CN214827278U - Graphite conveying device - Google Patents

Abstract

The utility model relates to a graphite field of carrying, more specifically the graphite conveyor that says so. This graphite conveyor can carry out the separation work to grinding graphite ore to can circulate the separation work and increase graphite purity, can concentrate the convenient separation that separates of graphite foam simultaneously. The main function realizing part of the device is provided with a rotating structure, a loading structure and a conveying structure. Wherein rotating-structure sets up in loading structure top, rotating-structure and loading structure fixed connection, and transport structure sets up at the loading structure rear side, transport structure and loading structure fixed connection. The rotating structure mainly separates graphite foam from impurities; the loading structure is mainly responsible for loading mixed solution containing graphite components and can perform a fixing and supporting function on other working structures; the conveying structure mainly conveys various materials related to the conveying device in order, and can realize the circulating separation work of graphite.

Description

Graphite conveying device

Technical Field

The utility model relates to a graphite field of carrying, more specifically the graphite conveyor that says so.

Background

For example, publication number CN201389552, the utility model is a high-efficiency graphite conveying device in aluminum casting and rolling production. It is characterized in that a motor for stirring and a clean water pump for supplying the graphite liquid are arranged in the graphite liquid container. The graphite liquid adding port is added above the graphite liquid container, and the adding port is provided with a filter screen for filtering the graphite liquid. The high-efficiency graphite conveying device in the aluminum casting and rolling production of the utility model reduces the running noise of the device, and the noise is reduced from eighty decibels to fifty decibels; the graphite liquid container is changed from a pressure container to a common container, so that the operability is improved, the wind leakage is avoided, the graphite liquid leakage is reduced, and the operation environment and the site sanitation are improved. And the graphite liquid is subjected to primary filtration by a filter screen at an addition port, and secondary filtration is performed at a suction inlet of a clean water pump, so that coarse particles and impurities in the graphite liquid are removed, the blockage is effectively reduced, the stability and uniformity of graphite spraying lubrication are improved, the service life of a casting roller is prolonged, and the quality of a casting and rolling slab is improved. But the graphite conveying device cannot perform the circulation separation work to increase the purity of graphite.

Disclosure of Invention

The utility model aims at providing a graphite conveyor can carry out circulation separation work and increase graphite purity.

The purpose of the utility model is realized through the following technical scheme:

the main function realization part of the graphite conveying device comprises a rotating structure, a loading structure and a conveying structure. Wherein rotating-structure sets up in loading structure top, rotating-structure and loading structure fixed connection, and transport structure sets up at the loading structure rear side, transport structure and loading structure fixed connection.

The rotation structure of the graphite conveying device mainly comprises a connecting rod, a rotation shaft and a rotation baffle. Wherein the connecting rod is provided with two, and the axis of rotation setting is in the middle of two connecting rods, and the axis of rotation is connected with two connecting rods rotations. The rotating baffle is provided with threely, and three rotating baffle all sets up in the axis of rotation, and three rotating baffle all with axis of rotation fixed connection.

The loading structure of the graphite conveying device mainly comprises a solution pool, a collecting tank, a sending-out pipeline and a foam sending structure. The collecting groove is arranged on the front side of the solution pool, the collecting groove is fixedly connected with the solution pool, the two connecting rods are respectively arranged on two sides of the solution pool, and the two connecting rods are fixedly connected with the solution pool. The delivery pipeline is arranged on the collecting tank and is fixedly connected with the collecting tank. The foam feeding structure is arranged in the solution pool and is fixedly connected with the solution pool.

The conveying structure of the graphite conveying device mainly comprises a washing water pipe, a circulating pipeline, a feeding pipeline, a shunting device and a conveying pipeline. Wherein wash water pipe and circulating line all set up on the collecting vat, wash water pipe and circulating line all with collecting vat fixed connection. The feeding pipeline is arranged at the rear side of the solution tank and is fixedly connected with the solution tank. The flushing water pipe, the circulating pipeline and the feeding pipeline are all arranged on the flow dividing device and are fixedly connected with the flow dividing device. The conveying pipeline is arranged above the flow dividing device and fixedly connected with the flow dividing device.

