CN114800935B - Ball milling device for preparing amino molding compound granules - Google Patents

Abstract

The invention discloses a ball milling device for preparing amino molding compound granules, which relates to the technical field of ball milling devices and comprises a bottom plate and a discharging unit; the ball mill is characterized in that two supporting frames are respectively arranged at the front end and the rear end of the upper side of the bottom plate, ball milling rollers are arranged on the upper sides of the two supporting frames along the front-rear direction, a feed port is arranged at the rear end of the ball milling rollers, a convex ring is arranged at the rear end of the feed port, a cover body is connected with the rear end of the convex ring in a threaded manner, a rubber ring is clamped on the outer side of the cover body, a rotating unit is arranged at the right end of the upper side of the bottom plate, a first sliding plate is driven to slide in the front-rear direction in the sliding groove under the action of a power assembly, a filter screen clamped in the clamping groove is driven to slide along the front-rear direction through the sliding of the first sliding plate, raw materials are separated from grinding balls through the sliding of the filter screen, the raw materials are discharged through the discharge port, and the grinding balls are reserved in the ball milling rollers.

Description

Ball milling device for preparing amino molding compound granules

Technical Field

The invention relates to the technical field of amino molding compound granules, in particular to a ball milling device for preparing amino molding compound granules.

Background

The ball mill is a key device for crushing materials after the materials are crushed, a certain number of steel balls are filled in a cylinder body of the ball mill as grinding media, 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, can be divided into a dry ball mill and a wet ball mill, can be divided into a short cylinder ball mill, a long cylinder ball mill, a tube mill and a cone mill according to the shape of the cylinder body, and amino molding compound granules are required to be sent into the ball mill for grinding after being dried;

the utility model provides a ball-milling device for preparing amino moulding compound aggregate that application publication number is CN211801288U put forward among the prior art, including bottom plate and storage box, the left end fixedly connected with first backup pad at bottom plate top, the right-hand member fixedly connected with second backup pad at bottom plate top, the upper portion between second backup pad and the first backup pad is rotated through the pivot and is connected with the ball mill case, the opening has been seted up to the middle-end at ball mill case top, the open-ended top has the apron through the screwed connection, and the pivot on ball mill case right side runs through the second backup pad and extends to the outside on second backup pad right side, and the surface cover of ball mill case right side pivot is equipped with first belt pulley;

a ball milling device for preparing amino molding compound granules in the prior art, although the ball milling device is well enabled to achieve the effect of conveniently collecting materials, the existing ball milling device cannot well achieve the effect of discharging after ball milling of the amino molding compound granules, and therefore working efficiency is affected.

Disclosure of Invention

The invention aims to overcome the existing defects, and provides a ball milling device for preparing amino molding compound granules, which drives a first sliding plate to slide in the front-back direction in a first sliding groove under the action of a power component, drives a filter screen clamped in the clamping groove to slide in the front-back direction through the sliding of the first sliding plate, separates raw materials from grinding balls through the sliding of the filter screen, discharges the raw materials through a discharge hole, and enables the grinding balls to remain in a ball milling roller, so that the problems in the background art can be effectively solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: a ball milling device for preparing amino molding compound granules comprises a bottom plate and a discharging unit;

a bottom plate: the ball milling machine comprises a ball milling roller, a feeding hole, a convex ring, a cover body, a rubber ring, a rotating unit and a rotating unit, wherein the front end and the rear end of the upper side are respectively provided with one support frame, the upper sides of the two support frames are provided with the ball milling roller along the front-rear direction, the outer sides of the ball milling roller are rotationally connected with the upper sides of the two support frames, the rear end of the ball milling roller is provided with the feeding hole, the rear end of the feeding hole is provided with the convex ring, the rear end of the outer side of the convex ring is in threaded connection with the cover body, the outer side of the cover body is clamped with the rubber ring, and the right end of the upper side of the bottom plate is provided with the rotating unit which is in matched connection with the outer side of the ball milling roller;

and a discharging unit: the ball mill comprises a discharge hole, a first sliding groove, a first sliding plate, a clamping groove, a filter screen, a circular groove, round holes, springs, cylindrical rods, a second sliding groove, sliding rods and a power component, wherein the discharge hole is formed in the upper side of the ball mill roller, the first sliding groove is formed in the front and rear direction of the inner side of the discharge hole in a sliding mode, the first sliding plate is connected with the inner side of the discharge hole in a matched mode, the clamping groove is formed in the middle of the upper side of the first sliding plate, the filter screen is clamped in the inner side of the clamping groove, the round grooves are formed in the front and rear ends of the filter screen respectively, the round holes are formed in the front and rear sides of the inner side of the clamping groove respectively, the springs are respectively arranged at the outer ends of the inner sides of the two round holes, the cylindrical rods are respectively fixedly connected with the inner sides of the corresponding round holes in a sliding mode, the inner ends of the two cylindrical rods are respectively matched and clamped with the inner sides of the corresponding round grooves in a matched mode, the outer ends of the two round rods are respectively arranged in the front and rear direction, the two upper ends of the two sliding grooves are respectively matched with the inner sides of the corresponding round grooves, the two ends of the two sliding rods are connected with the two ends of the corresponding sliding rods, and the power component is arranged at the front and the two ends of the upper ends of the sliding rod are connected with the two ends of the sliding rod.

