CN111841741A

CN111841741A - Method for manufacturing building material by recycling ceramic product

Info

Publication number: CN111841741A
Application number: CN202010745608.2A
Authority: CN
Inventors: 王蒙蒙; 夏文进
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-29
Filing date: 2020-07-29
Publication date: 2020-10-30

Abstract

The invention relates to a method for recycling and manufacturing building materials by ceramic products, which uses a ceramic crushing device, wherein the ceramic crushing device comprises a base, a crushing unit and a grinding unit, the upper end of the base is provided with the crushing unit, and the inner wall of the lower end of the base is provided with the grinding unit; according to the invention, the ceramic product is crushed in a multi-element manner by combining clamping crushing and top cracking crushing, and the ceramic product is not retained at the crushing position, so that the problem that the ceramic product slides at the upper end of the crushing roller and cannot be effectively crushed due to the fact that the surface of the ceramic product is too smooth is solved; according to the invention, the ceramic is crushed by a combined mode of extrusion and grinding, so that the crushing effect of the ceramic product is improved, and the grinding end is opened and closed to facilitate the blanking of ceramic powder.

Description

Method for manufacturing building material by recycling ceramic product

Technical Field

The invention relates to the technical field of building material manufacturing, in particular to a method for manufacturing a building material by recycling and reusing ceramic products.

Background

The pottery is a general name of pottery and porcelain, is also an industrial art in China, is made of clay with high viscosity and strong plasticity as a main raw material, is opaque, has fine pores and weak water absorption, and makes sound turbid when hit. The porcelain is made of clay, feldspar and quartz, is semitransparent, does not absorb water, is corrosion resistant, has hard and compact matrix, and is crisp when being knocked. The traditional ceramic handicraft in China is high in quality, beautiful in shape, high in artistic value and famous in the world.

At present, the outer surface of a building is often decorated and treated by colored ceramic particles, and the colored ceramic particles have the characteristics of skid resistance, wear resistance, environmental protection, corrosion resistance, low water absorption, bright color, high grade, beauty, fastness, hardness, firmness, long service life and the like, so that the preparation of the waste ceramic into the colored ceramsite of the building material is an effective scheme for recycling the ceramic.

The ceramic is often needed to be crushed in the recovery process, and the following problems are encountered in the process of crushing the ceramic: firstly, in the primary cracking process of ceramics, the surface of the ceramic product is too smooth, so that the ceramics slide at the upper end of a crushing roller and cannot be effectively crushed, and the crushing efficiency of the ceramics is influenced greatly because the auxiliary crushing is required manually; secondly, when the ceramic is crushed by grinding, the problem that ceramic powder is difficult to feed is often caused.

Disclosure of Invention

The invention aims to provide a method for recycling and manufacturing a building material by ceramic products, which has the advantages of fixing frames with different specifications by adjusting, fixing frames by automatic shooting nails and the like and solves the problems.

A method for recycling and manufacturing building materials by ceramic products uses a ceramic crushing device, the ceramic crushing device comprises a base, a crushing unit and a grinding unit, and the method for recycling the ceramic products by adopting the ceramic crushing device further comprises the following steps:

s1, equipment checking: carrying out routine inspection on the device before starting the device in a manual or mechanical auxiliary mode;

s2, loading operation: manually guiding the waste ceramic products to a crushing position;

s3, crushing: the ceramic product at the crushing position is preliminarily crushed into small blocks by the crushing unit;

s4, grinding: screening the ceramic products crushed into small pieces through a grinding unit so as to perform secondary grinding treatment;

s5, dyeing operation: dyeing the ceramic particles produced after milling for the decoration of architectural appearances;

the crushing unit is arranged at the upper end of the base, and the grinding unit is arranged on the inner wall of the lower end of the base; the crushing unit is used for primarily crushing the ceramic product into small blocks, and the grinding unit is used for screening the crushed small blocks and carrying out secondary grinding treatment.

The crushing unit comprises a crushing frame, a rotating motor, a rotating gear, a rotating shaft, a crushing toothed plate, a guide frame and a cracking mechanism, wherein the crushing frame is arranged at the upper end of a base, a rotating cavity is formed in the inner wall of the rear end of the crushing frame, the rotating motor is arranged on the inner wall of the rear end of the rotating cavity through a motor base, the rotating shaft is arranged on the inner wall of the front end of the crushing frame in a bilateral symmetry mode through a bearing, the rotating gear is arranged at the rear end of the rotating shaft and connected with the rotating gear in a meshing mode, the output end of the rotating motor is connected with the rear end of the rotating gear on the right side through a coupler, the crushing toothed plate is uniformly arranged on the outer wall of the rotating shaft from front to; the rotating motor drives the rotating shaft to rotate in the opposite direction through the rotating gear, so that the ceramic product is clamped and crushed through the staggered crushing toothed plates, and the ceramic product which cannot be crushed by the crushing toothed plates is pushed and crushed by the cracking mechanism.

