CN113719085A - Method for laying building external wall tiles in biased and positioned mode - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a method for positioning and paving an external wall brick of a building in an inclined way. The technical problem is as follows: provides a method for positioning and paving the external wall tiles of a building in an inclined way. The technical scheme is as follows: a building external wall tile deflection positioning laying method adopts the following processing equipment, and the processing equipment comprises a rack, a handle and the like; two groups of handles are fixedly connected to the left end and the right end of the frame. The invention achieves the positioning of the leatheroid bricks when the leatheroid bricks are installed, and simultaneously, the equipment can also perform positioning installation on the torn leatheroid bricks according to the torn shape of the leatheroid bricks, thereby fundamentally avoiding the situation that gaps exist on the wall surface after the leatheroid bricks are installed, and further ensuring the effects of flatness and beauty of the wall surface after the leatheroid bricks are installed.

Description

Method for laying building external wall tiles in biased and positioned mode

Technical Field

The invention relates to the field of buildings, in particular to a method for positioning and paving an external wall brick of a building in an inclined way.

Background

The paper brick is mainly used for decorating and protecting the outer wall of a building, not only decorates the whole building, but also plays an important role in protecting the wall body because of the acid and alkali resistance and stable physical and chemical properties.

The leatheroid brick is when laying, the outward appearance has the one deck paper to paste to cover when arranging the interval between good simultaneously, because the leatheroid brick is by outer paper interval between the little square of fixing, because the anti ability of tearing of leatheroid brick is low when the transportation, the leatheroid brick need soak before the use simultaneously to can exist the torn condition of leatheroid brick, lead to there being the gap in the wall after the installation, and the gap is not convenient for fix a position the adjustment.

Aiming at the problems, a method for positioning and paving the building external wall tiles in an inclined way is provided.

Disclosure of Invention

When laying in order to overcome the leatheroid brick, the outward appearance has one deck paper to paste simultaneously when arranging the interval between good and cover, because the leatheroid brick is the interval between the little square that leans on outer paper to fix, because the anti ability of tearing of leatheroid brick is low when the transportation, the leatheroid brick need soak before the use simultaneously, thereby can exist the torn condition of leatheroid brick, lead to the wall after the installation to have the gap, and the gap is not convenient for the shortcoming of location adjustment, the technical problem is: provides a method for positioning and paving the external wall tiles of a building in an inclined way.

The technical scheme is as follows: a building external wall tile deflection positioning laying method adopts the following processing equipment, and the processing equipment comprises the following steps of; the device comprises a rack, a handle, a first electric slide rail, a handrail, wheels, a conveying system, an installation system and a feeding system; two groups of handles are fixedly connected to the left end and the right end of the frame; a group of first electric slide rails is fixedly connected to the left part and the right part of the bottom end of the rack; the back part of the top end of the frame is fixedly connected with a handrail; a group of wheels is fixedly connected with four opposite corners at the bottom of the frame; the rear vehicle side at the bottom of the outer surface of the two groups of first electric sliding rails is connected with a conveying system in a sliding manner; the left part of the conveying system is connected with an installation system; the middle part of the conveying system is provided with a feeding system; the left side of the front part of the mounting system is connected with a feeding system.

The fixing system is arranged at the rear part of the top end of the rack and comprises a fixing frame, a nut and a spiral fixing rod; the rear part of the top end of the frame is fixedly connected with the fixing frame; two parts of the top end of the fixing frame are respectively in threaded connection with a group of spiral fixing rods; the top ends of the two groups of spiral fixing rods are fixedly connected with nuts.

Further, the conveying system comprises a first frame, a first electric sliding seat, a second electric sliding seat and a square supporting frame; the tops of the outer surfaces of the first electric sliding seat and the second electric sliding seat are respectively connected with the two groups of first electric sliding rails in a sliding manner; the bottom ends of the first electric sliding seat and the second electric sliding seat are fixedly connected to the first frame; three groups of square supporting frames are fixedly connected to the middle part of the first frame at equal intervals; the sliding left part of the inner surface of the first frame is rotatably connected with a mounting system; the middle part of the first frame is connected with a feeding system; the feeding systems are all connected to the inner surfaces of the three groups of square supporting frames in a sliding mode.

The limiting system is arranged at the front part of the top end of the rack and comprises a first support plate, a first support, a first rotating shaft, a transmission rod, a first torsion spring, a first fixing block and a first electric push rod; the right part of the front middle part of the rack is rotatably connected with a transmission rod; a first electric push rod is fixedly connected to the front middle right part of the frame; the first electric push rod ejector rod is fixedly connected with a first fixed block; the right part of the inner surface of the first fixed block is rotatably connected with a transmission rod through a rotating shaft; the middle part of the outer surface of the first rotating shaft is rotatably connected with a transmission rod; a group of first torsion springs is fixedly connected to the left end and the right end of the top of the transmission rod; the left end of a first torsion spring positioned at the left end of the top of the transmission rod is fixedly connected with a first bracket; a first bracket is fixedly connected to the right end of a first torsion spring positioned at the right end of the top of the transmission rod; the left end and the right end of the outer surface of the first rotating shaft are rotatably connected with a group of first brackets; the top ends of the two groups of first brackets are provided with first support plates; the middle of the first supporting plate is symmetrically provided with a combination of a first support, a first rotating shaft, a transmission rod, a first torsion spring, a first fixing block and a first electric push rod.

