CN114278059A - Wall tile laminating device for construction - Google Patents

Abstract

The invention relates to a fitting device, in particular to a wall surface ceramic tile fitting device for building construction. The wall surface tile fitting device for building construction provided by the invention can prevent tiles from displacing in the fitting process, is small in size, does not occupy a large space, does not need manual carrying, is convenient to move, and reduces manual operation. For a wall ceramic tile laminating device for construction, include: the number of the ground rails is two, and the two ground rails are distributed in the front and back direction; the two sides of the top of the two ground rails are respectively rotatably provided with a roller, and the two rollers are symmetrically distributed in the front and back direction; the upper parts of the four rollers are provided with connecting frames; the supporting frames are arranged between the two connecting frames on the same side; the sliding block all is equipped with the sliding block in two support frames slidingtype. Has the advantages that: people can adjust the position of first layer board and second layer board according to the size of ceramic tile, so can be applicable to the ceramic tile of different specifications, can fix the ceramic tile moreover.

Description

Wall tile laminating device for construction

Technical Field

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

Background

Building construction is the production activity in engineering construction implementation stage, be with the various lines on the picture paper, in appointed place, become the real object, people are satisfying the temperature and are full back at present, just can begin to improve living environment, become more pleasing to the eye in order to let indoorly, secondly according to some waterproof requirements, need paste the ceramic tile to indoor, the area that the wall generally need the laminating ceramic tile is great, it can not appear the displacement phenomenon to be difficult to guarantee the ceramic tile at ceramic tile laminating in-process people, if the displacement phenomenon takes place for the ceramic tile laminating in-process, just can influence the pleasing to the eye of whole face wall, consequently more people select to use ceramic tile laminating device to laminate the ceramic tile. But current ceramic tile laminating device is in the use, need remove ceramic tile laminating device to appointed place earlier, but because current ceramic tile laminating device is bulky, the in-process of removal, can consume more manpower, in the use, need place the ceramic tile on the device through manual, then with ceramic tile laminating device circular telegram operation, the device can laminate ceramic tile and wall, then loosen the ceramic tile, at the in-process that loosens, need artifical appurtenance that uses to laminate ceramic tile and wall completely, supplementary completion tiling work, therefore, the laminating cost can increase, moreover, remove inconveniently, the area is big.

Therefore, a wall tile fitting device for building construction is needed, which can prevent the tile from displacing in the fitting process, has small volume, does not need manual carrying, is convenient to move and reduces manual operation.

Disclosure of Invention

In order to overcome the shortcoming that uses current ceramic tile laminating device, the laminating cost is higher, needs to consume the shortcoming of more manpower, the technical problem that solves: the utility model provides a can prevent that the ceramic tile from shifting in the laminating process, the volume is less, does not occupy great space, need not artifical manual transport, is convenient for remove, reduces manually operation's wall ceramic tile laminating device for construction.

The technical scheme of the invention is as follows: the utility model provides a wall ceramic tile laminating device for construction, includes:

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

the two sides of the top of the two ground rails are respectively rotatably provided with a roller, and the two rollers are symmetrically distributed in the front and back direction;

the upper parts of the four rollers are provided with connecting frames;

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

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

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

the top parts of the four brackets are provided with the material supporting mechanisms which can fix the ceramic tiles;

the turnover mechanisms are arranged on the two sliding blocks and are matched with the material supporting mechanism to assist the ceramic tiles to turn over and contact with the wall surface;

elevating system is equipped with elevating system between two support frame tops, and elevating system and tilting mechanism cooperate, can automize and drive the ceramic tile and go up and down.

Further, hold in the palm the material mechanism and include:

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

the second supporting plate is arranged at the top of each of the two brackets on the other side;

the bottom parts of the two first supporting plates and the two second supporting plates are respectively provided with a mounting 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 on one side in a threaded manner and is in threaded fit with the left telescopic bar;

the connecting rods are rotatably arranged at the bottoms of the two first supporting plates and the two second supporting plates;

and the second screwing block is arranged between two adjacent connecting rods in a threaded manner.

