CN113276272A - High temperature chamotte recycle clay removes stone and mixes integrative device - Google Patents
High temperature chamotte recycle clay removes stone and mixes integrative device Download PDFInfo
- Publication number
- CN113276272A CN113276272A CN202110416583.6A CN202110416583A CN113276272A CN 113276272 A CN113276272 A CN 113276272A CN 202110416583 A CN202110416583 A CN 202110416583A CN 113276272 A CN113276272 A CN 113276272A
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- fixedly connected
- bevel gear
- clay
- rod
- underframe
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- 239000004927 clay Substances 0.000 title claims abstract description 131
- 239000004575 stone Substances 0.000 title claims abstract description 83
- 238000002156 mixing Methods 0.000 claims abstract description 72
- 238000004140 cleaning Methods 0.000 claims abstract description 55
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 30
- 239000000843 powder Substances 0.000 claims abstract description 22
- 239000004570 mortar (masonry) Substances 0.000 claims abstract description 18
- 238000004064 recycling Methods 0.000 claims abstract description 16
- 230000005540 biological transmission Effects 0.000 claims description 128
- 238000000926 separation method Methods 0.000 claims description 30
- 238000003756 stirring Methods 0.000 claims description 27
- 230000000903 blocking effect Effects 0.000 claims description 13
- 238000001125 extrusion Methods 0.000 claims description 12
- 238000005507 spraying Methods 0.000 claims description 11
- 238000007789 sealing Methods 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 4
- 239000004576 sand Substances 0.000 claims 1
- 239000012634 fragment Substances 0.000 abstract description 6
- 230000000694 effects Effects 0.000 abstract description 3
- 239000000463 material Substances 0.000 abstract description 3
- 238000005201 scrubbing Methods 0.000 abstract description 3
- 230000009970 fire resistant effect Effects 0.000 description 4
- 238000010298 pulverizing process Methods 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 239000011230 binding agent Substances 0.000 description 2
- 239000000919 ceramic Substances 0.000 description 2
- 238000003801 milling Methods 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- 239000007921 spray Substances 0.000 description 2
- 230000001680 brushing effect Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000000227 grinding Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000004014 plasticizer Substances 0.000 description 1
- 238000010926 purge Methods 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28C—PREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28C1/00—Apparatus or methods for obtaining or processing clay
- B28C1/10—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants
- B28C1/14—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom
- B28C1/16—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom for homogenising, e.g. by mixing, kneading ; forcing through slots
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B1/00—Cleaning by methods involving the use of tools
- B08B1/10—Cleaning by methods involving the use of tools characterised by the type of cleaning tool
- B08B1/12—Brushes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B1/00—Cleaning by methods involving the use of tools
- B08B1/20—Cleaning of moving articles, e.g. of moving webs or of objects on a conveyor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B3/00—Cleaning by methods involving the use or presence of liquid or steam
- B08B3/02—Cleaning by the force of jets or sprays
- B08B3/022—Cleaning travelling work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28C—PREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28C1/00—Apparatus or methods for obtaining or processing clay
- B28C1/10—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants
- B28C1/14—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom
- B28C1/18—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom for comminuting clay lumps
- B28C1/187—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom for comminuting clay lumps using co-operating rotating elements, e.g. cutters
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28C—PREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28C1/00—Apparatus or methods for obtaining or processing clay
- B28C1/10—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants
- B28C1/14—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom
- B28C1/20—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom for separating undesired admixed bodies, e.g. stones
- B28C1/203—Apparatus or methods for obtaining or processing clay for processing clay-containing substances in non-fluid condition ; Plants specially adapted for homogenising, comminuting or conditioning clay in non-fluid condition or for separating undesired admixtures therefrom for separating undesired admixed bodies, e.g. stones by forcing the clay through screens or slots, e.g. having exchangeable screens or slots
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P40/00—Technologies relating to the processing of minerals
- Y02P40/60—Production of ceramic materials or ceramic elements, e.g. substitution of clay or shale by alternative raw materials, e.g. ashes
Landscapes
- Chemical & Material Sciences (AREA)
- Dispersion Chemistry (AREA)
- Crushing And Grinding (AREA)
- Cleaning By Liquid Or Steam (AREA)
Abstract
The invention relates to the technical field of high-temperature materials, in particular to a high-temperature refractory clay recycling clay stone removing and mixing integrated device. The technical problem is as follows: provides a high-temperature refractory mortar recycling clay stone removing and mixing integrated device. The technical scheme is as follows: a high-temperature refractory clay recycling clay stone removing and mixing integrated device comprises a bottom frame, a controller, a stone removing assembly, a clay cleaning assembly and a crushing and mixing assembly; the chassis is connected with the controller. When the invention is used, stones in the clay are removed, and the clay remained on the stones is scrubbed, collected and utilized, so that the clay is fully utilized, and simultaneously, the scrubbing water is also utilized, resources are saved, meanwhile, the used refractory clay fragments are crushed into powder to be sprayed out to be fully mixed and stirred with the clay and the water, the mixing effect is ensured, the clay does not need to be operated, and the manpower and the time are saved.
Description
Technical Field
The invention relates to the technical field of high-temperature materials, in particular to a high-temperature refractory clay recycling clay stone removing and mixing integrated device.
Background
The fire-resistant clay is made up by using fire-resistant clinker powder and proper quantity of plastic clay as binding agent and plasticizer, and is called general fire-resistant clay, its normal temperature strength is low, and its high strength is only formed into ceramic bond at high temperature, and its chemical bonding fire-resistant clay is made up by using hydraulic, air-hardening or hot-hardening bonding material as binding agent, and can produce a certain chemical reaction before its temp. is lower than the ceramic bonding temp. so as to make it hardened.
Among the prior art, need add water with its clay after getting rid of the stone and stir the mixture when recycle fire clay, and the fire clay after using is cubic, the texture is harder, it needs to stir for a long time to mix in the clay to directly add, and be unfavorable for and carry out the intensive mixing with the clay, and the stone in the clay needs to be got rid of in advance, collect the operation so that use to the clay again, it can't collect the utilization and led to the fact the wasting of resources to remain many clays on the stone of getting rid of, it has wasted a large amount of manpowers and time to handle the stone again and collect clay operation in-process simultaneously.
