CN112619835A - Distributed concrete coarse aggregate apparatus for producing - Google Patents
Distributed concrete coarse aggregate apparatus for producing Download PDFInfo
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- CN112619835A CN112619835A CN202011472825.5A CN202011472825A CN112619835A CN 112619835 A CN112619835 A CN 112619835A CN 202011472825 A CN202011472825 A CN 202011472825A CN 112619835 A CN112619835 A CN 112619835A
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- block
- rod
- fixedly connected
- bevel gear
- sliding
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- 238000005507 spraying Methods 0.000 claims abstract description 46
- 239000011248 coating agent Substances 0.000 claims abstract description 21
- 238000000576 coating method Methods 0.000 claims abstract description 21
- 238000004519 manufacturing process Methods 0.000 claims abstract description 17
- 230000005540 biological transmission Effects 0.000 claims description 54
- 229910000831 Steel Inorganic materials 0.000 claims description 35
- 239000010959 steel Substances 0.000 claims description 35
- 239000003973 paint Substances 0.000 claims description 23
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 17
- 238000003825 pressing Methods 0.000 claims description 16
- 239000007921 spray Substances 0.000 claims description 14
- 239000008188 pellet Substances 0.000 claims description 7
- 239000006185 dispersion Substances 0.000 abstract description 21
- 239000002699 waste material Substances 0.000 description 16
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 6
- 239000004576 sand Substances 0.000 description 5
- 238000010276 construction Methods 0.000 description 3
- 239000011435 rock Substances 0.000 description 3
- 239000004575 stone Substances 0.000 description 3
- 230000032258 transport Effects 0.000 description 3
- 238000001035 drying Methods 0.000 description 2
- 210000001161 mammalian embryo Anatomy 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 239000002689 soil Substances 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 239000008187 granular material Substances 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 239000004570 mortar (masonry) Substances 0.000 description 1
- 239000008262 pumice Substances 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
- 239000002893 slag Substances 0.000 description 1
- BPJYAXCTOHRFDQ-UHFFFAOYSA-L tetracopper;2,4,6-trioxido-1,3,5,2,4,6-trioxatriarsinane;diacetate Chemical compound [Cu+2].[Cu+2].[Cu+2].[Cu+2].CC([O-])=O.CC([O-])=O.[O-][As]1O[As]([O-])O[As]([O-])O1.[O-][As]1O[As]([O-])O[As]([O-])O1 BPJYAXCTOHRFDQ-UHFFFAOYSA-L 0.000 description 1
Images
Classifications
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- 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
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C19/00—Other disintegrating devices or methods
- B02C19/0056—Other disintegrating devices or methods specially adapted for specific materials not otherwise provided for
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B13/00—Machines or plants for applying liquids or other fluent materials to surfaces of objects or other work by spraying, not covered by groups B05B1/00 - B05B11/00
- B05B13/02—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work
- B05B13/0221—Means for supporting work; Arrangement or mounting of spray heads; Adaptation or arrangement of means for feeding work characterised by the means for moving or conveying the objects or other work, e.g. conveyor belts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B16/00—Spray booths
- B05B16/20—Arrangements for spraying in combination with other operations, e.g. drying; Arrangements enabling a combination of spraying operations
-
- 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
Landscapes
- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Spray Control Apparatus (AREA)
Abstract
The invention relates to the field of concrete aggregate, in particular to a distributed concrete coarse aggregate production device. The technical problem of the invention is that: provides a distributed concrete coarse aggregate production device. The technical implementation scheme of the invention is as follows: a production device for a dispersive concrete coarse aggregate comprises a bottom frame, a moss removing assembly, a flattening assembly, a dispersive spraying assembly and the like; the bottom frame is connected with the flattening component; the moss removing component is connected with the flattening component; the flattening component is connected with the dispersion spraying component. When the invention is used, the moss blocks on the two cambered surfaces of the arched green tile are automatically removed, then mud marks on the surface of the green tile are cleaned, meanwhile, the green tile is automatically punched into a plurality of small green tile blocks, each small green tile block is mutually dispersed, and then the small green tile blocks are sprayed with the coating, so that the outer surface of each small green tile block is fully coated with the coating, and the production efficiency is greatly improved.
Description
Technical Field
The invention relates to the field of concrete aggregate, in particular to a distributed concrete coarse aggregate production device.
Background
The aggregate is a granular material which plays roles of framework and filling in concrete and mortar. There are two kinds of fine aggregate and coarse aggregate. The diameter of the fine aggregate particles is between 0.16 and 5mm, natural sand such as river sand, sea sand, valley sand and the like is generally adopted, and when the natural sand is lacked, artificial sand ground by hard rocks can be used; the particle diameter of the coarse aggregate is more than 5mm, the common crushed stone and pebbles exist, under the same condition, the strength of the crushed stone concrete is higher than that of the pebble concrete, but the crushed stone is formed by crushing rocks, and the cost is higher than that of the pebbles. The common coarse aggregate in the light aggregate concrete comprises natural porous rock such as pumice and the like, and artificial porous aggregate such as ceramsite, expanded slag and the like.
In the prior art, the rural earthen embryo house roof is paved by arched green tiles, which can prevent rainwater from leaking into the house, and the large-scale dangerous house reconstruction construction is carried out in the rural area, therefore, a large amount of waste green tiles are generated, people can dispose the waste green tiles into common garbage and even bury the waste green tiles into soil pits, neglecting the economic value, the waste green tiles can be made into concrete coarse aggregate, and the green tiles can not be separated into small blocks with equal size when being manually treated, so the efficiency is low, meanwhile, the green tile small blocks have lower strength and cannot meet the strength requirement of the coarse aggregate, the coating needs to be sprayed on the outer surfaces of the green tile small blocks to strengthen the strength of the green tile small blocks, when the small green tile blocks stacked together are sprayed, the phenomenon that part of the small green tile blocks are not sprayed with the coating can occur, the product quality is greatly reduced, and in addition, moss can grow on the outer surface of the waste green tile in a sheet mode, so that the processing difficulty is increased.
In summary, there is a need to develop a distributed concrete coarse aggregate production device to overcome the above problems.