Further, the turnover mechanism includes:

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

the two sides of the bottom of the first fixing frame are provided with the top blocks;

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

the measuring scale is arranged on the outer sides of the two supporting frames and is in contact fit with the first fixing frame;

the two sliding blocks are respectively provided with a second fixing frame;

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 both provided with the support rods in a sliding manner;

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

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

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

the connecting rod, two die-pin tops all are equipped with the connecting rod, and the connecting rod is connected the cooperation with elevating system.

Further, the elevating mechanism includes:

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

the middle position of the top of the fixing plate is provided with a motor bracket;

the winding motor is arranged at the top of the motor support;

the two sides of the top of the fixing plate are respectively provided with a winding wheel in a rotating mode;

the winding machine comprises belt pulleys, a winding motor and a winding motor, wherein the belt pulleys are arranged on one sides of two winding wheels;

the transmission belts are respectively wound between the belt pulleys on the two winding wheels and the two belt pulleys on the output shaft of the winding motor;

the two sides of the fixed plate are respectively provided with a first wire passing wheel in a rotating mode;

first stay cord, all the wraparound has first stay cord on two take-up pulleys, and the other end of two first stay cords is connected respectively at homonymy connecting rod top, and first stay cord wraparound connects on first wire wheel.

Further, still including firm mechanism, firm mechanism includes:

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

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

the tops of the two first guide rods are provided with the suction disc frame;

the rubber suckers are arranged at the tops of the two sucker frames;

the air pump is arranged at the bottom of each of the two rubber suckers;

the air pressing rods are arranged on one inner sides of the two air pumps in a sliding manner;

the two sides of the bottoms of the two rubber suckers are provided with connecting blocks;

the two sides of the two rubber suckers are provided with exhaust valves in a sliding manner, the exhaust valves are positioned on the inner sides of the connecting blocks, and the exhaust valve on one side is communicated with the air pump;

and a fourth spring is arranged between the rubber sucker on the same side and the two exhaust valves, and the two fourth springs are sleeved on the exhaust valves on the same side respectively.

Further, still including pushing equipment, pushing equipment includes:

the guide frames are arranged on the outer sides of the bottoms of the two second supporting plates;

the two guide frames are both provided with a push block in a sliding manner, and the push block is in sliding fit with the telescopic block;

the two reset springs are respectively sleeved on the guide frames on the same side;

the second guide rods are arranged on one sides 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 fifth springs are arranged between the sliding plate on the same side and the guide block on the same side, and the two fifth springs are respectively sleeved on the first guide rod on the same side;

the two sides of the bottoms of the two second supporting plates are respectively and rotatably provided with a second wire passing wheel;

the push rods are arranged on one sides of the bottoms of the two second supporting plates and are positioned on one sides of the guide blocks;

the elastic blocks are arranged at the bottoms of the two exhaust valves on the other side and are in sliding fit with the push rod;

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

Further, still include moving mechanism, moving mechanism includes:

a moving block is slidably arranged on one side of the ground rail on one side;

one side of the moving block is provided with a telescopic ruler in a sliding way;

a 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;

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

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

contact piece, one of them side of the gyro wheel of one side is equipped with the contact piece, and the contact piece cooperates with the movable block contact.

Furthermore, the ground rail on the front side is provided with a sliding groove.

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 size of the ceramic tile, so that the ceramic tile fixing device can be suitable for ceramic tiles with different specifications and can fix the ceramic tile;

2. under the driving force of an output shaft of a winding motor, the first pull rope can be pulled or loosened through a series of transmission of a belt pulley, a winding wheel and a transmission belt, and then the sliding block is controlled to move up and down so as to be used for transporting tiles and turning the tiles;

3. the flexible piece promotes the ejector pad at the removal in-process, then through pulling second stay cord with the sliding plate jack-up that makes progress, and then makes the bullet piece rebound, through the cooperation of push rod under, and then stirs discharge valve downwards, realizes the function of disappointing to make the ceramic tile loosened, finally alright realize that supplementary ceramic tile breaks away from the contact with rubber suction cup, reduce manual operation.

4. Through the regulation about to the telescopic ruler, people can adjust according to the digit on the telescopic ruler, alright accurate measurement goes out the position that a lower ceramic tile need laminate, makes more accurate even of ceramic tile laminating, prevents that the gyro wheel from removing at will, influences the 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 view of a first partially assembled body structure of the material supporting mechanism of the present invention.