In conclusion, the device integrating the functions of removing stones and mixing the clay for recycling the high-temperature refractory mortar is provided.
Disclosure of Invention
In order to overcome when recycle fire clay need add water with its clay after getting rid of the stone and stir the mixture, and the fire clay after using is cubic, the texture is harder, it needs to stir for a long time to mix in the clay to directly add, and be unfavorable for and carry out the intensive mixing with the clay, and the stone in the clay needs to be got rid of in advance, collect the operation so that use to the clay again, it can't collect the utilization and led to the fact the wasting of resources to remain many clays on the stone of getting rid of, the while is handled the stone and is collected the shortcoming of a large amount of manpowers and time again in the clay operation process, the technical problem: provides a high-temperature refractory mortar recycling clay stone removing and mixing integrated device.
The technical scheme is as follows: a high-temperature refractory clay recycling clay stone removing and mixing integrated device comprises a bottom frame, a controller, a stone removing assembly, a clay cleaning assembly, a crushing and mixing assembly and a stone collecting box; the chassis is connected with the controller; the underframe is connected with the stone removing component; the underframe is connected with the clay cleaning component; the bottom frame is connected with the crushing and mixing component; the underframe is connected with the stone collecting box; the stone removing component is connected with the clay cleaning component; the clay cleaning component is connected with the crushing and mixing component.
Preferably, the stone removing component comprises a motor, a first transmission rod, a first bevel gear, a second bevel gear, a third bevel gear, a telescopic rod, a first fixing frame, a first electric push rod, a rectangular frame, a first elastic sheet, a second elastic sheet, a separating frame, a supporting plate, a second electric push rod, a first push plate, a third electric push rod, a first U-shaped frame, a second push plate, a fourth electric push rod, a second U-shaped frame, a squeezing plate, a fifth electric push rod, an electric sliding block, an electric sliding rail, a first guide plate, a disc, a fixing shaft and a connecting plate; the motor is fixedly connected with the underframe; the output shaft of the motor is fixedly connected with the first transmission rod; the first transmission rod is rotatably connected with the bottom frame; the first transmission rod is fixedly connected with the first bevel gear and the second bevel gear in sequence; the second bevel gear is connected with the clay cleaning component; a third bevel gear is arranged on the side surface of the first bevel gear; when the third bevel gear is meshed with the first bevel gear, the third bevel gear rotates; when the third bevel gear is not meshed with the first bevel gear, the third bevel gear does not rotate; the third bevel gear is fixedly connected with the telescopic rod; the telescopic rod is rotatably connected with the underframe; the telescopic rod is rotatably connected with the first fixing frame; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the rectangular frame is rotationally connected with the telescopic rod; the rectangular frame is fixedly connected with the underframe; the rectangular frame is fixedly connected with the first elastic sheet and the second elastic sheet in sequence; the first elastic sheet and the second elastic sheet are fixedly connected with the separation frame; the two sides of the rectangular frame are symmetrically provided with a combination of a first elastic sheet and a second elastic sheet; a support plate is arranged on the side surface of the separation frame; the supporting plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; the two sides of the separation frame are symmetrically provided with a combination of a supporting plate and a second electric push rod; the first push plate is connected with the separation frame in a sliding manner; the third electric push rod is fixedly connected with the first push plate; the third electric push rod is fixedly connected with the first U-shaped frame; the first U-shaped frame is fixedly connected with the separation frame; the second push plate is in sliding connection with the separation frame; the second push plate is fixedly connected with the fourth electric push rod; the fourth electric push rod is fixedly connected with the second U-shaped frame; the second U-shaped frame is fixedly connected with the separation frame; an extrusion plate is arranged above the first U-shaped frame; the extrusion plate is fixedly connected with the fifth electric push rod; the fifth electric push rod is fixedly connected with the electric slide block; the electric sliding block is connected with the electric sliding rail in a sliding manner; the electric slide rail is fixedly connected with the underframe; a first guide plate is arranged below the second U-shaped frame; the first guide plate is fixedly connected with the underframe; the disc is fixedly connected with the telescopic rod; the disc is fixedly connected with the fixed shaft; the fixed shaft is rotatably connected with one side of the connecting plate; the other side of the connecting plate is fixedly connected with the separating frame through a connecting block.
Preferably, the clay cleaning component comprises a fourth bevel gear, a second transmission rod, a first shaft sleeve, a fifth bevel gear, a sixth bevel gear, a second fixing frame, a sixth electric push rod, a seventh bevel gear, a third transmission rod, a first flat gear, a first roller brush, a second flat gear, a fourth transmission rod, a first transmission wheel, a second roller brush, a cleaning box, a water sprayer, a sieve plate, a second guide plate and an electric baffle; the fourth bevel gear is meshed with the second bevel gear; the fourth bevel gear is fixedly connected with the second transmission rod; the second transmission rod is rotatably connected with the underframe; the second transmission rod is connected with the first shaft sleeve in a sliding manner; two sides of the first shaft sleeve are fixedly connected with a fifth bevel gear and a sixth bevel gear respectively; the first shaft sleeve is rotatably connected with the second fixing frame; the second fixing frame is fixedly connected with the sixth electric push rod; the sixth electric push rod is fixedly connected with the underframe; a seventh bevel gear is arranged on the side surface of the first shaft sleeve; the seventh bevel gear is fixedly connected with the third transmission rod; the third transmission rod is rotatably connected with the underframe; the third transmission rod is rotatably connected with the cleaning box; the third transmission rod is fixedly connected with the first flat gear; the third transmission rod is fixedly connected with the first roller brush; the first flat gear is meshed with the second flat gear; the second flat gear is fixedly connected with a fourth transmission rod; the fourth transmission rod is rotatably connected with the underframe; the fourth transmission rod is rotatably connected with the cleaning box; the fourth transmission rod is fixedly connected with the first transmission wheel; the first driving wheel is connected with the crushing and mixing component; the second roller brush is fixedly connected with the fourth transmission rod; the cleaning box is fixedly connected with the underframe; a water sprayer is arranged above the cleaning box; the water sprayer is fixedly connected with the underframe; a sieve plate is arranged below the water sprayer; the sieve plate is fixedly connected with the cleaning box; a second guide plate is arranged below the sieve plate; the second guide plate cleaning box is fixedly connected; the electric baffle is rotationally connected with the cleaning box.
