Horizontal ground ceramic tile laying device for house construction
Technical Field
The invention relates to the field of tile laying, in particular to a horizontal ground tile laying device for house construction.
Background
Tile laying is an operation of uniformly placing tiles.
Along with the continuous development of society, people's standard of living is also improving gradually, need give interior decoration good, in order to clean usually, need lay the ceramic tile on ground, traditional laying ceramic tile is all carried out by the manual work, in order to make laying stable, still need add the filler between ceramic tile and ground, because traditional filler is after the stirring, it is comparatively heavy, manual operation is inconvenient, intensity is big, and the weight of ceramic tile is also comparatively big, the ceramic tile of great area, still need carry out the extrusion of multiposition after the manual laying and beat, just can make fixed good, every ceramic tile is used for a long time, comparatively waste time, consequently in order to solve these problems, it is necessary to design a device of supplementary manual ceramic tile laying.
Disclosure of Invention
The invention aims to solve the problems and designs a horizontal floor tile laying device for house construction.
The technical scheme of the invention is that the horizontal ground tile laying device for house construction comprises a bearing base, wherein a tile laying mechanism is arranged on the upper surface of the bearing base, a supporting and moving mechanism is arranged on the lower surface of the bearing base, the tile laying mechanism mainly comprises a folding suspension bracket arranged on the upper surface of the bearing base, a strip-shaped through groove processed on the upper surface of the bearing base and positioned below the folding suspension bracket, a pair of horizontal support frames arranged on two sides in the strip-shaped through groove and extending out of the strip-shaped through groove, strip-shaped sliding grooves processed on the upper surface of each horizontal support frame, a tile bearing frame arranged in the strip-shaped through grooves, a sliding frame fixedly connected to the lower surface of the tile bearing frame and corresponding to the strip-shaped sliding grooves, a plurality of pairs of vertical expansion devices embedded on the lower surface of the folding suspension bracket and with downward expansion ends, a tile adsorption disc sleeved on the expansion, A hand push handle fixedly connected on the outer surface of the tile bearing frame, a strip-shaped interception frame fixedly connected at the center of the upper surface of the tile bearing frame, a material storage box body arranged on the upper surface of the folded suspension frame, a strip-shaped opening processed on the upper surface of the material storage box body, a strip-shaped shielding cover arranged in the strip-shaped opening, a pushing device arranged on the strip-shaped shielding cover and the telescopic end of which extends into the material storage box body, a squeezing pushing plug sleeved at the telescopic end of the pushing device and matched with the material storage box body, a pair of fixing nails arranged on the upper surface of the strip-shaped shielding cover and connected with the upper surface of the material storage box body, and two pairs of folded drainage pipes arranged at the lower ends of the two opposite side surfaces of the material, the rear surface of the folded suspension bracket is fixedly connected with a folded pushing handle, the folded pushing handle is provided with a starting switch group, the vertical telescopic device and the pushing device are electrically connected with the starting switch group through the corresponding single chip microcomputer.
The supporting and moving mechanism mainly comprises a pair of strip-shaped fixing blocks arranged at two ends of the lower surface of the bearing base, a pair of horizontal round rods arranged on the inner side surface of each strip-shaped fixing block, rolling wheels sleeved on each horizontal round rod, and limiting frames sleeved on the end faces of each horizontal round rod.
And the strip-shaped drainage head is arranged on the end face of each folded drainage pipe.
The folded drain pipe is positioned below the tile bearing frame.
Each horizontal support frame inboard surface all is equipped with a pair of with the screw that the inboard surface of bar logical groove is connected.
The ceramic tile bears the interior lower surface of frame and is located bar interception frame both sides and all processes and has excrete the through-hole, every it all inlays in the through-hole and is equipped with the interception screen cloth to excrete.
The fold-shaped pushing handle is connected with the fold-shaped suspension frame through the bearing frame.
And a fixed frame is arranged between each vertical telescopic device and the folded suspension frame.
The strip-shaped shielding cover is fixedly connected with a vertical handle on the upper surface and across the pushing device.
The utility model discloses a bearing base, start switch group, the side surface of bearing base inlays and is equipped with the commercial power interface, start switch group passes through wire and commercial power interface electric connection.
The horizontal surface tile laying device for house construction manufactured by the technical scheme of the invention is a device which is convenient for automatically adsorbing and laying tiles, has good laying performance, reduces labor intensity, is convenient for automatically filling gaps before laying and has good connection.
