CN114278059B - Wall ceramic tile laminating device for construction - Google Patents

Abstract

The invention relates to a bonding device, in particular to a wall surface ceramic tile bonding device for building construction. The invention provides the wall surface tile attaching device for building construction, which can prevent the displacement of tiles in the attaching process, has smaller volume, does not occupy larger space, does not need manual carrying, is convenient to move and reduces manual operation. Is a wall tile laminating device for construction, includes: the number of the ground rails is two, and the two ground rails are distributed front and back; the rollers are rotatably arranged on two sides of the tops of the two ground rails, and the two rollers are symmetrically distributed in front-back mode; the upper parts of the four rollers are respectively provided with a connecting frame; the support frames are arranged between the two connecting frames on the same side; and the sliding blocks are arranged in the two supporting frames in a sliding manner. The beneficial effects are that: people can adjust the positions of the first supporting plate and the second supporting plate according to the sizes of the tiles, so that the ceramic tile fixing device can be suitable for tiles of different specifications and can fix the tiles.

Description

Wall ceramic tile laminating device for construction

Technical Field

The invention relates to a bonding device, in particular to a wall surface ceramic tile bonding device for building construction.

Background

The construction refers to the production activity of engineering construction implementation stage, various lines on the drawing are changed into real objects at the appointed place, people can start to improve living environment after meeting temperature saturation at present, in order to make the room more beautiful, next, according to some waterproof requirements, the indoor tile is required to be attached, the area of the wall surface is generally required to be attached to the tile is large, people are difficult to ensure that the tile cannot generate displacement phenomenon in the tile attaching process, if the displacement phenomenon occurs in the tile attaching process, the attractiveness of the whole wall can be influenced, and therefore more people select to use the tile attaching device to attach the tile. However, in the use process of the conventional tile attaching device, the tile attaching device needs to be moved to a designated place, but because the conventional tile attaching device is large in size, more manpower is consumed in the moving process, the tile attaching device needs to be manually placed on the device and then electrified to operate, the device can attach the tile to a wall surface, then the tile is loosened, in the loosening process, the tile and the wall surface need to be completely attached by using an auxiliary tool manually, and the tile attaching work is completed in an auxiliary way, so that the attaching cost can be increased, the moving is inconvenient, and the occupied area is large.

Therefore, there is a need for a wall surface tile attaching device for construction, which can prevent the displacement of tiles in the attaching process, has a small volume, does not need manual handling, is convenient to move, and reduces manual operation.

Disclosure of Invention

In order to overcome the defects that the prior ceramic tile attaching device has higher attaching cost and needs to consume more manpower, the technical problem to be solved is that: the wall surface tile laminating device for the building construction is capable of preventing the tiles from being displaced in the laminating process, small in size, free of occupying large space, free of manual carrying, convenient to move and capable of reducing manual operation.

The technical scheme of the invention is as follows: a wall tile laminating device for construction, comprising:

the number of the ground rails is two, and the two ground rails are distributed front and back;

the rollers are rotatably arranged on two sides of the tops of the two ground rails, and the two rollers are symmetrically distributed in front-back mode;

the upper parts of the four rollers are respectively provided with a connecting frame;

the support frames are arranged between the two connecting frames on the same side;

the sliding blocks are arranged in the two supporting frames in a sliding manner;

the brackets are arranged on two sides of the two sliding blocks and are used for placing the ceramic tiles;

the material supporting mechanisms are arranged at the tops of the four brackets and can fix the ceramic tiles;

the turnover mechanism is arranged on the two sliding blocks and matched with the material supporting mechanism to assist the tile to turn over and contact with the wall surface;

the lifting mechanism is arranged between the tops of the two supporting frames and is matched with the turnover mechanism, so that the ceramic tile can be automatically driven to lift.

Further, hold in palm material mechanism includes:

the top parts of the two brackets on one side are respectively provided with a first supporting plate;

the top parts of the two brackets on the other side are respectively provided with a second supporting plate;

the bottoms of the two first supporting plates and the two second supporting plates are respectively provided with an installation block;

the loop bar is arranged on one side of the mounting block on the first supporting plate;

the telescopic rod is arranged on one side of the mounting block on the second supporting plate and is in sliding fit with the loop bar;

the first tightening block is arranged on the loop bar at one side in a threaded manner and is in threaded fit with the telescopic bar at the left side;

the bottoms of the two first supporting plates and the two second supporting plates are respectively provided with a connecting rod in a rotary mode;

the second tightening block is arranged between two adjacent connecting rods in a threaded mode.

Further, the tilting mechanism includes:

the first fixing frame is arranged between one sides of the upper parts of the two supporting frames in a sliding mode;

the jacking blocks are arranged on two sides of the bottom of the first fixing frame;

the third tightening blocks are arranged on two sides of the upper part of the first fixing frame in a threaded manner;

the outer sides of the two supporting frames are provided with measuring scales which are in contact fit with the first fixing frame;

the second fixing frame is arranged on the two sliding blocks;

the inner sides of the two second fixing frames are movably connected with contact frames; the contact frame is in sliding fit with the top block, and the contact frame on the same side is connected with the adjacent second supporting plate;

the tops of the two sliding blocks are provided with the supporting rods in a sliding manner;

the second springs are arranged between two adjacent support rods and two sliding blocks, and the two second springs are respectively sleeved on the support rods;

the inner sides of the two support rods are provided with telescopic blocks in a sliding manner, and the telescopic blocks are in contact fit with the second support plates;

the first springs are arranged between the two telescopic blocks on the same side and the two supporting rods on the same side, and the two first springs are sleeved on the telescopic blocks on the same side;

connecting rods are arranged at the tops of the two supporting rods, and are connected with the lifting mechanism.

