CN219588738U - Indoor waterproof structure - Google Patents

Abstract

The utility model relates to the field of indoor pipeline waterproofing, in particular to an indoor waterproof structure which comprises a first pipe body and a second pipe body, wherein external threads are formed on the outer walls of the first pipe body and the second pipe body; a waterproof mechanism is arranged between the first pipe body and the second pipe body; the waterproof mechanism comprises an overflow-preventing floating plate, a water immersion sensor and a buzzer. According to the utility model, after the second pipe body is blocked, water in the second pipe body rises into the overflow preventing cylinder, the rising water generates buoyancy to enable the overflow preventing floating plate to be in sealing fit with the conical inner cylinder, the second pipe body is sealed and isolated from the first pipe body, water in the overflow preventing cylinder enters the overflow pipe after being full, the water immersion sensor contacts water to send an alarm to the buzzer to remind the indoor pipe of water leakage, and when a gap between the first pipe body and the second pipe body leaks, a water source enters the water absorbing cotton plate and is sensed by the water immersion sensor, and an alarm is sent to the buzzer to remind the indoor pipe of water leakage.

Description

Indoor waterproof structure

Technical Field

The utility model relates to the field of indoor pipeline waterproofing, in particular to an indoor waterproof structure.

Background

The indoor waterproof is an important component in a waterproof engineering system, the quality of the waterproof engineering system is directly related to whether the indoor waterproof engineering system can be used normally, a pipe body is generally combined by a plurality of drainage pipes, two drainage pipe joints are connected by a connecting pipe, but when the service time of the water pipe is too long or the water pipe is blocked, water in the pipe slowly permeates out through the connecting pipe and flows onto a bottom plate along the outer side of the pipe, and the outer side of the drainage pipe and corrosion of the drainage pipe can be damaged for a long time. The Chinese patent discloses an indoor waterproof structure (grant bulletin No. CN 214789576U), the patent discloses an indoor waterproof structure, which comprises a sleeve A and a sleeve B, wherein a threaded pipe is arranged at the top of the sleeve A, an internal threaded lantern ring is arranged at the bottom of the inside of the sleeve B, the threaded pipe and the internal threaded lantern ring are mutually matched, rubber pads are arranged at the top of the inside of the sleeve B and the bottom of the inside of the sleeve A, sliding bins are arranged at the top of the inside of the sleeve B and the bottom of the inside of the sleeve A, a threaded rod B is arranged at the inside of the sliding bins, the threaded rod B extends to the outer sides of the sleeve A and the sleeve B, and a sliding push plate is sleeved at the outer side far away from the threaded rod B; according to the utility model, through the mutual matching of the sliding push plate, the sliding bin, the threaded rod B and the rubber pad, after the water pipe is installed, the sealing ring can be extruded and fixed, so that the sealing ring is mutually attached to the water pipe, and the sealing effect of the sealing ring is further improved. The patent technology solves the problems of indoor water resistance and obvious problems in the prior art: most of the prior devices cannot extrude and fix the sealing ring after the water pipe is installed, and the sealing ring and the water pipe cannot be mutually attached, so that the sealing effect of the sealing ring is reduced, and the practicability of the device is reduced; most of the prior devices can not absorb and guide water to protect parts of the sleeve, thus reducing the service life of the devices; most of the prior devices can not squeeze and bite the sealing ring inside the sleeve when being connected and fixed, and can not seal the inside of the sleeve, thus reducing the sealing performance of the device.

However, in the prior art, the water-absorbing cotton is adopted to absorb the removed water, so that the overflow caused by water leakage is prevented, and the water leakage of the storage body cannot be ensured and then found in time.

The problem that warning can be timely sent out after the pipe body is leaked or blocked is solved.

Accordingly, a person skilled in the art provides an indoor waterproof structure to solve the problems set forth in the background art.

Disclosure of Invention

In order to solve the technical problems, the utility model provides:

an indoor waterproof structure comprises a first pipe body and a second pipe body, wherein external threads are formed on the outer walls of the first pipe body and the second pipe body; a waterproof mechanism is arranged between the first pipe body and the second pipe body; the waterproof mechanism comprises an overflow-preventing floating plate, a water immersion sensor and a buzzer; the overflow-preventing floating plate is used for sealing and blocking the overflow water of the second pipe fitting; the water immersion sensor detects overflowed water to the pipe II; the buzzer is matched with the water immersion sensor to send out an overflow alarm.

Preferably: the waterproof mechanism comprises a first installation screw sleeve and a second installation screw sleeve, and an anti-overflow cylinder is integrally and fixedly arranged between the first installation screw sleeve and the second installation screw sleeve.

Preferably: the first pipe body and the second pipe body are meshed and arranged on the inner sides of the first installation screw sleeve and the second installation screw sleeve through external threads.

