CN209798960U - Integrated bathroom drainage system - Google Patents

Abstract

The embodiment of the utility model discloses an integrated toilet drainage system, which comprises a waterproof chassis, floor tiles, stone and a support body; the periphery edge of the waterproof chassis is provided with a vertical edge, the vertical edge is perpendicular to the bottom surface of the waterproof chassis, and the bottom surface of the waterproof chassis is provided with meshes; the stone is arranged above the circumferential edge of the waterproof chassis; the support body is in a frame shape and is arranged on the stone; the floor tiles are arranged above the supporting bodies, and water collecting nets are arranged on the floor tiles. The embodiment of the utility model provides a through set up the net that catchments on the surface at the ceramic tile, can make during water on the ceramic tile loops through and gets into the sewer behind net and the mesh that catchments, enlarged the area of collecting water through adopting the net that catchments for during water gets into the sewer more easily, thereby avoid the ceramic tile wet and smooth, and further avoid producing harmful microorganism, the environment in the polluted chamber.

Description

Integrated bathroom drainage system

Technical Field

The embodiment of the utility model provides a relate to indoor fast-assembling technical field, concretely relates to integrated bathroom drainage system.

Background

The floor drain is usually adopted in a toilet for draining water, the upper end of the floor drain and the paved floor tiles are positioned on the same plane or slightly lower than the plane of the floor tiles, when water exists on the floor tiles, the water is drained through the floor drain, but when the water is too much and cannot be drained through the floor drain in time, the floor tiles can be soaked in the water, so that the floor tiles are easy to wet and slide, harmful microorganisms are easy to generate, and the indoor environment is polluted.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides an integrated bathroom drainage system to solve among the prior art because the floor drain can't in time discharge the wet and slippery problem of ceramic tile that leads to often with water.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

According to an embodiment of the present invention, there is provided an integrated toilet drainage system, comprising a waterproof chassis, floor tiles, stone materials and a support body; the periphery edge of the waterproof chassis is provided with a vertical edge, the vertical edge is perpendicular to the bottom surface of the waterproof chassis, and the bottom surface of the waterproof chassis is provided with meshes; the stone is arranged above the circumferential edge of the waterproof chassis; the support body is in a frame shape and is arranged on the stone; the floor tiles are arranged above the supporting bodies, and water collecting nets are arranged on the floor tiles.

furthermore, the bottom of the side of the support body is provided with one or more first drainage holes, and the cross section of each first drainage hole is triangular or wavy.

Further, when the number of the first drain holes is plural, the intervals between the adjacent first drain holes are the same or different.

Furthermore, one or more second drain holes are also formed in the side face of the support body, and the second drain holes are located above the first drain holes.

Further, the cross section of the second drain hole is rectangular or trapezoidal.

Furthermore, a first supporting portion is arranged on the supporting body, and the first supporting portion is arranged at a corner of the supporting body.

Further, the supporting surface of the first supporting part is triangular.

Furthermore, a second supporting part is arranged on the supporting body, and the second supporting part is arranged in the middle of the supporting body in the length direction or the width direction.

Further, the support surface of the second support part is quadrilateral.

Further, the surface of the floor tile is provided with a first groove and a second groove, wherein the first groove is perpendicular to the second groove.

The embodiment of the utility model provides a have following advantage:

The embodiment of the utility model provides a through set up the net that catchments on the surface at the ceramic tile, can make during water on the ceramic tile loops through and gets into the sewer behind net and the mesh that catchments, enlarged the area of collecting water through adopting the net that catchments for during water gets into the sewer more easily, thereby avoid the ceramic tile wet and smooth, and further avoid producing harmful microorganism, the environment in the polluted chamber.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

FIG. 1 is a schematic diagram illustrating the overall construction of an integrated toilet drain system in accordance with an exemplary embodiment;

FIG. 2 is a schematic diagram illustrating the internal structure of an integrated toilet drain system in accordance with an exemplary embodiment;

FIG. 3 is a side, schematic structural view of a support body according to an exemplary embodiment;

FIG. 4 is a cross-sectional view of a mounting structure of an integrated toilet drain system according to an exemplary embodiment;

In the figure: 1. a waterproof chassis; 11. standing; 12. mesh openings; 2. floor tiles; 21. a water collection net; 22. a first trench; 23. a second trench; 3. stone materials; 4. a support body; 41. a first support section; 411. a first support leg; 42. a second support portion; 421. a second support leg; 43. a first drain hole; 44. a second drain hole; 5. wall bricks; 6. and (4) the ground.