Further, the elevating mechanism includes:

the fixing plate is arranged between the upper parts of the two supporting frames;

the motor bracket is arranged in the middle of the top of the fixed plate;

the top of the motor bracket is provided with a coiling motor;

the winding wheel is rotatably arranged on both sides of the top of the fixed plate;

the belt pulleys are arranged on one sides of the two winding wheels, and the output shaft of the winding motor is provided with the two belt pulleys;

the transmission belts are respectively connected between the belt pulleys on the two winding wheels and the two belt pulleys on the output shaft of the winding motor in a winding way;

the first wire passing wheel is rotatably arranged on both sides of the fixed plate;

the first stay cord, all the round wire of two is taken turns to have the first stay cord of round wire connection, and the other end of two first stay cords is connected at homonymy connecting rod top respectively, and first stay cord round wire connection is taken turns at first.

Further, still including stabilizing mean, stabilizing mean includes:

the bottoms of the two second supporting plates are respectively provided with a guide block;

the inner sides of the two guide blocks are provided with the first guide rods in a sliding manner;

the suction cup frames are arranged at the tops of the two first guide rods;

rubber suction cups are arranged at the tops of the two suction cup frames;

the air pump is arranged at the bottoms of the two rubber suction cups;

the air compression rod is arranged on one side in each of the two air pumps in a sliding manner;

connecting blocks are arranged on two sides of the bottoms of the two rubber suction cups;

the exhaust valves are slidably arranged on two sides of the two rubber suction cups and are positioned on the inner sides of the connecting blocks, and one side of the exhaust valve is communicated with the air pump;

and the fourth springs are respectively sleeved on the exhaust valves at the same side.

Further, still include pushing equipment, pushing equipment includes:

the outer sides of the bottoms of the two second supporting plates are respectively provided with a guide frame;

the pushing blocks are arranged on the two guide frames in a sliding mode, and are in sliding fit with the telescopic blocks;

the return springs are arranged between the same-side pushing block and the same-side guide frame, and the two return springs are respectively sleeved on the same-side guide frame;

the second guide rods are arranged on one side of the bottoms of the two second supporting plates;

the sliding plates are arranged on the two second guide rods in a sliding mode, and are connected and matched with the first guide rods;

the first guide rod is sleeved with the first guide rod at the same side;

the second wire passing wheels are rotatably arranged on two sides of the bottoms of the two second supporting plates;

push rods are arranged at one side of the bottoms of the two second supporting plates, and are positioned at one side of the guide block;

the bottoms of the two exhaust valves on the other side are respectively provided with a spring block, and the spring blocks are in sliding fit with the push rod;

and a second pull rope is arranged between the pushing block on the same side and the two sliding plates on the same side, and is wound on a second wire passing wheel.

Further, still include moving mechanism, moving mechanism includes:

one side of the ground rail on one side is provided with a moving block in a sliding manner;

an expansion ruler is arranged on one side of the moving block in a sliding manner;

the fourth tightening block is arranged on the other side of the moving block in a threaded manner and is in threaded fit with the ground rail on the front side;

a pressing block is rotatably arranged on one side of the moving block, which is close to the telescopic ruler, and the pressing block is in contact fit with the telescopic ruler;

a sixth spring is arranged between the pressing block and the moving block;

and the contact block is arranged on one side of the roller, and the contact block is in contact fit with the moving block.

Further, the ground rail at the front side is provided with a chute.

The invention has the following advantages: 1. people can adjust the positions of the first supporting plate and the second supporting plate according to the sizes of the tiles, so that the ceramic tile fixing device can be suitable for the tiles with different specifications and can fix the tiles;

2. under the driving force of the output shaft of the coiling motor, the first stay cord can be finally pulled or loosened through a series of transmission of the belt pulley, the coiling wheel and the transmission belt, and then the sliding block is controlled to move up and down, so that the ceramic tile can be transported and turned over;

3. the telescopic block pushes the push block in the moving process, then the sliding plate is jacked up upwards through pulling the second stay cord, so that the elastic block moves upwards, the exhaust valve is further stirred downwards through the cooperation of the push rod, the function of air leakage is realized, the ceramic tile is loosened, the auxiliary ceramic tile and the rubber sucker can be separated from contact, and manual operation is reduced.

4. Through adjusting the telescopic ruler about, people can adjust according to the number on the telescopic ruler, alright accurate measurement next ceramic tile need the position of laminating, make the more accurate even of ceramic tile laminating, prevent that the gyro wheel from removing at will, influence ceramic tile laminating position.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a portion of the present invention.

Fig. 3 is a schematic perspective view of a first part of the material supporting mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second part of the material supporting mechanism of the present invention.

Fig. 5 is a schematic perspective view of the lifting mechanism and the turnover mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first part of the turnover mechanism of the present invention.

Fig. 7 is a schematic perspective view of a second part of the turnover mechanism of the present invention.

Fig. 8 is a schematic perspective view of a third part of the turnover mechanism of the present invention.

Fig. 9 is a schematic perspective view of a fourth part of the turnover mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first part of the lifting mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second part of the lifting mechanism of the present invention.

Fig. 12 is a schematic perspective view of a stabilizing mechanism and a pushing mechanism according to the present invention.

FIG. 13 is a schematic perspective view, partially in section, of a stabilization mechanism of the present invention.

Fig. 14 is a schematic perspective view of a first part of the moving mechanism of the present invention.

Fig. 15 is a schematic perspective view of a second part of the moving mechanism of the present invention.

