CN210658625U

CN210658625U - Integrated intelligent intercepting well

Info

Publication number: CN210658625U
Application number: CN201920940410.2U
Authority: CN
Inventors: 眭利峰; 孙释涛
Original assignee: Dingler Wasser Engineering Technology Beijing Co ltd
Current assignee: Dinglan Water Group Co., Ltd
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2020-06-02
Anticipated expiration: 2029-06-21

Abstract

The utility model discloses an integration intelligence vatch basin, including the well body, the internal cavity of well is separated for the reposition of redundant personnel chamber and is discharged the chamber, and the reposition of redundant personnel chamber is equipped with water inlet and drain, discharges the chamber and is equipped with the delivery port, and drain department is equipped with first valve, and the reposition of redundant personnel chamber separates through lower partition panel and the second valve of setting above that with discharging the chamber. The first valve adopts a hydraulic upward opening valve, and the second valve adopts a hydraulic rotary weir gate. The water level monitoring device also comprises a water level monitoring unit and a control unit connected with the water level monitoring unit. The utility model discloses an integrated setting makes it have the simple installation, saves expense and moves nimble advantage, can be widely used in black and odorous water body treatment, water environment basin comprehensive improvement, city environmental protection landscape engineering. Still set up through two hydraulic valve, water level monitoring and the control unit, can realize opening and close according to liquid level height intelligent control valve, realize holding back functions such as retaining, control displacement, regulation upper reaches water level, preventing to flow backward and waterlogging, intelligent degree is high.

Description

Integrated intelligent intercepting well

Technical Field

The utility model relates to a plumbing equipment technical field especially relates to an integration intelligence vatch basin.

Background

Along with the rapid development of urban economy, the accompanying ecological environment pollution problem is increasingly prominent. In recent years, the black and odorous phenomena of water bodies such as river gushes in cities are widely concerned by the society, and the improvement and control of the black and odorous phenomena of the urban water bodies through effective technologies are urgent. The black and odorous water body is fundamentally characterized in that the problem is in water, the source is on the shore, the core is in a pipe network, and the key is at a discharge port. Therefore, except for enlarging drainage pipe network construction and rain and sewage diversion reconstruction, a catch basin should be constructed to realize reconstruction of a combined system drainage system.

With the improvement of continuous attention and management requirements on water environment management in China and cities, the traditional catch basin can not meet the requirements of comprehensively eliminating direct drainage of rainy season and rainy sewage, completely eliminating the direct drainage problem of urban sewage, ensuring that no sewage directly flows into a water body when each rainwater, sewage and combined system drainage outlet do not rain or rain, and ensuring that an overflow port of a combined system pipeline does not produce a sewage overflow phenomenon when rain falls to a small extent and greatly reduces overflow pollution of heavy rain and medium rain, so that the intelligent catch basin consisting of various devices and an information system can be transported to the public in the treatment process of black and odorous water.

On the basis, the integrated intelligent intercepting well is created, water quality and water quantity are controlled through the integrated intelligent intercepting well, the problem that sewage and pollutants are discharged into a river is reduced and comprehensively eliminated, the national standard for water environment treatment is achieved, and favorable conditions are provided for the public to provide a beautiful living environment.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an integration intelligence vatch basin makes it through the integrated setting of integration, realizes its control to quality of water, water yield to reduce and eliminate the problem that sewage and pollutant were arranged in a river comprehensively, reach the standard that the country was administered to the water environment, thereby overcome the not enough of current vatch basin existence.

In order to solve the technical problem, the utility model provides an integrated intelligent intercepting well, which comprises a well body, wherein the inner cavity of the well body is divided into a diversion cavity and a discharge cavity, the two well body side walls of the diversion cavity are respectively provided with a water inlet and a sewage outlet, the well body side wall of the discharge cavity is provided with a water outlet,

the sewage draining port is provided with a first valve, and the flow dividing cavity and the draining cavity are separated by a lower partition plate and a second valve arranged on the lower partition plate.

In a further improvement, the second valve is a hydraulic rotary weir gate.

The hydraulic rotary weir gate is further improved and comprises a weir door plate, two side sealing plates arranged at two side ends of the weir door plate, a driving unit, a hydraulic cylinder and a fixing unit, wherein the weir door plate is rotated and fixed at the fixed end of the hydraulic cylinder, the bottom end of the weir door plate is rotatably fixed at the bottom of the side sealing plates, the bottom end of the weir door plate is connected with the upper part of the lower partition plate in a sealing manner, the two sides of the weir door plate are sealed in a contact manner by the side sealing plates, and the side sealing plates are fixed on two opposite side walls of the well body respectively.

The fixed unit comprises a fixed rod, two ends of the fixed rod are respectively fixed on the opposite side walls of the diversion cavity, the fixed end of the hydraulic cylinder is hinged to the fixed rod, and the extending end of the hydraulic cylinder is hinged to the weir gate plate.