Detailed Description

the present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

according to the embodiment of the present invention, an integrated toilet drainage system is provided, fig. 1 is a schematic overall structure diagram of an integrated toilet drainage system according to an exemplary embodiment, fig. 2 is a schematic internal structure diagram of an integrated toilet drainage system according to an exemplary embodiment, and as can be seen from fig. 1 and 2, the waterproof system includes a waterproof chassis 1, a floor tile 2, a stone 3 and a support body 4; the edge of the circumference of the waterproof chassis 1 is provided with a vertical edge 11, the vertical edge 11 is vertical to the bottom surface of the waterproof chassis 1, and the bottom surface of the waterproof chassis 1 is provided with meshes 12; the stone 3 is arranged along the upper part of the circumferential edge of the waterproof chassis 1; the support body 4 is in a frame shape and is arranged on the stone 3; the floor tile 2 is arranged above the supporting body 4, and the water collecting net 21 is arranged on the floor tile 2.

The embodiment of the utility model provides a through set up catchment net 21 on the surface at ceramic tile 2, can make during water on the ceramic tile 2 loops through and gets into the sewer after catchment net 21 and mesh 12, enlarged the area of collecting water through adopting catchment net 21 for during water gets into the sewer more easily, thereby avoid ceramic tile 2 wet and smooth, and further avoid producing harmful microorganism, pollute indoor environment.

In some optional embodiments, the water collecting net 21 includes a plurality of circular holes, wherein the diameter of the circular holes is 1-3 mm, and the distance between the circular holes is 1-2 mm, and the circular holes may be distributed orderly or in a disordered manner.

In some alternative embodiments, the surface of the stone 3 has a slope that is inclined obliquely downwards from the vertical sides 11 to the sides of the respective supporting body 4, so that the water can automatically flow towards the sides of the supporting body 4 under the action of gravity.

in some alternative embodiments, the slope of the stone 3 is 1% to 10%, for example, 5%, which can avoid the effect of automatic drainage caused by too small slope, for example, when the slope of the stone 3 is 0.5%, it will cause difficulty in automatic drainage, and when the slope of the stone 3 is too large, for example, 15%, it will cause difficulty in installing the support body 4 on the stone 3.

In some alternative embodiments, the support body 4 can be fixed to the stone 3 by mechanical connection, such as by screwing, or by gluing, with an industrial glue used to fix the support body 4 to the stone 3.

In some optional embodiments, the bottom surface of the stone 3 is fixed on the bottom surface of the waterproof chassis 1 by using an adhesive tape, so that the waterproof chassis has the effects of easy construction and firm fixation.

In some alternative embodiments, as shown in fig. 3, the bottom of the side surface of the supporting body 4 is provided with one or more first drainage holes 43, the cross section of the first drainage hole 43 is triangular or wave-shaped, such as sine wave shape, wherein, when the cross section of the first drainage hole 43 is triangular, its bottom edge is located at the bottom surface of the waterproof chassis 1.

By providing one or more first drainage holes 43 in the bottom of the side of the support body 4, water between the support body 4 and the stiles 11, i.e. water located on the surface of the stone 3, can be made to pass through the first drainage holes 43 and enter the water collection sump of the floor 6 from the mesh 12, thus draining the water out of the toilet through the sewer.

In some alternative embodiments, the height of the side surface of the supporting body 4 is h1, wherein the height of the first drain hole 43 is h2, the following relationship is satisfied:

0.1 xh 1-h 2-0.3 xh 1, wherein the units of h1 and h2 are both millimeters.

