CN113502999A

CN113502999A - Concatenation formula 3D prints waterproof chassis

Info

Publication number: CN113502999A
Application number: CN202110859974.5A
Authority: CN
Inventors: 袁训平; 汤志强; 麦显新; 屈海云
Original assignee: Guangzhou Seagull Housing Industry Co ltd
Current assignee: Guangzhou Seagull Housing Industry Co ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-10-15
Anticipated expiration: 2041-07-28
Also published as: CN113502999B

Abstract

The invention discloses a spliced 3D printing waterproof chassis, which comprises: including two at least first bottom plate spare parts, two at least first bottom plate spare parts concatenations form chassis body, wherein, every first bottom plate spare part is printed along circumference 3D and is had the bellied first waterproof fender that encloses of heliciform in order to set up, first waterproof concatenation breach of concatenation limit cutting formation that encloses the fender, first concatenation breach is located this internal part of chassis and is equal level horizontal limit that sets up, be close to the peripheral one end of chassis body and upwards bulge formation vertical limit, fills sealed glue between two adjacent concatenation limits, between the horizontal limit of two adjacent first concatenation breachs, all press from both sides the fastening through the concatenation section bar between vertical limit and decide. The invention has the advantages of simple structure, safety, reliability, no water leakage and no weak point of sealing.

Description

Concatenation formula 3D prints waterproof chassis

Technical Field

The invention relates to the technical field of toilet waterproof equipment. More specifically, the invention relates to a spliced 3D printing waterproof chassis.

Background

The waterproof toilet is an important project in the decoration process and is also a hidden project which is easy to cause problems, and the later maintenance of the waterproof toilet is very troublesome. In the traditional toilet decoration process, waterproof paint is usually brushed on the toilet floor to achieve the waterproof effect, and the problems that the time consumption is long and the effect depends on the level of operators exist. In order to replace the traditional process of painting waterproof paint, the waterproof chassis is increasingly widely applied as an assembled integral sanitary core. For a toilet with a large area, problems of transportation, installation and the like are considered, a splicing mode is selected to be adopted for connection and sealing in the preferred scheme, for example, application number 2016112213900, a split waterproof chassis with a split cover plate and an installation method disclose a structure that a cover plate is matched with a groove body, connection between adjacent chassis is realized, the chassis cannot be in sealed connection with two ends of the cover plate in the length direction, and the problem of poor effect caused by the existence of weak sealing points is solved.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The invention also aims to provide the spliced 3D printing waterproof chassis which is simple in splicing structure, safe, reliable and watertight, and particularly, on the basis of arranging the first waterproof fence, the first splicing notch which protrudes upwards is adopted to realize circumferential splicing and fixing of adjacent splicing edges, so that the problem of sealing weak points does not exist.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a tiled 3D printing waterproof chassis including: including two at least first bottom plate spare parts, two at least first bottom plate spare parts concatenations form chassis body, wherein, every first bottom plate spare part is printed along circumference 3D and is had the bellied first waterproof fender that encloses of heliciform in order to set up, first waterproof concatenation breach of concatenation limit cutting formation that encloses the fender, first concatenation breach is located this internal part of chassis and is equal level horizontal limit that sets up, be close to the peripheral one end of chassis body and upwards bulge formation vertical limit, fills sealed glue between two adjacent concatenation limits, between the horizontal limit of two adjacent first concatenation breachs, all press from both sides the fastening through the concatenation section bar between vertical limit and decide.

Preferably, the longitudinal section of concatenation section bar is the U type, its medial surface interference fit with adjacent first concatenation breach, wherein, in the tight fixed back concatenation of clamp was crisscross concatenation section bar, lies in the integrative setting of two of them concatenation section bars on the collinear, and the lateral wall has the U-shaped breach that makes first waterproof fender of enclosing pass.

