CN109433311A - A kind of ceramic machinery milling device - Google Patents

Abstract

The present invention relates to a kind of mechanical milling devices, it in particular is a kind of ceramic machinery milling device, including complete machine bracket, be milled cylinder, power mechanism, feedback mechanism, transmission mechanism and milling mechanism, feedback mechanism and transmission mechanism can be driven simultaneously by power mechanism while being rotated, transmission mechanism carries out laterally transmission by screw thread and milling mechanism is pushed to be moved downwards, II pair of compressed spring milling wheel being arranged in milling mechanism generates certain extruding force, milling wheel is rotated in milling conically shaped under the drive of friction cone II, the taper of milling wheel is less than the taper of milling conically shaped, the upper end diameter of milling wheel and milling conically shaped is all larger than lower end diameter, milling wheel will drop into containing box after the ceramic grinding powder milling being milled in conically shaped from sieving plate.

Description

A kind of ceramic machinery milling device

Technical field

The present invention relates to a kind of mechanical milling devices, are in particular a kind of ceramic machinery milling devices.

Background technique

Such as publication number CN205146327U ceramic machinery milling device, including milling chassis and matches with the milling chassis Close disk on the milling of milling, wherein the milling chassis includes the first bottom plate and is fixedly mounted on several on first bottom plate Root is milled needle, and disk includes the second bottom plate and is fixedly mounted on the second bottom plate and several milling needles cooperation milling on the milling Be milled column, offers axis hole in the middle part of first bottom plate, which has bottom surface and top surface, the bottom of axis hole periphery It is convexly equipped with a round fin on face, several strip fins are provided between the circle fin and the axis hole；The utility model The disadvantage is that cannot be according to the torque for the different phase adjust automatically machinery milling being milled to ceramic machinery.

Summary of the invention

The object of the present invention is to provide a kind of ceramic machinery milling device, the different phase that can be milled according to ceramic machinery Adjust automatically machinery milling torque, when ceramics it is more larger when milling wheel the larger raising milling degree of torque, when ceramics compared with The torque of milling wheel smaller raising milling efficiency when few smaller.

The purpose of the present invention is achieved through the following technical solutions:

A kind of ceramic machinery milling device, including complete machine bracket, milling cylinder, power mechanism, feedback mechanism, transmission mechanism and Be milled mechanism, the complete machine bracket include side plate I, side plate II, rectangular slide hole, circular through hole I, rotational support plate, epipleural, Connecting plate slides waist hole I and circular through hole II, is provided with rectangular slide hole on side plate I and side plate II, is provided on side plate II The upper end of circular through hole I, side plate I and side plate II is fixedly connected to epipleural, and rotational support plate is fixedly connected on side plate I, It is fixedly connected with connecting plate between two epipleurals, sliding waist hole I and circular through hole II are provided on connecting plate；

The milling cylinder includes milling cylinder, milling conically shaped, connecting column, containing box, sliding panel I, sliding panel II, sliding Waist hole II, sieving plate, slide post, feeding inlet and milling top plate, the lower end for the cylinder that is milled are fixedly connected with milling conically shaped, are milled It is fixedly connected on conically shaped there are two connecting column, the lower end of two connecting columns is fixedly connected on containing box, and be milled cylinder Two sides have been respectively fixedly connected with sliding panel I and sliding panel II, and sliding waist hole II, sliding panel I and sliding panel are provided on sliding panel I II is slidably connected at respectively in two rectangular slide holes, is fixedly connected with slide post on the conically shaped that is milled, slide post is slidably connected Compressed spring I is set in circular through hole I, on slide post, compressed spring I is located between side plate II and milling conically shaped, mill The lower end of powder conically shaped is fixedly connected with sieving plate, and multiple screening holes are provided on sieving plate, is provided with pan feeding on the cylinder that is milled Mouthful, the upper end for the cylinder that is milled is fixedly connected with milling top plate；

The power mechanism includes motor, power cone tooth and power belt wheel, and power bores tooth and power belt wheel fixed company respectively It connects at the both ends of motor output shaft, motor is fixedly connected on side plate I；

The feedback mechanism includes resetting shaft, feedback cone tooth, friction cone I, feedback sliding shoe and limiting slot, resetting shaft It is rotatably connected on rotational support plate, the upper and lower ends of resetting shaft are rotatably connected to friction cone I and feedback cone tooth respectively, instead The middle-end of feedback axis is rotatably connected to feedback sliding shoe, and the two sides for feeding back sliding shoe are provided with limiting slot, and feedback sliding shoe passes through Limiting slot is slidably connected in sliding waist hole II, feedback cone tooth and power cone tooth engagement transmission；