Disclosure of Invention
In order to overcome the defects that in the prior art, the roof of a rural earthen green house is paved by arched green tiles, rainwater can be prevented from leaking into the house, the rural area starts to carry out dangerous house reconstruction construction on a large scale, so that a large amount of waste green tiles are generated, people carry out common garbage treatment on the waste green tiles, even bury the waste green tiles into an earth pit, neglect the economic value of the waste green tiles, the waste green tiles can be made into concrete coarse aggregate, the green tiles cannot be separated into small blocks with the same size during manual treatment, the efficiency is low, meanwhile, the strength of the small blocks of the green tiles is low, the strength requirement of the coarse aggregate cannot be met, coating needs to be sprayed on the outer surfaces of the small blocks of the green tiles to strengthen the strength, and when the small blocks of the stacked green tiles are sprayed, the phenomenon that partial small blocks of the green tiles are not sprayed with the coating can occur, the product quality is greatly reduced, and besides, green moss grows on the outer surfaces of the waste, the technical problem of the invention is that: provides a distributed concrete coarse aggregate production device.
The technical implementation scheme of the invention is as follows: a distributed concrete coarse aggregate production device comprises a bottom frame, a moss removing assembly, a flattening assembly, a distributed spraying assembly, a control screen, a first electric slide rail, a first slide block and a first carrier block; the underframe is connected with the moss removing component; the bottom frame is connected with the flattening component; the underframe is connected with the dispersed spraying assembly; the upper part of the underframe is connected with the control screen; the underframe is connected with the first electric slide rail; the moss removing component is connected with the flattening component; the flattening component is connected with the dispersing and spraying component; the first electric sliding rail is in sliding connection with the first sliding block; the first sliding block is fixedly connected with the first carrier block.
More preferably, the moss removing assembly comprises a first transmission rod, a first bevel gear, a second bevel gear, a first electric push rod, a third bevel gear, a second transmission rod, a first screw rod, a second slide block, a first guide rail block, a first push block, a second carrier block, a first limiting block, a second limiting block, a third limiting block, a fourth limiting block, a first water spraying head group, a second water spraying head group and a first motor; one end of the first transmission rod is fixedly connected with the first motor, and the other end of the first transmission rod is fixedly connected with the first bevel gear; the outer surface of the first transmission rod is connected with the bottom frame; the outer surface of the first transmission rod is connected with the flattening component; a second bevel gear is arranged above the first bevel gear; the inner part of the second bevel gear is fixedly connected with the first electric push rod; a third bevel gear is arranged below the second bevel gear; the upper part of the first electric push rod is connected with the bottom frame; the inner part of the third bevel gear is fixedly connected with the second transmission rod; the second transmission rod is fixedly connected with the first screw rod; the outer surface of the second transmission rod is connected with the underframe; the outer surface of the first screw rod is in screwed connection with the second sliding block; the outer surface of the first screw rod is rotationally connected with the first guide rail block; the inside of the second sliding block is connected with the first guide rail block in a sliding way; the second sliding block is fixedly connected with the first pushing block; the first guide rail block is connected with the bottom frame; the lower part of the first push block is contacted with the second carrier block; one side above the second carrier block is fixedly connected with the first limiting block, and the other side above the second carrier block is fixedly connected with the second limiting block; a third limiting block is arranged on the side edge of the second carrier block; the lower part of the second carrier block is connected with the underframe; a fourth limiting block is arranged below the third limiting block; a first water spraying head group is arranged above the side edge of the third limiting block; the third limiting block is connected with the underframe; a second water spraying head group is arranged below the fourth limiting block; the fourth limiting block is connected with the underframe; the first water spraying head group is connected with the underframe; the second water spray head group is connected with the underframe; the first motor is connected with the chassis.
More preferably, the flattening assembly comprises a first driving wheel, a second driving wheel, a third driving rod, a first cam, a first connecting plate, a first linkage rod, a first spring, a second linkage rod, a second spring and a first pressing plate; the outer ring surface of the first driving wheel is connected with the second driving wheel through a belt; the inner part of the first driving wheel is fixedly connected with the first driving rod; the inner part of the second driving wheel is fixedly connected with a third driving rod; the outer surface of the third transmission rod is fixedly connected with the first cam; the outer surface of the third transmission rod is connected with the underframe; the outer surface of the third transmission rod is connected with the dispersed spraying assembly; a first connecting plate is arranged above the first cam; the interior of the first connecting plate is sequentially connected with the first linkage rod and the second linkage rod in a sliding manner; the first connecting plate is connected with the underframe; the lower part of the first linkage rod is fixedly connected with a first spring and a second spring in sequence; the lower part of the first linkage rod is fixedly connected with the first pressing plate; the lower part of the first spring is fixedly connected with the first pressure plate; the lower part of the second linkage rod is fixedly connected with the first pressing plate; the lower part of the second spring is fixedly connected with the first pressure plate.
