CN216921168U - Assembled integrated into one piece fast-assembling ground - Google Patents

Abstract

The utility model provides an assembled integrally-formed quick-mounting ground, and belongs to the technical field of ground mounting. The assembly type integrally-formed fast-assembly ground comprises a splicing structure, ceramic tiles, a calcium silicate board, a waterproof board, a floor drain, a filling block, a drain pipe and a lifting structure. According to the floor drain, the plurality of splicing structures are connected with one another, so that a bottom box frame is formed, the ceramic tile, the calcium silicate board and the waterproof board are connected to the bottom box frame respectively, the bottom box is guaranteed to have good waterproof performance and fireproof performance, the floor drain is pre-installed, hole sites do not need to be opened at the follow-up stage, the accuracy of the installation position of the floor drain is guaranteed, the installation efficiency of the whole bottom box is improved, the ceramic tile is fixed when the filling blocks are installed, the operation of paving and pasting the ceramic tile during installation is not needed, direct installation can be achieved, manpower is saved, the efficiency is improved, the height of the waterproof board can be adjusted through the lifting structure, the gradient of the bottom box is adjusted, the slope of the bottom box is made to be self-provided, the cost is saved, and the installation is convenient.

Description

Assembled integrated into one piece fast-assembling ground

Technical Field

The utility model relates to the technical field of ground installation, in particular to an assembled integrally-formed quick-mounting ground.

Background

The traditional practice in bathroom all is that use cement mortar to carry out wet process operation, and ground operation not only need brush waterproof still need make level, and whole maintenance cycle is longer, consumes a large amount of manpower and material resources, still need backfill when falling the board installation if needing, and the process is loaded down with trivial details. When the toilet is operated on the ground, a waterproof bottom box is generally laid on the ground, and a floor drain is installed on the waterproof bottom box.

Chinese patent CN212689467U, publication No. 2021-3-12 disclose a waterproof bottom case assembly, comprising a first waterproof bottom case and a second waterproof bottom case, wherein: the first waterproof bottom box comprises a first bottom plate and a first surrounding edge which are connected, a first opening is formed in one side of the first surrounding edge, the first bottom plate comprises a first side face at the first opening, and a clamping and connecting plate is arranged on the first side face; the second waterproof bottom box comprises a second bottom plate and a second surrounding edge which are connected, a second opening is formed in one side of the second surrounding edge, the second bottom plate comprises a second side face at the second opening, and a clamping groove is formed in the second side face; first opening and second opening dock mutually, and the joint board extends the joint and advances the joint inslot, and first side and second side are laminated the butt mutually to box splice at the bottom of making first waterproof and the waterproof end box of second mutually. The waterproof bottom box assembly provided by the prior art can be used for producing waterproof bottom boxes with various area sizes, and the installation requirements of users are met. After the waterproof bottom box in the patent is assembled, when the waterproof bottom box is applied to the ground operation of a toilet, a hole for installing the floor drain needs to be formed in the waterproof bottom box, the accuracy of the installation position of the floor drain cannot be guaranteed, and the installation efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an assembled integrally-formed quick-mounting floor aiming at the defects of the prior art.

The utility model provides an assembled integrally-formed fast-assembled floor which comprises splicing structures, ceramic tiles, calcium silicate boards, waterproof boards, floor drains, filling blocks, drain pipes and lifting structures, wherein the splicing structures are connected with one another to form a bottom box frame, the ceramic tiles are connected to the middle of the side end of the bottom box frame, the calcium silicate boards are connected to the middle of the side end of the bottom box frame, the waterproof boards are connected to the bottom of the side end of the bottom box frame, the top ends of the waterproof boards abut against the bottom ends of the calcium silicate boards, the calcium silicate boards are located below the ceramic tiles, a containing groove is formed between the ceramic tiles and the calcium silicate boards, a first fixing through hole is formed in one ceramic tile, a second fixing through hole is formed in one calcium silicate board, a third fixing through hole is formed in one waterproof board, one end of the floor drains is sequentially inserted into the first fixing through hole, penetrates through the containing groove and is inserted into the second fixing through hole, The lifting structure is connected to the bottom of the waterproof board through the filling block.

Further, the bottom box frame comprises a water bar, a dry area frame located in the dry area, and a wet area frame located in the wet area, the wet area frame is connected to the dry area frame, one end of the water bar is installed on the dry area frame and connected to the top of one side end of the wet area frame, and the other end of the water bar is installed on the wet area frame and connected to the top of one side end of the dry area frame.