Further, the mounting system comprises a second support plate, a second rotating shaft rod, a motor, a first bevel gear, a third support plate, a second electric push rod, a fourth support plate, a third rotating shaft rod, a second bevel gear, a third bevel gear, a fourth rotating shaft rod, a first transmission plate, a fifth rotating shaft rod, a second transmission plate, a sixth rotating shaft rod, a pressing plate, a second torsion spring and a pressing assembly; a second support plate is fixedly connected to the inner rear part of the first frame; the left part of the inner surface of the first frame is rotatably connected with a second rotating shaft rod; the left part of the inner surface of the second support plate is rotatably connected with a second rotating shaft rod; a motor is arranged at the left part of the rear end of the second support plate; the left part and the middle right part of the second support plate are respectively connected with a group of pressing components; the rear end of the second rotating shaft rod is fixedly connected with the output shaft of the motor; the front end of the second rotating shaft rod is fixedly connected with a first bevel gear; the front part of the outer surface of the first bevel gear is meshed with the feeding system; the right part of the inner surface of the third support plate is rotatably connected with the second rotating shaft rod; the left end of the third support plate is fixedly connected to the first frame; the left end of the rear end of the third support plate is fixedly connected with a second electric push rod; the rear end of the second electric push rod is fixedly connected with a fourth support plate; the right part of the inner surface of the fourth support plate is rotatably connected with a third rotating shaft rod; the inner surface of the third rotating shaft rod is connected with the second rotating shaft rod in a sliding way; a second bevel gear is fixedly connected to the front part of the outer surface of the third rotating shaft rod; a third bevel gear is arranged on the right side of the front part of the second bevel gear; the axle center of the third bevel gear is fixedly connected with the left end of the fourth rotating shaft rod; the right end of the fourth rotating shaft rod is fixedly connected with the first transmission plate; the top of the right end of the first transmission plate is rotatably connected to the fifth rotating shaft rod; the middle part of the fifth rotating shaft rod is symmetrically provided with two groups of combinations of the fourth rotating shaft rod and the first driving plate; the middle part of the outer surface of the fifth rotating shaft rod is rotatably connected with a second transmission plate; the upper part of the inner surface of the second transmission plate is rotatably connected with the sixth rotating shaft rod; the left end and the right end of the outer surface of the sixth rotating shaft rod are rotatably connected to the pressing plate; a group of second torsion springs is fixedly connected to two ends of the top of the second transmission plate; the left end of a second torsion spring positioned at the left end of the second transmission plate is fixedly connected with the pressing plate; the right end of a second torsion spring positioned at the right end of the second transmission plate is fixedly connected with the pressing plate; the pressing plate is connected with the pressing component; and three groups of combinations from the second transmission plate to the second torsion spring are equidistantly arranged on the fifth rotating shaft rod.

Furthermore, the pressing component comprises a third electric push rod, a third transmission plate, a seventh rotating shaft rod, a third torsion spring, a fifth support plate, an air bag and a second fixed block; a third electric push rod is fixedly connected to the left part of the second support plate part; the bottom end of the third electric push rod is fixedly connected with a second fixed block; the inner surface of the second fixed block is rotatably connected to the third transmission plate through a rotating shaft in the middle; the middle rear part of the third transmission plate is rotatably connected with the second support plate; the inner surface of the top of the third transmission plate is rotatably connected with a seventh rotating shaft rod; a group of third torsion springs is fixedly connected to both ends of the upper part of the third transmission plate; the left end of a third torsion spring positioned at the left end of the third transmission plate is fixedly connected with the fifth support plate; the right end of a third torsion spring positioned at the right end of the third transmission plate is fixedly connected with a fifth support plate; both ends of the outer surface of the seventh rotating shaft rod are rotatably connected to the fifth support plate; a combination of a third electric push rod, a third transmission plate, a seventh rotating shaft rod, a third torsion spring and a second fixed block is symmetrically arranged in the middle of the fifth support plate; three groups of air bags are fixedly connected on the fifth support plate at equal intervals, and each group is provided with three air bags.

Further, the feeding system comprises a second support, a second frame, a second electric slide rail, a sliding frame, an eighth rotating shaft rod, a ninth rotating shaft rod, a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, a threaded rod, a transmission support plate, a positioning frame and a conveying assembly; two sides of the front end of the first frame are fixedly connected with second supports; the front parts of the two groups of second brackets are fixedly connected to the second frame; the rear end of the second frame is fixedly connected with a second electric slide rail; the middle part of the outer surface of the second electric sliding rail is connected with a sliding frame in a sliding manner; the left part and the rear part of the outer surface of the eighth rotating shaft rod are rotatably connected with the sliding frame; the inner surface of the eighth rotating shaft rod is connected with the ninth rotating shaft rod in a sliding way; a group of fifth bevel gears is fixedly connected to two ends of the outer surface of the eighth rotating shaft rod; both ends of the ninth rotating shaft rod are rotatably connected to the second frame; the left end of the ninth rotating shaft rod is fixedly connected with a fourth bevel gear; the rear part of the outer surface of the fourth bevel gear is meshed with the first bevel gear; a sixth bevel gear is arranged at the rear part of the fifth bevel gear; the axis of the sixth bevel gear is fixedly connected with the threaded rod; the front part of the outer surface of the threaded rod is connected with the transmission support plate through a bolt; the front part of the outer surface of the threaded rod is rotatably connected with the second bracket; the rear end of the transmission support plate is fixedly connected with a conveying assembly; the top of the positioning frame is rotationally connected with three groups of conveying components; and the middle part of the second frame is symmetrically provided with a combination of a sixth bevel gear, a threaded rod and a transmission support plate.

Further, the conveying assembly comprises a transmission block, a fourth electric push rod and a feeding block; the rear end of the transmission support plate is fixedly connected with a transmission block; the lower end of the front part of the transmission block is rotatably connected with the positioning frame; a fourth electric push rod is fixedly connected to the rear part of the transmission block; the upper end of the fourth electric push rod is fixedly connected with a feeding block.

Further, the method for positioning and paving the deviation of the building external wall tiles comprises the following steps:

the method comprises the following steps: hanging the equipment of the building external wall tile bias positioning laying method on a wall surface, hanging the equipment of the building external wall tile bias positioning laying method on the wall through a fixing system, and simultaneously fixing;

step two: keeping the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface, and limiting through a limiting system to keep the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface;

step three: feeding, and conveying the leatheroid bricks through a feeding system;

step four: and (4) mounting, namely finely adjusting the position of the leatheroid brick through a mounting system, and mounting after the adjustment is finished.