Wherein the above figures include the following reference numerals: 1-ground rail, 2-roller, 3-connecting frame, 4-supporting frame, 5-sliding block, 6-bracket, 7-supporting mechanism, 71-first supporting plate, 72-second supporting plate, 73-mounting block, 74-loop bar, 75-telescopic rod, 76-first tightening block, 77-connecting rod, 78-second tightening block, 8-tilting mechanism, 81-first fixing frame, 82-top block, 83-third tightening block, 84-measuring ruler, 85-contact frame, 86-second fixing frame, 87-supporting rod, 88-connecting rod, 89-telescopic block, 810-first spring, 811-second spring, 9-lifting mechanism, 91-fixing plate, 92-motor bracket, 93-winding motor, 94-winding wheel, 95-belt pulley, 96-driving belt, 97-first wire passing wheel, 98-first stay cord, 10-stabilizing mechanism, 101-sucker rack, 102-rubber sucker, 103-air pump, 104-connecting block, 105-exhaust valve, 106-air compressing rod, 107-guiding block, 108-first rod, 109-fourth spring, 11-pushing mechanism, 111-guiding frame, 112-pushing block, 113-second guiding rod, 114-sliding plate, 115-fifth spring, 116-second wire passing wheel, 117-second stay cord, 118-pushing rod, 119-elastic block, 1110-reset spring, 12-moving mechanism, 121-moving block, 122-telescopic rule, 123-fourth tightening block, 124-press block, 125-sixth spring, 126-contact block.

Detailed Description

The following description is of the preferred embodiments of the invention, and is not intended to limit the scope of the invention.

Example 1

The utility model provides a wall ceramic tile laminating device for construction, as shown in fig. 1-11, including ground rail 1, gyro wheel 2, link 3, support frame 4, slider 5, bracket 6, hold in the palm material mechanism 7, tilting mechanism 8 and elevating system 9, ground rail 1 quantity is two, two ground rails 1 are the back-and-forth distribution, two ground rail 1 top left and right sides all rotate and are equipped with gyro wheel 2, two gyro wheels 2 are the front and back symmetric distribution, four gyro wheel 2 upper portions all are equipped with link 3, all be equipped with support frame 4 between two link 3 from front to back, all slide in two support frames 4 and be equipped with slider 5, both sides all are equipped with bracket 6 around two slider 5, four bracket 6 tops have been placed and have held in the palm material mechanism 7, be equipped with tilting mechanism 8 on two slider 5, tilting mechanism 8 cooperates with holding in the palm material mechanism 7, be equipped with elevating system 9 between two support frame 4 tops, elevating system 9 cooperates with tilting mechanism 8.

When needs auxiliary ceramic tile carries out even laminating when the wall, firstly people place the ceramic tile in holding in the palm material mechanism 7, adjust holding in the palm material mechanism 7 through the size of ceramic tile, make holding in the palm material mechanism 7 can fix the ceramic tile, then people promote support frame 4 and drive link 3 removal, link 3 just moves on ground rail 1 through gyro wheel 2, thereby drive this device and remove to suitable position, people just stop promoting support frame 4, make gyro wheel 2 stop moving, then start elevating system 9, elevating system 9 drives tilting mechanism 8 and upwards move, tilting mechanism 8 drives holding in the palm material mechanism 7 and upwards move, hold in the palm material mechanism 7 and upwards move the in-process, drive holding in the palm material mechanism 7 through tilting mechanism 8 and overturn, make holding in the palm material mechanism 7 and drive ceramic tile and wall contact, then people alright utilize cement to laminate ceramic tile and wall, so repeatedly carry out the operation, alright carry out the ceramic tile on the even tile of pasting, prevent the ceramic tile displacement, effectually control the position to the elevating system 9 can be closed after the operation.

The material supporting mechanism 7 comprises a first supporting plate 71, a second supporting plate 72, a mounting block 73, a sleeve rod 74, a telescopic rod 75, a first tightening block 76, a connecting rod 77 and a second tightening block 78, wherein the first supporting plate 71 is arranged at the top of each of the two brackets 6 at the front side, the second supporting plate 72 is arranged at the top of each of the two brackets 6 at the rear side, the mounting block 73 is arranged at the rear side of the mounting block 73 on the first supporting plate 71, the telescopic rod 75 is arranged at the front side of the mounting block 73 on the second supporting plate 72, the telescopic rod 75 is in sliding fit with the sleeve rod 74, the first tightening block 76 is in threaded fit with the left telescopic rod 75, the connecting rod 77 is arranged at the bottom of each of the two first supporting plates 71 and the two second supporting plates 72 in a rotating mode, and the second tightening block 78 is arranged between the two adjacent connecting rods 77 in a threaded mode.

When the ceramic tile needs to be fixed, people need to adjust the positions of the first supporting plate 71 and the second supporting plate 72 according to the size of the ceramic tile so as to better fix the ceramic tile, firstly, people rotate the first tightening block 76, so that the first tightening block 76 is separated from contact with the left telescopic rod 75, then, people pull the first supporting plate 71 to move forwards to drive the sleeve rod 74 to move forwards, then, people rotate the second tightening block 78, so that the second tightening block 78 is separated from contact with the connecting rod 77, people move the first supporting plate 71 and the second supporting plate 72 outside respectively, the connecting rod 77 rotates, thereby adjusting the surrounding distance between the first supporting plate 71 and the second supporting plate 72, then, people put the ceramic tile between the first supporting plate 71 and the second supporting plate 72, move the first supporting plate 71 backwards and attach the ceramic tile according to the size of the ceramic tile, after the ceramic tile is respectively moved inwards, people rotate the first tightening block 76 and the second tightening block 78 in turn, so that the first tightening block 76 and the left tightening block 76 are matched with the left telescopic rod 77, and the ceramic tile can be better controlled to move, and the ceramic tile can be prevented from being matched with the connecting rod 77 to move, and the ceramic tile can be better fixed.

