CN113463479B - Pavement flower brick laying method - Google Patents
Pavement flower brick laying method Download PDFInfo
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- CN113463479B CN113463479B CN202110936769.4A CN202110936769A CN113463479B CN 113463479 B CN113463479 B CN 113463479B CN 202110936769 A CN202110936769 A CN 202110936769A CN 113463479 B CN113463479 B CN 113463479B
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- bricks
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C19/00—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
- E01C19/52—Apparatus for laying individual preformed surfacing elements, e.g. kerbstones
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- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C5/00—Pavings made of prefabricated single units
- E01C5/04—Pavings made of prefabricated single units made of bricks
Abstract
The invention relates to the field of engineering machinery, in particular to a pavement tile laying method which is completed by matching pavement tile laying equipment. The width of the working stroke of the working box is adjusted according to the width of the paving bricks through the adjusting component, and the four adjusting support groups can adjust the horizontal height to ensure the horizontal degree of the working box; the limiting part and the pouring part are matched to limit and pave cement according to the size of the brick, so that the uniformity of the height of the brick in the brick paving process is controlled; redundant cement extruded by the bricks is cleaned and cement is filled in gaps among the bricks through the matching action of the limiting component and the brick paving component, so that the stability of the bricks is ensured.
Description
Technical Field
The invention relates to the field of engineering machinery, in particular to a pavement tile laying method.
Background
The pavement paving pattern bricks in the current society are paved by manual work, and as the labor intensity of workers is very high, and the number of technical personnel of the worker is less and less along with the development of the society, a mechanized device for replacing manual work is urgently needed at present to improve the efficiency of paving the pattern bricks and reduce the labor intensity of the manual work. The existing flower brick laying equipment cannot automatically level and evenly spread cement, bricks are laid to remove excessive cement extruded, the excessive cement is not timely cleaned, and gaps among the bricks are not filled with cement to affect firmness among the bricks.
Disclosure of Invention
The invention aims to solve the problems in the prior art and provides a pavement tile laying method.
In order to achieve the purpose, the invention adopts the following technical scheme: a pavement tile laying method comprises the following steps:
s1, adjusting the laying width, and adjusting the working range of the working box according to the laying width through four supporting rollers of the working box;
s2, limiting the position, and sliding the limiting plate according to the width of the brick to limit the paving width of the cement;
s3: feeding and stirring, wherein the cement material enters a stirring box through a funnel to be stirred and produced;
s4: discharging flattening, wherein cement is discharged back and forth through a discharging channel, and the cement is uniformly distributed after discharging;
s5: the bricks are fed into the working box for arrangement through the transmission mechanism, and gaps among the bricks are controlled;
s6: moving the bricks, moving the working box, and when the arranged bricks descend above the cement, supporting and contracting, and sliding the upper ends of the cement under the bricks;
s7, extruding stably, namely extruding and stabilizing a row of bricks at the upper end of the cement in order to the same height;
s8, utilizing excess materials, and scraping excess cement squeezed out to be moved into gaps among the bricks;
the steps S1-S8 are completed by matching the pavement tile laying equipment, the pavement tile laying equipment comprises a working box, adjusting parts are arranged on two sides of the lower end of the working box, a limiting part is arranged below the middle part in the working box, a pouring part is arranged on one side of the limiting part, and a tile laying part is arranged on one side of the limiting part away from the pouring part.
Preferably, the adjustment part includes four adjustment support groups, four adjustment support groups are fixed in work box lower extreme both sides, adjustment support group contains and is equipped with the fixed block, the fixed block lower extreme is equipped with first slide, the fixed block has set firmly two first spouts in first slide both sides, first slide both sides have set firmly two first sliders, two first sliders slide in two first spouts, first slide lower extreme is equipped with the second slide, first slide has set firmly two second spouts in second slide both sides, second slide both sides have set firmly two second sliders, two second sliders slide in two second spouts.
Preferably, the lower end of the second sliding plate is fixedly provided with a telescopic column, the lower end of the telescopic column is rotatably connected with a rotating shaft, the outer circumferential surface of the rotating shaft is fixedly provided with a roller, and the four adjusting support groups can adjust the width and the horizontal height of the working box.