Further, elevation structure is including setting up in a plurality of screw thread portions of waterproof board bottom, spiro union in the regulation foot of screw thread portion, adjust the foot and be fixed in subaerially.

Further, be equipped with right angle corner portion on the end box frame, mosaic structure one end is equipped with first rake, first rake is the slope setting with mosaic structure's long limit, forms during two adjacent mosaic structure's first rake butt right angle corner portion.

Further, mosaic structure includes first backup pad, first connecting plate, first fixed plate, first connecting plate both ends are connected respectively in first backup pad, first fixed plate, and a plurality of mosaic structure's first backup pad interconnect is in order to form end box frame, the side of ceramic tile connect in last first fixed plate of mosaic structure.

Further, mosaic structure still includes and is used for carrying out spacing first limiting plate for calcium silicate board top, first limiting plate is connected in first backup pad, first limiting plate is located first connecting plate lower extreme.

Further, the splicing structure further comprises a reinforcing plate for enhancing the strength of the first connecting plate, and the reinforcing plate is connected to the middle of the first connecting plate.

Further, the first fixing plate is parallel to the first support plate.

Further, the bottom box frame further comprises a threshold stone, and the threshold stone is connected to the top of one side end of the dry area frame, which is far away from the wet area frame.

Further, the first limiting plate is parallel to the first connecting plate.

The assembled integrally-formed quick-mounting ground has the following beneficial effects:

through with a plurality of mosaic structure interconnect, thereby form end box frame, respectively with the ceramic tile, calcium silicate board, the waterproof board is connected on end box frame, thereby guarantee that end box has better waterproof performance, fire behavior, the floor drain is installed in advance, need not in follow-up hole site of opening again, the accuracy of floor drain installation site location has been guaranteed, improve the installation effectiveness of whole end box, the ceramic tile has been fixed when the installation filling block, need not to spread the operation of pasting the ceramic tile again when the installation, but direct mount, the manpower is practiced thrift, the lifting efficiency, can adjust the height of waterproof board through elevation structure, and then realize adjusting the height of ceramic tile, adjust the slope of end box, make end box from taking the slope, need not to look for the slope again after the installation, and save the cost, and it is convenient to install.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the utility model. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a schematic structural diagram of an assembled integrally-formed quick-installation floor according to an embodiment of the present invention;

FIG. 2 is a front view of an assembled integrally formed package floor according to an embodiment of the present invention;

FIG. 3 is a front view of a splicing structure in an assembled integrally-formed quick-install ground according to an embodiment of the utility model;

fig. 4 is a side view of a splicing structure in a fabricated integrally-formed quick-installation ground according to an embodiment of the utility model.

In the figure: 81-splice structure, 811-first support plate, 812-first fixing plate, 813-first connecting plate, 814-first limiting plate, 815-reinforcing plate, 816-first inclined part, 82-ceramic tile, 83-floor drain, 84-threshold stone, 85-water bar, 86-calcium silicate board, 87-waterproof board, 881-screw thread part, 882-adjusting foot, 89-filling block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Please refer to fig. 1 to 4. The utility model discloses an assembled integrally-formed fast-assembling ground, which comprises splicing structures 81, ceramic tiles 82, calcium silicate boards 86, waterproof boards 87, floor drains 83, filling blocks 89, water discharging pipes and lifting structures, wherein the splicing structures 81 are connected with one another to form a bottom box frame, the ceramic tiles 82 are connected to the middle parts of the side ends of the bottom box frame, the calcium silicate boards 86 are connected to the middle parts of the side ends of the bottom box frame, the waterproof boards 87 are connected to the bottoms of the side ends of the bottom box frame, the top ends of the waterproof boards 87 abut against the bottom ends of the calcium silicate boards 86, the calcium silicate boards 86 are positioned below the ceramic tiles 82, an accommodating groove is formed between each ceramic tile 82 and each calcium silicate board 86, a first fixing through hole is formed in each ceramic tile 82, a second fixing through hole is formed in each calcium silicate board 86, a third fixing through hole is formed in each waterproof board 87, one end of each floor drain 83 is sequentially inserted into the first fixing through hole, penetrates through the accommodating groove and is inserted into the second fixing through hole, And the water outlet pipe is inserted into the third fixing through hole, one end of the water outlet pipe is connected to one end of the floor drain 83 protruding out of the bottom of the waterproof board 87, the filling block 89 is filled in the accommodating groove, and the lifting structure is connected to the bottom of the waterproof board 87.