Preferably, a limit groove is formed between adjacent spiral protrusions on each splicing edge, the inner side face of the splicing section bar used for fixing the horizontal edge of the first splicing notch is provided with a limit tooth matched with the limit groove, and when the horizontal edges of the adjacent two first splicing notches pass through the splicing section bar clamp, the limit tooth of the splicing section bar is positioned in the corresponding limit groove.

Preferably, a sealant is filled between the end face of the first splicing notch and the end face of the splicing section bar in interference fit.

Preferably, the toilet drain pipe further comprises a secondary waterproof layer, the secondary waterproof layer is arranged on the ground below the toilet drain pipe, the ground below comprises a plurality of inclined planes after gradient processing, the secondary waterproof layer comprises a plurality of second bottom plate parts which correspond to the inclined planes one by one, each second bottom plate part is provided with a second waterproof enclosure with a spiral protrusion in a circumferential 3D printing mode, and when the second bottom plate parts are attached to the corresponding inclined planes, the second waterproof enclosures on the second bottom plate parts are vertically arranged;

the splicing edges of the second waterproof fence are cut to form a second splicing gap, the part of the second splicing gap, which is positioned in the secondary waterproof layer, is a bevel edge which is arranged at the same height, one end, which is close to the periphery of the secondary waterproof layer, forms a protruding edge which is higher than the bevel edge, sealant is filled between two adjacent splicing edges, and the corresponding edges of two adjacent second splicing gaps are also clamped and fixed through splicing section bars;

a plurality of inclined planes constitute the delivery port that is located the lower extreme, and a plurality of second are waterproof to enclose to keep off and lie in delivery port circumference and enclose to establish and form the cyclic annular fender that encloses, enclose fender sealing connection with the cyclic annular and have the secondary drain pipe, the secondary drain pipe lies in secondary waterproof layer below and extends to and the drainage riser intercommunication.

Preferably, the through chassis body is provided with a mounting hole corresponding to a ground drainage point, and a drainage bottom pipe and a drainage upper pipe are arranged corresponding to the drainage point;

wherein, follow mounting hole circumference 3D prints and is provided with cyclic annular arch, the drainage bottom tube is located between chassis body and the secondary waterproof layer, and the end of just intaking flushes with cyclic annular arch, drainage bottom tube periphery with sealed glue of packing between cyclic annular arch to it is fixed through a first fixation clamp, first fixation clamp is the tube-shape that lateral wall longitudinal section is the U-shaped, interference fit between its inner ring and the inside wall of drainage bottom tube, interference fit between outward appearance and cyclic annular bellied outside wall.

Preferably, the waterproof structure further comprises a second fixing clamp, the second fixing clamp is in a U-shaped cylinder shape on the longitudinal section of the side wall, the inner ring and the outer ring of the second fixing clamp are recessed and provided with openings through which the splicing edges of the second waterproof enclosure connected with the annular enclosure penetrate, the inner ring of the second fixing clamp is in interference fit with the inner side wall of the secondary drainage pipe, and the outer ring is in interference fit with the outer side wall of the annular enclosure.

Preferably, the opposite side wall of the first fixing clip is provided with a first barb, wherein the inner side wall of the drainage bottom pipe and the outer side wall of the annular protrusion are provided with a first groove matched with the first barb.

Preferably, the opposite side wall of the second fixing clip is provided with a second barb, wherein the inner side wall of the secondary drainage pipe and the outer side wall of the annular enclosure are provided with a second groove matched with the second barb.

Preferably, the top end of the upper drainage pipe is communicated with a ground drainage point, and the bottom end of the upper drainage pipe coaxially penetrates into the bottom drainage pipe in a sealing manner.

The invention at least comprises the following beneficial effects:

first, waterproof dish mosaic structure is simple, safe and reliable is watertight, and is concrete, sets up first waterproof on enclosing the basis of keeping off, adopts the bellied first concatenation breach that makes progress, realizes that adjacent concatenation is fixed along the concatenation of circumference, does not have sealed weak point problem, and wherein, the concatenation section bar is the U-shaped, realizes fixedly through interference fit, need not use extra fixing tool, further cooperates the settlement of spacing tooth, improves fixed effect.

