CN211849783U

CN211849783U - Deodorant ponding treater

Info

Publication number: CN211849783U
Application number: CN202020192147.6U
Authority: CN
Inventors: 曾巍
Original assignee: Hunan Ruiwei Energy Saving Technology Co ltd
Current assignee: Hunan Ruiwei Energy Saving Technology Co ltd
Priority date: 2020-02-21
Filing date: 2020-02-21
Publication date: 2020-11-03
Anticipated expiration: 2030-02-21

Abstract

The utility model discloses a deodorization accumulated water processor, which belongs to the field of building drainage and comprises a base, an outer aligning ring and an inner aligning ring, and further comprises a bucket-shaped switching straight insertion pipe, wherein the bucket-shaped switching straight insertion pipe comprises a straight pipe and a connector connected to the upper end of the straight pipe, the connector comprises a first straight cylinder section and a first cone section arranged in a hollow manner, and the first cone section is connected between the first straight cylinder section and the straight pipe; an annular water retaining ring is fixed on the inner wall of the first cone section, a water seepage accumulation region is arranged between the annular water retaining ring and the first cone section, the inner aligning ring is inserted in the outer aligning ring, and the outer aligning ring is inserted in the water seepage accumulation region in the connector and is in contact with or close to the surface of the annular water retaining ring; the outer aligning circles and is provided with the infiltration hole, the infiltration hole with district intercommunication is gathered in the infiltration, has solved the deodorant poor problem of effect of current pre-buried ponding treater.

Description

Deodorant ponding treater

Technical Field

The utility model relates to a building drainage field, in particular to deodorant ponding treater.

Background

Drainage pipes of water-using appliances such as wash basins, showers, mop pools, bathtubs, washing machines and the like in drainage systems of the building industry, particularly in toilets, penetrate through the finished surface and are arranged in the filling layer. Therefore, as the time is prolonged, the water accumulating processor is manually stepped on, the waterproof material is aged and the like, water seeps into the filling layer at the place where the drain pipe of the water using device passes and the connection place of the floor tiles, and therefore, the water accumulating processor appears on the market in order to solve the problem.

Chinese patent with publication number CN208981435U and publication date 2019, 06, 04 discloses a pre-buried water treatment device, which comprises a base, a large eccentric ring, a small eccentric ring and a gasket.

Although the problem of seeper infiltration between solution drain pipe and the floor that current pre-buried ponding treater can be fine, at the in-service use in-process, the foul smell that the sewer produced rises along the pipeline easily, emits into the bathroom, and deodorant effect is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a deodorant ponding treater, it has solved the deodorant poor problem of effect of current pre-buried ponding treater.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a deodorization accumulated water processor comprises a base, an outer aligning ring, an inner aligning ring and a bucket-shaped switching straight insertion pipe, wherein the bucket-shaped switching straight insertion pipe comprises a straight pipe and a connector connected to the upper end of the straight pipe, the connector comprises a first straight cylinder section and a first cone section arranged in a hollow mode, and the first cone section is connected between the first straight cylinder section and the straight pipe;

an annular water retaining ring is fixed on the inner wall of the first cone section, a water seepage accumulation region is arranged between the annular water retaining ring and the first cone section, the inner aligning ring is inserted in the outer aligning ring, and the outer aligning ring is inserted in the water seepage accumulation region in the connector and is in contact with or close to the surface of the annular water retaining ring;

and the outer adjusting ring is provided with a water seepage hole which is communicated with the water seepage accumulation area.

Adopt above-mentioned structure, during bathroom ponding entered into the infiltration through the infiltration hole and gathers the district, along with the infiltration slowly accumulates, the water level in the infiltration is gathered the district and is rised gradually, when the water level was crossed annular manger plate ring top surface, seeper in the infiltration is gathered the district and will be entered into annular manger plate ring through the clearance between annular manger plate ring and the outer accent circle in to through the straight tube flow to the sewer, be convenient for discharge the ponding on stratum surface. Simultaneously, because the infiltration is gathered and is amassed to have the infiltration in the district, and the outer accent heart circle is located infiltration and gathers the district inside, therefore the foul smell in the sewer can not upwards emerge through the infiltration hole to play better deodorant effect. The application of a bucket type switching straight cannula. The bucket type is connected with the straight insertion pipe, so that the connecting caliber of the deodorization water-collecting processor is constant (the pipe diameter is generally 100mm), and the deodorization water-collecting processor meets the national standard. The same kind of products have partial diameter change problems and do not meet the national standard. An annular water retaining ring is added in the bucket type switching straight insertion pipe to form a water seepage accumulation area to play a water sealing role, so that the problem that odor overflows into a toilet can be effectively solved.