Under the supporting role of support frame, through the inside of pouring into ball-milling roller with the amino moulding material aggregate, through the sealed effect of lid realization to feed inlet rear side ring department, increase the frictional force in the lid outside through the rubber ring, drive ball-milling roller realization pivoted effect through the rotation unit, realize the grinding effect to the raw materials through the rotation of ball-milling roller, make ball-milling roller stop rotating after grinding the raw materials, make the raw materials realize the effect of exhaust through the discharge gate, drive slide one in the inside of spout one along fore-and-aft direction slip under power component's effect, the filter screen of the inside joint of draw-in groove is driven in the fore-and-aft direction through the slip of slide one, make the raw materials and grind the separation between the ball through the slip of filter screen, the raw materials is discharged through the discharge gate, the grinding ball stays in the inside of ball-milling roller, move the inside of slide bar in the fore-and-aft direction of spout two under the effect, drive cylinder pole through the slip of slide bar is in the inside of round hole, make the cooperation joint effect between the inside of two cylinder poles and the corresponding circular slot respectively, make firm joint make the inside of draw-in groove and the inside of draw-in groove need to make the inside of the corresponding cylinder pole and the inside of the corresponding filter screen through the cooperation between the inside of the draw-in groove, realize dismantling the filter screen when the inside of the corresponding cylinder pole.

Further, the power assembly comprises a square groove, a first rotating shaft and a disc, the square groove is formed in the front end of the upper side of the first sliding plate, the side faces of the upper end and the lower end of the first rotating shaft are respectively connected with the upper side and the lower side of the front end of the first sliding groove in a rotating mode, the middle of the outer side of the first rotating shaft is fixedly connected with the eccentric position of the disc, and the outer side of the disc is in sliding connection with the inner side of the square groove.

The first rotating shaft rotates to drive the disc at the eccentric position to rotate, and the first sliding plate is driven to slide in the first sliding groove along the front-rear direction through the rotation of the disc under the sliding connection effect between the outer side of the disc and the inner side of the square groove.

Further, the power assembly further comprises an arc-shaped fixing block II and a motor II, the motor II is fixedly connected to the front end of the upper side of the ball milling roller through the arc-shaped fixing block II, an output shaft of the motor II is fixedly connected with the upper end of the rotating shaft I, and an input end of the motor II is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the motor II is driven to rotate under the action of an external power supply, and the rotation of the output shaft of the motor II drives the rotation of the rotation shaft I.

Further, the rotation unit comprises a fixing seat, a driving shaft, a driving gear and a gear ring, wherein two fixing seats are arranged at the right end of the upper side of the bottom plate, the side surfaces of the front end and the rear end of the driving shaft are respectively connected with the inner sides of the two fixing seats in a rotating mode, the driving gear is fixedly connected with the middle part of the outer side of the driving shaft, the gear ring is arranged at the rear end of the outer side of the ball milling roller, and the driving gear is connected with the gear ring in a meshed mode.

Under the supporting action of the fixing seat, the driving gear is driven to rotate through the rotation of the driving shaft, and under the meshing connection action between the driving gear and the gear ring, the gear ring is driven to rotate through the rotation of the driving gear, and the ball milling roller is driven to realize the rotating action through the rotation of the gear ring.

Further, the rotating unit further comprises an arc-shaped fixing block I and a motor I, the motor I is fixedly connected to the rear side of the rear end fixing seat through the arc-shaped fixing block I, an output shaft of the motor I is fixedly connected with the rear end of the driving shaft, and an input end of the motor I is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the motor I is driven to rotate under the action of an external power supply, and the driving shaft is driven to rotate through the rotation of the output shaft of the motor I.

Further, still include receiving the material unit, receiving the material unit and including spout three, slider, backup pad and power structure, spout three has been seted up along the left and right directions in the upside middle part of bottom plate, the inside of spout three is followed left and right directions sliding connection and is had the slider, the upside of slider is provided with the backup pad, the upside of backup pad is connected with the downside of receiving the material between the cooperation.

The sliding block is driven to slide in the left-right direction in the sliding groove III under the action of the power structure, the supporting plate is driven to slide in the left-right direction through the sliding of the sliding block, the material collecting box on the upper side of the supporting plate is driven to slide in the left-right direction through the sliding of the supporting plate, and the collection effect on the discharged raw materials in the ball milling roller is achieved through the material collecting box.

