CN113530156B - Method for laying horizontal floor tiles for house construction - Google Patents

Abstract

The application relates to a horizontal ground tile laying method for house construction, which comprises the following steps of cleaning the ground, laying tiles in one area every day, removing foreign matters or dust on the ground when laying tiles in one area, and spraying water mist on the ground for wetting; soaking the ceramic tiles in water, and soaking the ceramic tiles in water by using ceramic tile water soaking equipment while performing the step 1; the method comprises the following steps of (1) standard laying, namely laying a row of tiles and a row of tiles respectively, wherein one tile at the end part of each row of tiles and one tile at the end part of each row of tiles are the same tile, a space is reserved between every two adjacent tiles, and the tiles are knocked to be flat by a rubber hammer; laying tiles, namely, laying each tile in a flush manner corresponding to the similar tile; and (3) gap treatment, namely filling a gap between two adjacent ceramic tiles with a crack beautifying agent after the cement on the ceramic surface of the ceramic tile is dried and solidified, so that the effect of reducing the possibility of hollowing after the ceramic tile is laid is achieved.

Description

Method for laying horizontal floor tiles for house construction

Technical Field

The application relates to the field of house ground treatment, in particular to a horizontal ground tile laying method for house construction.

Background

The floor inside the house often can carry out laying of ceramic tile for pleasing to the eye, and the ceramic tile itself possesses better waterproof nature for drip is difficult in the kitchen to permeate ground, and thermal insulation performance is good, makes the heat in the house difficult and the heat of building concrete structure carry out a large amount of exchanges, so that the inside temperature of house is in a comparatively invariable value, makes the energy that air conditioning system consumed in the room obtain reducing. And the glazed tiles are mostly used.

The surface of orientation below when current ceramic tile is laid is the ceramic face, and there is more space in the ceramic face, when directly laying the ceramic tile, the ceramic face of ceramic tile can absorb more moisture in the cement as the binder, make cement there is the space after solidifying and ceramic tile ceramic face, the condition that leads to the ceramic tile hollowing appears, for this reason, often can pile up the ceramic tile before the ceramic tile is laid and put into to the basin and steep water, make the ceramic tile carry on the difficult moisture in a large amount of absorption cement of ceramic face when generally establishing.

To the correlation technique among the above-mentioned, the inventor thinks that when the ceramic tile carries out the bubble water, the ceramic tile that piles up makes the ceramic tile face can be by adjacent ceramic tile butt for the insufficient condition of bubble water probably appears in the ceramic tile, has the defect that the hollowing phenomenon appears after the ceramic tile is laid easily.

Disclosure of Invention

In order to reduce the possibility of hollowing after the tile is laid, the application provides a horizontal ground tile laying method for house construction.

The application provides a method for paving horizontal ground tiles for house construction, which adopts the following technical scheme:

a method for paving tiles on a horizontal ground for house construction specifically comprises the following steps.

Step 1, cleaning the ground, namely paving tiles in an area every day, removing foreign matters or dust on the ground when paving the tiles in the area, and spraying water mist on the ground for wetting;

step 2, soaking the ceramic tiles in water, and performing water soaking treatment on the ceramic tiles by using ceramic tile water soaking equipment while performing the step 1;

step 3, laying a row of tiles and a row of tiles, wherein one tile at the end part of each row of tiles and one tile at the end part of each row of tiles are the same tile, a space is reserved between every two adjacent tiles, and the tiles are knocked to be flat by using a rubber hammer;

step 4, paving ceramic tiles, namely, leveling and paving each ceramic tile corresponding to the similar ceramic tile;

step 5, gap treatment, namely filling a gap between two adjacent ceramic tiles with a gap beautifying agent after cement on the ceramic surface of the ceramic tile is dried and solidified;

