CN214695950U - Rain and sewage flow dividing pipe - Google Patents

Abstract

The utility model belongs to the technical field of rainwater is collected and specifically relates to a distribution of rain and sewage pipe is related to, and it goes out water portion including income water portion, first water portion and second, the one end of income water portion and second play water portion, second play water portion intercommunication set up, the department of intaking water is provided with the switching board, the switching board rotates through the axis of rotation and supports in the portion of intaking, the switching board can rotate and seal first water portion and second and go out water portion, and the state of opening of first water portion and second play water portion staggers the setting each other, be provided with the filter plate in the portion of intaking, the filter plate rotates through the pivot and supports in the portion of intaking, it is provided with on the portion of intaking and is used for driving transfer board and filter plate pivoted drive structure. The method and the device have the effect of improving the processing efficiency of the grid net.

Description

Rain and sewage flow dividing pipe

Technical Field

The application relates to the field of rainwater collection, in particular to a rainwater and sewage dividing pipe.

Background

Rainwater is a part of water resource circulation and is also a very precious water resource. Along with the continuous development of urban construction, the area of a watertight road surface is increased day by day, a large amount of rainwater runoff is directly discharged without being utilized, so that the huge waste of water is caused, and the burden of urban drainage facilities is increased. Therefore, the rainwater is properly treated, so that the water source can be saved, and the burden of urban drainage facilities can be lightened.

When the rainwater is treated, the rainwater firstly passes through the grid net to remove large-particle impurities such as leaves, stones and the like in the rainwater, and then the rainwater is treated in the next step

In view of the above-mentioned related art, the inventor believes that there is a drawback in that the filtered leaves and impurities are accumulated at the grid mesh for a long time, which reduces the processing efficiency of the grid mesh.

SUMMERY OF THE UTILITY MODEL

In order to improve the treatment effeciency of grid net, this application provides a rain and sewage shunt tubes.

The application provides a dirty shunt tubes of rain adopts following technical scheme:

the utility model provides a rain and sewage shunt tubes, includes the portion of intaking, first play water portion and second play water portion, the one end of the portion of intaking and second play water portion, second play water portion intercommunication setting, the portion of intaking department is provided with the switching board, the switching board rotates through the axis of rotation and supports in the portion of intaking, the switching board can rotate and seal first play water portion and second play water portion, and the state of opening of first play water portion and second play water portion sets up staggering each other, be provided with the filter plate in the portion of intaking, the filter plate rotates through the pivot and supports in the portion of intaking, it is provided with in the portion of intaking and is used for driving transfer board and filter plate pivoted drive structure to go into the water portion.

By adopting the technical scheme, rainwater passes through the water inlet part and is discharged from the first water outlet part after being filtered by the filter plate, when sundries on the filter plate are more, the filter plate is rotated and opened through the driving structure, the switching plate is rotated to block the first water outlet part, and at the moment, the water flows through the second water outlet part and is discharged, so that the sundries on the filter plate are taken away, and the purpose of cleaning the filter plate is achieved, and the treatment efficiency is improved.

Preferably, the filter plate includes a frame body and a filter screen provided on the frame body.

Through adopting above-mentioned technical scheme, the setting of filter screen for carry out the filtering operation to the impurity of rainwater.

Preferably, the filter plate is provided with a weighing device for weighing the weight of the impurities on the filter plate.

Through adopting above-mentioned technical scheme, weighing device's setting for measure the quality of debris on the filter plate.

Preferably, the weighing device is provided as a pressure sensor, and the pressure sensor is mounted on the upper surface of the frame.

Through adopting above-mentioned technical scheme, pressure sensor is in order to realize detecting the purpose of the foreign matter quality of filtering on the filter plate.

Preferably, the driving structure comprises a driving member for driving the switching plate and the filter plate to rotate, and the weighing device is communicated with a control unit for controlling the driving member.

Through adopting above-mentioned technical scheme, the weight signal of control power structure weighing device measurement to control driving piece rotation.

Preferably, the control unit comprises a controller, a driving circuit and a relay for controlling the on-off of the driving piece power supply circuit, the controller is electrically connected with the weighing device, and the driving circuit is communicated with the controller and the relay.

Through adopting above-mentioned technical scheme, the signal transmission to the controller that weighing device will weigh carries out the comparison of measured value and settlement threshold value in the controller, and when the measured value was greater than or equal to the threshold value, the controller control relay was closed, made the power supply circuit intercommunication of driving piece.

Preferably, a second switch is arranged in the power supply circuit where the driving piece is located.