The method is further optimized as follows: the outer aligning ring comprises an annular cylinder body, second flanges wound around the annular cylinder body are arranged on the periphery of the top of the annular cylinder body, and the water seepage holes are formed in the second flanges;

a first bearing platform is fixed on the inner wall of the annular cylinder body, is annular and is fixed on the circumferential inner wall of the annular cylinder body, an extension part is fixed at the bottom of the first bearing platform, a slot is formed between the extension part and the inner wall of the annular cylinder body, and the top of the annular water retaining ring is inserted into the slot and is in contact with or close to the outer surface of the extension part;

the bottom of the annular cylinder body is positioned in the seepage water accumulation area.

By adopting the structure, the water energy in the seepage accumulation area can enter the annular water retaining ring through the gap between the annular water retaining ring and the slot, and can flow to a sewer through the straight pipe, so that the accumulated water on the surface of the stratum can be conveniently discharged.

The method is further optimized as follows: the inner aligning ring comprises a drainage ring and a connecting ring;

the connecting ring is wound on the peripheral surface of the drainage ring, third flanges are arranged on the periphery of the top of the connecting ring, a butt joint groove matched with the third flanges is formed in the top of the second flanges, the butt joint groove is annular and is located on the inner surface of the second flanges, and the third flanges are inserted into the butt joint groove.

By adopting the structure, the inner aligning ring is convenient to connect, and the sealing performance between the inner aligning ring and the outer aligning ring is improved.

The method is further optimized as follows: and a second bearing platform is fixed at the bottom of the drainage ring, is annular and is fixed on the circumferential inner wall of the drainage ring.

By adopting the structure, other connecting pieces can be conveniently inserted into the drainage ring, and the positioning and the installation are more convenient.

The method is further optimized as follows: a first flange is fixed on the periphery of the top of the first straight cylinder section, and an inserting edge is fixed at the bottom of the first flange;

the base is provided with an annular groove matched with the inserting edge, and the inserting edge is inserted into the annular groove.

Adopt above-mentioned structure, improve the leakproofness between base and the straight intubate of bucket type switching, ponding treatment effect is better.

The method is further optimized as follows: the base comprises a second straight cylinder section and a second cone section, the second cone section and the second straight cylinder section are both annular, the center line of the second cone section is superposed with the center line of the second straight cylinder section, and the second straight cylinder section is fixed at the top of the second cone section;

an annular plate is fixed around the bottom surface of the second vertebral body section, a first fixed block and a second fixed block are fixed on the annular plate, and the first fixed block and the second fixed block are respectively positioned on two opposite sides of the second vertebral body section;

the first fixing block is provided with a dovetail groove, the second fixing block is fixedly provided with a dovetail block matched with the dovetail groove, and the dovetail block is matched and connected with the dovetail groove on the adjacent deodorization water accumulation processor.

By adopting the structure, under the matching and inserting of the dovetail block and the dovetail groove, the adjacent deodorization water accumulation processors are connected in parallel, so that the deodorization water accumulation processors are convenient to position and install.

The method is further optimized as follows: the outer surface of the second cone section is provided with a convex strip, and the convex strip is wound on the circumferential surface of the second cone section.

Adopt above-mentioned structure, strengthen the joint strength between base and the stratum, improve pre-buried steadiness, play and grab the effect of holding.

The method is further optimized as follows: the connector with the straight tube upper segment is all inserted and is established in the base, first straight cylinder section surface with second straight cylinder section internal surface contact, first centrum section surface with second centrum section internal surface contact.