The utility model relates to a graphite conveyor's beneficial effect does:

this graphite conveyor can carry out the separation work to grinding graphite ore to can circulate the separation work and increase graphite purity, can concentrate the convenient separation that separates of graphite foam simultaneously. This device can carry out fine collection processing and circulation separation work to graphite foam to can avoid graphite foam to appear in solution tank and the phenomenon of piling up of collecting vat, send thereby the separation work that the foam structure can also assist the rotating-structure to accelerate work efficiency. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure and strong flexibility, and can be put into practical production and use.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 shows schematically the overall structure of the invention in a perspective view;

fig. 2 schematically shows a turning structure of the present invention in a perspective view;

figure 3 shows schematically in a perspective view a loading structure of the invention;

fig. 4 shows schematically in a perspective view a conveying structure according to the invention;

fig. 5 shows schematically in a perspective view a rear view of the device of the invention;

fig. 6 shows schematically in a perspective view a foam feeding structure of the present invention;

fig. 7 shows schematically in a perspective view an apparatus according to the invention in operation.

In the figure: a rotating structure 11; a loading structure 12; a conveying structure 13; a connecting rod 21; a rotating shaft 22; the rotating shutter 23; a solution tank 31; a collection tank 32; a delivery duct 33; a foam delivery structure 34; a flushing water pipe 41; a circulation line 42; a feed line 43; a flow diversion device 44; a delivery duct 45.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

According to the utility model relates to a graphite conveying device, the embodiment combines and is shown in fig. 1 to 7, can see among them:

this graphite conveyor can carry out the separation work to grinding graphite ore to can circulate the separation work and increase graphite purity, can concentrate the convenient separation that separates of graphite foam simultaneously. The main function realization parts of the device are a rotating structure 11, a loading structure 12 and a conveying structure 13. Wherein rotating structure 11 sets up above loading structure 12, and rotating structure 11 and loading structure 12 fixed connection, transport structure 13 set up the rear side at loading structure 12, and transport structure 13 and loading structure 12 fixed connection. The rotating structure 11 mainly separates the graphite foam from impurities, and can skim the graphite foam above the liquid level in the solution tank 31 into the collecting tank 32; the loading structure 12 is mainly responsible for loading a mixed solution containing graphite components and can perform a fixing and supporting function on other working structures; conveying structure 13 mainly carries out the conveying work in order to the all kinds of materials that this device carried and relates to can realize the circulation separation work to graphite.

The rotating structure 11 of the graphite conveying device mainly comprises a connecting rod 21, a rotating shaft 22 and a rotating baffle 23. Wherein the connecting rods 21 are provided with two, the rotating shaft 22 is arranged between the two connecting rods 21, and the rotating shaft 22 is rotatably connected with the two connecting rods 21. The rotating baffle plates 23 are arranged in three numbers, the three rotating baffle plates 23 are arranged on the rotating shaft 22, and the three rotating baffle plates 23 are fixedly connected with the rotating shaft 22. The rotating structure 11 as a whole can be understood as a froth skimming structure, and the rotating structure 11 mainly drives the three rotating baffles 23 to perform the rotating froth skimming operation through the rotating motion of the rotating shaft 22 relative to the connecting rod 21.

The loading structure 12 of the graphite conveying device is mainly responsible for loading the mixed solution containing graphite components and can perform a fixing and supporting function on other working structures. The loading structure 12 mainly comprises a solution tank 31, a collecting tank 32, a delivery pipe 33 and a foam delivery structure 34. Wherein collecting vat 32 sets up in solution pond 31 front side, collecting vat 32 and solution pond 31 fixed connection, and two connecting rods 21 set up respectively in the both sides of solution pond 31, and two connecting rods 21 all with solution pond 31 fixed connection. A delivery line 33 is arranged on the collecting gutter 32, the delivery line 33 being fixedly connected to the collecting gutter 32. The foam feeding structure 34 is arranged in the solution tank 31, and the foam feeding structure 34 is fixedly connected with the solution tank 31. Generally, after the graphite ore is crushed and ground, a proper amount of water and oil is added to the ore and ground on a rotary milling machine, and the resulting ore solution is introduced into the solution tank 31. The graphite molecules in the ore solution adhere to the bubbles and float on the upper surface of the ore solution, and are separated by the rotating structure 11. The collecting groove 32 can collect the graphite foam separated from the solution tank 31, when the graphite foam enters the collecting groove 32, the washing water continuously sprayed out from one side of the collecting groove 32 pushes the graphite foam into the circulating pipeline 42, so that the graphite foam enters the solution tank 31 again for separation, after the separation work for multiple times, the collecting groove 32 is closed to be connected with the circulating pipeline 42, the opening of the sending-out pipeline 33 is opened, and the high-purity graphite is conveyed to a subsequent structure. Because rotating-structure 11 carries out the skimming work with graphite foam to one side of solution pond 31, can make the graphite foam of opposite side form and pile up, send foam structure 34 at this moment to promote work with floating foam to rotating-structure 11 working range to accelerate work efficiency.