The second, through slope processing, found secondary water repellent on the waterproof basis of top layer, secondary water repellent can effectual prevention drain pipe fracture scheduling problem, strengthens water-proof effects, wherein, once realizes fixing between a plurality of second concatenation spare parts and the secondary drain pipe through the second fixation clamp.

Third, through the setting of drainage top tube and drainage bottom tube, the effect of the sealing connection between drainage bottom tube and chassis body is improved to cooperation first fixation clamp and cyclic annular arch, and in the drainage top tube inserted drainage bottom tube, does not influence the effect of drainage.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a first bottom plate part according to one embodiment of the present invention;

fig. 2 is a schematic structural diagram of the chassis body according to one embodiment of the present invention;

fig. 3 is a schematic structural diagram of a spliced 3D printing waterproof chassis according to one technical solution of the present invention;

fig. 4 is a schematic cross-sectional structure view of a spliced 3D printing waterproof chassis according to one embodiment of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 6 is a schematic structural diagram of a splicing section bar according to one embodiment of the present invention;

fig. 7 is a schematic cross-sectional structure view of a spliced 3D printing waterproof chassis according to one embodiment of the present invention;

fig. 8 is a schematic structural diagram of a secondary waterproof layer according to one embodiment of the present invention;

fig. 9 is a schematic structural diagram of the second fixing clip according to one embodiment of the present invention.

The reference numerals are specifically: a first base plate part 1; a first waterproof enclosure 2; a first splice notch 20; a limit groove 21; a sealant 22; splicing the section bars 3; a limit tooth 30; a second chassis part 4; a second waterproof enclosure 5; a second splice notch 50; an annular enclosure 6; a secondary drain pipe 60; a drain bottom pipe 7; a drain header 70; an annular protrusion 8; a first retaining clip 80; a second fixing clip 9; an opening 90.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-9, the present invention provides a spliced 3D printing waterproof chassis, comprising:

at least two first bottom plate

spare parts

1, 1 concatenation of at least two first bottom plate spare parts constitutes the chassis body, and wherein, every first bottom plate spare part 1 is printed along circumference 3D and is set up first waterproof fender 2 that encloses, first waterproof fender 2 that encloses has bolt form arch along circumference, first waterproof concatenation limit that encloses 2 is cut and is formed first concatenation breach 20, first concatenation breach is located this internal part of chassis and is equal high horizontal limit that sets up, be close to the peripheral one end of chassis body and upwards bulge and form vertical limit, fills sealed glue 22 between two adjacent concatenation limits, and all presss from both sides tightly fixedly through concatenation section bar 3 between the horizontal limit of two adjacent first concatenation breachs 20, between the vertical limit.