The invention has the advantages that: (1) the problem that when the paper-covered brick is laid, a layer of paper is adhered to the outer surface of the paper-covered brick at intervals among the arranged paper bricks, the paper-covered brick is the interval between small blocks which are fixed by outer paper, and when the paper-covered brick is transported, the paper-covered brick needs to be soaked before being used, so that the situation that the paper-covered brick is torn can be caused, a gap exists in a wall surface after installation, and the gap is inconvenient to position and adjust;

(2) the mounting system and the feeding system are matched with each other to enable the rack to be horizontal to a wall surface when the mounting system is used, then the paper sheet bricks are placed in the feeding system, the mounting system and the feeding system are driven to move through the conveying system, so that the paper sheet bricks are fed through the feeding system, and finally the paper sheet bricks are positioned and mounted through the mutual matching between the mounting system and the feeding system;

(3) thereby reached and to its positioning when the installation leatheroid brick, equipment can also carry out the positioning installation according to the torn shape of leatheroid brick to tearing leatheroid brick simultaneously, has avoided the condition that has the gap on the wall after the installation leatheroid brick from the root to the leveling and pleasing to the eye effect of wall after having guaranteed the installation leatheroid brick.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic perspective view of the fastening system of the present invention;

FIG. 5 is a schematic perspective view of a conveyor system according to the present invention;

FIG. 6 is a schematic perspective view of a restraint system of the present invention;

FIG. 7 is a schematic perspective view of the mounting system of the present invention;

FIG. 8 is a schematic perspective view of a pressing assembly according to the present invention;

FIG. 9 is a schematic perspective view of a loading system according to the present invention;

fig. 10 is a perspective view of the conveyor assembly of the present invention.

In the above drawings: 1: a frame, 2: handle, 3: first electronic slide rail, 4: an armrest, 5: wheel, 201: mount, 202: nut, 203: screw fixing rod, 301: first frame, 302: first electric carriage, 303: second electric carriage, 304: square support frame, 401: first plate, 402: first bracket, 403: first shaft, 404: drive rod, 405: first torsion spring, 406: first fixed block, 407: first electric putter, 501: second plate, 502: second spindle shaft, 503: motor, 504: first bevel gear, 505: third plate, 506: second electric putter, 507: fourth plate, 508: third rotating shaft rod, 509: second bevel gear, 5010: third bevel gear, 5011: fourth pivot shaft, 5012: first drive plate, 5013: fifth pivot shaft, 5014: second drive plate, 5015: sixth pivot shaft, 5016: platen, 5017: second torsion spring, 5018: third electric putter, 5019: third drive plate, 5020: seventh rotating shaft lever, 5021: third torsion spring, 5022: fifth plate, 5023: airbag, 5024: a second fixed block, 601: second bracket, 602: second frame, 603: second motorized slide, 604: carriage, 605: eighth turning shaft, 606: ninth rotating shaft lever, 607: fourth bevel gear, 608: fifth bevel gear, 609: sixth bevel gear, 6010: threaded rod, 6011: transmission support plate, 6012: positioning frame, 6013: transmission block, 6014: fourth electric putter, 6015: a feeding block.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

As shown in fig. 1-3, a method for positioning and laying an external wall tile of a building, which adopts the following processing equipment, wherein the processing equipment comprises; the device comprises a rack 1, a handle 2, a first electric slide rail 3, a handrail 4, wheels 5, a conveying system, an installation system and a feeding system; two groups of handles 2 are fixedly connected to the left end and the right end of the frame 1; a group of first electric slide rails 3 are fixedly connected to the left part and the right part of the bottom end of the frame 1; the back part of the top end of the frame 1 is fixedly connected with a handrail 4; a group of wheels 5 is fixedly connected with four opposite corners at the bottom of the frame 1; the rear vehicle sides at the bottom of the outer surfaces of the two groups of first electric slide rails 3 are both connected with a conveying system in a sliding manner; the left part of the conveying system is connected with an installation system; the middle part of the conveying system is provided with a feeding system; the left side of the front part of the mounting system is connected with a feeding system.

The working process is as follows: when the equipment of the building external wall brick bias positioning laying method is used, a fixing system is fixed on an external wall needing to be constructed, then an external power supply is connected and started simultaneously, whether the operation condition is problematic is checked, when the operation condition is not problematic, the limit is carried out through a limit system, a rack 1 is kept parallel to the wall surface, after the preparation work in the current period is finished, a leatheroid brick is manually placed on a feeding system, then a conveying system is started to drive a mounting system and the feeding system to move, so that the leatheroid brick of the feeding system is conveyed to the position needing to be mounted, then the leatheroid brick is mounted on the wall surface through the mounting system, as the leatheroid brick needs to be soaked before being used, the tearing condition of the leatheroid brick can be caused, at the moment, the leatheroid brick is conveyed to the mounting position through the feeding system, and then the mounting system and the feeding system are matched with each other, the split leatheroid brick is subjected to position adjustment and then is installed on the wall surface, the equipment of the building outer wall brick deviation positioning and laying method can be subjected to position adjustment when the leatheroid brick is installed when the equipment is used, and can also be subjected to position adjustment and installation according to the torn shape of the leatheroid brick, so that the condition that gaps exist on the wall surface after the leatheroid brick is installed is fundamentally avoided, and the smooth and attractive effect of the wall surface after the leatheroid brick is installed is ensured.

As shown in fig. 4, the fixing system is further included, the fixing system is installed at the rear part of the top end of the rack 1, and the fixing system includes a fixing frame 201, a nut 202 and a spiral fixing rod 203; the rear part of the top end of the frame 1 is fixedly connected with a fixed frame 201; two parts of the top end of the fixing frame 201 are respectively in threaded connection with a group of spiral fixing rods 203; the top ends of the two groups of spiral fixing rods 203 are fixedly connected with nuts 202.

