CN220547042U - Diamond micro powder ball milling shaping device - Google Patents

Abstract

The utility model relates to the technical field of diamond micropowder production equipment, in particular to a diamond micropowder ball milling and shaping device. The ball milling device comprises a ball milling tank body, wherein a material inlet and outlet hole is formed in the ball milling tank body, a cover plate is detachably arranged at the material inlet and outlet hole, and a plurality of grinding media are arranged in the ball milling tank body; the outer side wall of the ball milling tank body is annularly provided with a plurality of vibrating motors, the left end and the right end of the ball milling tank body are respectively provided with a rear end shaft and a front end shaft, and the rear end shaft is sleeved with a conductive slip ring; one side of the discharging hopper is provided with a driving support, and a driving mechanism for driving the ball milling tank body to rotate is arranged on the driving support. The utility model can lead the diamond micro powder adhered to the inner wall of the ball milling tank body to fall off, thereby achieving the purpose that the materials in the ball milling tank body can be completely ground by grinding media to achieve shaping, preventing the phenomenon of shaping dead angles and improving the shaping efficiency of the diamond micro powder and the uniformity of the particle morphology.

Description

Diamond micro powder ball milling shaping device

Technical Field

The utility model relates to the technical field of diamond micropowder production equipment, in particular to a diamond micropowder ball milling and shaping device.

Background

The diamond micro powder is used as a superhard abrasive material and is widely applied to the field of grinding and polishing. The production process of diamond micropowder is to crush single crystal diamond, ball mill shaping, purify, classify and dry to obtain the final product diamond micropowder. The crystal form of the diamond micro powder is a key factor to influence the application of the diamond micro powder, the crystal form of the broken diamond micro powder is sharp, and the diamond micro powder in the shape of a sheet and a needle is more, so that scratches are easy to generate in the grinding and polishing process, and the diamond micro powder is required to be subjected to ball milling and shaping.

In the existing ball milling shaping equipment for ball milling and shaping diamond micro powder, the diamond micro powder is shaped and ground for a long time along with steel ball media in a ball milling tank body, a large amount of diamond micro powder can be stuck on the inner wall of the ball milling tank body, the diamond micro powder is agglomerated and stuck on the periphery of the inner wall of the ball milling tank body and cannot fall off, so that the diamond micro powder stuck on the ball milling tank body cannot be shaped, shaping dead angles are generated, the crystal forms of the diamond micro powder still remain sharp, flaky or needle-shaped, and the diamond micro powder cannot be completely separated in a grading procedure, thereby influencing the shaping efficiency of the diamond micro powder and the uniformity of the particle morphology.

Disclosure of Invention

The utility model provides a diamond micro powder ball milling shaping device, which aims to solve the problem that a large amount of diamond micro powder can be stuck to the inner wall of a ball milling tank body and cannot fall off to form shaping dead angles in the prior ball milling shaping process of ball milling shaping equipment, and can fall off the diamond micro powder stuck to the inner wall of the ball milling tank body so as to achieve the aim that materials in the ball milling tank body can be completely ground by grinding media to achieve shaping, prevent the phenomenon of shaping dead angles, and improve the shaping efficiency of the diamond micro powder and the uniformity of particle morphology.

In order to achieve the above object, the technical scheme of the present utility model is as follows: the diamond micro powder ball milling shaping device comprises a blanking hopper, wherein a ball milling tank body is rotatably arranged above the blanking hopper, a feeding and discharging hole is formed in the ball milling tank body, a cover plate is detachably arranged at the feeding and discharging hole, and a plurality of grinding media are arranged in the ball milling tank body; the ball milling tank is characterized in that a plurality of vibrating motors are annularly arranged on the outer side wall of the ball milling tank body, a rear end shaft and a front end shaft are respectively arranged at the left end and the right end of the ball milling tank body, a conductive slip ring is sleeved on the rear end shaft, and diamond micro powder adhered to the inner wall of the ball milling tank body can fall off through the vibrating motors so that the diamond micro powder in the ball milling tank body is ground by grinding media.

One side of the blanking hopper is provided with a driving support, a driving mechanism used for driving the ball milling tank body to rotate is arranged on the driving support, and the ball milling tank body can be driven to rotate above the blanking hopper through the driving mechanism.