Wherein, the ceramic tile soaking device comprises a water tank main body with water inside, a movable rod arranged on the water tank main body, a plurality of soaking plates which are arranged on the movable rod and are used for placing each ceramic tile in a one-to-one correspondence manner, a movable rod driving mechanism which is arranged on the water tank main body and drives the movable rod to move so as to enable the soaking plates to move into the water, the movable rod driving mechanism comprises a bottom block arranged on one side of the outer part of the water tank main body, a movable rod air cylinder which is arranged on the bottom block and drives the movable rod to enter the water of the water tank main body, a guide block arranged on the movable rod, and a guide rod which is arranged on the bottom block and penetrates through the guide block along the length direction of a power rod of the movable rod air cylinder, one side of the water tank main body is provided with a drying box which is provided with a plurality of transmission belts which are in one-to-one correspondence with each soaking plate, the bottom block is provided with a ceramic tile transferring mechanism which drives each soaking plate to move onto the corresponding transmission belt, the wiping box is internally provided with a transmission belt transmission mechanism which drives the transmission belts to transmit, the wiping box is internally provided with a sponge belt which corresponds to each transmission belt one by one and transmits, and the sponge belt can be attached to the surfaces of the ceramic tiles on the corresponding transmission belts.

By adopting the technical scheme, when water is soaked, a ceramic tile is placed on a water soaking plate, so that the ceramic surface of the ceramic tile can better absorb water, the ceramic tile can be fully soaked in water, the phenomenon of hollowing is not easy to occur after the ceramic tile is laid, water is not easy to seep from gaps among the ceramic tiles after a seam beautifying agent is filled, the indoor heat insulation effect of the whole ceramic tile can be improved, the moving rod cylinder drives the ceramic tile to move along the vertical direction, all the water soaking plates can move along the vertical direction and enter the water tank main body or move out of the water tank main body, meanwhile, the moving rod can stably move, the ceramic tile is conveyed into the water soaking box after being soaked in water, the water on the surface of the ceramic tile is wiped and dried by the sponge belt, so that the ceramic tile can be directly laid on the plastering surface after being conveyed out from the ceramic tile conveying belt, the water in the cement is not too much after the ceramic tiles are laid, and the situation that the cement is difficult to quickly condense or is infirm after the ceramic tiles are laid is reduced.

Optionally, the bubble water plate rotates to be connected in the carriage release lever, and ceramic tile transfer mechanism is including locating under the bottom piece and supplying the gliding slide rail of bottom piece, locate bottom piece one side and drive the carriage release lever towards the bottom cylinder that the dry case removed, the coaxial several bubble water plate sheave of locating the rotation point department of each bubble water plate, rotate and connect in the inside upper end sheave that just is located bubble water plate sheave top of carriage release lever, the transmission is connected in the bubble water plate belt of whole bubble water plate sheaves and upper end sheave, locate between water tank main part outer wall and the carriage release lever and drive upper end sheave pivoted sheave runner rotating assembly.

Through adopting above-mentioned technical scheme, the rotation of upper end sheave makes bubble water board belt transmission for whole bubble water board sheaves can be driven and rotate, makes whole bubble water board can be driven and carry out synchronous rotation, makes when bubble water board moves towards the transmission band, bubble water board rotates so that the ceramic tile falls from bubble water board and removes to the transmission band.

Optionally, the sheave rotating assembly includes a rod gear rotatably connected to the moving rod, a gear sheave coaxially arranged on the rod gear and rotatably connected to the inside of the moving rod, a lever upper sheave rotatably connected to the inside of the moving rod, a transmission belt drivingly connected to the gear sheave and the lever upper sheave, a water tank rack arranged on the outer wall of the water tank main body and engageable with the rod gear, and a synchronizing member arranged on the moving rod and allowing the upper sheave to rotate along with the rotation of the lever upper sheave, wherein the rod gear is located under the water tank rack.

Through adopting above-mentioned technical scheme, the carriage release lever shifts up and takes out the back with the board of steeping from the water tank main part, and the pole gear can mesh in the water tank rack, then when the carriage release lever moved towards the transmission band, the pole gear rotates because of meshing in the water tank rack for gear sheave, driving belt, pole upper sheave carry out the transmission, rotate with driving the board sheave of steeping through synchronizing part, need not set up extra power supply again so that the board of steeping rotates.

Optionally, the synchronizing part includes a worm coaxially disposed on the upper sheave of the rod, a worm wheel rotatably connected in the moving rod and meshed with the worm, a vertical bevel gear coaxially disposed on the worm wheel, and a flat bevel gear coaxially disposed on the upper sheave and meshed with the vertical bevel gear.

