CN215716653U - Multi-functional rainwater pipe network optimizing apparatus - Google Patents

Abstract

The utility model provides a multifunctional rainwater pipe network optimizing device, which comprises a gutter; the rainwater hopper is installed to the up end of gutter, and the lower terminal surface is connected with the drain pipe. The novel arc-shaped filter plate can filter impurities with smaller particles, and the arc-shaped filter plate and the cylinder cover are fixedly connected, so that the arc-shaped filter plate and the cylinder cover can be detached together, the arc-shaped filter plate can be cleaned regularly, and the problem that a drain pipe is blocked after long-term use is avoided; through using the buffer tube, rivers can not directly strike the pipe wall of return bend when the return bend, but get into the buffer tube, can protect the return bend, and the buffer tube dismouting on the baffle can be followed to the buffer tube moreover, and the replacement is convenient, when installing the buffer tube in addition, slides the dog of buffer tube to the baffle upside along the guiding hole on the baffle, then rotates the buffer tube, makes the dog paste, rotates the lock sleeve at last and makes it only support the baffle lower surface to fixed buffer tube.

Description

Multi-functional rainwater pipe network optimizing apparatus

Technical Field

The utility model relates to a multifunctional rainwater pipe network optimizing device, and belongs to the technical field of rainwater pipes.

Background

Various rainwater pipe networks are often used during house drainage, and during installation, the rainwater pipe networks need to take into consideration various factors such as rainfall, terrain, temperature and the like, wherein a water drop pipe is the most common. The water drop pipe roof is an organized drainage roof, which means that water gushes from the roof are firstly collected in a gutter and then drained to the ground through a water drop pipe. The water falling pipe is a common way for removing rain and snow on the roof of a common civil building and consists of a grating water outlet, a rain water bucket, a water falling pipe and the like, and the drained water is led to the ground or is connected with a rain water pipe.

At present, gutter structures are additionally arranged at eave positions of a plurality of houses, then siphon rain hoppers are arranged in the gutters, and then accumulated water in the gutters is discharged by utilizing the siphon principle. The gutter is a concave part between two crotch parts of the roof of the building. The roof drainage is organized drainage and unorganized drainage (free drainage), the organized drainage is that rainwater is collected into a gutter and then drained by a rainwater pipe, the gutter collecting the rainwater is called a gutter, the gutter is an inner gutter and an outer gutter, the inner gutter is a gutter in an outer wall, and a parapet is common; the outer gutter is a gutter which is selected out of the outer wall and generally has no parapet wall. The gutter is made of tinplate or asbestos cement.

Siphon is to fill liquid in an inverted U-shaped tubular structure by utilizing the action force phenomenon of liquid level difference, and then place the end with a high opening in a container filled with liquid, so that the liquid in the container can continuously flow out to a lower position through a siphon. However, when the existing siphon rain pipe is used, rainwater can carry gravel, other foreign matters and the like to enter the water pipe, the water pipe is easy to plug after a long time, and is extremely difficult to clean.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a multifunctional rainwater pipe network optimization device which solves the problems that when the existing siphon rainwater pipe is used, rainwater can carry gravel and other foreign matters into a water pipe, the water pipe is easy to block after a long time and extremely difficult to clean, and in addition, the bent part in the rainwater pipe is impacted by rainwater for a long time, is easy to damage and deform, and the service life is shortened.

The utility model is realized by the following technical scheme.

The utility model provides a multifunctional rainwater pipe network optimizing device, which comprises a gutter; the upper end surface of the gutter is provided with a rainwater hopper, and the lower end surface of the gutter is connected with a drain pipe; the lower end of the drain pipe is communicated with the collecting pipe through a bent pipe; the collecting pipe is communicated with the water storage cylinder through a water collecting pipe, and a plurality of flow dividing pipes are communicated with the side wall of the collecting pipe; the water storage cylinder is provided with a faucet and a transparent glass layer.

A partition plate is arranged in the drain pipe and is positioned at the joint of the drain pipe and the bent pipe; a plurality of mounting holes are formed in the partition plate, and the edge of each mounting hole is communicated with a plurality of guide holes.

A buffer tube is connected in the mounting hole in a sliding manner, a thread is arranged on the buffer tube and is sleeved with a locking sleeve, and the locking sleeve is contacted with the lower end face of the partition plate; and one end of the buffer tube, which is contacted with the upper end face of the partition plate, is provided with a plurality of stop blocks, and the stop blocks are in sliding fit with the guide holes.