More preferably, the dispersion spraying component comprises a third driving wheel, a fourth driving wheel, a first loop bar, a first ridge bar, a third sliding block, a second electric sliding rail, a fourth bevel gear, a fifth bevel gear, a second screw rod, a fourth sliding block, a second guide rail block, a first grid plate, a fifth driving wheel, a sixth driving wheel, a second loop bar, a second ridge bar, a fifth sliding block, a third electric sliding rail, a sixth bevel gear, a seventh bevel gear, a third screw rod, a sixth sliding block, a third guide rail block, a first linkage plate, a first steel needle, a first electric rotating disc, a first paint sprayer, a second electric rotating disc, a second paint sprayer, a first dryer, a second dryer, a fourth electric sliding rail, a seventh sliding block, a second linkage plate and a second steel needle; the outer surface of the third driving wheel is connected with the fourth driving wheel through a belt; the inner part of the third driving wheel is fixedly connected with a third driving rod; the inner part of the fourth driving wheel is fixedly connected with the first sleeve rod; the inner part of the first sleeve rod is connected with the first prismatic rod; the outer surface of the first sleeve rod is fixedly connected with a fifth driving wheel; the outer surface of the first sleeve rod is connected with the bottom frame; the outer surface of the first prismatic rod is rotationally connected with the third sliding block; the outer surface of the first prismatic rod is fixedly connected with a fourth bevel gear; the lower part of the third sliding block is in sliding connection with the second electric sliding rail; the lower part of the second electric slide rail is connected with the underframe; a fifth bevel gear is arranged on the side edge of the fourth bevel gear; the interior of the fifth bevel gear is fixedly connected with the second screw rod; the outer surface of the second screw rod is in screwed connection with the fourth sliding block; the outer surface of the second screw rod is rotationally connected with the second guide rail block; the inside of the fourth sliding block is in sliding connection with the second guide rail block; the fourth sliding block is fixedly connected with the first grid plate; a fourth electric slide rail is arranged below the second guide rail block; the second guide rail block is connected with the bottom frame; the outer ring surface of the fifth driving wheel is fixedly connected with the sixth driving wheel through a belt; the inner part of the sixth driving wheel is fixedly connected with the second sleeve rod; the inner part of the second sleeve rod is connected with the second prismatic rod; the outer surface of the second sleeve rod is connected with the underframe; the outer surface of the second prismatic rod is rotationally connected with the fifth sliding block; the outer surface of the second prismatic rod is fixedly connected with a sixth bevel gear; the fifth sliding block is in sliding connection with the third electric sliding rail; the third electric sliding rail is connected with the underframe; a seventh bevel gear is arranged on the side edge of the sixth bevel gear; the interior of the seventh bevel gear is fixedly connected with the third screw rod; the outer surface of the third screw rod is in screwed connection with the sixth sliding block; the outer surface of the third screw rod is rotationally connected with the third guide rail block; the interior of the sixth sliding block is in sliding connection with the third guide rail block; the sixth sliding block is fixedly connected with the first linkage plate; the third guide rail block is connected with the bottom frame; the lower part of the first linkage plate is fixedly connected with a first steel needle; a first electric turntable is arranged below the side edge of the first linkage plate; the first electric turntable is fixedly connected with the first coating sprayer; a second electric turntable is arranged on the side edge of the first electric turntable; the first electric turntable is connected with the underframe; the second electric turntable is fixedly connected with the second coating sprayer; the second electric turntable is connected with the underframe; a first dryer is arranged on the side edge of the second coating sprayer; a second dryer is arranged below the first dryer; the first dryer is connected with the bottom frame; the second dryer is connected with the bottom frame; the interior of the fourth electric sliding rail is in sliding connection with the seventh sliding block; the fourth electric sliding rail is connected with the underframe; the seventh sliding block is fixedly connected with the second linkage plate; the upper part of the second linkage plate is fixedly connected with a second steel needle.
More preferably, the upper surface of the second carrier block is a circular arc surface, and the circular arc surface can be attached to a smaller circular arc surface of the arched cyan tile.
More preferably, an arc-shaped gap is formed between the third limiting block and the fourth limiting block.
More preferably, the first steel needles are arranged in a plurality of groups in a rectangular array.
More preferably, the second steel needles are arranged in a rectangular array in multiple groups and correspond to the multiple groups of the first steel needles one by one.
More preferably, the first pellet block is provided with circular through holes in a rectangular array.
The invention has the beneficial effects that:
firstly, in order to solve the problems that in the prior art, the rural earthen embryo house roof is paved by arched green tiles, which can prevent rainwater from leaking into the house, and the large-scale dangerous house reconstruction construction is carried out in the rural area, therefore, a large amount of waste green tiles are generated, people can dispose the waste green tiles into common garbage and even bury the waste green tiles into soil pits, neglecting the economic value, the waste green tiles can be made into concrete coarse aggregate, and the green tiles can not be separated into small blocks with equal size when being manually treated, so the efficiency is low, meanwhile, the green tile small blocks have lower strength and cannot meet the strength requirement of the coarse aggregate, the coating needs to be sprayed on the outer surfaces of the green tile small blocks to strengthen the strength of the green tile small blocks, when the small green tile blocks stacked together are sprayed, the phenomenon that part of the small green tile blocks are not sprayed with paint can occur, the product quality is greatly reduced, and in addition, the outer surface of the waste green tile can grow green moss in a sheet mode, so that the problem of difficulty in treatment is increased.
Designing a moss removing assembly, a flattening assembly and a dispersing and spraying assembly; when the device is prepared for working, the device is fixed on a workbench, the arc surface of the arched green tile is placed into a green moss removing assembly with the smaller arc surface facing downwards, a power supply is switched on, then a control screen control device on a bottom frame is controlled to start to operate, the green moss removing assembly pushes the green tile to a first carrier block, in the process, the green moss removing assembly removes a large amount of green moss on the upper arc surface and the lower arc surface of the green tile, mud marks are left on the surface of the green tile after the green moss is removed, then the green moss removing assembly cleans the mud marks on the surface of the green tile, then the green moss removing assembly transports the green tile to the upper part of the first carrier block, then a first electric sliding rail drives a first sliding block to slide towards a dispersion spraying assembly, the first sliding block drives the first carrier block to drive the green tile to move towards the dispersion spraying assembly, when the green tile moves into a flattening assembly, the flattening assembly presses the arched green tile from top to bottom, the arched green tile is stressed and then splits into a plurality of, then the first carrier block continues to drive the green tiles to move into the dispersion spraying assembly, the dispersion spraying assembly equally punches the green tiles into a plurality of small green tile blocks, each small green tile block is dispersed, then the dispersion spraying assembly independently fixes each small green tile block, then each small green tile block is driven to reciprocate up and down, then the small green tile blocks are sprayed with paint, the outer surface of each small green tile block is fully coated with paint, and then the dispersion spraying assembly dries the small green tile blocks sprayed with the paint, so that the concrete coarse aggregate production is completed.
When the invention is used, the moss blocks on the two cambered surfaces of the arched green tile are automatically removed, then mud marks on the surface of the green tile are cleaned, meanwhile, the green tile is automatically punched into a plurality of small green tile blocks, each small green tile block is mutually dispersed, and then the small green tile blocks are sprayed with the coating, so that the outer surface of each small green tile block is fully coated with the coating, and the production efficiency is greatly improved.
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 the moss removing assembly of the present invention;
FIG. 4 is a schematic perspective view of the platen assembly of the present invention;
FIG. 5 is a schematic perspective view of a dispersion spray assembly of the present invention;
FIG. 6 is a schematic perspective view of a first portion of the dispersion spray assembly of the present invention;
fig. 7 is a perspective view of a second portion of the dispersion spray assembly of the present invention.
