CN217782318U - Automatic multi-functional inlet for stom water of control - Google Patents

Abstract

The utility model discloses an automatic multi-functional inlet for stom water of control, including intaking grate, pit shaft and connecting pipe, water inlet and outlet are seted up respectively to pit shaft upper portion and bottom, and the grate setting of intaking is in the water inlet top, and the connecting pipe setting still sets up in the pit shaft in the outlet below: the sealing module comprises a first electric control door and a second electric control door, and the first electric control door and the second electric control door are respectively arranged at the water inlet and the water outlet; the decontamination module comprises a filtering assembly and a sludge settling assembly; the monitoring module is used for monitoring the rainwater depth; and the control module is used for triggering the first electric control door and the second electric control door to be closed and opened according to the signal of the monitoring module. This application carries out the first filtration of silt through setting up filtering component, through sinking the mud subassembly, realizes the secondary settlement of silt to reach the purpose that the rainwater sinks mud, cooperate the monitor simultaneously, the automatically controlled door switch of suitable adjustment drain outlet department can realize the function of water storage, water delivery.

Description

Automatic multi-functional inlet for stom water of control

Technical Field

The utility model relates to a city drainage technology field specifically is an automatic multi-functional inlet for stom water of control.

Background

The gully is an accessory structure of an urban drainage pipe system and is also an important component of urban road drainage. The rainwater inlet is the starting end of an urban drainage system and is a drainage facility for collecting rainwater on an urban road, and rainwater collected on a road surface firstly drains into the rainwater inlet, flows into a drainage pipe channel below the road through a rainwater inlet connecting pipe and finally converges into a river, lake and water system. However, with the rapid development of cities in China, the hardened pavement is continuously increased, the rainwater runoff of the unit catchment area is continuously increased, the air quality is continuously deteriorated, the initial rainwater pollution is serious, and the current situations such as sponge city construction lead to that the traditional gutter inlet cannot meet the requirements. The traditional gutter inlet mainly comprises a water inlet grate, a shaft and a connecting pipe, and as the gap of the water inlet grate is large, rainwater washes impurities such as silt, fallen leaves and the like on the ground to the gutter inlet during raining, the shaft is blocked after a period of time accumulation, and the connecting pipe is also affected by serious blockage, so that the drainage capacity of the gutter inlet is affected; meanwhile, because the traditional gutter inlet is always in an open state, the opening and the closing can not be realized, the functions of water storage and water delivery can not be realized for the inflowing rainwater, the requirement of continuous rainfall period drainage is hardly met, and the stable and continuous water source delivery can not be ensured in the urban river and lake water system, so that the cyclic utilization of the water resource is influenced, and the 'seepage and storage net drainage' can not be realized.

SUMMERY OF THE UTILITY MODEL

For solving prior art's not enough, this application provides one kind can real-time supervision and possesses the inlet for stom water of multiple functions such as clearance rubbish, heavy mud, water storage.

The technical scheme is as follows: an automatically controlled multifunctional rainwater inlet comprises a water inlet grate, a shaft and a connecting pipe, wherein the upper part and the bottom of the shaft are respectively provided with a water inlet and a water outlet, the water inlet grate is arranged above the water inlet, the connecting pipe is arranged below the water outlet, and the multifunctional rainwater inlet further comprises:

the sealing module comprises a first electric control door and a second electric control door, and the first electric control door and the second electric control door are respectively arranged on the shaft at the water inlet and the shaft at the water outlet; the decontamination module comprises a filtering assembly and a sludge settling assembly which are arranged in the shaft, the filtering assembly is arranged below the water inlet and used for primary filtering, and the sludge settling assembly is arranged below the filtering assembly and used for secondary sedimentation of silt; a monitoring module disposed within the wellbore for monitoring a rainwater depth; the control module is used for triggering the first electric control door and the second electric control door to be closed and opened according to the signal of the monitoring module; the first electric control door, the second electric control door and the monitoring module are all electrically connected with the control module.

Furthermore, the water inlet department is equipped with two first automatically controlled doors, set up a first electric telescopic handle on the pit shaft of water inlet both sides respectively, two first automatically controlled door is connected respectively first electric telescopic handle, but two first automatically controlled doors relative movement so that when closing can with the water inlet is sealed.

Furthermore, two second electric control doors are arranged at the position of the water outlet, a second electric telescopic rod is arranged on each shaft on two sides of the water outlet, the two second electric control doors are connected with the second electric telescopic rods respectively, and the two second electric control doors can move relatively to seal the water outlet when being closed.

Further, the filter assembly includes a mesh collection bag having an open end connected to the water inlet.