Preferably, spacing part includes flexible slide, flexible slide is located the middle of the work box inner part, flexible slide both sides have set firmly two third sliders, two third slider peripheries are equipped with two third spouts, the both sides of two third spout fixed work boxes, flexible slide lower extreme is equipped with flexible limiting plate, flexible limiting plate lower extreme one side is rotated and is equipped with first rotary column, the stripper plate has set firmly on the first rotary column, first rotary column one side is kept away from to flexible limiting plate lower extreme is rotated and is equipped with the second rotary column, the scraper blade has set firmly on the second rotary column.
Preferably, the pouring component comprises a feeding hopper, the feeding hopper is fixed at one side of the upper end of the working box close to the pouring component, a stirring box is fixedly arranged at the lower end of the feeding hopper, the stirring box is fixed on the working box, a first motor is arranged at one side of the working box, a first linkage shaft is arranged towards the direction of the stirring box by the first motor, a second linkage shaft is arranged at one side of the first linkage shaft, the first linkage shaft and the second linkage shaft penetrate through two sides of the stirring box and penetrate out of the working box towards one side of the first motor, a first gear is fixedly arranged at one end of the first linkage shaft close to the first motor on the outer circumference of the working box, a second gear is fixedly arranged at the part of the second linkage shaft penetrating out of the working box, the first gear is meshed with the second gear, a first spiral stirring plate is fixedly arranged on the outer circumference of the first linkage shaft in the stirring box, and a second spiral stirring plate is fixedly arranged on the outer circumference of the second linkage shaft in the stirring box.
Preferably, a first sliding cavity is arranged in the stirring box below the second spiral stirring plate, a rotating plate is arranged in the first sliding cavity in a sliding mode, a second sliding cavity is arranged below the first sliding cavity, two push plates are arranged on two sides of the second sliding cavity in a sliding mode, two first blanking channels are arranged on two sides between the second sliding cavity and the second spiral stirring plate, a second motor is fixedly arranged at the lower end of the rotating plate, a motor protection ring is fixedly arranged on the second motor, the second motor and the motor protection ring are connected in the second sliding cavity in a sliding mode, a telescopic blanking column is fixedly arranged at the lower end of the second motor, a blanking disc is fixedly arranged at the lower end of the telescopic blanking column, the telescopic blanking column is communicated with the inner portion of the blanking disc, two second blanking channels are arranged on two sides between the blanking cavity and the second sliding cavity, and a blanking control valve is arranged at the lower end of the blanking cavity.
Preferably, the brick paving component comprises a third motor, the third motor is fixed on the outer wall of the working box in the direction of the brick paving component, the third motor is fixedly provided with a first rotating column in the direction of the inner part of the working box, the first rotating column is rotatably connected to the working box, the first rotating column is provided with a second rotating column in the direction of the outer part of the working box, two baffles are arranged on two sides of the second rotating column, the two baffles are fixed on the working box, the second rotating column is far away from the direction of the working box, the lower part of the working box is provided with a third rotating column, the third rotating column is far away from the direction of the working box, the fourth rotating column is provided with a fourth rotating column, the third rotating column and the fourth rotating column are rotatably connected between the two baffles, the first rotating column, the second rotating column, the third rotating column, the periphery of the fourth rotating column is connected with a conveying belt, a plurality of rotating shafts are rotatably arranged on the conveying belt, and a supporting plate is fixedly arranged on the rotating shaft.
Preferably, be equipped with feedstock channel between conveyer belt and the work box, the conveyer belt is equipped with two first risers to work box direction both sides, it is equipped with two flexible sliders to slide on two first risers, be equipped with two flexible lugs on two flexible sliders, two first risers slide and are equipped with two flexible supporting shoes, first riser both sides have set firmly two second risers, it is equipped with two flexible supporting shoes to slide on two second risers, first riser one side is equipped with two fourth spouts, first riser is that two sliders can slide in two fourth spouts.
Has the advantages that:
1. the width of working box working stroke is adjusted according to the width of the paving bricks through the adjusting part, and the four adjusting support groups can adjust the horizontal height to ensure the horizontal degree of the working box.