Through adopting above-mentioned technical scheme, the sheave drives the worm and rotates on the pole, and the worm drives the worm wheel and rotates, and the worm wheel drives vertical bevel gear and rotates, and vertical bevel gear drives the bevel gear that hangs down and rotates, and the bevel gear that hangs down drives bubble water board sheave and rotates to the setting up of worm wheel makes and drives the bubble water board at the carriage release lever and move down and get into to the aquatic of water tank main part after, the difficult random rotation of bubble water board, makes the ceramic tile keep steadily on the bubble water board.

Optionally, transmission band drive mechanism connects in wiping dry box and the array driving roller of each transmission band of one-to-one including rotating, locate and wipe dry box outer wall and make each group driving roller pivoted driving roller motor, rotate the pinch roller of connecting in wiping dry box and laminating each transmission band upper surface, rotate and connect in wiping dry box towards carriage release lever one side and the high roller of several of one-to-one transmission connection in each transmission band, the high roller height is higher than the height of a set of driving roller that same transmission band corresponds, the pinch roller is located and makes the transmission band be close to the carriage release lever one end and be the slope between high roller and the driving roller.

Through adopting above-mentioned technical scheme for when bubble water board upset made the ceramic tile gliding, the ceramic tile can stably fall to the slope conveying belt surface that forms between high roller and the close driving roller.

Optionally, the wiping box is rotatably connected with a plurality of groups of two wringing rollers one by one corresponding to each sponge belt, the sponge belts are driven between the two wringing rollers in the same group, and a water receiving block for receiving water squeezed out of the sponge belts is arranged under each group of wringing rollers.

Through adopting above-mentioned technical scheme for crowded water roller can be with the automatic extrusion of absorbent water in the sponge area, and water can drop to and be difficult for falling back again to the transmission belt in connecing the water piece.

Optionally, the water receiving blocks are inclined, all the water receiving blocks are located on the same vertical plane, the length of one end, exposed out of the wiping tank, of the lower water receiving block is longer, the water receiving tank is arranged right below one end, exposed out of the wiping tank, of the lowest water receiving block, and the water pump used for pumping water in the water receiving tank into the water tank body is communicated between the water receiving tank and the water tank body.

Through adopting above-mentioned technical scheme for during the water that connects in the water receiving piece that the position is high falls to the adjacent water receiving piece that the position is low, make water be difficult for from the eminence whereabouts, make water can comparatively stably fall into to the water receiving case, be difficult for appearing the outside that water falls to the water receiving case outward.

Optionally, one side of the wiping box, which is far away from the moving rod, is provided with a plurality of inclined connecting plates, each connecting plate corresponds to one transmission belt, one side of each connecting plate, which is far away from the corresponding transmission belt, is a low point, and one side of each connecting plate low point is provided with a rubber baffle.

Through adopting above-mentioned technical scheme for the ceramic tile can drop to the fishplate bar and receive blockking and difficult landing again of rubber baffle when falling down from the conveyer belt, need not the workman to notice the opportunity of ceramic tile from the conveyer belt whereabouts always, also makes the ceramic tile can carry out piling up of certain quantity on the fishplate bar.

In summary, the present application includes at least one of the following benefits:

1. when water is soaked, a ceramic tile is placed on a water soaking plate, so that the ceramic surface of the ceramic tile can better absorb water, the ceramic tile is fully soaked in water, the phenomenon of hollowing is not easy to occur after the ceramic tile is laid, water is not easy to seep down from gaps among the ceramic tile after the ceramic tile is filled with the crack beautifying agent, and the indoor heat preservation effect of the whole ceramic tile can be improved;

2. the worm and worm wheel is arranged so that the moving rod drives the water soaking plate to move downwards to enter water in the water tank main body, and the water soaking plate is not easy to rotate randomly, so that the ceramic tile can be kept stable on the water soaking plate.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present application;

FIG. 2 is a schematic cross-sectional view of the drying cabinet at the vertical lengthwise side facing away from the drive roller motor;

fig. 3 is a schematic view of the inside groove of the rod, with the closing block removed and the horizontal rod, the in-box rod and the out-box rod cut away toward one side of the drying box to better show the structure inside the rod.