The parts are labeled as follows: 1: chassis, 2: moss removing assembly, 3: flattening assembly, 4: dispersion spray assembly, 5: control screen, 6: first electronic slide rail, 7: first slider, 8: first pellet block, 201: first drive lever, 202: first bevel gear, 203: second bevel gear, 204: first electric putter, 205: third bevel gear, 206: second transmission lever, 207: first lead screw, 208: second slider, 209: first rail block, 2010: first push block, 2011: second pellet block, 2012: first stopper, 2013: second stopper, 2014: third stopper, 2015: a fourth stopper, 2016: first sprinkler head group, 2017: second sprinkler head group, 2018: first motor, 301: first drive wheel, 302: second drive wheel, 303: third transmission lever, 304: first cam, 305: first connecting plate, 306: first linkage bar, 307: first spring, 308: second linkage rod, 309: second spring, 3010: first presser plate, 401: third drive wheel, 402: fourth transmission wheel, 403: first loop bar, 404: first prism bar, 405: third slider, 406: second electric rail, 407: fourth bevel gear, 408: fifth bevel gear, 409: second lead screw, 4010: fourth slider, 4011: second rail block, 4012: first grid, 4013: fifth drive wheel, 4014: sixth drive wheel, 4015: second loop bar, 4016: second prism bar, 4017: fifth slider, 4018: third electric slide rail, 4019: sixth bevel gear, 4020: seventh bevel gear, 4021: third lead screw, 4022: sixth slider, 4023: third guide rail block, 4024: first linkage plate, 4025: first steel needle, 4026: first electric turntable, 4027: first paint sprayer, 4028: second electric turntable, 4029: second coating material shower head, 4030: first dryer, 4031: second dryer, 4032: fourth electric rail, 4033: seventh slider, 4034: second linkage plate, 4035: and a second steel needle.
Detailed Description
Embodiments of the present invention will be described below with reference to the drawings.
Example 1
A distributed concrete coarse aggregate production device is shown in figures 1-7 and comprises a bottom frame 1, a moss removing assembly 2, a flattening assembly 3, a distributed spraying assembly 4, a control screen 5, a first electric slide rail 6, a first slide block 7 and a first carrier block 8; the underframe 1 is connected with the moss removing component 2; the underframe 1 is connected with the flattening component 3; the underframe 1 is connected with the dispersed spraying component 4; the upper part of the underframe 1 is connected with a control screen 5; the underframe 1 is connected with a first electric slide rail 6; the moss removing component 2 is connected with the flattening component 3; the flattening component 3 is connected with the dispersion spraying component 4; the first electric slide rail 6 is connected with the first slide block 7 in a sliding way; the first slide 7 is fixedly connected to the first pellet block 8.
The working steps are as follows: when the device is prepared for working, the device is fixed on a workbench, the arc surface of the arched green tile is placed into the green moss removing assembly 2 in a downward mode, a power supply is switched on, then the control screen 5 on the bottom frame 1 is controlled to control the device to start to operate, the green moss removing assembly 2 pushes the green tile to the first carrier block 8, in the process, the green moss removing assembly 2 removes a piece of green moss on the upper arc surface and the lower arc surface of the green tile, mud marks are left on the surface of the green tile after the green moss is removed, then the mud marks on the surface of the green tile are cleaned by the green moss removing assembly 2, the green moss removing assembly 2 transports the green tile to the upper side of the first carrier block 8, then the first electric slide rail 6 drives the first slide block 7 to slide towards the dispersing and spraying assembly 4, the first carrier block 7 drives the first carrier block 8 to drive the green tile to move towards the dispersing and spraying assembly 4, when the green tile moves into the flattening assembly 3, the flattening assembly 3 presses the arched green, the arched green tile is stressed and then cracked into a plurality of blocks which are laid on a first carrier block 8, then the first carrier block 8 continues to drive the green tile to move into a dispersion spraying component 4, the dispersion spraying component 4 equally punches the green tile into a plurality of small green tile blocks, each small green tile block is mutually dispersed, then the dispersion spraying component 4 independently fixes each small green tile block, then each small green tile block is simultaneously driven to do up-and-down reciprocating motion, then the small green tile blocks are sprayed with paint, the outer surface of each small green tile block is fully coated with paint, then the dispersion spraying component 4 dries the small green tile blocks after being sprayed with paint, thereby completing the production of concrete coarse aggregate, the invention realizes the automatic clearing of moss green blocks on two cambered surfaces of the arched green tile when in use, then cleans mud marks on the surface of the green tile, and simultaneously realizes the automatic punching of the green tile into a plurality of small green tile blocks, and each green tile small block is mutually dispersed, and then the coating is sprayed on the green tile small blocks, so that the outer surface of each green tile small block is fully coated with the coating, and the production efficiency is greatly improved.
As shown in fig. 3, the moss removing assembly 2 includes a first transmission rod 201, a first bevel gear 202, a second bevel gear 203, a first electric push rod 204, a third bevel gear 205, a second transmission rod 206, a first screw rod 207, a second slider 208, a first guide rail block 209, a first push block 2010, a second carrier block 2011, a first limit block 2012, a second limit block 2013, a third limit block 2014, a fourth limit block 2015, a first water spraying head group 2016, a second water spraying head group 2017 and a first motor 2018; one end of the first transmission rod 201 is fixedly connected with the first motor 2018, and the other end of the first transmission rod 201 is fixedly connected with the first bevel gear 202; the outer surface of the first transmission rod 201 is connected with the underframe 1; the outer surface of the first transmission rod 201 is connected with the flattening component 3; a second bevel gear 203 is arranged above the first bevel gear 202; the inner part of the second bevel gear 203 is fixedly connected with a first electric push rod 204; a third bevel gear 205 is arranged below the second bevel gear 203; the upper part of the first electric push rod 204 is connected with the underframe 1; the inside of the third bevel gear 205 is fixedly connected with a second transmission rod 206; the second transmission rod 206 is fixedly connected with the first screw rod 207; the outer surface of the second transmission rod 206 is connected with the underframe 1; the outer surface of the first screw rod 207 is screwed with the second slide block 208; the outer surface of the first screw rod 207 is rotatably connected with a first guide rail block 209; the inside of the second slide block 208 is connected with a first guide rail block 209 in a sliding way; the second sliding block 208 is fixedly connected with the first pushing block 2010; the first guide rail block 209 is connected with the chassis 1; the lower part of the first push block 2010 is in contact with a second carrier block 2011; one side above the second carrier block 2011 is fixedly connected with the first limiting block 2012, and the other side above the second carrier block 2011 is fixedly connected with the second limiting block 2013; a third limiting block 2014 is arranged on the side edge of the second carrier block 2011; the lower part of the second carrier block 2011 is connected with the chassis 1; a fourth limiting block 2015 is arranged below the third limiting block 2014; a first spray head group 2016 is arranged above the side edge of the third limiting block 2014; the third limiting block 2014 is connected with the underframe 1; a second water spray head group 2017 is arranged below the fourth limiting block 2015; the fourth limiting block 2015 is connected with the underframe 1; the first showerhead group 2016 is connected to the chassis 1; the second water spray head group 2017 is connected with the underframe 1; the first motor 2018 is connected to the base frame 1.