An arc-shaped filter plate is arranged in the filter cylinder, and a cylinder cover is bolted at one end of the filter cylinder.

The shunt tubes are provided with valves, and the lower ends of the shunt tubes are connected with protective net covers.

And a cylinder is arranged on the inner wall of the water storage cylinder and is positioned at the joint of the water storage cylinder and the water collecting pipe.

A plurality of through holes are formed in the side wall of the cylinder, and floating balls are placed in the cylinder.

The utility model has the beneficial effects that: the arc-shaped filter plate can filter impurities with smaller particles, and the arc-shaped filter plate and the cylinder cover can be detached together due to the fixed connection of the arc-shaped filter plate and the cylinder cover, so that the arc-shaped filter plate can be cleaned regularly, and the problem that a drain pipe is blocked after long-term use is avoided; through using the buffer tube, rivers can not directly strike the pipe wall of return bend when the return bend, but get into the buffer tube, can protect the return bend, and the buffer tube dismouting on the baffle can be followed to the buffer tube moreover, and the replacement is convenient, when installing the buffer tube in addition, slides the dog of buffer tube to the baffle upside along the guiding hole on the baffle, then rotates the buffer tube, makes the dog paste, rotates the lock sleeve at last and makes it only support the baffle lower surface to fixed buffer tube.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 2;

FIG. 4 is an enlarged view of area A of FIG. 3;

FIG. 5 is an enlarged view of area B of FIG. 3;

FIG. 6 is an enlarged view of area C of FIG. 3;

FIG. 7 is a block diagram of the partition of FIG. 5;

FIG. 8 is a block diagram of the buffer tube of FIG. 5.

In the figure: 1-rainwater hopper, 2-gutter, 3-drainage pipe, 4-elbow pipe, 5-collecting pipe, 6-shunt pipe, 601-valve, 602-protective mesh enclosure, 7-water collecting pipe, 8-water storage cylinder, 801-transparent glass layer, 9-water tap, 10-cylinder cover, 11-filter cylinder, 12-arc filter plate, 13-buffer pipe, 1301-screw thread, 1302-stop block, 14-partition plate, 1401-installation hole, 1402-guide hole, 15-cylinder, 16-floating ball, 17-through hole and 18-locking sleeve.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

In the description of the present invention, it is to be understood that the terms "upper," "middle," "outer," "inner," "around," and the positional relationships are used merely for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1 to 8, a multifunctional rainwater pipe network optimizing device includes a gutter 2; the upper end surface of the gutter 2 is provided with a rainwater hopper 1, and the lower end surface is connected with a drain pipe 3; the drain pipe 3 is communicated with a filter cartridge 11, and the lower end of the drain pipe 3 is communicated with the collecting pipe 5 through a bent pipe 4; the collecting pipe 5 is communicated with a water storage cylinder 8 through a collecting pipe 7, and the side wall of the collecting pipe 5 is communicated with a plurality of flow dividing pipes 6; the water storage cylinder 8 is provided with a faucet 9 and is provided with a transparent glass layer 801.

A partition plate 14 is arranged in the drain pipe 3, and the partition plate 14 is positioned at the joint of the drain pipe 3 and the elbow pipe 4; the partition 14 is provided with a plurality of mounting holes 1401, and the edge of each mounting hole 1401 is communicated with a plurality of guide holes 1402.

A buffer tube 13 is connected in the mounting hole 1401 in a sliding manner, a thread 1301 is arranged on the buffer tube 13, a locking sleeve 18 is sleeved on the buffer tube 13, and the locking sleeve 18 is in contact with the lower end face of the partition plate 14; the buffer tube 13 is provided with a plurality of stops 1302 at the end that contacts the upper end of the spacer 14, the stops 1302 being a sliding fit with the guide holes 1402.

An arc-shaped filter plate 12 is arranged in the filter cylinder 11, and one end of the filter cylinder 11 is bolted with a cylinder cover 10.

A valve 601 is arranged on the shunt pipe 6, and the lower end of the shunt pipe 6 is connected with a protective net cover 602.

The inner wall of the water storage cylinder 8 is provided with a cylinder 15, and the cylinder 15 is positioned at the joint of the water storage cylinder 8 and the water collecting pipe 7.

A plurality of through holes 17 are formed in the side wall of the cylinder 15, and a floating ball 16 is placed in the cylinder 15.