The rear side upper end of unloading hopper articulates there is the dust cover that is located ball-milling jar body top, the front side of unloading hopper is provided with at least one fixed subassembly, one side of dust cover be provided with fixed subassembly corresponding fixed axle, one side middle part of dust cover still is provided with the cover body handle, and the in-process of unloading after the diamond miropowder grinding plastic is accomplished can effectively prevent impurity such as dust to fall into the diamond miropowder through the dust cover in, avoids influencing the production quality of diamond miropowder.

Further, the upper portion lateral wall of hopper is provided with a plurality of supporting legs, every the supporting leg all sets up in the corner of hopper down, and the supporting leg plays the effect of supporting down the hopper to make down the hopper be in unsettled state and be convenient for diamond miropowder flow out from its bottom feed opening.

Further, the top of both ends of hopper down all is provided with the bearing, front end axle and rear end axle respectively with bearing interference fit, through the bearing with ball-milling jar body rotate the top of installing down the hopper, through making the bearing still play the effect of supporting the ball-milling jar body.

Further, the ball milling tank body is provided with a fixing nut positioned on one side of the cover plate, the ball milling tank body is also provided with a fixing shaft sleeve positioned on the other side of the cover plate, and the ball milling tank body is also fixedly provided with a tank body handle.

Further, the apron is connected with ball-milling jar body bolt can be dismantled, the upper surface symmetry of apron is provided with the apron handle, and its purpose is convenient for dismantle the assembly apron to put into diamond miropowder or make diamond miropowder follow ball-milling jar internal discharge through the business turn over hole into ball-milling jar internal.

Further, the middle part of drive support is provided with the backup pad, actuating mechanism includes driving motor, reduction gear and belt, driving motor sets up at the top of backup pad, the reduction gear sets up at the top of drive support.

Further, the output end of the driving motor is connected with a driving wheel, the end part of a transmission shaft of the speed reducer is connected with a driven wheel, the driving wheel is in transmission connection with the driven wheel through the belt, and the output shaft of the speed reducer is connected with the front end shaft; the arc-shaped cover is arranged at the joint of the output shaft of the speed reducer and the front end shaft, the right side of the driving support is connected with the protective cover, and the ball milling tank body is driven to rotate above the discharging hopper through the cooperation of the driving motor and the speed reducer.

Further, the quantity of fixed axle and fixed subassembly is two, fixed subassembly includes articulated seat, strip shaped plate, fixed frame and connecting axle, articulated seat is fixed to be set up at the lateral wall of hopper down, the upper end of strip shaped plate articulated mutually with articulated seat, the lower extreme with fixed frame looks is articulated.

Further, the sliding block is arranged in the fixed frame in a sliding manner, the connecting shaft is arranged at the bottom of the sliding block, the lower end of the connecting shaft extends to the outside of the fixed frame and is connected with the hanging ring, the connecting shaft is sleeved with the pressure spring positioned in the fixed frame, and the aim of fixing the dust cover can be achieved through the cooperation of the fixing component and the fixing shaft.

Through the technical scheme, the utility model has the beneficial effects that:

the utility model can lead the diamond micro powder adhered on the inner wall of the ball milling tank body to fall off, so that the diamond micro powder in the ball milling tank body can be completely ground by grinding media, thereby achieving the effect of shaping the diamond micro powder, avoiding the phenomenon of shaping dead angles, improving the shaping efficiency of the diamond micro powder and the uniformity of diamond micro powder particles, and improving the production quality of the diamond micro powder.

According to the utility model, the ball milling tank body is driven to rotate by the driving mechanism, so that a grinding medium moves in the ball milling tank body, and the purpose of grinding and shaping diamond micro powder positioned in the ball milling tank body is achieved; the discharging hopper plays a supporting role on the ball milling tank body, and is also convenient for collecting the diamond micro powder when the grinding and shaping of the diamond micro powder are finished and the diamond micro powder is discharged from the ball milling tank body.

According to the utility model, diamond micro powder can be put into the ball milling tank body through the feeding and discharging holes or discharged from the ball milling tank body, and the cover plate is used for sealing the feeding and discharging holes.