Further, the power structure comprises a threaded shaft, an arc-shaped fixing block III and a motor III, wherein the side surfaces of the left end and the right end of the threaded shaft are respectively connected with the left side and the right side of the inside of the sliding groove III in a rotating mode, the outer side of the threaded shaft is connected with the middle of the sliding block in a threaded mode, the motor III is fixedly connected to the left side of the bottom plate through the arc-shaped fixing block III, an output shaft of the motor III is fixedly connected with the left end of the threaded shaft, and the input end of the motor III is electrically connected with the output end of an external power supply through an external control switch group.

The output shaft of the motor III is driven to rotate under the action of an external power supply, the threaded shaft is driven to rotate through the rotation of the output shaft of the motor III, and the sliding block is driven to slide in the left-right direction inside the sliding groove III through the rotation of the threaded shaft under the action of threaded connection between the outer side of the threaded shaft and the middle part of the sliding block.

Further, still include spout IV, electric telescopic handle one and slide two, spout IV has been seted up along the fore-and-aft direction to the inside of discharge gate, spout IV is located spout IV's upside, spout IV's inside rear end is provided with electric telescopic handle one, slide two pass through between electric telescopic handle one and the inboard of spout IV along fore-and-aft direction sliding connection, cooperation connection between slide two's downside and the upside of discharge gate.

Realize the hiding effect to slide two under the effect of spout IV, slide along fore-and-aft direction through electric telescopic handle one-tenth drive slide two, when ball-milling roller during operation, electric telescopic handle one-tenth drive slide forward and realize the sealed effect to discharge gate department, when the ejection of compact is needed, electric telescopic handle one-tenth drive slide two slides to the inside and outside of spout IV, makes the raw materials discharge through the discharge gate.

Further, still include arc wall, electric telescopic handle two and arc slider, an arc wall has been seted up respectively to both ends upside around the inside of ball-milling roller, and the inside outer end of two arc walls is provided with an electric telescopic handle two respectively, and the inner of two electric telescopic handle two is provided with an arc slider respectively.

Realize the hiding effect to the arc slider under the effect of arc groove, when needs ejection of compact, drive the arc slider through electric telescopic handle two and inwards slide, push the inside raw materials propelling movement of ball-milling roller to discharge gate department through the inside slip of arc slider.

Further, the ball mill roller further comprises long grooves and raised strips, wherein the long grooves are uniformly formed in the inner circumferential side face of the ball mill roller along the front-rear direction respectively, and one raised strip is welded in each long groove along the front-rear direction respectively.

The convex strips are welded in the ball milling roller more stably under the action of the long grooves, and friction force between the steel balls and the inside of the ball milling roller is increased through the convex strips, so that the grinding speed of raw materials is increased.

Compared with the prior art, the invention has the beneficial effects that: the ball milling device for preparing the amino molding compound granules has the following advantages:

1. the ball milling device for preparing the amino molding compound granules is provided with a sliding groove IV, an electric telescopic rod I and a sliding plate II, wherein the electric telescopic rod drives the sliding plate II to slide along the front-back direction;

2. the ball milling device for preparing the amino molding compound granules is provided with a material collecting unit, the sliding block is driven to slide in the left-right direction in the sliding groove III under the action of the power structure, the supporting plate is driven to slide in the left-right direction through the sliding of the sliding block, the material collecting box on the upper side of the supporting plate is driven to slide in the left-right direction through the sliding of the supporting plate, and the collection effect on the discharged raw materials in the ball milling roller is realized through the material collecting box;

3. the ball milling device for preparing the amino molding compound granules is provided with a rotating unit, under the supporting action of a fixed seat, the driving gear is driven to rotate through the rotation of a driving shaft, under the meshing connection action between the driving gear and a gear ring, the gear ring is driven to rotate through the rotation of the driving gear, and the ball milling roller is driven to rotate through the rotation of the gear ring;

4. the sliding plate I is driven to slide in the front-back direction in the sliding groove I under the action of the power component, the filter screen clamped in the clamping groove is driven to slide in the front-back direction through the sliding of the sliding plate I, the raw materials are separated from the grinding balls through the sliding of the filter screen, the raw materials are discharged through the discharge hole, and the grinding balls are left in the ball milling roller.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure of the portion A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

fig. 4 is a schematic rear view of the present invention.