The breaking mechanism comprises an auxiliary motor, a threaded column, a guide column, a nut block, a sliding column, a matching wheel and a track block, wherein the auxiliary motor is arranged on the inner wall of the front end of the guide frame through a motor base; the roller carrier is connected with the track block in a sliding mode; the auxiliary motor drives the nut block to feed back and forth through the threaded column so as to drive the sliding column to feed, and the sliding column is driven to feed up and down in a reciprocating manner through the matching of the matching wheel and the track block, so that the ceramic product is downwards burst through the sliding column.

The milling unit comprises a guide cylinder, a blanking table, a rotary table frame, an upper pressing plate, a lower pressing plate, an extruding mechanism, a milling mechanism, a material distributing plate and a blanking channel, wherein the guide cylinder is arranged on the inner wall of the lower end of the base; the extrusion mechanism is arranged at the right end of the base, the grinding mechanism is arranged in the rotating table frame, the material distributing plate is arranged on the inner wall of the guide cylinder, and the blanking channel is formed in the left end of the base.

In a preferred embodiment of the present invention, the crushing gears are distributed on the outer wall of the rotating shaft in a staggered manner.

As a preferred scheme of the invention, the extrusion mechanism comprises a motor frame, an extrusion motor, a feed screw, a matching block, a sliding column and an auxiliary spring, wherein the motor frame is arranged at the right end of the base, the extrusion motor is arranged on the inner wall of the upper end of the motor frame through a motor base, the feed screw is arranged at the lower end of the output end of the extrusion motor, thread grooves are symmetrically formed in the upper and lower ends of the outer wall of the feed screw, the matching block is connected with the thread grooves in a threaded connection mode, the left end of the matching block is respectively connected with the upper pressing plate and the lower pressing plate, the sliding column is arranged between the inner walls of the upper end and the lower end. The extrusion motor drives the matching block to feed inwards through the feed screw, so that the upper pressing plate and the lower pressing plate feed inwards to extrude the small ceramic blocks.

As a preferred scheme of the invention, the grinding mechanism comprises a driving motor, a belt pulley, a rotating roller, a transmission belt and a grinding disc, the driving motor is arranged on the inner wall of the lower end of the rotary table frame through a motor base, the belt pulley is arranged at the upper end of the output end of the driving motor, the rotating roller is arranged on the inner wall of the upper end of the rotary table frame through a bearing, the transmission belt is sleeved on the outer walls of the belt pulley and the rotating roller, the grinding disc is symmetrically arranged at the upper end and the lower end of the rotary table frame, and the rotating roller is connected with. The driving motor drives the rotating roller to rotate through the belt pulley and the transmission belt, so that the grinding disc is driven to rotate through the meshing fit of the rotating roller and the grinding disc, and the small ceramic blocks are ground.

According to a preferable scheme of the invention, the outer wall of the guide cylinder is sequentially provided with a material distributing groove, a material returning groove and a guide groove from top to bottom, the material distributing groove is positioned on the upper side of the rotary table frame, the material returning groove is positioned on the lower side of the rotary table frame, and the guide groove is positioned on the upper side of the inner wall of the lower end of the guide cylinder. The small ceramic blocks with larger particles are subjected to primary grinding by the material distribution groove, the small ceramic blocks subjected to primary grinding are guided into the material guide cylinder through the material return groove, and the small ceramic blocks subjected to grinding are guided to a secondary grinding position through the material guide groove.

As a preferable scheme of the invention, the inner walls of the left end and the right end of the crushing frame are provided with inclined planes.

(III) advantageous effects

1. According to the invention, the ceramic product is crushed in a multi-element manner by combining clamping crushing and top cracking crushing, and the ceramic product is not retained at the crushing position, so that the problem that the ceramic product slides at the upper end of the crushing roller and cannot be effectively crushed due to the fact that the surface of the ceramic product is too smooth is solved; according to the invention, the ceramic is crushed by a combined mode of extrusion and grinding, so that the crushing effect of the ceramic product is improved, and the grinding end is opened and closed to facilitate the blanking of ceramic powder.

