CN217923988U

CN217923988U - Buried intelligent shunt well device

Info

Publication number: CN217923988U
Application number: CN202221426625.0U
Authority: CN
Inventors: 郁强; 黄升; 陈江赟; 王洋; 祝海健; 苏建雄
Original assignee: Hangzhou Hangzhou Open Circumstance Technology Co ltd
Current assignee: Hangzhou Hangzhou Open Circumstance Technology Co ltd
Priority date: 2022-06-07
Filing date: 2022-06-07
Publication date: 2022-11-29
Anticipated expiration: 2032-06-07

Abstract

The utility model provides a bury formula intelligence reposition of redundant personnel well device installs inlet tube, sewage pipe and shunt tubes on the perisporium of glass steel cylinder body. The sewage knife gate valve and the shunt knife gate valve are respectively arranged on the sewage pipe and the shunt pipe. The two hoists are arranged on the top wall of the glass cylinder body and are respectively connected with the sewage knife gate valve and the shunt knife gate valve. The rain gauge is electrically connected with the hoist for controlling the shunt knife gate valve. The sewage lifting device is arranged in the glass fiber reinforced plastic cylinder and comprises a water outlet pipe, a water outlet base, a coupling guide rail and a submersible sewage pump, wherein the water outlet base is connected to the bottom wall of the glass fiber reinforced plastic cylinder, the upper end of the coupling guide rail is connected to the side wall of the first turnover port, the lower end of the coupling guide rail is connected to the water outlet base, the submersible sewage pump is connected with a coupling connecting piece sleeved on the coupling guide rail and hermetically connected to one end of the water outlet base, and the other end of the water outlet base is connected with the water outlet pipe. The garbage recycling device is arranged in the glass fiber reinforced plastic cylinder.

Description

Buried intelligent shunt well device

Technical Field

The utility model relates to a sewage treatment technical field, and in particular to bury formula intelligence reposition of redundant personnel well device.

Background

At present, most of urban drainage is a combined drainage system, namely domestic sewage, industrial wastewater and precipitation are combined and then sent to a sewage treatment plant for treatment. The combined drainage system has high requirement on the capacity of a sewage treatment plant; and the difference of the water flow into the sewage treatment plant in sunny days and rainy days is large, thereby greatly increasing the operation complexity of the sewage treatment plant in the combined drainage system. In order to reduce the scale and operational complexity of sewage treatment plants, sewage treatment plants capable of realizing a rainwater sewage diversion capability have appeared. However, the existing equipment needs to be installed by pouring a concrete bottom plate, a large amount of reinforced concrete needs to be consumed, the construction period is long, the occupied area is large, and the method is difficult to realize in old cities with small available areas and complex construction environments.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art not enough, provide one kind and need not to mix earth and pour and construction cycle short bury formula intelligence reposition of redundant personnel well device.