In the figure: 1 bottom plate, 2 support frame, 3 ball-milling roller, 4 feed inlets, 5 rotation unit, 51 fixing seat, 52 driving shaft, 53 driving gear, 54 gear ring, 55 arc fixed block one, 56 motor one, 6 discharge unit, 61 discharge port, 62 spout one, 63 slide plate one, 64 draw-in groove, 65 filter screen, 66 circular groove, 67 round hole, 68 spring, 69 cylinder rod, 610 spout two, 611 slide bar, 612 square groove, 613 rotation shaft one, 614 disc, 615 arc fixed block two, 616 motor two, 7 material receiving unit, 71 spout three, 72 slide block, 73 support plate, 74 screw shaft, 75 arc fixed block three, 76 motor three, 8 spout four, 9 electric telescopic rod one, 10 slide plate two, 11 arc groove, 12 electric telescopic rod two, 13 arc slide block, 14 long groove, 15 convex strip, 16 cover body, 17 rubber ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the present embodiment provides a technical solution: a ball milling device for preparing amino molding compound granules comprises a bottom plate 1 and a discharging unit 6;

the base plate 1: the front end and the rear end of the upper side are respectively provided with a support frame 2, the upper sides of the two support frames 2 are provided with ball milling rollers 3 along the front-rear direction, the outer sides of the ball milling rollers 3 are rotationally connected with the upper sides of the two support frames 2, the rear end of the ball milling rollers 3 is provided with a feed inlet 4, the rear end of the feed inlet 4 is provided with a convex ring, the rear end of the outer side of the convex ring is in threaded connection with a cover 16, the outer side of the cover 16 is clamped with a rubber ring 17, the right end of the upper side of the bottom plate 1 is provided with a rotating unit 5, and the rotating unit 5 is matched and connected with the outer side of the ball milling rollers 3;

the rotating unit 5 comprises a fixed seat 51, a driving shaft 52, a driving gear 53 and a gear ring 54, wherein two fixed seats 51 are arranged at the right end of the upper side of the bottom plate 1, the side surfaces of the front end and the rear end of the driving shaft 52 are respectively and rotatably connected with the inner sides of the two fixed seats 51, the driving gear 53 is fixedly connected with the middle part of the outer side of the driving shaft 52, the gear ring 54 is arranged at the rear end of the outer side of the ball milling roller 3, and the driving gear 53 is in meshed connection with the gear ring 54.

Under the supporting action of the fixed seat 51, the driving gear 53 is driven to rotate through the rotation of the driving shaft 52, under the meshing connection action between the driving gear 53 and the gear ring 54, the gear ring 54 is driven to rotate through the rotation of the driving gear 53, and the ball milling roller 3 is driven to rotate through the rotation of the gear ring 54.

The rotating unit 5 further comprises an arc-shaped fixing block I55 and a motor I56, the motor I56 is fixedly connected to the rear side of the rear end fixing seat 51 through the arc-shaped fixing block I55, an output shaft of the motor I56 is fixedly connected with the rear end of the driving shaft 52, and an input end of the motor I56 is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the motor 56 is driven to rotate under the action of an external power supply, and the rotation of the output shaft of the motor 56 drives the driving shaft 52 to rotate.

And a discharging unit 6: comprises a discharge hole 61, a first slide groove 62, a first slide plate 63, a clamping groove 64, a filter screen 65, a circular groove 66, a round hole 67, a spring 68, a cylindrical rod 69, a second slide groove 610, a slide bar 611 and a power component, wherein the discharge hole 61 is arranged on the upper side of the ball milling roller 3, the first slide groove 62 is arranged in the front-back direction of the inside of the discharge hole 61, the first slide plate 63 is slidingly connected with the inside of the first slide groove 62 in the front-back direction, the first slide plate 63 is in matched connection with the inside of the discharge hole 61, the clamping groove 64 is arranged in the middle of the upper side of the first slide plate 63, the filter screen 65 is clamped in the inside of the clamping groove 64, the front-back ends of the filter screen 65 are respectively provided with the circular groove 66, the front-back sides of the inside of the clamping groove 64 are respectively provided with the round hole 67 in the front-back direction, the outer ends of the inside of the two round holes 67 are respectively provided with the spring 68, the inner ends of the two springs 68 are fixedly connected with a cylindrical rod 69 respectively, the two cylindrical rods 69 are connected with the inner sides of the corresponding round holes 67 in a sliding mode respectively, the inner ends of the two cylindrical rods 69 are connected with the inner sides of the corresponding round grooves 66 in a matched and clamped mode respectively, a second sliding groove 610 is formed in the outer ends of the upper sides of the inner portions of the two round holes 67 in a front-rear direction respectively, the upper ends of the second sliding grooves 610 penetrate out of the upper sides of the first sliding plates 63, two sliding rods 611 are arranged, the lower ends of the two sliding rods 611 are connected with the inner sides of the second sliding grooves 610 in a sliding mode respectively through the outer ends of the upper sides of the cylindrical rods 69 in a sliding mode, a power assembly is arranged at the front end of the inner portion of the first sliding groove 62, and the power assembly is connected with the front end of the upper side of the first sliding plates 63 in a matched mode.