Here, through with a plurality of mosaic structures 81 interconnect, thereby form end box frame, connect ceramic tile 82 respectively, calcium silicate board 86, waterproof board 87 on end box frame, thereby guarantee that end box has better waterproof performance, fire behavior, floor drain 83 is installed in advance, need not in follow-up hole site of opening again, the accuracy of floor drain 83 erection site has been guaranteed, improve the installation effectiveness of whole end box, ceramic tile 82 has been fixed when installation filling block 89, need not to spread the operation of pasting ceramic tile 82 again when the installation, can directly install, the manpower is saved, and the lifting efficiency can adjust the height of waterproof board 87 through elevation structure, and then realize adjusting the height of ceramic tile 82, adjust the slope of end box, make end box from taking the slope, need not to look for the slope again after the installation, and save the cost, and it is convenient to install. The side ends of the ceramic tiles 82 are respectively connected to the middle of the side end of the frame of the bottom box, the side ends of the calcium silicate plates 86 are respectively connected to the middle of the side end of the frame of the bottom box, the side ends of the waterproof plates 87 are respectively connected to the bottom of the side end of the frame of the bottom box, and the top ends of the waterproof plates 87 are respectively abutted to the bottom ends of the calcium silicate plates 86.

The end box frame can include water bar 85, be located the dry district frame in dry district, be located the wet district frame in wet district, and wet district frame is connected in dry district frame, and water bar 85 one end is installed and is connected in one side end top of wet district frame, the other end and install and connect in one side end top of dry district frame on wet district frame on dry district frame. The bottom box can be made by the frame of the bottom box, the ceramic tile 82, the calcium silicate board 86 and the waterproof board 87. Through dry district frame, ceramic tile 82, calcium silicate board 86, the box at the bottom of dry district can be made to waterproof board 87, through wet district frame, ceramic tile 82, calcium silicate board 86, the box at the bottom of wet district can be made to waterproof board 87, box and the box back of making at the bottom of wet district at the bottom of dry district, the box at the bottom of one side of box and the wet district at the bottom of will dry district forms whole end box with one side end concatenation of box, thereby realize the preparation separately of end box in dry wet district, the waterproof performance of whole bathroom of assurance that can be better, connect the both ends of breakwater 85 in a side of dry frame and a side end of wet district frame respectively, realize installing breakwater 85 in the overlap joint of box at the bottom of dry wet district.

The lifting structure may include a plurality of screw portions 881 provided at the bottom of the waterproof board 87, and an adjustment foot 882 screw-coupled to the screw portions 881, and the adjustment foot 882 is fixed on the ground. The threaded portion 881 may include a mounting plate fixed to the bottom of the waterproof board 87 and a screw fixed to the bottom of the mounting plate, and the top of the adjusting foot 882 is provided with a threaded groove to which the screw is screwed.

Can be equipped with right angle corner portion on the end box frame, mosaic structure 81 one end is equipped with first slope 816, and first slope 816 is the slope setting with mosaic structure 81's long limit, forms right angle corner portion when the first slope 816 butt of two adjacent mosaic structure 81. Mosaic structure 81 can cut as required at will, and the size is unrestricted, and the size of whole end box also can be customized at will, and the commonality is higher. The angle between the first inclined part 816 and the long side of the splicing structure 81 can be 45 degrees, which facilitates the mutual splicing of two adjacent splicing structures 81.

The splicing structure 81 can include a first supporting plate 811, a first connecting plate 813 and a first fixing plate 812, wherein two ends of the first connecting plate 813 are respectively connected to the first supporting plate 811 and the first fixing plate 812, the first supporting plates 811 of the splicing structures 81 are connected to each other to form a bottom box frame, and the side ends of the ceramic tiles 82 are connected to the first fixing plate 812 on the splicing structure 81. A plurality of mosaic structure 81 interconnect becomes end box frame, reduces work load.

The splicing structure 81 may further include a first limiting plate 814 for limiting the top end of the calcium silicate plate 86, the first limiting plate 814 is connected to the first supporting plate 811, and the first limiting plate 814 is located at the lower end of the first connecting plate 813.