The turnover mechanism 8 comprises a first fixing frame 81, a top block 82, a third tightening block 83, a measuring ruler 84, a contact frame 85, a second fixing frame 86, a supporting rod 87, a connecting rod 88, a telescopic block 89, a first spring 810 and a second spring 811, wherein the first fixing frame 81 is arranged between the upper parts of the two supporting frames 4 in a sliding manner, the top block 82 is arranged on the left side and the right side of the bottom of the first fixing frame 81, the third tightening block 83 is arranged on the left side and the right side of the upper part of the first fixing frame 81 in a threaded manner, the measuring ruler 84 is arranged on the outer sides of the two supporting frames 4, the measuring ruler 84 is in contact fit with the first fixing frame 81, the second fixing frames 86 are arranged on the rear sides of the two sliding blocks 5, the inner sides of the two second fixing frames 86 are movably connected with the contact frame 85, the contact frame 85 is in sliding fit with the top block 82, the contact frame 85 on the same side is connected with the adjacent second supporting plate 72, the tops of the two sliding blocks 5 are all provided with supporting rods 87 in a sliding mode, the adjacent two supporting rods 87 and the two sliding blocks 5 are all provided with second springs 811, the two second springs 811 are respectively sleeved on the supporting rods 87, the inner sides of the two supporting rods 87 are all provided with telescopic blocks 89 in a sliding mode, the telescopic blocks 89 are in contact fit with the second supporting plate 72, first springs 810 are respectively arranged between the two telescopic blocks 89 on the same side and the two supporting rods 87 on the same side, the two first springs 810 are respectively sleeved on the telescopic blocks 89 on the same side, and connecting rods 88 are respectively arranged at the tops of the two supporting rods 87 and are connected with the lifting mechanism 9 in a matching mode.

When the ceramic tile needs to be overturned, the contact frame 85 is driven to move outwards along the second fixing frame 86 by moving the second supporting plate 72 to the left and the right sides, meanwhile, the second supporting plate 72 is contacted with the telescopic block 89, the telescopic block 89 moves outwards, the first spring 810 is compressed, after the ceramic tile is fixed, people rotate the third tightening block 83 to be separated from contact with the measuring rule 84, then people move the first fixing frame 81 according to the required wall-attaching height, the wall length can be accurately measured by the measuring rule 84, the first fixing frame 81 is convenient to adjust to move, after moving to a proper position, people reversely rotate the third tightening block 83 to enable the third tightening block 83 to be in clamping fit with the measuring rule 84, then people start the lifting mechanism 9, the lifting mechanism 9 operates to drive the connecting rod 88 to move upwards, the connecting rod 88 drives the supporting rod 87 to move upwards, the supporting rod 87 drives the sliding block 5 to move upwards, the sliding block 5 drives the second fixing frame 86 to move upwards, the second fixing frame 86 drives the contact frame 85 to move upwards, the contact frame 85 drives the second supporting plate 72 to move upwards, then the second supporting plate 72 drives the mounting block 73 and the telescopic rod 75 to move upwards, the telescopic rod 75 drives the loop bar 74 and the first supporting plate 71 to move upwards, the first supporting plate 71 and the second supporting plate 72 drive the ceramic tile to move upwards, the contact frame 85 moves to be contacted with the top block 82, the contact frame 85 drives the second fixing frame 86 to stop moving, the second fixing frame 86 drives the second supporting plate 72 to stop moving, the lifting mechanism 9 then continues to drive the connecting rod 88 and the supporting rod 87 to move upwards, the second spring 811 is stretched, the supporting rod 87 moves upwards along the second supporting plate 72, the supporting rod 87 moves upwards to drive the telescopic block 89 to move upwards, and the telescopic block 89 moves upwards, the second supporting plate 72 is supported, so that the first supporting plate 71 and the second supporting plate 72 rotate to be in a vertical state towards the upper side, the contact frame 85 rotates along with the first supporting plate 72, the second supporting plate 72 is in a vertical state, under the reset action of the first spring 810, the telescopic block 89 moves inwards to reset, at the moment, the telescopic block 89 is positioned at the front side of the second supporting plate 72, and under the limiting action between the telescopic block 89 and the first fixing frame 81, the second supporting plate 72 and the parts above can be limited, so that the ceramic tile can keep in a vertical state, the ceramic tile is contacted with the wall surface, after the ceramic tile is adhered on the wall surface by cement, when people start the lifting mechanism 9 to rotate reversely, the connecting rod 88 loses the upward pulling force, under the reset action of the second spring 811, the connecting rod 88 drives the supporting rod 87 to move downwards, the supporting rod 87 drives the telescopic block 89 to move downwards, when the telescopic block 89 moves downwards and the second supporting plate 72 is separated, the second supporting plate 72 loses the limiting force of the telescopic block 89 on the second supporting plate, so that the second supporting plate 72 and the upper parts swing and reset from front to lower under the action of gravity, and under the action of the gravity of the sliding block 5 and the upper parts, the sliding block 5 and the upper parts move downwards and reset, the above operation is repeated, the tile can be overturned according to the appointed position, the tile is uniformly attached, and after the operation is finished, the lifting mechanism 9 is closed.

Elevating system 9 is including fixed plate 91, motor support 92, spiral motor 93, the reel 94, belt pulley 95, driving belt 96, first wire passing wheel 97 and first stay cord 98, be equipped with fixed plate 91 between two support frame 4 upper portions, fixed plate 91 top intermediate position is equipped with motor support 92, spiral motor 93 is installed at motor support 92 top, the equal rotation of both sides in fixed plate 91 top is equipped with reel 94, two reel 94 rear sides all are equipped with belt pulley 95, be equipped with two belt pulleys 95 on the output shaft of spiral motor 93, all the round of joint has driving belt 96 between the belt pulley 95 on two reel 94 respectively and the two belt pulleys 95 on the output shaft of spiral motor 93, fixed plate 91 left and right sides all rotation is equipped with first wire passing wheel 97, all the round of joint has first stay cord 98 on two reels 94, the other end of two first stay cords 98 is connected at homonymy connecting rod 88 top respectively, and first stay cord 98 wire joint is on first wire passing wheel 97.