When the device is ready to work, the smaller arc surface of the arched cyan tile is placed downwards right above the upper surface of the second carrier block 2011, then the first motor 2018 drives the first transmission rod 201 to transmit the first bevel gear 202 to rotate, then the first electric push rod 204 performs telescopic motion to drive the second bevel gear 203 to move downwards, so that the second bevel gear 203 is simultaneously meshed with the first bevel gear 202 and the third bevel gear 205, then the first bevel gear 202 drives the second bevel gear 203 to transmit the third bevel gear 205 to rotate, then the third bevel gear 205 drives the second transmission rod 206 to transmit the first lead screw 207 to rotate, the first lead screw 207 drives the second sliding block 208 to slide towards the third bevel gear 205 on the first guide rail block 209, the second sliding block 208 drives the first push block 2010 to slide towards the third bevel gear 205, so that the first push block 2010 pushes the cyan tile to move into the gap between the third limit block 2014 and the fourth limit block 2015, and the first limit block 2012 and the second limit 2013 can prevent the cyan tile from shifting, then the first pushing block 2010 continues to push the green tile to move, when the green tile passes through the third limiting block 2014 and the fourth limiting block 2015, the third limiting block 2014 and the fourth limiting block 2015 remove a large amount of green moss on the upper cambered surface and the lower cambered surface of the green tile, mud marks can be left on the surface of the green tile after the green moss is removed, meanwhile, the first sprinkler head group 2016 and the second sprinkler head group 2017 begin to spray clear water, when the green tile passes below the first sprinkler head group 2016, the mud marks on the upper cambered surface and the lower cambered surface of the green tile are respectively washed clean by the first sprinkler head group 2016 and the second sprinkler head group 2017, then the green tile continues to move into the first carrier block 8, so that the green tile is automatically cleaned from the green moss blocks on the two cambered surfaces of the arched green tile during use, then the mud marks on the surface of the green tile are cleaned, and the cleaned green tile is transported into the first carrier block 8.
As shown in fig. 4, the flattening assembly 3 includes a first driving wheel 301, a second driving wheel 302, a third driving rod 303, a first cam 304, a first connecting plate 305, a first linkage rod 306, a first spring 307, a second linkage rod 308, a second spring 309, and a first pressing plate 3010; the outer ring surface of the first driving wheel 301 is connected with a second driving wheel 302 through a belt; the interior of the first driving wheel 301 is fixedly connected with the first driving rod 201; the interior of the second driving wheel 302 is fixedly connected with a third driving rod 303; the outer surface of the third transmission rod 303 is fixedly connected with the first cam 304; the outer surface of the third transmission rod 303 is connected with the underframe 1; the outer surface of the third transmission rod 303 is connected with the dispersed spraying component 4; a first connecting plate 305 is arranged above the first cam 304; the first connecting plate 305 is connected with a first linkage rod 306 and a second linkage rod 308 in a sliding manner; the first connection plate 305 is connected to the chassis 1; the lower part of the first linkage rod 306 is fixedly connected with a first spring 307 and a second spring 309 in sequence; the lower part of the first linkage rod 306 is fixedly connected with a first pressing plate 3010; the lower part of the first spring 307 is fixedly connected with the first pressing plate 3010; the lower part of the second linkage rod 308 is fixedly connected with the first pressing plate 3010; the lower part of the second spring 309 is fixedly connected with the first press plate 3010.
The moss removing assembly 2 transports the cleaned green tiles to a first carrier block 8, then a first electric slide rail 6 drives a first slide block 7 to slide towards a dispersion spraying assembly 4, the first slide block 7 drives the first carrier block 8 to drive the green tiles to move towards the dispersion spraying assembly 4, when the green tiles move to a position right below a flattening assembly 3, a first transmission rod 201 drives a first transmission wheel 301 to drive a second transmission wheel 302 to rotate, the second transmission wheel 302 drives a third transmission rod 303 to drive a first cam 304 to rotate, the first cam 304 drives a first pressing plate 3010 to move downwards when rotating, so that the first pressing plate 3010 presses the arched green tiles from top to bottom, the arched green tiles are stressed and split into a plurality of blocks which are laid on the first carrier block 8, meanwhile, the first pressing plate 3010 drives a first linkage rod 306 and a second linkage rod 308 to slide downwards in a first connecting plate 305, the first pressing plate 3010 stretches a first spring 307 and a second spring 309, when the first cam 304 rotates to return to the original position, the first spring 307 and the second spring 309 simultaneously drive the first pressing plate 3010 to move upwards to return to the original position, the first pressing plate 3010 drives the first linkage rod 306 and the second linkage rod 308 to move upwards to return to the original position, then the first carrier block 8 continuously drives the cyan tiles to move to the dispersion spraying assembly 4, when in use, the arched cyan tiles are automatically pressed from top to bottom, and the arched cyan tiles are stressed and split into a plurality of blocks to be flatly laid on the first carrier block 8.