Under the supporting action of the supporting frame 2, the amino molding compound granule is poured into the interior of the ball grinding roller cylinder 3 through the feed inlet 4, the sealing action of the rear side circular ring of the feed inlet 4 is realized through the cover body 16, the friction force of the outer side of the cover body 16 is increased through the rubber circular ring 17, the ball grinding roller cylinder 3 is driven by the rotating unit 5 to realize the rotating action, the grinding action of raw materials is realized through the rotation of the ball grinding roller cylinder 3, the raw materials are ground and then the ball grinding roller cylinder 3 stops rotating, the raw materials are enabled to realize the discharging action through the discharge outlet 61, the first sliding plate 63 is driven to slide in the front-rear direction in the interior of the first sliding groove 62 under the action of the power assembly, the filter screen 65 which is clamped in the inside of the clamping groove 64 is driven to slide in the front-rear direction, the raw materials are separated from grinding balls through the sliding of the filter screen 65, the raw materials are reserved in the interior of the ball grinding roller cylinder 3 through the discharge outlet 61, the inner side of the sliding rod 611 is driven by the sliding of the rotating unit 5 under the action of the external force, the inner side of the sliding circular slide rod 611 is driven by the sliding of the circular slide rod in the round rod 67 in the front-rear direction in the interior of the round hole 67, the inner end 69 of the cylindrical rod is matched with the inner end 66 of the corresponding to the inner end of the corresponding sliding rod 66, the inner end of the sliding rod 69 is matched with the inner cylindrical rod 66, and the inner end of the corresponding filter rod 65 is matched with the inner cylindrical rod 65, and the inner end of the inner cylindrical rod 65 is matched with the inner cylindrical rod 65, and the inner end of the cylindrical rod is matched with the filter rod, and the filter rod is matched with the filter rod.

The power assembly comprises a square groove 612, a first rotating shaft 613 and a disc 614, wherein the square groove 612 is formed in the front end of the upper side of the first sliding plate 63, the side surfaces of the upper end and the lower end of the first rotating shaft 613 are respectively connected with the upper side and the lower side of the front end of the first sliding groove 62 in a rotating way, the middle part of the outer side of the first rotating shaft 613 is fixedly connected with the eccentric position of the disc 614, and the outer side of the disc 614 is in sliding connection with the inner side of the square groove 612.

The rotation of the first rotating shaft 613 drives the disc 614 at the eccentric position to rotate, and the rotation of the disc 614 drives the first slide plate 63 to slide in the front-rear direction inside the first slide groove 62 under the sliding connection effect between the outer side of the disc 614 and the inner side of the square groove 612.

The power assembly further comprises a second arc-shaped fixing block 615 and a second motor 616, the second motor 616 is fixedly connected to the front end of the upper side of the ball milling roller 3 through the second arc-shaped fixing block 615, an output shaft of the second motor 616 is fixedly connected with the upper end of the first rotating shaft 613, and an input end of the second motor 616 is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the second motor 616 is driven to rotate under the action of an external power supply, and the rotation of the output shaft of the second motor 616 drives the rotation of the first rotating shaft 613.

Still include receiving unit 7, receiving unit 7 includes and includes spout three 71, slider 72, backup pad 73 and power structure, and spout three 71 has been seted up along left and right directions in the upside middle part of bottom plate 1, and the inside of spout three 71 is along left and right directions sliding connection having slider 72, and the upside of slider 72 is provided with backup pad 73, and the upside of backup pad 73 is connected with the downside of receiving the cooperation between.

The sliding block 72 is driven to slide in the left-right direction in the sliding groove III 71 under the action of the power structure, the supporting plate 73 is driven to slide in the left-right direction through the sliding of the sliding block 72, the material collecting box on the upper side of the supporting plate 73 is driven to slide in the left-right direction through the sliding of the supporting plate 73, and the collection effect on the discharged raw materials in the ball milling roller 3 is achieved through the material collecting box.

The power structure comprises a threaded shaft 74, an arc-shaped fixing block III 75 and a motor III 76, wherein the side surfaces of the left end and the right end of the threaded shaft 74 are respectively connected with the left side and the right side of the inside of the sliding groove III 71 in a rotating mode, the outer side of the threaded shaft 74 is connected with the middle of the sliding block 72 in a threaded mode, the motor III 76 is fixedly connected to the left side of the bottom plate 1 through the arc-shaped fixing block III 75, an output shaft of the motor III 76 is fixedly connected with the left end of the threaded shaft 74, and the input end of the motor III 76 is electrically connected with the output end of an external power supply through an external control switch group.

The output shaft of the motor III 76 is driven to rotate under the action of an external power supply, the threaded shaft 74 is driven to rotate through the rotation of the output shaft of the motor III 76, and the sliding block 72 is driven to slide in the left-right direction inside the sliding groove III 71 through the rotation of the threaded shaft 74 under the action of the threaded connection between the outer side of the threaded shaft 74 and the middle part of the sliding block 72.