In order to realize the above aim, the utility model provides a bury formula intelligence reposition of redundant personnel well device it includes glass fiber reinforced plastic cylinder, sewage knife gate valve, reposition of redundant personnel knife gate valve, two headstock gears, pluviometer, sewage hoisting device and rubbish recovery unit. The peripheral wall of the glass fiber reinforced plastic cylinder body is provided with a water inlet pipe, a sewage pipe and a flow dividing pipe, the sewage pipe is positioned below the flow dividing pipe and close to the bottom wall of the glass fiber reinforced plastic cylinder body, and the top wall of the glass fiber reinforced plastic cylinder body is provided with a first flanging maintenance opening and a second flanging maintenance opening. The sewage knife gate valve is arranged at the end part of the sewage pipe extending into the glass fiber reinforced plastic cylinder body. The shunt knife gate valve is arranged at the end part of the shunt pipe extending into the glass fiber reinforced plastic cylinder body. The two hoists are arranged on the top wall of the glass cylinder, the top wall of the glass fiber reinforced plastic cylinder is extended from the upper end of the valve rod of the sewage knife gate valve and the upper end of the valve rod of the shunt knife gate valve and is respectively connected with the two hoists, and the valve plate of the sewage knife gate valve and the valve plate of the shunt knife gate valve are respectively driven by the two hoists to move up and down. The rain gauge is arranged on the top wall of the glass fiber reinforced plastic cylinder and exposed on the bottom surface, and the rain gauge is electrically connected with the hoist for controlling the shunt knife gate valve. The sewage lifting device is arranged in the glass fiber reinforced plastic cylinder and is opposite to the first flanging maintenance port, the sewage lifting device comprises a water outlet pipe, a water outlet base, a coupling guide rail and a submersible sewage pump, the water outlet base is connected to the bottom wall of the glass fiber reinforced plastic cylinder, the upper end of the coupling guide rail is connected to the side wall of the first flanging maintenance port, the lower end of the coupling guide rail is connected to the water outlet base, the submersible sewage pump is connected with the coupling connecting piece sleeved on the coupling guide rail and slides downwards along the coupling connecting piece to be hermetically connected with one end of the water outlet base, and the other end of the water outlet base is connected with the water outlet pipe. The garbage recycling device is arranged in the glass fiber reinforced plastic cylinder body and is opposite to the second flanging maintenance opening.

According to the utility model discloses an embodiment, rubbish recovery unit includes basket guide arm, rubbish basket and maintenance grid, and the upper end of turn-ups access hole basket guide arm is fixed in the lateral wall of second turn-ups access hole, and the maintenance grid is installed in the tip of inlet tube, and rubbish basket slides and sets up near the maintenance grid inboard in the water inlet of basket guide arm and rubbish basket, has the basket handle on the roof of rubbish basket.

According to the utility model discloses an embodiment, sewage hoisting device is still including connecting in the check valve of outlet pipe water delivery side, gate valve and being located the flexible coupling between the two.

According to the utility model discloses an embodiment, bury formula intelligence reposition of redundant personnel well device and include two sets of sewage hoisting device, two sets of sewage hoisting device's outlet pipe is connected through the water header pipe, and the water outlet end of water header pipe extends glass fiber reinforced plastic cylinder.

According to the utility model discloses an embodiment, the hand-basket guide arm in sewage lifting device coupling guide rail, play water base and the rubbish recovery unit all passes through stainless steel bolt and connects in glass fiber reinforced plastic cylinder, still has the glass steel binder solidification layer between stainless steel bolt and the glass fiber reinforced plastic cylinder.

According to the utility model discloses an embodiment, bury formula intelligence reposition of redundant personnel well device still including depending on at least one level switch of coupling guide rail downwardly extending, the switch board of burying formula intelligence reposition of redundant personnel well device, switch board control two headstock gears and the motor of stealthily dirty pump with liquid level switch electric connection.

According to the utility model discloses an embodiment, bury formula intelligence reposition of redundant personnel well device still including connecting the flowmeter of inlet tube and being located the inlet tube top, the switch board of burying formula intelligence reposition of redundant personnel well device flowmeter electric connection.

According to the utility model discloses an embodiment, bury formula intelligence reposition of redundant personnel well device and still include two and articulate in two access covers of first turn-ups access hole outer wall and second turn-ups access hole outer wall.

To sum up, the utility model provides a bury sewage pipe and sewage hoisting device on the glass steel cylinder body in formula intelligence reposition of redundant personnel well device under fine day or the first rain stage with the sewage output to sewage treatment plant in the glass steel cylinder body handle. When the rain gauge detects that the rainfall is large, the gate valve is driven by the hoist through the valve rod to ascend so as to open the shunt knife gate valve connected with the gate valve, and water in the glass fiber reinforced plastic cylinder body is discharged into a river channel through the shunt pipe so as to realize rainwater shunt, so that the pressure of a sewage treatment plant during large rainfall is greatly reduced. Further, owing to adopt the glass steel barrel as whole shell, the buried intelligent shunt well device that this embodiment provided can wholly prefabricate in the mill, only need simple excavation to bury underground after transporting the scene, and not only the time limit for a project is very short and construction area is very little, the transformation of especially adapted old city district. In addition, the arrangement of the coupling guide rail, the water outlet base and the lifting basket guide rod also provides conditions for the installation of the sewage lifting device and the garbage recovery device in the glass fiber reinforced plastic cylinder; the glass fiber reinforced plastic cylinder body, the stainless steel bolt and the glass fiber reinforced plastic binder curing layer greatly improve the corrosion resistance and the sealing property of the whole equipment, so that the service life of the equipment is greatly prolonged.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a schematic cross-sectional view of an underground intelligent shunt well device according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 shows a top view of fig. 1.

