inlay solid board, discharge gate, pivot activity block is installed in the right side of threaded rod, the threaded rod inlays solid left side terminal surface of installing at the power shaft, the feed inlet passes through welded mounting directly over the power shaft, the power shaft is inlayed and is installed at the inboard right-hand member face of stirring garrulous equipment, it connects under the threaded rod to inlay the laminating of solid board, discharge gate welded connection is in the lower extreme left side of stirring garrulous equipment.

Further, the threaded rod includes the block rubber, inlays mouth, thread groove, point form piece, ring arc groove, block rubber evenly distributed is in the outside terminal surface of threaded rod, and laminates mutually with the thread groove, inlay the left side terminal surface that the mouth located the threaded rod, the medial surface at the thread groove is inlayed to point form piece, the right side terminal surface at the threaded rod is inlayed to ring arc groove, the inboard right-hand member face and the pendulum that the thread groove was only located to point form piece are to unanimous.

Furthermore, the point form piece includes doctor-bar mechanism, inlays solid piece, attaching plate, doctor-bar mechanism evenly distributed is at the upper end surface of point form piece, inlay the left and right sides that the solid piece symmetry was installed at point form piece, attaching plate inlays the block and connects at the downside terminal surface of point form piece, and laminates with the thread groove mutually, it is sharp taper to inlay solid piece and puts.

Furthermore, doctor-bar mechanism includes mobile hole, cutting blade, second rigging board, mobile hole evenly distributed is at the up end of doctor-bar mechanism, cutting blade inlays the fixed upper end medial surface of installing at doctor-bar mechanism, the laminating of second rigging board is installed at the lower terminal surface of doctor-bar mechanism, doctor-bar mechanism medial surface personally submits the fretwork form.

Furthermore, the embedded plate comprises a connecting rod, a second embedded block, a sliding groove and a connecting shaft, the second embedded block is embedded and installed on the left side and the right side of the connecting rod, the left side and the right side of the second embedded block are connected with the threaded rod, the sliding groove is embedded and installed on the upper end face of the embedded plate and is connected with the connecting shaft, the connecting shaft is movably clamped and connected in the circular arc groove, and the left end face of the connecting shaft is connected with the connecting rod.

Further, the second is inlayed the solid piece and is included block, spring, movable block, mosaic block, the block is inlayed to the block and is installed at the left side terminal surface that the second inlayed solid piece, the spring is inlayed and is installed directly over the mosaic block, and with the laminating of second built-in terminal surface, the movable block is inlayed the laminating and is connected directly over the mosaic block, the mosaic block passes through threaded connection and installs directly over the connecting rod, the movable block lower extreme is equipped with the long slab that extends to the left side.

Compared with the prior art, the invention has the following beneficial effects:

1. the sharp blocks embedded and fixedly arranged on the end surfaces of the graphite blocks can further decompose the graphite through the embedding blocks symmetrically arranged on the left side and the right side of the graphite blocks, so that the graphite blocks are decomposed, and then the cutting blades in the scraping mechanism are utilized to further scrape the surface tissues of the graphite, so that the volume of the graphite is further reduced, and the problem that the graphite is difficult to crush due to rolling of spherical outer contours in the crushing process is solved.

2. The graphite block is extruded by the left end face of the second embedded block in the sliding process, so that the graphite block is crushed through an included angle formed by the second embedded block and the thread groove, and the spring arranged on the inner end face of the second embedded block can outwards jack the movable block through the elasticity of the spring, so that the right end face of the spring is always embedded and attached to the thread groove to avoid clearance, the graphite block can be effectively pushed into the left end face to crush the graphite block in rotation, and hard block blockage is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a whole processing machine for graphene materials according to the present invention.

Fig. 2 is a schematic structural diagram of a crushing apparatus of a graphene material processing machine according to the present invention.

Fig. 3 is a schematic structural diagram of a threaded rod of a graphene material processing machine according to the present invention.