When the automatic lifting of the ceramic tile is required, people start the winding motor 93, the output shaft of the winding motor 93 drives the belt pulley 95 to rotate, the belt pulley 95 drives the transmission belt 96 to run, then the transmission belt 96 drives the two side belt pulleys 95 to rotate, the two side belt pulleys 95 drive the winding wheel 94 to rotate, the winding wheel 94 rotates to tighten the first pull rope 98, the first pull rope 98 moves along the first wire passing wheel 97 and drives the first wire passing wheel 97 to rotate, the rotation of the first wire passing wheel 97 can assist the movement of the first pull rope 98, the first pull rope 98 drives the connecting rod 88 to move upwards, the connecting rod 88 drives the supporting rod 87 to move upwards, the second spring 811 is stretched, the supporting rod 87 drives the sliding block 5 to move upwards, the sliding block 5 drives the second fixing frame 86 to move upwards, the contact frame 85 drives the second supporting plate 72 to move upwards, the first supporting plate 71 moves upwards, the first supporting plate 71 and the second supporting plate 72 drives the upward side to move, when the rotation of the first wire passing wheel 97 rotates to assist the first pull rope 98, the first pull rope 98 drives the connecting rod 88 to move upwards, the connecting rod 88 drives the supporting rod 88 to move upwards, the sliding block 87 moves downwards, the sliding block 5 moves upwards along with the sliding block 96 to move upwards, the sliding block 96 moves upwards, the second supporting plate 96 moves downwards, the sliding block 96 moves downwards, and finally the sliding block 96 moves downwards, and the sliding block 96 moves downwards, accordingly, and the sliding block 96 moves the sliding block 96 to move downwards, and the sliding block 96 to move upwards, and accordingly, and the sliding block is turned, and finally, and the sliding block is turned.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 12, fig. 13, fig. 14 and fig. 15, the air pump fixing device further comprises a fixing mechanism 10, the fixing mechanism 10 comprises a sucker frame 101, rubber suckers 102, an air pump 103, a connecting block 104, an exhaust valve 105, an air compressing rod 106, guide blocks 107, first guide rods 108 and fourth springs 109, wherein the bottoms of two second supporting plates 72 are respectively provided with the guide blocks 107, the inner sides of the two guide blocks 107 are respectively provided with the first guide rods 108 in a sliding manner, the tops of the two first guide rods 108 are respectively provided with the sucker frame 101, the tops of the two sucker frames 101 are respectively provided with the rubber suckers 102, the bottoms of the two rubber suckers 102 are respectively provided with the air compressing rod 106, the front side and the rear side of the two rubber suckers 102 are respectively provided with the connecting block 104, the front side and the rear side of the two rubber suckers 102 are respectively provided with the exhaust valve 105, the rear side exhaust valve 105 is positioned on the inner side of the connecting block 104, the rear side exhaust valve 105 is communicated with the air pump 103, the fourth springs 109 are respectively arranged between the rubber sucker 102 and the two exhaust valve 105, and the fourth springs 109 are respectively sleeved on the exhaust valve 105.

When the tiles need to be firmly attached, people place the tiles above the first supporting plate 71 and the second supporting plate 72, the tiles are located above the rubber suction plates 102, then the people pull the air compressing rods 106 to move towards the rear side, then the air pump 103 is started, air in the rubber suction plates 102 enters the air pump 103 along the air discharging valves 105, the rubber suction plates 102 adsorb the tiles, accordingly, the people push the air compressing rods 106 to move towards the front side, the air compressing rods 106 convey the air towards the front side, people can spread cement above the tiles, when the second supporting plate 72 drives the tiles to rotate, the second supporting plate 72 simultaneously drives the suction plate frame 101 and the rubber suction plates 102 to rotate, the tiles are in contact with the wall surface, then the people pull the front side air discharging valves 105, the fourth springs 109 are stretched, then the air is conveyed along the front side air discharging valves 105, the air in the rubber suction plates 102 is separated from the air, the tiles are attached to the wall surface through the cement, then the people do not apply force to the front side air discharging valves 105, and under the reset action of the fourth springs 109, the reset operation is carried out upwards, and the air discharging valves 103 are repeatedly reset, so that the air pump attachment can be carried out on the wall surface more firmly, and the tiles can be attached to the wall surface more firmly.

The automatic feeding device comprises a feeding mechanism 11, the feeding mechanism 11 comprises a guide frame 111, a push block 112, a second guide rod 113, a sliding plate 114, a fifth spring 115, a second wire passing wheel 116, a second pull rope 117, a push rod 118, an elastic block 119 and a return spring 1110, wherein the guide frame 111 is arranged on the outer side of the bottom of each second supporting plate 72, the push block 112 is arranged on each guide frame 111 in a sliding mode, the push block 112 is in sliding fit with the telescopic block 89, a return spring 1110 is arranged between each push block 112 on the same side and the guide frame 111 on the same side, the return springs 1110 are respectively sleeved on the guide frame 111 on the same side, the front side of the bottom of each second supporting plate 72 is provided with the second guide rod 113, the sliding plate 114 is connected with the first guide rod 108 on the same side, the fifth spring 115 is respectively sleeved between the sliding plate 114 on the same side and the guide block 107 on the same side, the front side and the rear side of the bottom of each second supporting plate 72 is provided with the second wire passing wheel 116, the two second wire passing wheels 118 are respectively arranged on the front side of the two second supporting plates 72 and the front side of the push rod 118, the two second guide plates 118 are respectively connected with the sliding plate 118 on the front side of each second supporting plate 118, and the two second guide plates are respectively connected with the front side of the sliding plate 118 on the two side of the second guide plates and the front side of the push plate 118.