Further, netted collection bag below still sets up the buffer board, the buffer board slope sets up downwards, the buffer board with connect through the connecting rod between the pit shaft roof, can slow down the rainwater velocity of flow through setting up the buffer board, make it reach the optimal velocity of flow of heavy mud, improve heavy mud efficiency.

Further, the mud sedimentation component comprises a sedimentation plate and a sedimentation tank, the sedimentation tank is vertically installed on the side wall of the shaft, the sedimentation plate comprises a plurality of pipes and is multi-layer, the pipes are arranged side by side, the upper layer and the lower layer are two-layer, the pipes of two adjacent pipe direct connections on the upper layer are connected with the pipes on the lower layer so that a sedimentation channel for solid particles to flow is formed between the pipes of two adjacent pipes on the upper layer and the pipes on the lower layer, the sedimentation plate is inclined and arranged towards two directions, one end of one of the inclined directions, which is connected to the sedimentation plate, of the shaft side wall and the other end of the inclined direction, downwards inclines so that the tail end of the sedimentation channel is communicated with the sedimentation tank and the other inclined direction is that the sedimentation plate is integral towards the inclined and downwards arranged towards the water outlet direction, and the lower end of the buffer plate is positioned above the upper end of the sedimentation plate.

Furthermore, the settling tank is a closed box body, an opening is formed in the wall of the tank, and the settling plate extends into the opening.

Furthermore, the cross section of each pipe body of the settling plate is hexagonal, and the cross sections of the settling plates are arranged in a honeycomb manner, so that the structure is more stable.

Further, the monitoring module includes a rainwater depth monitor disposed at a top portion within the wellbore.

Furthermore, a drain valve is arranged at the bottom of the shaft, an exhaust valve is arranged at the top of the shaft, the exhaust valve plays a role in preventing pipe explosion and air bag aggregation, and the drain valve plays a role in draining water completely before clearing and maintaining the rainwater inlet.

The application has the advantages that: the provided automatic-control multifunctional rainwater inlet can collect garbage with larger volume by arranging the reticular collecting bag, and the gauze performs the first filtration of silt to realize the function of intercepting large garbage; the sedimentation plate and the sedimentation tank are matched for use, so that the secondary sedimentation function of the rainwater port on the sediment is realized, and the purpose of rainwater sedimentation is achieved; meanwhile, the system is matched with a monitor, so that a real-time monitoring function can be realized, and artificial intelligent real-time intervention can be facilitated; besides, the electric control door switches at the water inlet and the water outlet are properly adjusted to realize the functions of water storage and water delivery.

Drawings

Fig. 1 is a schematic structural view of an embodiment of an automatically controlled multifunctional gutter inlet according to the present application;

FIG. 2 is a schematic top view of FIG. 1 showing the inlet grate and upper seal assembly removed;

FIG. 3 is a schematic diagram of the structure of the buffer plate shown in FIG. 1;

FIG. 4 is a schematic view of a first electrically controlled door opening structure;

FIG. 5 is a schematic view of a second electrically controlled door opening structure;

FIG. 6 is a schematic view of a filter assembly;

fig. 7 is a schematic structural view of the mud settling assembly.

Labeled in the figure as: 10. the water inlet grate, 11, a shaft, 111, a water discharge valve, 112, an exhaust valve, 113, a water inlet, 12, an upper sealing assembly, 121, a first electric control door, 122, a first electric telescopic rod, 13, a bottom sealing assembly, 131, a second electric control door, 132, a second electric telescopic rod, 14, a filtering assembly, 141, a reticular collecting bag, 15, a mud settling assembly, 151, a settling plate, 152, a settling tank, 153, a settling channel, 16, a rainwater depth monitor, 17, a connecting pipe, 18, a buffer plate, 181 and a connecting rod.

Detailed Description

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

Referring to fig. 1-7, the embodiment provides an automatically controlled multifunctional gutter inlet, which comprises a water inlet grate 10, a gutter shaft 11 and a connecting pipe 17, wherein the upper part and the bottom of the gutter shaft 11 are respectively provided with a water inlet 113 and a water outlet 114, the water inlet grate 10 is arranged above the water inlet 113, the connecting pipe 17 is arranged below the water outlet 114, the size of the water inlet 113 is consistent with that of the water inlet grate, the water inlet is a rectangular opening, the size of the water outlet is consistent with the pipe diameter of the connecting pipe and is a round opening adapted to the shape and size of the connecting pipe, and the width of the top wall of the gutter shaft is larger than that of the water inlet 113 so as to leave an installation space on the gutter shaft; an upper sealing assembly 12 is arranged in an installation space at a shaft water inlet 113, and a bottom sealing assembly 13 is arranged at a water outlet 114; the decontamination module comprises a filtering assembly 14 and a sludge settling assembly 15 which are arranged in the shaft 11, wherein the filtering assembly 14 is arranged below the water inlet 113 for primary filtering, and the sludge settling assembly 15 is arranged below the filtering assembly 14 for secondary sedimentation of silt; the monitoring module is arranged in the shaft and used for monitoring the rainwater depth; the control module is used for controlling the first electric control door and the second electric control door to be closed and opened according to the signal of the monitoring module; the first electric control door, the second electric control door and the monitoring module are all electrically connected with the control module.