2. According to the invention, the crushed small ceramic blocks are guided into the guide cylinder through the blanking table, the ceramic blocks with larger specifications are guided into the primary grinding position through the material distribution plate, the screened small ceramic blocks are guided into the secondary grinding position, the extrusion mechanism drives the upper pressing plate and the lower pressing plate to feed inwards, so that the small ceramic blocks are extruded by the turntable frame, and the grinding mechanism drives the extruded small ceramic blocks to rotate, so that the grinding treatment is completed.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of a method for recycling the ceramic article of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic cross-sectional view of section A-A of the present invention;

fig. 4 is a schematic view of the inventive breaker plate construction;

FIG. 5 is a schematic view of a portion of the rupture mechanism of the present invention;

FIG. 6 is an enlarged view of a portion I of FIG. 3 in accordance with the present invention;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 6, a method for recycling and manufacturing a building material from a ceramic product, which uses a ceramic crushing apparatus including a base 1, a crushing unit 2, and a grinding unit 3, further includes the steps of:

s3, crushing: the ceramic product at the crushing position is preliminarily crushed into small blocks by the crushing unit 2;

s4, grinding: the ceramic ware crushed into small pieces is sieved by a milling unit 3 to be subjected to secondary milling treatment;

the crushing unit 2 is arranged at the upper end of the base 1, and the grinding unit 3 is arranged on the inner wall of the lower end of the base 1; the crushing unit 2 is used for primarily crushing the ceramic product into small blocks, and the grinding unit 3 is used for screening the crushed small blocks and carrying out secondary grinding treatment.

The crushing unit 2 comprises a crushing frame 21, a rotating motor 22, a rotating gear 23, a rotating shaft 24, a crushing toothed plate 25, a guide frame 26 and a crushing mechanism 27, wherein the crushing frame 21 is arranged at the upper end of the base 1, a rotating cavity is formed in the inner wall of the rear end of the crushing frame 21, the rotating motor 22 is arranged on the inner wall of the rear end of the rotating cavity through a motor base, the rotating shaft 24 is bilaterally and symmetrically arranged on the inner wall of the front end of the crushing frame 21 through a bearing, the rotating gear 23 is arranged at the rear end of the rotating shaft 24, the rotating gears 23 are connected in a meshing mode, the output end of the rotating motor 22 is connected with the rear end of the rotating gear 23 on the right side through a coupler, the crushing toothed plate 25 is uniformly arranged on the outer wall of the rotating shaft 24 from front to back, the guide frame; the inner walls of the left end and the right end of the crushing frame 21 are provided with inclined planes. The crushing gears are distributed on the outer wall of the rotating shaft 24 in a staggered mode. The rotating motor 22 drives the rotating shaft 24 to rotate in the opposite direction through the rotating gear 23, so that the ceramic products are crushed through the staggered crushing toothed plates 25, and the crushing mechanism 27 crushes the ceramic products which cannot be crushed by the crushing toothed plates 25.

The breaking mechanism 27 comprises an auxiliary motor 271, a threaded column 272, a guide column 273, a nut block 274, a sliding column 275, a matching wheel 276 and a track block 277, wherein the auxiliary motor 271 is arranged on the inner wall of the front end of the guide frame 26 through a motor base, the threaded column 272 is arranged at the rear end of the output end of the auxiliary motor 271, the guide column 273 is arranged between the inner walls of the front end and the rear end of the guide frame 26, the nut block 274 is connected with the threaded column 272 in a threaded connection mode, the nut block 274 is connected with the guide column 273 in a sliding mode, the sliding column 275 is connected with the nut block 274 in a sliding mode, a roller frame is arranged at the upper end of the sliding column 275, the matching wheel 276 is arranged between the inner walls of the front end and the rear end of the roller frame through a bearing; the roller frame is connected with the track block 277 in a sliding manner; the auxiliary motor 271 drives the nut block 274 to feed back and forth through the threaded column 272, so as to drive the sliding column 275 to feed, and drives the sliding column 276 to feed up and down in a reciprocating manner through the matching of the matching wheel 276 and the track block 277, so as to break the ceramic product downwards through the sliding column 275.