2. Through spacing part and pouring part mating reaction, carry out spacing paving cement according to the size of fragment of brick, be favorable to controlling the uniformity of tile work in-process fragment of brick height.
3. The excessive cement extruded by the bricks is cleaned and the gaps between the bricks are filled with cement through the matching action of the limiting part and the brick paving part, so that the stability of the bricks is ensured.
Drawings
The invention is further explained below with reference to the figures and examples:
FIG. 1 is a flow chart of the method of the present invention.
Fig. 2 is a schematic isometric view of the present invention.
Fig. 3 is a schematic structural view in front view of the present invention.
Fig. 4 isbase:Sub>A schematic sectional view of the structure atbase:Sub>A-base:Sub>A in fig. 3.
Fig. 5 is a schematic cross-sectional view at E-E in fig. 3.
Fig. 6 is a schematic top view of the present invention.
Fig. 7 is a schematic cross-sectional view at B-B in fig. 6.
Fig. 8 is a schematic sectional view at D-D in fig. 6.
In the figure, the position of the upper end of the main shaft, the device comprises a working box 1, an adjusting component 2, a limiting component 3, a pouring component 4, a brick paving component 5, an adjusting support group 201, a fixed block 202, a first sliding plate 203, a second sliding plate 204, a telescopic column 205, a roller 206, a rotating shaft 207, a first sliding chute 208, a first sliding block 209, a second sliding chute 210, a second sliding block 211, a telescopic sliding plate 301, a telescopic limit plate 302, a third sliding block 303, a third sliding chute 304, a first rotating column 305, a second rotating column 306, a squeezing plate 307, a scraping plate 308, a feeding hopper 401, a stirring box 402, a first motor 403, a first linkage shaft 404, a second linkage shaft 405, a first gear 406, a second gear 407, a first spiral stirring plate 408, a brick paving component the device comprises a second spiral stirring plate 409, a rotating plate 410, a first sliding cavity 411, a first blanking channel 412, a second motor 413, a motor protection ring 414, a second sliding cavity 415, a telescopic blanking column 416, a blanking disc 417, a blanking control valve 418, a blanking cavity 419, a second blanking channel 420, a push plate 421, a third motor 501, a first rotating column 502, a second rotating column 503, a third rotating column 504, a fourth rotating column 505, a conveyor belt 506, a rotating shaft 507, a support plate 508, a first vertical plate 509, a telescopic lug 510, a telescopic slider 511, a second vertical plate 512, a telescopic support block 513, a feeding channel 514, a feeding port 515, a fourth chute 516 and a baffle 517.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.
In the description of the present invention, it should be noted that the terms "inside", "below", etc. indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally placed when the products of the present invention are used, and are only used for convenience of description and simplification of the description, but do not indicate or imply that the devices or elements referred to must have specific orientations, be constructed and operated in specific orientations, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.
With reference to fig. 1-8, a method for paving road tiles comprises the following steps:
s1, adjusting the laying width, and adjusting the working range of the working box according to the laying width through four supporting rollers of the working box;
s2, limiting the position, and sliding the limiting plate according to the width of the brick to limit the paving width of the cement;
s3: feeding and stirring, wherein the cement material enters a stirring box through a funnel to be stirred and produced;
s4: discharging flattening, wherein cement is discharged back and forth through a discharging channel, and the cement is uniformly distributed after discharging;
s5: the bricks are fed into the working box for arrangement through the transmission mechanism, and gaps among the bricks are controlled;
s6: moving the bricks, moving the working box, and when the arranged bricks descend above the cement, supporting and contracting, and sliding the upper ends of the cement under the bricks;
s7, extruding stably, namely extruding and stabilizing a row of bricks at the upper end of the cement in order to the same height;
s8, utilizing excess materials, scraping away excess cement squeezed out, and placing the cement into gaps among the bricks;
the steps S1-S8 are completed by matching the pavement tile laying equipment, the pavement tile laying equipment comprises a working box 1, adjusting parts 2 are arranged on two sides of the lower end of the working box 1, a limiting part 3 is arranged below the middle inside the working box 1, a pouring part 4 is arranged on one side of the limiting part 3, and a tile laying part 5 is arranged on one side, away from the pouring part 4, of the limiting part 3.
