CN218458803U - Embedded rain and sewage shunting device - Google Patents

Abstract

The utility model discloses an embedded distribution of rain and sewage device relates to vatch basin technical field. The utility model discloses a vatch basin, the inside branch bulkhead that is constructed of vatch basin, vertical rotation is installed and is used for sheltering from on the vatch basin divide the flashboard of frame inner chamber, divide the frame will divide and form sewage chamber and river water chamber in the vatch basin, the last intercommunication of vatch basin has sewage pipe and river water pipe, the sewage pipe with the sewage chamber is linked together. The utility model discloses the drain pipe is at the in-process of drainage, water can enter into filtering component earlier, thereby give the impurity of aquatic and filter, discharge the sewage intracavity at last, and when the inside impurity of filtering component was too much, can give the collection with the inside impurity of filtering component through collecting the subassembly, thereby prevent that the inside impurity of filtering component from leading to too much influencing the inside water discharge of drain pipe, thereby avoided thereby sewage pipe and river water intraduct to get into too much impurity and lead to inside jam, guaranteed the normal blowdown of vatch basin.

Description

Embedded rain and sewage shunting device

Technical Field

The utility model relates to a vatch basin technical field, concretely relates to embedded distribution of rain and sewage device.

Background

Distribution of rain and sewage is a drainage system, and is the rainwater and sewage separately, respectively carry with a pipeline, discharge or subsequent processing's blowdown mode, and the rainwater directly arranges the river course through the rainwater pipe network, and sewage then collects the back through the sewage pipe network, send sewage treatment plant to handle, avoids sewage directly to get into the river course and causes the pollution, and the collection of rainwater utilizes and centralized management discharges, can reduce the impact of water yield to sewage treatment plant, guarantees sewage treatment plant's treatment effeciency.

Current distribution of rain and sewage is generally to carry out the branch flow management to rainwater and sewage through the embedded vatch basin in the ground, when fine or light rain in the day, it is comparatively muddy to get into the inside quality of water of vatch basin, thereby directly enter into in the sewage pipe, when heavy rain, the quality of water that gets into the vatch basin is better, the sewage pipe is in closed condition this moment, open the flashboard with sewage blowdown to in the river pipe, thereby in the blowdown river, but can bring into certain debris when sewage and rainwater enter into the vatch basin, most be the leaf, little branch, silt and so on, when inside impurity is too much in the vatch basin, lead to river pipe and sewage pipe to block up easily, influence the normal drainage of vatch basin, for this reason, the utility model provides an embedded distribution of rain and sewage device solves current not enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: for solving the problem in the above-mentioned background, the utility model provides an embedded distribution device of rain and sewage.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

embedded distribution of rain and sewage device, including the vatch basin, the internal portion of vatch basin is constructed and is divided the frame, vertical rotation is installed and is used for sheltering from on the vatch basin divide the flashboard of frame inner chamber, divide the frame will divide in the vatch basin to separate and form sewage chamber and river water chamber, the intercommunication has sewage pipe and river water pipe on the vatch basin, the sewage pipe with the sewage chamber is linked together, install the drive on the vatch basin the flashboard pivoted drive division, vertical slidable mounting has the sunshade on the vatch basin, the sunshade passes through the drive power drive, and it is used for removing the intercommunication department of sheltering from or sheltering from sewage pipe and sewage chamber, be provided with on the vatch basin with the drain pipe of sewage chamber intercommunication, the drain pipe is located the sewage pipe with river water pipe top, install the filter assembly who filters drain pipe impurity in the vatch basin, install in the well and be used for collecting the collection assembly impurity.

Further, the filtering component comprises a filtering box installed on the intercepting well, the top of the filtering box is an opening and is located below the drainage pipe, a plurality of filtering holes are vertically formed in the bottom of the filtering box in a penetrating mode, and the collecting component is used for collecting impurities in the filtering box.

Further, collect the subassembly and include vertical seting up two collection chambeies at vatch basin top, two discharge gates have been constructed to one side of the inside length direction of filter cartridge, two the discharge gate keep away from each other and all with collect the chamber and be linked together, there is the push pedal along its length direction horizontal sliding mounting in the filter cartridge, install on the vatch basin and be used for the drive the driving piece that the push pedal removed.