According to the utility model, the vibration motor is arranged outside the ball milling tank body, and the vibration motor affects the ball milling tank body to achieve the effect of enabling the diamond micro powder adhered to the inner wall of the ball milling tank body to fall off, and the conductive slip ring arranged on the rear end shaft can avoid the phenomenon of winding a circuit connected with the vibration motor.

The dust cover can effectively prevent dust and other impurities from falling into the diamond micro powder, so that the production quality of the diamond micro powder is prevented from being influenced, and the effect of fixing the dust cover can be achieved through the cooperation of the fixing assembly and the fixing shaft.

Drawings

FIG. 1 is a schematic diagram of a diamond micropowder ball-milling and shaping device;

fig. 2 is a schematic diagram of a diamond micropowder ball-milling shaping device (excluding a dust cap);

FIG. 3 is a schematic diagram of a diamond micropowder ball-milling and shaping device (excluding a dust cap);

FIG. 4 is a schematic diagram of the structure of the ball milling tank of the present utility model;

fig. 5 is an enlarged schematic view of the structure at a in fig. 1.

The reference numerals in the drawings are: 1 is a blanking hopper, 2 is a supporting leg, 3 is a dust cover, 4 is a cover handle, 5 is a fixed shaft, 6 is a bearing, 7 is a ball milling tank, 8 is a front end shaft, 9 is a rear end shaft, 10 is a conductive slip ring, 11 is a vibrating motor, 12 is a cover plate, 13 is a cover plate handle, 14 is a tank handle, 15 is a fixed nut, 16 is a fixed shaft sleeve, 17 is a driving bracket, 18 is a speed reducer, 19 is a driving motor, 20 is a driving wheel, 21 is a driven wheel, 22 is a belt, 23 is an arc-shaped cover, 24 is a protective cover, 25 is a supporting plate, 26 is a fixed component, 27 is a hinging seat, 28 is a strip-shaped plate, 29 is a fixed frame, 30 is a sliding block, 31 is a connecting shaft, 32 is a hanging ring, and 33 is a pressure spring.

Detailed Description

The utility model is further described with reference to the drawings and detailed description which follow:

as shown in fig. 1 to 5, the diamond micro powder ball milling shaping device comprises a blanking hopper 1, wherein the lower part of the blanking hopper 1 is of a quadrangular frustum structure, a ball milling tank body 7 is rotatably arranged above the blanking hopper 1, part of the ball milling tank body 7 is positioned inside the blanking hopper 1, a feeding and discharging hole is formed in the ball milling tank body 7, a cover plate 12 is detachably arranged at the feeding and discharging hole, the cover plate 12 is of an arc structure, a plurality of grinding media are arranged inside the ball milling tank body 7, and the grinding media in the embodiment are steel balls; the outer side wall ring of the ball milling tank body 7 is provided with a plurality of vibrating motors 11, the number of the vibrating motors 11 is 4, the left end and the right end of the ball milling tank body 7 are respectively provided with a rear end shaft 9 and a front end shaft 8, the rear end shaft 9 and the front end shaft 8 are respectively welded and fixed at the two ends of the ball milling tank body 7, the rear end shaft 9 is sleeved with a conductive slip ring 10, a wire of the vibrating motor 11 in the embodiment is connected with an external controller through the conductive slip ring 10, the conductive pulley 10 can avoid winding phenomenon of the wire in the rotating process of the ball milling tank body 7, the vibrating motor 11 adopts a miniature high-frequency vibrating motor, and generates vibration through the vibrating motor 11 so as to generate a vibrating effect on the ball milling tank body 7, thereby enabling diamond micro powder adhered to the inner wall of the ball milling tank body 1 to fall off and fully contact with a grinding medium to grind and reshape.

One side of the discharging hopper 1 is provided with a driving bracket 17, the driving bracket 17 is welded and fixed on the supporting leg 2, the driving bracket 17 is provided with a driving mechanism for driving the ball milling tank 7 to rotate, and the effect of driving the ball milling tank to rotate can be achieved through the driving mechanism, so that grinding media and diamond micro powder in the ball milling tank 7 move, the grinding media are fully contacted with the diamond micro powder, and the purpose of grinding and shaping the diamond micro powder is achieved.