Description of reference numerals: 1. a water tank main body; 11. a rubber baffle; 12. a horizontal bar; 13. an in-box rod; 14. an outside box rod; 15. a box end plate; 16. a rod inner groove; 17. a sealing block; 19. a water receiving tank; 2. a travel bar; 21. a driving roller; 22. a driving roller motor; 23. a pinch roller; 24. a high roll; 25. a water squeezing roller; 26. a water receiving block; 27. a water receiving tank; 28. a water pump; 29. connecting the plates; 3. a water soaking plate; 31. a lever gear; 32. a gear sheave; 33. a sheave on the rod; 34. a drive belt; 35. a water tank rack; 36. a worm; 37. a worm gear; 38. a vertical bevel gear; 39. a flat bevel gear; 4. a bottom block; 41. a moving rod cylinder; 42. a guide block; 43. a guide rod; 44. a drying box; 45. a conveyor belt; 46. a sponge band; 47. a slide rail; 48. a water soaking plate grooved wheel; 49. a water-soaking plate belt; 5. an upper end grooved wheel; 51. bottom piece cylinder.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a method for laying horizontal floor tiles for house construction, which specifically comprises the following steps:

step 1, cleaning the ground, namely paving tiles in one area every day, removing foreign matters or dust on the ground when paving the tiles in one area, and spraying water mist on the ground for wetting;

step 2, soaking the ceramic tiles in water, and performing water soaking treatment on the ceramic tiles by using ceramic tile water soaking equipment while performing the step 1;

step 3, laying a row of tiles and a row of tiles, wherein one tile at the end part of each row of tiles and one tile at the end part of each row of tiles are the same tile, a space is reserved between every two adjacent tiles, and the tiles are knocked to be flat by using a rubber hammer;

step 4, paving ceramic tiles, namely, leveling and paving each ceramic tile corresponding to the similar ceramic tile;

and 5, gap treatment, namely filling a gap between two adjacent ceramic tiles by using a gap beautifying agent after the cement on the ceramic surface of the ceramic tile is dried and solidified.

Referring to fig. 1, the tile water soaking device in step 2 comprises a water tank body 1 placed on the ground, and a certain amount of water is contained in the water tank body 1 for soaking tiles. Moving rod 2 is installed to 1 outer wall one side of water tank main part, moving rod 2 is including being located the horizon bar 12 directly over 1 vertical side of water tank main part, the close 1 vertical side of water tank main part of 12 length direction perpendicular to of horizon bar, 12 both ends of horizon bar are vertical incasement pole 13 and case outer pole 14 respectively fixedly connected with, incasement pole 13 is located 1 inner wall bottom surface of water tank main part directly over, when 13 removes the aquatic that gets into to water tank main part 1 along vertical direction in the incasement, case outer pole 14 is located 1 outsides of water tank main part.

Referring to fig. 1, the vertical side-mounting that pole 13 deviates from horizontal pole 12 in the case has several bubble water boards 3, bubble water board 3 can be made by oily nylon, and all bubble water boards 3 evenly arrange along vertical direction, and a ceramic tile is all placed to each 3 upper surfaces of bubble water board, and the ceramic surface of ceramic tile is towards last, and the highest 3 upper surfaces of bubble water board in position highly is less than the horizontal pole 12 lower surface height for whole ceramic tiles can be located the aquatic of water tank main body 1. 1 externally mounted of water tank main part has the carriage release lever drive mechanism that drives case outer pole 14 and remove so that bubble board 3 can the immigration aquatic, and carriage release lever drive mechanism is including installing bottom piece 4 under case outer pole 14, and 4 upper surfaces of bottom piece can be dismantled through the screw and be connected with carriage release lever cylinder 41, and carriage release lever cylinder 41 power pole is vertical, and carriage release lever cylinder 41 power pole fixed connection is in case outer pole 14 lower surfaces. The equal fixedly connected with guide block 42 in two relative vertical sides of case outer pole 14, two equal vertical directions of guide block 42 have closely cup jointed and are vertical guide bar 43, and two guide bar 43 bottom fixed connection are in 4 upper surfaces of bottom.

Referring to fig. 1, a drying box 44 is placed on the ground at one side of the cistern body 1, the vertical side of the cistern body 1 facing the drying box 44 is adjacent to the vertical side of the cistern body 1 facing the outside tank pole 14, the length direction of the drying box 44 is perpendicular to the vertical side of the cistern body 1 facing the drying box 44, and two ends of the drying box 44 in the length direction penetrate through. The wiping tank 44 is internally provided with a plurality of conveyor belts 45 which correspond to each soaking plate 3 one by one, and the soaked ceramic tiles are transferred to the conveyor belts 45 and conveyed in the wiping tank 44. A transmission belt transmission mechanism for driving the transmission belt 45 is arranged in the drying box 44.