Through adopting above-mentioned technical scheme, the setting of switch two, the user of being convenient for makes driving piece stop work manually.

Preferably, a first switch for controlling the on-off of the circuit is arranged between the weighing device and the controller.

By adopting the technical scheme, the on-off between the weighing device and the controller can be controlled by a user conveniently.

Drawings

Fig. 1 is a schematic sectional structure of the present application.

Fig. 2 is a schematic structural view of a driving structure.

Fig. 3 is a block diagram of the connection of the weighing apparatus and the control unit.

Reference numerals: 1. a water inlet part; 10. a chute; 2. a first water outlet part; 3. a second water outlet part; 4. filtering the plate; 40. a frame body; 41. a filter screen; 42. a rotating shaft; 5. a drive structure; 50. a driving gear; 51. a primary driven gear; 52. a secondary driven gear; 53. a third stage driven gear; 54. a drive rack; 540. a first tooth; 541. a second tooth; 55. a drive member; 6. a switching structure; 60. a switch board; 61. a rotating shaft; 7. a weighing device; 8. a control unit; 80. a controller; 81. a drive circuit; 82. a relay; 83. a first switch; 84. and a second switch.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses dirty shunt tubes of rain. Referring to fig. 1 and 2, the rain and sewage dividing pipe comprises a pipe body, the pipe body comprises a water inlet part 1, a first water outlet part 2 and a second water outlet part 3, the water inlet part 1, the first water outlet part 2 and the second water outlet part 3 are all arranged in a tubular structure with a rectangular cross section, the first water outlet part 2 and the second water outlet part 3 are both communicated with the water inlet part 1, a filter plate 4 is arranged in the first water outlet part 2, a rotating shaft 42 is fixedly arranged at one end of the filter plate 4 in a penetrating way, the rotating shaft 42 is rotatably supported on the inner wall of the water inlet part 1, the filter plate 4 is rotatably connected with the rotating shaft 42, the filter plate 4 plays a role of filtering impurities in water, the rotating shaft 42 on the filter plate 4 penetrates through the water inlet part 1, and the rotating shaft 42 is provided with a driving structure 5 for driving the rotating shaft 42 to rotate, the driving structure 5 enables the rotating shaft 42 to rotate, and then the filter plate 4 is opened, the filter plate 4 can be rotated and opened, so that impurities on the filter plate 4 fall down, and the aim of cleaning the filter plate 4 is fulfilled.

Referring to fig. 1, the switching structure 6 is further disposed in the water inlet portion 1, and referring to fig. 1, the switching structure 6 includes a switching plate 60 and a rotating shaft 61, the rotating shaft 61 is fixedly disposed on the switching plate 60, the rotating shaft 61 is rotatably supported on the inner wall of the tube body, the driving structure 5 can also drive the rotating shaft 61 to rotate, and the switching plate 60 is further used for respectively blocking the inlets of the first water outlet portion 2 and the second water outlet portion 3. The switching structure 6 is used for enabling the first water outlet portion 2 and the second water outlet portion 3 to be opened in a staggered manner, that is, when the first water outlet portion 2 is opened, the second water outlet portion 3 is closed, when the second water outlet portion 3 is opened, the first water outlet portion 2 is closed, the first water outlet portion 2 is used for passing clean water, and the second water outlet portion 3 is used for discharging impurities filtered by the filtering structure.

Referring to fig. 1, the filter sheet 4 includes a frame 40 and filter screens 41, the filter screens 41 are bonded to the frame 40, the number of the filter sheets 4 is two, the filter sheets 4 are disposed on the same horizontal plane, and one ends of the filter sheets 4, which are far away from the water inlet portion 1, are abutted to each other.

Referring to fig. 2, the driving structure 5 includes a driving gear 50, a first-stage driven gear 51, a second-stage driven gear 52, a third-stage driven gear 53, a driving rack 54 and a driving member 55, the driving gear 50 is fixedly sleeved on a rotating shaft 61, the driving member 55 is a motor, the driving member 55 is coaxially fixed with the rotating shaft 61, the first-stage driven gear 51 is rotatably supported on the outer wall of the water inlet portion 1, the first-stage driven gear 51 is engaged with the driving gear 50, the second-stage driven gear 52 is rotatably supported on the outer wall of the water inlet portion 1, the second-stage driven gear 52 is engaged with the rotating shaft 61, one of the second-stage driven gear 52 is engaged with the first-stage driven gear 51, two driving racks 54 are provided, a sliding groove 10 is formed on the outer wall of the water inlet portion 1, a sliding block is provided on the driving rack 54, the sliding block is slidably fitted in the sliding groove 10, a first tooth 540 and a second tooth 541 are provided on the driving rack 54, the second-stage driven gear 52 is meshed with the second tooth 541, the third-stage driven gear 53 is fixedly sleeved on the rotating shaft 42, and the third-stage driven gear 53 is meshed with the second tooth 541. The drive member 55 is rotated to rotate the switching plate 60 and simultaneously open the relative rotation of the filter plates 4.