Preferably, the crushing and mixing component comprises a second transmission wheel, a fifth transmission rod, a third transmission wheel, an eighth bevel gear, a ninth bevel gear, a tenth bevel gear, a sixth transmission rod, a cylinder, a mixing barrel, a first arc-shaped stirring rod, a second arc-shaped stirring rod, a fourth transmission wheel, a crushing roller, a second shaft sleeve, a mud blocking basin, a crushing barrel, a feeding hopper, an electric cover plate, a fan, a fixed plate, a seventh electric push rod, a powder spraying pipe and a circular electric sealing plate; the second transmission wheel is in transmission connection with the first transmission wheel through a belt; the second driving wheel is fixedly connected with a fifth driving rod; the fifth transmission rod is rotatably connected with the underframe; two sides of the fifth transmission rod are fixedly connected with the third transmission wheel and the eighth bevel gear respectively; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; two sides of the eighth bevel gear are respectively meshed with the ninth bevel gear and the tenth bevel gear; the ninth bevel gear is fixedly connected with the sixth transmission rod; the tenth bevel gear is fixedly connected with the cylinder; the sixth transmission rod is rotatably connected with the underframe; the cylinder is rotationally connected with the mixing barrel; the mixing barrel is fixedly connected with the bottom frame; three groups of first arc-shaped stirring rods are annularly and equidistantly arranged on the outer ring surface of the sixth transmission rod; the three groups of first arc-shaped stirring rods are fixedly connected with a sixth transmission rod; three groups of second arc-shaped stirring rods are annularly and equidistantly arranged on the outer annular surface of the cylinder; the three groups of second arc-shaped stirring rods are fixedly connected with the cylinder; the fourth driving wheel is fixedly connected with the crushing roller; the crushing roller is rotationally connected with the underframe; the crushing roller is connected with the second shaft sleeve in a sliding way; the second shaft sleeve is rotationally connected with the mud blocking basin; the mud blocking basin is connected with the crushing barrel in a sliding way; the crushing cylinder is fixedly connected with the underframe; the crushing cylinder is fixedly connected with the feed hopper; the electric cover plate is in sliding connection with the feed hopper; the fan is fixedly connected with the crushing barrel; the fan is fixedly connected with the underframe; the fixed plate is fixedly connected with the mud blocking basin; the fixing plate is fixedly connected with the seventh electric push rod; the seventh electric push rod is fixedly connected with the underframe; the powder spraying pipe is fixedly connected with the crushing barrel; a second shaft sleeve, a mud baffle basin, a fan, a fixed plate, a seventh electric push rod and a powder spraying pipe are symmetrically arranged on two sides of the crushing barrel; the round electric sealing plate is rotationally connected with the mixing barrel.
Preferably, the crushing roller is provided with raised lines on both sides, and the second shaft sleeve is provided with corresponding grooves.
Preferably, a plurality of sets of semi-spheres are arranged on the outer annular surface of the crushing roller.
Preferably, a plurality of groups of semi-spheres are arranged on the inner ring surface of the crushing cylinder.
Preferably, the milling drum is provided with rectangular holes.
The invention has the beneficial effects that: 1. in order to solve the problems that in the prior art, when the refractory clay is recycled, the refractory clay needs to be stirred and mixed with clay after stones are removed, the used refractory clay is blocky and hard in texture, the refractory clay needs to be stirred and mixed for a long time when being directly added into the clay, the refractory clay is not beneficial to being fully mixed with the clay, the stones in the clay need to be removed in advance, the clay is collected and operated for use, a lot of clay remained on the removed stones cannot be collected and utilized, so that resource waste is caused, and a large amount of manpower and time are wasted in the operation process of collecting the clay by treating the stones;
2. the device comprises a stone removing component, a clay cleaning component and a crushing and mixing component, wherein the stone removing component, the clay cleaning component and the crushing and mixing component are designed, when the device is prepared to work, the device is placed on a horizontal plane, a power supply is switched on, clay is poured into the stone removing component on an underframe, the stone removing component is controlled by a controller to separate clay from the stone, the separated clay falls into the crushing and mixing component, the stone is conveyed into the clay cleaning component, the clay cleaning component scrubs the clay remained on the stone and collects the clay into the crushing and mixing component, the cleaned stone is collected in a stone collecting box, meanwhile, the used refractory clay is placed into the crushing and mixing component to be crushed and ground, and then the refractory clay powder is sprayed out to be mixed with the clay and water;
3. when the invention is used, stones in the clay are removed, and the clay remained on the stones is scrubbed, collected and utilized, so that the clay is fully utilized, and simultaneously, the scrubbing water is also utilized, resources are saved, meanwhile, the used refractory clay fragments are crushed into powder to be sprayed out to be fully mixed and stirred with the clay and the water, the mixing effect is ensured, the clay does not need to be operated, and the manpower and the time are saved.
Drawings
FIG. 1 is a schematic perspective view of a first embodiment of the present invention;
FIG. 2 is a schematic perspective view of a second embodiment of the present invention;
FIG. 3 is a schematic perspective view of a first stone removal assembly of the present invention;
FIG. 4 is a schematic view of a second embodiment of the stone removal assembly of the present invention;
FIG. 5 is a schematic perspective view of a clay cleaning assembly according to the present invention;
FIG. 6 is a schematic perspective view of a first embodiment of the comminuting mixing assembly of the present invention;
FIG. 7 is a schematic diagram of a second embodiment of the comminuting mixing assembly of the present invention;
FIG. 8 is a schematic perspective view of a portion of the comminuting mixing assembly of the present invention;
FIG. 9 is a schematic perspective view of a pulverizing roller of the present invention;
fig. 10 is a schematic perspective view of the crushing cylinder of the present invention.