The milling unit 3 comprises a guide cylinder 31, a discharging platform 32, a rotating platform frame 33, an upper pressure plate 34, a lower pressure plate 35, an extruding mechanism 36, a milling mechanism 37, a material distributing plate 38 and a discharging channel 39, wherein the guide cylinder 31 is arranged on the inner wall of the lower end of the base 1, the discharging platform 32 is arranged at the upper end of the guide cylinder 31, the rotating platform frame 33 is arranged on the inner wall of the base 1, matching grooves are symmetrically formed in the inner wall of the base 1 in the left-right direction, the upper pressure plate 34 is connected with the matching grooves in a sliding mode, and the lower pressure plate 35 is connected with the matching grooves in a sliding mode; the extruding mechanism 36 is arranged at the right end of the base 1, the grinding mechanism 37 is arranged in the rotary table frame 33, the material distributing plate 38 is arranged on the inner wall of the guide cylinder 31, and the discharging channel 39 is arranged at the left end of the base 1. The crushed small ceramic blocks 32 are guided into the guide cylinder 1 through the discharging table, the ceramic blocks with larger specifications are guided into the primary grinding position through the material distributing plate 38, the screened small ceramic blocks are guided into the secondary grinding position, the extruding mechanism 36 drives the upper pressing plate 34 and the lower pressing plate 35 to feed inwards, so that the small ceramic blocks are extruded by the rotating table frame 33, and the small ceramic blocks extruded by the extruding mechanism 37 are driven to rotate, so that the grinding treatment is completed.

Extrusion mechanism 36 include motor frame 361, extrusion motor 362, feed screw 363, cooperation piece 364, traveller 365 and auxiliary spring 366, base 1 right-hand member is provided with motor frame 361, be provided with extrusion motor 362 through the motor cabinet on the inner wall of motor frame 361 upper end, extrusion motor 362 output end lower extreme is provided with feed screw 363, the thread groove has been seted up to feed screw 363 outer wall longitudinal symmetry, cooperation piece 364 is connected with the thread groove through threaded connection mode, cooperation piece 364 left end is connected with top board 34 and lower clamp plate 35 respectively, be provided with traveller 365 between the inner wall of both ends about the cooperation groove, the cover is equipped with auxiliary spring 366 on the traveller 365 outer wall. The extrusion motor 361 drives the matching block 364 to feed inwards through the feed screw 363, so that the upper pressure plate 34 and the lower pressure plate 35 feed inwards to extrude small pieces of ceramics.

Milling mechanism 37 include driving motor 371, belt pulley 372, rotating roller 373, driving belt 374 and milling dish 375, driving motor 371 passes through the motor cabinet setting on revolving stage frame 33 lower extreme inner wall, driving motor 371 output upper end is provided with belt pulley 372, rotating roller 373 passes through the bearing setting on revolving stage frame 33 upper end inner wall, the cover is equipped with driving belt 374 on belt pulley 372 and the rotating roller 373 outer wall, revolving stage frame 33 upper and lower both ends symmetry are provided with milling dish 375, rotating roller 373 is connected with milling dish 375 through the meshing mode. The driving motor 371 drives the rotating roller 373 to rotate through the belt pulley 372 and the driving belt 374, so as to drive the grinding disc 375 to rotate through the meshing engagement of the rotating roller 373 and the grinding disc 375, and the small ceramic pieces are ground.

Divide silo, feed back groove and baffle box from last down having seted up in proper order on the guide cylinder 31 outer wall, divide the silo to be located the revolving stage frame 33 upside, and the feed back groove is located the revolving stage frame 33 downside, and the baffle box is located guide cylinder 31 lower extreme inner wall upside. The small ceramic blocks with larger particles are subjected to primary grinding by the material distribution groove, the small ceramic blocks subjected to primary grinding are guided into the material guide cylinder through the material return groove, and the small ceramic blocks subjected to grinding are guided to a secondary grinding position through the material guide groove.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A method for recycling and reusing ceramic products to manufacture building materials uses a ceramic crushing device which comprises a base (1), a crushing unit (2) and a grinding unit (3), and is characterized in that: the method for recycling the ceramic product by adopting the ceramic crushing device further comprises the following steps:

s3, crushing: the ceramic product at the crushing position is preliminarily crushed into small blocks by the crushing unit (2);

s4, grinding: screening the ceramic products crushed into small pieces by a grinding unit (3) so as to carry out secondary grinding treatment;

the crushing unit (2) is arranged at the upper end of the base (1), and the grinding unit (3) is arranged on the inner wall of the lower end of the base (1);

the crushing unit (2) comprises a crushing frame (21), a rotating motor (22), a rotating gear (23), a rotating shaft (24), a crushing toothed plate (25), a guide frame (26) and a breaking mechanism (27), wherein the crushing frame (21) is arranged at the upper end of the base (1), a rotating cavity is formed in the inner wall of the rear end of the crushing frame (21), the rotating motor (22) is arranged on the inner wall of the rear end of the rotating cavity through a motor base, the rotating shaft (24) is bilaterally and symmetrically arranged on the inner wall of the front end of the crushing frame (21) through a bearing, the rotating gear (23) is arranged at the rear end of the rotating shaft (24), the rotating gears (23) are connected in a meshing mode, the output end of the rotating motor (22) is connected with the rear end of the rotating gear (23) on the right side through a coupler, the crushing toothed plate (25) is uniformly arranged on the outer wall of the rotating shaft (, a breaking mechanism (27) is arranged between the inner walls of the front end and the rear end of the guide frame (26);