In above-mentioned technical scheme, the number of first bottom plate spare 1 is according to actual bathroom area, the shape is confirmed, first bottom plate spare 1 sets up according to the shape of wall along one side of circumference and wall laminating, the limit that first bottom plate spare 1 is adjacent with other first bottom plate spare 1 is the sharp limit, the first waterproof concatenation limit that encloses fender 2 is set up on it according to the film spare of the adjacent concatenation of circumference to specific first bottom plate spare 1, when first bottom plate spare 1 is the rectangle, there are following several kinds of specifications: (1) one side edge of the first waterproof surrounding barrier 2 is a splicing edge (an edge spliced with the adjacent first waterproof surrounding barrier 2), and as shown in fig. 2, the first splicing notch 20 is in a U shape; (2) two adjacent side edges of the first waterproof fence 2 are splicing edges, and as shown in fig. 3, a first splicing gap is L-shaped; (3) two opposite side edges of the first waterproof fence 2 are splicing edges; (4) the adjacent 3 side edges of the upper first waterproof fence 2 are splicing edges, and as shown in fig. 3, the upper first splicing gap is L-shaped and I-shaped; (5) the side edges 4 of the first waterproof fence 2 are spliced edges, and first splicing gaps on the first waterproof fence are I-shaped; the first waterproof enclosure 2 is circumferentially arranged along the corresponding splicing parts, preferably, the projection of the first waterproof enclosure 2 on the horizontal plane coincides with the projection of the corresponding splicing parts on the horizontal plane (wherein the first waterproof enclosure 2 at the included angle is in arc transition), the first waterproof enclosure 2 is formed by adopting a 3D printing mode, then a required first splicing notch 20 is formed by cutting at the splicing edge of the first waterproof enclosure 2, each first splicing interface comprises a horizontal edge, and then 1 or two vertical edges are not included or included according to the actual situation, wherein only the horizontal edge is an I type, 1 vertical edge is an L type, two vertical edges are U type, gaps at the splicing point are filled with waterproof sealant 22, because the first waterproof enclosure 2 is obtained by adopting the 3D printing mode, the circumferential direction of the first waterproof enclosure can simultaneously form a spiral protrusion, wherein, the arch of the medial surface on concatenation limit can improve interference fit's between concatenation limit and the concatenation section bar 3 effect, and first waterproof arch on enclosing the lateral surface that keeps off 2 can improve first waterproof effect of enclosing 2 and wall and sealing up through sealed glue 22 between, first waterproof arch of enclosing the medial surface that keeps off 2 and detach the concatenation limit can improve the fixed effect that later stage construction cement mortar was filled, and the definition on horizontal limit is for lieing in same straight line limit, extends along bathroom ground direction, because the problem of bathroom drainage, before setting up waterproof chassis, need look for the operation on slope, so horizontal limit actually may have certain inclination according to setting up the demand, in the use, including following step: leveling the floor of a toilet, finding a slope, laying first bottom plate parts 1 to form a chassis body, punching a peripheral first waterproof enclosure 2 in the circumferential direction of each first bottom plate part 1 in a 3D printing mode, determining splicing edges of the first bottom plate parts 1, cutting to obtain first splicing notches 20, filling waterproof glue between the adjacent splicing edges, and clamping and fixing the horizontal edges and the vertical edges of the two adjacent first splicing notches 20 through splicing sectional materials 3; by adopting the technical scheme, the waterproof disc splicing structure is simple, safe and reliable and water-tight, and particularly, on the basis of arranging the first waterproof fence 2, the first splicing notch 20 protruding upwards is adopted, so that the circumferential splicing and fixing of the adjacent splicing edges are realized, and the problem of sealing weak points does not exist.

In another kind of technical scheme, splicing section bar 3's longitudinal section is the U type, its medial surface interference fit with adjacent first concatenation breach 20, wherein, press from both sides in the tight fixed back concatenation is criss-cross splicing section bar, be located the integrative setting of two of them splicing section bars on the collinear, and the lateral wall has the U-shaped breach that makes first waterproof fender pass of enclosing, for example as shown in fig. 3, it forms two crossroads at the middle part, wherein, be located the integrative setting of splicing section bar on the collinear, passing the part at crossroad, U-shaped breach has, so that pass rather than vertically horizontal limit, locate its both sides with the perpendicular section bar branch of this integrative setting's splicing section bar. Adopt this kind of scheme, through the concatenation section bar 3 of U-shaped, insert establish make adjacent first concatenation breach 20 be located the receiving range of concatenation section bar 3, and realize interference fit between the two, need not to use extra fixing tool, the assembly is stable, simple, in one of them concrete technical scheme, concatenation section bar 3 specifically sets up to: the width of the bottom edge is 23.6 mm; the thickness of the plate is 2 mm; the side height is 13 mm; furthermore, one of the splicing section bars at the cross-shaped intersection is integrally arranged, so that the waterproofness of the whole splicing device is improved.