Description of reference numerals: 1_ underframe, 2_ controller, 3_ stone removal component, 4_ clay cleaning component, 5_ crushing and mixing component, 6_ stone collection box, 301_ motor, 302_ first transmission rod, 303_ first bevel gear, 304_ second bevel gear, 305_ third bevel gear, 306_ telescopic rod, 307_ first fixed mount, 308_ first electric push rod, 309_ rectangular frame, 310_ first elastic sheet, 311_ second elastic sheet, 312_ separation frame, 313_ support plate, 314_ second electric push rod, 315_ first push plate, 316_ third electric push rod, 317_ first U-shaped frame, 318_ second push plate, 319_ fourth electric push rod, 320_ second U-shaped frame, 321_ extrusion plate, 322_ fifth electric push rod, 323_ electric slide block, 324_ electric slide rail, 325_ first guide plate, 326_ disc, 327_ fixed shaft, 328_ connection plate, 401_ fourth bevel gear, 402_ second transmission rod, 403_ first bushing, 404_ fifth bevel gear, 405_ sixth bevel gear, 406_ second fixed frame, 407_ sixth electric push rod, 408_ seventh bevel gear, 409_ third transmission rod, 410_ first flat gear, 411_ first roller brush, 412_ second flat gear, 413_ fourth transmission rod, 414_ first transmission wheel, 415_ second roller brush, 416_ cleaning box, 417_ water jet, 418_ screen plate, 419_ second baffle, 420_ electric baffle, 501_ second transmission wheel, 502_ fifth transmission rod, 503_ third transmission wheel, 504_ eighth bevel gear, 505_ ninth bevel gear, 506_ tenth bevel gear, 418_ sixth transmission rod, 508_ cylinder, 509_ mixing bucket, 510_ first arc stirring rod, 511_ second arc stirring rod, 512_ fourth transmission wheel, 513_ grinding roller, 514_ second bushing, 515_ mud baffle basin, 516_ crushing cylinder, 517_ feed hopper, 518_ electric cover plate, 519_ fan, 520_ fixing plate, 521_ seventh electric push rod, 522_ powder spraying pipe, 523_ circular electric closing plate.
Detailed Description
The invention is further described with reference to the following figures and detailed description.
Example 1
A high-temperature refractory mud recycling clay stone removing and mixing integrated device is shown in figures 1-10 and comprises a base frame 1, a controller 2, a stone removing assembly 3, a clay cleaning assembly 4, a crushing and mixing assembly 5 and a stone collecting box 6; the chassis 1 is connected with the controller 2; the underframe 1 is connected with the stone removing component 3; the underframe 1 is connected with a clay cleaning component 4; the underframe 1 is connected with the crushing and mixing component 5; the underframe 1 is connected with a stone collecting box 6; the stone removing component 3 is connected with the clay cleaning component 4; the clay cleaning assembly 4 is connected with the pulverizing mixing assembly 5.
When the device is prepared for work, the device is placed on a horizontal plane, a power supply is connected, clay is poured into the stone removing component 3 on the bottom frame 1, the stone removing component 3 is controlled by the controller 2 to separate the clay from the stone, the separated clay falls into the crushing and mixing component 5, the stone is conveyed into the clay cleaning component 4, the clay cleaning component 4 scrubs the clay remained on the stone and collects the clay into the crushing and mixing component 5, the cleaned stone is collected in the stone collecting box 6, meanwhile, the used refractory clay is placed into the crushing and mixing component 5 to be crushed and ground, and then the refractory clay powder is sprayed out to be stirred and mixed with the clay and water; when the invention is used, stones in the clay are removed, and the clay remained on the stones is scrubbed, collected and utilized, so that the clay is fully utilized, and simultaneously, the scrubbing water is also utilized, resources are saved, meanwhile, the used refractory clay fragments are crushed into powder to be sprayed out to be fully mixed and stirred with the clay and the water, the mixing effect is ensured, the clay does not need to be operated, and the manpower and the time are saved.
The stone removing component 3 comprises a motor 301, a first transmission rod 302, a first bevel gear 303, a second bevel gear 304, a third bevel gear 305, a telescopic rod 306, a first fixed frame 307, a first electric push rod 308, a rectangular frame 309, a first elastic sheet 310, a second elastic sheet 311, a separating frame 312, a supporting plate 313, a second electric push rod 314, a first push plate 315, a third electric push rod 316, a first U-shaped frame 317, a second push plate 318, a fourth electric push rod 319, a second U-shaped frame 320, a squeezing plate 321, a fifth electric push rod 322, an electric slide block 323, an electric slide rail 324, a first guide plate 325, a disk 326, a fixed shaft 327 and a connecting plate 328; the motor 301 is fixedly connected with the underframe 1; an output shaft of the motor 301 is fixedly connected with the first transmission rod 302; the first transmission rod 302 is rotatably connected with the underframe 1; the first transmission rod 302 is fixedly connected with a first bevel gear 303 and a second bevel gear 304 in sequence; the second bevel gear 304 is connected with the clay cleaning component 4; a third bevel gear 305 is arranged on the side surface of the first bevel gear 303; when the third bevel gear 305 is engaged with the first bevel gear 303, the third bevel gear 305 rotates; when the third bevel gear 305 is not engaged with the first bevel gear 303, the third bevel gear 305 does not rotate; the third bevel gear 305 is fixedly connected with the telescopic rod 306; the telescopic rod 306 is rotatably connected with the underframe 1; the telescopic rod 306 is rotatably connected with the first fixing frame 307; the first fixing frame 307 is fixedly connected with the first electric push rod 308; the first electric push rod 308 is fixedly connected with the underframe 1; the rectangular frame 309 is rotatably connected with the telescopic rod 306; the rectangular frame 309 is fixedly connected with the underframe 1; the rectangular frame 309 is fixedly connected with the first elastic sheet 310 and the second elastic sheet 311 in sequence; the first elastic sheet 310 and the second elastic sheet 311 are fixedly connected with the separation frame 312; a first elastic sheet 310 and a second elastic sheet 311 are symmetrically arranged on two sides of the rectangular frame 309; the side of the separation frame 312 is provided with a support plate 313; the support plate 313 is fixedly connected with the second electric push rod 314; the second electric push rod 314 is fixedly connected with the underframe 1; a combination of a support plate 313 and a second electric push rod 314 is symmetrically arranged on both sides of the separation frame 312; the first push plate 315 is slidably connected to the separation frame 312; the third electric push rod 316 is fixedly connected with the