When the equipment for the method for positioning and paving the external wall tiles of the building in an inclined-to-normal mode is required to be placed in parallel with the wall surface, the fixing frame 201 is firstly hung on the wall where the paper-containing tiles are required to be installed, and then the nut 202 is twisted to drive the spiral fixing rod 203 to rotate, so that the fixing frame 201 is fixed on the wall where the paper-containing tiles are required to be installed.

As shown in fig. 5, the conveying system includes a first frame 301, a first electric slide 302, a second electric slide 303 and a square support frame 304; the tops of the outer surfaces of the first electric sliding seat 302 and the second electric sliding seat 303 are respectively connected with two groups of first electric sliding rails 3 in a sliding manner; the bottom ends of the first electric sliding seat 302 and the second electric sliding seat 303 are fixedly connected to the first frame 301; three groups of square supporting frames 304 are fixedly connected to the middle part of the first frame 301 at equal intervals; the sliding left part of the inner surface of the first frame 301 is rotatably connected with a mounting system; the middle part of the first frame 301 is connected with a feeding system; the feeding systems are all connected with the inner surfaces of the three groups of square supporting frames 304 in a sliding mode.

When putting the feeding system in as the leatheroid brick, control first electronic slide 302 and the electronic slide 303 of second and slide on two sets of first electronic slide rails 3 respectively through external control panel to drive first frame 301 and remove, square carriage 304 of three sets of first frame 301 transmission is removed this moment, thereby drive mounting system and feeding system and remove, thereby cooperation mounting system and feeding system carry out work.

As shown in fig. 6, the device further comprises a limiting system, the limiting system is mounted at the front part of the top end of the rack 1, and the limiting system comprises a first support plate 401, a first support 402, a first rotating shaft 403, a transmission rod 404, a first torsion spring 405, a first fixed block 406 and a first electric push rod 407; the front middle right part of the rack 1 is rotatably connected with a transmission rod 404; a first electric push rod 407 is fixedly connected to the front middle right part of the frame 1; a first fixed block 406 is fixedly connected to the top rod of the first electric push rod 407; the right part of the inner surface of the first fixed block 406 is rotatably connected with a transmission rod 404 through a rotating shaft; the middle part of the outer surface of the first rotating shaft 403 is rotatably connected with a transmission rod 404; a group of first torsion springs 405 are fixedly connected to the left end and the right end of the top of the transmission rod 404; a first bracket 402 is fixedly connected to the left end of a first torsion spring 405 positioned at the top left end of the driving rod 404; a first bracket 402 is fixedly connected to the right end of a first torsion spring 405 positioned at the top right end of the transmission rod 404; the left end and the right end of the outer surface of the first rotating shaft 403 are rotatably connected with a group of first brackets 402; the top ends of the two groups of first brackets 402 are provided with first supporting plates 401; a combination of a first bracket 402, a first rotating shaft 403, a driving lever 404, a first torsion spring 405, a first fixing block 406, and a first electric push rod 407 is symmetrically disposed at the middle of the first supporting plate 401.

After the fixing system finishes working, a first electric push rod 407 is controlled through an external control screen to push a first fixing block 406, the first fixing block 406 is driven to rotate around the rack 1 through the first fixing block 406, a first rotating shaft 403 is driven to move through a transmission rod 404, a first support 402 drives a first support plate 401 to move, the first support plate 401 is enabled to prop against the wall surface, the rack 1 is supported to be in a position horizontal to the wall surface, a first torsion spring 405 can deform along with the rotation of the transmission rod 404, after the installation of the paper brick is finished, the first electric push rod 407 is controlled to contract, the first fixing block 406 is driven to rotate around the rack 1 in the opposite direction through the first fixing block 406, the first torsion spring 405 assists in matching with the transmission rod 404 to return to the original position, and therefore the device and the wall surface water retaining and wall surface water laying method can be conveniently disassembled, and the device can be matched with the fixing system to enable the building external wall brick to be positioned and laid in an inclined-to-position mode The installation method is flat, so that the installed leatheroid bricks are neat and flat, and the wall surface is more attractive.

As shown in fig. 7, the mounting system includes a second support plate 501, a second rotating shaft rod 502, a motor 503, a first bevel gear 504, a third support plate 505, a second electric push rod 506, a fourth support plate 507, a third rotating shaft rod 508, a second bevel gear 509, a third bevel gear 5010, a fourth rotating shaft rod 5011, a first transmission plate 5012, a fifth rotating shaft rod 5013, a second transmission plate 5014, a sixth rotating shaft rod 5015, a pressure plate 5016, a second torsion spring 5017 and a pressing component; a second support plate 501 is fixedly connected to the inner rear part of the first frame 301; a second rotating shaft rod 502 is rotatably connected to the left part of the inner surface of the first frame 301; the left part of the inner surface of the second support plate 501 is rotatably connected with a second rotating shaft rod 502; a motor 503 is arranged at the left part of the rear end of the second support plate 501; the left part and the middle right part of the second support plate 501 are respectively connected with a group of pressing components; the rear end of the second rotating shaft rod 502 is fixedly connected with the output shaft of the motor 503; the front end of the second rotating shaft rod 502 is fixedly connected with a first bevel gear 504; the front part of the outer surface of the first bevel gear 504 is meshed with a feeding system; the right part of the inner surface of the third support plate 505 is rotatably connected with the second rotating shaft rod 502; the left end of the third support plate 505 is fixedly connected to the first frame 301; a second electric push rod 506 is fixedly connected to the left end of the rear end of the third support plate 505; the rear end of the second electric push rod 506 is fixedly connected with a fourth support plate 507; a third rotating shaft rod 508 is rotatably connected to the right part of the inner surface of the fourth support plate 507; the inner surface of the third rotating shaft 508 is slidably connected to the second rotating shaft 502; a second bevel gear 509 is fixedly connected to the front part of the outer surface of the third rotating shaft rod 508; a third bevel gear 5010 is arranged on the right side of the front part of the second bevel gear 509; the axle center of the third bevel gear 5010 is fixedly connected to the left end of the fourth rotating shaft 5011; the right end of the fourth rotating shaft 5011 is fixedly connected with the first transmission plate 5012; the top of the right end of the first transmission plate 5012 is rotatably connected to the fifth rotating shaft 5013; the middle of the fifth rotating shaft 5013 is symmetrically provided with two groups of combinations of the fourth rotating shaft 5011 and the first driving plate 5012; the middle part of the outer surface of the fifth rotating shaft 5013 is rotatably connected with a second transmission plate 5014; the upper part of the inner surface of the second transmission plate 5014 is rotatably connected to the sixth rotating shaft 5015; the left end and the right end of the outer surface of the sixth rotating shaft 5015 are rotatably connected to the pressure plate 5016; a group of second torsion springs 5017 are fixedly connected to two ends of the top of the second transmission plate 5014; the left end of a second torsion spring 5017 positioned at the left end of the second transmission plate 5014 is fixedly connected with the pressure plate 5016; the right end of a second torsion spring 5017 positioned at the right end of the second transmission plate 5014 is fixedly connected with the pressure plate 5016; the pressure plate 5016 is connected to the pressing assembly; three sets of combinations of the second driving plate 5014 to the second torsion spring 5017 are equidistantly disposed on the fifth hinge shaft 5013.