Specifically, the upper sealing assembly 12 includes two first electrically controlled doors 121, the shafts on two opposite sides of the water inlet 113 are respectively provided with first electrically controlled telescopic rods 122, the two first electrically controlled doors 121 are respectively connected with the first electrically controlled telescopic rods 122, and the two first electrically controlled doors 121 can move relatively to seal the rainwater inlet where the water inlet grate is located when the doors are closed; the bottom sealing assembly 13 comprises two second electric control doors 131, two pairs of sides of a bottom wall water outlet 114 in the shaft 11 are respectively provided with a second electric telescopic rod 132, the two second electric control doors 131 are respectively connected with the second electric telescopic rods, the two second electric control doors can move relatively to seal the water outlet 114 when being closed, a connecting pipe 17 is arranged below the water outlet 114 and used for connecting a water outlet below a rainwater inlet, wherein the upper sealing assembly 12 can be arranged inside or outside the shaft 11, preferably, the upper sealing assembly 12 is arranged on the top wall outside the shaft 11 and below a water inlet grate, the bottom sealing assembly 13 is arranged on the bottom wall inside the shaft 11 due to the connecting pipe, and in addition, the first electric telescopic rod and the second electric telescopic rod are electrically connected with the control module to realize the control of the first electric control door and the second electric control door.

Specifically, the filtering assembly 14 includes a mesh-shaped collecting bag 141, two ends of an open end of the mesh-shaped collecting bag 141 are respectively connected to two ends of the water inlet 113, and the mesh-shaped collecting bag is a closed end, so that the open end of the collecting bag is closed after the solid sundries drop into the mesh-shaped collecting bag, thereby realizing the function of intercepting the garbage; the lower part of the reticular collecting bag 141 is also provided with a buffer plate 18, a space meeting the requirement after the closing-in of the reticular collecting bag is reserved between the buffer plate 18 and the reticular collecting bag 141, the buffer plate 18 is obliquely and downwards arranged, the buffer plate 18 and the top wall of the shaft 11 are connected through a connecting rod 181, and the connecting rod comprises four corner positions which are respectively arranged on the buffer plate.

Particularly, silt deposit subassembly 15 includes settling plate 151 and settling tank 152, settling tank 152 is vertical to be installed on the right side wall of pit shaft 11, and be swing joint, be convenient for the clearance in later stage, settling plate 151 includes many bodys, many bodys are two-layer about arranging into side by side, the body of two adjacent body lug connection lower floors on upper strata so that be formed with the settlement channel 153 that supplies the solid particle to flow between two adjacent bodys on upper strata and the body of lower floor, wherein, settling plate has two incline directions, one of them incline direction is connected to the left side wall of pit shaft 11 for settling plate 151's one end, and with left side wall fixed connection, if welding etc., the other end downward sloping is so that settlement channel 153's terminal intercommunication settling tank 152, another incline direction is for setting up downwards to the slope of outlet 114 direction, the lower extreme of buffer plate 18 is located the top of settling plate 151 upper end, settling tank 152 is airtight box, the cell wall upper opening, satisfy that settling plate can stretch to open, guarantee that silt can not fall the place beyond the settling tank.

Preferably, the pipe body is a polypropylene honeycomb pipe body with a depth of about 300-500mm (depending on the depth of the rainwater inlet), in order to realize the function of sludge deposition, the distance between each pipe body should not be too large, rainwater flows from the upper end to the bottom end, a settling tank is arranged on the right side, and solid particles in the rainwater can be deposited into the settling tank 152 through the settling channel 153 because the rainwater is in a laminar flow state.

In addition, the monitoring module is a rainwater depth monitor 16 arranged at the top in the shaft, the rainwater depth monitor 16 adopts a camera or a liquid level sensor to monitor the water level depth, a drain valve 111 is arranged at the bottom of the shaft, an exhaust valve 112 is arranged at the top of the shaft, the exhaust valve plays a role in preventing pipe explosion and air bag aggregation, the drain valve plays a role in draining water before clearing and maintaining the rainwater inlet, and the whole control module can be connected with a PC end or a mobile phone end so as to realize the control of shaft water storage and drainage.