FIG. 4 is a schematic view of a second partial body structure 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 view of a first partial body structure of the turnover mechanism of the present invention.

Fig. 7 is a schematic view of a second partial structure 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 partial structure of the turnover mechanism of the present invention.

Fig. 10 is a schematic view of a first partially assembled body structure of the lifting mechanism of the present invention.

Fig. 11 is a schematic view of a second partial body structure of the lifting mechanism of the present invention.

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

Figure 13 is a schematic view of a partially cut-away perspective structure of the stabilization mechanism of the present invention.

Fig. 14 is a schematic view of a first partial body structure of the moving mechanism of the present invention.

Fig. 15 is a schematic view of a second partial body structure of the moving mechanism of the present invention.

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

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

A wall surface tile laminating device for building construction is disclosed, as shown in figure 1-figure 11, comprising ground rails 1, idler wheels 2, connecting frames 3, supporting frames 4, sliding blocks 5, brackets 6, material supporting mechanisms 7, turnover mechanisms 8 and lifting mechanisms 9, wherein the number of the ground rails 1 is two, the two ground rails 1 are distributed front and back, the idler wheels 2 are rotatably arranged on the left and right sides of the tops of the two ground rails 1, the two idler wheels 2 are symmetrically distributed front and back, the connecting frames 3 are arranged on the upper parts of the four idler wheels 2, the supporting frames 4 are arranged between the two connecting frames 3 from front to back, the sliding blocks 5 are arranged in the two supporting frames 4 in a sliding manner, the brackets 6 are arranged on the front and back sides of the two sliding blocks 5, the material supporting mechanisms 7 are arranged on the tops of the four brackets 6, the turnover mechanisms 8 are arranged on the two sliding blocks 5, the turnover mechanisms 8 are matched with the material supporting mechanisms 7, the lifting mechanisms 9 are arranged between the tops of the two supporting frames 4, the lifting mechanism 9 is matched with the turnover mechanism 8.

When the ceramic tiles are required to be assisted to be uniformly attached to the wall surface, firstly, people firstly place the ceramic tiles in the material supporting mechanism 7, the material supporting mechanism 7 is adjusted according to the size of the ceramic tiles, so that the ceramic tiles can be fixed by the material supporting mechanism 7, then people push the support frame 4 to drive the connecting frame 3 to move, the connecting frame 3 moves on the ground rail 1 through the roller 2, the device is driven to move to a proper position, people stop pushing the support frame 4 to stop the roller 2 to move, then the lifting mechanism 9 is started, the lifting mechanism 9 drives the turnover mechanism 8 to move upwards, the turnover mechanism 8 drives the material supporting mechanism 7 to move upwards, the material supporting mechanism 7 drives the ceramic tiles to move upwards, the material supporting mechanism 7 drives the material supporting mechanism 7 to turn over through the turnover mechanism 8 in the upward movement process, so that the material supporting mechanism 7 drives the ceramic tiles to be contacted with the wall surface, people alright utilize cement to laminate ceramic tile and wall after that, so repeatedly carry out the operation, alright evenly paste the ceramic tile to the wall, prevent the ceramic tile displacement, effectual control position to the ceramic tile, after the operation, close elevating system 9 can.

The material supporting mechanism 7 comprises a first supporting plate 71, a second supporting plate 72, a mounting block 73 and a loop bar 74, telescopic link 75, first piece 76 of screwing up, connecting rod 77 and the piece 78 of screwing up of second, first layer board 71 has all been placed at two brackets 6 tops of front side, second layer board 72 has all been placed at two brackets 6 tops of rear side, two first layer boards 71 all are equipped with installation piece 73 with two second layer board 72 bottoms, installation piece 73 rear side on first layer board 71 is equipped with loop bar 74, installation piece 73 front side on the second layer board 72 is equipped with telescopic link 75, telescopic link 75 and loop bar 74 sliding fit, the screw thread formula is equipped with first piece 76 of screwing up on the loop bar 74 of left side, first piece 76 of screwing up cooperates with left side telescopic link 75 screw thread formula, two first layer boards 71 and two equal rotary types in second layer board 72 bottom are equipped with connecting rod 77, all the screw thread formula is equipped with the piece 78 of screwing up of second between two adjacent connecting rod 77.