first push plate 315; the third electric push rod 316 is fixedly connected with the first U-shaped frame 317; the first U-shaped frame 317 is fixedly connected with the separation frame 312; the second push plate 318 is slidably connected with the separation frame 312; the second push plate 318 is fixedly connected with the fourth electric push rod 319; the fourth electric push rod 319 is fixedly connected with the second U-shaped frame 320; the second U-shaped frame 320 is fixedly connected with the separation frame 312; an extrusion plate 321 is arranged above the first U-shaped frame 317; the extrusion plate 321 is fixedly connected with the fifth electric push rod 322; the fifth electric push rod 322 is fixedly connected with the electric slide block 323; the electric sliding block 323 is connected with the electric sliding rail 324 in a sliding way; the electric slide rail 324 is fixedly connected with the underframe 1; a first guide plate 325 is arranged below the second U-shaped frame 320; the first guide plate 325 is fixedly connected with the chassis 1; the disc 326 is fixedly connected with the telescopic rod 306; the disc 326 is fixedly connected with a fixed shaft 327; the fixed shaft 327 is rotatably connected with one side of the connecting plate 328; the other side of the connecting plate 328 is fixedly connected with the separating frame 312 through a connecting block.
Firstly, clay is poured into a separation frame 312, then a motor 301 is started, an output shaft of the motor 301 drives a first transmission rod 302 to rotate, the first transmission rod 302 simultaneously drives a first bevel gear 303 and a second bevel gear 304 to rotate, and the second bevel gear 304 rotates to convey power to the clay cleaning component 4; then the first electric push rod 308 extends to push the first fixed frame 307, drive the telescopic rod 306 to extend to enable the third bevel gear 305 to be meshed with the first bevel gear 303, so as to realize the power transmission of the third bevel gear 305, the third bevel gear 305 rotates to drive the telescopic rod 306 to drive the disc 326 to rotate, the disc 326 drives the fixed shaft 327 to do circular motion, the fixed shaft 327 drives one side of the connecting plate 328 to do circular motion, the connecting plate 328 drives the separating frame 312 to do reciprocating motion, the separating frame 312 drives the first elastic sheet 310 and the second elastic sheet 311 to do reciprocating motion, so as to enable the clay in the separating frame 312 to be flattened, then the first electric push rod 308 is in shrinkage fit with the first fixed frame 307 to enable the power of the third bevel gear 305 to be interrupted, then the electric slide block 323 slides towards the direction of the fourth electric push rod 319 in the electric slide rail 324, drive the extrusion plate 321 to move to be right above the separating frame 312, then the second electric push rod 314 extends to push the supporting plate 313, the support plate 313 supports the separation frame 312, then the fifth electric push rod 322 extends to push the extrusion plate 321 to descend, so that the extrusion plate 321 extrudes the clay in the separation frame 312 from the holes on the bottom surface of the separation frame to the crushing and mixing assembly 5, the stone blocks are remained in the separation frame 312, then the fifth electric push rod 322 contracts to drive the extrusion plate 321 to reset, the fourth electric push rod 319 connected with the second U-shaped frame 320 contracts to drive the second push plate 318 to move, meanwhile, the third electric push rod 316 connected with the first U-shaped frame 317 extends to push the first push plate 315, so that the first push plate 315 pushes the stone blocks in the separation frame 312 out to fall onto the first guide plate 325, and then the stone blocks slide into the clay cleaning assembly 4 for treatment; this subassembly is through extrusion with clay and stone separation, and the post-separation clay falls to smashing and mixes in the subassembly 5 and mixes, carries the stone to handle in the clay clearance subassembly 4.
The clay cleaning assembly 4 comprises a fourth bevel gear 401, a second transmission rod 402, a first shaft sleeve 403, a fifth bevel gear 404, a sixth bevel gear 405, a second fixing frame 406, a sixth electric push rod 407, a seventh bevel gear 408, a third transmission rod 409, a first flat gear 410, a first roller brush 411, a second flat gear 412, a fourth transmission rod 413, a first transmission wheel 414, a second roller brush 415, a cleaning box 416, a water sprayer 417, a sieve plate 418, a second guide plate 419 and an electric baffle plate 420; the fourth bevel gear 401 is meshed with the second bevel gear 304; the fourth bevel gear 401 is fixedly connected with a second transmission rod 402; the second transmission rod 402 is rotatably connected with the underframe 1; the second transmission rod 402 is connected with the first shaft sleeve 403 in a sliding manner; two sides of the first shaft sleeve 403 are fixedly connected with a fifth bevel gear 404 and a sixth bevel gear 405 respectively; the first shaft sleeve 403 is rotatably connected with the second fixing frame 406; the second fixing frame 406 is fixedly connected with a sixth electric push rod 407; the sixth electric push rod 407 is fixedly connected with the chassis 1; a seventh bevel gear 408 is arranged on the side surface of the first shaft sleeve 403; the seventh bevel gear 408 is fixedly connected with a third transmission rod 409; the third transmission rod 409 is rotatably connected with the underframe 1; the third transmission rod 409 is rotatably connected with the cleaning box 416; the third transmission rod 409 is fixedly connected with the first flat gear 410; the third transmission rod 409 is fixedly connected with the first roller brush 411; the first flat gear 410 is meshed with the second flat gear 412; the second flat gear 412 is fixedly connected with a fourth transmission rod 413; the fourth transmission rod 413 is rotatably connected with the underframe 1; the fourth transmission rod 413 is rotatably connected with the cleaning box 416; the fourth transmission rod 413 is fixedly connected with the first transmission wheel 414; the first driving wheel 414 is connected with the crushing and mixing assembly 5; the second roller brush 415 is fixedly connected with the fourth transmission rod 413; the cleaning box 416 is fixedly connected with the underframe 1; a water sprayer 417 is arranged above the cleaning box 416; the water sprayer 417 is fixedly connected with the underframe 1; a sieve plate 418 is arranged below the water sprayer 417; the sieve plate 418 is fixedly connected with the cleaning box 416; a second guide plate 419 is arranged below the sieve plate 418; the second guide plate 419 is fixedly connected with the cleaning box 416; the motorized flapper 420 is rotatably coupled to the purge bin 416.