The automatic feeding device further comprises a sliding groove IV 8, an electric telescopic rod IV 9 and a sliding plate II 10, wherein the sliding groove IV 8 is formed in the discharging hole 61 along the front-rear direction, the sliding groove IV 8 is located on the upper side of the sliding groove IV 62, the electric telescopic rod IV 9 is arranged at the rear end of the sliding groove IV 8, the sliding plate II 10 is connected with the inner side of the sliding groove IV 8 in a sliding mode along the front-rear direction through the electric telescopic rod IV 9, and the lower side of the sliding plate II 10 is connected with the upper side of the discharging hole 61 in a matched mode.

Realize the hiding effect to slide two 10 under the effect of spout four 8, drive slide two 10 and slide along fore-and-aft direction through electric telescopic handle one 9, when ball-milling roller 3 during operation, electric telescopic handle one 9 drives slide two 10 and slide forward and realize the sealed effect to discharge gate 61 department, when the ejection of compact is needed, electric telescopic handle one 9 drives slide two 10 and slides to the inside and outside of spout four 8, makes the raw materials discharge through discharge gate 61.

The ball milling roller comprises a ball milling roller body 3, and is characterized by further comprising an arc groove 11, electric telescopic rods II 12 and arc sliding blocks 13, wherein the upper sides of the front end and the rear end of the inner portion of the ball milling roller body 3 are respectively provided with the arc groove 11, the outer ends of the inner portions of the two arc grooves 11 are respectively provided with the electric telescopic rods II 12, and the inner ends of the two electric telescopic rods II 12 are respectively provided with the arc sliding blocks 13.

Realize the hiding effect to arc slider 13 under the effect of arc groove 11, when the needs ejection of compact, drive arc slider 13 inwards to slide through electric telescopic handle two 12, inwards slide through arc slider 13 with the inside raw materials propelling movement of ball-milling roller 3 to discharge gate 61 department.

The ball milling roller comprises a ball milling roller body 3, a ball milling roller body and a plurality of ball milling rollers, wherein the ball milling roller body comprises a ball milling roller body and also comprises long grooves 14 and convex strips 15, the long grooves 14 are uniformly formed in the front-rear direction of the inner circumferential side surface of the ball milling roller body 3 respectively, and one convex strip 15 is welded in the front-rear direction of the inner part of each long groove 14 respectively.

The convex strips 15 are welded in the ball milling roller 3 more stably under the action of the long grooves 14, and friction force between the steel balls and the inside of the ball milling roller 3 is increased through the convex strips 15, so that the grinding speed of raw materials is increased.

The invention provides a ball milling device for preparing amino molding compound granules, which has the following working principle:

under the supporting action of the supporting frame 2, amino molding compound granules are poured into the ball grinding roller 3 through the feed inlet 4, the sealing action on the circular ring at the rear side of the feed inlet 4 is realized through the cover body 16, the friction force on the outer side of the cover body 16 is increased through the rubber circular ring 17, the output shaft of the motor 56 is driven to rotate under the action of an external power supply, the rotation of the output shaft of the motor 56 drives the rotation of the driving shaft 52, under the supporting action of the fixed seat 51, the rotation of the driving shaft 52 drives the driving gear 53 to rotate, under the meshing connection action between the driving gear 53 and the gear ring 54, the rotation of the driving gear 53 drives the gear ring 54, the rotation of the ball grinding roller 3 is driven to realize the rotation action, the grinding action on raw materials is realized through the rotation of the ball grinding roller 3, the ball grinding roller 3 is stopped rotating after the raw materials are ground, the discharge hole 61 is used for discharging raw materials, the output shaft of the motor II 616 is driven to rotate under the action of an external power supply, the rotation of the output shaft of the motor II 616 is used for driving the rotation of the rotation shaft I613, the rotation of the rotation shaft I613 is used for driving the disc 614 at the eccentric position to rotate, the sliding plate I63 is driven to slide in the front and back direction in the sliding groove I62 under the sliding connection action between the outer side of the disc 614 and the inner side of the square groove 612, the filter screen 65 clamped in the clamping groove 64 is driven to slide in the front and back direction through the sliding of the sliding plate I63, the raw materials and grinding balls are separated through the sliding of the filter screen 65, the raw materials are discharged through the discharge hole 61, the grinding balls are remained in the ball milling roller 3, the sliding rod 611 is driven to slide in the front and back direction in the sliding groove II 610 under the action of external force, the sliding of the sliding rod 611 drives the cylindrical rods 69 to slide in the front-back direction in the round holes 67, under the matching clamping action between the inner ends of the two cylindrical rods 69 and the inner parts of the corresponding round grooves 66 respectively, the filter screen 65 is firmly clamped in the clamping grooves 64, under the action of the springs 68, the matching clamping between the inner ends of the cylindrical rods 69 and the inner parts of the corresponding round grooves 66 is more stable, when the filter screen 65 needs to be disassembled, the sliding rod 611 is moved outwards to separate the inner ends of the cylindrical rods 69 from the inner parts of the corresponding round grooves 66, the disassembly and replacement of the filter screen 65 are realized, the output shaft of the motor III 76 is driven to rotate under the action of an external power supply, the rotation of the output shaft of the motor III 76 drives the threaded shaft 74 to rotate, under the threaded connection action between the outer sides of the threaded shaft 74 and the middle parts of the sliding blocks 72, the sliding block 72 is driven to slide in the left-right direction in the sliding groove III 71 through the rotation of the threaded shaft 74, the supporting plate 73 is driven to slide in the left-right direction through the sliding of the sliding block 72, the material collecting box on the upper side of the supporting plate 73 is driven to slide in the left-right direction through the sliding of the supporting plate 73, the collection effect of the discharged raw materials in the ball milling roller 3 is realized through the material collecting box, the hiding effect of the sliding plate II 10 is realized under the effect of the sliding groove IV 8, the sliding plate II 10 is driven to slide in the front-back direction through the electric telescopic rod I9, when the ball milling roller 3 works, the electric telescopic rod I9 drives the sliding plate II 10 to slide forwards to realize the sealing effect of the position of the discharging hole 61, when the discharging is needed, the electric telescopic rod I9 drives the sliding plate II 10 to slide to the inner and outer parts of the sliding groove IV 8, the raw materials are discharged through the discharging hole 61, the hiding effect of the arc-shaped sliding block 13 is realized under the effect of the arc-shaped groove 11, the arc-shaped sliding block 13 is driven to inwards slide through the electric telescopic rod II 12, raw materials inside the ball milling roller 3 are pushed to the discharge hole 61 through the inwards sliding of the arc-shaped sliding block 13, the convex strips 15 are welded inside the ball milling roller 3 more stably under the action of the long grooves 14, the friction force between the steel balls and the inside of the ball milling roller 3 is increased through the convex strips 15, and the grinding speed of the raw materials is increased.

