CN107012913A - Anti-clogging new structure based on hydraulic engineering - Google Patents

Abstract

The invention discloses the anti-clogging new structure based on hydraulic engineering, inclined screen pack A is connected with pipeline below water inlet, the angle of screen pack A and vertical direction is 60 degree, screen pack A two ends are connected on orthogonal two inwalls of pipeline, the screen pack B parallel with screen pack A is connected with pipeline, screen pack B two ends are connected on two inwalls being parallel to each other in pipeline, vertical inner wall in pipeline above screen pack A is telescopic connecting rod A, pressure sensor A is connected with connecting rod A, it is telescopic connecting rod B on the inwall of duct bottom, connecting rod B is between screen pack B and screen pack A, pressure sensor B is connected on connecting rod B, one end that road is connected with screen pack A is connected with L-type deposit cavity, deposit cavity is used to deposit the debris that pipeline is discharged at connecting rod A and connecting rod B.

Description

Anti-clogging new structure based on hydraulic engineering

Technical field

The present invention relates to hydraulic engineering field, and in particular to the anti-clogging new structure based on hydraulic engineering.

Background technology

For the irrigation in farmland, general most area is to dig the form that approach channel carries out flood irrigation, this tradition using high water level Irrigation form water resource waste it is larger, operating efficiency is low, and cost is high.Using the side such as sprinkling irrigation or drip irrigation more than new irrigation technique Formula, requirement of this irrigation method to water quality is of a relatively high, it is impossible to have the debris such as pasture and water, sandstone, soil, easily block pipeline or Shower nozzle.Because most regional water is deficienter in reality, to more than the irrigation in farmland by the way of deep-well pumping, sandstone in water More, the equipment for often resulting in irrigation is blocked, and bad cleaning influences irrigation operation, also increases operation labor intensity.

The content of the invention

The technical problems to be solved by the invention are that existing pipeline is easily blocked up in irrigation pipeline with sandstone soil Pipeline is filled in, the flowing and irrigation of water is influenceed, it is therefore intended that the anti-clogging new structure based on hydraulic engineering is provided, pipeline is solved and blocks up The problem of plug.

The present invention is achieved through the following technical solutions：

Anti-clogging new structure based on hydraulic engineering, including pipeline, be connected to above pipeline water inlet, positioned at pipeline In interior helical axis and the spiral flow deflector being connected on helical axis, the pipeline inclined mistake is connected with below water inlet Filter screen A, the angle of the screen pack A and vertical direction are 60 degree, and the two ends of the screen pack A are connected to pipeline and mutually hung down On two straight inwalls, the screen pack B parallel with screen pack A is connected with the pipeline, the two ends of the screen pack B connect respectively It is connected on two inwalls being parallel to each other in pipeline, the vertical inner wall in the pipeline above screen pack A is telescopic company It is telescopic connecting rod B, institute to be connected with extension bar A, the connecting rod A on pressure sensor A, the inwall of the duct bottom Connecting rod B is stated between screen pack B and screen pack A, pressure sensor B is connected on the connecting rod B, the road is connected with filtering Net A one end is connected with L-type deposit cavity, and the deposit cavity is used to depositing that pipeline discharges at connecting rod A and connecting rod B to be miscellaneous Thing.

Further, the water of the present apparatus is flowed into from water inlet, and by screen pack A, water is by screen pack A, and volume is larger Sandstone are on screen pack A, and because screen pack A is tilted, therefore, the larger sandstone of volume are slided by screen pack A, when on connecting rod A Pressure sensor A when experiencing larger pressure, pressure sensor A sends a signal to the controller on connecting rod A, connecting rod Controller control connecting rod A on A shortens, and then the opening for making the larger sandstone of volume be produced after shortening by connecting rod A, stream Enter in deposit cavity, and then prevent the blocking to screen pack A, similarly, by the water after screen pack A and small sandstone, then pass through mistake Filter screen B, small sandstone are separated from water by the screen pack B, because inclination makes small sandstone be deposited on connecting rod B, when on connecting rod B Pressure sensor B when experiencing larger pressure, pressure sensor B sends a signal to the controller on connecting rod B, connecting rod Controller control connecting rod B on B shortens, and then the opening for making small sandstone be produced after shortening by connecting rod B, flows into deposit cavity In, and then prevent the blocking to screen pack B.

The present apparatus is compared with existing pipeline, the gravity that the present apparatus is flowed from the top down by water, and screen pack inclination Place, more quickly water and sandstone can be separated, and tilting makes sandstone slide automatically, can more effectively prevent sandstone Screen pack is blocked, and by pressure sensor control, operation is more convenient and smart, can be monitored at any time.

Specifically, the anti-clogging new structure based on hydraulic engineering, the settling chamber includes vertical containing cavities A and level Containing cavities B, the containing cavities A and containing cavities B are vertically connected, and containing cavities A has opening, the containing cavities B in connecting rod A There is opening at extension bar B.