Preferably: the inner wall of the anti-overflow cylinder is fixedly and hermetically provided with a conical inner cylinder, a sliding rod frame is fixedly arranged in the anti-overflow cylinder, and an anti-overflow floating plate is sleeved on the outer side of the sliding rod frame in a sealing sliding manner.

Preferably: the first installation screw sleeve and the second installation screw sleeve are in annular wrapping and sealing with the first pipe body and the second pipe body, screw holes are formed in the first installation screw sleeve, the second installation screw sleeve and the sealing ring in a matched mode, and bolts are installed in the screw holes in a meshed mode.

Preferably: the overflow pipe is connected with the side wall of the overflow prevention cylinder in a penetrating way, the water immersion sensor is connected and installed at the top of the overflow pipe, and the water immersion sensor is electrically connected with the controller and the buzzer.

Preferably: the anti-overflow cylinder is wrapped with a water-absorbing cotton plate, an isolation convex frame is sleeved on one side of the water-absorbing cotton plate, an isolation concave frame is sleeved on the other side of the water-absorbing cotton plate, screw holes are formed in the positions corresponding to the isolation convex frame and the isolation concave frame, and bolts are mounted in the screw holes.

The utility model has the technical effects and advantages that:

according to the utility model, after the second pipe body is blocked, water in the second pipe body rises into the overflow preventing cylinder, the rising water generates buoyancy to enable the overflow preventing floating plate to be in sealing fit with the conical inner cylinder, the second pipe body is sealed and isolated from the first pipe body, water in the overflow preventing cylinder enters the overflow pipe after being full, the water immersion sensor contacts water to send an alarm to the buzzer to remind the indoor pipe of water leakage, and when a gap between the first pipe body and the second pipe body leaks, a water source enters the water absorbing cotton plate and is sensed by the water immersion sensor, and an alarm is sent to the buzzer to remind the indoor pipe of water leakage.

Drawings

Fig. 1 is a schematic structural view of an indoor waterproof structure according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a sealing ring pad in an indoor waterproof structure according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a water-absorbent cotton board in an indoor waterproof structure according to an embodiment of the present utility model;

fig. 4 is a schematic structural view of an indoor water immersion sensor with a waterproof structure according to an embodiment of the present utility model;

fig. 5 is a schematic structural view of an isolation convex frame in an indoor waterproof structure according to an embodiment of the present utility model;

in the figure:

1. a first pipe body; 2. a second pipe body; 3. an external thread;

4. a waterproof mechanism; 401. installing a first screw sleeve; 402. installing a second screw sleeve; 403. an anti-overflow cylinder; 404. a conical inner cylinder; 405. a sliding rod frame; 406. an anti-overflow floating plate; 407. an overflow pipe; 408. a water immersion sensor; 409. a seal ring pad; 410. a water-absorbing cotton plate; 411. isolating the convex frame; 412. isolating the concave frame; 414. a controller; 415. a buzzer.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description. The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1 to 5, in this embodiment, an indoor waterproof structure is provided, which includes a first pipe body 1 and a second pipe body 2, wherein external threads 3 are formed on outer walls of the first pipe body 1 and the second pipe body 2; a waterproof mechanism 4 is arranged between the first pipe body 1 and the second pipe body 2; the waterproof mechanism 4 comprises an overflow-preventing floating plate 406, a water immersion sensor 408 and a buzzer 415; the overflow prevention floating plate 406 seals and blocks the overflow of the second pipe 2; the water sensor 408 detects overflow water to the second pipe 2; buzzer 415 in combination with water logging sensor 408 sounds an overflow alert; the waterproof mechanism 4 comprises a first installation screw sleeve 401 and a second installation screw sleeve 402, and an overflow preventing cylinder 403 is integrally and fixedly arranged between the first installation screw sleeve 401 and the second installation screw sleeve 402; the first pipe body 1 and the second pipe body 2 are meshed and installed on the inner sides of the first installation screw sleeve 401 and the second installation screw sleeve 402 through external threads 3; the inner wall of the overflow preventing cylinder 403 is fixedly and hermetically provided with a conical inner cylinder 404, a sliding rod frame 405 is fixedly arranged in the overflow preventing cylinder 403, and an overflow preventing floating plate 406 is sleeved on the outer side of the sliding rod frame 405 in a sealing sliding manner; the contact positions between the first mounting screw sleeve 401 and the second mounting screw sleeve 402 and the first pipe body 1 and the second pipe body 2 are in annular wrapping and sealing, a sealing ring pad 409 is arranged, screw holes are formed in the first mounting screw sleeve 401, the second mounting screw sleeve 402 and the sealing ring pad 409 in a matched mode, and bolts are installed in the screw holes in a meshed mode; the side wall of the overflow prevention cylinder 403 is connected with an overflow pipe 407 in a penetrating way, the top of the overflow pipe 407 is connected with a water immersion sensor 408, and the water immersion sensor 408 is electrically connected with a controller 414 and a buzzer 415; the outside of the overflow preventing cylinder 403 is wrapped with a water absorbing cotton plate 410, one side of the water absorbing cotton plate 410 is sleeved with an isolation convex frame 411, the other side of the water absorbing cotton plate 410 is sleeved with an isolation concave frame 412, the corresponding parts of the isolation convex frame 411 and the isolation concave frame 412 are provided with screw holes, and bolts are assembled in the screw holes;