The splice structure 81 can further include a reinforcement plate 815 to reinforce the strength of the first connector plate 813, the reinforcement plate 815 being attached to the middle of the first connector plate 813. The stiffener 815 may be an inverted T-shaped stiffener 815.

The first fixing plate 812 may be parallel to the first support plate 811. The axis of the first connection plate 813 may be perpendicular to the first support plate 811. A clamping groove is formed by surrounding the first fixing plate 812, the first connecting plate 813 and the first supporting plate 811, and the wallboard can be clamped in the clamping groove.

The bottom box border may further include a threshold stone 84, and the threshold stone 84 is connected to the top of one side end of the dry area border, which is far away from the wet area border.

The first limiting plate 814 may be parallel to the first connecting plate 813.

An installation method of an assembled integrally-formed fast-assembling ground comprises the following steps:

s1: connecting a plurality of the splicing structures 81 to each other to form a back box frame;

s2: connecting the ceramic tile 82 to the middle part of the side end of the frame of the bottom box, connecting the calcium silicate board 86 to the middle part of the side end of the frame of the bottom box, connecting the waterproof board 87 to the bottom part of the side end of the frame of the bottom box, wherein the top end of the waterproof board 87 abuts against the bottom end of the calcium silicate board 86, and the calcium silicate board 86 is positioned below the ceramic tile 82;

s3: one end of a floor drain 83 is sequentially inserted into a first fixing through hole in the ceramic tile 82, penetrates through a containing groove between the ceramic tile 82 and the calcium silicate plate 86, is inserted into a second fixing through hole in the calcium silicate plate 86, is inserted into a third fixing through hole in the waterproof plate 87, and is connected to one end, protruding out of the bottom of the waterproof plate 87, of the floor drain 83;

s4: filling the filling block 89 into the accommodating groove;

s5: the top end of the lifting structure is connected to the bottom of the flashing 87.

Preparing materials, namely cutting one end of the splicing structure 81 at 45 degrees according to the required size to form a first inclined part 816 at one end of the splicing structure 81, welding the first inclined parts 816 of two adjacent splicing structures 81 together to form a bottom box frame, and thus forming a bottom frame shape; pre-perforating treatment for installing the floor drain 83 is carried out on the ceramic tile 82, the calcium silicate plate 86 and the waterproof plate 87 at the corresponding positions according to the deepened positions; the whole spliced bottom box frame is reversely buckled on the ground, the ceramic tiles 82 are laid and fixed according to the required thickness of the bottom box frame, and meanwhile, the reverse side of the floor drain 83 is fixed at a corresponding position; firstly, paving and fixing the calcium silicate boards 86 on the back surface of the frame of the bottom box, and sequentially paving all the calcium silicate boards 86; paving and pasting waterproof boards 87 on the calcium silicate boards 86 and fixing the waterproof boards, and paving and fixing all the waterproof boards 87 in sequence; turning over the mounted frame of the bottom box to enable the front side of the frame of the bottom box to face upwards, then forming a small hole in any splicing structure 81, and filling a filling block 89 in a containing groove between the ceramic tile 82 and the calcium silicate board 86; after waiting for a period of time, the filler is completely cured, and one end of the drain pipe is connected to one end of the floor drain 83; the bottom boxes in the dry and wet area can be manufactured separately and finally assembled; mounting a water retaining strip 85 at the splicing position of the bottom boxes of the dry area and the wet area, and mounting doorsill stones 84 on the bottom boxes of the dry area; adjusting feet 882 are installed on the original ground according to the arrangement of the drain pipes, the whole bottom box is connected to the adjusting feet 882, and the installation is completed. The plurality of splicing structures 81 can integrally form the whole bottom box, so that the workload is reduced; the whole bottom box is provided with a slope, so that the slope is not required to be found after installation, and the cost is saved; when the whole bottom box frame is formed, the floor drain 83 is pre-installed, and hole sites do not need to be opened subsequently, so that the accuracy of the installation point position of the floor drain 83 is ensured, and the installation efficiency of the whole bottom box is improved; the ceramic tiles 82 are fixed when the frame of the bottom box is filled, the operation of paving the ceramic tiles 82 is not needed during installation, the ceramic tiles can be directly installed, labor is saved, and efficiency is improved; the splicing structure 81 can be cut at will according to needs, the size is not limited, the size of the bottom box can be customized at will, and the universality is higher; the bottom box of the dry-wet area can be manufactured separately, so that the waterproof performance of the whole toilet can be better ensured; the clamping groove in the splicing structure 81 can be used for well mounting the wall plate, so that the wall plate can be mounted more conveniently.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It should be noted that in the description of the present application, the terms "upper end", "lower end" and "bottom end" indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which the product of the application is conventionally placed in use, and are used only for convenience of describing the present application and for simplicity of description, and do not indicate or imply that the device referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides an assembled integrated into one piece fast-assembling ground which characterized in that: comprises a splicing structure (81), a ceramic tile (82), a calcium silicate board (86), a waterproof board (87), a floor drain (83), a filling block (89), a drain pipe and a lifting structure, wherein the splicing structure (81) is connected with each other to form a bottom box frame, the ceramic tile (82) is connected with the middle part of the side end of the bottom box frame, the calcium silicate board (86) is connected with the middle part of the side end of the bottom box frame, the waterproof board (87) is connected with the bottom part of the side end of the bottom box frame, the top end of the waterproof board (87) is abutted against the bottom end of the calcium silicate board (86), the calcium silicate board (86) is positioned below the ceramic tile (82), a containing groove is arranged between the ceramic tile (82) and the calcium silicate board (86), one is provided with a first fixing through hole, one is provided with a second fixing through hole, one is provided with a third fixing through hole on the waterproof board (87), one end of the floor drain (83) is sequentially inserted into the first fixing through hole, penetrates through the containing groove, is inserted into the second fixing through hole and is inserted into the third fixing through hole, one end of the drain pipe is connected to one end, protruding out of the bottom of the waterproof plate (87), of the floor drain (83), the filling block (89) is filled in the containing groove, and the lifting structure is connected to the bottom of the waterproof plate (87).