When h2 is smaller than 0.1 × h1, the drainage efficiency of the first drainage hole 43 is obviously reduced, if the first drainage hole is slightly blocked, water will be accumulated on the surface of the stone 3, but the height of h2 has an upper limit requirement, when h2 is larger than 0.3 × h1, the support strength of the support body 4 is reduced, the utilization rate of the upper half part of the first drainage hole 43 is low, and unnecessary waste is caused.

In some alternative embodiments, h1 can be selected to be 20 mm, then h2 mm 6 mm, 3 mm, 4 mm, or 5 mm, etc., as desired.

in some alternative embodiments, when the number of the first drain holes 43 is plural, the intervals between the adjacent first drain holes 43 are the same or different.

If the distance between the first drainage holes 43 is the same, when the length of the bottom side of the first drainage holes 43 is a mm, the distance between the adjacent first drainage holes 43 can be selected to be a value between 0.5a and a, for example, when the length of the bottom side of the first drainage holes 43 is 4 mm, the distance between the first drainage holes 43 is between 2 mm and 4 mm, if 3 mm can be selected, the strength of the side surface of the support body 4 is not reduced due to the undersize distance between the first drainage holes 43, and the drainage efficiency is not reduced due to the overlarge distance between the first drainage holes 43, so that water accumulation occurs on the surface of the stone 3.

In addition, when the number of the first drain holes 43 is plural, the intervals between the adjacent first drain holes 43 are different, and the setting may be performed with reference to the same interval, for example, the interval between the adjacent first drain holes 43 is selected to be 2.5 mm, 3 mm, 2.8 mm, or the like.

A groove is formed between the vertical edge 11 of the waterproof chassis 1 and the side surface of the supporting body 4, the bottom surface of the groove is the surface of the stone 3, the groove is in a shape of a Chinese character 'hui', and when water appears on the surface of the stone 3, the water can be discharged into the water collecting tank through the first water discharge hole 43.

In some alternative embodiments, one or more second drainage holes 44 are further provided on the side surface of the supporting body 4, and the second drainage holes 44 are located above the first drainage holes 43.

By providing the second drainage hole 44 on the side of the support body 4, it is possible to prevent the first drainage hole 43 from draining water into the sewer through the second drainage hole 44 when water accumulates due to clogging.

In some alternative embodiments, the distance between the second drainage hole 44 and the first drainage hole 43 should not be too large or too small, when the distance is too small, the second drainage hole 44 may also be blocked, so that the function of standby drainage is reduced, when the distance is too large, water may not be drained in time through the second drainage hole 44, so that water may overflow from the upper end of the side surface of the support 4 and enter the side of the floor tile 2, which affects the surface of the floor tile 2, and generally, a distance of 0.1 × h1, that is, a distance of 2 mm, may be selected as long as about 0.1 times the height of the side surface of the support 4.

In some alternative embodiments, the height of the second drainage hole 44 is h3, wherein the size of h3 is required to satisfy 0.05 × h1 ≦ h3 ≦ 0.1 × h1, wherein the units of h1 and h3 are both millimeters.

For example, where h1 is 20 mm, h3 is between 1 and 2 mm, optionally 1.5 mm, 1.8 mm, etc.

In alternative embodiments, the second drainage hole 44 has a rectangular or trapezoidal cross-section.

Wherein, the cross section through setting up second wash port 44 to rectangle or trapezoidal, can make processing simple and convenient, realize easily, wherein, when the cross section of second wash port 44 is trapezoidal, the length of its lower bottom is greater than the length of upper base, avoids the influence that causes the intensity of the side of supporter 4 too big, of course, also can adopt the length of lower bottom and be less than the trapezoidal shape of the length of upper base, its drainage effect compares the length of lower bottom and is greater than the trapezoidal of the length of upper base slightly less than.