It should be noted that, in the above embodiment, the first motor 56 is a three-phase asynchronous motor, the second motor 616 is a servo motor, and the third motor 76 is a servo motor, and the control switch set controls the first motor 56, the second motor 616 and the third motor 76 to operate by a method commonly used in the prior art.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (7)

1. A ball milling device for preparing amino molding compound granules comprises a bottom plate (1) and a discharging unit (6); bottom plate (1): the ball milling machine comprises a ball milling roller (3), wherein a support frame (2) is arranged at the front end and the rear end of the upper side respectively, the upper sides of the two support frames (2) are provided with ball milling rollers (3) along the front-rear direction, the outer sides of the ball milling rollers (3) are rotationally connected with the upper sides of the two support frames (2), a feed inlet (4) is arranged at the rear end of the ball milling rollers (3), a convex ring is arranged at the rear end of the feed inlet (4), a cover body (16) is connected with the rear end of the outer side of the convex ring in a threaded manner, a rubber circular ring (17) is clamped at the outer side of the cover body (16), a rotating unit (5) is arranged at the right end of the upper side of the bottom plate (1), and the rotating unit (5) is matched and connected with the outer side of the ball milling rollers (3); the method is characterized in that:

the discharging unit (6) comprises a discharging hole (61), a first sliding chute (62), a first sliding plate (63), a clamping groove (64), a filter screen (65), a circular groove (66), a round hole (67), a spring (68), a cylindrical rod (69), a second sliding chute (610), a sliding rod (611) and a power component, wherein the discharging hole (61) is formed in the upper side of the ball milling roller (3), the first sliding chute (62) is formed in the front and back direction of the inside of the discharging hole (61), the first sliding plate (63) is slidingly connected in the front and back direction of the inside of the first sliding chute (62), the first sliding plate (63) is connected with the inside of the discharging hole (61) in a matched manner, the middle part of the upper side of the first sliding plate (63) is provided with the clamping groove (64), the filter screen (65) is clamped in the inside of the clamping groove (64), the front and back ends of the filter screen (65) are respectively provided with the circular groove (66), the front and back ends of the inside of the clamping groove (64) are respectively provided with a round hole (67), the outer ends of the inside of the two round holes (67) are respectively provided with a round hole (68), the inner ends of the two springs (69) are respectively connected with the cylindrical rods (69) in a sliding manner, the inner ends of the two cylindrical rods (69) are respectively matched and clamped with the interiors of the corresponding circular grooves (66), the outer ends of the upper sides of the interiors of the two circular holes (67) are respectively provided with a second sliding groove (610) along the front-rear direction, the upper ends of the second sliding grooves (610) penetrate out of the upper sides of the first sliding plates (63), the two sliding rods (611) are arranged, the lower ends of the two sliding rods (611) are respectively connected with the interiors of the corresponding second sliding grooves (610) in a sliding manner through the outer ends of the upper sides of the cylindrical rods (69), and the front ends of the interiors of the first sliding grooves (62) are provided with power assemblies which are matched and connected with the front ends of the upper sides of the first sliding plates (63);