Detailed Description

As shown in fig. 1 to 3, the underground intelligent diversion well device provided by the embodiment includes a glass fiber reinforced plastic cylinder 1, a sewage knife gate valve 2, a diversion knife gate valve 3, two hoists 4 and 5, a rain gauge 6, a sewage lifting device 7 and a garbage recycling device 8. The peripheral wall of the glass fiber reinforced plastic cylinder body 1 is provided with a water inlet pipe 11, a sewage pipe 12 and a shunt pipe 13, the sewage pipe 12 is positioned below the shunt pipe 13 and close to the bottom wall of the glass fiber reinforced plastic cylinder body 1, and the top wall of the glass fiber reinforced plastic cylinder body 1 is provided with a first flanging maintenance hole 101 and a second flanging maintenance hole 102. The sewage knife gate valve 2 is arranged at the end part of the sewage pipe 12 extending into the glass fiber reinforced plastic cylinder body 1. The shunt knife gate valve 3 is arranged at the end part of the shunt pipe 13 extending into the glass fiber reinforced plastic cylinder body 1. The two hoists 4 and 5 are arranged on the top wall of the glass cylinder 1, the upper end of the valve rod 21 of the sewage knife gate valve and the upper end of the valve rod 31 of the shunt knife gate valve extend out of the top wall of the glass fiber reinforced plastic cylinder 1 and are respectively connected to the two hoists 4 and 5, and the sewage knife gate valve plate 22 and the shunt knife gate valve plate 32 are respectively driven by the two hoists 4 and 5 to move up and down. The rain gauge 6 is arranged on the top wall of the glass fiber reinforced plastic cylinder body 1 and exposed on the bottom surface, and the rain gauge 6 is electrically connected with the hoist 4 for controlling the shunt knife gate valve. The sewage lifting device 7 is arranged in the glass fiber reinforced plastic cylinder 1 and is opposite to the first flanging maintenance port 101, the sewage lifting device 7 comprises a water outlet pipe 71, a water outlet base 72, a coupling guide rail 73 and a submersible sewage pump 74, the water outlet base 72 is connected to the bottom wall of the glass fiber reinforced plastic cylinder 1, the upper end of the coupling guide rail 73 is connected to the side wall of the first flanging maintenance port 101, the lower end of the coupling guide rail 73 is connected to the water outlet base 72, the submersible sewage pump 74 is connected with a coupling connecting piece 75 sleeved on the coupling guide rail 73 and slides down along the coupling connecting piece 75 to be connected with one end of the water outlet base 72 in a sealing mode, and the other end of the water outlet base 72 is connected with the water outlet pipe 71. The garbage recycling device 8 is arranged in the glass fiber reinforced plastic cylinder 1 and is opposite to the second flanging access hole 102.

