CN114100765A - Nano-material grinding device - Google Patents

Abstract

The invention is suitable for the technical field of nano material production equipment, and particularly relates to a nano material grinding device, which comprises a grinding box main body, a feeding hole, a discharging hole, a grinding roller and a screening plate, wherein the feeding hole and the discharging hole are formed in the surface of the grinding box main body, and the nano material grinding device also comprises: the driving assembly is used for installing the grinding roller and driving the grinding roller to move along the horizontal direction through mechanical transmission; and the reciprocating motion structure is arranged on the driving assembly and the grinding box main body, is used for installing the screening plate and is also used for driving the screening plate to do horizontal reciprocating motion. According to the invention, by arranging the driving assembly and the reciprocating structure, when the grinding roller moves to grind materials, the screening plate is driven to horizontally reciprocate, so that the ground materials on the screening plate can be rapidly screened, and the positions of the materials can be continuously changed, so that the materials can be fully ground by the grinding roller.

Description

Nano-material grinding device

Technical Field

The invention relates to the technical field of nano material production equipment, in particular to a nano material grinding device.

Background

Nanoparticle materials, also known as ultrafine particle materials, are composed of nanoparticles. Nanoparticles, also called nanoparticles, are transition regions between clusters of atoms and macroscopic objects, and from the general point of view of micro-and macro-scale, such systems are neither typical micro-systems nor typical macro-systems, which are typically mesoscopic systems, with surface effects, small size effects and macroscopic quantum tunneling effects.

The raw materials need to be ground during the production of the nano materials, and special nano material grinding equipment is needed at the moment.

The existing nano material grinding equipment cannot enable materials on a grinding disc to be fully contacted by a grinding rod in the process of grinding the materials, so that part of the materials cannot be ground by the grinding rod, and the materials are insufficiently ground.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a nano material polishing apparatus, which aims to solve the following problems: the existing nano material grinding equipment cannot enable materials on a grinding disc to be fully contacted by a grinding rod in the process of grinding the materials, so that part of the materials cannot be ground by the grinding rod, and the materials are insufficiently ground.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a nano-material grinder, is including grinding case main part, feed port, unloading hole, grinding roller and screening board, and the surface at grinding case main part is all seted up to feed port and unloading hole, nano-material grinder still includes:

the driving assembly is used for installing the grinding roller and driving the grinding roller to move along the horizontal direction through mechanical transmission; and

and the reciprocating motion structure is arranged on the driving assembly and the grinding box main body and used for installing the screening plate and driving the screening plate to do horizontal reciprocating motion.

Further, the driving assembly includes:

the mounting piece is used for driving the grinding roller to move;

the moving part is connected to the inner wall of the grinding box main body in a sliding manner and is used for driving the mounting part to move;

the third transmission piece is arranged on the moving piece and used for driving the moving piece to move; and

the first driving piece is arranged on the side surface of the grinding box main body, and the output end of the first driving piece is connected with the third transmission piece and used for driving the third transmission piece to move.

Further, the reciprocating structure includes:

the reciprocating motion assembly is movably connected inside the grinding box main body and is used for driving the screening plate to horizontally reciprocate; and

and the transmission assembly is arranged on the reciprocating motion assembly and the driving assembly and is used for driving the reciprocating motion assembly to move by taking the driving assembly as power input.

Further, the reciprocating assembly comprises:

the moving piece is connected to the inner wall of the grinding box main body in a sliding mode, is used for installing the screening plate and is also used for driving the screening plate to move; and

and the reciprocating moving part is connected to the moving part and the transmission assembly and is used for driving the moving part to slide in the grinding box main body.

Further, the transmission assembly includes:

the two groups of first transmission pieces are respectively arranged at two sides of the inner side of the reciprocating moving piece and are used for driving the reciprocating moving piece to move;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move;

the first rotating piece is rotatably connected to the side surface of the grinding box main body and is used for driving the second transmission piece to rotate; and

and the linkage part is arranged on the first rotating part and the driving assembly and is used for driving the first rotating part to move by taking the driving assembly as power input.

Further, the nano-material grinding device further comprises:

the material collecting piece is connected inside the grinding box main body in a sliding mode, is communicated with the blanking hole and is used for collecting nano materials screened on the screening plate; and

the vibration assembly is arranged on the grinding box main body and the material collecting piece and used for driving the material collecting piece to vibrate through mechanical transmission.