Drawings
FIG. 1 is a schematic structural view of a horizontal floor tile installation for house construction according to the present invention;
FIG. 2 is a rear view of a horizontal floor tile installation for housing construction according to the present invention;
FIG. 3 is a partial bottom view of a horizontal floor tile installation for housing construction according to the present invention;
FIG. 4 is a partial rear view of a horizontal floor tile installation for construction of a house according to the present invention;
in the figure, 1, a bearing base; 2. a fold-shaped suspension bracket; 3. a horizontal support frame; 4. a tile bearing frame; 5. a carriage; 6. a vertical telescopic device; 7. a ceramic tile adsorption disc; 8. pushing the handle by hand; 9. a bar-shaped intercepting frame; 10. a material storage box body; 11. a strip-shaped shielding cover; 12. a pushing device; 13. extruding the push plug; 14. fixing nails; 15. a folded drain tube; 16. a fold-shaped push handle; 17. starting a switch group; 18. a strip-shaped fixed block; 19. a horizontal round bar; 20. a rolling wheel; 21. a limiting frame; 22. a strip shaped drain head; 23. a screw; 24. intercepting a screen mesh; 25. a bearing frame; 26. a fixed mount; 27. a vertical handle; 28. and a mains supply interface.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-4, a horizontal floor tile laying device for house construction comprises a bearing base 1, a tile laying mechanism is arranged on the upper surface of the bearing base 1, a supporting and moving mechanism is arranged on the lower surface of the bearing base 1, and the tile laying mechanism mainly comprises a folding suspension frame 2 arranged on the upper surface of the bearing base 1, a strip-shaped through groove processed on the upper surface of the bearing base 1 and positioned below the folding suspension frame 2, a pair of horizontal support frames 3 arranged on two sides of the strip-shaped through groove and extending out of the strip-shaped through groove, a strip-shaped sliding groove processed on the upper surface of each horizontal support frame 3, a tile bearing frame 4 arranged in the strip-shaped through groove, a sliding frame 5 fixedly connected to the lower surface of the tile bearing frame 4 and corresponding to the strip-shaped sliding groove, and a plurality of pairs of vertical expansion devices 6 embedded, A tile adsorption disk 7 sheathed on the telescopic end of each vertical telescopic device 6, a hand push handle 8 fixedly connected on the outer surface of the tile bearing frame 4, a strip-shaped interception frame 9 fixedly connected at the center of the upper surface of the tile bearing frame 4, a material storage box body 10 arranged on the upper surface of the folded suspension frame 2, a strip-shaped opening processed on the upper surface of the material storage box body 10, a strip-shaped shielding cover 11 arranged in the strip-shaped opening, a pushing device 12 arranged on the strip-shaped shielding cover 11 and with the telescopic end extending into the material storage box body 10, an extrusion push plug 13 sheathed at the telescopic end of the pushing device 12 and matched with the material storage box body 10, a pair of fixing nails 14 arranged on the upper surface of the strip-shaped shielding cover 11 and connected with the upper surface of the material storage box body 10, and two pairs of folded drain pipes 15 arranged at the lower ends of two opposite side surfaces of the material storage box body 10, wherein the rear surface of the folded suspension frame 2 is, the folded push handle 16 is provided with a start switch group 17, and the vertical telescopic device 6 and the push device 12 are both electrically connected with the start switch group 17 through corresponding singlechips; the supporting and moving mechanism mainly comprises a pair of strip-shaped fixed blocks 18 arranged at two ends of the lower surface of the bearing base 1, a pair of horizontal round rods 19 arranged on the inner side surface of each strip-shaped fixed block 18, rolling wheels 20 sleeved on each horizontal round rod 19, and limiting frames 21 sleeved on the end surfaces of each horizontal round rod 19; a strip-shaped discharge head 22 on the end face of each folded discharge pipe 15; the folded drain pipe 15 is positioned below the tile bearing frame 4; the inner side surface of each horizontal support frame 3 is provided with a pair of screws 23 connected with the inner side surface of the strip-shaped through groove; drainage through holes are formed in the inner lower surface of the ceramic tile bearing frame 4 and located on two sides of the strip-shaped intercepting frame 9, and an intercepting screen 24 is embedded in each drainage through hole; the fold-shaped pushing handle 16 is connected with the fold-shaped suspension bracket 2 through a bearing bracket 25; a fixing frame 26 is arranged between each vertical telescopic device 6 and the folding suspension frame 2, a vertical handle 27 is fixedly connected to the upper surface of the strip-shaped shielding cover 11 and stretches across the pushing device 12, a mains supply interface 28 is embedded on the side surface of the bearing base 1, and the starting switch group 17 is electrically connected with the mains supply interface 28 through a lead.