The transmission mechanism includes transmission shaft, drive pulley and transmission gear, and the both ends of transmission shaft are rotatably connected on respectively On two epipleurals, one end of transmission shaft is fixedly connected with drive pulley, and drive pulley is connected with power belt wheel by V belt translation, The middle-end of transmission shaft is fixedly connected with transmission gear；

The milling mechanism include milling support plate I, sliding limiting slot, milling support plate II, milling axis I, milling gear, Milling cone tooth I, milling axis II, milling cone tooth II, milling thread plate, limited post, milling pushing plate, milling rotor plate, milling gear Plate, friction cone II, milling connecting shaft and milling wheel, the two sides of milling support plate I are provided with sliding limiting slot, milling branch Fagging I is slidably connected in sliding waist hole I by the sliding limiting slot of two sides, and the lower end of milling support plate I is fixedly connected with mill Powder support plate II, be milled support plate I on be rotatably connected to milling axis I, milling axis I both ends be respectively fixedly connected with milling gear Tooth I is bored with milling, be milled gear and transmission gear engaged transmission, is rotatably connected to milling axis II, milling in the support plate II that is milled The upper end of axis II is fixedly connected with milling cone tooth II, I engaged transmission of milling cone tooth II and milling cone tooth, the one end for the thread plate that is milled It is threadedly attached on milling axis II, the other end for the thread plate that is milled is fixedly connected with limited post, and limited post is slidably connected at In circular through hole II, the lower end for the thread plate that is milled is fixedly connected with milling pushing plate, and the lower end for the pushing plate that is milled is fixedly connected with Compressed spring II, the lower end of compressed spring II are fixedly connected with milling rotor plate, and milling rotor plate is rotatably connected on conical friction It takes turns on II, I frictional drive of friction cone II and friction cone, is fixedly connected with milling baffle on friction cone II, grind The lower end of powder baffle and milling rotor plate contact, the lower end of friction cone II are fixedly connected with milling connecting shaft, milling connection The lower end of axis is fixedly connected with milling wheel, and milling wheel is located in milling conically shaped, and milling connecting shaft clearance fit is in milling top plate On.

As advanced optimizing for the technical program, a kind of ceramic machinery milling device of the present invention, the friction cone I Identical with the taper of friction cone II, the diameter of I upper end of friction cone is less than the diameter of lower end, II upper end of friction cone Diameter be greater than lower end diameter.

As advanced optimizing for the technical program, a kind of ceramic machinery milling device of the invention, the transmission gear The facewidth is greater than the facewidth of milling gear.

As advanced optimizing for the technical program, a kind of ceramic machinery milling device of the present invention, the milling support plate I Parts processing.

As advanced optimizing for the technical program, a kind of ceramic machinery milling device of the present invention, the cone of the milling wheel Degree is less than the taper of milling conically shaped, and milling is taken turns and the upper end diameter of milling conically shaped is all larger than lower end diameter.

A kind of ceramic machinery milling device of the invention has the beneficial effect that

A kind of ceramic machinery milling device of the present invention can drive feedback mechanism and transmission mechanism by power mechanism simultaneously It is rotated simultaneously, transmission mechanism carries out laterally transmission by screw thread and milling mechanism is pushed to be moved downwards, in the mechanism that is milled II pair of compressed spring milling wheel of setting generates certain extruding force, and milling wheel is bored under the drive of friction cone II in milling It is rotated in shape cylinder, the taper for the wheel that is milled is less than the taper of milling conically shaped, the upper end diameter of milling wheel and milling conically shaped It is all larger than lower end diameter, milling wheel will drop into containing box after the ceramic grinding powder milling being milled in conically shaped from sieving plate, when When compressed spring II pushes friction cone II to carry out movement downwards with the generation relative motion of friction cone I, friction cone I The become larger velocity of rotation of friction cone II of drive diameter become faster, the velocity of rotation for the wheel that is milled becomes faster, and efficiency increases.

Detailed description of the invention

The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.

Fig. 1 is ceramic machinery milling device overall structure diagram of the invention；

Fig. 2 is ceramic machinery milling device section view figure structure schematic representation of the invention；

Fig. 3 is complete machine supporting structure schematic diagram of the invention；

Fig. 4 is milling barrel structure schematic diagram of the invention；

Fig. 5 is milling cylinder section view figure structure schematic representation of the invention；

Fig. 6 is power mechanism structural schematic diagram of the invention；

Fig. 7 is feedback mechanism structural schematic diagram of the invention；

Fig. 8 is schematic diagram of transmission mechanism of the invention；

Fig. 9 is milling mechanism structural schematic diagram of the invention；

Figure 10 is milling mechanism cross-sectional view structural schematic diagram of the invention.