In a further improvement, the first valve is a hydraulic upward opening valve arranged on the inner side of the side wall of the well body.

The improved structure is characterized in that a slag trap is arranged in the shunting cavity, the slag trap is arranged on the side wall of the well body between the sewage outlet and the lower partition panel, and the slag trap and the lower partition panel are arranged in parallel.

Further improved, the water level monitoring device also comprises a water level monitoring unit and a control unit connected with the water level monitoring unit,

the water level monitoring unit comprises a first liquid level sensor which is arranged at the upper part of the shunting cavity and is used for monitoring the water level in the shunting cavity and transmitting the monitoring data to the control unit,

the control unit is used for receiving water level monitoring data in the shunting cavity and controlling the opening and closing of the first valve and the second valve.

In a further improvement, the well body further comprises an upper partition plate arranged opposite to the lower partition plate, and the second valve is arranged between the lower partition plate and the upper partition plate.

In a further improvement, the water level monitoring unit further comprises a second liquid level sensor connected with the control unit, the second liquid level sensor is arranged at the upper part of the discharge cavity and used for monitoring the water level in the discharge cavity and transmitting the monitoring data to the control unit,

the control unit is also used for receiving water level monitoring data in the discharge cavity and controlling the opening and closing of the first valve and the second valve.

In a further improvement, the top of the well body is provided with a cover body which is respectively communicated with the diversion cavity and the discharge cavity.

After adopting such design, the utility model discloses following advantage has at least:

1. the utility model discloses the integrated setting of intelligence vatch basin integration makes it have the simple installation, effectively saves native construction cost, and moves nimble advantage, can manage at black and odorous water body, water environment basin comprehensive improvement, urban environmental protection landscape engineering in wide application.

2. Through adopting two hydraulic valve, can realize according to the water liquid level height, the first valve of nimble control and opening and close of second valve have increased the flexibility of management, and the valve can not the defect of free control when avoiding adopting the buoy type valve in the current vatch basin, and this intelligence vatch basin does not have the striking and beats in the operation process moreover, does not basically influence the flood section of confluence interception sewage channel, has the normal dirty of intercepting in dry season, and the upset in rainy season and the advantage of normal flood discharge.

3. Still through setting up water level monitoring unit and the control unit, improved the degree of automation of this intelligence vatch basin greatly, this the control unit can be according to water level monitoring unit's real-time supervision, the opening and close of the first valve of automatic control and second valve, realize holding back retaining, control displacement, regulation upper reaches water level, prevent to flow backward, prevent functions such as waterlogging, need not the special messenger on duty, can realize remote management operation, intelligent degree is high.

4. Still through setting up the slag trap for the interception large granule suspended solid makes it can not get into and discharges the chamber, finally avoids the large granule suspended solid to carry out the river course. Still through the setting of two lids, the installation, the maintenance of this vatch basin of being convenient for.

Drawings

The foregoing is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clear, the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Fig. 1 is the utility model discloses the structure stereogram of integration intelligence vatch basin.

Fig. 2 is the utility model discloses structure plan view of integration intelligence vatch basin.

Fig. 3 is the utility model discloses the inner structure side view of integration intelligence vatch basin.

Fig. 4 is the utility model discloses the structural schematic diagram of the rotary weir gate that surges in the intelligent vatch basin of integration.

Detailed Description

The utility model discloses an integrated intelligent intercepting well, which belongs to an urban sewage intercepting well, is an important accessory structure in a combined system pipeline, and has the main function of intercepting urban drought flow sewage and initial rainwater into a sewage pipe so as to prevent urban water from being more seriously polluted; in rainy season, the intercepted water quantity is as constant as possible so as to avoid increasing the water quantity load of the urban sewage treatment plant; and guarantee that the rainwater in the confluence pipeline is smoothly discharged within the designed flow range, and prevent backflow, thereby avoiding waterlogging. The integrated intelligent intercepting well has the following specific structure.

Referring to the attached drawings 1 to 3, the utility model discloses integration intelligence vatch basin, including the well body 1.

The internal cavity of the well 1 is divided into a diversion chamber 15 and a discharge chamber 16. The two well side walls of the diversion cavity 15 are respectively provided with a water inlet 11 and a sewage outlet 12, and the well side wall of the discharge cavity 16 is provided with a water outlet 13. In this embodiment, the water inlet 11 and the water outlet 13 are disposed opposite to each other.

The top of the well body 1 is provided with a cover body 14 which is respectively communicated with the diversion cavity 15 and the discharge cavity 16, so that operation and maintenance personnel can conveniently install and maintain the internal equipment of the diversion cavity and the discharge cavity.