When the paper brick is conveyed to the installation position, the paper brick is firstly limited on the wall through the pressing component, when the position of the paper brick does not need to be adjusted, the motor 503 is controlled through the external control screen to drive the second rotating shaft rod 502 to rotate, the rotating second rotating shaft rod 502 drives the third rotating shaft rod 508 to rotate, so as to drive the third rotating shaft rod 508 to rotate, then the second electric push rod 506 is controlled to contract, so as to drive the third rotating shaft rod 508 to move through the fourth support plate 507 until the second bevel gear 509 is meshed with the third bevel gear 5010, so as to drive the third bevel gear 5010 meshed with the third bevel gear to rotate through the rotating second bevel gear, so as to drive the fourth rotating shaft 5011 to rotate, at the moment, the first driving plate 5012 is driven to rotate through the rotating fourth rotating shaft 5011, so as to drive the fifth rotating shaft 5013 to rotate, at the moment, the rotating fifth rotating shaft 5013 can drive the second transmission plate 5014 to rotate, therefore, the press plate 5016 is driven to rotate around the fifth support plate 5022 through the sixth rotating shaft 5015, so that the paper brick is installed on the wall surface, at the moment, the second torsion spring 5017 deforms along with the second transmission plate 5014, so that the second torsion spring 5017 accumulates elastic force, after the work is finished, the press plate 5016 can be assisted by the second torsion spring 5017 to recover to the original position, meanwhile, the convex blocks arranged on the press plate 5016 can make the force for pushing the paper brick larger, so that the paper brick is installed more firmly, meanwhile, the first bevel gear 504 is driven to rotate through the rotating second rotating shaft 502, so that the feeding system is driven to operate, at the moment, the angle of the paper brick is adjusted through the mutual matching between the pressing component and the feeding system, so that the paper brick is adjusted to a proper position, the paper brick can be installed, and the paper brick can be adjusted through the mutual matching with the feeding system, thereby the wall surface after the installation of the leatheroid brick is smoother and more beautiful.

As shown in fig. 8, the pressing assembly includes a third electric push rod 5018, a third driving plate 5019, a seventh rotating shaft 5020, a third torsion spring 5021, a fifth supporting plate 5022, an air bag 5023 and a second fixing block 5024; a third electric push rod 5018 is fixedly connected to the left part of the second support plate 501; the bottom end of the third electric push rod 5018 is fixedly connected with a second fixed block 5024; the inner surface of the second fixed block 5024 is rotatably connected to the third driving plate 5019 through a rotating shaft in the middle; the middle rear part of the third transmission plate 5019 is rotatably connected with the second support plate 501; the inner surface of the top of the third transmission plate 5019 is rotatably connected with a seventh rotating shaft rod 5020; a group of third torsion springs 5021 are fixedly connected to two ends of the upper part of the third transmission plate 5019; the left end of a third torsion spring 5021 at the left end of the third transmission plate 5019 is fixedly connected to a fifth support plate 5022; the right end of a third torsion spring 5021 at the right end of the third transmission plate 5019 is fixedly connected to a fifth support plate 5022; both ends of the outer surface of the seventh rotating shaft rod 5020 are rotatably connected to the fifth supporting plate 5022; a combination of a third electric push rod 5018, a third transmission plate 5019, a seventh rotating shaft 5020, a third torsion spring 5021 and a second fixed block 5024 is symmetrically arranged in the middle of a fifth support plate 5022; three groups of air bags 5023 are fixedly connected to the fifth support plate 5022 at equal intervals, and each group is provided with three air bags 5023.

When the paper brick needs to be limited, the external control panel controls the third electric push rod 5018 to push the second fixed block 5024 to move, so as to drive the third transmission plate 5019 to rotate around the second support plate 501, at the moment, the rotating third transmission plate 5019 rotates around the seventh rotating shaft rod 5020, so as to push the fifth support plate 5022 to move, so as to drive the nine groups of airbags 5023 to move, and simultaneously, the air inflow of the airbags 5023 is increased, so that the airbags 5023 expand, so that the paper brick is limited on the wall surface through the airbags 5023, meanwhile, the third transmission plate 5019 rotates to drive the third torsion spring 5021 to deform, so that the third torsion spring 5021 accumulates elastic force, when the paper brick needs to be adjusted in position, at the moment, the air inflow of one group of the airbags 5023 in the middle part and one group of airbags 5023 in the part with a gap is reduced, so as to make the airbags 5023 smaller, the position of the leatheroid brick is adjusted by mutual matching between the feeding assembly and the leatheroid brick, and after the work is finished, the third electric push rod 5018 is controlled by an external control screen to contract, so that the fifth support plate 5022 is driven to recover to the original position, and meanwhile, the fifth support plate 5022 is assisted by the third torsion spring 5021 to recover to the original position.