The utility model provides a dust cover 3 that hopper 1's rear side upper end articulates to be located ball-milling jar body 7 top, dust cover 3 can open and shut from top to bottom, and dust cover 3 is arc structure, and the arc wall corresponding with front end axle 8 and rear end axle 9 has all been seted up to the both ends bottom of dust cover 3, and arc wall and front end axle 8 and rear end axle 9 assorted, and its purpose is when avoiding dust cover 3 to seal hopper 1 top down, and front end axle 8 and rear end axle 9 exert an influence on the closure of dust cover 3, the front side of hopper 1 is provided with at least one fixed subassembly 26 down, one side of dust cover 3 be provided with fixed axle 5 that fixed subassembly 26 corresponds, through the cooperation of fixed subassembly 26 and fixed axle 5, can reach the purpose fixed to dust cover 3 to make dust cover 3 close the top of hopper 1 down, one side middle part of dust cover 3 still is provided with cover handle 4, wherein cover handle 4 and fixed axle 5 all with dust cover 3 welded fastening, cover handle 4 is convenient for the staff to open or close dust cover 3.

The upper portion lateral wall of hopper 1 is provided with a plurality of supporting legs 2, every supporting leg 2 all sets up the corner at hopper 1 down, and the quantity of supporting leg 2 is 4 in this embodiment, and every supporting leg 2 all with hopper 1 welded fastening down.

The both ends top of hopper 1 all is provided with bearing 6 down, front end axle 8 and rear end axle 9 respectively with bearing 6 interference fit, bearing 6 pass through the bearing frame and install to the both ends top of hopper 1 down, and the bearing axle is connected with hopper 1 bolt down, and the bearing still plays the effect of support to ball-milling jar body 7 when being convenient for ball-milling jar body 7 pivoted.

The ball-milling jar body 7 is last to be equipped with and to be located the fixation nut 15 of apron 12 one side, still be equipped with on the ball-milling jar body 7 and be located the fixed axle sleeve 16 of apron 12 opposite side, still fixedly on the ball-milling jar body 7 be provided with jar body handle 14, the quantity of fixation nut 15, fixed axle sleeve 16 and jar body handle 14 is 2 in this embodiment, and all with ball-milling jar body 7 welded fastening, wherein two jar body handles 14 are installed respectively to the both sides of apron 12, after the diamond miropowder grinds the plastic, can dismantle apron 12, through the cooperation of bolt and fixed axle sleeve 16 and bolt and fixation nut 15, install a grinding medium filter screen in feed opening department, avoid discharging from ball-milling jar body 7 at the diamond miropowder, grinding medium also discharges through feed opening department.

The cover plate 12 is detachably connected with the ball milling tank body 7 through bolts, and cover plate handles 13 are symmetrically arranged on the upper surface of the cover plate 12, so that the cover plate 12 can be conveniently detached and assembled.

The middle part of drive support 17 is provided with backup pad 25, actuating mechanism includes driving motor 19, reduction gear 18 and belt 22, driving motor 19 sets up at the top of backup pad 25, reduction gear 18 sets up at the top of drive support 17.

The output end of the driving motor 19 is connected with a driving wheel 20, the end part of a transmission shaft of the speed reducer 18 is connected with a driven wheel 21, the driving wheel 20 is in transmission connection with the driven wheel 21 through a belt 22, the belt 22 is sleeved on the driving wheel 20 and the driven wheel 21, and the output shaft of the speed reducer 18 is connected with the front end shaft 8 through a coupling; the output shaft of reduction gear 18 and front end axle 8's junction is provided with arc cover 23, and the one end and the hopper 1 welded fastening down of arc cover 23 play the effect of protection to the junction of two, prevent to drop the dust, the right side of drive support 17 is connected with protection casing 24, and protection casing 24 and drive support welded fastening, protection casing 24 play the effect of protection to action wheel 20, follow driving wheel 21 and belt 22, guarantee staff's personal safety simultaneously.