Fig. 4 is a schematic structural diagram of a tip-shaped block of a graphene material processing machine according to the present invention.

Fig. 5 is a schematic structural diagram of a doctor blade mechanism of a graphene material processing machine according to the present invention.

Fig. 6 is a schematic structural diagram of an embedded plate of a graphene material processing machine according to the present invention.

Fig. 7 is a schematic structural diagram of a second embedded block of a graphene material processing machine according to the present invention.

In the figure: the equipment comprises a stirring device-1, a transmission pipe-2, a purification tank-3, an equipment cabin-4, a rotating shaft-11, a threaded rod-12, a feeding hole-13, a power shaft-14, an embedded plate-15, a discharging hole-16, a rubber block-121, an embedded opening-122, a threaded groove-123, a pointed block-124, a circular arc groove-125, a scraping blade mechanism-241, an embedded block-242, a laminating plate-243, a flowing hole-411, a cutting blade-412, a second laminating plate-413, a connecting rod-151, a second embedded block-152, a sliding groove-153, a connecting shaft-154, a clamping block-521, a spring-522, a movable block-523 and an embedded block-524.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a graphene material processing machine which structurally comprises a stirring device 1, a transmission pipe 2, a purification tank 3 and a device cabin 4, wherein the stirring device 1 is installed on the end face of the right side of the device cabin 4 through welding, the transmission pipe 2 is movably connected with the purification tank 3 in a clamping manner and is connected with the stirring device 1, the purification tank 3 is fixedly installed right above the stirring device 1 in an embedding manner, and the device cabin 4 is located below the purification tank 3; stirring equipment 1 includes pivot 11, threaded rod 12, feed inlet 13, power shaft 14, builds up board 15,

discharge gate

16, 11 movable clamping in pivot installs the right side at threaded rod 12, threaded rod 12 builds up the left side terminal surface of installing at power shaft 14, feed inlet 13 passes through welded mounting directly over power shaft 14, power shaft 14 inlays and installs the inboard right-hand member face at stirring equipment 1, it connects under threaded rod 12 to inlay solid 15 laminating of board, 16 welded connection of discharge gate is in the lower extreme left side of stirring equipment 1.

Wherein, threaded rod 12 includes rubber block 121, inlays mouth 122, thread groove 123, sharp form piece 124, ring arc groove 125, rubber block 121 evenly distributed is at the outside terminal surface of threaded rod 12, and laminates mutually with thread groove 123, inlay the left side terminal surface that threaded rod 12 was located to mouth 122, the medial surface at thread groove 123 is inlayed to sharp form piece 124, ring arc groove 125 inlays the right side terminal surface of installing at threaded rod 12, the inboard right-hand member face that sharp form piece 124 only located thread groove 123 just swings to the unanimity, can utilize sharp form piece 124 to stir garrulous graphite block when equipment takes place to rotate.

The pointed block 124 comprises a scraping mechanism 241, an embedding block 242 and a laminating plate 243, the scraping mechanism 241 is uniformly distributed on the outer surface of the upper end of the pointed block 124, the embedding block 242 is symmetrically arranged on the left side and the right side of the pointed block 124, the laminating plate 243 is embedded and clamped on the end surface of the lower side of the pointed block 124 and is laminated with the thread groove 123, the embedding block 242 is in a pointed cone shape and is placed, and when the graphite collides with the graphite, the graphite surface can bear larger pressure.

The doctor blade mechanism 241 comprises a flow hole 411, a cutting blade 412 and a second attaching plate 413, wherein the flow hole 411 is uniformly distributed on the upper end face of the doctor blade mechanism 241, the cutting blade 412 is fixedly installed on the inner side face of the upper end of the doctor blade mechanism 241, the second attaching plate 413 is attached to the lower end face of the doctor blade mechanism 241, the inner side end face of the doctor blade mechanism 241 is hollowed out, and when graphite is scraped, graphite ash can be prevented from being blocked by outwards discharging and discharging through the hollowed-out groove and the flow hole 411.