As shown in fig. 9, the feeding system includes a second bracket 601, a second frame 602, a second electric slide rail 603, a sliding frame 604, an eighth rotating shaft 605, a ninth rotating shaft 606, a fourth bevel gear 607, a fifth bevel gear 608, a sixth bevel gear 609, a threaded rod 6010, a transmission support plate 6011, an adjustment frame 6012, and a conveying assembly; the two sides of the front end of the first frame 301 are fixedly connected with second brackets 601; the front parts of the two groups of second brackets 601 are fixedly connected to the second frame 602; the rear end of the second frame 602 is fixedly connected with a second electric slide rail 603; the middle part of the outer surface of the second electric slide rail 603 is connected with a slide frame 604 in a sliding way; the left and rear portions of the outer surface of the eighth rotating shaft rod 605 are rotatably connected to the sliding frame 604; the inner surface of the eighth rotating shaft rod 605 is slidably connected to the ninth rotating shaft rod 606; a group of fifth bevel gears 608 are fixedly connected to two ends of the outer surface of the eighth rotating shaft rod 605; both ends of the ninth rotating shaft rod 606 are rotatably connected to the second frame 602; a fourth bevel gear 607 is fixedly connected to the left end of the ninth rotating shaft rod 606; the rear part of the outer surface of the fourth bevel gear 607 is engaged with the first bevel gear 504; a sixth bevel gear 609 is arranged at the rear part of the fifth bevel gear 608; the axis of the sixth bevel gear 609 is fixedly connected with the threaded rod 6010; the front part of the outer surface of the threaded rod 6010 is bolted to the transmission support plate 6011; the front part of the outer surface of the threaded rod 6010 is rotatably connected to the second bracket 601; the rear end of the transmission support plate 6011 is fixedly connected with a conveying assembly; the top of the positioning frame 6012 is rotatably connected with three groups of conveying assemblies; a combination of a sixth bevel gear 609, a threaded rod 6010 and a transmission support plate 6011 is symmetrically arranged in the middle of the second frame 602.

When the leatheroid bricks need to be conveyed, the conveying component is adjusted firstly, then the leatheroid bricks are placed on the conveying component, then the conveying system drives the feeding system to move, so that the leatheroid bricks are conveyed through the conveying component, then the leatheroid bricks are limited through the pressing component, when a gap exists between the cracked leatheroid bricks and the leatheroid bricks which are installed in advance, the adjustment is needed, the air inflow of a group of airbags 5023 in the middle and a group of airbags 5023 in the gap is reduced through the operation and control of an external control screen, the fourth bevel gear 607 is driven to rotate through the first bevel gear 504, so that the power transmission between the systems is realized, then the ninth rotating shaft lever 606 is driven to rotate through the rotating fourth bevel gear 607, so that the eighth rotating shaft lever 605 is driven to rotate, at the moment, the rotating eighth rotating shaft lever 605 drives the two groups of fifth bevel gears 608 to rotate simultaneously, at this time, the sliding frame 604 is controlled by the external control panel to slide on the second electric sliding rail 603, so that the sliding frame 604 drives the eighth rotating shaft rod 605 to move to a position with a gap, the fifth bevel gear 608 and the sixth bevel gear 609 are meshed with each other, the fifth bevel gear 608 drives the sixth bevel gear 609 meshed with the fifth bevel gear to rotate, the sixth bevel gear 609 drives the threaded rod 6010 to rotate, the transmission support plate 6011 is driven to move, the transmission support plate 6011 drives one group of conveying assemblies to move, the angles of the three groups of conveying assemblies are adjusted by the positioning frame 6012, the three groups of conveying assemblies form an inclined plane, the paper tiles are pushed to rotate around the group of air bags 5023 without the gap, the paper tiles are attached, no gap exists between the two groups of paper tiles, when the other part of the paper tiles has a gap, control carriage 604 through external control panel and carry out the slide bar on second electric slide rail 603, make intermeshing between another group of fifth bevel gear 608 and the sixth bevel gear 609, repeated above-mentioned work, feeding system has reached and has can convey the leatheroid brick, adjust the angle of leatheroid brick through mutually supporting between the subassembly with pressing simultaneously to the wall that the leatheroid brick was installed is more pleasing to the eye.

As shown in fig. 10, the conveying assembly includes a transmission block 6013, a fourth electric push rod 6014, and a feeding block 6015; a transmission block 6013 is fixedly connected to the rear end of the transmission support plate 6011; the lower end of the front part of the transmission block 6013 is rotatably connected to the positioning frame 6012; a fourth electric push rod 6014 is fixedly connected to the rear part of the transmission block 6013; a feeding block 6015 is fixedly connected to the upper end of the fourth electric push rod 6014.

When carrying out the material loading to the leatheroid brick, control fourth electric putter 6014 through external control panel earlier and promote feedblock 6015 and remove to make feedblock 6015 can block the leatheroid brick, drive the feeding system through transmission system afterwards and remove, feeding system drives transmission piece 6013 afterwards and removes, thereby removes through fourth electric putter 6014 transmission feedblock 6015, thereby realize carrying out the material loading to the leatheroid brick through feedblock 6015.

The method for laying the building external wall tiles in the deflected and positioned mode comprises the following steps:

the method comprises the following steps: hanging the equipment of the building external wall tile bias positioning laying method on a wall surface, hanging the equipment of the building external wall tile bias positioning laying method on the wall through a fixing system, and simultaneously fixing;

step two: keeping the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface, and limiting through a limiting system to keep the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface;

step three: feeding, and conveying the leatheroid bricks through a feeding system;

step four: and (4) mounting, namely finely adjusting the position of the leatheroid brick through a mounting system, and mounting after the adjustment is finished.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (9)

1. A method for laying an external wall tile of a building in an inclined and aligned manner adopts the following processing equipment, wherein the processing equipment comprises a rack (1), a handle (2), a first electric slide rail (3), a handrail (4) and wheels (5); two groups of handles (2) are fixedly connected to the left end and the right end of the frame (1); the left part and the right part of the bottom end of the frame (1) are fixedly connected with a group of first electric slide rails (3); a handrail (4) is fixedly connected with the rear part of the top end of the frame (1); a group of wheels (5) is fixedly connected with four opposite corners at the bottom of the frame (1); the device is characterized by also comprising a conveying system, a mounting system and a feeding system; the rear vehicle sides at the bottom of the outer surfaces of the two groups of first electric slide rails (3) are both connected with a conveying system in a sliding manner; the left part of the conveying system is connected with an installation system; the middle part of the conveying system is provided with a feeding system; the left side of the front part of the mounting system is connected with a feeding system.