This graphite conveyor's transport structure 13 mainly carries out the orderly conveying work to the all kinds of materials that this device carried to can realize the circulation separation work to graphite. The conveying structure 13 mainly comprises a flushing water pipe 41, a circulating pipeline 42, a feeding pipeline 43, a flow dividing device 44 and a conveying pipeline 45. Wherein, the flushing water pipe 41 and the circulating pipeline 42 are both arranged on the collecting tank 32, and the flushing water pipe 41 and the circulating pipeline 42 are both fixedly connected with the collecting tank 32. The feeding pipeline 43 is arranged at the rear side of the solution tank 31, and the feeding pipeline 43 is fixedly connected with the solution tank 31. The flushing water pipe 41, the circulating pipeline 42 and the feeding pipeline 43 are all arranged on the flow dividing device 44, and the flushing water pipe 41, the circulating pipeline 42 and the feeding pipeline 43 are all fixedly connected with the flow dividing device 44. The conveying pipeline 45 is arranged above the flow dividing device 44, and the conveying pipeline 45 is fixedly connected with the flow dividing device 44. Wash water pipe 41 mainly washes the work in to the collecting vat, prevents to pile up too much graphite foam in the collecting vat on the one hand, and on the other hand pushes away graphite foam and carries the work in getting into subsequent pipeline. The circulation pipe 42 can re-feed the graphite foam subjected to certain separation work to the solution tank 31, thereby performing circulation separation work to obtain high-purity graphite. Conveying pipe 45 carries ore solution, washing water respectively to diverging device 44 in, and the work of shunting is carried to diverging device 44 inside again, carries ore solution and graphite foam to solution tank 31 in to the realization is carried the work to the separation of graphite.

This graphite conveyor can carry out the separation work to grinding graphite ore to can circulate the separation work and increase graphite purity, can concentrate the convenient separation that separates of graphite foam simultaneously. This device can carry out fine collection processing and circulation separation work to graphite foam to can avoid graphite foam to appear in solution tank 31 and the phenomenon of piling up of collecting vat 32, send thereby the separation work that foam structure 34 can also assist rotation structure 11 to accelerate work efficiency. In conclusion, the device has the advantages of simple working principle, practical and reliable integral structure and strong flexibility, and can be put into practical production and use.

Claims (10)

1. A graphite conveying device comprises a rotating structure (11), a loading structure (12) and a conveying structure (13), and is characterized in that: the rotating structure (11) is arranged above the loading structure (12), and the conveying structure (13) is arranged on the rear side of the loading structure (12).

2. A graphite transfer unit as claimed in claim 1, wherein: the rotating structure (11) comprises two connecting rods (21) and two rotating shafts (22), and the rotating shafts (22) are arranged between the two connecting rods (21).

3. A graphite transfer unit as claimed in claim 2, wherein: the rotating structure (11) further comprises three rotating baffles (23), and the three rotating baffles (23) are arranged on the rotating shaft (22).

4. A graphite transfer unit as claimed in claim 3, wherein: the loading structure (12) comprises a solution pool (31) and a collecting tank (32), wherein the collecting tank (32) is arranged on the front side of the solution pool (31), and two connecting rods (21) are respectively arranged on two sides of the solution pool (31).

5. A graphite transfer device according to claim 4, wherein: the loading structure (12) further comprises a delivery pipeline (33), and the delivery pipeline (33) is arranged on the collecting tank (32).

6. A graphite transfer device according to claim 5, wherein: the loading structure (12) further comprises a foam conveying structure (34).

7. A graphite transfer unit as claimed in claim 6, wherein: the conveying structure (13) comprises a washing water pipe (41) and a circulating pipeline (42), and the washing water pipe (41) and the circulating pipeline (42) are both arranged on the collecting tank (32).

8. A graphite transfer unit as claimed in claim 7, wherein: the conveying structure (13) further comprises a feeding pipeline (43), and the feeding pipeline (43) is arranged on the rear side of the solution tank (31).

9. A graphite transfer unit as claimed in claim 8, wherein: the conveying structure (13) further comprises a flow dividing device (44), and the flushing water pipe (41), the circulating pipeline (42) and the feeding pipeline (43) are all arranged on the flow dividing device (44).

10. A graphite transfer unit as claimed in claim 9, wherein: the conveying structure (13) further comprises a conveying pipeline (45), and the conveying pipeline (45) is arranged above the flow dividing device (44).

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