The embodiment is characterized in that when the device is used, tiles to be used are uniformly placed on the upper surface of a tile bearing frame 4, when automatic laying is carried out, a hand-push handle 8 positioned on the rear surface of the tile bearing frame 4 is held by a hand, the tile bearing frame 4 is horizontally pushed on a pair of horizontal supporting frames 3 to the limit position of the front side, when the pushing is carried out, a sliding frame 5 connected with each horizontal supporting frame 3 slides in a corresponding strip-shaped sliding groove, when the position is reached, a plurality of vertical telescopic devices 6 positioned on the lower surface of a folded hanging frame 2 are vertically telescopic by pressing a corresponding starting switch in a starting switch group 17 positioned on a folded pushing handle 16, a tile adsorption disc 7 positioned on the telescopic end is contacted with the surface of the tile to adsorb upwards, and then the tile bearing frame 4 is pulled back, each vertical expansion device 6 is continuously pushed downwards to lap the ceramic tile and the ground, due to the plurality of vertical expansion devices 6, the force application part is convenient to increase, the fitting is good, wherein each vertical expansion device 6 is only used for providing expansion movement, the operation is repeated, the continuous tiling can be carried out, the strip-shaped intercepting frame 9 positioned at the inner center of the ceramic tile bearing frame 4 is convenient to divide columns, before the tiling is carried out, the pushing device 12 positioned on the upper surface of the strip-shaped shielding cover 11 is pushed downwards by pressing a corresponding starting switch to drive the extrusion pushing plug 13 positioned on the lower surface of the pushing end to downwards extrude the filling materials in the material storage box body 10 through the two pairs of folding drain pipes 15 on the side surface of the lower end, the filling materials are convenient to place when the ceramic tile contacts the ground, and the strip-shaped shielding cover 11 is connected with the material storage box body 10 through the fixing nails 14, the utility model provides a be convenient for dismantle and carry out the material loading, one kind is convenient for adsorb automatically and lays the ceramic tile, lays well, alleviates intensity of labour, is convenient for fill the space before laying automatically for connect good device.
In this embodiment, when using the device, the tiles to be used are uniformly placed on the upper surface of the tile bearing frame 4, when automatic laying is performed, a manual hand holds the push handle 8 on the rear surface of the tile bearing frame 4, the tile bearing frame 4 is horizontally pushed on the pair of horizontal supporting frames 3 to the limit of the front side, wherein when pushing, the sliding frame 5 connected with each horizontal supporting frame 3 is made to slide in the corresponding strip-shaped sliding groove, when reaching the position, the vertical expansion devices 6 on the lower surface of the folding suspension frame 2 are made to vertically expand by pressing the corresponding start switch in the start switch group 17 on the folding push handle 16, so that the tile adsorption tray 7 on the expansion end is contacted with the surface of the tile to adsorb upwards, and then the tile bearing frame 4 is pulled back, each vertical expansion device 6 is continuously pushed downwards to lap the ceramic tile and the ground, due to the plurality of vertical expansion devices 6, the force application part is convenient to increase, the fitting is good, wherein each vertical expansion device 6 is only used for providing expansion movement, the operation is repeated, the continuous tiling can be carried out, the strip-shaped intercepting frame 9 positioned at the inner center of the ceramic tile bearing frame 4 is convenient to divide columns, before the tiling is carried out, the pushing device 12 positioned on the upper surface of the strip-shaped shielding cover 11 is pushed downwards by pressing a corresponding starting switch to drive the extrusion pushing plug 13 positioned on the lower surface of the pushing end to downwards extrude the filling materials in the material storage box body 10 through the two pairs of folding drain pipes 15 on the side surface of the lower end, the filling materials are convenient to place when the ceramic tile contacts the ground, and the strip-shaped shielding cover 11 is connected with the material storage box body 10 through the fixing nails 14, the device is convenient to disassemble and load, wherein a pair of strip-shaped fixed blocks 18 are arranged at two ends of the lower surface of the bearing base 1 and used for supporting horizontal round rods 19, rolling wheels 20 arranged on each horizontal round rod 19 are convenient to roll on the horizontal round rods 19 under the pushing action, so that the device is moved, a limiting frame 21 arranged on the end surface of each horizontal round rod 19 is convenient to limit the rolling wheels 20, a strip-shaped excretion pair 22 arranged on the end surface of each folded excretion pipe 15 is convenient to have a large discharge area, the inner side surface of each horizontal support frame 3 is connected with the inner side of the bearing base 1 through a pair of screws 23 and is convenient to fix and reliable, a screen mesh interception 24 arranged on the inner lower surface of the ceramic tile 4 is convenient to intercept the bearing frame and is convenient to transmit dust, the dust is convenient to not accumulate, a bearing frame 25 arranged between the folded pushing handle 16 and the folded suspension frame 2 is convenient to bear the load and is stably connected, each of the vertical telescopic devices 6 is connected to the folding suspension bracket 2 through a fixing bracket 26, so as to be well fixed, wherein the vertical handle 27 is convenient for removing the strip-shaped shielding cover 11, and wherein the commercial power interface 28 on the side surface of the bearing base 1 is convenient for being connected to the commercial power outside, so as to provide power for the electrical components in the device, wherein the electrical connection is not described because it is not a protection content.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.