In figure: complete machine bracket 1；I 1-1 of side plate；II 1-2 of side plate；Rectangular slide hole 1-3；I 1-4 of circular through hole；Rotational support Plate 1-5；Epipleural 1-6；Connecting plate 1-7；Slide I 1-8 of waist hole；II 1-9 of circular through hole；Be milled cylinder 2；Be milled cylinder 2-1；Milling Conically shaped 2-2；Connecting column 2-3；Containing box 2-4；I 2-5 of sliding panel；II 2-6 of sliding panel；Slide II 2-7 of waist hole；Sieving plate 2-8； Slide post 2-9；Feeding inlet 2-10；Be milled top plate 2-11；Power mechanism 3；Motor 3-1；Power bores tooth 3-2；Power belt wheel 3-3； Feedback mechanism 4；Resetting shaft 4-1；Feedback cone tooth 4-2；I 4-3 of friction cone；Feed back sliding shoe 4-4；Limiting slot 4-5；Driver Structure 5；Transmission shaft 5-1；Drive pulley 5-2；Transmission gear 5-3；Be milled mechanism 6；Be milled I 6-1 of support plate；Slide limiting slot 6-2； Be milled II 6-3 of support plate；Be milled I 6-4 of axis；Be milled gear 6-5；Milling cone I 6-6 of tooth；Be milled II 6-7 of axis；Milling cone II 6- of tooth 8；Be milled thread plate 6-9；Limited post 6-10；Be milled pushing plate 6-11；Be milled rotor plate 6-12；Be milled baffle 6-13；Taper is rubbed Wipe II 6-14 of wheel；Be milled connecting shaft 6-15；Milling wheel 6-16.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

Before illustrating specific embodiment, to avoid repeating language, illustrating " being fixedly connected " as described below can be with It is: is bolted, welds and the modes such as rivet interlacement are fixed, those skilled in the art can be according to different applications Scene selects the different modes that is fixedly connected, and main purpose is that two pieces part is fixed.

Specific embodiment 1:

Illustrate present embodiment, a kind of ceramic machinery milling device, including complete machine bracket 1, milling below with reference to Fig. 1-10 Cylinder 2, power mechanism 3, feedback mechanism 4, transmission mechanism 5 and milling mechanism 6 can drive feedback machine by power mechanism 3 simultaneously Structure 4 and transmission mechanism 5 are rotated simultaneously, and transmission mechanism 5 carries out laterally transmission by screw thread and milling mechanism 6 is pushed to carry out downwards It moves, II pair of the compressed spring milling wheel 6-16 being arranged in the mechanism 6 that is milled generates certain extruding force, and milling wheel 6-16 is in taper 2-2 is rotated in milling conically shaped under the drive of II 6-14 of friction pulley, and the taper of milling wheel 6-16 is less than milling conically shaped The upper end diameter of the taper of 2-2, milling wheel 6-16 and the conically shaped 2-2 that is milled are all larger than lower end diameter, and milling wheel 6-16 will be milled It is dropped into containing box 2-4 after ceramic grinding powder milling in conically shaped 2-2 from sieving plate 2-8, when compressed spring II pushes taper When II 6-14 of friction pulley carries out downwards movement with I 4-3 of friction cone generation relative motion, the transmission of I 4-3 of friction cone is straight The become larger velocity of rotation of II 6-14 of friction cone of diameter becomes faster, and the velocity of rotation of milling wheel 6-16 becomes faster, and efficiency increases.

The complete machine bracket 1 includes I 1-1 of side plate, II 1-2 of side plate, rectangular slide hole 1-3, I 1-4 of circular through hole, rotation branch Fagging 1-5, epipleural 1-6, connecting plate 1-7, sliding I 1-8 of waist hole and II 1-9 of circular through hole, on II 1-2 of I 1-1 of side plate and side plate It is provided with rectangular slide hole 1-3, I 1-4 of circular through hole, the upper end of II 1-2 of I 1-1 of side plate and side plate are provided on II 1-2 of side plate It is fixedly connected to epipleural 1-6, rotational support plate 1-5 is fixedly connected on I 1-1 of side plate, fixed between two epipleural 1-6 It is connected with connecting plate 1-7, sliding I 1-8 of waist hole and II 1-9 of circular through hole is provided on connecting plate 1-7；

