CN117107875B - Intelligent drainage and shunt management and control system - Google Patents

Abstract

The invention discloses an intelligent drainage shunt control system, which comprises a lower shell, an adjusting seat and an upper shell, wherein the side surface of the lower shell is connected with a rainwater pipeline and a sewage pipeline, a guide cylinder is arranged in the lower shell, a floating body is arranged outside the guide cylinder in a sliding manner, and the floating body floats upwards or sinks to realize the switching of the rainwater pipeline and the sewage pipeline; be provided with elasticity spacing subassembly on the guide cylinder, elasticity spacing subassembly includes uide bushing, spring and spacer pin, the spacer pin stretches out the guide cylinder outer wall under the elasticity of spring, be provided with the water inlet on the last casing, be provided with the floater in the last casing, the floater come-up is in order to draw into the guide cylinder with the spacer pin, form rotatory in order to change volumetric variable volume passageway between regulation seat and the last casing, regulation seat periphery is provided with first gear, intelligent row mouth shunt tubes control system is including the motor, the output of motor is equipped with the second gear with first gear engagement. The water flow threshold value of the rainwater pipeline opening can be adjusted, so that rainwater and sewage can be separated more accurately.

Description

Intelligent drainage and shunt management and control system

Technical Field

The invention belongs to the technical field of intelligent drainage shunt management and control systems, and particularly relates to an intelligent drainage shunt management and control system.

Background

In modern urban construction, urban drainage systems generally comprise a rainwater drainage system and a sewage drainage system, rainwater and sewage are drained through different pipelines, sewage is discharged to a sewage treatment plant for treatment through a sewage pipeline, and rainwater can be directly discharged into underground water or river. However, in old communities constructed in early stages, the separation of rainwater and sewage is not realized, the rainwater and the sewage are all mixed pipelines, the total amount of sewage is increased by taking the drainage in the communities as the sewage, the cost of sewage treatment is increased, and the cost of separating the rainwater and the sewage is also high by reconstructing the pipelines of the communities, so that equipment capable of separating the rainwater and the sewage in the mixed pipelines is needed.

CN 115247449B discloses a rain sewage diversion system, which controls whether to drain into a sewage pipeline or a rain water pipeline by whether a floating ball floats in a tapered groove, that is to say, whether to drain into the rain water pipeline or the sewage pipeline by the magnitude of drainage, and when the drainage is large, the rain water pipeline is used for draining, and when the drainage is small, the rain water pipeline is used for draining. However, the rainwater or sewage accuracy is judged only by the drainage amount, the drainage amount of the sewage in different periods of time is different every day, the drainage amount is not inferior to that of the rainwater in the water use peak period, the size of the tapered groove of the rainwater and sewage diversion system cannot be adjusted, the sewage in the peak period can be discharged into a rainwater pipeline when the tapered groove is smaller, and the rainwater can be discharged into the sewage pipeline when the tapered groove is larger.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent drainage shunt control system which controls the discharged water to drain into a rainwater pipeline and a sewage pipeline according to the drainage quantity, can be further adjusted according to whether the water is high or not, regulates the water flow threshold value of the opening of the rainwater pipeline at the time of water use peak, regulates the water flow threshold value of the opening of the rainwater pipeline at the time of water use valley, and further regulates the water flow threshold value of the opening of the rainwater sewage pipeline to separate rainwater and sewage more accurately.