Further, the driving piece is connected with the flashboard and the push plate, and when the flashboard vertically rotates upwards or downwards, the push plate slides along the length direction of the push plate through the driving piece.

Furtherly, the flashboard rotates through the pivot to be installed on the vatch basin, the driving piece includes vertical slidable mounting and is in sliding block on the vatch basin, the vertical rack that installs on the sliding block, install in the flashboard pivot with rack toothing's gear, the sliding block with install interlock spare between the push pedal, work as when the sliding block slides, through interlock spare so that the push pedal removes.

Furthermore, the linkage piece is a hinge rod hinged on the sliding block, and the free end of the hinge rod is hinged on the top of the push plate.

Furthermore, the collecting chamber is vertically inserted with a collecting box, the top of the collecting box is provided with a handle, the top opening of the collecting box is communicated with the discharge port, and the top of the intercepting well is provided with a cover for shielding the two openings of the collecting chamber.

Furthermore, the bottom of the filter box is provided with two inclined planes which are far away from each other, and the edge of the lowest end of each inclined plane is respectively connected with the edge of the bottom of the discharge port.

The utility model has the advantages as follows:

1. the utility model discloses the drain pipe is at the in-process of drainage, water can enter into filtering component earlier, thereby give the impurity of aquatic and filter, discharge the sewage intracavity at last, and when the inside impurity of filtering component was too much, can give the collection with the inside impurity of filtering component through collecting the subassembly, thereby prevent that the inside impurity of filtering component from leading to too much influencing the inside water discharge of drain pipe, thereby avoided thereby sewage pipe and river water intraduct to get into too much impurity and lead to inside jam, guaranteed the normal blowdown of vatch basin.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a part of the structure of the present invention;

fig. 3 is a schematic view of another perspective of fig. 2 in accordance with the present invention;

figure 4 is a perspective partial cross-sectional view of the present invention from figure 2;

figure 5 is a further perspective, partial cross-sectional view of figure 2 of the present invention;

figure 6 is another perspective partial cross-sectional view of the present invention from figure 2;

reference numerals: 1. a catch basin; 2. a separation frame; 3. a shutter plate; 4. a sewage chamber; 5. a river cavity; 6. a sewage pipe; 7. a river pipe; 8. a shielding plate; 9. covering; 10. a drain pipe; 11. a filter assembly; 1101. a filter cartridge; 1102. a filtration pore; 12. a collection assembly; 1201. a collection chamber; 1202. a discharge port; 1203. pushing a plate; 1204. a drive member; 12041. a slider; 12042. a rack; 12043. a linkage member; 12044. a gear; 13. an inclined surface; 14. a collection box; 15. and (4) a handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