The milling cylinder 2 includes milling cylinder 2-1, milling conically shaped 2-2, connecting column 2-3, containing box 2-4, sliding panel I 2-5, II 2-6 of sliding panel, sliding II 2-7 of waist hole, sieving plate 2-8, slide post 2-9, feeding inlet 2-10 and milling top plate 2-11, mill The lower end of powder cylinder 2-1 is fixedly connected with milling conically shaped 2-2, is fixedly connected on the conically shaped 2-2 that is milled there are two connecting column 2- 3, the lower end of two connecting column 2-3 is fixedly connected on containing box 2-4, and the two sides of milling cylinder 2-1 have been respectively fixedly connected with Sliding II 2-7 of waist hole, I 2-5 of sliding panel and sliding panel II are provided on I 2-5 of sliding panel and sliding panel II 2-6, I 2-5 of sliding panel 2-6 is slidably connected at respectively in two rectangular slide hole 1-3, is fixedly connected with slide post 2-9 on the conically shaped 2-2 that is milled, is slided Column 2-9 is slidably connected in I 1-4 of circular through hole, and compressed spring I is set on slide post 2-9, and compressed spring I is located at side plate II Between 1-2 and milling conically shaped 2-2, the lower end of milling conically shaped 2-2 is fixedly connected with sieving plate 2-8, is arranged on sieving plate 2-8 There are multiple screening holes, be provided with feeding inlet 2-10 on the cylinder 2-1 that is milled, milling top plate 2- is fixedly connected on the cylinder 2-1 that is milled 11；

The power mechanism 3 includes motor 3-1, power cone tooth 3-2 and power belt wheel 3-3, and power bores tooth 3-2 and powered belt Wheel 3-3 is respectively fixedly connected at the both ends of motor 3-1 output shaft, and motor 3-1 is fixedly connected on I 1-1 of side plate；

The feedback mechanism 4 include resetting shaft 4-1, feedback cone tooth 4-2, I 4-3 of friction cone, feedback sliding shoe 4-4 and Limiting slot 4-5, resetting shaft 4-1 are rotatably connected on rotational support plate 1-5, and the upper and lower ends of resetting shaft 4-1 are rotatablely connected respectively There are I 4-3 of friction cone and feedback cone tooth 4-2, the middle-end of resetting shaft 4-1 is rotatably connected to feedback sliding shoe 4-4, feedback sliding The two sides of block 4-4 are provided with limiting slot 4-5, and feedback sliding shoe 4-4 is slidably connected at sliding II 2- of waist hole by limiting slot 4-5 In 7, feedback cone tooth 4-2 and power cone tooth 3-2 engaged transmission；

The transmission mechanism 5 includes transmission shaft 5-1, drive pulley 5-2 and transmission gear 5-3, the both ends point of transmission shaft 5-1 It is not rotatably connected on two epipleural 1-6, one end of transmission shaft 5-1 is fixedly connected with drive pulley 5-2, drive pulley 5-2 It is connected with power belt wheel 3-3 by V belt translation, the middle-end of transmission shaft 5-1 is fixedly connected with transmission gear 5-3；

The milling mechanism 6 includes milling I 6-1 of support plate, sliding limiting slot 6-2, milling II 6-3 of support plate, milling axis I 6-4, milling gear 6-5, milling cone I 6-6 of tooth, milling II 6-7 of axis, milling cone II 6-8 of tooth, milling thread plate 6-9, limited post 6- 10, be milled pushing plate 6-11, milling rotor plate 6-12, milling baffle 6-13, II 6-14 of friction cone, milling connecting shaft 6-15 6-16 is taken turns with milling, the two sides of milling I 6-1 of support plate are provided with sliding limiting slot 6-2, and milling I 6-1 of support plate passes through two sides Sliding limiting slot 6-2 be slidably connected at sliding I 1-8 of waist hole in, milling I 6-1 of support plate lower end be fixedly connected with milling branch Milling I 6-4 of axis is rotatably connected on II 6-3 of fagging, I 6-1 of support plate that is milled, the both ends of milling I 6-4 of axis have been respectively fixedly connected with Be milled gear 6-5 and milling cone I 6-6 of tooth, and be milled gear 6-5 and transmission gear 5-3 engaged transmission, is milled on II 6-3 of support plate It is rotatably connected to milling II 6-7 of axis, the upper end of milling II 6-7 of axis is fixedly connected with milling cone II 6-8 of tooth, milling cone II 6-8 of tooth With milling cone I 6-6 of tooth engaged transmission, one end of milling thread plate 6-9 is threadedly attached on milling II 6-7 of axis, and be milled spiral shell The other end of card 6-9 is fixedly connected with limited post 6-10, and limited post 6-10 is slidably connected in II 1-9 of circular through hole, milling The lower end of thread plate 6-9 is fixedly connected with milling pushing plate 6-11, and the lower end of milling pushing plate 6-11 is fixedly connected with compression bullet Spring II, the lower end of compressed spring II are fixedly connected with milling rotor plate 6-12, and milling rotor plate 6-12 is rotatably connected on taper and rubs It wipes on II 6-14 of wheel, I 4-3 frictional drive of II 6-14 of friction cone and friction cone, it is fixed on II 6-14 of friction cone It is connected with milling baffle 6-13, the lower end for the baffle 6-13 that is milled and milling rotor plate 6-12 contact, II 6-14's of friction cone Lower end is fixedly connected with milling connecting shaft 6-15, and the lower end of milling connecting shaft 6-15 is fixedly connected with milling wheel 6-16, milling wheel 6-16 is located in milling conically shaped 2-2, and milling connecting shaft 6-15 clearance fit is on milling cylinder 2-1.