In order to solve the technical problems, the invention is solved by the following technical scheme: the intelligent drainage shunt control system comprises a lower shell, an adjusting seat and an upper shell, wherein the side face of the lower shell is connected with a rainwater pipeline and a sewage pipeline, a guide cylinder is arranged in the lower shell, a floating body is slidably arranged on the outer side of the guide cylinder, the floating body is connected with a rainwater pipeline end cover and a sewage pipeline end cover through a connecting rod, the floating body at least comprises a first floating position and a second floating position, when the floating body is positioned at the first floating position, the rainwater pipeline end cover seals the rainwater pipeline, and the sewage pipeline end cover is staggered with the sewage pipeline; when the floating body is positioned at the second floating position, the rainwater pipeline end cover is staggered with the rainwater pipeline, and the sewage pipeline end cover seals the sewage pipeline; the guide cylinder is provided with an elastic limiting component for blocking the floating body from floating up from a first floating position to a second floating position, the elastic limiting component comprises a guide sleeve, a spring and a limiting pin, the limiting pin stretches out of the outer wall of the guide cylinder under the elasticity of the spring, the upper shell is provided with a water inlet, the upper shell is internally provided with a floating ball, the bottom of the floating ball is provided with a guide rod penetrating through the adjusting seat to stretch into the lower shell, a inhaul cable is arranged between the guide rod and the limiting pin, the floating ball floats upwards to pull the limiting pin into the guide cylinder, the adjusting seat is rotationally arranged between the lower shell and the upper shell, a variable volume channel is formed between the adjusting seat and the upper shell, the adjusting seat is rotated to change the volume of the variable volume channel, the variable volume channel is respectively communicated with the upper shell and the lower shell, a first gear is arranged on the periphery of the adjusting seat, the intelligent drainage shunt control system comprises a motor, the output end of the motor is connected with a second gear, and the first gear is meshed with the second gear. The intelligent drainage shunt control system is characterized in that a water inlet of an upper shell in sewage or rainwater enters a lower shell through a variable volume channel, when water exists in the lower shell and a floating ball in the upper shell does not float upwards, a floating body is positioned at a first floating position, a rainwater pipeline is closed, a sewage pipeline is opened, water is discharged from the sewage pipeline, when the lower shell, the variable volume channel and the upper shell are filled with water, the floating ball in the upper shell floats upwards, a limiting pin on an elastic limiting assembly is pulled into a guide cylinder, the floating body floats to a second floating position, the rainwater pipeline is opened, the sewage pipeline is closed, and the water is discharged from the rainwater pipeline; the volume of the volume-variable channel is controlled by controlling the rotation of the motor-controllable regulating seat, so that the volume of the volume-variable channel can be regulated during water use peak, namely, the water flow threshold value of the opening of the rainwater pipeline is regulated, and the volume of the volume-variable channel is regulated during water use valley, namely, the water flow threshold value of the opening of the rainwater pipeline is regulated, so that rainwater and sewage can be separated more accurately.

In the above technical solution, preferably, the floating body includes a sinking position, and when the floating body is located at the sinking position, the rain water pipe end cover seals the rain water pipe, and the sewage pipe end cover seals the sewage pipe. By adopting the structure, the rainwater pipeline can be sealed by the rainwater pipeline end cover when no water exists in the lower shell in a non-drainage state, and the sewage pipeline is sealed by the sewage pipeline end cover, so that the mode is odorous.

In the above technical solution, preferably, a through hole is provided in the middle of the sewage conduit end cover, and an accommodating groove for the sewage conduit end cover to move is provided at the bottom of the lower casing.

In the above technical solution, preferably, guide grooves are disposed in the lower housing and located at two sides of the rainwater pipeline and the sewage pipeline.

In the above technical scheme, preferably, a through channel is arranged between the upper shell, the adjusting seat and the lower shell, a sealing plug is arranged at the top of the channel, a supporting ring is supported at the top of the sealing plug through a supporting rod, the supporting ring is provided with the floating ball, the guide rod connected with the bottom of the floating ball passes through the sealing plug in a sealing and sliding manner, and the guide cylinder is arranged below the channel.

In the above technical scheme, preferably, a limiting ring is arranged on the periphery of the top of the guide cylinder. The floating body is prevented from being separated from the guide cylinder by adopting the structure.

In the above technical scheme, preferably, the bottom of the upper shell is provided with a cylindrical shell and a plurality of first baffle rings which are concentric, the first baffle rings are all provided with a first circulation port along the radial direction, the adjusting seat comprises a rotating disc, one side of the rotating disc is provided with a plurality of second baffle rings which are concentric, the second baffle rings are all provided with a second circulation port along the radial direction, the upper shell is sleeved with the adjusting seat in a concentric manner, the first baffle rings are sleeved with the second baffle rings at intervals, a first sealing part which is attached to the second baffle rings is arranged on one side of the first circulation port, a second sealing part which is attached to the first baffle rings is arranged on one side of the second circulation port, and the first baffle rings, the second circulation port, the first sealing part and the second sealing part are matched to form the variable volume channel.