Wherein, as shown in figures 5, 6 and 7, the dispersion spraying assembly 4 comprises a third driving wheel 401, a fourth driving wheel 402, a first sleeve 403, a first prism bar 404, a third slider 405, a second electric slide rail 406, a fourth bevel gear 407, a fifth bevel gear 408, a second screw 409, a fourth slider 4010, a second guide block 4011, a first grid plate 4012, a fifth driving wheel 4013, a sixth driving wheel 4014, a second sleeve 4015, a second prism bar 4016, a fifth slider 4017, a third electric slide rail 4018, a sixth bevel gear 4019, a seventh bevel gear 4020, a third screw 4021, a sixth slider 4022, a third guide block 4023, a first linkage plate 4024, a first steel needle 4025, a first electric rotary table 4026, a first paint nozzle 4027, a second electric rotary table 4028, a second paint nozzle 4029, a first dryer 4030, a second dryer 4031, a fourth electric needle 4032, a seventh slide rail 4033, a second steel slide rail 4034 and a second guide plate 4035; the outer surface of the third driving wheel 401 is connected with a fourth driving wheel 402 through a belt; the interior of the third transmission wheel 401 is fixedly connected with the third transmission rod 303; the interior of the fourth driving wheel 402 is fixedly connected with the first sleeve 403; the first sleeve 403 is internally connected with a first prismatic bar 404; the outer surface of the first loop bar 403 is fixedly connected with a fifth driving wheel 4013; the outer surface of the first loop bar 403 is connected with the underframe 1; the outer surface of the first prismatic rod 404 is rotatably connected with a third sliding block 405; the outer surface of the first prismatic rod 404 is fixedly connected with a fourth bevel gear 407; the lower part of the third sliding block 405 is connected with a second electric sliding rail 406 in a sliding way; the lower part of the second electric slide rail 406 is connected with the underframe 1; a fifth bevel gear 408 is arranged on the side of the fourth bevel gear 407; the interior of the fifth bevel gear 408 is fixedly connected with a second screw rod 409; the outer surface of the second screw rod 409 is screwed with the fourth slide block 4010; the outer surface of the second screw rod 409 is rotationally connected with a second guide rail block 4011; the inside of the fourth slide block 4010 is connected with the second guide rail block 4011 in a sliding manner; the fourth slide block 4010 is fixedly connected with the first grid plate 4012; a fourth electric slide rail 4032 is arranged below the second guide rail block 4011; the second guide rail block 4011 is connected with the underframe 1; the outer ring surface of the fifth driving wheel 4013 is fixedly connected with a sixth driving wheel 4014 through a belt; the interior of the sixth driving wheel 4014 is fixedly connected with a second sleeve rod 4015; the inside of the second sleeve 4015 is connected with a second prismatic rod 4016; the outer surface of the second sleeve 4015 is connected with the underframe 1; the outer surface of the second prismatic rod 4016 is rotatably connected with a fifth slide block 4017; the outer surface of the second prismatic rod 4016 is fixedly connected with a sixth bevel gear 4019; the fifth slide block 4017 is in sliding connection with a third electric slide rail 4018; the third electric slide rail 4018 is connected with the underframe 1; a seventh bevel gear 4020 is arranged on the side of the sixth bevel gear 4019; the interior of the seventh bevel gear 4020 is fixedly connected with the third screw 4021; the outer surface of the third screw 4021 is in screwed connection with the sixth slider 4022; the outer surface of the third screw 4021 is rotationally connected with a third guide rail block 4023; the inside of the sixth sliding block 4022 is connected with a third guide rail block 4023 in a sliding manner; the sixth sliding block 4022 is fixedly connected with the first linkage plate 4024; the third guide rail block 4023 is connected with the underframe 1; the lower part of the first linkage plate 4024 is fixedly connected with a first steel needle 4025; a first electric turntable 4026 is arranged below the side edge of the first linkage plate 4024; the first electric turntable 4026 is fixedly connected with a first paint sprayer 4027; a second electric turntable 4028 is arranged on the side of the first electric turntable 4026; the first electric turntable 4026 is connected with the underframe 1; the second electric turntable 4028 is fixedly connected with a second paint sprayer 4029; the second electric turntable 4028 is connected with the underframe 1; a first dryer 4030 is arranged on the side edge of the second coating sprayer 4029; a second dryer 4031 is arranged below the first dryer 4030; the first dryer 4030 is connected with the chassis 1; the second dryer 4031 is connected with the chassis 1; the inside of the fourth electric slide rail 4032 is connected with a seventh slide block 4033 in a sliding manner; the fourth electric slide rail 4032 is connected with the chassis 1; the seventh sliding block 4033 is fixedly connected with the second linkage plate 4034; the upper part of the second linkage plate 4034 is fixedly connected with a second steel needle 4035.
When the first carrier block 8 drives the green tiles to move to a position right below the first grid plate 4012, the third transmission rod 303 drives the third transmission wheel 401 to transmit the fourth transmission wheel 402 to rotate, the fourth transmission wheel 402 drives the first sleeve 403 to transmit the first edge rod 404 to rotate, the first edge rod 404 drives the fourth bevel gear 407 to rotate, then the second electric slide rail 406 drives the third slide block 405 to slide towards the fifth bevel gear 408, the third slide block 405 drives the fourth bevel gear 407 to mesh with the fifth bevel gear 408, then the fourth bevel gear 407 drives the fifth bevel gear 408 to transmit the second lead screw 409 to rotate, the second lead screw 409 drives the fourth slide block 4010 to slide downwards on the second guide rail block 4011, the fourth 401slide block 0 drives the first grid plate 4012 to move downwards, so that the first grid plate 4012 presses the green tiles on the first carrier block 4018 downwards from top to bottom, thereby stamping the green tiles into a plurality of green tile small tiles at equal intervals, and at this time, the green tile small tiles are located in the grids of the first grid plate 4012, each green tile small block is mutually dispersed, meanwhile, the first loop bar 403 drives the fifth driving wheel 4013 to drive the sixth driving wheel 4014 to rotate, the sixth driving wheel 4014 drives the second loop bar 4015 to drive the second ridge bar 4016 to rotate, the second ridge bar 4016 drives the sixth bevel gear 4019 to rotate, then the third electric slide rail 4018 drives the fifth slide block 4017 to slide in a reciprocating manner, the fifth slide block 4017 drives the second ridge bar 4016 to drive the sixth bevel gear 4019 to move in a reciprocating manner, so that the sixth bevel gear 4019 is contacted with and stopped contacting with the seventh bevel gear 4020, at the moment, the sixth bevel gear 4019 is meshed with the seventh bevel gear 4020, then the sixth bevel gear 4019 drives the seventh bevel gear 4020 to drive the third screw rod 4021 to rotate, the third screw rod 4021 drives the sixth slide block 2 to slide downwards on the third guide rail block 4023, the sixth slide block 4022 drives the first linkage plate 4024 to drive the first steel needle 4025 to move downwards, so that the first steel needle 4025 penetrates through the first grid plate 4022 to press the green tile small blocks 4018, then the sixth bevel gear 4019 stops meshing with the seventh bevel gear 4020, at this time, the