The stone falls on a sieve plate 418 in a cleaning box 416, meanwhile, the second bevel gear 304 drives a fourth bevel gear 401 to drive a second transmission rod 402 to rotate, the second transmission rod 402 drives a first shaft sleeve 403 to rotate, the first shaft sleeve 403 simultaneously drives a fifth bevel gear 404 and a sixth bevel gear 405 to rotate, then a sixth electric push rod 407 extends to push a second fixed frame 406 to drive the first shaft sleeve 403 to slide on the second transmission rod 402, so that the sixth bevel gear 405 is meshed with a seventh bevel gear 408, the fifth bevel gear 404 is disengaged from the seventh bevel gear 408, power transmission of the seventh bevel gear 408 is realized, the seventh bevel gear 408 rotates to drive a third transmission rod 409 to drive a first flat gear 410 to rotate, the third transmission rod 409 drives a first brush roller 411 to rotate, the first flat gear 410 drives a second flat gear 412 to drive a fourth transmission rod 413 to rotate, the fourth transmission rod 413 simultaneously drives a first transmission wheel 414 and a second brush 415 to rotate, the first driving wheel 414 rotates to power the pulverizing and mixing assembly 5, the second roller brush 415 rotates to drive the stones to move downwards, the first roller brush 411 rotates to drive the stones to move upwards, at the same time, the water sprayer 417 starts to spray water, so that the stone blocks are repeatedly scrubbed between the first roller brush 411 and the second roller brush 415, the clay adhered on the stone blocks is flushed and flows onto the second guide plate 419, then flows into the crushing and mixing component 5, after the brushing is finished, the sixth electric push rod 407 is matched with the second fixed frame 406 in a shrinkage way to enable the fifth bevel gear 404 to be meshed with the seventh bevel gear 408, the sixth bevel gear 405 is disengaged from the seventh bevel gear 408 to enable the seventh bevel gear 408 to rotate reversely, thereby causing the first roller brush 411 to rotate reversely, driving the stones on the sieve plate 418 to move downwards, the motorized flap 420 then rotates so that the first roller brush 411 delivers the stone into the stone collection bin 6; this subassembly is washed the remaining clay down on with the stone to the muddy water that will wash down is collected and is utilized in smashing mixing assembly 5.
The crushing and mixing component 5 comprises a second driving wheel 501, a fifth driving rod 502, a third driving wheel 503, an eighth bevel gear 504, a ninth bevel gear 505, a tenth bevel gear 506, a sixth driving rod 507, a cylinder 508, a mixing barrel 509, a first arc-shaped stirring rod 510, a second arc-shaped stirring rod 511, a fourth driving wheel 512, a crushing roller 513, a second shaft sleeve 514, a mud blocking basin 515, a crushing barrel 516, a feed hopper 517, an electric cover plate 518, a fan 519, a fixing plate 520, a seventh electric pushing rod 521, a powder spraying pipe 522 and a circular electric closing plate 523; the second transmission wheel 501 is in transmission connection with the first transmission wheel 414 through a belt; the second driving wheel 501 is fixedly connected with a fifth driving rod 502; the fifth transmission rod 502 is rotatably connected with the underframe 1; two sides of the fifth transmission rod 502 are fixedly connected with a third transmission wheel 503 and an eighth bevel gear 504 respectively; the third driving wheel 503 is in driving connection with the fourth driving wheel 512 through a belt; both sides of the eighth bevel gear 504 are respectively meshed with a ninth bevel gear 505 and a tenth bevel gear 506; a ninth bevel gear 505 is fixedly connected with a sixth transmission rod 507; the tenth bevel gear 506 is fixedly connected with the cylinder 508; the sixth transmission rod 507 is rotatably connected with the underframe 1; the cylinder 508 is in rotational communication with a mixing barrel 509; the mixing barrel 509 is fixedly connected with the chassis 1; three groups of first arc-shaped stirring rods 510 are annularly and equidistantly arranged on the outer annular surface of the sixth transmission rod 507; the three groups of first arc-shaped stirring rods 510 are fixedly connected with the sixth transmission rod 507; three groups of second arc-shaped stirring rods 511 are annularly and equidistantly arranged on the outer annular surface of the cylinder 508; the three groups of second arc-shaped stirring rods 511 are fixedly connected with the cylinder 508; the fourth driving wheel 512 is fixedly connected with the crushing roller 513; the crushing roller 513 is rotatably connected with the chassis 1; the crushing roller 513 is slidably connected with the second shaft sleeve 514; the second shaft sleeve 514 is rotatably connected with the mud blocking basin 515; the mud blocking basin 515 is connected with the crushing cylinder 516 in a sliding way; the crushing cylinder 516 is fixedly connected with the underframe 1; the crushing cylinder 516 is fixedly connected with a feed hopper 517; the electric cover plate 518 is in sliding connection with the feed hopper 517; the fan 519 is fixedly connected with the crushing cylinder 516; the fan 519 is fixedly connected with the chassis 1; the fixed plate 520 is fixedly connected with the mud blocking basin 515; the fixing plate 520 is fixedly connected with a seventh electric push rod 521; the seventh electric push rod 521 is fixedly connected with the underframe 1; the powder spraying pipe 522 is fixedly connected with the crushing cylinder 516; the two sides of the crushing cylinder 516 are symmetrically provided with a combination of a second shaft sleeve 514, a mud blocking basin 515, a fan 519, a fixing plate 520, a seventh electric push rod 521 and a powder spraying pipe 522; a circular electrically powered closure plate 523 is rotatably connected to the mixing tub 509.