In the above technical solution, preferably, the rotating disc is provided with a plurality of exhaust ports, the exhaust ports are located near the second sealing portion and located at one side outside the variable volume channel, each of the first baffle ring and the second baffle ring is provided with the exhaust port in a gap, and the rotating disc is provided with an exhaust channel with an inner end communicated with the exhaust port and an outer end communicated with the outside. The gap between the first baffle ring and the second baffle ring, which is not used as a variable volume channel, is communicated with the atmosphere by adopting the structure, so that the resistance is reduced when the rotating disc rotates, the rotating disc is adjusted more smoothly, and the rotating moment of the rotating disc is not large due to the influence of air pressure.

Compared with the prior art, the invention has the following beneficial effects: the intelligent drainage shunt control system is characterized in that a water inlet of an upper shell in sewage or rainwater enters a lower shell through a variable volume channel, when water exists in the lower shell and a floating ball in the upper shell does not float upwards, a floating body is positioned at a first floating position, a rainwater pipeline is closed, a sewage pipeline is opened, water is discharged from the sewage pipeline, when the lower shell, the variable volume channel and the upper shell are filled with water, the floating ball in the upper shell floats upwards, a limiting pin on an elastic limiting assembly is pulled into a guide cylinder, the floating body floats to a second floating position, the rainwater pipeline is opened, the sewage pipeline is closed, and the water is discharged from the rainwater pipeline; the volume of the volume-variable channel is controlled by controlling the rotation of the motor-controllable regulating seat, so that the volume of the volume-variable channel can be regulated during water use peak, namely, the water flow threshold value of the opening of the rainwater pipeline is regulated, and the volume of the volume-variable channel is regulated during water use valley, namely, the water flow threshold value of the opening of the rainwater pipeline is regulated, so that rainwater and sewage can be separated more accurately.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present invention.

Fig. 2 is an exploded view of an embodiment of the present invention.

FIG. 3 is a schematic cross-sectional view of a floating body in a submerged position according to an embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a floating body in a first floating position according to an embodiment of the present invention.

Fig. 5 is a schematic cross-sectional view of the floating body in a second floating position according to an embodiment of the present invention.

Fig. 6 is a schematic cross-sectional view of an adjusting seat according to an embodiment of the present invention.

Fig. 7 is a schematic view of the structure of the adjusting seat in fig. 6 after rotation.

Fig. 8 is a schematic structural view of an adjusting seat according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of the bottom of the upper housing in the embodiment of the invention.