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 fix the ceramic tile better, firstly people rotate the first screwing block 76 to enable the first screwing block 76 to be separated from the 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 screwing block 78 to enable the second screwing block 78 to be separated from the contact with the connecting rod 77, people move the first supporting plate 71 and the second supporting plate 72 respectively to the outer sides to enable the connecting rod 77 to rotate, so as to adjust the 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 fit the ceramic tile according to the size of the ceramic tile, then move the first supporting plate 71 and the second supporting plate 72 respectively to the inner side and fit the ceramic tile, after with the ceramic tile chucking, people just in proper order the first piece 76 of screwing up of antiport and the piece 78 is screwed up to the second for first piece 76 of screwing up cooperates with 75 chucking of left side telescopic link, and the piece 78 is screwed up also to the second cooperates with connecting rod 77 chucking, finally alright fix the ceramic tile, prevents that the displacement phenomenon from appearing in the ceramic tile, and the control ceramic tile that can be better removes.

The turnover mechanism 8 comprises a first fixing frame 81, a top block 82, a third screwing block 83, a measuring scale 84, a contact frame 85, a second fixing frame 86, a support 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 support 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 screwing 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 scale 84 is arranged on the outer sides of the two support frames 4, the measuring scale 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 contact frame 85 is movably connected to the inner sides of the two second fixing frames 86, 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 support plate 72, the support rod 87 is arranged on the top parts of the two sliding blocks 5 in a sliding manner, all be equipped with second spring 811 between two adjacent die-pin 87 and two sliding blocks 5, two second springs 811 overlap respectively on die-pin 87, two inboard all slidingtype of die-pin 87 are equipped with flexible piece 89, flexible piece 89 and the cooperation of second layer board 72 contact, all be equipped with first spring 810 between two flexible pieces 89 of homonymy and two die-pin 87 of homonymy, two first springs 810 all overlap on homonymy flexible piece 89, two die-pin 87 tops all are equipped with connecting rod 88, connecting rod 88 is connected the cooperation with elevating system 9.

When the tile needs to be turned over, the second supporting plate 72 moves towards the left side and the right side to drive the contact frame 85 to move outwards along the second fixing frame 86, meanwhile, the second supporting plate 72 is in contact with the telescopic block 89, the telescopic block 89 moves outwards, the first spring 810 is compressed, after the tile is fixed, people rotate the third tightening block 83 to be separated from the measuring scale 84, then people move the first fixing frame 81 according to the height of the wall to be attached, the length of the wall surface can be accurately measured through the measuring scale 84, the first fixing frame 81 is convenient to adjust to move, after the tile is moved to a proper position, people reversely rotate the third tightening block 83 to enable the third tightening block 83 to be tightly matched with the measuring scale 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, so that the telescopic rod 75 drives the sleeve rod 74 and the first supporting plate 71 to move upwards, the first supporting plate 71 and the second supporting plate 72 drive the tile to move upwards, the contact frame 85 moves to be in contact 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 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 second supporting plate 72 is supported in the moving process of the telescopic block 89, the first supporting plate 71 and the second supporting plate 72 are caused to rotate to be vertical towards the upper side, so that the ceramic tile is vertical, the contact frame 85 rotates along with the ceramic tile, the second supporting plate 72 is vertical, the telescopic block 89 moves inwards to reset under the reset action of the first spring 810, the telescopic block 89 is positioned at the front side of the second supporting plate 72 at the moment, the second supporting plate 72 and the components on the second supporting plate can be limited under the limiting action between the telescopic block 89 and the first fixing frame 81, so that the ceramic tile can be kept in the vertical state, the ceramic tile is contacted with the wall surface, the ceramic tile is pasted on the wall surface by using cement, after the ceramic tile is pasted, when people start the lifting mechanism 9 to rotate reversely, the connecting rod 88 loses upward tension, 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 flexible piece 89 lapse and second layer board 72 separation, second layer board 72 is owing to lose flexible piece 89 to its spacing power this moment, consequently second layer board 72 and above-mentioned part are under the action of gravity, second layer board 72 and above-mentioned part are by preceding to downside swing and reset, and under sliding block 5 and above-mentioned part action of gravity, make sliding block 5 and above-mentioned part lapse reset, operation more than repeated, alright realize overturning the ceramic tile according to the assigned position, be convenient for carry out even laminating to the ceramic tile, after the operation, it can to close elevating system 9.