Referring to fig. 3, a first valve 17 is provided at the soil exhaust port 12, and the diverging chamber 15 and the discharge chamber 16 are partitioned by a lower partition plate 19 and a second valve 18 provided on the lower partition plate 19.

Specifically, the first valve 17 is a hydraulic upward opening valve disposed on the inner side of the sidewall of the well body 1. The second valve 18 is a hydraulically operated rotary weir.

Referring to fig. 4, the hydraulically-operated rotary weir gate includes a weir gate plate 181, two side sealing plates 182 disposed at both side ends of the weir gate plate 181, a hydraulic cylinder 183 for rotating the weir gate plate 181, and a fixing unit 184 for fixing a fixed end of the hydraulic cylinder 183. The bottom end of the weir gate plate 181 is rotatably fixed at the bottom of the side sealing plate 182, the bottom end of the weir gate plate 181 is connected with the upper part of the lower partition plate 19 in a sealing manner, two sides of the weir gate plate 181 are sealed with the side sealing plate 182 in a contact manner, and the two side sealing plates 182 are respectively fixed on two opposite side walls of the well body 1.

The EPDM rubber is adopted at the periphery of the weir gate plate 181, so that the sealing between the weir gate plate and peripheral equipment is realized, and the sealing effect is good.

The fixing unit 184 includes a fixing rod having two ends fixed to the opposite side walls of the diversion chamber, respectively, the fixed end of the hydraulic cylinder 183 is hinged to the fixing rod, and the extending end of the hydraulic cylinder 183 is hinged to the weir gate plate 181. The weir plate 181 of the hydraulically operated rotary weir gate can be rotated by 90 degrees by the hydraulic cylinder 183 and can be stopped at any position within the range of the rotation angle for adjusting and controlling the amount of discharged water and the upstream water level.

The hydraulically operated rotary weir in this embodiment includes two hydraulic cylinders 182. One or more hydraulic cylinders can be used, so that the rotation reliability of the rotary weir gate is ensured according to actual conditions.

The hydraulic drive rotary weir gate has the advantages of simple structure, stable performance, convenient maintenance, high transmission precision, stable and reliable work, can be used in severe environment, and is mainly used for intercepting stored water, controlling drainage flow and adjusting upstream water level.

In this embodiment, a slag trap 21 is further disposed in the diversion cavity 15, the slag trap 21 is disposed on a sidewall of the well body between the sewage outlet 12 and the lower partition plate 19, and the slag trap 21 is disposed in parallel with the lower partition plate 19. This slag trap 21's effect is arranged in intercepting large granule suspended solid, makes it can not get into and discharges the chamber 16, treats that the interior liquid level of reposition of redundant personnel chamber 15 descends, and when first valve 17 was opened, the debris that hold back etc. were discharged by drain 12, avoided the large granule suspended solid to carry out the river course.

The integrated intelligent intercepting well further comprises a water level monitoring unit and a control unit connected with the water level monitoring unit.

The water level monitoring unit comprises a first level sensor 22. The first liquid level sensor 22 is an ultrasonic liquid level meter, is disposed at the upper portion of the diversion chamber 15, and is configured to monitor the water level in the diversion chamber 15 and transmit the monitoring data to the control unit. The control unit is used for receiving water level monitoring data in the shunting cavity and controlling the opening and closing of the first valve 17 and the second valve 18.

The working principle of the integrated intelligent intercepting well is as follows: rainwater or ground sewage enters the diversion cavity 15 through the water inlet 11, a first liquid level sensor 22 in the diversion cavity 15 monitors the liquid level in the diversion cavity in real time, when the liquid level is smaller than a set height a, the control unit controls the first valve 17 to be opened, and initial rainwater or ground sewage enters the sewage pipe from the sewage outlet 12 and is discharged; when the liquid level in the diversion cavity 15 is higher than the set height a, the control unit controls the first valve 17 to close, and rainwater accumulates in the diversion cavity 15; when the liquid level continues to rise to reach the set height b, the control unit controls the second valve 18 to open, and a large amount of rainwater enters the discharge cavity 16, is discharged from the water outlet 13 and enters a river channel; when the liquid level is monitored to be smaller than the set height a again, the control unit controls the first valve 17 to be opened and controls the second valve 18 to be closed at the same time, and at the moment, sundries and the like trapped by the slag trap 21 are discharged from the sewage discharge outlet 12, and the circulation is repeated, so that the automatic operation of the intelligent intercepting well is realized.

In order to prevent rainwater from flowing backward, the well body 1 further comprises an upper partition plate 20 arranged opposite to the lower partition plate 19, the second valve 18 is arranged between the lower partition plate 19 and the upper partition plate 20, and the diversion chamber 15 and the discharge chamber 16 are completely separated when the second valve 18 is closed.