In some alternative embodiments, as shown in fig. 2, the supporting body 4 is provided with a first supporting portion 41, the first supporting portion 41 is disposed at the corner of the supporting body 4, and the number of the first supporting portions 41 in fig. 2 is two, and the first supporting portions are disposed at four corners of the supporting body 4 respectively.

by providing the first support 41 at the corners of the support 4, the tile 2 can be effectively supported.

In some alternative embodiments, a first support leg 411 is disposed below the first support portion 41, one end of the first support leg 411 is connected to the lower surface of the first support portion 41, and the other end of the first support leg 411 is connected to the bottom surface of the waterproof chassis 1 for supporting the first support portion 41, wherein the first support leg 411 may be cylindrical or flat, and may be configured to support the first support portion 41.

In some alternative embodiments, the number of the first support legs 411 is one or more, wherein the number of the first support legs 411 in fig. 2 is 2.

In some alternative embodiments, the supporting surface of the first supporting portion 41 is triangular.

By selecting the supporting surface of the first supporting portion 41 as a triangle, the floor tile 2 can be supported with a reduced material consumption.

In some optional embodiments, a third supporting portion may be disposed at the center of the bottom surface of the waterproof chassis 1 to support the center of the floor tile 2, so that the floor tile 2 is more stably fixed, and the situation of collapse of the floor tile 2 is prevented.

In alternative embodiments, the waterproof chassis 1 is formed by integral molding, and the dimensions can be selected according to the needs of the user.

In alternative embodiments, the tile 2 is a unitary structure that is circumferentially secured to the support 4.

In some alternative embodiments, the supporting body 4 is provided with a second supporting portion 42, and the second supporting portion 42 is disposed at an intermediate position in the length direction and/or the width direction of the supporting body 4.

By providing the second support portion 42 at an intermediate position in the longitudinal direction and/or the width direction of the support body 4, stable support of the floor tile 2 can be achieved.

In some alternative embodiments, the support surface of the second support portion 42 is quadrilateral.

By selecting the support surface of the second support portion 42 to be a quadrilateral, stable support of the floor tile 2 can be better achieved.

In some alternative embodiments, the number of the second supporting portions 42 may be selected according to the length and width dimensions of the supporting body 4, when the length and width dimensions of the supporting body 4 are small, the number of the second supporting portions 42 may be 2, and the second supporting portions are respectively disposed at the middle position in the length direction and the middle position in the width direction of the supporting body 4, when the length and width dimensions of the supporting body 4 are large, such as the length c and the width b of the supporting body 4, the distance c1 between the adjacent second supporting portions 42 in the length direction of the supporting body 4 is between 0.2 × c and 0.5 × c, and the distance b1 between the adjacent second supporting portions 42 in the width direction of the supporting body 4 is between 0.2 × b and 0.5 × b.

For example, when the length of the supporting body 4 is 300 mm, the distance between the adjacent second supporting portions 42 is between 60 mm and 150 mm, when the number of the second supporting portions 42 is 3, the distance is 60 mm, and when the number of the second supporting portions 42 is 2, the distance is 100 mm, and the second supporting portions 42 may be uniformly distributed in the length direction of the supporting body 4.

For example, when the width of the supporting body 4 is 280 mm, the distance between the adjacent second supporting portions 42 is between 56 mm and 140 mm, when the number of the second supporting portions 42 is 3, the distance is 56 mm, and when the number of the second supporting portions 42 is 2, the distance is 70 mm, although the second supporting portions 42 may be arranged at unequal intervals, such as 80 mm and 90 mm, respectively.

In some optional embodiments, a second support leg 421 is provided below the second support portion 42, one end of the second support leg 421 is connected to the lower surface of the second support portion 42, and the other end is connected to the bottom surface of the waterproof chassis 1 for supporting the second support portion 42, wherein the second support leg 421 may be cylindrical or flat, and may be capable of supporting the second support portion 42, and the number of the second support legs 421 in fig. 2 is two.

In some alternative embodiments, the surface of the tile 2 is provided with a first groove 22 and a second groove 23, wherein the first groove 22 is perpendicular to the second groove 23.