Referring to fig. 1 and 3, the weighing device 7 is arranged on the filter plate 4, the weighing device 7 is selected as a pressure sensor, the weighing device 7 is installed on the upper surface of the frame body 40, the weighing device 7 is electrically connected with the control unit 8, the control unit 8 is used for controlling the rotation of the driving piece 55, the control device comprises a controller 80, a driving circuit 81 and a relay 82, the controller 80 is electrically connected with the pressure sensor, the driving circuit 81 is electrically connected with the controller 80, the controlled end of the controller 80 and the relay 82 is electrically connected, the control end of the relay 82 is connected in series in a power supply circuit of the driving piece 55, and the relay 82 is in a normally open state. The controller 80 is selected from one of a single chip microcomputer and a PLC, and the model of the driving circuit 81 is set to be ULN 2003. The pressure sensor is used for detecting the weight of impurities on the filter plate 4, when the weight is higher than a set threshold value, the controller 80 drives the relay 82 to be closed, at the moment, the power circuit of the driving piece 55 is communicated, the driving piece 55 rotates, the switching plate 60 is enabled to block the first water outlet part 2, and meanwhile, the filter plate 4 is enabled to rotate to be opened through the driving structure 5.

Referring to fig. 3, a first switch 83 is disposed between the pressure sensor and the controller 80, the first switch 83 is disposed to facilitate a user to manually cut off the connection between the pressure sensor and the controller 80, a second switch 84 is disposed in a power supply loop of the driving member 55, and the second switch 84 facilitates the user to manually control the driving member 55 to close.

The implementation principle of this application embodiment a rain and sewage shunt tubes does: the filter plate 4 filters impurities, the filtered impurities are placed on the filter plate 4, when the weight of the impurities on the filter plate 4 is higher than a set value, the control unit 8 controls the driving piece 55 to rotate, the switching plate 60 rotates to block the first water outlet portion 2, at the moment, the second water outlet portion 3 is opened, and the impurities on the filter plate 4 can be discharged through the second water outlet portion 3 along with water flow, so that the purpose of cleaning the filter plate 4 is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a rain and sewage shunt tubes which characterized in that: including income water portion (1), first play water portion (2) and second play water portion (3), the one end and second play water portion (3) of income water portion (1) go out water portion (3), second and go out water portion (3) intercommunication setting, it is provided with switching board (60) to go into water portion (1) department, switching board (60) rotate through axis of rotation (61) and support in income water portion (1), switching board (60) can rotate and seal first play water portion (2) and second play water portion (3), and the state of opening of first play water portion (2) and second play water portion (3) staggers the setting each other, it is provided with filter plate (4) in water portion (1) to go into, filter plate (4) rotate through pivot (42) and support in income water portion (1), it is provided with on water portion (1) and is used for driving conversion board and filter plate (4) pivoted drive structure (5).

2. The rain and sewage shunt tube of claim 1, wherein: the filter plate (4) comprises a frame body (40) and a filter screen arranged on the frame body (40).

3. The rain and sewage shunt tube of claim 2, wherein: and the filter plate (4) is provided with a weighing device (7) for weighing the weight of the sundries on the filter plate (4).

4. The rain and sewage shunt tube of claim 3, wherein: the weighing device (7) is a pressure sensor, and the pressure sensor is mounted on the upper surface of the frame body (40).

5. The rain and sewage shunt tube of claim 3, wherein: the driving structure (5) comprises a driving piece (55) for driving the switching plate (60) and the filter plate (4) to rotate, and the weighing device (7) is communicated with a control unit (8) for controlling the driving piece (55).

6. The rain and sewage shunt tube of claim 5, wherein: the control unit (8) comprises a controller (80), a driving circuit (81) and a relay (82) used for controlling the on-off of a power supply circuit of the driving piece (55), the controller (80) is electrically connected with the weighing device (7), and the driving circuit (81) is communicated with the controller (80) and the relay (82).

7. The rain and sewage shunt tube of claim 5, wherein: the driving piece (55) is electrically connected with a second switch (84).

8. The rain and sewage shunt tube of claim 5, wherein: a first switch (83) for controlling the on-off of the circuit is arranged between the weighing device (7) and the controller (80).

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