It is preferred that, delivery port is arranged at the anti-clogging new structure based on hydraulic engineering, bottom of the pipeline away from deposit cavity, The unidirectional pad that blocks water is connected with the delivery port.The unidirectional pad that blocks water can effectively prevent water from being flowed back when flowing out delivery port.

It is preferred that, the anti-clogging new structure based on hydraulic engineering, the bottom of the deposit cavity and the bottom of pipeline are mutual It is parallel.Deposit cavity is L shape, and is connected to the corner of pipeline, and the bottom of pipeline can not only be protected, again can be by sand Stone debris is come outside pipeline.

It is preferred that, the anti-clogging new structure based on hydraulic engineering, the bottom of the deposit cavity is cement material.

Specifically, the anti-clogging new structure based on hydraulic engineering, the aperture of the screen pack A is more than screen pack B hole Footpath.

The present invention compared with prior art, has the following advantages and advantages：

1st, the anti-clogging new structure of the invention based on hydraulic engineering, the present apparatus is compared with existing pipeline, and the present apparatus is led to Cross the gravity that water flows from the top down, and screen pack slant setting, more quickly water and sandstone can be separated, and Inclination makes sandstone slide automatically, can more effectively prevent sandstone from blocking screen pack, and by pressure sensor control, operation is more Plus convenient intelligence, it can be monitored at any time.；

2nd, the anti-clogging new structure of the invention based on hydraulic engineering, present apparatus deposit cavity is L shape, and is connected to pipe The corner in road, can not only protect to the bottom of pipeline, again can come sandstone debris outside pipeline；

3rd, the anti-clogging new structure of the invention based on hydraulic engineering, the present apparatus is simple in construction to be easy to use, and is not required to Manually to operate, it is more convenient and practical.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding the embodiment of the present invention, constitutes one of the application Point, do not constitute the restriction to the embodiment of the present invention.In the accompanying drawings：

Fig. 1 is schematic structural view of the invention.

Mark and corresponding parts title in accompanying drawing：

1- pipelines, 2- water inlets, 3- screen packs A, 4- screen pack B, 5- helical axis, 6- spiral flow deflectors, 7- connecting rod A, 8- connecting rods B, 9- containing cavities B, 10- containing cavities A, 11- delivery port, 12- unidirectionally blocks water pad, 13- pressure sensors A, 14- pressure Sensor B.

Embodiment

For the object, technical solutions and advantages of the present invention are more clearly understood, with reference to embodiment and accompanying drawing, to this Invention is described in further detail, and exemplary embodiment and its explanation of the invention is only used for explaining the present invention, does not make For limitation of the invention.

Embodiment 1

As shown in figure 1, the anti-clogging new structure based on hydraulic engineering of the invention, including pipeline 1, it is connected on pipeline 1 In water inlet 2, the helical axis 5 in pipeline 1 and the spiral flow deflector 6 being connected on helical axis 5 of side, the pipeline 1 The lower section of water inlet 2 is connected with inclined screen pack A3, and the angle of the screen pack A3 and vertical direction are 60 degree, the filtering Net A3 two ends are connected on 1 orthogonal two inwall of pipeline, are connected with the pipeline 1 parallel with screen pack A3 Screen pack B4, the two ends of the screen pack B4 are connected on two inwalls being parallel to each other in pipeline 1, the pipeline 1 Vertical inner wall above inherent screen pack A3 is to be connected with pressure sensor on telescopic connecting rod A7, the connecting rod A7 It is telescopic connecting rod B8 on A13, the inwall of the bottom of pipeline 1, the connecting rod B8 is in screen pack B4 and screen pack A3 Between, pressure sensor B14 is connected on the connecting rod B8, one end that the road 1 is connected with screen pack A3 is connected with L-type deposition Chamber, the deposit cavity is used to deposit the debris that pipeline 1 is discharged at connecting rod A7 and connecting rod B8.

Embodiment 2

The described anti-clogging new structure based on hydraulic engineering, including pipeline 1, the water inlet for being connected to the top of pipeline 1 2nd, in pipeline 1 in helical axis 5 and the spiral flow deflector 6 being connected on helical axis 5, the pipeline 1 under water inlet 2 Side is connected with inclined screen pack A3, and the angle of the screen pack A3 and vertical direction are 60 degree, the two ends of the screen pack A3 It is connected on 1 orthogonal two inwall of pipeline, the screen pack parallel with screen pack A3 is connected with the pipeline 1 B4, the two ends of the screen pack B4 are connected on two inwalls being parallel to each other in pipeline 1, in filtering in the pipeline 1 It is to be connected with pressure sensor A13, the pipe on telescopic connecting rod A7, the connecting rod A7 to net the vertical inner wall above A3 It is telescopic connecting rod B8 on the inwall of the bottom of road 1, the connecting rod B8 is between screen pack B4 and screen pack A3, the company Pressure sensor B14 is connected on extension bar B8, one end that the road 1 is connected with screen pack A3 is connected with L-type deposit cavity, the deposition Chamber is used to deposit the debris that pipeline 1 is discharged at connecting rod A7 and connecting rod B8.Settling chamber includes vertical containing cavities A10 and water Flat containing cavities B9, the containing cavities A10 and containing cavities B9 are vertically connected, and containing cavities A10 has opening in connecting rod A7, institute State containing cavities B9 has opening at extension bar B8.