When the stone removing assembly 3 and the clay cleaning assembly 4 are in operation, used refractory mortar fragments are placed into a feed hopper 517 and then fall between a crushing roller 513 and a crushing cylinder 516, meanwhile, a first driving wheel 414 drives a second driving wheel 501 to drive a fifth driving rod 502 to rotate, the fifth driving rod 502 simultaneously drives a third driving wheel 503 and an eighth bevel gear 504 to rotate, the third driving wheel 503 drives a fourth driving wheel 512 to drive the crushing roller 513 to rotate, the refractory mortar fragments are ground into powder by matching with the crushing cylinder 516, then a seventh electric push rod 521 extends to push a fixing plate 520 to drive a mud blocking basin 515 to slide on the side of the crushing cylinder 516, a second shaft sleeve 514 slides on the side of the crushing roller 513, then a fan 519 is started, meanwhile, an electric cover plate 518 slides over the feed hopper 517, the fan 519 sprays the refractory mortar powder in the crushing cylinder 516 into a mixing barrel 509 through a plurality of groups of nozzles on the powder spraying pipe 522 to be mixed with clay and water, meanwhile, the eighth bevel gear 504 drives a ninth bevel gear 505 and a tenth bevel gear 506 to rotate, the ninth bevel gear 505 drives a sixth transmission rod 507 to rotate in a cylinder 508, the tenth bevel gear 506 drives the cylinder 508 to rotate, the sixth transmission rod 507 and the cylinder 508 simultaneously rotate in opposite directions, the sixth transmission rod 507 drives a first arc-shaped stirring rod 510 to rotate, the cylinder 508 drives a second arc-shaped stirring rod 511 to rotate, and then the clay, the water and the refractory mortar powder in the mixing barrel 509 are stirred and fully mixed, after the stirring and mixing are completed, the circular electric sealing plate 523 rotates to open a circular hole in the bottom surface of the mixing barrel 509, and the refractory mortar prepared in the mixing barrel 509 can be discharged and collected; the present assembly pulverizes the used chamotte fragments into powder, and ejects chamotte powder while clay and water fall into the mixing tub 509, to be sufficiently mixed with clay and water, and to be stirred at the same time.
Convex strips are arranged on two sides of the crushing roller 513, and corresponding grooves are arranged in the second shaft sleeve 514.
The second shaft sleeve 514 is made to slide on both sides of the crushing roller 513, and the rotation of the second shaft sleeve 514 drives the crushing roller 513 to rotate.
A plurality of groups of semi-spheres are arranged on the outer annular surface of the crushing roller 513.
In cooperation with the half-spheres in the milling cylinder 516, the refractory mortar is ground.
A plurality of groups of semi-spheres are arranged on the inner annular surface of the crushing cylinder 516.
The refractory mortar is ground in cooperation with the semi-spherical balls on the outer circumferential surface of the crushing roller 513.
The crushing cylinder 516 is provided with a rectangular hole.
So that the refractory mortar is put in from the rectangular hole.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.
Claims (8)
1. A high-temperature refractory clay recycling clay stone removing and mixing integrated device comprises an underframe, a controller and a stone collecting box; the method is characterized in that: the device also comprises a stone removing component, a clay cleaning component and a crushing and mixing component; the chassis is connected with the controller; the underframe is connected with the stone removing component; the underframe is connected with the clay cleaning component; the bottom frame is connected with the crushing and mixing component; the underframe is connected with the stone collecting box; the stone removing component is connected with the clay cleaning component; the clay cleaning component is connected with the crushing and mixing component.
2. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 1, wherein: the stone removing component comprises a motor, a first transmission rod, a first bevel gear, a second bevel gear, a third bevel gear, a telescopic rod, a first fixing frame, a first electric push rod, a rectangular frame, a first elastic sheet, a second elastic sheet, a separating frame, a supporting plate, a second electric push rod, a first push plate, a third electric push rod, a first U-shaped frame, a second push plate, a fourth electric push rod, a second U-shaped frame, a squeezing plate, a fifth electric push rod, an electric sliding block, an electric sliding rail, a first guide plate, a disc, a fixing shaft and a connecting plate; the motor is fixedly connected with the underframe; the output shaft of the motor is fixedly connected with the first transmission rod; the first transmission rod is rotatably connected with the bottom frame; the first transmission rod is fixedly connected with the first bevel gear and the second bevel gear in sequence; the second bevel gear is connected with the clay cleaning component; a third bevel gear is arranged on the side surface of the first bevel gear; when the third bevel gear is meshed with the first bevel gear, the third bevel gear rotates; when the third bevel gear is not meshed with the first bevel gear, the third bevel gear does not rotate; the third bevel gear is fixedly connected with the telescopic rod; the telescopic rod is rotatably connected with the underframe; the telescopic rod is rotatably connected with the first fixing frame; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the rectangular frame is rotationally connected with the telescopic rod; the rectangular frame is fixedly connected with the underframe; the rectangular frame is fixedly connected with the first elastic sheet and the second elastic sheet in sequence; the first elastic sheet and the second elastic sheet are fixedly connected with the separation frame; the two sides of the rectangular frame are symmetrically provided with a combination of a first elastic sheet and a second elastic sheet; a support plate is arranged on the side surface of the separation frame; the supporting plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; the two sides of the separation frame are symmetrically provided with a combination of a supporting plate and a second electric push rod; the first push plate is connected with the separation frame in a sliding manner; the third electric push rod is fixedly connected with the first push plate; the third electric push rod is fixedly connected with the first U-shaped frame; the first U-shaped frame is fixedly connected with the separation frame; the second push plate is in sliding connection with the separation frame; the second push plate is fixedly connected with the fourth electric push rod; the fourth electric push rod is fixedly connected with the second U-shaped frame; the second U-shaped frame is fixedly connected with the separation frame; an extrusion plate is arranged above the first U-shaped frame; the extrusion plate is fixedly connected with the fifth electric push rod; the fifth electric push rod is fixedly connected with the electric slide block; the electric sliding block is connected with the electric sliding rail in a sliding manner; the electric slide rail is fixedly connected with the underframe; a first guide plate is arranged below the second U-shaped frame; the first guide plate is fixedly connected with the underframe; the disc is fixedly connected with the telescopic rod; the disc is fixedly connected with the fixed shaft; the fixed shaft is rotatably connected with one side of the connecting plate; the other side of the connecting plate is fixedly connected with the separating frame through a connecting block.
3. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 2, wherein: the clay cleaning component comprises a fourth bevel gear, a second transmission rod, a first shaft sleeve, a fifth bevel gear, a sixth bevel gear, a second fixed frame, a sixth electric push rod, a seventh bevel gear, a third transmission rod, a first flat gear, a first roller brush, a second flat gear, a fourth transmission rod, a first transmission wheel, a second roller brush, a cleaning box, a water sprayer, a sieve plate, a second guide plate and an electric baffle; the fourth bevel gear is meshed with the second bevel gear; the fourth bevel gear is fixedly connected with the second transmission rod; the second transmission rod is rotatably connected with the underframe; the second transmission rod is connected with the first shaft sleeve in a sliding manner; two sides of the first shaft sleeve are fixedly connected with a fifth bevel gear and a sixth bevel gear respectively; the first shaft sleeve is rotatably connected with the second fixing frame; the second fixing frame is fixedly connected with the sixth electric push rod; the sixth electric push rod is fixedly connected with the underframe; a seventh bevel gear is arranged on the side surface of the first shaft sleeve; the seventh bevel gear is fixedly connected with the third transmission rod; the third transmission rod is rotatably connected with the underframe; the third transmission rod is rotatably connected with the cleaning box; the third transmission rod is fixedly connected with the first flat gear; the third transmission rod is fixedly connected with the first roller brush; the first flat gear is meshed with the second flat gear; the second flat gear is fixedly connected with a fourth transmission rod; the fourth transmission rod is rotatably connected with the underframe; the fourth transmission rod is rotatably connected with the cleaning box; the fourth transmission rod is fixedly connected with the first transmission wheel; the first driving wheel is connected with the crushing and mixing component; the second roller brush is fixedly connected with the fourth transmission rod; the cleaning box is fixedly connected with the underframe; a water sprayer is arranged above the cleaning box; the water sprayer is fixedly connected with the underframe; a sieve plate is arranged below the water sprayer; the sieve plate is fixedly connected with the cleaning box; a second guide plate is arranged below the sieve plate; the second guide plate cleaning box is fixedly connected; the electric baffle is rotationally connected with the cleaning box.
4. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 3, wherein: the crushing and mixing component comprises a second driving wheel, a fifth driving rod, a third driving wheel, an eighth bevel gear, a ninth bevel gear, a tenth bevel gear, a sixth driving rod, a cylinder, a mixing barrel, a first arc-shaped stirring rod, a second arc-shaped stirring rod, a fourth driving wheel, a crushing roller, a second shaft sleeve, a mud retaining basin, a crushing barrel, a feeding hopper, an electric cover plate, a fan, a fixing plate, a seventh electric push rod, a powder spraying pipe and a circular electric sealing plate; the second transmission wheel is in transmission connection with the first transmission wheel through a belt; the second driving wheel is fixedly connected with a fifth driving rod; the fifth transmission rod is rotatably connected with the underframe; two sides of the fifth transmission rod are fixedly connected with the third transmission wheel and the eighth bevel gear respectively; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; two sides of the eighth bevel gear are respectively meshed with the ninth bevel gear and the tenth bevel gear; the ninth bevel gear is fixedly connected with the sixth transmission rod; the tenth bevel gear is fixedly connected with the cylinder; the sixth transmission rod is rotatably connected with the underframe; the cylinder is rotationally connected with the mixing barrel; the mixing barrel is fixedly connected with the bottom frame; three groups of first arc-shaped stirring rods are annularly and equidistantly arranged on the outer ring surface of the sixth transmission rod; the three groups of first arc-shaped stirring rods are fixedly connected with a sixth transmission rod; three groups of second arc-shaped stirring rods are annularly and equidistantly arranged on the outer annular surface of the cylinder; the three groups of second arc-shaped stirring rods are fixedly connected with the cylinder; the fourth driving wheel is fixedly connected with the crushing roller; the crushing roller is rotationally connected with the underframe; the crushing roller is connected with the second shaft sleeve in a sliding way; the second shaft sleeve is rotationally connected with the mud blocking basin; the mud blocking basin is connected with the crushing barrel in a sliding way; the crushing cylinder is fixedly connected with the underframe; the crushing cylinder is fixedly connected with the feed hopper; the electric cover plate is in sliding connection with the feed hopper; the fan is fixedly connected with the crushing barrel; the fan is fixedly connected with the underframe; the fixed plate is fixedly connected with the mud blocking basin; the fixing plate is fixedly connected with the seventh electric push rod; the seventh electric push rod is fixedly connected with the underframe; the powder spraying pipe is fixedly connected with the crushing barrel; a second shaft sleeve, a mud baffle basin, a fan, a fixed plate, a seventh electric push rod and a powder spraying pipe are symmetrically arranged on two sides of the crushing barrel; the round electric sealing plate is rotationally connected with the mixing barrel.
5. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 4, wherein: the crushing roller is provided with sand grips on both sides, and a corresponding groove is arranged in the second shaft sleeve.
6. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 5, wherein: a plurality of groups of semi-spheres are arranged on the outer ring surface of the crushing roller.
7. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 6, wherein: a plurality of groups of semi-spheres are arranged on the inner ring surface of the crushing cylinder.
8. The high-temperature refractory mortar recycling clay stone-removing and mixing integrated device as claimed in claim 7, wherein: the crushing cylinder is provided with a rectangular hole.
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