CN112942759A - Tiling device for construction - Google Patents

Abstract

The invention discloses a tile sticking device for building construction, which comprises a moving platform and a tile carrier arranged on the moving platform, wherein a first moving assembly for height adjustment is arranged between the tile carrier and the moving platform, a second moving assembly for horizontal extension is arranged between the tile carrier and the moving platform, the tile carrier comprises a buckling flitch, a plurality of placing grooves for placing tiles are arranged on the buckling flitch, a pneumatic sucker is arranged in each placing groove, and all the pneumatic suckers are connected with air suction and exhaust equipment. The invention replaces manual tiling, can lay a plurality of tiles simultaneously, greatly improves the laying efficiency of the tiles, and can also ensure the consistency of the quality of the tiles.

Description

Tiling device for construction

Technical Field

The invention relates to the technical field of building construction equipment, in particular to a tile sticking device for building construction.

Background

At present in the building work progress, in order to keep the waterproof nature and the aesthetic property of wall, generally all can lay the ceramic tile on ground and wall, the process of ceramic tile is laid to the wall is the tiling process, present tiling is generally accomplished by the manual work completely, need consider the dead weight of ceramic tile when the wall tiling, especially when the ceramic tile volume of using is great, the workman is at the in-process that supports the ceramic tile, still will accomplish the tiling operation to the ceramic tile, the manual strength is great, and still lead to the nonconformity of tiling quality easily, the ceramic tile after the completion of the laminating of traditional tiling in-process needs the manual work to extrude, the inconvenient application of force of people on the wall, it is not enough to its extrusion force, also can lead to the tiling quality nonconformity easily.

Disclosure of Invention

The invention aims to overcome the defects and provide a tile sticking device for building construction, which replaces manual tile sticking operation, can improve the tile sticking efficiency and the tile sticking quality.

The technical scheme adopted by the invention is as follows:

a tile sticking device for building construction comprises a mobile platform and a tile carrier arranged on the mobile platform, a first moving assembly for height adjustment is arranged between the ceramic tile carrier and the moving platform, and a second moving component for horizontal extension is arranged between the tile carrier and the moving platform, the tile carrier comprises a buckling flitch, a plurality of placing grooves for placing tiles are arranged on the buckling flitch, and each placing groove is internally provided with a pneumatic sucker which is connected with air suction and exhaust equipment, in the using process, the ceramic tile is placed in the placing groove, the thickness of the placing groove is larger than that of the ceramic tile, the ceramic tile is sucked by the pneumatic sucker, after concrete is smeared on the back of the ceramic tile, the first moving assembly is moved to a required height, then the second moving assembly is close to the wall body to tile, and the air moving sucker blows air into the placing groove to compress the tile and finish the tile tiling.

As a further optimization, the first moving assembly of the present invention includes a base plate, a sliding plate slidably disposed on the base plate, a lead screw rotatably disposed on the base plate, and a first driving motor for driving the lead screw to rotate, wherein the base plate is vertically disposed on the moving platform, guide rails are disposed on two sides of the base plate, the sliding plate is slidably disposed on the guide rails, the sliding plate is connected with the lead screw through a nut, the lead screw is fixedly connected with an output shaft of the first driving motor, and the second moving assembly is fixedly mounted on the sliding plate.

As a further optimization, the second moving assembly comprises an electric telescopic cylinder, a cylinder body of the electric telescopic cylinder is fixedly connected to the sliding plate, the end part of a piston rod of the electric telescopic cylinder is fixedly connected to the buckling attachment plate, two sides of the upper side of the electric telescopic cylinder are respectively provided with a guide rod, two ends of each guide rod are respectively connected to the sliding plate and the buckling attachment plate, each guide rod comprises an outer guide pipe and an inner guide rod, and the inner guide rod is slidably arranged in the outer guide pipe.

As a further optimization, the moving platform is further provided with a concrete feeding assembly, the concrete feeding assembly is arranged on one side of the tile carrier, the first moving assembly is arranged on the moving platform through a first conversion motor, the buckling flitch is driven to be close to the concrete feeding assembly through the first conversion motor, and after concrete is coated, tiling operation is performed after the buckling flitch horizontally rotates for 90 degrees.

As a further optimization, the concrete feeding assembly of the invention comprises a second conversion motor and a plurality of groups of concrete mixing assemblies arranged on the second conversion motor, each group of concrete mixing assemblies comprises a mixing tank, a mixing motor and a mixing blade, and the mixing blade is arranged in the mixing tank and connected with an output shaft of the mixing motor.