Referring to fig. 1 and 2, the transmission belt transmission mechanism comprises a plurality of groups of transmission rollers 21 which are rotatably connected to the drying box 44, the axial direction of each transmission roller 21 is parallel to the width direction of the drying box 44, the heights of the two transmission rollers 21 in the same group are the same, all the transmission rollers 21 in the group are one-to-one corresponding to each transmission belt 45, each group of transmission rollers 21 is provided with two transmission rollers, and the two transmission rollers 21 in the same group are in rolling connection with the inner surface of one transmission belt 45. The outer surface of the wiping box 44 is detachably connected with a plurality of driving roller motors 22 through screws, and the output shaft of each driving roller motor 22 is coaxially and fixedly connected with one driving roller 21 in each group. The wiping box 44 is provided with a plurality of groups of box end plates 15 towards the vertical side face of the water tank main body 1 in an integrated forming mode, the box end plates 15 are inclined, one end, far away from the wiping box 44, of each box end plate 15 is the high point end of each box end plate 15, and all the box end plates 15 correspond to each transmission belt 45 one by one. Each group of box end plates 15 is provided with two high rollers 24, and each high roller 24 is connected to one corresponding transmission belt 45 in a rolling manner, wherein the high rollers 24 are connected between the high points of each group of two box end plates 15. The vertical inner wall of the wiping box 44 is rotatably connected with the pinch rollers 23 which are one-to-one corresponding to each transmission belt 45, the pinch rollers 23 are close to the water tank main body 1, two pinch rollers 23 are arranged on each group, the two pinch rollers 23 in the same group are in one-to-one correspondence and are respectively connected to two sides of the length direction of the outer upper surface of each transmission belt 45 in a rolling mode, and each transmission belt 45 is horizontally transmitted to the upper portion of the circumference of the corresponding group of transmission rollers 21 from the lower portion of the circumference of the corresponding group of pinch rollers 23. The spacing between the two pinch rollers 23 of the same set is much greater than the length of the side of the tile so that the tile does not easily touch the pinch rollers 23.

Referring to fig. 1, bottom block 4 is installed and is driven the ceramic tile of each bubble water board 3 and remove the ceramic tile transfer mechanism to on the corresponding transmission band 45, the ceramic tile transfer mechanism includes two slide rails 47 of fixed connection under bottom block 4, slide rail 47 length direction is on a parallel with wipe dry case 44 length direction, bottom block 4 is along slide rail 47 length direction sliding connection in two slide rails 47, bottom block 4 deviates from and wipes dry case 44 one side and installs bottom block cylinder 51, bottom block cylinder 51 power rod length direction is on a parallel with slide rail 47 length direction, bottom block cylinder 51 power rod fixed connection is in bottom block 4.

Referring to fig. 1 and 3, the water soaking plate 3 is rotatably connected to the in-box rod 13, the rotating plane of the water soaking plate 3 is vertical, and the length direction of the horizontal rod 12 is perpendicular to the rotating plane of the water soaking plate 3. The vertical side surfaces of the in-box rod 13, the horizontal rod 12 and the out-box rod 14, which are far away from the wiping box 44, are provided with the same rod inner groove 16, and the in-box rod 13, the horizontal rod 12 and the out-box rod 14 are detachably connected with the same sealing block 17 through screws. The inner wall of the rod inner groove 16 of the box inner rod 13 is rotatably connected with a plurality of water soaking plate grooved wheels 48, and all the water soaking plate grooved wheels 48 are coaxially and fixedly connected to the rotating point of each water soaking plate 3 in a one-to-one correspondence mode. The inner wall of the rod inner groove 16 of the box inner rod 13 is rotatably connected with an upper end grooved wheel 5, the upper end grooved wheel 5 is positioned right above all the water soaking plate grooved wheels 48, and the upper end grooved wheel 5 and all the water soaking plate grooved wheels 48 are in transmission connection with a same water soaking plate belt 49. A sheave rotating assembly which drives the upper sheave 5 to rotate is arranged between the outer wall of the water tank main body 1 and the tank outer rod 14.