The quantity of fixed axle 5 and fixed subassembly 26 is two, fixed subassembly 26 includes articulated seat 27, strip shaped plate 28, fixed frame 29 and connecting axle 31, articulated seat 27 welded fastening is at the lateral wall of hopper 1 down, the upper end of strip shaped plate 28 articulated mutually with articulated seat 27, the lower extreme with fixed frame 29 articulates mutually, and the hinge hole has all been seted up at the upper and lower both ends of strip shaped plate 28, and the hinge axle is all installed to the upper end of articulated seat 27 and fixed frame 29.

The fixed frame 29 is provided with the slider 30 in a sliding manner, wherein both sides of the fixed frame 29 are provided with strip-shaped sliding holes, both ends of the slider 30 are provided with sliding shafts, the sliding shafts are arranged in the strip-shaped holes in a sliding manner, the connecting shafts 31 are arranged at the bottom of the slider 30, the lower ends of the connecting shafts 31 extend to the outside of the fixed frame 29 and are connected with hanging rings 32, the bottom of the fixed frame 29 is provided with an opening, the lower ends of the connecting shafts 31 penetrate through the opening and are connected with the hanging rings 32, and the connecting shafts 31 are sleeved with pressure springs 33 positioned in the fixed frame 29.

The working principle of the utility model is as follows: firstly, the cover plate 12 arranged at the feeding and discharging hole is dismounted, diamond micro powder needing grinding and shaping is poured into the ball milling tank body 7 through the feeding and discharging hole, then the cover plate 12 is fixed at the feeding and discharging hole through bolts to close the feeding and discharging hole, then a worker closes the dust cover 3 through the cover body handle 4, the fixing frame 29 is rotated upwards and the hanging ring 32 is pulled, so that the connecting shaft 31 drives the sliding block 30 to slide in the fixing frame 29, the pressure spring 33 compresses, then the hanging ring 32 is hung on the fixing shaft 5 at the edge part of the dust cover 3, and the dust cover 3 is tensioned and fixed by means of the elasticity of the pressure spring 33.

The driving motor 19 is turned on, the output end of the driving motor 19 drives the driving wheel 20 to rotate, the driving wheel 20 drives the driven wheel 21 to synchronously rotate through the belt 22, and then the front end shaft 8 is driven to rotate through the output shaft of the speed reducer 18, so that the front end shaft 8 drives the ball milling tank 7 to rotate above the blanking hopper 1, the grinding medium and the diamond micro powder rotate in the ball milling tank 7 in the process of rotating the ball milling tank 7, the purpose of grinding and shaping the diamond micro powder in the grinding medium is achieved, meanwhile, the high-frequency vibration motor 11 vibrates at intervals, so that vibration influence is generated on the ball milling tank 7, the diamond micro powder adhered to the inner wall of the ball milling tank 7 is vibrated and falls off, and the ball milling tank is fully contacted with the grinding medium to perform grinding and shaping, and accordingly shaping dead angles are prevented.

After finishing the grinding and shaping of the diamond micro powder, the feeding and discharging hole and the cover plate 12 on the ball milling tank body 7 are rotated to the upper side, so that the opening of the feeding and discharging hole is upward, then a worker can open the dust cover 3, detach the cover plate 12 from the ball milling tank body 7, and use a bolt to match with the fixed shaft sleeve 16 and use a bolt to match with the fixed nut 15, and install a grinding medium filter screen at the feeding and discharging hole, wherein the bolt and the bolt can be installed on the grinding medium filter screen, so as to achieve the purpose of installing the grinding medium filter screen at the top of the ball milling tank body 7. And then the dust cover 3 can be closed again, the dust cover 3 is tensioned and fixed through the fixing component, the ball milling tank body 7 is driven to rotate again through the driving mechanism, in the process that the ball milling tank body 7 continuously rotates, diamond micro powder in the ball milling tank body 7 is discharged out of the ball milling tank body 7 through the feeding and discharging holes, the diamond micro powder falls into the discharging hopper 1 and is discharged through the discharging holes at the bottom of the discharging hopper 1, and workers can collect the diamond micro powder after finishing grinding and shaping at the discharging holes at the bottom of the discharging hopper 1.

The above embodiments are only preferred embodiments of the utility model and do not limit the scope of the utility model, so all equivalent changes or modifications made by the technical solution described in the patent claims are included in the scope of the utility model.