As shown in fig. 1-6, the embedded rain and sewage diversion device comprises an intercepting well 1, a separation frame 2 is constructed in the intercepting well 1, preferably, a filter screen (as shown in fig. 3) is installed in the separation frame 2, so that a certain impurity filtering effect is achieved, a flashboard 3 for shielding an inner cavity of the separation frame 2 is vertically and rotatably installed on the intercepting well 1, the flashboard 3 is an internal structure of the existing intercepting well 1, as shown in fig. 3, the driving mode is consistent with the existing driving mode, the flashboard 3 is driven to be opened and closed by two electric telescopic rods, two ends of the electric telescopic rods are respectively hinged in the flashboard 3 and the intercepting well 1, and the two intercepting wells 1 are close to the upper position inside the intercepting well 1, so that water in the intercepting well 1 cannot submerge the electric telescopic rods, and certainly, the electric telescopic rods can be replaced by hydraulic rods, so that the achieved effects are consistent, the separation frame 2 separates the interior of the intercepting well 1 into a sewage cavity 4 and a river cavity 5, the intercepting well 1 is communicated with a sewage pipe 6 and a river pipe 7, the sewage pipe 6 is communicated with the sewage cavity 4, the river pipe 7 is communicated with the river cavity 5, the intercepting well 1 is provided with a driving part for driving the flashboard 3 to rotate, in the embodiment, the driving part is an electric telescopic rod, the intercepting well 1 is vertically and slidably provided with a shielding plate 8, the shielding plate 8 is driven by a driving force and is used for relieving or shielding the communication part between the sewage pipe 6 and the sewage cavity 4, the shielding plate 8 is an internal structure of the existing intercepting well 1, the shielding plate 8 is driven to vertically move by the electric telescopic rod or a hydraulic cylinder, in the embodiment, the driving part is driven by the hydraulic cylinder, the hydraulic cylinder is arranged in the intercepting well 1 and is positioned in the sewage cavity 4, the hydraulic cylinder is positioned at the position close to the intercepting well 1, and the movable end of the hydraulic cylinder is connected with the top of the shielding plate 8, the intercepting well 1 is provided with a first water level sensor positioned in the sewage cavity 4, the first water level sensor is consistent with the water level sensor used by the existing intercepting well 1, the intercepting well 1 is provided with a drain pipe 10 communicated with the sewage cavity 4, the drain pipe 10 is positioned above the sewage pipe 6 and the river water pipe 7, the drain pipe 10 is positioned above the river water pipe 7 and the sewage pipe 6, the water in the sewage cavity 4 can be prevented from flowing back into the drain pipe 10, when the weather is clear or light rain, the flashboard 3 is in a closed state, the shutter board 8 is in a half-open state, the communicating caliber of the sewage pipe 6 and the sewage cavity 4 is narrow, the water quantity of the drain pipe 10 at the moment is less, the sewage content is low, the water quality does not reach the standard, so the water flowing into the sewage cavity 4 from the drain pipe 10 directly flows into the sewage pipe 6 at the moment and is handed to sewage treatment plants for treatment, when the weather is heavy rain, the water outlet quantity of the drain pipe 10 is larger, when the water level in the sewage chamber 4 rises to a certain height, the sewage pipe 6 touches the first water level sensor, so that the curtain board 8 moves downwards, so that the communication part between the sewage pipe 6 and the sewage chamber 4 is shielded, the water quality in the sewage chamber 4 is good at the moment, most of the water is rainwater, the second water level sensor electrically connected with the electric telescopic rod is installed in the sewage chamber 4, when the water level in the sewage chamber 4 continuously rises and touches the second water level sensor, the movable ends of the two electric telescopic rods start to move at the moment, so that the flashboard 3 vertically rotates upwards, the water in the sewage chamber 4 passes through the separation frame 2 and enters the river water chamber 5 until the water level in the river water chamber 5 is consistent with the water level in the sewage chamber 4, and the water in the sewage chamber 4 and the river water chamber 5 flows into the river water pipe 7 at the moment, thereby discharge in the river, it is required to explain that install in the river water pipe 7 and prevent flowing backward the ware, belong to current vatch basin 1 river water pipe 7 inner structure, the effect that its effect and check valve played is similar, prevent that the inside water refluence of river water pipe 7 from getting into vatch basin 1, install the filtering component 11 of filtering drainpipe 10 impurity in the vatch basin 1, install the collection component 12 that is used for collecting filtering component 11 impurity in the vatch basin 1, that is to say, drainpipe 10 is at the in-process of drainage, water can get into earlier in the filtering component 11, thereby give the filtration with the impurity of aquatic, discharge in the sewage chamber 4 at last, and when the impurity of filtering component 11 inside is too much, can give the collection with the inside impurity of filtering component 11 through collection component 12, thereby prevent that the inside impurity of filtering component 11 from leading to the inside water discharge that influences drainpipe 10, thereby avoided sewer 6 and the inside too much impurity of entering of river water pipe 7 to lead to inside jam, the blowdown of well 1 normal of assurance.

As shown in fig. 1 and 3, in some embodiments, the filtering assembly 11 includes a filtering box 1101 installed on the intercepting well 1, the top of the filtering box 1101 is open and is located below the drainage pipe 10, a plurality of filtering holes 1102 are vertically formed in the bottom of the filtering box 1101 in a penetrating manner, the collecting assembly 12 is used for collecting impurities inside the filtering box 1101, when the drainage pipe 10 discharges water, the water discharged from the drainage pipe 10 enters the filtering box 1101, so that the filtering holes 1102 play a role in filtering the impurities, and when the impurities inside the filtering box 1101 are excessive, the impurities inside the filtering box 1101 can be collected by the collecting assembly 12, so that the normal circulation of the water inside the drainage pipe 10 is ensured, and the overflow of the water level inside the filtering box 1101 cannot be caused.