Referring to fig. 1 and 3, the sheave rotating assembly includes a horizontal tank rack 35 fixedly connected to the tank main body 1, and the tank rack 35 is located on a vertical side of the tank main body 1 facing the tank outside lever 14. The outside tank lever 14 is rotatably connected with a lever gear 31 toward the vertical side of the water tank main body 1, the lever gear 31 is engaged with a water tank rack 35, and the lever gear 31 is located just below the water tank rack 35. The inner wall of the rod inner groove 16 of the outer box rod 14 is rotatably connected with a gear sheave 32, the gear sheave 32 is coaxially and fixedly connected with a rod gear 31, the inner wall of the rod inner groove 16 of the outer box rod 14 is rotatably connected with an upper rod sheave 33, the upper rod sheave 33 is positioned right above the gear sheave 32, a transmission belt 34 is connected between the upper rod sheave 33 and the gear sheave 32 in a transmission manner, and the horizontal rod 12 is provided with a synchronous part which enables the upper end sheave 5 to rotate along with the rotation of the upper rod sheave 33.

Referring to fig. 3, the synchronizing member includes a worm 36 coaxially and fixedly connected to the upper rod sheave 33, the worm 36 is engaged with a worm wheel 37 having a horizontal end surface, the worm wheel 37 is rotatably connected to an inner wall of the inner rod groove 16 of the horizontal rod 12, the worm wheel 37 is coaxially and fixedly connected with a vertical bevel gear 38, the vertical bevel gear 38 is engaged with a flat bevel gear 39, and the flat bevel gear 39 is coaxially and fixedly connected to the upper end sheave 5.

When the moving rod cylinder 41 drives the outside box rod 14 to move up in the vertical direction until the soaking plates 3 are all moved out of the inside of the water tank main body 1, the rod gear 31 is meshed with the water tank rack 35, then the bottom block cylinder 51 pushes the bottom block 4 to move towards the wiping tank 44, at this time, the rod gear 31 rotates, so that the gear sheave 32, the transmission belt 34, the rod upper sheave 33, the worm 36, the worm wheel 37, the vertical bevel gear 38, the flat bevel gear 39, the upper end sheave 5, the soaking plate belt 49 and the all soaking plate sheaves 48 operate in sequence, so that all the soaking plates 3 rotate while moving towards the wiping tank 44, and one end of the soaking plate 3 close to the wiping tank 44 moves downwards, so that tiles on the soaking plate 3 can fall onto a tilted section of the forward-moving adjacent transmission belt 45 along the tilted soaking plate, and are driven by the transmission belt 45.

Referring to fig. 2, a sponge belt 46 corresponding to each transmission band 45 is installed in the drying box 44, the sponge belt 46 is formed by adhering a layer of water-absorbing sponge to the outer surface of a common belt, the sponge belt 46 is located right above the corresponding transmission band 45, each sponge belt 46 is driven by a corresponding stepping motor and two rubber rollers to transmit, a tile is located between the sponge belt 46 and the transmission band 45 and moves through, the sponge belt 46 is attached to the ceramic surface of the tile, the horizontal section transmission direction of the surface of the sponge belt 46 attached to the tile is consistent with the direction in which the horizontal section of the transmission band 45 drives the tile to be transmitted, and the transmission speed of the sponge belt 46 is slightly faster than that of the transmission band 45. The wiping tank 44 is rotatably connected with a plurality of groups of wringing rollers 25 corresponding to each sponge belt 46 one by one, each sponge belt 46 passes through the space between two wringing rollers 25 in the same group, and the two wringing rollers 25 in the same group are tightly pressed against the sponge belt 46, so that water in the sponge belt 46 is squeezed out.