Further, with reference to fig. 5, the adjusting component 2 includes four adjusting support groups 201, the four adjusting support groups 201 are fixed on two sides of the lower end of the work box 1, the adjusting support group 201 includes a fixing block 202, a first sliding plate 203 is arranged at the lower end of the fixing block 202, the fixing block 202 is fixedly provided with two first sliding grooves 208 on two sides of the first sliding plate 203, two first sliding blocks 209 are fixedly provided on two sides of the first sliding plate 203, the two first sliding blocks 209 slide in the two first sliding grooves 208, a second sliding plate 204 is arranged at the lower end of the first sliding plate 203, two second sliding grooves 210 are fixedly provided on two sides of the second sliding plate 204 on the first sliding plate 203, two second sliding blocks 211 are fixedly provided on two sides of the second sliding plate 204, and the two second sliding blocks 211 slide in the two second sliding grooves 210.
Further, referring to fig. 5, a telescopic column 205 is fixedly disposed at a lower end of the second sliding plate 204, a rotating shaft 207 is rotatably connected to a lower end of the telescopic column 205, a roller 206 is fixedly disposed on an outer circumferential surface of the rotating shaft 207, and the four adjusting support sets 201 can adjust the width and the horizontal height of the work box 1.
Further, combine fig. 4, 7, stop part 3 is including flexible slide 301, flexible slide 301 is located 1 inside centre of work box, flexible slide 301 both sides have set firmly two third sliders 303, two third slider 303 peripheries are equipped with two third spouts 304, the both sides of the fixed work box 1 of two third spouts 304, flexible slide 301 lower extreme is equipped with flexible limiting plate 302, flexible limiting plate 302 lower extreme one side is rotated and is equipped with first rotary column 305, the stripper plate 307 has set firmly on the first rotary column 305, flexible limiting plate 302 lower extreme is kept away from first rotary column 305 one side and is rotated and be equipped with second rotary column 306, the scraper blade 308 has set firmly on the second rotary column 306.
Further, with reference to fig. 2, 4, and 7, the casting component 4 includes a feeding funnel 401, the feeding funnel 401 is fixed at one side of the upper end of the working box 1 near the casting component 4, a stirring box 402 is fixed at the lower end of the feeding funnel 401, the stirring box 402 is fixed on the working box 1, one side of the working box 1 is provided with a first motor 403, the first motor 403 is provided with a first linkage shaft 404 toward the stirring box 402, one side of the first linkage shaft 404 is provided with a second linkage shaft 405, the first linkage shaft 404 and the second linkage shaft 405 penetrate through two sides of the stirring box 402 and penetrate out of the working box 1 toward one side of the first motor 403, one end of the first linkage shaft 404 near the first motor is fixedly provided with a first gear 406 on the outer circumference of the working box 1, the second linkage shaft 405 penetrates through the outer portion of the working box 1 and is fixedly provided with a second gear 403, the first gear 406 is connected with the second gear 407 in a meshing manner, the first helical stirring plate 408 is fixedly provided on the outer circumference of the first linkage shaft 404 in the stirring box 402, and the second linkage shaft 405 is fixedly provided with a second helical stirring plate 409 on the outer circumference of the stirring surface in the stirring box 402.
Further, with reference to fig. 2, 4, and 7, a first sliding cavity 411 is provided in the stirring box 402 under the second spiral stirring plate 409, a rotating plate 410 is slidably provided in the first sliding cavity 411, a second sliding cavity 415 is provided under the first sliding cavity 411, two push plates 421 are slidably provided on two sides of the second sliding cavity 415, two first discharging channels 412 are provided on two sides between the second sliding cavity 415 and the second spiral stirring plate 409, a second motor 413 is fixedly provided at a lower end of the rotating plate 410, a motor protection ring 414 is fixedly provided at the second motor 413, the second motor 413 and the motor protection ring 414 are slidably connected in the second sliding cavity 415, a telescopic discharging column 416 is fixedly provided at a lower end of the second motor 413, a discharging tray 417 is fixedly provided at a lower end of the telescopic discharging column 416, a discharging cavity 419 is provided in communication with the inside of the discharging tray 417, two second discharging channels 420 are provided on two sides between the discharging cavity 419 and the second sliding cavity 415, and a discharging control valve 418 is provided at a lower end of the discharging cavity 419.