When the rubber suction cup 102 is required to be automatically separated from contact with the ceramic tile, the telescopic block 89 moves upwards along the second supporting plate 72, the telescopic block 89 drives the second supporting plate 72 to rotate, meanwhile, the telescopic block 89 contacts with the push block 112 and drives the push block 112 to move forwards along the guide frame 111, the reset spring 1110 is compressed, the push block 112 pulls the second pull rope 117 to move forwards along the second wire passing wheel 116, the second pull rope 117 drives the second wire passing wheel 116 to rotate, the second wire passing wheel 116 rotates to assist the movement of the second pull rope 117, the sliding plate 114 is driven to move upwards along the second guide rod 113 in the moving process of the second pull rope 117, the sliding plate 114 drives the first guide rod 108 to move upwards, the fifth spring 115 is compressed, the first guide rod 108 drives the suction cup frame 101 to move upwards, then the suction cup frame 101 drives the rubber suction cup 102 to move upwards, the rubber suction cup 102 moves upwards to assist the ceramic tile to rotate, the rubber sucker 102 drives the connecting block 104 and the elastic block 119 to move upwards, the elastic block 119 moves to be in contact with the push rod 118, the elastic block 119 stops moving, the rubber sucker 102 continues to move upwards, the elastic block 119 and the front exhaust valve 105 are separated from the rubber sucker 102, the fourth spring 109 is stretched, gas is conveyed along the through hole of the exhaust valve 105, the rubber sucker 102 stores gas, the rubber sucker 102 is separated from the ceramic tile, the ceramic tile is attached to the wall surface through cement, the telescopic block 89 moves to be no longer in contact with the push block 112, under the reset action of the reset spring 1110, the push block 112 drives the second stay 117 to move backwards along the second wire passing wheel 116 to reset, the second stay 117 is loosened, under the reset action of the fifth spring 115, the sliding plate 114 drives the first guide rod 108 to move downwards, the first guide rod 108 drives the sucker frame 101 to move downwards to reset, the sucker frame 101 drives the rubber sucker 102 to move downwards to reset, the rubber sucker 102 drives the connecting block 104 and the elastic block 119 to move downwards to reset, the elastic block 119 is not contacted with the push rod 118 any more, under the reset action of the fourth spring 109, the elastic block 119 drives the front exhaust valve 105 to move upwards, the exhaust valve 105 is matched with the rubber sucker 102 in a contact manner, and finally, the automatic separation of the ceramic tile from the rubber sucker 102 can be realized, and the manual operation is reduced.

The movable rail is characterized by further comprising a movable mechanism 12, wherein the movable mechanism 12 comprises a movable block 121, an expansion ruler 122, a fourth tightening block 123, a pressing block 124, a sixth spring 125 and a contact block 126, the movable block 121 is arranged in front of the front ground rail 1, a sliding groove is formed in the front ground rail 1, the movable block 121 is convenient to move, the expansion ruler 122 is arranged on the left inner side of the movable block 121 in a sliding mode, the fourth tightening block 123 is arranged on the right front side of the movable block 121 in a threaded mode, the fourth tightening block 123 is in threaded fit with the front ground rail 1, the pressing block 124 is rotatably arranged on the front left side of the movable block 121, the pressing block 124 is in contact fit with the expansion ruler 122, the sixth spring 125 is arranged between the pressing block 124 and the movable block 121, the contact block 126 is arranged on the front side of the roller 2 on the front right side, and the contact block 126 is in contact fit with the movable block 121.

When the length of the tile fitting needs to be adjusted, first people press the pressing block 124, the sixth spring 125 is compressed, the pressing block 124 is not contacted with the expansion ruler 122 any more, people just pull the expansion ruler 122 to move leftwards along the moving block 121, people adjust the position of the next tile fitting according to the number on the expansion ruler 122, after moving to the proper position, people do not apply force to the pressing block 124 any more, under the reset action of the sixth spring 125, the pressing block 124 reversely rotates and resets, the pressing block 124 clamps the expansion ruler 122, then people push the supporting frame 4 to drive the connecting frame 3 to move through the roller 2, the connecting frame 3 drives the roller 2 to move to the position of the next tile fitting along the ground rail 1, then the supporting frame 4 is not pushed, then people rotate the fourth tightening block 123 to be separated from the ground rail 1, then people pull the moving block 121 to move leftwards, people stop pulling the moving block 121, then people reversely rotate the fourth tightening block 123 to enable the fourth tightening block 123 to be matched with the ground rail 1, the position of the tile fitting can be accurately measured, the tile fitting position of the tile fitting needs to be more accurately measured, the tile fitting position of the tile fitting needs to be prevented, and the tile fitting position of the tile fitting needs to be more accurately adjusted, and the tile fitting position of the tile fitting needs to be more accurate, and the tile fitting can be prevented.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (6)