The method is further optimized as follows: the water seepage holes are arc-shaped.

To sum up, the utility model discloses following beneficial effect has: the accumulated water in the water seepage accumulation area gradually rises along with the gradual accumulation of the seepage water when the accumulated water in the toilet enters the water seepage accumulation area through the seepage holes, and when the water level overflows the top surface of the annular water retaining ring, the accumulated water in the water seepage accumulation area enters the annular water retaining ring through the gap between the annular water retaining ring and the slot and flows to a sewer through the straight pipe, so that the accumulated water on the surface of the stratum is conveniently discharged. Simultaneously, because the infiltration is gathered and is had the infiltration in the district, and annular barrel bottom is located the infiltration and gathers the district inside, therefore the foul smell in the sewer can not upwards emerge through the infiltration hole to play deodorant effect. An annular water retaining ring is added in the bucket type switching straight insertion pipe to form a water seepage accumulation area to play a water sealing role, so that the problem that odor overflows into a toilet can be effectively solved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment, which is mainly used for embodying the overall structure of a deodorization accumulated water processor;

FIG. 2 is a top view of the embodiment, mainly used to show the connection structure of the outer aligning ring and the inner aligning ring;

FIG. 3 is a schematic sectional view of the embodiment, which is mainly used for embodying the internal structure of the deodorization accumulated water processor;

FIG. 4 is a schematic partial sectional view of the embodiment, which is mainly used for embodying the internal structure of the deodorization accumulated water processor;

FIG. 5 is a schematic structural diagram of the embodiment, which is mainly used for embodying the specific structure of the base;

FIG. 6 is an exploded view of the embodiment, which is mainly used for showing the matching structure among the bucket type adapting straight insertion tube, the outer aligning ring and the inner aligning ring;

FIG. 7 is a schematic cross-sectional view of an embodiment, which is mainly used for embodying the structure of a bucket-type switching straight insertion pipe;

fig. 8 is a schematic sectional view of the embodiment, which is mainly used for embodying a specific structure of the outer aligning ring.

In the figure, 1, a bucket type switching straight cannula; 11. a straight pipe; 121. a first straight barrel section; 122. a first vertebral body segment; 123. a seepage accumulation area; 124. an annular water retaining ring; 125. a first flange; 126. inserting edges; 2. a base; 21. a second straight section; 22. a second vertebral body segment; 23. a first fixed block; 24. an annular groove; 25. an annular plate; 26. a dovetail block; 27. a dovetail groove; 28. a second fixed block; 3. an outer aligning ring; 31. a second flange; 32. an annular cylinder; 33. a first bearing platform; 34. a butt joint groove; 35. a slot; 4. an inner aligning ring; 41. a drainage ring; 42. a connecting ring; 43. a third flange; 44. a second platform; 5. and (4) water seepage holes.

In the figure, the arrow points to represent the water penetration direction.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): a deodorization water accumulation processor comprises a base 2, an outer aligning ring 3, an inner aligning ring 4 and a bucket-shaped switching straight insertion pipe 1 as shown in figures 1-8. The bucket type switching straight insertion pipe 1 comprises a straight pipe 11 and a hollow connector connected to the upper end of the straight pipe 11, and the straight pipe 11 and the connector are integrally arranged. The connecting head comprises a first straight tube section 121 and a first hollow cone section 122, wherein the first cone section 122 is connected between the first straight tube section 121 and the straight tube 11. The bore of the first cone section 122 gradually decreases from top to bottom, the upper end of the first cone section 122 is connected to the bottom of the first straight tube section 121 and integrally formed therewith, and the lower end is connected to the top of the straight tube 11 and integrally formed therewith. An annular water retaining ring 124 is fixed on the inner wall of the first cone section 122, the center line of the annular water retaining ring 124 is overlapped with the center line of the straight pipe 11, and the inner diameter of the annular water retaining ring 124 is larger than that of the straight pipe 11. The annular dam 124 is secured at the bottom to the inner wall of the first cone section 122 and extends upwardly at the top. The top surface of the annular dam 124 is located above the junction of the first cone segment 122 and the first straight cylinder segment 121. A water seepage accumulation area 123 is arranged between the annular water retaining ring 124 and the first cone section 122, the inner aligning ring 4 is inserted in the outer aligning ring 3, and the outer aligning ring 3 is inserted in the water seepage accumulation area 123 in the connector and is in surface contact with or close to the annular water retaining ring 124. The outer aligning ring 3 is provided with a water seepage hole 5, and the water seepage hole 5 is communicated with the water seepage accumulation area 123.