The formula of burying intelligence reposition of redundant personnel well device that this embodiment passed through collects the reposition of redundant personnel in an organic whole of damming and rainwater of sewage. In sunny days or early rain, mixed sewage enters the glass fiber reinforced plastic cylinder body 1 through the water inlet pipe 11, and a part of the combined sewage is discharged into a sewage treatment plant from the sewage pipe 12 through the normally-open sewage knife gate valve 2 for treatment; the other part is lifted by a sewage lifting device 7 and then discharged into a sewage treatment plant through a water outlet pipe; the sewage discharge based on the sewage pipe 12 and the sewage lifting device 7 greatly reduces the pressure of each pipeline. And when the rain gauge 6 detects that the rainfall is large, the rain gauge 6 triggers the hoist 5 connected with the shunt knife gate valve 3, the hoist 5 drives the gate plate 32 of the shunt knife gate valve to move upwards through the valve rod 31 of the shunt knife gate valve, the shunt pipe 13 is opened by the shunt knife gate valve 3, and water higher than the shunt pipe 13 in the glass fiber reinforced plastic cylinder body 1 is discharged into a river channel through the shunt pipe 13, so that rainwater is shunted. When the rain gauge 6 detects that the rainfall is reduced or does not rain, the hoist 5 drives the gate plate 32 of the shunt knife gate valve to move downwards to plug the shunt pipe 13; at this time, the water in the glass fiber reinforced plastic cylinder 1 is sent to the sewage treatment plant through the sewage pipe 12 and the sewage lifting device 7.

Because the formula of burying intelligence reposition of redundant personnel well device that this embodiment provided uses glass steel cylinder 1 as the main part, so whole equipment can be prefabricated in the mill, only needs simple excavation to bury underground after carrying the scene and can realize the construction, not only the construction is simple, high-efficient and area is little. The coupling guide rail connected to the side wall of the first flanging access hole 101 not only greatly facilitates the assembly of the submersible sewage pump 74 and the water outlet base 72, but also increases the connection strength of the submersible sewage pump 74 after assembly. In this embodiment, the water outlet base 72 is connected to the bottom of the glass fiber reinforced plastic cylinder 1 through a stainless steel bolt, and the upper end of the coupling guide rail 73 is also connected to the sidewall of the first flanging access hole 101 through a stainless steel bolt. In order to improve the strength of the joint, a glass fiber reinforced plastic binder curing layer is preferably arranged between the stainless steel bolt and the glass fiber reinforced plastic cylinder.

In this embodiment, the sewage lifting device 7 further comprises a check valve 76 connected to the water delivery side of the water outlet pipe 71, a gate valve 78 and a flexible connection 77 therebetween. As shown in fig. 2, the buried intelligent diversion well device comprises two groups of sewage lifting devices 7, water outlet pipes 71 of the two groups of sewage lifting devices 7 are connected through a water outlet main pipe 70, and a water outlet end of the water outlet main pipe 70 extends out of the glass fiber reinforced plastic cylinder 1 and is connected with a pipeline of a sewage treatment plant. However, the utility model discloses do not do any restriction to sewage hoisting device's quantity.

In this embodiment, the pipe diameter of the water outlet manifold 70 may be changed according to the system flow of the corresponding device, and the size of the water outlet manifold 70 is generally DN80, DN100, DN150, DN200, etc. Similarly, the pipe diameters of the shunting knife gate valve 3 and the sewage knife gate valve 2) can be changed according to the system flow of the corresponding equipment, and the pipe diameters can be DN300, DN400, DN500, DN600 and the like.

In this embodiment, the garbage recycling device 8 includes a basket guide rod 81, a garbage basket 82 and an inspection grid 83, the upper end of the basket guide rod 81 is fixed to the side wall of the second flanging inspection hole 102, the inspection grid 83 is installed at the end of the water inlet pipe 11, the garbage basket 82 is slidably disposed on the basket guide rod 81, the water inlet of the garbage basket 82 abuts against the inner side of the inspection grid 83, and a basket handle 821 is disposed on the top wall of the garbage basket 82. The access grid 83 blocks the larger volume of waste which collects in the waste basket 82. Periodically, the cleaner pulls the basket handle 821 with the external lifting device to move the garbage basket 82 up the basket guide 81 and out of the second burring access opening 102 for garbage disposal.