As shown in fig. 1 and fig. 3 to 6, in some embodiments, the collection assembly 12 includes two collection cavities 1201 vertically opened at the top of the catch basin 1, two discharge ports 1202 are formed at one side of the interior of the filter box 1101 in the length direction, the two discharge ports 1202 are far away from each other and are both communicated with the collection cavities 1201, a push plate 1203 is horizontally slidably installed in the filter box 1101 in the length direction thereof, and a driving member 1204 for driving the push plate 1203 to move is installed on the catch basin 1, that is, the push plate 1203 can be moved in the interior of the filter box 1101 in the length direction by the driving member 1204, so that impurities in the filter box 1101 are pushed into the discharge ports 1202 and enter the two collection cavities 1201, and thus, the impurities in the interior of the filter box 1101 can be prevented from being too much.

As shown in fig. 1 and fig. 3 to 6, in some embodiments, the driving member 1204 is connected to the shutter 3 and the push plate 1203, when the shutter 3 is vertically rotated upwards or downwards, the driving member 1204 causes the push plate 1203 to slide along the length direction of the shutter, when the shutter 3 is in the closed state, the push plate 1203 is located at one end of the inside of the filter box 1101, when the shutter 3 is rotated and in the open state, the driving member 1204 causes the push plate 1203 to move along the length direction of the filter box 1101, so as to move to the other end of the inside of the filter box 1101 to clean impurities on the filter box 1101, thereby avoiding the need of additionally installing a power device to drive the push plate 1203, and saving energy consumption.

As shown in fig. 1 and fig. 3 to 6, in some embodiments, the shutter 3 is rotatably mounted on the intercepting well 1 through a rotating shaft, the driving member 1204 includes a sliding block 12041 vertically slidably mounted on the intercepting well 1, a rack 12042 is vertically mounted on the sliding block 12041, a gear 12044 engaged with the rack 12042 is rotatably mounted on the shutter 3, a linkage member 12043 is mounted between the sliding block 12041 and the push plate 1203, when the sliding block 12041 slides, the push plate 1203 is moved through the linkage member 12043, when the shutter 3 rotates, the rotating shaft of the shutter 3 rotates so that the gear 12044 rotates, the gear 12044 rotates so that the rack 12042 engaged with the gear 12044 moves vertically, so that the sliding block 12041 connected with the rack 12042 moves, and thus the push plate 1203 moves through the linkage member 12043.

As shown in fig. 1 and fig. 3 to 6, in some embodiments, the linkage member 12043 is a hinge rod hinged on the sliding block 12041, and a free end of the hinge rod is hinged on the top of the push plate 1203, that is, when the sliding block 12041 moves, the hinge rod hinged on the sliding block 12041 moves because one end of the hinge rod is hinged on the push plate 1203, and when the sliding block 12041 moves, the push plate 1203 moves by pushing or pulling the hinge rod, so as to achieve the effect of cleaning impurities by the push plate 1203.

As shown in fig. 1 and fig. 3-6, in some embodiments, a collection box 14 is vertically inserted into the collection chamber 1201, a handle 15 is installed on the top of the collection box 14, an open top of the collection box 14 is communicated with a discharge port 1202, a cover 9 for shielding the openings of the two collection chambers 1201 is installed on the top of the intercepting well 1, it should be noted that a cover plate for shielding the sewage chamber 4 and the river water chamber 5 of the intercepting well 1 is also installed on the top of the intercepting well 1, the intercepting well 1 is embedded on the ground, the cover plate and the cover 9 are both fixed on the top of the intercepting well 1 by means of bolts, when the push plate 1203 moves, impurities inside the filter box 1101 are pushed into the discharge port 1202 and then fall into the collection box 14 inside the collection chamber 1201, only the garbage inside the collection box 14 needs to be cleaned regularly, the cover 9 is moved after the bolts on the cover 9 are detached, so that the open top of the two collection chambers 1201 are exposed outside, and at this time, the worker pulls the handle 15 to pull the collection box 14 out of the collection chamber 1201, thereby facilitating the impurities to be cleaned.

