CN218423144U - Cultivate diamond micropowder ball mill for diamond production - Google Patents

Abstract

The utility model discloses a cultivate diamond micropowder ball mill for diamond production, including support, ball-milling mechanism, feed mechanism includes the fixed axle, and fixed axle fixed mounting is on the coarse grinding section of thick bamboo inner wall, and the fixed axle is provided with a plurality ofly along the corase grinding section of thick bamboo axis direction, and the axis direction be a set of, and the fixed axle is installed rotatable commentaries on classics board, changes the board and passes through torsional spring with the fixed axle and is connected. The motor drives the coarse grinding cylinder and the fine grinding cylinder to rotate relatively, the distributing mechanism installed in the coarse grinding cylinder is made to rotate, the distributing mechanism pushes the diamond material and the grinding balls to move, the rotating plate of the distributing mechanism is connected with the fixed shaft through the torsion spring, so that the material with the weight larger than the torsion force can be left, the grinding balls with a certain height are made to fall and then the diamond is smashed and ground, the diamond is subjected to micro powder treatment, the material meeting the grinding requirement falls into the fine grinding cylinder, fine grinding is carried out, the obstruction of the material meeting the grinding requirement on the grinding balls is reduced, and the overall efficiency of processing is improved.

Description

Cultivate diamond micropowder ball mill for diamond production

Technical Field

The utility model relates to a cultivate diamond production and use diamond miropowder ball-milling field, especially relate to a cultivate diamond production and use diamond miropowder ball mill.

Background

The ball mill is the key equipment for crushing the materials after the materials are crushed. This type of mill is provided with a number of steel balls as grinding media in the barrel. It is widely used in the production industries of cement, silicate products, novel building materials, refractory materials, chemical fertilizers, black and non-ferrous metal ore dressing, glass ceramics and the like to carry out dry or wet grinding on various ores and other grindable materials. The ball mill is suitable for grinding various ores and other materials, is widely used in the industries of mineral separation, building materials, chemical industry and the like, and can be divided into a dry type ore grinding mode and a wet type ore grinding mode.

Most of the existing ball mills grind materials in a cylinder, the working mode of the ball mill enables the diamond micropowder meeting the grinding requirement and the diamond which does not meet the grinding requirement to be processed in a processing environment, the diamond micropowder meeting the grinding requirement in the processing process can play a certain role in hindering the falling grinding balls, and the whole grinding efficiency is slowed down.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a diamond micropowder ball mill for diamond production.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a diamond micropowder ball mill for cultivating diamond production comprises a bracket, a ball milling mechanism and a material distributing mechanism;

the ball milling mechanism comprises a fine milling cylinder, the fine milling cylinder is rotatably mounted on the support, a coarse milling cylinder is coaxially arranged inside the fine milling cylinder, the fine milling cylinder and the coarse milling cylinder rotate relative to each other, and through holes are uniformly formed in the coarse milling cylinder; a fine grinding ball is arranged between the coarse grinding cylinder and the fine grinding cylinder, the coarse grinding ball is arranged in the coarse grinding cylinder, one end of the coarse grinding cylinder is fixedly provided with a feed pipe, the feed pipe is provided with a fixed gear, an internal gear is fixedly arranged on the fine grinding cylinder on the same side as the coarse grinding ball, and the internal gear is far away from the central position; the other end of the coarse grinding cylinder is provided with a fixed cover, the fixed cover is fixedly connected with the bracket through a fixed plate, the fixed cover is rotatably connected with the coarse grinding cylinder, and the fixed cover is rotatably connected with the fine grinding ball;

the feed mechanism includes the fixed axle, fixed axle fixed mounting be in on the rough grinding section of thick bamboo inner wall, the fixed axle is followed rough grinding section of thick bamboo axis direction is provided with a plurality ofly, the axis direction be a set of, the fixed axle is installed rotatable commentaries on classics board, change the board with the fixed axle passes through torsional spring coupling.

Preferably: three groups of distributing mechanisms are uniformly distributed on the inner wall of the rough grinding cylinder.