Referring to fig. 1 and 2, the inner wall of the drying box 44 is fixedly connected with a plurality of water receiving blocks 26 corresponding to each set of squeezing rollers 25, the water receiving blocks 26 are inclined, one end of each water receiving block 26 is exposed out of the drying box 44, one end of each water receiving block 26, which is located outside the drying box 44, is a low-point end, each water receiving block 26 is located under the same set of two squeezing rollers 25, a water receiving groove 19 is formed in the upper surface of each water receiving block 26, and the water receiving groove 19 penetrates through the end face, which is located at one end of each water receiving block 26 and exposed out of the drying box 44. The lower the height of the water receiving block 26, the longer the length of the end of the wiping tank 44 exposed outside, so that the water in the higher water receiving tank 19 flows into the adjacent lower water receiving tank 19. The water receiving tank 27 is arranged right below one end of the lowest water receiving block 26 exposed out of the wiping tank 44, the water receiving tank 27 is placed on the ground, the water receiving tank 27 is communicated with the water pump 28, the water outlet of the water pump 28 is communicated with the water tank body 1, and the water pump 28 sends water in the water receiving tank 27 into the water tank body 1.

Referring to fig. 1 and 2, the wiping box 44 is deviated from the several fishplates 29 that are the slope of opening part fixedly connected with of water tank body 1, all fishplates 29 one-to-one correspond to each transmission band 45, fishplate 29 keeps away from wiping box 44 one side and is low point one side, the height of fishplate 29 high point one side is slightly less than corresponding transmission band 45 upper surface height, the upper surface of fishplate 29 low point one side glues and is equipped with rubber baffle 11, make the ceramic tile that transmission band 45 carried can move to on fishplate 29 and receive stopping of rubber baffle 11, make the ceramic tile pile up on fishplate 29.

The implementation principle of the horizontal surface tile laying method for house construction in the embodiment of the application is as follows: place a ceramic tile on each bubble water board 3, then carriage release lever cylinder 41 makes bubble water board 3 move into to the aquatic of water tank main part 1 along vertical direction, make the ceramic tile bubble water, bubble water after a certain time, move up bubble water board 3, bottom block cylinder 51 makes bubble water board 3 remove and overturn towards transmission band 45 slope section, make the ceramic tile from bubble water board 3 go up landing to transmission band 45, then the ceramic tile removes to get into to between transmission band 45 and the sponge area 46 that corresponds, make the surface ponding of ceramic tile ceramic surface to be taken away by sponge area 46, then the ceramic tile drops and piles up on fishplate bar 29.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A method for paving horizontal floor tiles for house construction is characterized in that: the method specifically comprises the following steps:

step 1, cleaning the ground, namely paving tiles in one area every day, removing foreign matters or dust on the ground when paving the tiles in one area, and spraying water mist on the ground for wetting;

Step 2, soaking the ceramic tiles in water, and performing water soaking treatment on the ceramic tiles by using ceramic tile water soaking equipment while performing the step 1;

step 3, laying a row of tiles and a row of tiles, wherein one tile at the end part of each row of tiles and one tile at the end part of each row of tiles are the same tile, a space is reserved between every two adjacent tiles, and the tiles are knocked to be flat by using a rubber hammer;

step 4, paving ceramic tiles, namely, leveling and paving each ceramic tile corresponding to the similar ceramic tile;

step 5, gap treatment, namely filling a gap between two adjacent ceramic tiles with a gap beautifying agent after cement on the ceramic surface of the ceramic tile is dried and solidified;

wherein, the tile water soaking device comprises a water tank main body (1) with water inside, a moving rod (2) arranged on the water tank main body (1), a plurality of water soaking plates (3) arranged on the moving rod (2) and used for placing each tile, a moving rod driving mechanism which is arranged on the water tank main body (1) and drives the moving rod (2) to move so that the water soaking plates (3) can move into the water, the moving rod driving mechanism comprises a bottom block (4) arranged on one side of the outside of the water tank main body (1), a moving rod cylinder (41) arranged on the bottom block (4) and used for driving the moving rod (2) to enter the water tank main body (1) in the water, a guide block (42) arranged on the moving rod (2), a guide rod (43) arranged on the bottom block (4) and arranged on the guide block (42) along the length direction of a power rod of the moving rod cylinder (41), and a wiping box (44) arranged on one side of the water tank main body (1), wiping case (44) and being equipped with several transmission band (45) that the one-to-one corresponds to each bubble water board (3), bottom piece (4) are equipped with the ceramic tile transfer mechanism that drives the ceramic tile of each bubble water board (3) and remove to on corresponding transmission band (45), be equipped with in wiping case (44) and drive transmission band (45) and carry out driven transmission band drive mechanism, be equipped with in wiping case (44) one-to-one and carry out driven sponge area (46) each transmission band (45), sponge area (46) can laminate the ceramic tile surface on corresponding transmission band (45).