Description of the embodiments

The invention is described in further detail below with reference to the attached drawings and detailed description: referring to fig. 1 to 9, an intelligent drainage shunt control system comprises a lower shell 1, an adjusting seat 2 and an upper shell 3, wherein the side surface of the lower shell 1 is connected with a rainwater pipeline 4 and a sewage pipeline 5, a guide cylinder 11 is arranged in the lower shell 1, a floating body 12 is slidably arranged outside the guide cylinder 11, a rainwater pipeline end cover 13 and a sewage pipeline end cover 14 are connected to the floating body 12 through connecting rods, the floating body 12 at least comprises a first floating position and a second floating position, when the floating body 12 is positioned at the first floating position, the rainwater pipeline end cover 13 seals the rainwater pipeline 4, and the sewage pipeline end cover 14 staggers the sewage pipeline 5; when the floating body 12 is positioned at the second floating position, the rainwater pipeline end cover 13 is staggered with the rainwater pipeline 4, and the sewage pipeline end cover 14 seals the sewage pipeline 5; the guide cylinder 11 is provided with an elastic limiting component for blocking the floating body 12 from floating upwards from the first floating position to the second floating position, the elastic limiting component comprises a guide sleeve 15, a spring 16 and a limiting pin 17, the limiting pin 17 stretches out of the outer wall of the guide cylinder 11 under the elasticity of the spring 16, the upper shell 3 is provided with a water inlet 31, the upper shell 3 is internally provided with a floating ball 32, the bottom of the floating ball 32 is provided with a guide rod 33 penetrating through an adjusting seat 2 and stretching into a lower shell 1, a guy cable 34 is arranged between the guide rod 33 and the limiting pin 17, the floating ball 32 floats upwards to pull the limiting pin 17 into the guide cylinder 11, the adjusting seat 2 is rotatably arranged between the lower shell 1 and the upper shell 3, a variable volume channel 21 is formed between the adjusting seat 2 and the upper shell 3, the variable volume channel 21 is respectively communicated with the upper shell 3 and the lower shell 1, the periphery of the adjusting seat 2 is provided with a first gear 22, the intelligent drainage shunt control system comprises a motor 6, the output end of the motor 6 is connected with a second gear 61, and the first gear 22 is meshed with the second gear 61. The intelligent drainage shunt control system has the advantages that the water inlet 31 of the upper shell 3 in sewage or rainwater enters the lower shell 1 through the variable volume channel 21, whether the sewage or the rainwater is generated is judged through the water flow, the sewage flow is relatively small, the rainwater flow is relatively large, when the water flow is small, namely, water exists in the lower shell 1 and the floating ball 323 in the upper shell 3 is not floated, the floating body 12 is blocked by the limiting pin 17, only the floating body 12 floats to a first floating position, at the moment, the rainwater pipeline 4 is closed, the sewage pipeline 5 is opened, the water is discharged from the sewage pipeline 5, when the water flow is large, namely, the lower shell 1, the variable volume channel 21 and the upper shell 3 are filled up, the floating ball 32 in the upper shell 3 floats upwards, the limiting pin 17 on the elastic limiting component is pulled into the guide cylinder 11, the floating body 12 is not floated by the limiting pin 17, the floating body 12 floats to a second floating position, the rainwater pipeline 4 is opened, the rainwater pipeline 5 is closed, and the water is discharged from the rainwater pipeline 4; because the sewage discharge amount difference is larger when the water use peak and the water use low valley are, the motor 6 can control the regulating seat 2 to rotate, thereby controlling the volume of the variable volume channel 21, further increasing the volume of the variable volume channel 21, namely increasing the water flow threshold value of the opening of the rainwater pipeline 4, and decreasing the volume of the variable volume channel 21, namely decreasing the water flow threshold value of the opening of the rainwater pipeline 4, when the water use low valley is carried out, thereby separating rainwater and sewage more accurately. For example, for a district, there are seasonal water peaks and temporal water peaks, for example, in summer, seasonal water peaks and in the evening, the motor is controlled by the control device, the volume of the variable volume channel 21 is adjusted to be large in the evening, so that a relatively large flow of sewage can be discharged from the sewage pipeline, and the volume of the variable volume channel 21 is adjusted to be small in the rest of the district. And can be adjusted according to the sewage discharge scale of different communities, thereby separating rainwater and sewage more accurately.

In this embodiment, the floating body 12 comprises a submerged position, and when the floating body 12 is in the submerged position, the rain water pipe end cover 13 closes the rain water pipe 4, and the sewage pipe end cover 14 closes the sewage pipe 5. With this structure, the rainwater pipe 4 can be closed by the rainwater pipe end cover 13 and the sewage pipe 5 can be closed by the sewage pipe end cover 14 in a state where water is not discharged, that is, when no water is present in the lower case 1, thereby returning odor.

In this embodiment, the middle part of the sewer end cover 14 is provided with a through hole 141, and the bottom of the lower housing 1 is provided with an accommodating groove 18 for the sewer end cover 14 to move. With this structure, the sewage pipe end cover 14 can be moved in the accommodation groove 18 without lowering the height of the surface of the support float 12 inside the lower housing 1, so that water inside the lower housing 1 can be discharged substantially completely.

In this embodiment, guide grooves 19 are provided in the lower housing 1 on both sides of the rainwater pipe 4 and the sewage pipe 5. The rainwater pipeline end cover 13 and the sewage pipeline end cover 14 can be guided by adopting the structure, and dislocation is prevented.