1. The utility model provides a wall ceramic tile laminating device for construction which characterized in that includes:

the number of the ground rails (1) is two, and the two ground rails (1) are distributed in front and back;

the rollers (2) are rotatably arranged on two sides of the top of the two ground rails (1), and the two rollers (2) are symmetrically distributed in front-back mode;

the upper parts of the four rollers (2) are respectively provided with a connecting frame (3);

the support frames (4) are arranged between the two connecting frames (3) on the same side;

the sliding blocks (5) are arranged in the two supporting frames (4) in a sliding manner, and the sliding blocks (5) are arranged in the two supporting frames (4) in a sliding manner;

the brackets (6) are arranged on two sides of the two sliding blocks (5) and are used for placing the ceramic tiles;

the material supporting mechanisms (7) are arranged at the tops of the four brackets (6), and the material supporting mechanisms (7) can fix the ceramic tiles;

the turnover mechanism (8) is arranged on the two sliding blocks (5), the turnover mechanism (8) is matched with the material supporting mechanism (7), and the tile is assisted to turn over and contact with the wall surface;

the lifting mechanism (9) is arranged between the tops of the two supporting frames (4), and the lifting mechanism (9) is matched with the turnover mechanism (8) to automatically drive the ceramic tile to lift;

the material supporting mechanism (7) comprises:

the first supporting plate (71) is arranged at the tops of the two brackets (6) at one side;

the second supporting plate (72) is arranged at the top of the two brackets (6) at the other side, and the second supporting plate (72) is arranged at the top of the two brackets;

the bottoms of the two first supporting plates (71) and the two second supporting plates (72) are respectively provided with a mounting block (73);

a loop bar (74), one side of the mounting block (73) on the first supporting plate (71) is provided with the loop bar (74); a telescopic rod (75), wherein one side of a mounting block (73) on the second supporting plate (72) is provided with the telescopic rod (75), and the telescopic rod (75) is in sliding fit with the loop rod (74);

the first tightening block (76) is arranged on the sleeve rod (74) at one side in a threaded manner, and the first tightening block (76) is in threaded engagement with the left telescopic rod (75);

the connecting rods (77) are rotatably arranged at the bottoms of the two first supporting plates (71) and the two second supporting plates (72);

the second tightening blocks (78) are arranged between two adjacent connecting rods (77) in a threaded mode, and the second tightening blocks (78) are arranged between the two adjacent connecting rods;

when the ceramic tile is required to be fixed, people need to adjust the positions of the first supporting plate (71) and the second supporting plate (72) according to the size of the ceramic tile so as to better fix the ceramic tile, firstly, people rotate the first tightening block (76) to enable the first tightening block (76) to be separated from contact with the left telescopic rod (75), then people pull the first supporting plate (71) to move forwards to drive the sleeve rod (74) to move forwards, then people rotate the second tightening block (78) to enable the second tightening block (78) to be separated from contact with the connecting rod (77), people move the first supporting plate (71) and the second supporting plate (72) to enable the connecting rod (77) to rotate, then people put the ceramic tile between the first supporting plate (71) and the second supporting plate (72) and enable the first supporting plate (71) to move backwards and the ceramic tile to be attached to the left telescopic rod (72), then people attach the first supporting plate (71) to the second supporting plate (72) and enable the first supporting plate (76) to be attached to the left telescopic rod (72) to be matched with the ceramic tile, and finally, and the first supporting plate (76) is screwed to be matched with the second supporting plate (72) in turn;

the turnover mechanism (8) comprises:

the first fixing frame (81) is arranged between one sides of the upper parts of the two supporting frames (4) in a sliding manner, and the first fixing frame (81) is arranged between the upper parts of the two supporting frames;

the jacking blocks (82) are arranged on two sides of the bottom of the first fixing frame (81);

the third tightening blocks (83) are arranged on two sides of the upper part of the first fixing frame (81) in a threaded mode;

the measuring ruler (84) is arranged on the outer sides of the two supporting frames (4), and the measuring ruler (84) is in contact fit with the first fixing frame (81);

the second fixing frames (86) are arranged on the two sliding blocks (5); the inner sides of the two second fixing frames (86) are movably connected with a contact frame (85); the contact frame (85) is in sliding fit with the top block (82), and the contact frame (85) on the same side is connected with the adjacent second supporting plate (72);

the top parts of the two sliding blocks (5) are respectively provided with a supporting rod (87) in a sliding way;

the second springs (811) are arranged between two adjacent support rods (87) and two sliding blocks (5), and the two second springs (811) are respectively sleeved on the support rods (87);

the inner sides of the two support rods (87) are provided with telescopic blocks (89) in a sliding mode, and the telescopic blocks (89) are in contact fit with the second support plates (72);

the first springs (810) are arranged between the two telescopic blocks (89) on the same side and the two supporting rods (87) on the same side, and the two first springs (810) are sleeved on the telescopic blocks (89) on the same side;

the top parts of the two support rods (87) are respectively provided with a connecting rod (88), and the connecting rods (88) are connected and matched with the lifting mechanism (9);

when the ceramic tile needs to be overturned, the contact frame (85) is driven to move outwards along the second fixing frame (86) through the movement of the second supporting plate (72) on the left and right sides, meanwhile, the second supporting plate (72) is contacted with the telescopic block (89), the telescopic block (89) moves outwards, the first spring (810) is compressed, after the ceramic tile is fixed, people rotate the third tightening block (83) to be separated from the contact with the measuring scale (84), then people move the first fixing frame (81) according to the height of the wall, the wall length is accurately measured through the measuring scale (84), the first fixing frame (81) is convenient to adjust, after the second fixing frame is moved to a proper position, people reversely rotate the third tightening block (83) to enable the third tightening block (83) to be matched with the measuring scale (84), then people start the lifting mechanism (9), the lifting mechanism (9) to drive the connecting rod (88) to move upwards, the connecting rod (88) to drive the supporting rod (87) to move upwards, the supporting rod (87) to drive the sliding block (5) to move upwards, the sliding block (5) to drive the second fixing frame (86) to move upwards, the second fixing frame (85) is driven to move upwards, the second fixing frame (72) is contacted with the second fixing frame (72) to move upwards, the telescopic rod (75) drives the loop rod (74) and the first supporting plate (71) to move upwards, the first supporting plate (71) and the second supporting plate (72) drive the ceramic tile to move upwards, the contact frame (85) moves to be in contact with the top block (82) along with the movement, the contact frame (85) drives the second fixing frame (86) to stop moving, the second fixing frame (86) drives the second supporting plate (72) to stop moving, the lifting mechanism (9) continuously drives the connecting rod (88) and the supporting rod (87) to move upwards along with the lifting mechanism (9), the second spring (811) is stretched, the supporting rod (87) moves upwards along with the second supporting plate (72), the supporting rod (87) moves upwards to drive the telescopic block (89) to move upwards, and in the moving process of the telescopic block (89), the second supporting plate (72) is supported, so that the first supporting plate (71) and the second supporting plate (72) rotate to be in a vertical state at the upper side, and the ceramic tile is in a vertical state.