2. The method for laying tiles on a horizontal floor for house construction according to claim 1, wherein: bubble water board (3) are rotated and are connected in carriage release lever (2), ceramic tile shifts mechanism is including locating under bottom piece (4) and supplying bottom piece (4) gliding slide rail (47), locate bottom piece (4) one side and drive carriage release lever (2) towards bottom piece cylinder (51) of wiping case (44) removal, coaxial several bubble water board sheave (48) of locating the rotation point department of each bubble water board (3), rotate and connect in carriage release lever (2) inside and be located upper end sheave (5) of bubble water board sheave (48) top, transmission is connected in bubble water board belt (49) of whole bubble water board sheaves (48) and upper end sheave (5), locate between water tank main part (1) outer wall and carriage release lever (2) and drive upper end sheave (5) pivoted sheave runner rotating assembly.

3. The method for laying tiles on a horizontal floor for house construction according to claim 2, wherein: the sheave rotates the subassembly including rotating rod gear (31) of connecting in carriage release lever (2), coaxially locate rod gear (31) and rotate and connect in gear sheave (32) inside carriage release lever (2), rotate and connect in the inside pole of carriage release lever (2) on sheave (33), drive belt (34) of transmission connection in gear sheave (32) and pole on sheave (33), locate water tank main part (1) outer wall and can mesh in water tank rack (35) of rod gear (31), locate carriage release lever (2) and make upper end sheave (5) can be along with the pivoted synchronizing part with the rotation of pole on sheave (33), pole gear (31) are located under water tank rack (35).

4. The method for laying tiles on a horizontal floor for house construction according to claim 3, wherein: the synchronous component comprises a worm (36) coaxially arranged on the upper grooved wheel (33) of the rod, a worm wheel (37) which is rotatably connected in the movable rod (2) and meshed with the worm (36), a vertical bevel gear (38) coaxially arranged on the worm wheel (37), and a flat bevel gear (39) coaxially arranged on the upper grooved wheel (5) and meshed with the vertical bevel gear (38).

5. The method for laying tiles on a horizontal floor for house construction according to claim 1, wherein: transmission band drive mechanism connects in wiping dry case (44) and several group driving roller (21) of each transmission band (45) of one-to-one including rotating, locate and wipe dry case (44) outer wall and make each group driving roller (21) pivoted driving roller motor (22), rotate and connect in wiping dry case (44) and laminating each transmission band (45) upper surface pinch roller (23), rotate and connect in wiping dry case (44) towards carriage release lever (2) one side and the one-to-one transmission connects in several high roller (24) of each transmission band (45), high roller (24) highly are higher than the height of a set of driving roller (21) that same transmission band (45) corresponds, pinch roller (23) are located between high roller (24) and driving roller (21) and make transmission band (45) be close to carriage release lever (2) one end and are the slope.

6. The method for laying tiles on a horizontal floor for house construction according to claim 1, wherein: the wiping box (44) is rotatably connected with two wringing rollers (25) of multiple groups of two corresponding to each sponge belt (46), the sponge belts (46) are driven between the two wringing rollers (25) of the same group, and water receiving blocks (26) used for receiving water squeezed out of the sponge belts (46) are arranged under each group of wringing rollers (25).

7. The method for laying tiles on a horizontal floor for house construction according to claim 6, wherein: the water receiving blocks (26) are inclined, all the water receiving blocks (26) are located on the same vertical plane, the length of one end, exposed out of the wiping tank (44), of the lower water receiving block (26) is longer, a water receiving tank (27) is arranged right below one end, exposed out of the wiping tank (44), of the lowest water receiving block (26), and a water pump (28) used for pumping water in the water receiving tank (27) into the water tank body (1) is communicated between the water receiving tank (27) and the water tank body (1).

8. The method for laying tiles on a horizontal floor for house construction according to claim 1, wherein: one side of the wiping box (44) far away from the moving rod (2) is provided with a plurality of inclined connecting plates (29), each connecting plate (29) corresponds to one transmission belt (45), one side of each connecting plate (29) far away from the corresponding transmission belt (45) is a low point, and one side of the low point of each connecting plate (29) is provided with a rubber baffle (11).

Images