the automatic feeding device is characterized by further comprising a sliding groove IV (8), an electric telescopic rod I (9) and a sliding plate II (10), wherein the sliding groove IV (8) is formed in the discharge hole (61) along the front-rear direction, the sliding groove IV (8) is positioned on the upper side of the sliding groove I (62), the electric telescopic rod I (9) is arranged at the rear end of the sliding groove IV (8), the sliding plate II (10) is in sliding connection with the inner side of the sliding groove IV (8) along the front-rear direction through the electric telescopic rod I (9), and the lower side of the sliding plate II (10) is connected with the upper side of the discharge hole (61) in a matched manner;

the ball milling roller comprises a ball milling roller body, and is characterized by further comprising arc grooves (11), electric telescopic rods II (12) and arc sliding blocks (13), wherein the upper sides of the front end and the rear end of the interior of the ball milling roller body (3) are respectively provided with one arc groove (11), the outer ends of the interior of the two arc grooves (11) are respectively provided with one electric telescopic rod II (12), and the inner ends of the two electric telescopic rods II (12) are respectively provided with one arc sliding block (13); when discharging is needed, the arc-shaped sliding blocks inwards slide to push the raw materials in the ball milling roller to the discharge port;

the inner circumferential side surface of the ball milling roller (3) is uniformly provided with long grooves (14) along the front-rear direction respectively, and a raised strip (15) is welded in each long groove (14) along the front-rear direction respectively, so that the grinding speed is increased.

2. The ball milling device for preparing amino molding compound pellets according to claim 1, wherein: the power assembly comprises a square groove (612), a first rotating shaft (613) and a disc (614), wherein the square groove (612) is formed in the front end of the upper side of the first sliding plate (63), the side surfaces of the upper end and the lower end of the first rotating shaft (613) are respectively connected with the upper side and the lower side of the front end of the first sliding groove (62) in a rotating mode, the middle of the outer side of the first rotating shaft (613) is fixedly connected with the eccentric position of the disc (614), and the outer side of the disc (614) is connected with the inner side of the square groove (612) in a sliding mode.

3. A ball milling apparatus for preparing amino molding compound pellets as claimed in claim 2, wherein: the power assembly further comprises an arc-shaped fixing block II (615) and a motor II (616), the motor II (616) is fixedly connected to the front end of the upper side of the ball milling roller (3) through the arc-shaped fixing block II (615), an output shaft of the motor II (616) is fixedly connected with the upper end of the rotating shaft I (613), and an input end of the motor II (616) is electrically connected with an output end of an external power supply through an external control switch group.

4. The ball milling device for preparing amino molding compound pellets according to claim 1, wherein: the ball milling device is characterized in that the rotating unit (5) comprises a fixed seat (51), a driving shaft (52), a driving gear (53) and a gear ring (54), two fixed seats (51) are arranged at the right end of the upper side of the bottom plate (1), the side surfaces of the front end and the rear end of the driving shaft (52) are respectively connected with the inner sides of the two fixed seats (51) in a rotating mode, the driving gear (53) is fixedly connected with the middle part of the outer side of the driving shaft (52), the gear ring (54) is arranged at the rear end of the outer side of the ball milling roller (3), and the driving gear (53) is connected with the gear ring (54) in a meshed mode.

5. The ball milling device for preparing amino molding compound pellets according to claim 4, wherein: the rotating unit (5) further comprises an arc-shaped fixing block I (55) and a motor I (56), the motor I (56) is fixedly connected to the rear side of the rear end fixing seat (51) through the arc-shaped fixing block I (55), an output shaft of the motor I (56) is fixedly connected with the rear end of the driving shaft (52), and an input end of the motor I (56) is electrically connected with an output end of an external power supply through an external control switch group.

6. The ball milling device for preparing amino molding compound pellets according to claim 1, wherein: still including receiving material unit (7), receive material unit (7) including spout three (71), slider (72), backup pad (73) and power structure, spout three (71) have been seted up along controlling the direction in the upside middle part of bottom plate (1), the inside of spout three (71) is followed controlling direction sliding connection and is had slider (72), the upside of slider (72) is provided with backup pad (73), cooperation connection between the upside of backup pad (73) and the downside of receiving the material.

7. The ball milling device for preparing amino molding compound pellets according to claim 6, wherein: the power structure comprises a threaded shaft (74), an arc-shaped fixing block III (75) and a motor III (76), wherein the side surfaces of the left end and the right end of the threaded shaft (74) are respectively connected with the left side and the right side of the inside of a sliding groove III (71) in a rotating mode, the outer side of the threaded shaft (74) is connected with the middle of a sliding block (72) in a threaded mode, the motor III (76) is fixedly connected to the left side of a bottom plate (1) through the arc-shaped fixing block III (75), an output shaft of the motor III (76) is fixedly connected with the left end of the threaded shaft (74), and the input end of the motor III (76) is electrically connected with the output end of an external power supply through an external control switch group.