third transmission rod 303 rotates reversely, so that the first grid plate 4012 moves upward and returns to the original position, then the second electric slide rail 406 drives the third slide block 405 to move back to the original position, so that the fourth bevel gear 407 stops meshing with the fifth bevel gear 408, then the fourth electric slide rail 4032 drives the seventh slide block 4033 to move upward, the seventh slide block 4033 drives the second linkage plate 4034 to drive the second steel needle 4035 to move upward, so that the second steel needle 4035 passes through the first carrier block 8 and abuts against the lower part of the green tile small block, at this time, the sixth bevel gear 4019 meshes with the seventh bevel gear 4020, the third transmission rod 303 rotates forward and backward, so that the first steel needle 4025 reciprocates up and down, at the same time, the fourth electric slide rail 4032 drives the seventh slide block 4033 to reciprocate up and down, so that the second steel needle 4035 reciprocates up and down, and the motion track 4035 is consistent with the first steel needle 4025, that is, the second steel needle 4035 and the first steel needle 4025 simultaneously clamp the green tile small block to reciprocate up and down, then the first electric turntable 4026 drives the first paint sprayer 4027 to reciprocate, the second electric turntable 4028 drives the second paint sprayer 4029 to reciprocate, so that the first paint sprayer 4027 and the second paint sprayer 4029 spray paint on the green tile small block from various angles, so that the outer surface of the green tile small block is full of paint, then the second steel needle 4035 and the first steel needle 4025 simultaneously clamp the green tile small block to move down to the first carrier block 8, then the fourth electric slide rail 4032 drives the seventh slide block 4033 to move down to return to the original position, the seventh slide block 4033 drives the second linkage plate 4034 to drive the second steel needle 4035 to move down to return to the original position, then the first steel needle 4025 moves up to return to the original position, the sixth bevel gear 4019 stops meshing with the seventh bevel gear 4020, then the first carrier block 4038 drives the green tile small block 4030 after paint spraying to move to the first carrier block 4030, then first drying apparatus 4030 and second drying apparatus 4031 dry the small blue tile at the same time, have realized while using and stamped the blue or green tile into a plurality of small blue or green tile pieces automatically, and make each small blue or green tile piece disperse each other, then spray the coating to the small blue or green tile piece, thus coat the outer surface of each small blue or green tile piece with the coating, then dry each small blue or green tile piece.
The upper surface of the second carrier block 2011 is an arc surface, and the arc surface can be attached to the smaller arc surface of the arched green tile.
The green tile can be stably placed right above the upper surface of the second carrier block 2011.
An arc-shaped gap is arranged between the third limiting block 2014 and the fourth limiting block 2015.
The green tile sheet can just pass through the gap, so that the third limiting block 2014 and the fourth limiting block 2015 remove the green moss on the outer surface of the green tile.
The first steel needles 4025 are arranged in a rectangular array.
Can press a plurality of groups of green tile small blocks simultaneously.
The second steel needles 4035 are arranged in a rectangular array in multiple groups and correspond to the multiple groups of the first steel needles 4025 one by one.
Can be matched with each other to fix a plurality of groups of green tile small blocks.
The first pellet block 8 is provided with circular through holes in a rectangular array.
Multiple sets of second steel needles 4035 may be moved up through the first pellet block 8.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.
Claims (9)
1. A distributed concrete coarse aggregate production device comprises a control screen, a first electric slide rail and a first slide block, and is characterized by further comprising a bottom frame, a moss removing assembly, a flattening assembly, a dispersed spraying assembly and a first carrier block; the underframe is connected with the moss removing component; the bottom frame is connected with the flattening component; the underframe is connected with the dispersed spraying assembly; the upper part of the underframe is connected with the control screen; the underframe is connected with the first electric slide rail; the moss removing component is connected with the flattening component; the flattening component is connected with the dispersing and spraying component; the first electric sliding rail is in sliding connection with the first sliding block; the first sliding block is fixedly connected with the first carrier block.
2. The device for producing the coarse aggregate of the distributed concrete according to claim 1, wherein the moss removing component comprises a first transmission rod, a first bevel gear, a second bevel gear, a first electric push rod, a third bevel gear, a second transmission rod, a first screw rod, a second slide block, a first guide rail block, a first push block, a second carrier block, a first limit block, a second limit block, a third limit block, a fourth limit block, a first water spraying head group, a second water spraying head group and a first motor; one end of the first transmission rod is fixedly connected with the first motor, and the other end of the first transmission rod is fixedly connected with the first bevel gear; the outer surface of the first transmission rod is connected with the bottom frame; the outer surface of the first transmission rod is connected with the flattening component; a second bevel gear is arranged above the first bevel gear; the inner part of the second bevel gear is fixedly connected with the first electric push rod; a third bevel gear is arranged below the second bevel gear; the upper part of the first electric push rod is connected with the bottom frame; the inner part of the third bevel gear is fixedly connected with the second transmission rod; the second transmission rod is fixedly connected with the first screw rod; the outer surface of the second transmission rod is connected with the underframe; the outer surface of the first screw rod is in screwed connection with the second sliding block; the outer surface of the first screw rod is rotationally connected with the first guide rail block; the inside of the second sliding block is connected with the first guide rail block in a sliding way; the second sliding block is fixedly connected with the first pushing block; the first guide rail block is connected with the bottom frame; the lower part of the first push block is contacted with the second carrier block; one side above the second carrier block is fixedly connected with the first limiting block, and the other side above the second carrier block is fixedly connected with the second limiting block; a third limiting block is arranged on the side edge of the second carrier block; the lower part of the second carrier block is connected with the underframe; a fourth limiting block is arranged below the third limiting block; a first water spraying head group is arranged above the side edge of the third limiting block; the third limiting block is connected with the underframe; a second water spraying head group is arranged below the fourth limiting block; the fourth limiting block is connected with the underframe; the first water spraying head group is connected with the underframe; the second water spray head group is connected with the underframe; the first motor is connected with the chassis.