As a further optimization, the concrete feeding assembly further comprises an automatic feeding assembly, the automatic feeding assembly comprises a feeding pipeline and a concrete pump, the mobile platform is a concrete storage box, the concrete pump is communicated with the concrete storage box through a pumping pipe, the feeding pipeline is communicated with a discharge port of the concrete pump and is vertically arranged, communication ports are respectively arranged between all the stirring tanks and the feeding pipeline, and the opening and closing of the corresponding connection ports are controlled by arranging electromagnetic valves.

As a further optimization, the side wall of each stirring tank corresponding to the buckling attachment plate is provided with a discharge port, the discharge port is provided with a discharge assembly, the discharge assembly comprises two oppositely arranged sealing plates, a pair of racks and a second driving motor for driving the racks to move, a gear is arranged on an output shaft of the second driving motor, the two racks are respectively meshed and connected with two sides of the gear, the two racks are respectively connected with the two sealing plates, and when the second driving motor rotates, the two sealing plates move oppositely or oppositely.

As a further optimization, the lower end face of the concrete storage box is provided with the roller, and the roller is a roller with a lock.

As a further optimization, the height of the stirring tank is matched with that of the buckling flitch.

The invention has the following advantages:

1. the invention replaces manual tiling, can lay a plurality of tiles at the same time, greatly improves the laying efficiency of the tiles, and can also ensure the consistency of the quality of the tiles;

2. the sucking disc not only can provide an adsorption force for the ceramic tile before tile sticking, but also can press the ceramic tile through the back blowing when the ceramic tile is leaned against the cavity, so that the ceramic tile laying quality is ensured, and the damage to the ceramic tile can be avoided;

3. the concrete feeding device can feed materials into the buckling flitch in an overflow mode, so that the automation degree is higher, and the manual use is reduced;

4. the concrete feeding device comprises the solo concrete mixing component, concrete with different specifications can be selected according to requirements, selectivity is higher, and application conditions are wider.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a first moving assembly;

FIG. 3 is an enlarged schematic view at A in FIG. 1;

FIG. 4 is a front view of the snap fit patch;

FIG. 5 is a schematic front view of the discharge port;

FIG. 6 is a schematic structural view of the discharging assembly.

Wherein: 1. the automatic feeding device comprises a base plate, 2, a sliding plate, 3, an electric telescopic cylinder, 4, a guide rod, 5, a buckling flitch, 6, a first conversion motor, 7, a concrete storage box, 8, a roller, 9, a second conversion motor, 10, a feeding pipeline, 11, a concrete pump, 12, a stirring motor, 13, a stirring tank, 14, a stirring blade, 15, an electromagnetic valve, 16, a guide rail, 17, a screw rod, 18, a first driving motor, 19, a pneumatic sucker, 20, a ceramic tile, 21, a first sealing plate, 22, a second sealing plate, 23, a second rack, 24, a gear, 25, a first rack, 5-1, a placing groove, 13-1 and a discharge hole.

Detailed Description

The present invention is further described in the following with reference to the drawings and the specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention, and the embodiments and the technical features of the embodiments can be combined with each other without conflict.

It is to be understood that the terms first, second, and the like in the description of the embodiments of the invention are used for distinguishing between the descriptions and not necessarily for describing a sequential or chronological order. The "plurality" in the embodiment of the present invention means two or more.

The term "and/or" in the embodiment of the present invention is only an association relationship describing an associated object, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, B exists alone, and A and B exist at the same time. In addition, the character "/" herein generally indicates that the former and latter associated objects are in an "or" relationship.