Referring to fig. 1 to 8, the outer centering ring 3 includes an annular cylinder 32, a second flange 31 surrounding itself is disposed around the top of the annular cylinder 32, and water seepage holes 5 are formed in the second flange 31 and penetrate the upper and lower sides of the second flange 31. Specifically, the second flange 31 is disposed around the circumferential surface of the annular cylinder 32, the width of the second flange 31 gradually widens from one side of the annular cylinder 32 to the opposite side, and the widest position and the narrowest position of the second flange 31 are respectively located at the opposite sides of the annular cylinder 32. The water seepage holes 5 are arc-shaped, and the middle sections of the water seepage holes 5 are just positioned at the widest positions of the second flanges 31. A first bearing platform 33 is fixed on the inner wall of the annular cylinder 32, and the first bearing platform 33 is annular and fixed on the circumferential inner wall of the annular cylinder 32. The first platform 33 is fixed on the inner wall of the annular cylinder 32 at the outer side, and extends downwards gradually at the inner side and is fixed with an extension part (not shown in the figure) at the bottom. The extension part is circular and the center of the circle is positioned on the central line of the straight pipe 11. The width of the first bearing platform 33 gradually narrows from one side of the annular cylinder 32 to the other side, and the widest position and the narrowest position of the first bearing platform 33 are respectively positioned at two opposite sides of the annular cylinder 32. Specifically, the width of the first platform 33 changes in a direction just opposite to the width of the second flange 31, i.e. the widest position of the first platform 33 and the narrowest position of the second flange 31 are just on the same side of the annular cylinder 32, and the narrowest position of the first platform 33 and the widest position of the second flange 31 are just on the same side of the annular cylinder 32.

Referring to fig. 1-8, a slot 35 is disposed between the extension portion and the inner wall of the annular cylinder 32, and the top of the annular water retaining ring 124 is inserted into the slot 35 and contacts or approaches the outer surface of the extension portion and the bottom of the first supporting platform 33. The bottom of the annular cylinder 32 is located in the seep water accumulation zone 123 and is supported on the inner wall of the first cone segment 122. A first flange 125 is fixed around the top of the first straight cylinder section 121, an inserting edge 126 is fixed at the bottom of the first flange 125, and the inserting edge 126 is wound around the first straight cylinder section 121 and is not in contact with the outer surface of the first straight cylinder section 121. The base 2 is provided with an annular groove 24 matched with the inserting edge 126, and the inserting edge 126 is inserted into the annular groove 24.

Referring to fig. 1-8, the base 2 includes a second straight cylindrical section 21 and a second vertebral section 22. The second cone segment 22 and the second straight cylinder segment 21 are both circular rings, and the central line of the second cone segment 22 coincides with the central line of the second straight cylinder segment 21. The top caliber of the second cone segment 22 is larger than the bottom caliber, and the second straight cylinder segment 21 is fixed on the top of the second cone segment 22 and is integrated with the second cone segment. An annular plate 25 is fixed around the bottom surface of the second cone segment 22, and the annular plate 25 surrounds the circumferential surface of the second cone segment 22. The annular plate 25 is fixed with a first fixed block 23 and a second fixed block 28, and the first fixed block 23 and the second fixed block 28 are respectively positioned at two opposite sides of the second cone segment 22. The first fixing block 23 is provided with a dovetail groove 27, the second fixing block 28 is provided with a dovetail block 26 matched with the dovetail groove 27, the number of the dovetail grooves 27 and the number of the dovetail blocks 26 are two, and the two dovetail grooves 27 and the two dovetail blocks 26 are respectively in one-to-one correspondence. The dovetail block 26 is used for being matched and connected with a dovetail groove 27 on an adjacent deodorization water accumulation processor, the dovetail groove 27 is used for being matched and connected with the dovetail block 26 on the adjacent deodorization water accumulation processor, and the adjacent deodorization water accumulation processors are connected in parallel under the matched insertion of the dovetail block 26 and the dovetail groove 27. In order to strengthen the joint strength between base 2 and the stratum, improve pre-buried steadiness, second cone section 22 surface is provided with the sand grip, and the sand grip is convenient for play around establishing in second cone section 22 circumference surface. The second cone segment 22 is also fixed with reinforcing ribs on its circumferential surface, which are fixed on the top surface of the annular plate 25 and on the outer surface of the second cone segment 22.