Further, the vibration assembly includes:

the elastic piece is arranged on the side surface of the material collecting piece and is used for driving the material collecting piece to move;

the supporting piece is connected to the inner wall of the grinding box main body and used for supporting the elastic piece;

the knocking piece is used for knocking the collecting piece;

the second rotating part is used for mounting the knocking part and driving the knocking part to rotate; and

and the second driving piece is arranged on the surface of the grinding box main body, and the output end of the second driving piece is connected with the second rotating piece and used for driving the second rotating piece to move.

According to the nano material grinding device provided by the invention, by arranging the driving assembly and the reciprocating structure, when the grinding roller moves to grind materials, the screening plate is driven to horizontally reciprocate, so that the ground materials on the screening plate are rapidly screened, and the positions of the materials can be continuously changed, so that the materials can be fully ground by the grinding roller.

Drawings

Fig. 1 is a schematic structural diagram of a nano-material polishing apparatus.

Fig. 2 is a side partial sectional view of a reciprocating moving member, a first transmission member, a second transmission member and a first rotating member in a nano-material polishing apparatus.

Fig. 3 is a partial structural schematic diagram of a second driving member, a second rotating member and a knocking member in the nanomaterial polishing apparatus.

In the figure: 1. grinding the box main body; 2. a first transmission member; 3. a second transmission member; 4. a first rotating member; 5. a reciprocating movable member; 6. a linkage member; 7. a first driving member; 8. a movable member; 9. a third transmission member; 10. a mounting member; 11. a grinding roller; 12. a feed port; 13. a moving member; 14. a screening plate; 15. a collecting member; 16. a second rotating member; 17. a plexor member; 18. a second driving member; 19. a blanking hole; 20. an elastic member; 21. and a support member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to fig. 3, a nano material grinding apparatus provided in an embodiment of the present invention includes a grinding box main body 1, a feed hole 12, a discharge hole 19, a grinding roller 11, and a sieving plate 14, where the feed hole 12 and the discharge hole 19 are both opened on a surface of the grinding box main body 1, and the nano material grinding apparatus further includes:

the driving assembly is used for installing the grinding roller 11 and driving the grinding roller 11 to move along the horizontal direction through mechanical transmission; and

the reciprocating motion structure is arranged on the driving assembly and the grinding box main body 1 and used for installing the screening plate 14 and driving the screening plate 14 to do horizontal reciprocating motion.

In an embodiment of the present invention, the driving assembly may drive the grinding roller 11 to horizontally move on the sieving plate 14 through a motor driving and a lead screw transmission manner or a motor driving and a gear and rack transmission manner, and the reciprocating structure may drive the sieving plate 14 to horizontally reciprocate by using the driving assembly as a power input and a gear and rack transmission manner, so that the nano material ground on the sieving plate 14 may be quickly sieved.

In one embodiment of the present invention, as shown in fig. 1, the driving assembly includes:

the mounting piece 10 is used for driving the grinding roller 11 to move;

the moving part 8 is connected to the inner wall of the grinding box main body 1 in a sliding manner and is used for driving the mounting part 10 to move;

the third transmission piece 9 is arranged on the moving piece 8 and used for driving the moving piece 8 to move; and

the first driving piece 7 is installed on the side surface of the grinding box main body 1, and the output end of the first driving piece is connected with the third transmission piece 9 and used for driving the third transmission piece 9 to move.

In this embodiment, the mounting part 10 can be a mounting rod or a mounting frame, the moving part 8 can be a threaded ring or a ball nut, the third transmission part 9 can be a threaded rod or a ball screw, the first driving part 7 can be a driving motor, when the nano-material on the sieving plate 14 needs to be ground, the first driving part 7 can be opened, the first driving part 7 drives the third transmission part 9 to rotate, so that the moving part 8 moves outside the third transmission part 9, and drives the grinding roller 11 to roll on the surface of the sieving plate 14, thereby uniformly grinding the material on the sieving plate 14.

As shown in fig. 1, in one embodiment of the present invention, the reciprocating structure includes:

the reciprocating motion assembly is movably connected inside the grinding box main body 1 and is used for driving the screening plate 14 to horizontally reciprocate; and

and the transmission assembly is arranged on the reciprocating motion assembly and the driving assembly and is used for driving the reciprocating motion assembly to move by taking the driving assembly as power input.