The embodiment provides a tiling device for construction, as shown in fig. 1, including moving platform and ceramic tile carrier and the concrete feed subassembly of setting on moving platform, moving platform can select to set up to concrete storage box 7 for storing semi-manufactured goods concrete, concrete storage box 7 is after filling up the concrete, not only can increase the weight as the base, effort when can balancing the tiling, increase the holistic stability of structure, and can promote the memory space of self material through setting up concrete storage box 7, reduce artifical reinforced number of times, for the convenience remove, be provided with gyro wheel 8 on concrete storage box 7's the lower terminal surface, just gyro wheel 8 is the gyro wheel that takes the lock. A first moving assembly for height adjustment is arranged between the tile carrier and the moving platform, a second moving assembly for horizontal extension is arranged between the tile carrier and the moving platform, the tile carrier comprises a buckling pasting plate 5, as shown in fig. 3 and 4, a plurality of placing grooves 5-1 for placing tiles are arranged on the buckling pasting plate 5, a pneumatic sucker 19 is arranged in each placing groove 5-1, all the pneumatic suckers 19 are connected with air suction and exhaust equipment through pipelines, as shown in fig. 2, the first moving assembly comprises a base plate 1, a sliding plate 2 arranged on the base plate 1 in a sliding manner, a screw 17 arranged on the base plate 1 in a rotating manner and a first driving motor 18 for driving the screw 17 to rotate, the base plate 1 is vertically arranged on the concrete storage box 7 through a first conversion motor 6, the first conversion motor 6 is used for direction conversion of the buckling pasting plate 5, both sides are provided with guide rail 16 on base plate 1, slide 2 slides and sets up on guide rail 16, and slide 2 through the screw with lead screw 17 is connected, lead screw 17 and first driving motor 18's output shaft fixed connection, the second removes the subassembly and includes electronic telescopic cylinder 3, and electronic telescopic cylinder 3's cylinder body fixed connection is on slide 2, and the tip fixed connection of electronic telescopic cylinder 3's piston rod is on lock flitch 5, and the upside both sides of electronic telescopic cylinder 3 all are provided with guide bar 4, and slide 2 and lock flitch 5 are connected respectively at the both ends of guide bar 4, every guide bar 4 all includes outer stand pipe and interior guide bar, interior guide bar slides and sets up in outer stand pipe.

This embodiment concrete feed subassembly sets up in one side of lock flitch 5, lock flitch 5 is close to concrete feed subassembly through the drive of first conversion motor 6, paints the concrete after, carries out the tiling operation after the level rotates 90. The concrete feeding assembly comprises a second conversion motor 9, a plurality of groups of concrete stirring assemblies arranged on the second conversion motor 9 and an automatic feeding assembly for feeding the concrete stirring assemblies, each group of concrete stirring assemblies comprises a stirring tank 13, a stirring motor 12 and a stirring blade 14, the stirring blade 14 is arranged in the stirring tank 13 and is connected with an output shaft of the stirring motor 12, the automatic feeding assembly comprises a feeding pipeline 10 and a concrete pump 11, the concrete pump 11 is communicated with the concrete storage tank 7 through a pumping pipe, the feeding pipeline 10 is communicated with a discharge port of the concrete pump 11, the feeding pipeline 10 is vertically arranged, all the stirring tanks 13 are respectively provided with a communication port with the feeding pipeline 10, and the electromagnetic valves 15 are arranged to control corresponding opening and closing, as shown in figure 1, the concrete stirring assemblies are provided with four groups, and set up respectively in the both sides of charging line 10, and the concrete mixing subassembly of homonymy adopts upper and lower structure setting, through setting up a plurality of concrete mixing subassemblies, can select to use the concrete of different specifications according to actual conditions, if the stirring degree, water mixes proportion or whether it increases other additives etc.. When feeding is needed in one of the mixing tanks 13, the electromagnetic valve 15 on the mixing tank 13 is opened to communicate the mixing tank 13 with the electromagnetic valve 15, then the concrete pump 11 is started, the concrete pump 11 pumps semi-finished concrete in the concrete storage tank 7 to be conveyed to the feeding pipeline 10, and the semi-finished concrete enters the corresponding mixing tank 13 under the action of pressure.

As shown in fig. 5 and 6, in this embodiment, each of the side walls of the blending tanks 13 corresponding to the fastening attachment plate 5 is provided with a discharge port 13-1, in order to facilitate discharging, the height of the blending tank 13 matches the height of the fastening attachment plate 5, so the discharge port 13-1 on the blending tank 13 is preferably set to match the height of the whole inner cavity of the blending tank 13, the discharge port 13-1 is provided with a discharge assembly, the discharge assembly includes a first sealing plate 21, a second sealing plate 22, a first rack 25, a second rack 23 and a second driving motor, an output shaft of the second driving motor is provided with a gear 24, the first rack 25 and the second rack 23 are respectively engaged with two sides of the gear 24, the first rack 25 is fixedly connected with the first sealing plate 21, the second rack 23 is fixedly connected with the second sealing plate 22, and the second driving motor is in a rotating process, the first and second closure panels 21, 22 are in a fully closed and fully open condition.