Further, with reference to fig. 2, 4, and 8, the tile paving component 5 includes a third motor 501, the third motor 501 is fixed on an outer wall of the work box 1 facing the direction of the tile paving component 5, the third motor 501 is fixedly provided with a first rotating column 502 facing the inside of the work box 1, the first rotating column 502 is rotatably connected to the work box 1, the first rotating column 502 is provided with a second rotating column 503 facing the outside of the work box 1, two baffles 517 are provided on two sides of the second rotating column 503, the two baffles 517 are fixed on the work box 1, a third rotating column 504 is provided below the second rotating column 503 facing away from the work box 1, a fourth rotating column 505 is provided on the third rotating column 504 facing away from the work box 1, the third rotating column 504 and the fourth rotating column 505 are rotatably connected between the two baffles 517, the first rotating column 502, the second rotating column 503, the third rotating column 504, and the fourth rotating column 505 are connected to each other, a conveyor belt 506 is provided on the periphery of the conveyor belt 506, and a plurality of rotating shafts 507 are fixedly provided with a support plate 508 on the rotating shaft 507.
Further, combine fig. 2, 4, 8, be equipped with feedstock channel 514 between conveyer belt 506 and the work box 1, conveyer belt 506 is equipped with two first risers 509 to 1 direction both sides of work box, it is equipped with two flexible sliders 511 to slide on two first risers 509, be equipped with two flexible lugs 510 on two flexible sliders 511, two first risers 509 slide and are equipped with two flexible supporting blocks 513, first riser 509 both sides have set firmly two second risers 512, it is equipped with two flexible supporting blocks 513 to slide on two second risers 512, first riser 509 one side is equipped with two fourth spout 516, first riser 509 is that two sliders can slide in two fourth spout 516.
Principle of operation
S1, adjusting the paving width, sliding out a first sliding plate 203 and a second sliding plate 204 by an adjusting component 2 through four whole supporting groups 201 according to the width of a brick to be paved to adjust the width of the working box 1, and adjusting the working box 1 in the horizontal direction through four telescopic columns 205 to ensure that the working box 1 is kept in the horizontal state.
And S2, limiting the position, wherein the limiting part 3 performs sliding limiting in the two third sliding grooves 304 through the two third sliding blocks 303 on the telescopic sliding plate 301 according to the width of the brick.
S3: feeding and stirring are carried out, cement materials enter a stirring box 402 through a feeding hopper 401, a first motor 403 is started to drive a first spiral stirring plate 408 to rotate through a first linkage shaft 404, the first linkage shaft 404 rotates to drive a second linkage shaft 405 to rotate through the meshing effect of a first gear 406 and a second gear 407, the second linkage shaft 405 rotates to drive a second spiral stirring plate 409 to rotate, and the first spiral stirring plate 408 and the second spiral stirring plate 409 rotate oppositely to carry out sufficient stirring on the cement materials.
S4: unloading is flat, cement is fed into the second sliding cavity 415 through the first unloading channel 412 and then is pushed into the second unloading channel 420 through the two push plates 421, the unloading amount is controlled through the unloading control valve 418 finally, the second motor 413 is started to drive the rotating plate 410 to slide in the first sliding cavity 411, so that the cement is evenly fed back and forth, the unloading of the cement is completed, the telescopic unloading column 416 controls the unloading disc 417 to downwards extrude the cement evenly, and finally the horizontal state of the extrusion plate 307 is controlled through the rotation of the first rotating column 305 on the telescopic limiting plate 302 to evenly extrude the cement.