the indoor pipe body I and the indoor pipe body II 2 are mounted on a mounting screw sleeve I401 and a mounting screw sleeve II 402 through external threads 3, and are connected with the pipe body I and the pipe body II 2 in a sealing way through an anti-overflow cylinder 403;

the first pipe body 1 is the sewage, and water flow is discharged from the second pipe body 2 through the overflow preventing cylinder 403;

when the second pipe body 2 is blocked, the water in the second pipe body 2 rises into the overflow preventing cylinder 403, the rising water generates buoyancy to the overflow preventing floating plate 406 to enable the overflow preventing floating plate to be in sealing fit with the conical inner cylinder 404, the second pipe body 2 is sealed and isolated from the first pipe body 1, and the water in the overflow preventing cylinder 403 enters the overflow pipe 407 after being full, so that the water immersion sensor 408 is in contact with the water to give an alarm to the buzzer 415 to remind that the water leakage problem occurs in the indoor pipe body;

and seal the first and second pipe bodies 1 and 2 through the sealing ring 409, when the gap between the first and second pipe bodies 1 and 2 leaks water, the water source enters the water-absorbing cotton plate 410 and is sensed by the water sensor 408, and the buzzer 415 is alerted to remind the indoor pipe body of water leakage.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present utility model without the inventive step, are intended to be within the scope of the present utility model. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (7)

1. An indoor waterproof structure comprises a first pipe body (1) and a second pipe body (2), and is characterized in that external threads (3) are formed on the outer walls of the first pipe body (1) and the second pipe body (2);

a waterproof mechanism (4) is arranged between the first pipe body (1) and the second pipe body (2);

the waterproof mechanism (4) comprises an anti-overflow floating plate (406), a water immersion sensor (408) and a buzzer (415);

the overflow-preventing floating plate (406) is used for blocking the overflow water of the second pipe body (2) in a sealing way;

the water immersion sensor (408) detects overflowed water to the pipe II (2);

the buzzer (415) is matched with the water immersion sensor (408) to give out an overflow alarm.

2. The indoor waterproof structure according to claim 1, wherein the waterproof mechanism (4) comprises a first installation screw sleeve (401) and a second installation screw sleeve (402), and an overflow preventing cylinder (403) is integrally and fixedly arranged between the first installation screw sleeve (401) and the second installation screw sleeve (402).

3. An indoor waterproof structure according to claim 1 or 2, wherein the first pipe body (1) and the second pipe body (2) are engaged and installed inside the first installation screw sleeve (401) and the second installation screw sleeve (402) through external threads (3).

4. The indoor waterproof structure according to claim 2, wherein the inner wall of the overflow preventing cylinder (403) is fixedly provided with a conical inner cylinder (404) in a sealing manner, a sliding rod frame (405) is fixedly arranged in the overflow preventing cylinder (403), and an overflow preventing floating plate (406) is arranged on the outer side of the sliding rod frame (405) in a sealing sliding sleeve manner.

5. The indoor waterproof structure according to claim 2, wherein the contact positions between the first installation screw sleeve (401) and the second installation screw sleeve (402) and the first pipe body (1) and the second pipe body (2) are in annular wrapping and sealing, a sealing ring pad (409) is installed, screw holes are formed in the first installation screw sleeve (401), the second installation screw sleeve (402) and the sealing ring pad (409) in a matched mode, and bolts are installed in the screw holes in a meshed mode.

6. The indoor waterproof structure according to claim 4, wherein the side wall of the overflow preventing cylinder (403) is connected with an overflow pipe (407) in a penetrating way, a water immersion sensor (408) is installed at the top of the overflow pipe (407), and the water immersion sensor (408) is electrically connected with a controller (414) and a buzzer (415).

7. The indoor waterproof structure according to claim 4, wherein the water-absorbing cotton plate (410) is wrapped on the outer side of the overflow-preventing cylinder (403), the isolation convex frame (411) is sleeved on one side of the water-absorbing cotton plate (410), the isolation concave frame (412) is sleeved on the other side of the water-absorbing cotton plate (410), screw holes are formed in the positions corresponding to the isolation convex frame (411) and the isolation concave frame (412), and bolts are assembled in the screw holes.