The lifting mechanism 9 comprises a fixing plate 91, a motor bracket 92, a winding motor 93, winding wheels 94, belt pulleys 95, a transmission belt 96, a first wire passing wheel 97 and a first pull rope 98, the fixing plate 91 is arranged between the upper parts of the two support frames 4, the motor bracket 92 is arranged at the middle position of the top part of the fixing plate 91, the winding motor 93 is arranged at the top part of the motor bracket 92, the winding wheels 94 are rotatably arranged at the left side and the right side of the top part of the fixing plate 91, the belt pulleys 95 are arranged at the rear sides of the two winding wheels 94, two belt pulleys 95 are arranged on the output shaft of the winding motor 93, the transmission belt 96 is respectively 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 wheels 97 are rotatably arranged at the left side and the right side of the fixing plate 91, the first pull rope 98 is wound on the two winding wheels 94, and the other ends of the two first pull ropes 98 are respectively connected to the top parts of the same side connecting rod 88, and the first rope 98 is wound around the first reel 97.

When the automatic tile lifting is required, the winding motor 93 is started, 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, the belt pulleys 95 on both sides drive the belt pulleys 95 to rotate, the belt pulleys 95 on both sides drive the winding wheel 94 to rotate, the winding wheel 94 rotates to tighten the first pull rope 98, so that the first pull rope 98 moves along the first wire passing wheel 97 and drives the first wire passing wheel 97 to rotate, the first wire passing wheel 97 rotates to assist the first pull rope 98 to move, the first pull rope 98 drives the connecting rod 88 to move upwards, the connecting rod 88 drives the support rod 87 to move upwards, the second spring 811 is stretched, the support rod 87 drives the support rod 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 support plate 72 to move upwards, the first supporting plate 71 moves upwards along with the first supporting plate 71, the first supporting plate 71 and the second supporting plate 72 drive the tiles to move upwards, when people start the winding motor 93 to rotate reversely, the output shaft of the winding motor 93 drives the belt pulley 95 to rotate reversely, the belt pulley 95 on the winding motor 93 drives the transmission belt 96 to operate, the transmission belt 96 drives the belt pulleys 95 on the two sides to rotate reversely, the belt pulleys 95 on the two sides drive the winding wheel 94 to rotate reversely, then the first pull rope 98 is loosened, under the reset action of the second spring 811, the support rod 87 drives the connecting rod 88 to reset downwards, along with the reset, the first supporting plate 71 and the second supporting plate 72 reset downwards, finally, automatic driving of the tiles to lift can be achieved, manual operation is reduced, and after the operation is finished, the winding motor 93 is turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 12, 13, 14 and 15, the fixing device 10 further includes a fixing mechanism 10, the fixing mechanism 10 includes a suction cup holder 101, rubber suction cups 102, air pumps 103, connecting blocks 104, an exhaust valve 105, air compressing rods 106, guide blocks 107, first guide rods 108 and fourth springs 109, the bottom of each of the two second support plates 72 is provided with a guide block 107, the inner sides of the two guide blocks 107 are both slidably provided with a first guide rod 108, the top of each of the two first guide rods 108 is provided with a suction cup holder 101, the top of each of the two suction cup holders 101 is provided with a rubber suction cup 102, the bottom of each of the two rubber suction cups 102 is provided with an air pump 103, the inner rear sides of the two air pumps 103 are both slidably provided with air compressing rods 106, the front and rear sides of the bottom of each of the two rubber suction cups 102 are both provided with connecting blocks 104, the front and rear sides of each of the two rubber suction cups 102 are both provided with an exhaust valve 105, the exhaust valve 105 is located inside the connecting blocks 104, the rear exhaust valve 105 is communicated with the air pump 103, fourth springs 109 are arranged between the rubber suction cup 102 on the same side and the two exhaust valves 105, and the two fourth springs 109 are sleeved on the exhaust valves 105 on the same side respectively.