In another technical scheme, a limiting groove 21 is formed between adjacent protrusions on each splicing edge, a limiting tooth 30 matched with the limiting groove 21 is arranged on the inner side surface of the horizontal edge splicing section bar 3 for fixing the first splicing notches 20, and when the horizontal edges of the adjacent two first splicing notches 20 are clamped and fastened by the splicing section bar 3, the limiting tooth 30 of the splicing section bar 3 is positioned in the corresponding limiting groove 21. With this solution, the splicing section 3 has two types: the first section bar is used for fixing the vertical edge and the second section bar is used for fixing the horizontal edge, wherein the first section bar has two conditions that the inner side edge is not provided with a limit tooth 30, and the inner side surface and the second section bar also have the limit tooth 30 (under the condition, the first section bar and the second section bar are different in length according to the actual condition, and the rest are products with the same specification, so that the splicing effect is not influenced, and the product types are simplified); second section bar medial surface is equipped with spacing tooth 30, it sets up the U-shaped breach (can the on-the-spot cutting handle) according to actual conditions, set up the in-process in the reality, the width on the vertical limit of first concatenation breach 20 satisfies to provide with first section bar press from both sides tight fixed space can, so the fixed main stationary force that provides the concatenation limit on level limit, through the setting of spacing tooth 30 of spacing groove 21 between second section bar and the level limit, further improve fixed effect, the setting up of level limit height can for satisfying to provide with the space that the second section bar presss from both sides the fastening.

In another technical scheme, a sealant 22 is filled between the end surface of the first splicing notch 20 and the end surface of the splicing section bar 3 in interference fit. By adopting the scheme, the sealing glue is integrally matched with the sealing glue 22 filled in the adjacent splicing edges, so that the sealing, bonding and fixing effects of the adjacent splicing edges are improved.

In another technical scheme, the spliced 3D printing waterproof chassis is characterized by further comprising a secondary waterproof layer, wherein the secondary waterproof layer is arranged on the ground below a toilet drain pipe, the ground below comprises a plurality of inclined planes after gradient processing is carried out, the secondary waterproof layer comprises a plurality of second bottom plate parts 4 which are in one-to-one correspondence with the inclined planes, each second bottom plate part 4 is provided with a second waterproof enclosure 5 with a spiral protrusion in a circumferential 3D printing mode, and when the second bottom plate parts 4 are attached to the corresponding inclined planes, the second waterproof enclosures 5 on the second bottom plate parts are vertically arranged;

the splicing edges of the second waterproof barriers 5 are cut to form second splicing gaps 50, the parts, located in the secondary waterproof layers, of the second splicing gaps are bevel edges arranged at equal heights, protruding edges higher than the bevel edges are formed at one ends, close to the peripheries of the secondary waterproof layers, of the second splicing gaps, sealant 22 is filled between every two adjacent splicing edges, and the corresponding edges of every two adjacent second splicing gaps 50 are clamped and fixed through splicing sections 3;

the lowest end constitution on a plurality of inclined planes is located the delivery port, as shown in fig. 8, a plurality of waterproof fender 5 that enclose of second cooperate and enclose to establish at being located delivery port circumference and enclose fender 6, and the part cutting that second concatenation spare part is located cyclic annular fender 6 to keep off the space that forms the supply outlet and show, pass the cutting opening and then pass cyclic annular fender 6, and enclose fender 6 sealing connection with cyclic annular and have secondary drain pipe 60, secondary drain pipe 60 is located secondary waterproof layer below and extends to and the riser intercommunication of draining, and wherein, the riser of draining is for supplying toilet drainage along the pipeline of whole floor direction of height discharge. In the above technical scheme, the setting of a plurality of inclined planes is confirmed according to actual conditions, the bathroom ground size is considered to second bottom plate spare 4 to and the overall arrangement of drain pipe etc. also can adopt the mode of concatenation to constitute, promptly waterproof enclose keep off with corresponding second concatenation spare within a definite time not the vertical relation, in the use, the construction flow of assembling of bathroom includes following step: the bottom surface below the toilet is subjected to slope treatment to form a bottom surface with the lowest end, specifically, the rectangular toilet floor can be processed into a quadrangular pyramid shape, and the specific treatment mode is determined according to the actual situation, wherein the secondary drainage pipe 60 is paved while the slope treatment is performed; paving a secondary waterproof layer; leveling after filling; finding a slope; laying a chassis body layer; sixthly, paving a decorative layer after filling; adopt this kind of scheme, through slope processing, establish secondary water repellent on the waterproof basis of top layer, secondary water repellent can effectually prevent the drain pipe scheduling problem that breaks, strengthens water-proof effects.

