CN215389976U - High-efficient edulcoration auxiliary device is used in graphite alkene preparation - Google Patents

Abstract

The utility model discloses a high-efficiency impurity removal auxiliary device for graphene preparation, which comprises a blanking hopper, an electromagnetic block, a blanking plate, a cam and an axial flow fan, wherein the blanking plate is arranged at the lower end in the blanking hopper, mounting grooves are formed in both ends of the bottom of the blanking hopper, the cam is arranged at the bottom of the blanking hopper and between the mounting grooves, the edge of the cam is attached to the bottom of the blanking plate, springs are arranged between both ends of the bottom of the blanking plate and the mounting grooves, and the top and the bottom of each spring are respectively connected with the bottom of the blanking plate and the inner wall of the blanking hopper in a welding mode. The utility model has the advantages of obvious effect, simple operation, durability, capability of meeting the working requirement and suitability for general popularization.

Description

High-efficient edulcoration auxiliary device is used in graphite alkene preparation

Technical Field

The utility model relates to the technical field of graphene preparation, in particular to a high-efficiency impurity removal auxiliary device for graphene preparation.

Background

Graphene is one of the materials with the highest known strength, and meanwhile, the graphene has good toughness and good tensile resistance, and is widely applied to the fields of mobile equipment, aerospace, new energy batteries and the like, the usage amount is gradually increased, a graphene preparation device needs to be used for producing graphene, but the existing graphene preparation device does not have a device for auxiliary blanking, and the processing efficiency is low.

Patent No. CN 201922047476.1's utility model discloses a graphite alkene processing equipment, include the mixing box and peel off the case, the mixing box with peel off through the pipe connection between the case, be equipped with rabbling mechanism and actuating mechanism in the mixing box, the rabbling mechanism is including being located the power rod of vertical setting in mixing box top and the (mixing) shaft that is located the horizontal setting of mixing box bottom, the power rod is hollow structure, and it is from last to being equipped with auxiliary agent import, first conical gear, bearing frame, crushing blade, auxiliary agent spray lance and stirring helping hand down in proper order, actuating mechanism includes driving motor, output lever, second conical gear, drive belt and support frame. The utility model has the advantages that: carry out power drive through same motor for the material when the bottom stirring of mixing box, its horizontal stirring speed is unanimous with vertical stirring speed, and the stirring is more even, and the material fuses sooner.

Some disadvantages of the graphene processing equipment are as follows: 1. the vibration type feeding device does not have the function of feeding the raw materials in a vibration mode, and the raw materials cannot be conveyed smoothly and uniformly; 2. the magnetic separation function of magnetic metal impurities such as iron chips in the raw materials is not realized; 3. it does not have a function of adsorbing dust shaken up from the raw material. Therefore, we propose a high-efficient edulcoration auxiliary device is used in graphite alkene preparation.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an efficient impurity removal auxiliary device for graphene preparation, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a graphite alkene preparation is with high-efficient edulcoration auxiliary device, includes hopper, electromagnetism piece, lower flitch, cam and axial fan down, the inside lower extreme of hopper sets up down the flitch down, the mounting groove has all been seted up at hopper bottom both ends down, hopper bottom just is located and is provided with the cam between the mounting groove down, the edge of cam and the bottom laminating of flitch down, all be provided with the spring between lower flitch bottom both ends and the mounting groove, spring top and bottom link to each other with the bottom of lower flitch and the inner wall welding of hopper down respectively.

Furthermore, an axial flow fan is arranged at the upper end of one side of the blanking hopper, an installation frame is arranged at one side of the blanking hopper, a fine hole screen plate is arranged at one side of the installation frame through bolts, air holes are formed in the other side of the installation frame, and the axial flow fan is installed inside the installation frame through screws; axial fan can be adsorbed by the dust impurity in the raw materials that trembles, and the even numerous tiny pores on the pore otter board can block the particle raw materials of graphite alkene, and the tiny dust of particle diameter then can pass through the pore otter board, and then the realization is to the absorption of dust material.