The working principle is as follows: the switch of the first electric control door is closed at ordinary times to prevent residents from throwing garbage inwards, the rainwater is opened before, when the switch is opened, the first electric telescopic rods on the left side and the right side start to work, the two door plates shrink in opposite directions to realize opening, the inflowing solid sundries can fall into the netted collecting bag, the netted collecting bag is folded under the action of the gravity of the solid sundries, the rainwater containing silt flows downwards into the water outlet after passing through the settling plate, and the silt flows into the settling tank through the settling channel; when water needs to be stored or transported, the rainwater depth is observed on a mobile phone or a PC end, and the opening degrees of the first electric control door and the second electric control door are adjusted, so that water storage and transportation can be realized, when the rainfall intensity is high and concentrated, the doors are all opened, the drainage efficiency is improved, and when the rainfall does not fall and a river and lake water system led to a rainwater inlet is dry, the doors can be properly opened, so that the water stored in advance can be transported out; the two side doors are opened from the middle at each time, so that the washing of rainwater to the connecting pipe on one side can be reduced, and the service life is prolonged.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an automatic multi-functional inlet for stom water of control, includes water inlet grate, pit shaft and connecting pipe, water inlet and outlet are seted up respectively to pit shaft upper portion and bottom, water inlet grate sets up the water inlet top, the connecting pipe sets up the outlet below, its characterized in that: the multi-functional inlet for stom water still includes:

the sealing module comprises a first electric control door and a second electric control door, and the first electric control door and the second electric control door are respectively arranged on the shaft at the water inlet and the shaft at the water outlet;

the decontamination module comprises a filtering assembly and a sludge settling assembly which are arranged in the shaft, the filtering assembly is arranged below the water inlet and used for primary filtering, and the sludge settling assembly is arranged below the filtering assembly and used for secondary sedimentation of silt;

a monitoring module disposed within the wellbore for monitoring a rainwater depth;

the control module is used for triggering the first electric control door and the second electric control door to be closed and opened according to the signal of the monitoring module;

the first electric control door, the second electric control door and the monitoring module are all electrically connected with the control module.

2. An automatically controlled multifunctional gully according to claim 1, wherein: the water inlet department is equipped with two first automatically controlled doors, set up a first electric telescopic handle on the pit shaft of water inlet both sides respectively, two first automatically controlled door is connected respectively first electric telescopic handle, but two first automatically controlled door relative movement so that can be with when it closes the water inlet is sealed.

3. An automatically controlled multifunctional gutter inlet according to claim 1, characterized in that: two second electric control doors are arranged at the position of the water outlet, a second electric telescopic rod is arranged on each shaft on two sides of the water outlet, the two second electric control doors are connected with the second electric telescopic rods respectively, and the two second electric control doors can move relatively to seal the water outlet when being closed.

4. An automatically controlled multifunctional gully according to claim 1, wherein: the filter assembly includes a mesh collection bag having an open end connected to the water inlet.

5. An automatically controlled multifunctional gutter inlet according to claim 4, characterized in that: the netted collection bag below still sets up the buffer board, the buffer board slope sets up downwards, the buffer board with connect through the connecting rod between the pit shaft roof.

6. An automatically controlled multifunctional gully according to claim 5, wherein: the heavy mud subassembly includes settlement plate and subsider, the subsider is vertical to be installed on the lateral wall of pit shaft, the settlement plate includes many bodys, many the body is two-layer about being arranged into, and the body of two adjacent body lug connection lower floors in upper strata is so that be formed with the settlement passageway that supplies solid particle to flow between the body of two adjacent bodys in upper strata and lower floor, the settlement plate sets up to two direction slopes, and one of them incline direction is connected to for the one end of settlement plate the pit shaft lateral wall, other end downward sloping are so that the terminal intercommunication of settlement passageway the subsider, another incline direction does the settlement plate whole to the slope of outlet direction sets up downwards, wherein, the lower extreme of buffer board is located the top of settling plate upper end.

7. An automatically controlled multifunctional gully according to claim 6, wherein: the settling tank is a closed box body, an opening is formed in the wall of the tank, and the settling plate extends into the opening.

8. An automatically controlled multifunctional gully according to claim 6, wherein: the cross section of each pipe body of the settling plate is hexagonal, and the cross sections of the settling plates are arranged in a honeycomb manner.

9. An automatically controlled multifunctional gully according to claim 1, wherein: the monitoring module includes a rainwater depth monitor disposed at a top portion within the wellbore.

10. An automatically controlled multifunctional gully according to claim 1, wherein: the bottom of the shaft is provided with a drain valve, and the top of the shaft is provided with an exhaust valve.

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