Preferably: and baffles are arranged on symmetrical surfaces which are symmetrical up and down between the rough grinding cylinder and the fine grinding cylinder, and the baffles are fixedly arranged on the fixed cover.

Preferably: a power mechanism is arranged on one side of the feeding pipe and comprises a motor, and the motor is fixedly arranged at the upper end of the bracket; and a transmission gear is mounted at the output end of the motor and meshed with the internal gear and the fixed gear.

Preferably: and a dust removal mechanism is arranged on one side of the fixed cover and comprises a dust suction box, the dust suction box is fixedly arranged at the upper end of the support, and the dust suction box is communicated with the fixed cover through a dust suction pipe.

Preferably: and a discharge hole is formed in the fine grinding cylinder.

Preferably: a filter screen is arranged between the discharge port and the fine grinding cylinder.

Preferably: the coarse grinding balls and the fine grinding balls are provided with a plurality of grinding balls, and the diameters of the grinding balls are different.

Has the advantages that: the motor drives the coarse grinding cylinder and the fine grinding cylinder to rotate relatively, the distributing mechanism installed in the coarse grinding cylinder is made to rotate, the distributing mechanism pushes the diamond material and the grinding balls to move, the rotating plate of the distributing mechanism is connected with the fixed shaft through the torsion spring, so that the material with the weight larger than the torsion force can be left, the grinding balls with a certain height are made to fall and then the diamond is smashed and ground, the diamond is subjected to micro powder treatment, the material meeting the grinding requirement falls into the fine grinding cylinder, fine grinding is carried out, the obstruction of the material meeting the grinding requirement on the grinding balls is reduced, and the overall efficiency of processing is improved.

Drawings

FIG. 1 is a schematic spatial perspective view of a diamond micro powder ball mill for producing cultured diamonds according to the present invention;

FIG. 2 is a front view of the diamond micro powder ball mill for producing diamond according to the present invention;

figure 3 is the right side view of the diamond micropowder ball mill for producing the diamond of the utility model.

Fig. 4 isbase:Sub>A full sectional view ofbase:Sub>A-base:Sub>A in fig. 3 of the diamond micropowder ball mill for diamond production according to the present invention.

Figure 5 is a rear view of the diamond micropowder ball mill for diamond production according to the utility model.

Fig. 6 is a full sectional view of the position B-B in fig. 5 of the diamond micropowder ball mill for diamond production according to the present invention.

Figure 7 is a connecting diagram of a material distributing mechanism of a diamond micro powder ball mill for cultivating diamond production.

The reference numerals are explained below:

1. a support; 2. a ball milling mechanism; 201. finely grinding the cylinder; 202. roughly grinding the cylinder; 203. finely grinding the balls; 204. coarse grinding balls; 205. a fixed cover; 206. a baffle plate; 207. a feeding pipe; 3. a material distribution mechanism; 301. a fixed shaft; 302. rotating the plate; 4. a power mechanism; 401. a motor; 402. a transmission gear; 5. a dust removal mechanism; 501. a dust collection pipe; 502. a dust collection box.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-7, a diamond micropowder ball mill for producing cultured diamonds comprises a support 1, a ball milling mechanism 2 and a material distribution mechanism 3;

the ball milling mechanism 2 comprises a fine milling cylinder 201, the fine milling cylinder 201 is rotatably mounted on the bracket 1, a coarse milling cylinder 202 is coaxially arranged in the fine milling cylinder 201, the fine milling cylinder 201 and the coarse milling cylinder 202 rotate relatively, and through holes are uniformly formed in the coarse milling cylinder 202; a fine grinding ball 203 is arranged between the coarse grinding cylinder 202 and the fine grinding cylinder 201, the coarse grinding ball 204 is arranged in the coarse grinding cylinder 202, one end of the coarse grinding cylinder 202 is fixedly provided with a feed pipe 207, the feed pipe 207 is provided with a fixed gear, an internal gear is fixedly arranged on the fine grinding cylinder 201 on the same side as the coarse grinding ball 204, and the internal gear is far away from the central position; the other end of the coarse grinding cylinder 202 is provided with a fixed cover 205, the fixed cover 205 is fixedly connected with the bracket 1 through a fixed plate, the fixed cover 205 is rotatably connected with the coarse grinding cylinder 202, and the fixed cover 205 is rotatably connected with the fine grinding ball 203; in the processing process, the fine grinding cylinder 201 and the coarse grinding cylinder 202 rotate relatively, so that materials meeting the grinding requirements can be divided into the fine grinding cylinder 201, and the materials meeting the grinding requirements are prevented from playing a processing blocking role;