Furthermore, a synchronous motor is arranged on one side of the blanking hopper and at the lower end of the axial flow fan, an output shaft of the synchronous motor is connected with the cam, an air switch is arranged at one end of the synchronous motor, and a current output end of the air switch is electrically connected with a current input end of the synchronous motor through a lead; the synchronous motor can drive the cam to rotate, and the air switch can automatically cut off the power supply when the synchronous motor runs in an overload state, so that the safety is improved.

Further, the blanking plate is obliquely arranged inside the blanking hopper; the obliquely installed blanking plate is convenient for the movement of the graphene raw material.

Furthermore, an electromagnetic block is mounted at the top in the blanking hopper through a screw, and one side of the electromagnetic block is connected with an external power line; personnel's accessible external power cord switches on electromagnetic block and external power source, and then makes the electromagnetic block characteristics and release magnetic attraction.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the efficient impurity removal auxiliary device for graphene preparation, disclosed by the utility model, the cam can be driven to rotate through the synchronous motor, and can drive the blanking plate to shake continuously and indirectly, so that the material on the blanking plate is shaken, the effect of carrying out vibration type conveying on the raw material is achieved, and the raw material can move uniformly.

2. According to the efficient impurity removal auxiliary device for graphene preparation, the air switch can automatically cut off a power supply when a synchronous motor runs in an overload state, and safety is improved.

3. According to the efficient impurity removal auxiliary device for graphene preparation, disclosed by the utility model, through the electromagnetic block, personnel are communicated with an external power supply through an external power line, so that the electromagnetic block is electrified to release magnetic attraction, and magnetic metal impurities in raw materials can be adsorbed.

4. According to the efficient impurity removal auxiliary device for graphene preparation, disclosed by the utility model, through the axial flow fan, the axial flow fan can adsorb dust impurities in raw materials, the fine-hole screen plate can prevent crushed raw materials of graphene from passing through, and dust with a small particle size can pass through the fine-hole screen plate, so that the dust substances are adsorbed.

Drawings

Fig. 1 is a schematic overall structure diagram of an efficient impurity removal auxiliary device for graphene preparation according to the present invention.

Fig. 2 is a side view of the efficient impurity removal auxiliary device for graphene preparation according to the present invention.

Fig. 3 is a schematic structural view of an installation frame and an axial flow fan of the efficient impurity removal auxiliary device for graphene preparation.

Fig. 4 is a schematic structural diagram of a position a in fig. 1 of the efficient impurity removal auxiliary device for graphene preparation according to the present invention.

In the figure: 1. feeding a hopper; 2. an electromagnetic block; 3. a blanking plate; 4. a spring; 5. a cam; 6. connecting a power line externally; 7. a synchronous motor; 8. an air switch; 9. a wire; 10. an axial flow fan; 11. installing a frame; 12. a fine mesh net plate; 13. air holes are formed; 14. and (4) mounting the groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-4, a graphene preparation is with high-efficient edulcoration auxiliary device, including hopper 1, electromagnetism piece 2, lower flitch 3, cam 5 and axial fan 10 down, flitch 3 is down set up to the inside lower extreme of hopper 1 down, mounting groove 14 has all been seted up at 1 bottom both ends of lower hopper, 1 bottom of lower hopper just is located and is provided with cam 5 between the mounting groove 14, the edge of cam 5 and the bottom laminating of lower flitch 3, all be provided with spring 4 between 3 bottom both ends of lower flitch and the mounting groove 14, spring 4 top and bottom link to each other with the bottom of lower flitch 3 and the inner wall welding of lower hopper 1 respectively.

The upper end of one side of the blanking hopper 1 is provided with an axial flow fan 10, one side of the blanking hopper 1 is provided with an installation frame 11, one side of the installation frame 11 is provided with a fine pore screen plate 12 through a bolt, the other side of the installation frame 11 is provided with an air hole 13, and the axial flow fan 10 is installed inside the installation frame 11 through a screw; axial fan 10 can be adsorbed by the dust impurity in the raw materials that is trembled, and even numerous tiny pores on the pore otter board 12 can block the broken grain raw materials of graphite alkene, and the tiny dust of particle diameter then can pass through pore otter board 12, and then the realization is to the absorption of dust material.