I 4-3 of friction cone is identical with the taper of II 6-14 of friction cone, I upper end 4-3 of friction cone it is straight Diameter is less than the diameter of lower end, and the diameter of II upper end 6-14 of friction cone is greater than the diameter of lower end.

The facewidth of the transmission gear 5-3 is greater than the facewidth of milling gear 6-5；In the drive diameter of I 4-3 of friction cone When becoming larger, the drive diameter of II 6-14 of friction cone is constant, and I 4-3 of friction cone pushes friction cone II by taper 6-14 is moved to II side 1-2 of side plate, and II 6-14 of friction cone drives milling connecting shaft 6-15 to occur to II side 1-2 of side plate Mobile, milling connecting shaft 6-15 drives milling cylinder 2 and milling mechanism 6 to squeeze compressed spring I and moves to II side 1-2 of side plate, Relative displacement occurs for the gear 6-5 and transmission gear 5-3 that is milled, and the facewidth of transmission gear 5-3 is greater than the facewidth of milling gear 6-5, Transmission gear 5-3 can still drive milling gear 6-5 to be rotated when relative displacement occurs for the gear 6-5 that is milled.

The I 6-1 parts processing of milling support plate；Milling I 6-1 of support plate is divided into two component processings, guarantees milling support I 6-1 of plate can be installed into sliding I 1-8 of waist hole.

The taper of the milling wheel 6-16 is less than the taper of milling conically shaped 2-2, milling wheel 6-16 and milling conically shaped 2-2 Upper end diameter be all larger than lower end diameter；Keep the relative slot generated between milling conically shaped 2-2 and the milling wheel upper end 6-16 big The gap formed between milling conically shaped 2-2 and the milling wheel lower end 6-16, ceramics are gradually ground from top to bottom when being milled Powder；The ceramics that will be milled when use are placed in milling conically shaped 2-2 by feeding inlet 2-10, start motor 3-1, motor 3- 1 output shaft starts turning, and the output shaft of motor 3-1 drives power cone tooth 3-2 and power belt wheel 3-3 with motor 3-1 output shaft Axis centered on rotated, power cone tooth 3-2 drive feedback cone tooth 4-2 turned centered on the axis of resetting shaft 4-1 Dynamic, feedback cone tooth 4-2 drives resetting shaft 4-1 to be rotated centered on the axis of resetting shaft 4-1, and resetting shaft 4-1 drives taper I 4-3 of friction pulley is rotated centered on the axis of resetting shaft 4-1, and power belt wheel 3-3 drives drive pulley 5-2 with transmission shaft It is rotated centered on the axis of 5-1, drive pulley 5-2 drives transmission shaft 5-1 to be turned centered on the axis of transmission shaft 5-1 Dynamic, transmission shaft 5-1 is rotated centered on the axis of transmission shaft 5-1 with nutating gear 5-3, and transmission gear 5-3 drives mill Powder gear 6-5 is rotated centered on the axis for I 6-4 of axis that is milled, and milling gear 6-5 drives milling I 6-4 of axis with the axis I that is milled Rotated centered on the axis of 6-4, milling I 6-4 of axis drive milling cone I 6-6 of tooth centered on the axis for I 6-4 of axis that is milled into Row rotation, milling cone I 6-6 of tooth drive milling cone II 6-8 of tooth to be rotated centered on the axis for II 6-7 of axis that is milled, milling cone II 6-8 of tooth drives milling II 6-7 of axis to be rotated centered on the axis for II 6-7 of axis that is milled, and milling II 6-7 of axis passes through thread belt Dynamic milling thread plate 6-9 is moved downwards, and milling thread plate 6-9 is moved downwards under the limit of limited post 6-10, is ground Powder thread plate 6-9 pushes milling pushing plate 6-11 to be moved downwards, and milling pushing plate 6-11 squeezes compressed spring II and pushes cone II 6-14 of shape friction pulley is moved downwards, and I 4-3 of friction cone is identical with the taper of II 6-14 of friction cone, and taper is rubbed The diameter for wiping I upper end 4-3 of wheel is less than the diameter of lower end, and the diameter of II upper end 6-14 of friction cone is greater than the diameter of lower end, cone I 4-3 of shape friction pulley under the promotion of compressed spring I with II 6-14 frictional drive of friction cone, I 4-3 of friction cone drive II 6-14 of friction cone is rotated centered on the axis for the connecting shaft 6-15 that is milled, and II 6-14 of friction cone drives milling Connecting shaft 6-15 is rotated centered on the axis for the connecting shaft 6-15 that is milled, milling connecting shaft 6-15 drive milling wheel 6-16 with It is rotated centered on the axis of milling connecting shaft 6-15, the taper of milling wheel 6-16 is less than the taper of milling conically shaped 2-2, grinds The upper end diameter of powder wheel 6-16 and milling conically shaped 2-2 are all larger than lower end diameter；Make to be milled on conically shaped 2-2 and milling wheel 6-16 The relative slot generated between end is greater than the gap that is formed between milling conically shaped 2-2 and the milling wheel lower end 6-16, ceramics into It is gradually milled from top to bottom when row milling；When milling wheel 6-16 to ceramics be gradually milled when, be milled conically shaped 2-2 in ceramics by Decrescence few, compressed spring II pushes II 6-14 of friction cone to be moved downwards, II 6-14 of friction cone and conical friction It takes turns I 4-3 and relative displacement gradually occurs, the drive diameter of I 4-3 of friction cone becomes larger, and II 6-14's of friction cone turns Dynamic speed slowly increases, and the velocity of rotation of II 6-14 of friction cone slowly becomes faster, and torque slowly reduces, II 6- of friction cone The ceramics being milled in conically shaped 2-2 when 14 torques are big are more to need biggish torque, and II 6-14 torque of friction cone greatly can be with Increase milling degree, the ceramics being milled in conically shaped 2-2 are less not to need biggish torque, and II 6-14 of friction cone, which increases, to be turned Dynamic speed, improves efficiency.