In another technical scheme, a mounting hole corresponding to a ground drainage point is formed in the chassis body in a penetrating mode, a drainage bottom pipe 7 and a drainage upper pipe 70 are arranged corresponding to the drainage point, and the ground drainage point mainly comprises a floor drain;

wherein, follow mounting hole circumference 3D prints and is provided with cyclic annular arch 8, drainage bottom tube 7 is located between chassis body and the secondary waterproof layer, and the end of intaking passes the mounting hole and flushes with cyclic annular arch 8, drainage bottom tube 7 periphery with sealed glue 22 is filled to cyclic annular arch 8 medial surface within a definite time to it is fixed through a first fixation clamp 80, drainage bottom tube 7 top, cyclic annular arch 8 top with sealed glue 22 also has been coated between first fixation clamp 80, first fixation clamp 80 is the tube-shape that the lateral wall longitudinal section is the U-shaped, and is the tube-shape that includes inner ring and outer loop, and interference fit between its inner ring and drainage bottom tube 7 inner side wall, appearance and interference fit between the outer lateral wall of cyclic annular arch 8 are for being convenient for press from both sides and establish to improve and press from both sides the effect, and inner ring, outer loop cut apart along first fixation clamp 80 axial direction and are provided with a plurality of cracks, crack size, The number is set according to the actual situation; by adopting the scheme, the arrangement of the upper drainage pipe 70 and the bottom drainage pipe 7 is matched with the first fixing clamp 80 and the annular bulge 8 to improve the effect of sealing connection between the bottom drainage pipe 7 and the chassis body, and the upper drainage pipe 70 is inserted into the bottom drainage pipe 7 without influencing the drainage effect.

In another technical scheme, the spliced 3D printing waterproof chassis is characterized by further comprising a second fixing clamp 9, wherein the second fixing clamp 9 is cylindrical, the longitudinal section of the side wall of the second fixing clamp is U-shaped, the inner ring and the outer ring of the second fixing clamp 9 are both recessed and provided with an opening 90 for the splicing edge of the second waterproof enclosure 5 connected with the annular enclosure 6 to pass through, the inner ring of the second fixing clamp 9 is in interference fit with the inner side wall of the secondary drain pipe 60, and the outer ring is in interference fit with the outer side wall of the annular enclosure 6; with this arrangement, the fixing between the plurality of second spliced parts and the secondary drain pipe 60 is achieved at a time by the second fixing clips 9.

In another technical scheme, the opposite side wall of the first fixing clip 80 is provided with a first barb, wherein the inner side wall of the drainage bottom pipe 7 and the outer side wall of the annular bulge 8 are provided with a first groove matched with the first barb; by adopting the scheme, the fixing effect is improved.

In another technical scheme, the opposite side wall of the second fixing clamp 9 is provided with a second barb, wherein the inner side wall of the secondary drainage pipe 60 and the outer side wall of the annular enclosure 6 are provided with a second groove matched with the second barb; by adopting the scheme, the fixing effect is improved.