Examples

From the above, a multifunctional rainwater pipe network optimizing device comprises a rainwater hopper 1 and a gutter 2, the rainwater hopper 1 is installed on the bottom surface of the inner side of the gutter 2, the upper end of the drainage pipe 3 is fixedly connected with the bottom surface of the rainwater hopper 1, the lower end of the drainage pipe 3 is communicated with the elbow pipe 4, one end of the elbow pipe 4 is communicated with the collecting pipe 5, the inner wall of the drainage pipe 3 is also fixedly connected with the partition plate 14, the partition plate 14 is arranged at the joint of the drainage pipe 3 and the elbow pipe 4, the upper surface of the partition plate 14 is provided with a plurality of installation holes 1401 and a plurality of guide holes 1402, the guide holes 1402 are communicated with the installation holes 1401, the installation holes 1401 are connected with the buffer pipe 13 in a sliding mode, the upper end of the buffer pipe 13 is fixedly connected with a plurality of stop blocks 1302, the stop blocks 1302 abut against the upper surface of the partition plate 14, the stop blocks 1302 are matched with the guide holes 1402 in a sliding mode, the peripheral side surface of the buffer pipe 13 is provided with threads 1301, the threads are connected with the locking sleeve 18 in a threaded mode, and the locking sleeve 18 abuts against the lower surface of the partition plate 14; in the above-mentioned structure, under the condition of rain, the rainwater of roofing can flow to gutter 2, then the water in gutter 2 can get into rainwater fill 1, then in drain pipe 3 and return bend 4 entering collecting pipe 5, at this in-process, rivers can not directly strike the pipe wall of return bend 4 when the return bend 4, but get into buffer tube 13, this can protect return bend 4, and buffer tube 13 can follow the dismouting on baffle 14 moreover, and the replacement is convenient.

As shown in fig. 7 and 8, when installing the buffer tube 13, the block 1302 of the buffer tube 13 is slid along the guide hole 1402 in the partition wall 14 to the upper side of the partition wall 14, then the buffer tube 13 is rotated to abut the block 1302, and finally the locking sleeve 18 is rotated to abut only the lower surface of the partition wall 14, thereby fixing the buffer tube 13, and vice versa, for easy detachment.

The drain pipe 3 is also communicated with a filter cartridge 11, one end of the filter cartridge 11 is connected with a cartridge cover 10 through a bolt, one surface of the cartridge cover 10 is fixedly connected with an arc-shaped filter plate 12, and the arc-shaped filter plate 12 is positioned in the filter cartridge 11; in the above-mentioned structure, the rainwater can get into cartridge filter 11 when passing through drain pipe 3, and the gravel and other foreign matters of rainwater can be filtered to arc filter plate 12 in cartridge filter 11, and arc filter plate 12 can take out from cartridge filter 11 in addition, regularly clears up gravel and foreign matters wherein for drain pipe 3 keeps unobstructed.

Furthermore, the collecting pipe 5 is also communicated with a water collecting pipe 7 and a plurality of shunt pipes 6; in the structure, one part of rainwater entering the collecting pipe 5 enters the flow dividing pipe 6, and the other part of rainwater enters the water collecting pipe 7.

Furthermore, a valve 601 is arranged on the peripheral side surface of the shunt pipe 6; in the above structure, the valve 601 is used to control the flow of the shunt tube 6.

Further, a protective mesh enclosure 602 is installed at the lower end of the shunt tube 6; in the above structure, the protective guard 602 can protect the end of the shunt tube 6.

Further, the lower end of the water collecting pipe 7 is communicated with a water storage cylinder 8; in the structure, the rainwater entering the water collecting pipe 7 can be collected to the water storage cylinder 8, and the water in the water storage cylinder 8 can be used for watering.

Furthermore, a cylinder 15 is fixedly connected to the inner wall of the water storage cylinder 8, a plurality of through holes 17 are formed in the peripheral side face of the cylinder 15, a floating ball 16 is arranged inside the cylinder 15, and the cylinder 15 is installed at the connecting position of the water storage cylinder 8 and the water collecting pipe 7; in the structure, after the rainwater in the water storage cylinder 8 is fully stored, the floating ball 16 can rise to the top end of the cylinder 15 under the action of buoyancy to block the tail end of the water collecting pipe 7, and then the rainwater cannot enter the water storage cylinder 8.

Furthermore, a faucet 9 is also arranged on the peripheral side surface of the water storage cylinder 8; in the above structure, the water in the water storage cylinder 8 can be discharged through the faucet 9.

Furthermore, the peripheral side surface of the water storage cylinder 8 is also provided with a transparent glass layer 801; in the above structure, the water level in the water storage cylinder 8 can be visually seen through the transparent glass layer 801.