In a further improvement, the water level monitoring unit further comprises a second level sensor 23 connected to the control unit, the second level sensor 23 being disposed at an upper portion of the discharge chamber 16 for monitoring the water level in the discharge chamber 16 and transmitting the monitored data to the control unit. The control unit is also used for receiving water level monitoring data in the discharge cavity 16 and controlling the opening and closing of the first valve 17 and the second valve 18.

The working principle of the second liquid level sensor 23 is as follows: when the water level in the river channel rises to cause the liquid level in the discharge cavity 16 to rise, and when the second liquid level sensor 23 monitors that the liquid level in the discharge cavity is higher than the set height c, the control unit controls the second valve 18 to close, and at the moment, the diversion cavity 15 and the discharge cavity 16 are completely separated, so that water in the river channel is prevented from flowing backwards into the diversion cavity 15; this moment this intelligence vatch basin's the control unit control first valve 17 is opened, makes the upper reaches water can follow water inlet 11 and gets into, can also discharge from drain 12, guarantees that the water in the confluence system pipeline flows unobstructed, prevents the emergence of waterlogging.

The well body 1 in the embodiment can be designed into a round or square structure according to the requirement. The well body 1 is made of glass fiber reinforced plastic or stainless steel.

The utility model discloses integration intelligence vatch basin belongs to flap gate formula vatch basin, and degree of automation is high, and its the control unit can be according to the water level height around the valve, and automatic control first valve and second valve are opened and close, realize holding back retaining, control displacement, regulation upper reaches water level, prevent to flow backward, prevent functions such as waterlogging, need not special messenger's on duty, can realize the remote management operation.

This rotation type weir gate that surges uses the pneumatic cylinder to open and close, has increased the flexibility of management, and this intelligence vatch basin does not basically influence the confluence and cuts the flood section of dirty channel at operation in-process impact and pat, has the normal dirty of cutting off in dry season, and the upset in rainy season and the advantage of normal flood discharge.

The utility model discloses the integrated setting of intelligence vatch basin integration makes it have the simple installation, effectively saves native construction cost, and moves nimble advantage, can manage at black and odorous water body, water environment basin comprehensive improvement, urban environmental protection landscape engineering in wide application.

The above description is only for the preferred embodiment of the present invention, and not intended to limit the present invention in any way, and those skilled in the art can make various modifications, equivalent changes and modifications using the above-described technical content, all of which fall within the scope of the present invention.

Claims

1. An integrated intelligent intercepting well is characterized by comprising a well body, wherein the inner cavity of the well body is divided into a diversion cavity and a discharge cavity, the two well body side walls of the diversion cavity are respectively provided with a water inlet and a sewage outlet, the well body side wall of the discharge cavity is provided with a water outlet,

2. The intelligent vatch shaft of claim 1, wherein the second valve is a hydraulically operated rotary weir.

3. The intelligent intercepting well of claim 2, wherein the hydraulic rotary weir gate comprises a weir gate plate, two side sealing plates arranged at two side ends of the weir gate plate, a hydraulic cylinder driving the weir gate plate to rotate and a fixing unit fixing the fixed end of the hydraulic cylinder, the bottom end of the weir gate plate is rotatably fixed at the bottom of the side sealing plates, the bottom end of the weir gate plate is hermetically connected with the upper part of the lower partition plate, two sides of the weir gate plate are hermetically sealed with the side sealing plates in a contact manner, and the two side sealing plates are respectively fixed on two opposite side walls of the well body.

4. The intelligent intercepting well of claim 3, wherein the fixing unit comprises a fixing rod having both ends fixed to opposite sidewalls of the diversion chamber, respectively, the fixed end of the hydraulic cylinder is hinged to the fixing rod, and the extended end of the hydraulic cylinder is hinged to the weir plate.

5. The intelligent vatch shaft of claim 1, wherein the first valve is a hydraulically operated upwardly opening valve disposed inside the sidewall of the shaft.

6. The intelligent intercepting well according to claim 1, wherein a slag trap is arranged in the diversion cavity, the slag trap is arranged on a side wall of the well body between the sewage outlet and the lower partition plate, and the slag trap and the lower partition plate are arranged in parallel.

7. The intelligent intercepting well according to any one of claims 1 to 6, further comprising a water level monitoring unit and a control unit connected thereto,

8. The intelligent intercepting well of claim 7, further comprising an upper partition plate disposed opposite to the lower partition plate in the well body, wherein the second valve is disposed between the lower partition plate and the upper partition plate.

9. The intelligent vatch shaft of claim 8, wherein the water level monitoring unit further comprises a second level sensor connected to the control unit, the second level sensor being disposed at an upper portion of the discharge chamber for monitoring a water level in the discharge chamber and transmitting monitoring data to the control unit,

10. The intelligent intercepting well according to claim 1, wherein a cover body communicated with the diversion cavity and the discharge cavity respectively is opened at the top of the well body.