Embodiment 3

The described anti-clogging new structure based on hydraulic engineering, including pipeline 1, the water inlet for being connected to the top of pipeline 1 2nd, in pipeline 1 in helical axis 5 and the spiral flow deflector 6 being connected on helical axis 5, the pipeline 1 under water inlet 2 Side is connected with inclined screen pack A3, and the angle of the screen pack A3 and vertical direction are 60 degree, the two ends of the screen pack A3 It is connected on 1 orthogonal two inwall of pipeline, the screen pack parallel with screen pack A3 is connected with the pipeline 1 B4, the two ends of the screen pack B4 are connected on two inwalls being parallel to each other in pipeline 1, in filtering in the pipeline 1 It is to be connected with pressure sensor A13, the pipe on telescopic connecting rod A7, the connecting rod A7 to net the vertical inner wall above A3 It is telescopic connecting rod B8 on the inwall of the bottom of road 1, the connecting rod B8 is between screen pack B4 and screen pack A3, the company Pressure sensor B14 is connected on extension bar B8, one end that the road 1 is connected with screen pack A3 is connected with L-type deposit cavity, the deposition Chamber is used to deposit the debris that pipeline 1 is discharged at connecting rod A7 and connecting rod B8.Settling chamber includes vertical containing cavities A10 and water Flat containing cavities B9, the containing cavities A10 and containing cavities B9 are vertically connected, and containing cavities A10 has opening in connecting rod A7, institute State containing cavities B9 has opening at extension bar B8.Bottom of the pipeline 1 away from deposit cavity has to be connected with delivery port 11, the delivery port The unidirectional pad 12 that blocks water.The bottom of deposit cavity and the bottom of pipeline 1 are parallel to each other.The bottom of deposit cavity is cement material.Screen pack A3 aperture is more than screen pack B4 aperture.

Above-described embodiment, has been carried out further to the purpose of the present invention, technical scheme and beneficial effect Describe in detail, should be understood that the embodiment that the foregoing is only the present invention, be not intended to limit the present invention Protection domain, within the spirit and principles of the invention, any modification, equivalent substitution and improvements done etc. all should be included Within protection scope of the present invention.

Claims (6)

1. the anti-clogging new structure based on hydraulic engineering, it is characterised in that including pipeline (1), be connected to above pipeline (1) Water inlet (2), the helical axis (5) in pipeline (1) and the spiral flow deflector (6) being connected on helical axis (5), the pipe Inclined screen pack A (3) is connected with below road (1) interior water inlet (2), the screen pack A (3) and the angle of vertical direction are 60 degree, the two ends of the screen pack A (3) are connected on orthogonal two inwalls of pipeline (1), in the pipeline (1) The screen pack B (4) parallel with screen pack A (3) is connected with, the two ends of the screen pack B (4) are connected to pipeline (1) interior phase Mutually on two parallel inwalls, the vertical inner wall above pipeline (1) the inherence screen pack A (3) is telescopic connecting rod A (7) it is telescopic company, to be connected with the connecting rod A (7) on pressure sensor A (13), the inwall of pipeline (1) bottom Extension bar B (8), the connecting rod B (8) connects pressure between screen pack B (4) and screen pack A (3) on the connecting rod B (8) Sensor B (14), one end that the road (1) is connected with screen pack A (3) is connected with L-type deposit cavity, and the deposit cavity is used to deposit The debris that pipeline (1) is discharged from connecting rod A (7) and connecting rod B (8).

2. the anti-clogging new structure according to claim 1 based on hydraulic engineering, it is characterised in that settling chamber's bag Vertical containing cavities A (10) and the containing cavities B (9) of level are included, the containing cavities A (10) and containing cavities B (9) are vertically connected, and And containing cavities A (10) has opening in connecting rod A (7), the containing cavities B (9) has opening at extension bar B (8) place.

3. the anti-clogging new structure according to claim 1 based on hydraulic engineering, it is characterised in that the pipeline (1) Bottom away from deposit cavity, which has, is connected with the unidirectional pad (12) that blocks water on delivery port (11), the delivery port.

4. the anti-clogging new structure according to claim 1 based on hydraulic engineering, it is characterised in that the deposit cavity The bottom of bottom and pipeline (1) is parallel to each other.

5. the anti-clogging new structure according to claim 1 based on hydraulic engineering, it is characterised in that the deposit cavity Bottom is cement material.

6. the anti-clogging new structure according to claim 1 based on hydraulic engineering, it is characterised in that the screen pack A (3) aperture is more than screen pack B (4) aperture.