A kind of ceramic machinery milling device of the invention, its working principle is that:

The ceramics that will be milled when use are placed in milling conically shaped 2-2 by feeding inlet 2-10, start motor 3-1, The output shaft of motor 3-1 starts turning, and the output shaft of motor 3-1 drives power cone tooth 3-2 and power belt wheel 3-3 with motor 3-1 It is rotated centered on the axis of output shaft, power bores tooth 3-2 and drives feedback cone tooth 4-2 centered on the axis of resetting shaft 4-1 It is rotated, feedback cone tooth 4-2 drives resetting shaft 4-1 to be rotated centered on the axis of resetting shaft 4-1, resetting shaft 4-1 band Dynamic I 4-3 of friction cone is rotated centered on the axis of resetting shaft 4-1, power belt wheel 3-3 drive drive pulley 5-2 with It is rotated centered on the axis of transmission shaft 5-1, drive pulley 5-2 drives transmission shaft 5-1 centered on the axis of transmission shaft 5-1 It is rotated, transmission shaft 5-1 is rotated centered on the axis of transmission shaft 5-1 with nutating gear 5-3, transmission gear 5-3 Milling gear 6-5 is driven to be rotated centered on the axis for I 6-4 of axis that is milled, milling gear 6-5 drives milling I 6-4 of axis to grind It is rotated centered on the axis of I 6-4 of powder axis, milling I 6-4 of axis drives during milling cone I 6-6 of tooth with the axis for I 6-4 of axis that is milled is The heart is rotated, and milling cone I 6-6 of tooth drives milling cone II 6-8 of tooth to be rotated centered on the axis for II 6-7 of axis that is milled, and is ground Powder cone II 6-8 of tooth drives milling II 6-7 of axis to be rotated centered on the axis for II 6-7 of axis that is milled, and milling II 6-7 of axis passes through spiral shell Line drives milling thread plate 6-9 to be moved downwards, and milling thread plate 6-9 is transported downwards under the limit of limited post 6-10 Dynamic, milling thread plate 6-9 pushes milling pushing plate 6-11 to be moved downwards, and milling pushing plate 6-11 squeezes compressed spring II and pushes away Dynamic II 6-14 of friction cone is moved downwards, and I 4-3 of friction cone is identical with the taper of II 6-14 of friction cone, cone The diameter of I upper end 4-3 of shape friction pulley is less than the diameter of lower end, and the diameter of II upper end 6-14 of friction cone is greater than the straight of lower end Diameter, I 4-3 of friction cone under the promotion of compressed spring I with II 6-14 frictional drive of friction cone, I 4-3 of friction cone II 6-14 of friction cone is driven to be rotated centered on the axis for the connecting shaft 6-15 that is milled, II 6-14 of friction cone drives Milling connecting shaft 6-15 is rotated centered on the axis for the connecting shaft 6-15 that is milled, and milling connecting shaft 6-15 drives milling wheel 6- 16 are rotated centered on the axis for the connecting shaft 6-15 that is milled, and the taper of milling wheel 6-16 is less than the cone of milling conically shaped 2-2 The upper end diameter of degree, milling wheel 6-16 and the conically shaped 2-2 that is milled are all larger than lower end diameter；Make be milled conically shaped 2-2 and milling wheel The relative slot generated between the upper end 6-16 is greater than the gap formed between milling conically shaped 2-2 and the milling wheel lower end 6-16, pottery Porcelain is gradually milled from top to bottom when being milled；When milling wheel 6-16 is gradually milled to ceramics, it is milled in conically shaped 2-2 Ceramics gradually decrease, and compressed spring II pushes II 6-14 of friction cone to be moved downwards, II 6-14 of friction cone and cone Relative displacement gradually occurs for I 4-3 of shape friction pulley, and the drive diameter of I 4-3 of friction cone becomes larger, II 6- of friction cone 14 velocity of rotation slowly increases, and the velocity of rotation of II 6-14 of friction cone slowly becomes faster, and torque slowly reduces, conical friction Take turns II 6-14 torque it is big when milling conically shaped 2-2 in ceramics more need biggish torque, II 6-14 torque of friction cone Milling degree can be increased greatly, the ceramics being milled in conically shaped 2-2 are less not to need biggish torque, II 6-14 of friction cone Increase velocity of rotation, improves efficiency.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention Protect range.