the breaking mechanism (27) comprises an auxiliary motor (271), a threaded column (272), a guide column (273), a nut block (274), a sliding column (275), a matching wheel (276) and a track block (277), an auxiliary motor (271) is arranged on the inner wall of the front end of a guide frame (26) through a motor base, a threaded column (272) is arranged at the rear end of the output end of the auxiliary motor (271), a guide column (273) is arranged between the inner walls of the front end and the rear end of the guide frame (26), a nut block (274) is connected with the threaded column (272) in a threaded connection mode, the nut block (274) is connected with the guide column (273) in a sliding mode, a sliding column (275) is connected with the nut block (274) in a sliding mode, a roller frame is arranged at the upper end of the sliding column (275), a matching wheel (276) is arranged between the inner walls of the front end and the rear end of the roller frame through a bearing, and a track block (277) is; the roller frame is connected with a track block (277) in a sliding way;

the milling unit (3) comprises a guide cylinder (31), a blanking table (32), a rotary table frame (33), an upper pressure plate (34), a lower pressure plate (35), an extrusion mechanism (36), a milling mechanism (37), a material distributing plate (38) and a blanking channel (39), guide cylinder (31) set up on base (1) lower extreme inner wall, guide cylinder (31) upper end is provided with unloading platform (32), revolving rack (33) set up on base (1) inner wall, the cooperation groove has been seted up to bilateral symmetry on base (1) inner wall, top board (34) are connected with the cooperation groove through the slip mode, bottom board (35) are connected with the cooperation groove through the slip mode, extruding means (36) set up at base (1) right-hand member, grinding means (37) set up in revolving rack (33), be provided with branch flitch (38) on guide cylinder (31) inner wall, unloading way (39) have been seted up to base (1) left end.

2. The method for manufacturing building materials by recycling ceramic products according to claim 1, wherein the method comprises the following steps: the crushing gears are distributed on the outer wall of the rotating shaft (24) in a staggered mode.

3. The method for manufacturing building materials by recycling ceramic products according to claim 1, wherein the method comprises the following steps: extrusion mechanism (36) include motor frame (361), extrusion motor (362), feed screw (363), cooperation piece (364), traveller (365) and auxiliary spring (366), base (1) right-hand member is provided with motor frame (361), be provided with extrusion motor (362) through the motor cabinet on motor frame (361) upper end inner wall, extrusion motor (362) output lower extreme is provided with feed screw (363), the thread groove has been seted up to feed screw (363) outer wall longitudinal symmetry, cooperation piece (364) are connected with the thread groove through the threaded connection mode, cooperation piece (364) left end is connected with top board (34) and holding down plate (35) respectively, be provided with traveller (365) between the inner wall of both ends about the cooperation groove, the cover is equipped with auxiliary spring (366) on traveller (365) outer wall.

4. The method for manufacturing building materials by recycling ceramic products according to claim 1, wherein the method comprises the following steps: milling mechanism (37) include driving motor (371), belt pulley (372), live-rollers (373), driving belt (374) and millstone (375), driving motor (371) pass through the motor cabinet setting on revolving stage frame (33) lower extreme inner wall, driving motor (371) output upper end is provided with belt pulley (372), live-rollers (373) set up on revolving stage frame (33) upper end inner wall through the bearing, the cover is equipped with driving belt (374) on belt pulley (372) and live-rollers (373) outer wall, both ends symmetry is provided with millstone (375) about revolving stage frame (33), live-rollers (373) are connected with millstone (375) through the meshing mode.

5. The method for manufacturing building materials by recycling ceramic products according to claim 1, wherein the method comprises the following steps: the outer wall of the guide cylinder (31) is sequentially provided with a material distributing groove, a material returning groove and a guide groove from top to bottom, the material distributing groove is positioned on the upper side of the rotary table frame (33), the material returning groove is positioned on the lower side of the rotary table frame (33), and the guide groove is positioned on the upper side of the inner wall of the lower end of the guide cylinder (31).

6. The method for manufacturing building materials by recycling ceramic products according to claim 1, wherein the method comprises the following steps: the inner walls of the left end and the right end of the crushing frame (21) are provided with inclined planes.