Claims (9)

1. The diamond micro powder ball milling shaping device is characterized by comprising a blanking hopper (1), wherein a ball milling tank body (7) is rotatably arranged above the blanking hopper (1), a feeding and discharging hole is formed in the ball milling tank body (7), a cover plate (12) is detachably arranged at the feeding and discharging hole, and a plurality of grinding media are arranged in the ball milling tank body (7); the ball milling device is characterized in that a plurality of vibrating motors (11) are annularly arranged on the outer side wall of the ball milling tank body (7), a rear end shaft (9) and a front end shaft (8) are respectively arranged at the left end and the right end of the ball milling tank body (7), and a conductive slip ring (10) is sleeved on the rear end shaft (9);

a driving bracket (17) is arranged on one side of the discharging hopper (1), and a driving mechanism for driving the ball milling tank body (7) to rotate is arranged on the driving bracket (17);

the ball milling device is characterized in that a dust cover (3) located above the ball milling tank body (7) is hinged to the upper end of the rear side of the discharging hopper (1), at least one fixing assembly (26) is arranged on the front side of the discharging hopper (1), a fixing shaft (5) corresponding to the fixing assembly (26) is arranged on one side of the dust cover (3), and a cover handle (4) is further arranged in the middle of one side of the dust cover (3).

2. The diamond micro powder ball milling and shaping device according to claim 1, wherein a plurality of supporting legs (2) are arranged on the outer side wall of the upper portion of the blanking hopper (1), and each supporting leg (2) is arranged at the corner of the blanking hopper (1).

3. The diamond micro powder ball milling and shaping device according to claim 1, wherein bearings (6) are arranged at the tops of two ends of the discharging hopper (1), and the front end shaft (8) and the rear end shaft (9) are respectively in interference fit with the bearings (6).

4. The diamond micro powder ball milling shaping device according to claim 1, wherein a fixing nut (15) positioned on one side of the cover plate (12) is arranged on the ball milling tank body (7), a fixing shaft sleeve (16) positioned on the other side of the cover plate (12) is further arranged on the ball milling tank body (7), and a tank body handle (14) is further fixedly arranged on the ball milling tank body (7).

5. The diamond micro powder ball milling shaping device according to claim 4, wherein the cover plate (12) is detachably connected with the ball milling tank body (7) through bolts, and cover plate handles (13) are symmetrically arranged on the upper surface of the cover plate (12).

6. The diamond micro powder ball milling and shaping device according to claim 1, wherein a supporting plate (25) is arranged in the middle of the driving support (17), the driving mechanism comprises a driving motor (19), a speed reducer (18) and a belt (22), the driving motor (19) is arranged at the top of the supporting plate (25), and the speed reducer (18) is arranged at the top of the driving support (17).

7. The diamond micro powder ball milling shaping device according to claim 6, wherein the output end of the driving motor (19) is connected with a driving wheel (20), the end part of a transmission shaft of the speed reducer (18) is connected with a driven wheel (21), the driving wheel (20) is in transmission connection with the driven wheel (21) through the belt (22), and the output shaft of the speed reducer (18) is connected with the front end shaft (8); an arc-shaped cover (23) is arranged at the joint of the output shaft of the speed reducer (18) and the front end shaft (8), and a protective cover (24) is connected to the right side of the driving support (17).

8. The diamond micro powder ball milling shaping device according to claim 1, wherein the number of the fixing shafts (5) and the number of the fixing assemblies (26) are two, the fixing assemblies (26) comprise a hinging seat (27), a strip-shaped plate (28), a fixing frame (29) and a connecting shaft (31), the hinging seat (27) is fixedly arranged on the outer side wall of the blanking hopper (1), the upper end of the strip-shaped plate (28) is hinged with the hinging seat (27), and the lower end of the strip-shaped plate is hinged with the fixing frame (29).

9. The diamond micro powder ball milling and shaping device according to claim 8, wherein a sliding block (30) is slidably arranged in the fixed frame (29), the connecting shaft (31) is arranged at the bottom of the sliding block (30), the lower end of the connecting shaft (31) extends to the outside of the fixed frame (29) and is connected with a hanging ring (32), and the connecting shaft (31) is sleeved with a pressure spring (33) positioned in the fixed frame (29).