feed mechanism 3 includes fixed axle 301, fixed axle 301 fixed mounting is on coarse grinding section of thick bamboo 202 inner wall, fixed axle 301 is provided with a plurality ofly along coarse grinding section of thick bamboo 202 axis direction, the axis direction is a set of, rotatable commentaries on classics board 302 is installed to fixed axle 301, commentaries on classics board 302 passes through torsional spring with fixed axle 301 and is connected, feed mechanism 3 follows coarse grinding section of thick bamboo 202 and rotates, make feed mechanism 3's commentaries on classics board 302 can drive material and grinding ball and remove, because commentaries on classics board 302 and fixed axle 301 pass through torsional spring coupling, commentaries on classics board 302 can leave the material that the weight of material is greater than torsion, make grinding ball remove and drop and process to it after the take the altitude, can drop to the fine grinding section of thick bamboo 201 from the through-hole of coarse grinding section of thick bamboo 202 after material processing is accomplished, reduce the material that reaches the grinding requirement and to the hindrance of grinding ball, improve the overall efficiency of processing.

In this embodiment: three groups of distributing mechanisms 3 are uniformly distributed on the inner wall of the rough grinding cylinder 202, so that the grinding balls can fall down to damage the distributing mechanisms 3, and the service life of the device is prolonged.

In this embodiment: the baffle 206 is arranged on the vertical symmetrical surface between the rough grinding cylinder 202 and the fine grinding cylinder 201, and the baffle 206 is fixedly arranged on the fixed cover 205 and can prevent the material in the fine grinding cylinder 201 from falling into the rough grinding cylinder 202 from the upside of the rough grinding cylinder 202 due to the rotation inertia.

In this embodiment: one side of the feeding pipe 207 is provided with a power mechanism 4, the power mechanism 4 comprises a motor 401, and the motor 401 is fixedly arranged at the upper end of the bracket 1; the output end of the motor 401 is provided with a transmission gear 402, the transmission gear 402 is meshed with an internal gear and a fixed gear, power is provided for the relative rotation of the rough grinding cylinder 202 and the fine grinding cylinder 201, and the manual labor is reduced.

In this embodiment: one side of fixed lid 205 is provided with dust removal mechanism 5, and dust removal mechanism 5 includes dust collection box 502, and dust collection box 502 fixed mounting is in support 1 upper end, and dust collection box 502 and fixed lid 205 pass through dust absorption pipe 501 intercommunication, prevent that the dust that produces from causing the harm to the human body in the course of working, improve the environmental protection efficiency of device.

In this embodiment: the fine grinding cylinder 201 is provided with a discharge hole, and materials which can be processed can be taken out.

In this embodiment: a filter screen is arranged between the discharge port and the fine grinding cylinder 201, so that the material which meets the processing requirement can be prevented from flowing out, and the quality of the material is improved.

In this embodiment: the coarse grinding balls 204 and the fine grinding balls 203 are arranged in a plurality of numbers, and the diameters are different, so that the processing dead angle is reduced, and the processing efficiency is improved.