The working principle is as follows: firstly, placing ceramic tiles 20 in each placing groove of the buckling flitch 5, wherein the thickness of each ceramic tile 20 is smaller than that of the placing groove, controlling the buckling flitch 5 to move to the state shown in figure 1 by the first conversion motor 6, opening a corresponding discharging component of the stirring tank 13 to enable concrete in the stirring tank 13 to overflow into the placing groove 5-1 of the buckling flitch 5, in order to avoid concrete flowing out of the placing groove 5-1, setting the discharging port 13-1 of the stirring tank 13 and the edge of the placing groove 5-1 to be in a contact state, then rotating the first conversion motor 6 by 90 degrees to the wall surface, moving the buckling flitch 5 to the required height position by the first driving motor 17, pushing the buckling flitch 5 to approach the wall surface by the electric telescopic cylinder 3, converting the pneumatic suction disc 19 from a suction state to a blowing state, and compressing the ceramic tiles, after a certain time of air blowing, the tiling operation is completed, and the buckling flitch plate is returned to repeat the above-mentioned operation.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (9)

1. The utility model provides a tiling device for construction which characterized in that: comprises a moving platform and a ceramic tile carrier arranged on the moving platform, a first moving assembly for adjusting the height is arranged between the ceramic tile carrier and the moving platform, and a second moving component for horizontal extension is arranged between the tile carrier and the moving platform, the tile carrier comprises a buckling flitch, a plurality of placing grooves for placing tiles are arranged on the buckling flitch, and each placing groove is internally provided with a pneumatic sucker which is connected with air suction and exhaust equipment, in the using process, the ceramic tile is placed in the placing groove, the thickness of the placing groove is larger than that of the ceramic tile, the ceramic tile is sucked by the pneumatic sucker, after concrete is smeared on the back of the ceramic tile, the first moving assembly is moved to a required height, then the second moving assembly is close to the wall body to tile, and the air moving sucker blows air into the placing groove to compress the tile and finish the tile tiling.

2. The tile installation for construction according to claim 1, wherein: the first moving assembly comprises a base plate, a sliding plate, a lead screw and a first driving motor, the sliding plate is arranged on the base plate in a sliding mode, the lead screw is arranged on the base plate in a rotating mode, the first driving motor is used for driving the lead screw to rotate, the base plate is vertically placed on the moving platform, guide rails are arranged on two sides of the base plate, the sliding plate is arranged on the guide rails in a sliding mode, the sliding plate is connected with the lead screw through a nut, the lead screw is fixedly connected with an output shaft of the first driving motor, and the second moving assembly is fixedly installed.

3. The tile installation for construction according to claim 2, wherein: the second removes the subassembly and includes electronic telescoping cylinder, and electronic telescoping cylinder's cylinder body fixed connection is on the slide, and the tip fixed connection of electronic telescoping cylinder's piston rod is on the lock flitch, and electronic telescoping cylinder's upside both sides all are provided with the guide bar, and the both ends of guide bar are connected respectively on slide and lock flitch, every the guide bar all includes outer stand pipe and interior guide bar, interior guide bar slides and sets up in outer stand pipe.

4. The tile installation for construction according to claim 1, wherein: still be provided with concrete feed subassembly on the moving platform, concrete feed subassembly sets up the one side at the ceramic tile carrier, first moving assembly passes through first conversion motor setting on moving platform, the lock flitch is close to concrete feed subassembly through the drive of first conversion motor, paints the concrete after, carries out the tiling operation after the level rotates 90.

5. The tile installation for construction according to claim 4, wherein: the concrete feed subassembly includes second conversion motor and sets up the multiunit concrete mixing subassembly on second conversion motor, every group the concrete mixing subassembly all includes agitator tank, agitator motor and stirring vane, stirring vane sets up in the agitator tank, and is connected with agitator motor's output shaft.

6. The tile installation for construction according to claim 5, wherein: the concrete feeding assembly further comprises an automatic feeding assembly, the automatic feeding assembly comprises a feeding pipeline and a concrete pump, the mobile platform is a concrete storage box, the concrete pump is communicated with the concrete storage box through a pumping pipe, the feeding pipeline is communicated with a discharge port of the concrete pump and is vertically arranged, all stirring tanks are equally distributed and are respectively provided with a communication port with the feeding pipeline, and the opening and the closing of corresponding connecting ports are controlled by arranging electromagnetic valves.

7. The tile installation for construction according to claim 6, wherein: every all be provided with the discharge gate on the agitator tank with the corresponding lateral wall of lock flitch, be provided with ejection of compact subassembly on the discharge gate, ejection of compact subassembly includes the shrouding of two relative settings, a pair of rack and is used for driving the second driving motor that the rack removed, be provided with the gear on second driving motor's the output shaft, two racks mesh respectively and connect in the both sides of gear, and two racks are connected with two shroudings respectively, and when second driving motor at the pivoted in-process, two shroudings are opposite movement or opposite movement.

8. The tile installation for construction according to claim 6, wherein: and the lower end surface of the concrete storage box is provided with a roller, and the roller is a roller with a lock.

9. The tile installation for construction according to claim 5, wherein: the height of the stirring tank is matched with that of the buckling flitch.

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