In another technical scheme, the top end of the upper drainage pipe 70 is communicated with a ground drainage point, and the bottom end of the upper drainage pipe is coaxially and hermetically penetrated into the bottom drainage pipe 7, specifically, a sealing ring is arranged in the bottom drainage pipe 7, and the inner periphery of the first fixing clamp 80 is provided with a sealing ring which is respectively and hermetically connected with the upper drainage pipe 70; by adopting the scheme, the effect of sealing connection between the drainage bottom pipe 7 and the chassis body is further improved, and meanwhile, water returns through the drainage bottom pipe 7.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the tiled, 3D printing, waterproof chassis of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. Concatenation formula 3D prints waterproof chassis, its characterized in that, including two at least first bottom plate spare parts, two at least first bottom plate spare parts concatenations form chassis body, and wherein, every first bottom plate spare part is printed along circumference 3D and is had the bellied first waterproof fender that encloses of heliciform in order to set up, first waterproof concatenation limit cut that encloses the fender forms first concatenation breach, first concatenation breach is located this internal part of chassis and is equal high horizontal limit that sets up, is close to the peripheral one end of chassis body and upwards protrudes and forms vertical limit, and two adjacent concatenation limits fill sealed glue between, between the horizontal limit of two adjacent first concatenation breachs, all press from both sides the fastening through the concatenation section bar between the vertical limit and decide.

2. The spliced 3D printing waterproof chassis according to claim 1, wherein the longitudinal section of the spliced section bar is U-shaped, and the U-shaped section bar is in interference fit with the inner side surface of the adjacent first splicing notch, wherein two spliced section bars which are positioned on the same straight line in the spliced cross-shaped spliced section bar after clamping and fixing are integrally arranged, and the side wall is provided with the U-shaped notch for the first waterproof enclosure to pass through.

3. The spliced 3D printing waterproof chassis as claimed in claim 2, wherein a limiting groove is formed between adjacent spiral protrusions on each splicing edge, the inner side surface of the splicing section bar for fixing the horizontal edge of the first splicing notch is provided with a limiting tooth matched with the limiting groove, and when the horizontal edges of two adjacent first splicing notches are fastened by the splicing section bar clamp, the limiting tooth of the splicing section bar is positioned in the corresponding limiting groove.

4. The spliced 3D printing waterproof chassis of claim 2, wherein a sealant is filled between the end surface of the first splicing gap and the end surface of the splicing section bar in interference fit.

5. The spliced 3D printing waterproof chassis according to claim 2, further comprising a secondary waterproof layer, wherein the secondary waterproof layer is arranged on the lower ground of a toilet drain pipe, the lower ground is subjected to gradient treatment and comprises a plurality of inclined surfaces, the secondary waterproof layer comprises a plurality of second bottom plate parts which correspond to the inclined surfaces one by one, each second bottom plate part is provided with a second waterproof enclosure with a spiral protrusion along the circumferential direction of 3D printing, and when the second bottom plate parts are attached to the corresponding inclined surfaces, the second waterproof enclosures on the second bottom plate parts are vertically arranged;

6. The spliced 3D printing waterproof chassis as claimed in claim 5, wherein a mounting hole corresponding to a ground drainage point is formed through the chassis body, and a drainage bottom pipe and a drainage upper pipe are arranged corresponding to the drainage point;

7. The spliced 3D printing waterproof chassis according to claim 6, further comprising a second fixing clip, wherein the second fixing clip is in a cylindrical shape with a U-shaped longitudinal section of a side wall, an inner ring and an outer ring of the second fixing clip are recessed to form an opening for allowing a splicing edge of a second waterproof enclosure connected with the annular enclosure to pass through, the inner ring of the second fixing clip is in interference fit with an inner side wall of a secondary drainage pipe, and the outer ring is in interference fit with an outer side wall of the annular enclosure.

8. The tiled 3D printing waterproof chassis of claim 6, wherein the opposing side walls of the first retaining clip have first barbs, wherein the drain bottom tube inner side wall, the annular protrusion outer side wall each have a first groove matching the first barbs.

9. The tiled, 3D printing, waterproof chassis of claim 7, wherein the opposing side wall of the second retaining clip has a second barb, wherein the secondary drain inner side wall, the annular fence outer side wall each have a second groove that mates with the second barb.

10. The tiled, 3D printing, waterproof chassis of claim 6, wherein the top end of the drainage top tube communicates with a ground drainage point, and the bottom end coaxially and sealingly penetrates the drainage bottom tube.