2. The building external wall tile deviation positioning and laying method according to claim 1, characterized by further comprising a fixing system, wherein the fixing system is installed at the rear part of the top end of the rack (1), and comprises a fixing frame (201), a nut (202) and a spiral fixing rod (203); the rear part of the top end of the frame (1) is fixedly connected with the fixed frame (201); two parts of the top end of the fixed frame (201) are respectively connected with a group of spiral fixed rods (203) in a threaded manner; the top ends of the two groups of spiral fixing rods (203) are fixedly connected with nuts (202).

3. The method for laying the building external wall tiles in the deviated and aligned mode according to claim 2, wherein the conveying system comprises a first frame (301), a first electric sliding seat (302), a second electric sliding seat (303) and a square support frame (304); the tops of the outer surfaces of the first electric sliding seat (302) and the second electric sliding seat (303) are respectively connected with two groups of first electric sliding rails (3) in a sliding manner; the bottom ends of the first electric sliding seat (302) and the second electric sliding seat (303) are fixedly connected to the first frame (301); three groups of square supporting frames (304) are fixedly connected to the middle part of the first frame (301) at equal intervals; the sliding left part of the inner surface of the first frame (301) is rotatably connected with a mounting system; the middle part of the first frame (301) is connected with a feeding system; the feeding systems are connected to the inner surfaces of the three groups of square supporting frames (304) in a sliding mode.

4. The building external wall tile deflection positioning and laying method according to claim 3, characterized by further comprising a limiting system, wherein the limiting system is installed at the front part of the top end of the rack (1), and comprises a first support plate (401), a first bracket (402), a first rotating shaft (403), a driving rod (404), a first torsion spring (405), a first fixed block (406) and a first electric push rod (407); the front, middle and right part of the rack (1) is rotatably connected with a transmission rod (404); a first electric push rod (407) is fixedly connected to the front, middle and right part of the frame (1); a top rod of the first electric push rod (407) is fixedly connected with a first fixed block (406); the right part of the inner surface of the first fixed block (406) is rotatably connected with a transmission rod (404) through a rotating shaft; the middle part of the outer surface of the first rotating shaft (403) is rotatably connected with a transmission rod (404); the left end and the right end of the top of the transmission rod (404) are fixedly connected with a group of first torsion springs (405); a first bracket (402) is fixedly connected to the left end of a first torsion spring (405) positioned at the top left end of the transmission rod (404); a first bracket (402) is fixedly connected to the right end of a first torsion spring (405) positioned at the top right end of the transmission rod (404); the left end and the right end of the outer surface of the first rotating shaft (403) are rotatably connected with a group of first brackets (402); the top ends of the two groups of first brackets (402) are provided with first support plates (401); the middle of the first support plate (401) is symmetrically provided with a combination of a first support (402), a first rotating shaft (403), a transmission rod (404), a first torsion spring (405), a first fixed block (406) and a first electric push rod (407).

5. The building external tile deviation positioning and laying method according to claim 4, wherein the mounting system comprises a second support plate (501), a second rotating shaft rod (502), a motor (503), a first bevel gear (504), a third support plate (505), a second electric push rod (506), a fourth support plate (507), a third rotating shaft rod (508), a second bevel gear (509), a third bevel gear (5010), a fourth rotating shaft rod (5011), a first transmission plate (5012), a fifth rotating shaft rod (5013), a second transmission plate (5014), a sixth rotating shaft rod (5015), a pressing plate (5016), a second torsion spring (5017) and a pressing component; a second support plate (501) is fixedly connected to the inner rear part of the first frame (301); a second rotating shaft rod (502) is rotatably connected to the left part of the inner surface of the first frame (301); the left part of the inner surface of the second support plate (501) is rotatably connected with a second rotating shaft rod (502); a motor (503) is arranged at the left part of the rear end of the second support plate (501); the left part and the middle right part of the second support plate (501) are respectively connected with a group of pressing components; the rear end of the second rotating shaft rod (502) is fixedly connected with an output shaft of the motor (503); the front end of the second rotating shaft rod (502) is fixedly connected with a first bevel gear (504); the front part of the outer surface of the first bevel gear (504) is meshed with the feeding system; the right part of the inner surface of the third support plate (505) is rotatably connected with the second rotating shaft rod (502); the left end of the third support plate (505) is fixedly connected to the first frame (301); a second electric push rod (506) is fixedly connected to the left end of the rear end of the third support plate (505); the rear end of the second electric push rod (506) is fixedly connected with a fourth support plate (507); a third rotating shaft rod (508) is rotatably connected to the right part of the inner surface of the fourth support plate (507); the inner surface of the third rotating shaft rod (508) is connected with the second rotating shaft rod (502) in a sliding way; a second bevel gear (509) is fixedly connected to the front part of the outer surface of the third rotating shaft rod (508); a third bevel gear (5010) is arranged on the right side of the front part of the second bevel gear (509); the axle center of the third bevel gear (5010) is fixedly connected to the left end of the fourth rotating shaft rod (5011); the right end of the fourth rotating shaft rod (5011) is fixedly connected with the first transmission plate (5012); the top of the right end of the first transmission plate (5012) is rotatably connected with the fifth rotating shaft rod (5013); the middle of the fifth rotating shaft rod (5013) is symmetrically provided with two groups of combinations of the fourth rotating shaft rod (5011) and the first driving plate (5012); the middle part of the outer surface of the fifth rotating shaft rod (5013) is rotatably connected with a second transmission plate (5014); the upper part of the inner surface of the second transmission plate (5014) is rotatably connected with the sixth rotating shaft rod (5015); the left end and the right end of the outer surface of the sixth rotating shaft rod (5015) are rotatably connected with the pressure plate (5016); a group of second torsion springs (5017) are fixedly connected to two ends of the top of the second transmission plate (5014); the left end of a second torsion spring (5017) positioned at the left end of the second transmission plate (5014) is fixedly connected with the pressure plate (5016); the right end of a second torsion spring (5017) positioned at the right end of the second transmission plate (5014) is fixedly connected with the pressure plate (5016); the pressure plate (5016) is connected to the pressing component; three sets of combinations of the second transmission plates (5014) to the second torsion springs (5017) are equidistantly provided on the fifth rotating shaft lever (5013).