In some embodiments, as shown in fig. 1 and fig. 3-6, the bottom of the filter box 1101 is configured with two inclined planes 13 away from each other, the lowest edges of the two inclined planes 13 are respectively connected with the bottom edges of the two discharge ports 1202, as shown in fig. 6, the inclined planes 13 are designed to make impurities inside the filter box 1101 better enter the collecting box 14, and cooperate with the flushing of the water flow of the drain pipe 10 to make the impurities enter the collecting box 14 more smoothly, it should be noted that, as the water flow of the drain pipe 10 flushes inside the collecting box 14, a certain amount of water remains inside the collecting box 14, but most of the water in the drain pipe 10 is discharged into the sewage chamber 4 from the filter holes 1102, and a very small amount of water enters the collecting box 14, which does not affect the normal use.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Embedded distribution of rain and sewage device, its characterized in that, including vatch basin (1), vatch basin (1) internal construction has branch frame (2), vertical rotation is installed and is used for sheltering from on vatch basin (1) flashboard (3) of branch frame (2) inner chamber, divide frame (2) will separate in vatch basin (1) and form sewage chamber (4) and river water chamber (5), vatch basin (1) goes up the intercommunication has sewage pipe (6) and river pipe (7), sewage pipe (6) with sewage chamber (4) are linked together, river water pipe (7) with river water chamber (5) are linked together, install the drive on vatch basin (1) flashboard (3) pivoted drive division, vertical slidable mounting has sunshade (8) on vatch basin (1), it is used for removing the intercommunication department that shelters from or shelter from sewage pipe (6) and sewage chamber (4), be provided with on vatch basin (1) sewage chamber (4) the vertical slidable mounting of sunshade (8), it is used for filtering impurity component (10) and filter drain pipe (11) and collect drain pipe component (10) in vatch basin (1), sewage pipe (10) collect drain pipe (11) and filter drain pipe (10) and impurity component (10), drain pipe (11) are used for removing the intercommunication (12).

2. The in-line rain and sewage diversion device according to claim 1, wherein the filtering assembly (11) comprises a filtering box (1101) installed on the intercepting well (1), the top of the filtering box (1101) is open and is located below the drainage pipe (10), a plurality of filtering holes (1102) are vertically perforated at the bottom of the filtering box (1101), and the collecting assembly (12) is used for collecting impurities inside the filtering box (1101).

3. The in-line rain and sewage diversion device according to claim 2, wherein the collection assembly (12) comprises two collection cavities (1201) vertically opened at the top of the intercepting well (1), one side of the length direction inside the filter box (1101) is configured with two discharge ports (1202), the two discharge ports (1202) are far away from each other and are communicated with the collection cavities (1201), a push plate (1203) is horizontally and slidably installed inside the filter box (1101) along the length direction thereof, and a driving member (1204) for driving the push plate (1203) to move is installed on the intercepting well (1).

4. The in-line rain and sewage diversion device according to claim 3, wherein the driving member (1204) is connected with the shutter plate (3) and the push plate (1203), and when the shutter plate (3) vertically rotates upwards or downwards, the push plate (1203) slides along the length direction of the push plate (1203) through the driving member (1204).

5. The in-line type rain and sewage diversion device according to claim 4, wherein the shutter plates (3) are rotatably installed on the intercepting well (1) through rotating shafts, the driving member (1204) comprises sliding blocks (12041) vertically and slidably installed on the intercepting well (1), racks (12042) are vertically installed on the sliding blocks (12041), gears (12044) engaged with the racks (12042) are installed on the rotating shafts of the shutter plates (3), and a linkage member (12043) is installed between the sliding blocks (12041) and the push plate (1203), so that the push plate (1203) can be moved through the linkage member (12043) when the sliding blocks (12041) slide.

6. The in-line rain and sewage diversion device according to claim 5, wherein the linkage (12043) is a hinged rod hinged on the sliding block (12041), and the free end of the hinged rod is hinged on the top of the push plate (1203).

7. The in-line rain and sewage diversion device according to claim 3, wherein a collection box (14) is vertically inserted into the collection cavity (1201), a handle (15) is installed on the top of the collection box (14), the top opening of the collection box (14) is communicated with the discharge hole (1202), and a cover (9) for shielding the openings of the two collection cavities (1201) is installed on the top of the intercepting well (1).

8. The in-line rain and sewage diversion device according to claim 3, wherein the bottom of the filter box (1101) is configured with two inclined surfaces (13) away from each other, and the lowest edges of the two inclined surfaces (13) are respectively connected with the bottom edges of the two discharge ports (1202).

Images