2. The assembled integrally-formed quick-mounting floor as claimed in claim 1, wherein: the bottom box frame comprises a water retaining strip (85), a dry area frame located in a dry area and a wet area frame located in a wet area, the wet area frame is connected to the dry area frame, one end of the water retaining strip (85) is installed on the dry area frame and connected to the top of one side end of the wet area frame, and the other end of the water retaining strip is installed on the wet area frame and connected to the top of one side end of the dry area frame.

3. An assembled one-piece formed floor as claimed in claim 1 or 2, wherein: the lifting structure comprises a plurality of threaded portions (881) arranged at the bottom of the waterproof board (87) and adjusting feet (882) screwed on the threaded portions (881), and the adjusting feet (882) are fixed on the ground.

4. An assembled one-piece formed floor as claimed in claim 1 or 2, wherein: be equipped with right angle corner portion on the end box frame, mosaic structure (81) one end is equipped with first rake (816), first rake (816) is the slope setting with the long limit of mosaic structure (81), forms during first rake (816) butt of two adjacent mosaic structure (81) right angle corner portion.

5. The assembled integrally-formed quick-mounting floor as claimed in claim 4, wherein: mosaic structure (81) include first backup pad (811), first connecting plate (813), first fixed plate (812), first connecting plate (813) both ends are connected respectively in first backup pad (811), first fixed plate (812), and first backup pad (811) interconnect of a plurality of mosaic structure (81) is in order to form end box frame, the side of ceramic tile (82) connect in first fixed plate (812) on mosaic structure (81).

6. The assembled integrally-formed quick-mounting floor as claimed in claim 5, wherein: mosaic structure (81) still include and are used for carrying on spacing first limiting plate (814) for calcium silicate board (86) top, first limiting plate (814) are connected in first backup pad (811), first limiting plate (814) are located first connecting plate (813) lower extreme.

7. The assembled integrally-formed quick-mounting floor as claimed in claim 5, wherein: the splicing structure (81) further comprises a reinforcing plate (815) for reinforcing the strength of the first connecting plate (813), wherein the reinforcing plate (815) is connected to the middle of the first connecting plate (813).

8. The assembled integrally-formed quick-mounting floor as claimed in claim 5, wherein: the first fixing plate (812) is parallel to the first support plate (811).

9. The assembled integrally-formed quick-mounting floor as claimed in claim 2, wherein: the bottom box frame further comprises a threshold stone (84), and the threshold stone (84) is connected to the top of one side end, far away from the wet area frame, of the dry area frame.

10. The assembled integrally-formed quick-mounting floor as claimed in claim 6, wherein: the first limiting plate (814) is parallel to the first connecting plate (813).

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