When the ceramic tiles are required to be more stably attached, people place the ceramic tiles above the first supporting plate 71 and the second supporting plate 72, the ceramic tiles are located above the rubber suction cups 102, then people pull the air pressing rods 106 to move towards the rear side, then the air pump 103 is started, air in the rubber suction cups 102 enters the air pump 103 along the air exhaust valves 105, the rubber suction cups 102 adsorb the ceramic tiles, so that the ceramic tiles are fixed, then people push the air pressing rods 106 to move towards the front side, the air pressing rods 106 convey the air towards the front side, people can lay cement above the ceramic tiles, when the second supporting plate 72 drives the ceramic tiles to rotate, the second supporting plate 72 simultaneously drives the suction cup frame 101 and the rubber suction cups 102 to rotate, the ceramic tiles are in contact with the wall surface, then people pull the front side air exhaust valves 105, the fourth spring 109 is stretched, then the air is conveyed along the front side air exhaust valves 105, and the air is stored in the rubber suction cups 102, rubber suction cup 102 just breaks away from the contact with the ceramic tile, and the ceramic tile is laminated through cement and wall, and people just no longer exert force to front side discharge valve 105 thereupon, and under fourth spring 109's reset action, front side discharge valve 105 moves to the upslope and resets, so carry out the operation repeatedly, alright supplementary ceramic tile carries out the laminating that stabilizes more on the wall for the more even of ceramic tile laminating, after the operation, close air pump 103 can.

The device also comprises a pushing mechanism 11, the pushing 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 line passing wheel 116, a second pull rope 117, a push rod 118, an elastic block 119 and a return spring 1110, the guide frame 111 is arranged on the outer side of the bottom of each of the two second supporting plates 72, the push block 112 is arranged on each of the two guide frames 111 in a sliding manner, the push block 112 is in sliding fit with a telescopic block 89, the return springs 1110 are arranged between the push block 112 on the same side and the guide frame 111 on the same side, the two return springs 1110 are respectively sleeved on the guide frames 111 on the same side, the second guide rods 113 are arranged on the front sides of the bottoms of the two second supporting plates 72 in a sliding manner, the sliding plates 114 are arranged on the two second guide rods 113 in a sliding manner, the sliding plates 114 are in connection fit with the first guide rods 108, the fifth springs 115 are arranged between the sliding plates 114 on the same side and the guide blocks 107 on the same side, the first guide rods 108 are respectively sleeved on the same side, the second wire passing wheels 116 are rotatably arranged on the front side and the rear side of the bottoms of the two second supporting plates 72, push rods 118 are arranged on the front sides of the bottoms of the two second supporting plates 72, the push rods 118 are located on the front sides of the guide blocks 107, elastic blocks 119 are arranged at the bottoms of the two exhaust valves 105 on the front sides, the elastic blocks 119 are in sliding fit with the push rods 118, second pull ropes 117 are arranged between the push blocks 112 on the same side and the two sliding plates 114 on the same side, and the second pull ropes 117 are wound on the second wire passing wheels 116.

When the rubber suction cup 102 is required to be automatically separated from the 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 return spring 1110 is compressed, the push block 112 pulls the second pull rope 117 to move forwards along the second line passing wheel 116, the second pull rope 117 drives the second line passing wheel 116 to rotate, the second line 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 during the movement 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, and the rubber suction cup 102 can move upwards to assist the tile to rotate, the rubber suction cup 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 suction cup 102 continues to move upwards, the elastic block 119 and the front exhaust valve 105 are separated from the rubber suction cup 102, the fourth spring 109 is stretched, so that gas is conveyed along the through hole of the exhaust valve 105, the rubber suction cup 102 stores gas, the rubber suction cup 102 is separated from a tile, the tile is attached to a wall surface through cement, the telescopic block 89 moves to be not in contact with the push block 112, under the reset action of the reset spring 1110, the push block 112 drives the second pull rope 117 to move and reset towards the rear side along the second line passing wheel 116, the second pull rope 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 suction cup frame 101 to move and reset towards the lower side, suction cup frame 101 drives rubber suction cup 102 to move to the downside and reset, rubber suction cup 102 drives connecting block 104 and elastic block 119 to move to the downside and reset, elastic block 119 no longer contacts with push rod 118, under the reset action of fourth spring 109, elastic block 119 drives front side exhaust valve 105 to move to the upside, exhaust valve 105 contacts and cooperates with rubber suction cup 102, finally, the automation can be realized to ceramic tile and rubber suction cup 102 break away from the contact, manual operation is reduced.