In this embodiment, the reciprocating assembly includes:

the moving piece 13 is connected to the inner wall of the grinding box main body 1 in a sliding mode, is used for installing the screening plate 14 and is also used for driving the screening plate 14 to move; and

and the reciprocating movable piece 5 is connected to the moving piece 13 and the transmission component and is used for driving the moving piece 13 to slide in the grinding box main body 1.

In this embodiment, the transmission assembly includes:

the two groups of first transmission pieces 2 are respectively arranged at two sides of the inner side of the reciprocating movable piece 5 and are used for driving the reciprocating movable piece 5 to move;

the second transmission piece 3 is connected with the first transmission piece 2 and used for driving the first transmission piece 2 to move;

the first rotating piece 4 is rotatably connected to the side surface of the grinding box main body 1 and is used for driving the second transmission piece 3 to rotate; and

and the linkage part 6 is arranged on the first rotating part 4 and the driving component and is used for driving the first rotating part 4 to move by taking the driving component as power input.

In this embodiment, the moving member 13 may be a moving frame, the reciprocating member 5 may be a moving box, the first driving member 2 may be a driving rack, the second driving member 3 may be a half gear or an incomplete gear, the first driving member 4 may be a rotating rod or a rotating column, the linking member 6 may be a driving chain or a driving belt, when the first driving member 7 drives the third driving member 9 to move, the third driving member 9 may drive the first driving member 4 to rotate through the linking member 6, so that the first driving member 4 drives the second driving member 3 to rotate, the second driving member 3 continuously stirs the two first driving members 2 to move in opposite directions, so that the reciprocating member 5 drives the moving member 13 and the sieving plate 14 to reciprocate on the inner wall of the grinding box body 1, so as to achieve rapid sieving of the material ground on the sieving plate 14, and further enable the material to continuously change positions, so that the material can be sufficiently ground by the grinding roller 11.

As shown in fig. 1 and 3, in one embodiment of the present invention, the nanomaterial milling apparatus further comprises:

the collecting part 15 is connected inside the grinding box main body 1 in a sliding manner, is communicated with the blanking hole 19 and is used for collecting the nano materials screened on the screening plate 14; and

the vibration component is arranged on the grinding box main body 1 and the material collecting part 15 and used for driving the material collecting part 15 to vibrate through mechanical transmission.

In this embodiment, the vibration assembly includes:

the elastic part 20 is arranged on the side surface of the material collecting part 15 and is used for driving the material collecting part 15 to move;

a support member 21 attached to an inner wall of the grinding box body 1 for supporting the elastic member 20;

a rapper 17 for rapping the catchment 15;

the second rotating part 16 is used for installing the knocking part 17 and driving the knocking part 17 to rotate; and

and a second driving member 18 mounted on the surface of the grinding box body 1, and having an output end connected to the second rotating member 16 for driving the second rotating member 16 to move.

In this embodiment, the material collecting member 15 may be a discharging hopper, the elastic member 20 may be a spring or an elastic damping block, the supporting member 21 may be a supporting plate or a supporting block, the knocking member 17 may be a cam or an eccentric impact block, the second rotating member 16 may be a rotating rod, the second driving member 18 may be a driving motor, after the material is sieved by the sieving plate 14, the material may be collected by the material collecting member 15 and discharged out of the grinding box body 1 through the discharging hole 19, in order to improve the discharging efficiency of the material collecting member 15, the second driving member 18 may be opened, the second driving member 18 drives the second rotating member 16 and the knocking member 17 to rotate, so that the knocking member 17 continuously impacts the material collecting member 15, so that the material collecting member 15 vibrates through the elastic member 20, and further the material on the material collecting member 15 is rapidly vibrated, so as to improve the discharging efficiency.