S5: the bricks are fed and arranged, the bricks move through the conveyor belt 506, the rotating shaft 507 and the support plate 508 move upwards under the matching action, the bricks enter the working box through the feeding channel 514 and then enter between the two first vertical plates 509 and the two second vertical plates 512 through the feeding holes 515, the bricks are supported by the four telescopic support blocks 513 on the two first vertical plates 509 and the two second vertical plates 512, and the telescopic lugs 510 on the two first vertical plates 509 and the telescopic sliders 511 slide to clamp the bricks to move and arrange under the matching action;
s6: the bricks are paved in a moving mode, the telescopic limiting plate 302 moves upwards, the working box 1 moves towards the direction of paved cement through the roller 206, and the two first vertical plates 509 and the two second vertical plates 512 move downwards through the two fourth sliding grooves 516 to the upper portion of the quick-contact cement, and the four telescopic supporting blocks 513 contract to shrink a row of bricks to fall to the upper end of the cement.
And S7, stably extruding, wherein the four telescopic supporting blocks 513 on the two first vertical plates 509 and the two second vertical plates 512 extend out and press downwards to extrude a row of bricks and control the height of the bricks.
S8, utilizing excess materials, wherein the second rotary column 306 on the telescopic limiting plate 302 rotates to drive the scraper plate 308 to scrape excess cement extruded out from the bricks and spread the excess cement onto the bricks, and the second rotary column 306 rotates to drive the scraper plate 308 to scrape the cement into gaps among the bricks for air drying and forming.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (7)
1. A pavement tile laying method is characterized by comprising the following steps:
s1, adjusting the laying width, and adjusting the working range of the working box according to the laying width through four supporting rollers of the working box;
s2, limiting the position, and sliding the limiting plate according to the width of the brick to limit the paving width of the cement;
s3: feeding and stirring, wherein the cement material enters a stirring box through a funnel to be stirred and produced;
s4: discharging flattening, wherein cement is discharged back and forth through a discharging channel, and the cement is uniformly distributed after discharging;
s5: the bricks are fed and arranged, and the bricks enter the working box through the transmission mechanism to be arranged, so that gaps among the bricks are controlled;
s6: moving the bricks, moving the working box, and when the arranged bricks descend above the cement, supporting and contracting the bricks, and sliding the upper ends of the cement under the bricks;
s7, extruding stably, namely extruding and stabilizing a row of bricks at the upper end of the cement in order to the same height;
s8, utilizing excess materials, scraping away excess cement squeezed out, and placing the cement into gaps among the bricks;
step S1-S8 adopt a road surface brick laying equipment cooperation to accomplish, and this road surface brick laying equipment includes work box (1), work box (1) lower extreme both sides are equipped with adjusting part (2), the inside middle below of work box (1) is equipped with spacing part (3), spacing part (3) one side is equipped with pours part (4), spacing part (3) are kept away from pouring part (4) one side and are equipped with and spread brick part (5), spacing part (3) are including flexible slide (301), flexible slide (301) are located work box (1) inside centre, flexible slide (301) both sides have set firmly two third sliders (303), two third slider (303) peripheries are equipped with two third spout (304), the both sides of two third spout (304) fixed work box (1), flexible slide (301) lower extreme is equipped with flexible limiting plate (302), flexible limiting plate (302) lower extreme one side is rotated and is equipped with first rotary column (305), the first rotary column (305) is gone up to set firmly extrusion plate (307), flexible rotary column (302) lower extreme has set firmly second rotary column (306), second rotary column (306) one side has been kept away from to flexible rotary column (306).
2. A pavement tile laying method according to claim 1, characterized in that: adjusting part (2) include that four adjustments support group (201), four adjustments support group (201) are fixed in work box (1) lower extreme both sides, adjustment support group (201) contain and are equipped with fixed block (202), fixed block (202) lower extreme is equipped with first slide (203), fixed block (202) have set firmly two first spout (208) in first slide (203) both sides, first slide (203) both sides have set firmly two first slider (209), two first slider (209) slide in two first spout (208), first slide (203) lower extreme is equipped with second slide (204), first slide (203) have set firmly two second spout (210) in second slide (204) both sides, second slide (204) both sides have set firmly two second slider (211), two second slider (211) slide in two second spout (210).
3. A pavement tile laying method according to claim 2, characterized in that: the utility model discloses a work box, including second slide (204), flexible post (205) lower extreme sets firmly, flexible post (205) lower extreme rotates to be connected and is equipped with pivot (207), set firmly gyro wheel (206) on pivot (207) outer periphery, four adjustment support group (201) can carry out the adjustment of work box (1) width and level.