3. The apparatus for producing a distributed concrete coarse aggregate according to claim 2, wherein the flattening assembly comprises a first driving wheel, a second driving wheel, a third driving rod, a first cam, a first connecting plate, a first linkage rod, a first spring, a second linkage rod, a second spring and a first pressing plate; the outer ring surface of the first driving wheel is connected with the second driving wheel through a belt; the inner part of the first driving wheel is fixedly connected with the first driving rod; the inner part of the second driving wheel is fixedly connected with a third driving rod; the outer surface of the third transmission rod is fixedly connected with the first cam; the outer surface of the third transmission rod is connected with the underframe; the outer surface of the third transmission rod is connected with the dispersed spraying assembly; a first connecting plate is arranged above the first cam; the interior of the first connecting plate is sequentially connected with the first linkage rod and the second linkage rod in a sliding manner; the first connecting plate is connected with the underframe; the lower part of the first linkage rod is fixedly connected with a first spring and a second spring in sequence; the lower part of the first linkage rod is fixedly connected with the first pressing plate; the lower part of the first spring is fixedly connected with the first pressure plate; the lower part of the second linkage rod is fixedly connected with the first pressing plate; the lower part of the second spring is fixedly connected with the first pressure plate.
4. The device for producing the coarse aggregate of the dispersive concrete according to the claim 3, wherein the dispersive spraying component comprises a third driving wheel, a fourth driving wheel, a first loop bar, a first ridge bar, a third sliding block, a second electric sliding rail, a fourth bevel gear, a fifth bevel gear, a second screw rod, a fourth sliding block, a second guide rail block, a first grating, a fifth driving wheel, a sixth driving wheel, a second loop bar, a second ridge bar, a fifth sliding block, a third electric sliding rail, a sixth bevel gear, a seventh bevel gear, a third screw rod, a sixth sliding block, a third guide rail block, a first linkage plate, a first steel needle, a first electric rotating disc, a first paint spray head, a second electric rotating disc, a second paint spray head, a first drier, a second drier, a fourth electric sliding rail, a seventh sliding block, a second linkage plate and a second steel needle; the outer surface of the third driving wheel is connected with the fourth driving wheel through a belt; the inner part of the third driving wheel is fixedly connected with a third driving rod; the inner part of the fourth driving wheel is fixedly connected with the first sleeve rod; the inner part of the first sleeve rod is connected with the first prismatic rod; the outer surface of the first sleeve rod is fixedly connected with a fifth driving wheel; the outer surface of the first sleeve rod is connected with the bottom frame; the outer surface of the first prismatic rod is rotationally connected with the third sliding block; the outer surface of the first prismatic rod is fixedly connected with a fourth bevel gear; the lower part of the third sliding block is in sliding connection with the second electric sliding rail; the lower part of the second electric slide rail is connected with the underframe; a fifth bevel gear is arranged on the side edge of the fourth bevel gear; the interior of the fifth bevel gear is fixedly connected with the second screw rod; the outer surface of the second screw rod is in screwed connection with the fourth sliding block; the outer surface of the second screw rod is rotationally connected with the second guide rail block; the inside of the fourth sliding block is in sliding connection with the second guide rail block; the fourth sliding block is fixedly connected with the first grid plate; a fourth electric slide rail is arranged below the second guide rail block; the second guide rail block is connected with the bottom frame; the outer ring surface of the fifth driving wheel is fixedly connected with the sixth driving wheel through a belt; the inner part of the sixth driving wheel is fixedly connected with the second sleeve rod; the inner part of the second sleeve rod is connected with the second prismatic rod; the outer surface of the second sleeve rod is connected with the underframe; the outer surface of the second prismatic rod is rotationally connected with the fifth sliding block; the outer surface of the second prismatic rod is fixedly connected with a sixth bevel gear; the fifth sliding block is in sliding connection with the third electric sliding rail; the third electric sliding rail is connected with the underframe; a seventh bevel gear is arranged on the side edge of the sixth bevel gear; the interior of the seventh bevel gear is fixedly connected with the third screw rod; the outer surface of the third screw rod is in screwed connection with the sixth sliding block; the outer surface of the third screw rod is rotationally connected with the third guide rail block; the interior of the sixth sliding block is in sliding connection with the third guide rail block; the sixth sliding block is fixedly connected with the first linkage plate; the third guide rail block is connected with the bottom frame; the lower part of the first linkage plate is fixedly connected with a first steel needle; a first electric turntable is arranged below the side edge of the first linkage plate; the first electric turntable is fixedly connected with the first coating sprayer; a second electric turntable is arranged on the side edge of the first electric turntable; the first electric turntable is connected with the underframe; the second electric turntable is fixedly connected with the second coating sprayer; the second electric turntable is connected with the underframe; a first dryer is arranged on the side edge of the second coating sprayer; a second dryer is arranged below the first dryer; the first dryer is connected with the bottom frame; the second dryer is connected with the bottom frame; the interior of the fourth electric sliding rail is in sliding connection with the seventh sliding block; the fourth electric sliding rail is connected with the underframe; the seventh sliding block is fixedly connected with the second linkage plate; the upper part of the second linkage plate is fixedly connected with a second steel needle.
5. A distributed concrete coarse aggregate production apparatus as set forth in claim 4, wherein the upper surface of the second carrier block is a circular arc surface and the circular arc surface is adapted to be fitted with a smaller circular arc surface of the arched green tile.
6. The apparatus for producing a distributed concrete coarse aggregate according to claim 5, wherein an arc-shaped gap is provided between the third stopper and the fourth stopper.
7. A distributed concrete coarse aggregate production apparatus as set forth in claim 6, wherein the first steel needles are arranged in a plurality of groups in a rectangular array.
8. A distributed concrete coarse aggregate production apparatus as set forth in claim 7, wherein the second pins are arranged in plural sets in a rectangular array, one for each of the plural sets of the first pins.
9. The apparatus for producing a distributed concrete coarse aggregate according to claim 8, wherein the first pellet block is provided with circular through holes in a rectangular array.
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| CN202011472825.5A CN112619835A (en) | 2020-12-15 | 2020-12-15 | Distributed concrete coarse aggregate apparatus for producing |
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| CN111715508A (en) * | 2020-05-30 | 2020-09-29 | 成都聚力混凝土有限公司 | Building aggregate regeneration device and process |
| CN111943587A (en) * | 2020-07-29 | 2020-11-17 | 曹均云 | Recycled concrete and preparation method thereof |
| CN111995278A (en) * | 2020-09-08 | 2020-11-27 | 许翠玲 | Manufacturing and processing machine and manufacturing and processing technology for recycled concrete aggregate |
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Application publication date: 20210409 |