Claims (5)

1. a kind of ceramic machinery milling device, including complete machine bracket (1), milling cylinder (2), power mechanism (3), feedback mechanism (4), Transmission mechanism (5) and milling mechanism (6), it is characterised in that: the complete machine bracket (1) includes side plate I (1-1), II (1- of side plate 2), rectangular slide hole (1-3), circular through hole I (1-4), rotational support plate (1-5), epipleural (1-6), connecting plate (1-7), cunning Waist hole I (1-8) and circular through hole II (1-9) are moved, is provided with rectangular slide hole (1- on side plate I (1-1) and side plate II (1-2) 3) it, is provided with circular through hole I (1-4) on side plate II (1-2), the upper end of side plate I (1-1) and side plate II (1-2) is fixedly connected with Have epipleural (1-6), rotational support plate (1-5) is fixedly connected on side plate I (1-1), fixed between two epipleurals (1-6) to connect It is connected to connecting plate (1-7), sliding waist hole I (1-8) and circular through hole II (1-9) is provided on connecting plate (1-7)；

The milling cylinder (2) includes milling cylinder (2-1), milling conically shaped (2-2), connecting column (2-3), containing box (2-4), slides Movable plate I (2-5), sliding panel II (2-6), sliding waist hole II (2-7), sieving plate (2-8), slide post (2-9), feeding inlet (2-10) With milling top plate (2-11), the lower end of milling cylinder (2-1) is fixedly connected with milling conically shaped (2-2), is milled conically shaped (2-2) On be fixedly connected there are two connecting column (2-3), the lower end of two connecting columns (2-3) is fixedly connected on containing box (2-4), is ground The two sides of powder cylinder (2-1) have been respectively fixedly connected with sliding panel I (2-5) and sliding panel II (2-6), are arranged on sliding panel I (2-5) There is sliding waist hole II (2-7), sliding panel I (2-5) and sliding panel II (2-6) are slidably connected at two rectangular slide hole (1- respectively 3) it in, is fixedly connected with slide post (2-9) on milling conically shaped (2-2), slide post (2-9) is slidably connected at I (1- of circular through hole 4) in, be set with compressed spring I on slide post (2-9), compressed spring I be located at side plate II (1-2) and be milled conically shaped (2-2) it Between, the lower end of milling conically shaped (2-2) is fixedly connected with sieving plate (2-8), multiple screening holes are provided on sieving plate (2-8), It is provided with feeding inlet (2-10) on milling cylinder (2-1), the upper end of milling cylinder (2-1) is fixedly connected with milling top plate (2- 11)；

The power mechanism (3) includes motor (3-1), power cone tooth (3-2) and power belt wheel (3-3), power cone tooth (3-2) and Power belt wheel (3-3) is respectively fixedly connected at the both ends of motor (3-1) output shaft, and motor (3-1) is fixedly connected on I (1- of side plate 1) on；