4. A pavement tile laying method according to claim 1, characterized in that: the pouring component (4) comprises a feeding funnel (401), the feeding funnel (401) is fixed at one side of the upper end of the working box (1) close to the pouring component (4), the lower end of the feeding funnel (401) is fixedly provided with a stirring box (402), the stirring box (402) is fixed on the working box (1), a first motor (403) is arranged on one side of the working box (1), a first linkage shaft (404) is arranged in the direction of the stirring box (402) by the first motor (403), a second linkage shaft (405) is arranged on one side of the first linkage shaft (404), the first linkage shaft (404) and the second linkage shaft (405) penetrate through two sides of the stirring box (402) and penetrate out of the working box (1) to one side of the first motor (403), a first gear (406) is fixedly arranged on the outer circumference of the working box (1) at one end of the first linkage shaft (404) close to the first motor (403), a second gear (407) is fixedly arranged on the part of the second linkage shaft (405) which penetrates through the outside of the work box (1), the first gear (406) is meshed with the second gear (407), a first spiral stirring plate (408) is fixedly arranged on the outer circumferential surface of the first linkage shaft (404) in the stirring box (402), and a second spiral stirring plate (409) is fixedly arranged on the outer circumferential surface of the second linkage shaft (405) in the stirring box (402).
5. The method of laying a road tile according to claim 4, wherein: be equipped with first smooth chamber (411) under second spiral stirring board (409) in agitator tank (402), it is equipped with rotor plate (410) to slide in first smooth chamber (411), and first smooth chamber (411) below is equipped with second smooth chamber (415), second smooth chamber (415) both sides slide and are equipped with two push pedal (421), both sides are equipped with two first unloading passageways (412) between second smooth chamber (415) and second spiral stirring board (409), rotor plate (410) lower extreme has set second motor (413), second motor (413) have set motor protection ring (414), second motor (413) and motor protection ring (414) sliding connection in second smooth chamber (415), second motor (413) lower extreme has set flexible unloading post (416), flexible unloading post (416) lower extreme has set unloading post (417), flexible unloading post (416) communicates with each other with unloading dish (417) inside and is equipped with unloading chamber (419), unloading chamber (419) and second smooth chamber (420) between the second unloading chamber (415) and the second unloading valve (418) both sides are equipped with unloading valve (418).
6. A pavement tile laying method according to claim 1, characterized in that: tile work piece (5) include third motor (501), third motor (501) are fixed on work box (1) to the outer wall of tile work piece (5) direction, third motor (501) have set firmly first rotation post (502) to work box (1) inside direction, first rotation post (502) rotate and connect on work box (1), first rotation post (502) are equipped with second rotation post (503) to work box (1) outside direction, second rotation post (503) both sides are equipped with two baffle (517), two baffle (517) are fixed on work box (1), second rotation post (503) are kept away from work box (1) direction below and are equipped with third rotation post (504), third rotation post (504) are kept away from work box (1) direction and are equipped with fourth rotation post (505), third rotation post (504) rotate post (505) and are connected between two baffle (517) rotation, first rotation post (502), second rotation post (503), third rotation post (505) are equipped with fourth rotation post (505) and are equipped with a plurality of rotation post (507), the periphery is equipped with rotation post (507) and is connected on rotation support plate (508), rotation post (504) are equipped with a plurality of rotation post (507).
7. The method of laying a road tile according to claim 6, wherein: be equipped with between conveyer belt (506) and work box (1) feedstock channel (514), conveyer belt (506) are equipped with two first risers (509) to work box (1) direction both sides, two first risers (509) go up the slip and are equipped with two flexible slider (511), be equipped with two flexible lugs (510) on two flexible slider (511), two first risers (509) are the slip and are equipped with two flexible supporting shoe (513), first riser (509) both sides have set firmly two second riser (512), the slip is equipped with two flexible supporting shoe (513) on two second risers (512), first riser (509) one side is equipped with two fourth spout (516), first riser (509) are that two sliders can slide in two fourth spout (516).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202110936769.4A CN113463479B (en) | 2021-08-16 | 2021-08-16 | Pavement flower brick laying method |
Applications Claiming Priority (1)
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