6. The building external wall tile deviation positioning and laying method according to claim 5, wherein the pressing assembly comprises a third electric push rod (5018), a third transmission plate (5019), a seventh rotating shaft lever (5020), a third torsion spring (5021), a fifth support plate (5022), an air bag (5023) and a second fixed block (5024); a third electric push rod (5018) is fixedly connected to the left part of the second support plate (501); the bottom end of the third electric push rod (5018) is fixedly connected with a second fixed block (5024); the inner surface of the second fixed block (5024) is rotatably connected to a third transmission plate (5019) through a rotating shaft in the middle; the middle rear part of the third transmission plate (5019) is rotatably connected with the second support plate (501); the inner surface of the top of the third transmission plate (5019) is rotatably connected with a seventh rotating shaft rod (5020); a group of third torsion springs (5021) are fixedly connected to the two ends of the upper part of the third transmission plate (5019); the left end of a third torsion spring (5021) positioned at the left end of the third transmission plate (5019) is fixedly connected to a fifth support plate (5022); the right end of a third torsion spring (5021) positioned at the right end of the third transmission plate (5019) is fixedly connected with a fifth support plate (5022); both ends of the outer surface of the seventh rotating shaft rod (5020) are rotatably connected with the fifth support plate (5022); the middle of the fifth support plate (5022) is symmetrically provided with a combination of a third electric push rod (5018), a third transmission plate (5019), a seventh rotating shaft rod (5020), a third torsion spring (5021) and a second fixed block (5024); three groups of air bags (5023) are fixedly connected with the fifth support plate (5022) at equal intervals, and each group is provided with three air bags (5023).

7. The building external wall tile deviation positioning laying method according to claim 6, wherein the feeding system comprises a second bracket (601), a second frame (602), a second electric sliding rail (603), a sliding frame (604), an eighth rotating shaft rod (605), a ninth rotating shaft rod (606), a fourth bevel gear (607), a fifth bevel gear (608), a sixth bevel gear (609), a threaded rod (6010), a transmission support plate (6011), an adjusting frame (6012) and a conveying assembly; two sides of the front end of the first frame (301) are fixedly connected with second brackets (601); the front parts of the two groups of second brackets (601) are fixedly connected to the second frame (602); the rear end of the second frame (602) is fixedly connected with a second electric slide rail (603); the middle part of the outer surface of the second electric sliding rail (603) is connected with a sliding frame (604) in a sliding way; the left part and the rear part of the outer surface of the eighth rotating shaft rod (605) are rotatably connected with the sliding frame (604); the inner surface of the eighth rotating shaft rod (605) is connected with the ninth rotating shaft rod (606) in a sliding way; a group of fifth bevel gears (608) are fixedly connected to two ends of the outer surface of the eighth rotating shaft rod (605); both ends of the ninth rotating shaft rod (606) are rotatably connected to the second frame (602); a fourth bevel gear (607) is fixedly connected to the left end of the ninth rotating shaft lever (606); a first bevel gear (504) is meshed with the rear part of the outer surface of the fourth bevel gear (607); a sixth bevel gear (609) is arranged at the rear part of the fifth bevel gear (608); the axis of the sixth bevel gear (609) is fixedly connected with the threaded rod (6010); the front part of the outer surface of the threaded rod (6010) is bolted to the transmission support plate (6011); the front part of the outer surface of the threaded rod (6010) is rotatably connected with the second bracket (601); the rear end of the transmission support plate (6011) is fixedly connected with a conveying assembly; the top of the positioning frame (6012) is rotatably connected with three groups of conveying assemblies; and a combination of a sixth bevel gear (609), a threaded rod (6010) and a transmission support plate (6011) is symmetrically arranged in the middle of the second frame (602).

8. The method for laying the building external wall tiles in the deviated and aligned mode according to claim 7, wherein the conveying assembly comprises a transmission block (6013), a fourth electric push rod (6014) and a feeding block (6015); the rear end of the transmission support plate (6011) is fixedly connected with a transmission block (6013); the lower end of the front part of the transmission block (6013) is rotatably connected with the positioning frame (6012); a fourth electric push rod (6014) is fixedly connected to the rear part of the transmission block (6013); the upper end of the fourth electric push rod (6014) is fixedly connected with a feeding block (6015).

9. The method for laying the building external wall tiles in the biased positioning mode according to claim 8, wherein the method for laying the building external wall tiles in the biased positioning mode comprises the following steps:

the method comprises the following steps: hanging the equipment of the building external wall tile bias positioning laying method on a wall surface, hanging the equipment of the building external wall tile bias positioning laying method on the wall through a fixing system, and simultaneously fixing;

step two: keeping the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface, and limiting through a limiting system to keep the equipment of the building external wall tile deviation positioning laying method horizontal to the wall surface;

step three: feeding, and conveying the leatheroid bricks through a feeding system;

step four: and (4) mounting, namely finely adjusting the position of the leatheroid brick through a mounting system, and mounting after the adjustment is finished.

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