The working process of the utility model is as follows:

when raining, the ponding on roof can collect gutter 2 in, the water accumulation in gutter 2 will get into rainwater fill 1 under the effect of siphon principle to a take the altitude, then gets into drain pipe 3, return bend 4 and collecting pipe 5, can open valve 601 this moment, and the rainwater at first can get into water storage section of thick bamboo 8 through collecting pipe 7, holds full water back when water storage section of thick bamboo 8, and remaining rainwater will pass through shunt tubes 6 and discharge.

It should be noted that, as shown in fig. 3 and 4, the rain hopper 1 can block some large leaves, gravel and the like, then the arc-shaped filter plates 12 can filter impurities with smaller particles, and since the arc-shaped filter plates 12 are fixedly connected with the cartridge cover 10, the arc-shaped filter plates 12 can be removed together with the cartridge cover 10, which facilitates the periodic cleaning of the arc-shaped filter plates 12.

The utility model has the following beneficial effects:

1. the arc-shaped filter plate can filter impurities with smaller particles by using the arc-shaped filter plate, and the arc-shaped filter plate and the cylinder cover are fixedly connected, so that the arc-shaped filter plate and the cylinder cover can be detached together, the arc-shaped filter plate is convenient to clean regularly, and the problem that a drain pipe is blocked after long-term use can be avoided;

2. by using the buffer tube, water flow cannot directly impact the tube wall of the elbow but enters the buffer tube when passing through the elbow, so that the elbow can be protected, and the buffer tube can be disassembled and assembled from the partition plate, so that the replacement is convenient, and the service life of the buffer tube is prolonged; in addition, when the buffer tube is installed, the stop block of the buffer tube slides to the upper side of the partition plate along the guide hole on the partition plate, then the buffer tube is rotated to enable the stop block to be attached, and finally the locking sleeve is rotated to enable the locking sleeve to only abut against the lower surface of the partition plate, so that the buffer tube is fixed, and otherwise, the buffer tube is convenient to detach.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not exhaustive and do not limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (7)

1. A multi-functional rainwater pipe network optimizing apparatus, includes gutter (2), its characterized in that: the upper end surface of the gutter (2) is provided with a rainwater hopper (1), and the lower end surface is connected with a drain pipe (3); the drain pipe (3) is communicated with a filter cartridge (11), and the lower end of the drain pipe (3) is communicated with the collecting pipe (5) through a bent pipe (4); the collecting pipe (5) is communicated with a water storage cylinder (8) through a water collecting pipe (7), and the side wall of the collecting pipe (5) is communicated with a plurality of shunt pipes (6); the water storage barrel (8) is provided with a faucet (9) and is provided with a transparent glass layer (801).

2. The multifunctional rainwater pipe network optimizing apparatus of claim 1, wherein: a partition plate (14) is arranged in the drain pipe (3), and the partition plate (14) is positioned at the joint of the drain pipe (3) and the elbow pipe (4); a plurality of mounting holes (1401) are formed in the partition plate (14), and the edge of each mounting hole (1401) is communicated with a plurality of guide holes (1402).

3. The multifunctional rainwater pipe network optimizing apparatus of claim 2, wherein: a buffer tube (13) is connected in the mounting hole (1401) in a sliding manner, a thread (1301) is arranged on the buffer tube (13) and is sleeved with a locking sleeve (18), and the locking sleeve (18) is in contact with the lower end face of the partition plate (14); and a plurality of stop blocks (1302) are arranged at one end of the buffer tube (13) contacting with the upper end surface of the partition plate (14), and the stop blocks (1302) are in sliding fit with the guide holes (1402).

4. The multifunctional rainwater pipe network optimizing apparatus of claim 1, wherein: an arc-shaped filter plate (12) is arranged in the filter cartridge (11), and a cartridge cover (10) is bolted at one end of the filter cartridge (11).

5. The multifunctional rainwater pipe network optimizing apparatus of claim 1, wherein: a valve (601) is arranged on the shunt pipe (6), and the lower end of the shunt pipe (6) is connected with a protective net cover (602).

6. The multifunctional rainwater pipe network optimizing apparatus of claim 1, wherein: and a cylinder (15) is arranged on the inner wall of the water storage cylinder (8), and the cylinder (15) is positioned at the joint of the water storage cylinder (8) and the water collecting pipe (7).

7. The multifunctional rainwater pipe network optimizing apparatus of claim 6, wherein: a plurality of through holes (17) are formed in the side wall of the cylinder (15), and a floating ball (16) is placed in the cylinder (15).

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