The specific use mode and function of the embodiment are as follows:

in the invention, graphite is poured into the stirring device 1 from the feeding hole 13, the power shaft 14 in the stirring device 1 is utilized to drive the threaded rod 12 to rotate by taking the rotating shaft 11 as a central origin, the graphite is crushed by the angle formed by the thread groove 123 in the threaded rod 12 and the embedded plate 15 during the rotation, when the screw groove 123 rotates, the sharp block 124 embedded and fixed on the end surface will further decompose the graphite through the embedding blocks 242 symmetrically installed on the left and right sides, so as to disintegrate the graphite block, and then the cutting blade 412 in the scraping mechanism 241 is used to further scrape off the surface tissue of the graphite, so as to further reduce the volume of the graphite and avoid the graphite rolling on the connecting end surface of the threaded rod 12 and the embedding plate 15 due to the spherical outer contour in the grinding process, can effectively stir and decompose the graphite blocks, so that the graphite blocks can not be blocked in equipment.

Example 2:

as shown in fig. 3 to 7: threaded rod 12 includes rubber block 121, inlays mouth 122, thread groove 123, point form piece 124, ring arc groove 125, rubber block 121 evenly distributed is at the outside terminal surface of threaded rod 12, and laminates mutually with thread groove 123, inlay the left side terminal surface that threaded rod 12 was located to mouth 122, the medial surface at thread groove 123 is inlayed to point form piece 124, ring arc groove 125 inlays the right side terminal surface of installing at threaded rod 12, point form piece 124 only locates the inboard right-hand member face of thread groove 123 and pendulum to the unanimity, can utilize point form piece 124 to stir garrulous graphite block when equipment takes place to rotate.

The embedded plate 15 comprises a connecting rod 151, a second embedded block 152, a sliding groove 153 and a connecting shaft 154, the second embedded block 152 is embedded and installed on the left side and the right side of the connecting rod 151, the left side and the right side of the second embedded block 152 are connected with the threaded rod 12, the sliding groove 153 is embedded and installed on the upper end face of the embedded plate 15 and is connected with the connecting shaft 154, the connecting shaft 154 is movably clamped and connected with the annular groove 125, the left end face of the connecting shaft 154 is connected with the connecting rod 151, and the connecting shaft 154 can be driven to slide left and right through the annular groove 125 when the threaded rod 12 rotates.

Wherein, the second inlays solid piece 152 and includes block 521, spring 522, movable block 523, mosaic block 524, block 521 inlays the block and installs the left side terminal surface at second solid piece 152 of inlaying, spring 522 inlays the solid and installs directly over mosaic block 524, and inlays the interior terminal surface laminating of solid piece 152 with the second, movable block 523 inlays the laminating and connects directly over mosaic block 524, mosaic block 524 passes through threaded connection and installs directly over connecting rod 151, movable block 523 lower extreme is equipped with the long slab that extends to the left side, avoids taking place the problem that drops when laminating mutually with thread groove 123.

The specific use mode and function of the embodiment are as follows:

in the present invention, the right circular arc groove 125 is rotated when the screw groove 123 is rotated, the connecting shaft 154 embedded on the inner end surface is driven to slide in the sliding groove 153 along with the inner end profile surface of the annular arc groove 125 during the rotation process, the connecting rod 151 and the second embedded and fixed block 152 embedded and fixed on the upper end surface thereof are driven to slide in the sliding process, in the sliding process, the left end face of the second embedded block 152 is used for extruding the graphite block, so that the graphite block is crushed through the included angle formed by the second embedded block 152 and the thread groove 123, and the spring 522 installed on the inner end surface of the second embedding and fixing block 152 jacks up the movable block 523 outwards through its own elastic force, so that the right end surface is always embedded and attached to the threaded groove 123 to avoid a gap, the graphite block can be effectively pushed into the left end face to crush the graphite block in rotation, and hard block blockage is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. A graphene material processing machine structurally comprises a stirring device (1), a transmission pipe (2), a purification tank (3) and a device cabin (4), wherein the stirring device (1) is installed on the right end face of the device cabin (4) through welding, the transmission pipe (2) is movably connected with the purification tank (3) in a clamping mode and is connected with the stirring device (1), the purification tank (3) is fixedly embedded and installed right above the stirring device (1), and the device cabin (4) is located below the purification tank (3); the method is characterized in that:

stir garrulous equipment (1) including pivot (11), threaded rod (12), feed inlet (13), power shaft (14), inlay solid board (15), discharge gate (16), the right side in threaded rod (12) is installed in pivot (11) activity block, threaded rod (12) are inlayed and are installed the left side terminal surface in power shaft (14) admittedly, feed inlet (13) are through welding installation directly over power shaft (14), power shaft (14) are inlayed and are installed the inboard right-hand member face in stirring garrulous equipment (1), inlay solid board (15) laminating connection under threaded rod (12), discharge gate (16) welded connection is in the lower extreme left side portion of stirring garrulous equipment (1).

2. The graphene material processing machine according to claim 1, wherein the threaded rod (12) comprises rubber blocks (121), an embedding opening (122), a thread groove (123), a pointed block (124) and an annular arc groove (125), the rubber blocks (121) are uniformly distributed on the outer end face of the threaded rod (12) and are attached to the thread groove (123), the embedding opening (122) is arranged on the left end face of the threaded rod (12), the pointed block (124) is embedded and mounted on the inner end face of the thread groove (123), and the annular arc groove (125) is embedded and mounted on the right end face of the threaded rod (12).

3. The graphene material processing machine according to claim 2, wherein the pointed block (124) comprises a scraping mechanism (241), an embedding block (242) and an attaching plate (243), the scraping mechanism (241) is uniformly distributed on the outer surface of the upper end of the pointed block (124), the embedding block (242) is symmetrically installed on the left side and the right side of the pointed block (124), and the attaching plate (243) is connected to the lower end surface of the pointed block (124) in an embedding and clamping manner and attached to the thread groove (123).

4. A graphene material processing machine according to claim 3, wherein the doctor blade mechanism (241) comprises flow holes (411), a cutting blade (412) and a second abutting plate (413), the flow holes (411) are uniformly distributed on the upper end surface of the doctor blade mechanism (241), the cutting blade (412) is embedded and installed on the inner side surface of the upper end of the doctor blade mechanism (241), and the second abutting plate (413) is installed on the lower end surface of the doctor blade mechanism (241) in an abutting mode.

5. The graphene material processing machine according to claim 1, wherein the embedding plate (15) comprises a connecting rod (151), a second embedding block (152), a sliding groove (153) and a connecting shaft (154), the second embedding block (152) is embedded and installed on the left and right sides of the connecting rod (151), the left and right sides of the second embedding block (152) are connected with the threaded rod (12), the sliding groove (153) is embedded and installed on the upper end face of the embedding plate (15) and connected with the connecting shaft (154), the connecting shaft (154) is movably clamped and connected in the annular arc groove (125), and the left end face of the connecting shaft (154) is connected with the connecting rod (151).

6. The graphene material processing machine according to claim 5, wherein the second embedding and fixing block (152) comprises a clamping block (521), a spring (522), a movable block (523) and an embedding block (524), the clamping block (521) is embedded and clamped and installed on the left end face of the second embedding and fixing block (152), the spring (522) is embedded and installed directly above the embedding block (524) and attached to the inner end face of the second embedding and fixing block (152), the movable block (523) is embedded and attached to and connected directly above the embedding block (524), and the embedding block (524) is installed directly above the connecting rod (151) through threaded connection.