Similarly, the upper end of the basket guide rod 81 is connected to the inner wall of the second flanging access hole 102 through a stainless steel bolt, and a glass fiber reinforced plastic binder curing layer is additionally arranged at the joint of the upper end and the inner wall to improve the connection strength.

In this embodiment, the underground intelligent shunting well device further comprises a liquid level switch 9 attached to the coupling guide rail 72 and extending downward, the liquid level switch 9 is electrically connected to a control cabinet (not shown in the figure, usually installed on the ground) of the underground intelligent shunting well device, and the control cabinet controls the motors of the two hoists 4 and 5 and the submersible sewage pump 74. When the water level in the glass fiber reinforced plastic cylinder 1 is low, sewage can be conveyed to a sewage treatment plant only through the sewage pipe 12; when the liquid level in the glass fiber reinforced plastic cylinder body 1 submerges the liquid level switch 9, the motor of the sewage submerging pump 74 is started, and the sewage submerging pump 74 and the sewage pipe 12 convey sewage to a sewage treatment plant together. In this embodiment, the underground intelligent shunt well device only comprises one liquid level switch 9 which is a liquid level float. However, the present invention is not limited to this.

Preferably, as shown in fig. 1, the underground intelligent shunt well device further includes a flowmeter 10 connected to the water inlet pipe 11 and located above the water inlet pipe 11, and the flowmeter 10 is electrically connected to the control cabinet of the underground intelligent shunt well device. The use of the flow meter 10 and the rain gauge 6 together allows a better judgment of the rain entering the glass fiber reinforced plastic cylinder 1, and thus a more accurate opening of the diverter knife gate valve 3.

In this embodiment, the buried intelligent shunt well device further comprises two access covers 14 respectively hinged to the outer wall of the first flanging access hole 101 and the outer wall of the second flanging access hole 102. In the working state, the access cover 4 is in the closed state; when the garbage collection device 8 needs to be cleaned up, the outer wall access cover 14 connected to the first flanging access hole 101 is opened. When it is desired to replace or repair the submersible sewage pump 74, the access cover 14 attached to the outer wall of the second flanged access opening 102 may be opened and a ladder may be placed into which a maintenance person may access the glass fiber reinforced plastic cylinder for maintenance of the submersible sewage pump 74 or other components.

To sum up, the utility model provides a sewage pipe and sewage hoisting device on the glass steel cylinder body among the formula of burying intelligence reposition of redundant personnel well device export the sewage in the glass steel cylinder body to sewage treatment plant under fine day or the first rain phase and handle. When the rain gauge detects that the rainfall is large, the gate valve is driven by the hoist through the valve rod to ascend so as to open the shunt knife gate valve connected with the gate valve, and water in the glass fiber reinforced plastic cylinder body is discharged into a river channel through the shunt pipe so as to realize rainwater shunt, so that the pressure of a sewage treatment plant during large rainfall is greatly reduced. Further, owing to adopt the glass steel cylinder body as whole shell, the buried intelligent shunt well device that this embodiment provided can wholly prefabricate in the mill, only need simple excavation to bury underground after transporting the scene, and not only the time limit for a project is very short and construction area is very little, the transformation of especially adapted old city district. In addition, the arrangement of the coupling guide rail, the water outlet base and the lifting basket guide rod also provides conditions for the installation of the sewage lifting device and the garbage recovery device in the glass fiber reinforced plastic cylinder; the glass fiber reinforced plastic cylinder body, the stainless steel bolt and the glass fiber reinforced plastic binder curing layer greatly improve the corrosion resistance and the sealing property of the whole equipment, so that the service life of the equipment is greatly prolonged.