In the structure, firstly, a material is put into the rough grinding cylinder 202 from the feeding pipe 207, then the motor 401 is started, the fine grinding cylinder 201 and the rough grinding cylinder 202 rotate relatively through gear meshing transmission, the rough grinding cylinder 202 drives the material distribution mechanism 3 to rotate, so that the rotating plate 302 of the material distribution mechanism 3 can drive the material and the grinding balls to move, because the rotating plate 302 is connected with the fixed shaft 301 through the torsion spring, the rotating plate 302 can leave the material with the weight larger than the torsion force, the smaller material moves along with the rotating plate 302 and falls into the fine grinding cylinder 201 from the through hole of the rough grinding cylinder 202, when the rotating plate 302 drives the grinding balls to move to a certain height, the grinding balls fall down and carry out cyclic reciprocating processing on the material below, the material is processed to fall into the fine grinding cylinder 201 from the through hole of the rough grinding cylinder 202, the fine grinding balls 203 in the fine grinding cylinder 201 carry out fine grinding processing on the material, while the material in the cylinder can generate a large amount of dust in the processing process, and the dust generated by the material in the cylinder can be sucked out from the discharging hole through the dust removing mechanism 5.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a cultivate diamond micropowder ball mill for diamond production which characterized in that: comprises a bracket (1), a ball milling mechanism (2) and a material distributing mechanism (3);

the ball milling mechanism (2) comprises a fine milling cylinder (201), the fine milling cylinder (201) is rotatably mounted on the support (1), a coarse milling cylinder (202) is coaxially arranged inside the fine milling cylinder (201), the fine milling cylinder (201) and the coarse milling cylinder (202) relatively rotate, and through holes are uniformly formed in the coarse milling cylinder (202); a fine grinding ball (203) is arranged between the coarse grinding cylinder (202) and the fine grinding cylinder (201), a coarse grinding ball (204) is arranged in the coarse grinding cylinder (202), a feeding pipe (207) is fixedly installed at one end of the coarse grinding cylinder (202), a fixed gear is installed on the feeding pipe (207), an internal gear is fixedly installed on the fine grinding cylinder (201) on the same side of the coarse grinding ball (204), and the internal gear is far away from the central position; the other end of the rough grinding cylinder (202) is provided with a fixed cover (205), the fixed cover (205) is fixedly connected with the bracket (1) through a fixed plate, the fixed cover (205) is rotatably connected with the rough grinding cylinder (202), and the fixed cover (205) is rotatably connected with the fine grinding ball (203);

feed mechanism (3) are including fixed axle (301), fixed axle (301) fixed mounting is in on the coarse grinding section of thick bamboo (202) inner wall, fixed axle (301) are followed coarse grinding section of thick bamboo (202) axis direction is provided with a plurality ofly, the axis direction be a set of, rotatable commentaries on classics board (302) is installed to fixed axle (301), change board (302) with fixed axle (301) pass through torsional spring coupling.

2. The diamond micropowder ball mill for cultivating diamonds according to claim 1, wherein: three groups of distributing mechanisms (3) are uniformly distributed on the inner wall of the rough grinding cylinder (202).

3. The diamond micropowder ball mill for cultivating diamond production according to claim 1, characterized in that: and a baffle (206) is arranged on the vertical symmetrical surface between the rough grinding cylinder (202) and the fine grinding cylinder (201), and the baffle (206) is fixedly arranged on the fixed cover (205).

4. The diamond micropowder ball mill for cultivating diamonds according to claim 1, wherein: one side of the feeding pipe (207) is provided with a power mechanism (4), the power mechanism (4) comprises a motor (401), and the motor (401) is fixedly installed at the upper end of the support (1); the output end of the motor (401) is provided with a transmission gear (402), and the transmission gear (402) is meshed with an internal gear and a fixed gear.

5. The diamond micropowder ball mill for cultivating diamonds according to claim 1, wherein: one side of fixed lid (205) is provided with dust removal mechanism (5), dust removal mechanism (5) are including dust collection box (502), dust collection box (502) fixed mounting be in support (1) upper end, dust collection box (502) with fixed lid (205) are through dust absorption pipe (501) intercommunication.

6. The diamond micropowder ball mill for cultivating diamonds according to claim 1, wherein: a discharge hole is formed in the fine grinding cylinder (201).

7. The diamond micropowder ball mill for cultivating diamonds according to claim 6, wherein: a filter screen is arranged between the discharge port and the fine grinding cylinder (201).

8. The diamond micropowder ball mill for cultivating diamonds according to claim 1, wherein: the coarse grinding balls (204) and the fine grinding balls (203) are arranged in a plurality of numbers, and the diameters of the coarse grinding balls and the fine grinding balls are different.

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