In this embodiment, a through channel is arranged between the upper housing 3, the adjusting seat 2 and the lower housing 1, a sealing plug 35 is arranged at the top of the channel, a supporting ring 36 is supported at the top of the sealing plug 35 through a supporting rod, a floating ball 32 is arranged on the supporting ring 36, a guide rod 33 connected with the bottom of the floating ball 32 passes through the sealing plug 35 in a sealing and sliding manner, and a guide cylinder 11 is arranged below the channel. The adoption of the structure ensures that the floating ball 32 floats upwards only when the upper shell 3 is provided with water with the height higher than that of the supporting ring 36, the floating ball 32 can not float upwards due to the water flowing through the upper shell 3, and the floating ball 32 can be lifted more stably.

In this embodiment, a limit ring 111 is provided on the outer periphery of the top of the guide cylinder 11. This structure prevents floating body 12 from coming off guide cylinder 11.

In this embodiment, referring to fig. 6 to 9, a cylindrical casing 37 and a plurality of concentric first baffle rings 38 are disposed at the bottom of the upper casing 3, a first flow port 39 is disposed on each of the plurality of first baffle rings 38 along a radial direction, the adjusting seat 2 includes a rotating disc 23, a plurality of concentric second baffle rings 24 are disposed on each of the plurality of second baffle rings 24 along a radial direction, a second flow port 25 is disposed on each of the plurality of second baffle rings 24 along a radial direction, the upper casing 3 and the adjusting seat 2 are concentrically sleeved, the first baffle rings 38 are sleeved with the second baffle rings 24 at intervals, a first sealing portion 310 attached to the second baffle rings 24 is disposed on a side of the first baffle rings 38 located on the first flow port 39, a second sealing portion 26 attached to the first baffle rings 38 is disposed on a side of the second baffle rings 24 located on the second baffle rings 25, the first baffle rings 38, the first flow port 39, the second baffle rings 24, the second flow port 25, the first sealing portion 310 and the second sealing portion 26 are matched to form a variable volume channel 21, the variable volume channel 21 is located between the upper casing 3 and the first casing 37 and the lower casing 1, and the variable volume channel is located between the variable volume channel and the first casing 21 and the first casing 1 and the lower casing 21. The volume of the variable volume channel 21 can be conveniently adjusted by adopting the structure, the assembly is convenient, the adjusting seat 2 is sleeved into the cylindrical shell 37 from the lower part to be assembled, the lower shell 1 and the upper shell 3 are fixed through the long screw, and the adjusting seat 2 is clamped between the lower shell 1 and the upper shell 3.

In this embodiment, the rotating disc 23 is provided with a plurality of exhaust ports 27, the exhaust ports 27 are located on one side, which is close to the second sealing portion 26 and is located outside the variable volume channel 21, in the gap between each of the first baffle ring 38 and the second baffle ring 24, the exhaust ports 27 are provided, and an exhaust channel is provided in the rotating disc 23, wherein the inner end of the exhaust channel is communicated with the exhaust ports 27, and the outer end of the exhaust channel is communicated with the outside. With this structure, the gap between the first stopper ring 38 and the second stopper ring 24, which is not used as the variable volume passage 21, is communicated with the atmosphere, so that the resistance is reduced when the rotary disk 23 rotates, the rotary disk 23 is adjusted more smoothly, and the rotation moment of the rotary disk 23 is not made large due to the influence of the air pressure.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (8)