Although the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of other modifications and variations without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a bury formula intelligence reposition of redundant personnel well device which characterized in that buries underground, bury formula intelligence reposition of redundant personnel well device and include:

the sewage treatment device comprises a glass fiber reinforced plastic cylinder body, wherein a water inlet pipe, a sewage pipe and a flow dividing pipe are mounted on the peripheral wall of the glass fiber reinforced plastic cylinder body, the sewage pipe is positioned below the flow dividing pipe and close to the bottom wall of the glass fiber reinforced plastic cylinder body, and a first flanging maintenance port and a second flanging maintenance port are formed in the top wall of the glass fiber reinforced plastic cylinder body;

the sewage knife gate valve is arranged at the end part of the sewage pipe extending into the glass fiber reinforced plastic cylinder;

the shunt knife gate valve is arranged at the end part of the shunt pipe extending into the glass fiber reinforced plastic cylinder;

the two hoists are arranged on the top wall of the glass cylinder, the upper ends of the valve rods of the sewage knife gate valve and the shunt knife gate valve extend out of the top wall of the glass fiber reinforced plastic cylinder and are respectively connected to the two hoists, and the two hoists are driven to respectively drive the valve plate of the sewage knife gate valve and the valve plate of the shunt knife gate valve to move up and down;

the rain gauge is arranged on the top wall of the glass fiber reinforced plastic cylinder and exposed to the bottom surface, and is electrically connected with the hoist for controlling the shunt knife gate valve;

the sewage lifting device is arranged in the glass fiber reinforced plastic cylinder and is opposite to the first flanging maintenance port, the sewage lifting device comprises a water outlet pipe, a water outlet base, a coupling guide rail and a submersible sewage pump, the water outlet base is connected to the bottom wall of the glass fiber reinforced plastic cylinder, the upper end of the coupling guide rail is connected to the side wall of the first flanging maintenance port, the lower end of the coupling guide rail is connected to the water outlet base, the submersible sewage pump is connected with a coupling connecting piece sleeved on the coupling guide rail and slides downwards along the coupling connecting piece to be hermetically connected with one end of the water outlet base, and the other end of the water outlet base is connected with the water outlet pipe;

and the garbage recovery device is arranged in the glass fiber reinforced plastic cylinder body and is opposite to the second flanging maintenance port.

2. The buried intelligent shunt well device according to claim 1, wherein the garbage recycling device comprises a basket guide rod, a garbage basket and an inspection grid, the upper end of the basket guide rod is fixed to the side wall of the second flanging inspection hole, the inspection grid is installed at the end of the water inlet pipe, the garbage basket is slidably arranged on the basket guide rod, the water inlet of the garbage basket abuts against the inner side of the inspection grid, and a basket handle is arranged on the top wall of the garbage basket.

3. A buried intelligent diverter well device according to claim 1, wherein the sewage lifting device further comprises a check valve, a gate valve and a flexible connection therebetween, the check valve and the gate valve being connected to the water delivery side of the water outlet pipe.

4. The underground intelligent flow distribution well device as claimed in claim 1, wherein the underground intelligent flow distribution well device comprises two sets of sewage lifting devices, water outlet pipes of the two sets of sewage lifting devices are connected through a water outlet main pipe, and a water outlet end of the water outlet main pipe extends out of a glass fiber reinforced plastic cylinder.

5. The underground intelligent flow diversion well device of claim 1, wherein the sewage lifting device coupling guide rail, the water outlet base and the basket guide rod in the garbage recovery device are all connected to the glass fiber reinforced plastic cylinder body through stainless steel bolts, and a glass fiber reinforced plastic binder curing layer is further arranged between the stainless steel bolts and the glass fiber reinforced plastic cylinder body.

6. The underground intelligent shunt well device of claim 1, further comprising at least one liquid level switch attached to the coupling rail and extending downward, wherein the liquid level switch is electrically connected to a control cabinet of the underground intelligent shunt well device, and the control cabinet controls motors of the two hoist and submersible sewage pump.

7. The underground intelligent shunt well device of claim 1, further comprising a flow meter connected to and above the water inlet pipe, the flow meter being electrically connected to a control cabinet of the underground intelligent shunt well device.

8. The underground intelligent shunt well device of claim 1, further comprising two access covers hinged to the outer wall of the first flanged access opening and the outer wall of the second flanged access opening.