The device comprises a hopper 1, an axial flow fan 10, a synchronous motor 7, a cam 5, an air switch 8, a current output end of the air switch 8 and a current input end of the synchronous motor 7, wherein the synchronous motor 7 is arranged on one side of the hopper 1 and at the lower end of the axial flow fan 10; the synchronous motor 7 can drive the cam 5 to rotate, and the air switch 8 can automatically cut off the power supply when the synchronous motor 7 runs in an overload state, so that the safety is improved.

Wherein, the blanking plate 3 is obliquely arranged inside the blanking hopper 1; the obliquely installed blanking plate 3 facilitates movement of the graphene raw material.

The top in the blanking hopper 1 is provided with an electromagnetic block 2 through a screw, and one side of the electromagnetic block 2 is connected with an external power line 6; personnel's accessible external power cord 6 switches on electromagnetic block 2 and external power supply, and then makes 2 characteristics of electromagnetic block and release magnetic attraction.

It should be noted that, the utility model is a high-efficiency impurity removal auxiliary device for graphene preparation, when in use, a person turns on a synchronous motor 7 and an air switch 8, the synchronous motor 7 can drive a cam 5 to rotate, when a convex part at the edge of the cam 5 is abutted against a blanking plate 3, the blanking plate 3 is slightly moved under stress, the blanking plate 3 can be slightly bounced through buffering of a spring 4, when the convex part at the edge of the cam 5 is far away from the blanking plate 3, the blanking plate 3 is immediately restored to the original position, the cam 5 continuously rotates to drive the blanking plate 3 to continuously and indirectly shake, so as to shake materials on the blanking plate 3, thereby achieving the effect of vibrating conveying the materials, enabling the materials to uniformly move without blocking a blanking port, and the air switch 8 can automatically cut off a power supply when the synchronous motor 7 runs in an overload state, improve the security, it is further, personnel are with external power supply line 6 and external power switch-on, make electromagnetism piece 2 release magnetic attraction, can adsorb the magnetic metal impurity in the raw materials that is trembled, and simultaneously, axial fan 10 can adsorb the dust impurity in the raw materials that is trembled, in this is novel, even numerous tiny hole on the pore otter board 12, can block the broken grain raw materials process of graphite alkene, and the small dust of particle diameter then can pass through pore otter board 12, and then realize the absorption to the dust material.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a graphite alkene preparation is with high-efficient edulcoration auxiliary device, includes hopper (1), electromagnetism piece (2), lower flitch (3), cam (5) and axial fan (10) down, its characterized in that: flitch (3) under hopper (1) inside lower extreme sets up, mounting groove (14) have all been seted up at hopper (1) bottom both ends down, hopper (1) bottom just is located and is provided with cam (5) between mounting groove (14) down, the edge of cam (5) and the bottom laminating of flitch (3) down, all be provided with spring (4) between flitch (3) bottom both ends and mounting groove (14) down, spring (4) top and bottom link to each other with the bottom of flitch (3) down and the inner wall welding of hopper (1) down respectively.

2. The efficient impurity removal auxiliary device for graphene preparation according to claim 1, characterized in that: the upper end of one side of the lower hopper (1) is provided with an axial flow fan (10), one side of the lower hopper (1) is provided with an installation frame (11), one side of the installation frame (11) is provided with a fine hole screen plate (12) through a bolt, the other side of the installation frame (11) is provided with a vent hole (13), and the axial flow fan (10) is installed in the installation frame (11) through a screw.

3. The efficient impurity removal auxiliary device for graphene preparation according to claim 1, characterized in that: one side of the discharging hopper (1) and the lower end of the axial flow fan (10) are provided with a synchronous motor (7), the output shaft of the synchronous motor (7) is connected with the cam (5), one end of the synchronous motor (7) is provided with an air switch (8), and the current output end of the air switch (8) is electrically connected with the current input end of the synchronous motor (7) through a lead (9).

4. The efficient impurity removal auxiliary device for graphene preparation according to claim 1, characterized in that: the blanking plate (3) is obliquely arranged in the blanking hopper (1).

5. The efficient impurity removal auxiliary device for graphene preparation according to claim 1, characterized in that: the top passes through screw installation electromagnetism piece (2) in hopper (1) down, external power cord (6) are connected to electromagnetism piece (2) one side.

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