Referring to fig. 1-8, the inner centering ring 4 includes a drain ring 41 and a connecting ring 42. The connection ring 42 is wound around the peripheral surface of the drain ring 41, the width of the connection ring 42 gradually increases from one side of the drain ring 41 to the opposite side, and the widest position and the narrowest position of the connection ring 42 are respectively located at the opposite sides of the drain ring 41. Specifically, the width of the connecting ring 42 varies in the same direction as the width of the second flange 31, i.e. the widest position of the connecting ring 42 is located on the same side of the drain ring 41 as the widest position of the second flange 31, and the narrowest position of the connecting ring 42 is located on the same side of the drain ring 41 as the narrowest position of the second flange 31. The connecting ring 42 is inserted into the annular cylinder 32 and the outer surface of the connecting ring 42 contacts with the inner surface of the annular cylinder 32. The bottom surface of the connecting ring 42 is supported on the upper surface of the first bearing platform 33.

Referring to fig. 1 to 8, a third flange 43 is provided around the top of the connecting ring 42, and the top surface of the third flange 43 is flush with the top surface of the second flange 31. The top surface of the drain ring 41 is higher than the top surfaces of the third flange 43 and the second flange 31. The top of the second flange 31 is provided with a butt groove 34 matched with the third flange 43, the butt groove 34 is annular and is located on the inner surface of the second flange 31, and the third flange 43 is inserted in the butt groove 34. The bottom of the drain ring 41 is fixed with a second bearing platform 44, and the second bearing platform 44 is annular and fixed on the inner wall of the circumference of the drain ring 41. The second bearing platform 44 is provided for inserting other connecting members into the drainage ring 41 to facilitate positioning and installation. The connector and the upper section of the straight tube 11 are inserted in the base 2, the outer surface of the first straight tube section 121 is in contact with the inner surface of the second straight tube section 21, and the outer surface of the first cone section 122 is in contact with the inner surface of the second cone section 22. An annular groove 24 is formed in the top surface of the second straight cylinder section 21. The second straight cylinder section 21 and the first flange 125 are supported at the bottom of the second flange 31.

The accumulated water in the toilet enters the water seepage accumulation area 123 through the water seepage holes 5, the water level in the water seepage accumulation area 123 gradually rises along with the gradual accumulation of the seepage water, when the water level overflows the top surface of the annular water retaining ring 124, the accumulated water in the water seepage accumulation area 123 enters the annular water retaining ring 124 through the gap between the annular water retaining ring 124 and the slot 35 and flows to a sewer through the straight pipe 11, and the accumulated water on the surface of the floor is convenient to discharge. Meanwhile, because the seepage water is accumulated in the seepage water accumulation area 123 and the bottom of the annular cylinder 32 is positioned inside the seepage water accumulation area 123, the odor in the sewer cannot upwards emerge through the seepage water holes 5, thereby playing a role of deodorization.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims

1. The utility model provides a deodorant ponding treater, includes base (2), outer aligning circle (3) and interior aligning circle (4), characterized by: the connecting structure is characterized by further comprising a bucket type switching straight insertion pipe (1), wherein the bucket type switching straight insertion pipe (1) comprises a straight pipe (11) and a connecting head connected to the upper end of the straight pipe (11), the connecting head comprises a first straight cylinder section (121) and a first cone section (122) arranged in a hollow mode, and the first cone section (122) is connected between the first straight cylinder section (121) and the straight pipe (11);

an annular water retaining ring (124) is fixed on the inner wall of the first cone body section (122), a water seepage accumulation area (123) is arranged between the annular water retaining ring (124) and the first cone body section (122), the inner aligning ring (4) is inserted into the outer aligning ring (3), and the outer aligning ring (3) is inserted into the water seepage accumulation area (123) in the connector and is in surface contact with or close to the annular water retaining ring (124);

be provided with infiltration hole (5) on outer aligning circle (3), infiltration hole (5) with infiltration accumulation district (123) intercommunication.