1. An intelligent drainage shunt control system which is characterized in that: the rainwater pipeline type sewage treatment device comprises a lower shell (1), an adjusting seat (2) and an upper shell (3), wherein the side face of the lower shell (1) is connected with a rainwater pipeline (4) and a sewage pipeline (5), a guide cylinder (11) is arranged in the lower shell (1), a floating body (12) is slidably arranged on the outer side of the guide cylinder (11), a rainwater pipeline end cover (13) and a sewage pipeline end cover (14) are connected onto the floating body (12) through connecting rods, the floating body (12) at least comprises a first floating position and a second floating position, when the floating body (12) is positioned at the first floating position, the rainwater pipeline end cover (13) seals the rainwater pipeline (4), and the sewage pipeline end cover (14) is staggered with the sewage pipeline (5); when the floating body (12) is positioned at the second floating position, the rainwater pipeline end cover (13) is staggered with the rainwater pipeline (4), and the sewage pipeline end cover (14) seals the sewage pipeline (5); an elastic limiting component for blocking the floating body (12) from floating up to a second floating up position from a first floating up position is arranged on the guide cylinder (11), the elastic limiting component comprises a guide sleeve (15), a spring (16) and a limiting pin (17), the limiting pin (17) stretches out of the outer wall of the guide cylinder (11) under the elasticity of the spring (16), a water inlet (31) is arranged on the upper shell (3), a floating ball (32) is arranged in the upper shell (3), a guide rod (33) penetrating through the adjusting seat (2) and stretching into the lower shell (1) is arranged at the bottom of the floating ball (32), a guy cable (34) is arranged between the guide rod (33) and the limiting pin (17), the floating ball (32) floats up to pull the limiting pin (17) into the guide cylinder (11), the adjusting seat (2) is rotatably arranged between the lower shell (1) and the upper shell (3), a variable volume channel (21) is formed between the adjusting seat (2) and the upper shell (3), the variable volume channel (21) is respectively communicated with the variable volume channel (21), the intelligent drainage shunt control system comprises a motor (6), wherein the output end of the motor (6) is connected with a second gear (61), and the first gear (22) is meshed with the second gear (61).

2. An intelligent drainage shunt control system according to claim 1, wherein: the floating body (12) comprises a sinking position, when the floating body (12) is located at the sinking position, the rainwater pipeline end cover (13) seals the rainwater pipeline (4), and the sewage pipeline end cover (14) seals the sewage pipeline (5).

3. An intelligent drainage shunt control system according to claim 2, wherein: the middle part of the sewage pipeline end cover (14) is provided with a through hole (141), and the bottom of the lower shell (1) is provided with an accommodating groove (18) for the sewage pipeline end cover (14) to move.

4. An intelligent drainage shunt control system according to claim 1, wherein: guide grooves (19) are formed in the lower shell (1) and located on two sides of the rainwater pipeline (4) and the sewage pipeline (5).

5. An intelligent drainage shunt control system according to claim 1, wherein: the utility model discloses a guide cylinder, including upper casing (3), regulation seat (2), lower casing (1), sealing plug (35) are provided with at the passageway top, sealing plug (35) top is supported through branch has support ring (36), be provided with on support ring (36) floater (32), floater (32) bottom connection guide rod (33) seal slidable pass sealing plug (35), the passageway below is provided with guide cylinder (11).

6. An intelligent drainage shunt control system according to claim 1, wherein: and a limiting ring (111) is arranged on the periphery of the top of the guide cylinder (11).

7. An intelligent drainage shunt control system according to claim 1, wherein: the utility model provides a seal that upper housing (3) bottom is provided with cylindrical shell (37) and a plurality of first keep off ring (38) of endocentric, a plurality of first keep off ring (38) all are provided with a first circulation mouth (39) along radial, adjust seat (2) including rolling disc (23), rolling disc (23) one side is provided with a plurality of second keep off ring (24) of endocentric, a plurality of second keep off ring (24) all are provided with a second circulation mouth (25) along radial, upper housing (3) with adjust seat (2) concentric cover, first keep off ring (38) with second keep off ring (24) interval cover closes, be located on first keep off ring (38) one side of first circulation mouth (39) be provided with first sealing portion (310) that second keep off ring (24) are laminated, be located on second keep off ring (24) one side be provided with second sealing portion (26) that first keep off ring (38) are laminated, first circulation mouth (38), second circulation mouth (24), second sealing portion (21), second circulation mouth (24) and second circulation mouth (24) form.

8. An intelligent drainage shunt control system according to claim 7, wherein: be provided with a plurality of gas vents (27) on rotating disk (23), gas vent (27) are located and are close to second sealing portion (26), and are located one side outside variable volume passageway (21), every first keep off ring (38) with in the clearance of second keep off ring (24) all be provided with gas vent (27), be provided with in rotating disk (23) inner with gas vent (27) intercommunication, outer end and outside intercommunication's exhaust passage.