The feedback mechanism (4) includes resetting shaft (4-1), feedback cone tooth (4-2), friction cone I (4-3), feedback sliding shoe (4-4) and limiting slot (4-5), resetting shaft (4-1) are rotatably connected on rotational support plate (1-5), and up and down the two of resetting shaft (4-1) End is rotatably connected to friction cone I (4-3) and feedback cone tooth (4-2) respectively, and the middle-end of resetting shaft (4-1) is rotatably connected to instead It presents sliding shoe (4-4), the two sides of feedback sliding shoe (4-4) are provided with limiting slot (4-5), and feedback sliding shoe (4-4) passes through limit Position slot (4-5) is slidably connected in sliding waist hole II (2-7), feedback cone tooth (4-2) and power cone tooth (3-2) engaged transmission；

The transmission mechanism (5) includes transmission shaft (5-1), drive pulley (5-2) and transmission gear (5-3), transmission shaft (5-1) Both ends are rotatably connected on respectively on two epipleurals (1-6), and one end of transmission shaft (5-1) is fixedly connected with drive pulley (5-2), Drive pulley (5-2) is connected with power belt wheel (3-3) by V belt translation, and the middle-end of transmission shaft (5-1) is fixedly connected with driving cog It takes turns (5-3)；

The milling mechanism (6) includes milling support plate I (6-1), sliding limiting slot (6-2), milling support plate II (6-3), mill Powder axis I (6-4), milling gear (6-5), milling cone tooth I (6-6), milling axis II (6-7), milling cone tooth II (6-8), milling spiral shell Card (6-9), limited post (6-10), milling pushing plate (6-11), milling rotor plate (6-12), milling baffle (6-13), taper Friction pulley II (6-14), milling connecting shaft (6-15) and milling wheel (6-16), the two sides of milling support plate I (6-1) are provided with It slides limiting slot (6-2), milling support plate I (6-1) is slidably connected at sliding waist hole I by the sliding limiting slot (6-2) of two sides In (1-8), the lower end of milling support plate I (6-1) is fixedly connected with milling support plate II (6-3), is milled on support plate I (6-1) It is rotatably connected to milling axis I (6-4), the both ends of milling axis I (6-4) have been respectively fixedly connected with milling gear (6-5) and milling cone Tooth I (6-6), milling gear (6-5) and transmission gear (5-3) engaged transmission, be milled support plate II (6-3) on be rotatably connected to mill Powder axis II (6-7), the upper end of milling axis II (6-7) are fixedly connected with milling cone tooth II (6-8), and milling is bored tooth II (6-8) and ground Powder bores tooth I (6-6) engaged transmission, and one end of milling thread plate (6-9) is threadedly attached on milling axis II (6-7), milling The other end of thread plate (6-9) is fixedly connected with limited post (6-10), and limited post (6-10) is slidably connected at II (1- of circular through hole 9) in, the lower end of milling thread plate (6-9) is fixedly connected with milling pushing plate (6-11), and the lower end of milling pushing plate (6-11) is solid Surely it is connected with compressed spring II, the lower end of compressed spring II is fixedly connected with milling rotor plate (6-12), and be milled rotor plate (6- 12) it is rotatably connected on friction cone II (6-14), friction cone II (6-14) and friction cone I (4-3) friction pass It is dynamic, milling baffle (6-13) is fixedly connected on friction cone II (6-14), the lower end of milling baffle (6-13) and milling turn Movable plate (6-12) contact, the lower end of friction cone II (6-14) are fixedly connected with milling connecting shaft (6-15), and be milled connecting shaft The lower end of (6-15) is fixedly connected with milling wheel (6-16), and milling wheel (6-16) is located in milling conically shaped (2-2), milling connection Axis (6-15) clearance fit is on milling top plate (2-11).

2. a kind of ceramic machinery milling device according to claim 1, it is characterised in that: the friction cone I (4-3) Identical with the taper of friction cone II (6-14), the diameter of the upper end friction cone I (4-3) is less than the diameter of lower end, taper The diameter of the upper end friction pulley II (6-14) is greater than the diameter of lower end.

3. a kind of ceramic machinery milling device according to claim 2, it is characterised in that: the transmission gear (5-3) The facewidth is greater than the facewidth of milling gear (6-5).

4. a kind of ceramic machinery milling device according to claim 3, it is characterised in that: the milling support plate I (6-1) Parts processing.

5. a kind of ceramic machinery milling device according to claim 4, it is characterised in that: the cone of the milling wheel (6-16) The taper for being less than milling conically shaped (2-2) is spent, milling takes turns (6-16) and the upper end diameter of milling conically shaped (2-2) is all larger than lower end Diameter.