2. A deodorization water trap as defined in claim 1, which is characterized in that: the outer aligning ring (3) comprises an annular cylinder (32), a second flange (31) wound around the outer aligning ring is arranged on the periphery of the top of the annular cylinder (32), and the water seepage holes (5) are formed in the second flange (31);

a first bearing platform (33) is fixed on the inner wall of the annular cylinder body (32), the first bearing platform (33) is annular and is fixed on the circumferential inner wall of the annular cylinder body (32), an extending part is fixed at the bottom of the first bearing platform (33), a slot (35) is formed between the extending part and the inner wall of the annular cylinder body (32), and the top of the annular water retaining ring (124) is inserted into the slot (35) and is in contact with or close to the outer surface of the extending part;

the bottom of the annular cylinder (32) is positioned in the seepage water accumulation area (123).

3. A deodorization water trap as claimed in claim 2, wherein: the inner aligning ring (4) comprises a drainage ring (41) and a connecting ring (42);

the connecting ring (42) is wound on the peripheral surface of the drainage ring (41), third flanges (43) are arranged on the periphery of the top of the connecting ring (42), a butt joint groove (34) matched with the third flanges (43) is formed in the top of the second flange (31), the butt joint groove (34) is annular and is located on the inner surface of the second flange (31), and the third flanges (43) are inserted into the butt joint groove (34).

4. A deodorization water trap as claimed in claim 3, wherein: and a second bearing platform (44) is fixed at the bottom of the drainage ring (41), and the second bearing platform (44) is annular and is fixed on the circumferential inner wall of the drainage ring (41).

5. A deodorization water trap as defined in claim 1, which is characterized in that: a first flange (125) is fixed on the periphery of the top of the first straight cylinder section (121), and an inserting edge (126) is fixed at the bottom of the first flange (125);

the base (2) is provided with an annular groove (24) matched with the inserting edge (126), and the inserting edge (126) is inserted into the annular groove (24).

6. A deodorization water trap as defined in claim 1, which is characterized in that: the base (2) comprises a second straight cylinder section (21) and a second cone section (22), the second cone section (22) and the second straight cylinder section (21) are both annular, the central line of the second cone section (22) is coincident with the central line of the second straight cylinder section (21), and the second straight cylinder section (21) is fixed on the top of the second cone section (22);

an annular plate (25) is fixed on the periphery of the bottom surface of the second cone section (22), a first fixed block (23) and a second fixed block (28) are fixed on the annular plate (25), and the first fixed block (23) and the second fixed block (28) are respectively positioned on two opposite sides of the second cone section (22);

the improved deodorization water-collecting device is characterized in that a dovetail groove (27) is formed in the first fixing block (23), a dovetail block (26) matched with the dovetail groove (27) is fixed on the second fixing block (28), and the dovetail block (26) is used for being matched and connected with the dovetail groove (27) on the adjacent deodorization water-collecting device.

7. The deodorization water trap as set forth in claim 6, wherein: the outer surface of the second cone body section (22) is provided with a convex strip, and the convex strip is arranged on the circumferential surface of the second cone body section (22) in a winding mode.

8. The deodorization water trap as set forth in claim 6, wherein: the connector with straight tube (11) upper segment all inserts and establishes in base (2), first straight tube section (121) surface with straight tube section of second (21) internal surface contact, first vertebra body section (122) surface with second vertebra body section (22) internal surface contact.

9. A deodorization water trap as defined in claim 1, which is characterized in that: the water seepage holes (5) are arc-shaped.