The working mode of the invention is as follows: when the nano materials on the sieving plate 14 need to be ground, the first driving part 7 can be opened, the first driving part 7 drives the third transmission part 9 to rotate, so that the moving part 8 moves outside the third transmission part 9 and drives the grinding roller 11 to roll on the surface of the sieving plate 14, so as to uniformly grind the materials on the sieving plate 14, when the first driving part 7 drives the third transmission part 9 to move, the third transmission part 9 can drive the first transmission part 4 to rotate through the linkage part 6, so that the first transmission part 4 drives the second transmission part 3 to rotate, the second transmission part 3 continuously stirs the two first transmission parts 2 to move towards opposite directions, so that the reciprocating moving part 5 drives the moving part 13 and the sieving plate 14 to reciprocate on the inner wall of the grinding box main body 1, so as to achieve the purpose of rapidly sieving the ground materials on the sieving plate 14, and also can enable the materials to continuously change positions, so that the material can be sufficiently ground by the grinding roller 11;

after the material is sieved by the sieving plate 14, the material is collected by the material collecting part 15 and is discharged out of the grinding box main body 1 through the discharging hole 19, in order to improve the discharging efficiency of the material collecting part 15, the second driving part 18 can be opened, the second driving part 18 drives the second rotating part 16 and the knocking part 17 to rotate, so that the knocking part 17 continuously impacts the material collecting part 15, the material collecting part 15 vibrates through the elastic part 20, and the material on the material collecting part 15 can be rapidly vibrated down, so that the discharging efficiency is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a nano-material grinder, is including grinding case main part, feed port, unloading hole, grinding roller and screening board, and the surface at grinding case main part is all seted up to feed port and unloading hole, its characterized in that, nano-material grinder still includes:

the driving assembly is used for installing the grinding roller and driving the grinding roller to move along the horizontal direction through mechanical transmission; and

and the reciprocating motion structure is arranged on the driving assembly and the grinding box main body and used for installing the screening plate and driving the screening plate to do horizontal reciprocating motion.

2. The nano-material grinding apparatus according to claim 1, wherein the driving assembly comprises:

the mounting piece is used for driving the grinding roller to move;

the moving part is connected to the inner wall of the grinding box main body in a sliding manner and is used for driving the mounting part to move;

the third transmission piece is arranged on the moving piece and used for driving the moving piece to move; and

the first driving piece is arranged on the side surface of the grinding box main body, and the output end of the first driving piece is connected with the third transmission piece and used for driving the third transmission piece to move.

3. The nanomaterial grinder apparatus according to claim 1, wherein the reciprocating structure comprises:

the reciprocating motion assembly is movably connected inside the grinding box main body and is used for driving the screening plate to horizontally reciprocate; and

and the transmission assembly is arranged on the reciprocating motion assembly and the driving assembly and is used for driving the reciprocating motion assembly to move by taking the driving assembly as power input.

4. The nanomaterial grinder apparatus according to claim 3, wherein the reciprocating assembly comprises:

the moving piece is connected to the inner wall of the grinding box main body in a sliding mode, is used for installing the screening plate and is also used for driving the screening plate to move; and

and the reciprocating moving part is connected to the moving part and the transmission assembly and is used for driving the moving part to slide in the grinding box main body.

5. The nano-material grinding apparatus according to claim 4, wherein the driving assembly comprises:

the two groups of first transmission pieces are respectively arranged at two sides of the inner side of the reciprocating moving piece and are used for driving the reciprocating moving piece to move;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move;

the first rotating piece is rotatably connected to the side surface of the grinding box main body and is used for driving the second transmission piece to rotate; and

and the linkage part is arranged on the first rotating part and the driving assembly and is used for driving the first rotating part to move by taking the driving assembly as power input.

6. The nanomaterial milling apparatus according to claim 1, further comprising:

the material collecting piece is connected inside the grinding box main body in a sliding mode, is communicated with the blanking hole and is used for collecting nano materials screened on the screening plate; and

the vibration assembly is arranged on the grinding box main body and the material collecting piece and used for driving the material collecting piece to vibrate through mechanical transmission.

7. The nano-material grinding apparatus according to claim 6, wherein the vibration unit comprises:

the elastic piece is arranged on the side surface of the material collecting piece and is used for driving the material collecting piece to move;

the supporting piece is connected to the inner wall of the grinding box main body and used for supporting the elastic piece;

the knocking piece is used for knocking the collecting piece;

the second rotating part is used for mounting the knocking part and driving the knocking part to rotate; and

and the second driving piece is arranged on the surface of the grinding box main body, and the output end of the second driving piece is connected with the second rotating piece and used for driving the second rotating piece to move.

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