The movable mechanism 12 comprises a movable block 121, a telescopic ruler 122, a fourth screwing block 123, a pressing block 124, a sixth spring 125 and a contact block 126, the front side of the ground rail 1 on the front side is provided with the movable block 121 in a sliding mode, the ground rail 1 on the front side is provided with a sliding groove, the movable block 121 is convenient to move, the left inner side of the movable block 121 is provided with the telescopic ruler 122 in a sliding mode, the right front side of the movable block 121 is provided with the fourth screwing block 123 in a threaded mode, the fourth screwing block 123 is in threaded fit with the ground rail 1 on the front side, the front left side of the movable block 121 is provided with the pressing block 124 in a rotating mode, the pressing block 124 is in contact fit with the telescopic ruler 122, the sixth spring 125 is arranged between the pressing block 124 and the movable block 121, the front side of the roller 2 on the front right side is provided with the contact block 126, and the contact block 126 is in contact fit with the movable block 121.

When the tile attaching length needs to be adjusted, firstly, people press the press block 124, the sixth spring 125 is compressed, the press block 124 is no longer in contact with the telescopic ruler 122, people pull the telescopic ruler 122 to move towards the left side along the moving block 121, adjust to the position where the next tile is attached according to the number on the telescopic ruler 122, move to a proper position, people no longer apply force to the press block 124, under the reset action of the sixth spring 125, the press block 124 reversely rotates to reset, the press block 124 clamps the telescopic ruler 122, then people push the support 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 where the next tile is attached along the ground rail 1, then people do not push the support frame 4 any more, then people rotate the fourth tightening block 123 to be separated from contact with the ground rail 1, then people pull the moving block 121 to move towards the left side, the moving block 121 drives the telescopic ruler 122 to move towards the left side, the movable block 121 moves to contact with the contact block 126, people stop pulling the movable block 121, and then people reversely rotate the fourth screwing block 123, so that the fourth screwing block 123 is in clamping fit with the ground rail 1, people can carry out tile fitting work therewith, so that the position of a next tile to be fitted can be accurately measured, the tile fitting position can be conveniently adjusted, the tile fitting is more accurate and uniform, the idler wheel 2 is prevented from moving randomly, and the tile fitting position is influenced.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims (8)

1. The utility model provides a wall ceramic tile laminating device for construction, characterized by includes:

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

the two sides of the tops of the two ground rails (1) are respectively rotatably provided with the idler wheels (2), and the two idler wheels (2) are symmetrically distributed in the front and back direction;

the upper parts of the four rollers (2) are provided with the connecting frames (3);

the supporting 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;

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

the material supporting mechanisms (7) are arranged at the tops of the four brackets (6) and can be used for fixing the ceramic tiles;

the turnover mechanisms (8) are arranged on the two sliding blocks (5), the turnover mechanisms (8) are matched with the material supporting mechanism (7) to assist the ceramic tiles to turn over and contact the wall surface;

elevating system (9), be equipped with elevating system (9) between two support frame (4) tops, elevating system (9) and tilting mechanism (8) cooperation can automize and drive the ceramic tile and go up and down.

2. A wall tile application device for building construction according to claim 1, wherein the material supporting mechanism (7) comprises:

the top parts of the two brackets (6) on one side of the first supporting plate (71) are respectively provided with the first supporting plate (71);

the second supporting plate (72) is placed at the top of each of the two brackets (6) on the other side;

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

the sleeve rod (74) is arranged on one side of the mounting block (73) on the first supporting plate (71);

the telescopic rod (75) is arranged on one side of the mounting block (73) on the second supporting plate (72), and the telescopic rod (75) is in sliding fit with the sleeve rod (74);

the first screwing block (76) is arranged on the loop bar (74) on one side in a threaded mode, and the first screwing block (76) is in threaded fit with the left side expansion bar (75);

the bottom parts of the two first supporting plates (71) and the two second supporting plates (72) are respectively and rotatably provided with a connecting rod (77);

and the second tightening blocks (78) are arranged between every two adjacent connecting rods (77) in a threaded manner.