By providing the first grooves 22 and the second grooves 23 on the surface of the floor tile 2, the anti-slip property of the floor tile 2 can be enhanced, and the user can be prevented from slipping down due to the friction of the floor tile 2 being too small.

In some alternative embodiments, the first grooves 22 and the second grooves 23 are arranged at equal intervals, which may be 40-70 mm, such as 60 mm, less than the normal stride of an adult of 65 mm, so that the first grooves 22 and the second grooves 23 are both under the foot of the user, and in addition, the cost increase caused by the too small interval can be avoided.

In some alternative embodiments, the first groove 22 and the second groove 23 may each have a width of 2 mm, which may increase the friction between the user and the tile 2.

In some alternative embodiments, the supporting body 4 is made of a metal material, such as stainless steel, titanium alloy, etc., and has the advantages of corrosion resistance, long service life, etc.

In some optional embodiments, when the support 4 is made of stainless steel, the thickness thereof is 2 mm, which can meet the strength requirement in use, and when the material is made of titanium alloy, the thickness thereof is 4 mm, which can meet the strength requirement in use.

In some alternative embodiments, neither the first drainage hole 43 nor the second drainage hole 44 is provided under the first support 41 and the second support 42, so as to prevent the support 4 from weakening at the first support 41 and the second support 42, which may cause the problem of the tile 2 sinking.

During construction, as shown in fig. 4, a water collecting tank is constructed on the ground 6 and communicated with a sewer, and the mesh holes 12 are arranged at the positions of the waterproof chassis 1 corresponding to the water collecting tank, so that water on the waterproof chassis 1 can enter the water collecting tank through the mesh holes 12, wherein a water collecting net 21 is arranged above the mesh holes 12, and water on the floor tiles can enter the water collecting tank through the water collecting net 21 and then is discharged into the sewer, so that the drainage of a toilet is realized. In addition, the vertical edge 11 of the waterproof chassis 1 is attached to one side of the wall brick 5, wherein the vertical edge can be attached to the inner side of the wall brick 5, and can also be attached to the outer side of the wall brick 5, when the vertical edge is attached to the outer side of the wall brick 5, the wall brick 5 is positioned in the waterproof chassis 1, and can be selected according to requirements.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. An integrated toilet drainage system is characterized in that the drainage system comprises a waterproof chassis, floor tiles, stones and a support body; the periphery edge of the waterproof chassis is provided with a vertical edge, the vertical edge is perpendicular to the bottom surface of the waterproof chassis, and the bottom surface of the waterproof chassis is provided with meshes; the stone is arranged above the circumferential edge of the waterproof chassis; the support body is in a frame shape and is arranged on the stone; the floor tiles are arranged above the supporting bodies, and water collecting nets are arranged on the floor tiles.

2. The integrated toilet drainage system according to claim 1, wherein the bottom of the side of the supporting body is provided with one or more first drainage holes, and the cross section of the first drainage holes is triangular or wave-shaped.

3. The integrated toilet drain system according to claim 2, wherein when the number of the first drain holes is plural, the intervals between the adjacent first drain holes are the same or different.

4. The integrated toilet drainage system according to claim 2 or 3, wherein one or more second drainage holes are formed on the side surface of the support body, and the second drainage holes are located above the first drainage holes.

5. The integrated toilet drain system according to claim 4, wherein the second drain hole has a rectangular or trapezoidal cross-section.

6. The integrated toilet drain system according to claim 1, wherein the support body is provided with a first support portion, and the first support portion is disposed at a corner of the support body.

7. The integrated toilet drain system according to claim 6, wherein the support surface of the first support is triangular.

8. The integrated toilet drainage system according to claim 1, wherein the support body is provided with a second support portion, and the second support portion is disposed at an intermediate position in a length direction or a width direction of the support body.

9. The integrated toilet drain system according to claim 8, wherein the support surface of the second support is quadrilateral.

10. The integrated toilet drainage system according to claim 1, wherein the floor tile has a surface with a first groove and a second groove, wherein the first groove is perpendicular to the second groove.