2. A wall tile laminating apparatus for construction according to claim 1, wherein the lifting mechanism (9) comprises:

a fixed plate (91), wherein the fixed plate (91) is arranged between the upper parts of the two supporting frames (4);

a motor bracket (92), wherein the middle position of the top of the fixed plate (91) is provided with the motor bracket (92);

a coiling motor (93), wherein the top of the motor bracket (92) is provided with the coiling motor (93);

a winding wheel (94), wherein both sides of the top of the fixed plate (91) are rotatably provided with the winding wheel (94); a belt pulley (95), one side of each of the two winding wheels (94) is provided with the belt pulley (95), and the output shaft of the winding motor (93) is provided with the two belt pulleys (95);

a transmission belt (96), wherein the transmission belt (96) is wound between the belt pulleys (95) on the two winding wheels (94) and the two belt pulleys (95) on the output shaft of the winding motor (93);

the first wire passing wheel (97) is rotatably arranged on both sides of the fixed plate (91); the first stay cord (98), all the round of winding (94) are gone up and are all articulated first stay cord (98), and the other end of two first stay cords (98) is connected at homonymy connecting rod (88) top respectively, and first stay cord (98) round of winding is gone up at first line wheel (97).

3. A wall tile laminating apparatus for construction according to claim 2, further comprising a securing mechanism (10), the securing mechanism (10) comprising:

the bottoms of the two second supporting plates (72) are respectively provided with a guide block (107);

the inner sides of the two guide blocks (107) are provided with the first guide rods (108) in a sliding manner;

the tops of the two first guide rods (108) are respectively provided with a sucker frame (101);

the rubber suction cups (102) are arranged at the tops of the two suction cup frames (101);

the air pump (103) is arranged at the bottoms of the two rubber suction cups (102);

the air compression rods (106) are arranged on one side in the two air pumps (103) in a sliding mode;

the connecting blocks (104) are arranged on two sides of the bottoms of the two rubber suction cups (102); the exhaust valves (105) are slidably arranged on two sides of the two rubber suction cups (102), the exhaust valves (105) are positioned on the inner sides of the connecting blocks (104), and one side of the exhaust valve (105) is communicated with the air pump (103);

and the fourth springs (109) are arranged between the rubber suction disc (102) on the same side and the two exhaust valves (105), and the two fourth springs (109) are respectively sleeved on the exhaust valves (105) on the same side.

4. A wall tile laminating apparatus for construction according to claim 3, further comprising a pushing mechanism (11), wherein the pushing mechanism (11) comprises:

the outer sides of the bottoms of the two second supporting plates (72) are respectively provided with a guide frame (111); the pushing blocks (112) are arranged on the two guide frames (111) in a sliding mode, and the pushing blocks (112) are in sliding fit with the telescopic blocks (89);

the reset springs (1110) are arranged between the same side pushing block (112) and the same side guide frame (111), and the two reset springs (1110) are respectively sleeved on the same side guide frame (111);

the second guide rods (113) are arranged on one side of the bottoms of the two second supporting plates (72);

the sliding plates (114) are arranged on the two second guide rods (113) in a sliding mode, the sliding plates (114) are connected and matched with the first guide rods (108);

a fifth spring (115) is arranged between the same-side sliding plate (114) and the same-side guide block (107), and the two fifth springs (115) are respectively sleeved on the same-side first guide rod (108);

the second wire passing wheels (116) are rotatably arranged on two sides of the bottoms of the two second supporting plates (72);

the push rods (118) are arranged on one side of the bottoms of the two second supporting plates (72), and the push rods (118) are positioned on one side of the guide block (107);

the bottoms of the two exhaust valves (105) at the other side are respectively provided with a spring block (119), and the spring blocks (119) are in sliding fit with the push rod (118);

the second stay cord (117), all be equipped with second stay cord (117) between push block (112) and the two sliding plate (114) of homonymy between homonymy, second stay cord (117) wiring is on second wire passing wheel (116).

5. A wall tile laminating apparatus for construction according to claim 4, further comprising a moving mechanism (12), the moving mechanism (12) comprising:

one side of the ground rail (1) is provided with a moving block (121) in a sliding manner;

an expansion ruler (122), wherein one side of the moving block (121) is provided with the expansion ruler (122) in a sliding manner;

the fourth tightening block (123), the other side of the movable block (121) is provided with the fourth tightening block (123) in a threaded manner, and the fourth tightening block (123) is in threaded fit with the ground rail (1) at the front side;

the pressing block (124) is rotatably arranged on one side of the moving block (121) close to the telescopic ruler (122), and the pressing block (124) is in contact fit with the telescopic ruler (122);

a sixth spring (125), wherein the sixth spring (125) is arranged between the pressing block (124) and the moving block (121);

and a contact block (126), wherein one side of the roller (2) at one side is provided with the contact block (126), and the contact block (126) is in contact fit with the moving block (121).

6. A wall tile attaching device for building construction according to claim 1, wherein the front side ground rail (1) is provided with a chute.