3. A wall tile application apparatus for building operations as defined in claim 2, wherein 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;

the two sides of the bottom of the first fixing frame (81) are provided with the top blocks (82);

the third tightening block (83) is arranged on both sides of the upper part of the first fixing frame (81) in a threaded manner;

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

the two sliding blocks (5) are provided with a second fixed frame (86);

the inner sides of the two second fixed frames (86) are movably connected with contact frames (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 both provided with the support rods (87) in a sliding way;

the second springs (811) are arranged between the two adjacent support rods (87) and the 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 both provided with a telescopic block (89) in a sliding manner, and the telescopic blocks (89) are in contact fit with the second support plate (72);

the first springs (810) are arranged between the two telescopic blocks (89) on the same side and the two support 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 provided with connecting rods (88), and the connecting rods (88) are connected and matched with the lifting mechanism (9).

4. A wall tile application apparatus for building operations as defined in claim 3, wherein the lifting mechanism (9) comprises:

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

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

the winding motor (93) is mounted at the top of the motor support (92);

the winding wheel (94), the winding wheel (94) is rotationally arranged on both sides of the top of the fixing plate (91);

the winding machine comprises belt pulleys (95), wherein the belt pulleys (95) are arranged on one sides of two winding wheels (94), and the two belt pulleys (95) are arranged on an output shaft of a winding motor (93);

the transmission belts (96) are respectively wound and connected 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);

first stay cord (98), all around having connect first stay cord (98) on two reel (94), the other end of two first stay cords (98) is connected respectively at homonymy connecting rod (88) top, and first stay cord (98) around connecting on first line wheel (97).

5. A wall tile laminating device for building construction according to claim 4, characterized by further comprising a securing mechanism (10), the securing mechanism (10) comprising:

the guide blocks (107) are arranged at the bottoms of the two second supporting plates (72);

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

the tops of the two first guide rods (108) are provided with the suction disc frame (101);

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

the air pump (103) is arranged at the bottom of each of the two rubber suckers (102);

the air pressing rods (106) are arranged on one inner side of the two air pumps (103) in a sliding manner;

the two sides of the bottoms of the two rubber suckers (102) are respectively provided with a connecting block (104);

the two sides of the two rubber suckers (102) are both provided with the exhaust valve (105) in a sliding manner, the exhaust valve (105) is positioned on the inner side of the connecting block (104), and the exhaust valve (105) on one side is communicated with the air pump (103);

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

6. A wall tile fitting device for building construction according to claim 5, further comprising a pushing mechanism (11), wherein the pushing mechanism (11) comprises:

the guide frames (111) are arranged on the outer sides of the bottoms of the two second supporting plates (72);

the two guide frames (111) are both provided with the push block (112) in a sliding manner, and the push block (112) is in sliding fit with the telescopic block (89);

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

the second guide rods (113) are arranged on one sides 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, and the sliding plates (114) are connected and matched with the first guide rods (108);

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

the two sides of the bottoms of the two second supporting plates (72) are respectively and rotatably provided with a second wire passing wheel (116);

the push rods (118) are arranged on one sides of the bottoms of the two second supporting plates (72), and the push rods (118) are located on one sides of the guide blocks (107);

the bottom parts of the two exhaust valves (105) on the other side are respectively provided with an elastic block (119), and the elastic blocks (119) are in sliding fit with the push rod (118);

and a second pull rope (117) is arranged between the push block (112) on the same side and the two sliding plates (114) on the same side, and the second pull rope (117) is wound on a second wire passing wheel (116).

7. A wall tile fitting device for building construction according to claim 6 further comprising a moving mechanism (12), wherein the moving mechanism (12) comprises:

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

the telescopic ruler (122) is arranged on one side of the moving block (121) in a sliding mode;

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

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

the contact block (126) is arranged on one side of the contact block (126) and the roller (2) on one side, and the contact block (126) is in contact fit with the moving block (121).

8. A wall tile fixing device for building construction according to claim 1, wherein the front side ground rail (1) is provided with a sliding groove.

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