CN215742065U

CN215742065U - Hydraulic engineering pump station structure

Info

Publication number: CN215742065U
Application number: CN202122288793.XU
Authority: CN
Inventors: 周晨钟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2022-02-08
Anticipated expiration: 2031-09-22

Abstract

The utility model discloses a hydraulic engineering pump station structure, and belongs to the field of hydraulic engineering. A hydraulic engineering pump station structure comprises a filtering device, a sewage draining device, a cleaning device, a lifting device, a pump station, a filtering cavity, a cleaning cavity, a mounting plate and a cleaning block; the filter chamber intercommunication sets up in a side terminal surface of pump station, one side end wall of filter chamber is close to open-ended one side intercommunication and is provided with the inlet tube of being connected with external water supply pipeline, and open-ended one side end wall is kept away from to the filter chamber and is fixed with the water pump, and the intercommunication is provided with the outlet pipe of being connected with external drainage pipeline on the water pump, strikes off adnexed debris rubbish on with the filter screen through setting up clean mechanism, also can be with remaining moisture extrusion in the filter screen simultaneously, and it is comparatively convenient and efficient to use.

Description

Hydraulic engineering pump station structure

Technical Field

The utility model relates to the field of hydraulic engineering, in particular to a hydraulic engineering pump station structure.

Background

At present, a pump station is one of effective engineering measures for solving the problems of flood disasters, drought and water shortage and water environment deterioration of the current three water resources, bears the important roles of regional flood control, waterlogging removal, irrigation, water transfer and water supply, is mainly used for farmland drainage and irrigation, urban water supply and drainage, cross-drainage water transfer and the like, and plays an irreplaceable role in reasonable scheduling and management of water resources.

Because the pump station supplies water quality of water different, can install the filtration process additional usually in the pump station, because it is clean inconvenient to the filter screen in traditional water conservancy pump station, consequently to the cleanness of filter screen in conventional filtration process, go on by the manual work usually, can waste a large amount of labours like this, clean efficiency is also lower simultaneously, and the foreign matter rubbish that the cleanness got off still needs the secondary to transport to the rubbish station, and operation process is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a hydraulic engineering pump station structure to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a hydraulic engineering pump station structure comprises a filtering device, a sewage draining device, a cleaning device, a lifting device, a pump station, a filtering cavity, a cleaning cavity, a mounting plate and a cleaning block; the filter cavity is communicated and arranged in one side end face of the pump station, one side of the end wall of one side of the filter cavity, which is close to the opening, is communicated and provided with a water inlet pipe connected with an external water supply pipeline, one side of the end wall of the filter cavity, which is far away from the opening, is fixedly provided with a water pump, and the water pump is communicated and provided with a water outlet pipe connected with an external water drainage pipeline; the cleaning cavity is arranged in the pump station, the opening of the cleaning cavity faces the side which is the same as that of the filter cavity and is positioned on the filter cavity, the mounting plate is arranged at the openings of the filter cavity and the cleaning cavity, the cleaning block is arranged at the side of the cleaning cavity far away from the filter cavity in a sliding manner, the cleaning device is arranged on the cleaning block, the lifting device is arranged at the side of the cleaning cavity far away from the filter cavity, the filter device is connected with the mounting plate in a sliding manner, and the sewage discharging device is positioned at the side of the filter cavity far away from the opening and is communicated with the cleaning cavity; the cleaning device is used for cleaning foreign matters on the surface of the filtering device, the filtering device is used for filtering the foreign matters in water, the sewage discharging device is used for transporting the foreign matters removed from the filtering device, and the lifting device is used for assisting the filtering device in cleaning.

Preferably, the cleaning device comprises a lifting cavity, a driving motor, a driving threaded shaft, a driving connecting block, a telescopic threaded shaft, a cleaning motor and a scraping assembly; the filter chamber is kept away from to lift chamber intercommunication setting in clean chamber one side end wall, driving motor fixes in the end wall of clean chamber opening one side is kept away from in the lift chamber, driving motor and drive threaded shaft power connection and drive threaded shaft are close to clean chamber opening one side end wall with the lift chamber and are rotated and be connected, drive connecting block slide set up in the lift intracavity and with drive threaded shaft threaded connection, one side threaded connection that the one end and the drive connecting block of flexible threaded shaft are close to the filter chamber, cleaning motor fixes in the cleaning block with the other end power connection of flexible threaded shaft, cut the one side that the flexible threaded shaft was kept away from at the cleaning block to the setting of rubbing the subassembly, cut the subassembly of rubbing and be used for striking off the surperficial foreign matter of filter equipment and extrude the surperficial moisture of filter equipment.

Preferably, cut the piece of rubbing and include axis of rotation and elasticity scraper blade, the axis of rotation rotates and sets up in the one side that the filter chamber is close to the cleaning piece, and the junction of axis of rotation and cleaning piece is provided with the torsional spring that the rotation that resets was used, and the elasticity scraper blade is fixed in the one side that the filter chamber is close to the axis of rotation, and the axis of rotation only can rotate to keeping away from the direction of cleaning chamber open-ended under the restriction of cleaning piece.

Preferably, filter equipment includes the slip chamber, switch the motor, switch the screw shaft, filter and filtration pore, slip chamber intercommunication sets up in a side end face that the mounting panel is close to the pump station, it fixes and keeps away from a side end wall in clean chamber at the slip chamber to switch the motor, the one end that switches the screw shaft switches motor power and connects, the other end that switches the screw shaft rotates with the slip chamber to be connected, the filter with switch screw shaft threaded connection, the lower extreme of filter extends to and filters the intracavity and keeps away from an open-ended side end wall with the filter chamber and closely laminates, the intercommunication is provided with a plurality of filtration pores that all align horizontally vertically on the filter, the filter is located between inlet tube and the water pump.

Preferably, the sewage discharging device comprises a conveying water channel which is arranged on one side of the filtering cavity far away from the opening and communicated with the cleaning cavity, one end of the conveying water channel for inputting water is connected with an external water supply device, and one end of the conveying water channel for outputting water is connected with external garbage treatment equipment.

Preferably, the lifting device comprises a lifting motor, a lifting rod and a lifting threaded shaft, the lifting rod is arranged in the pump station in a sliding mode and located on one side, far away from the cleaning cavity, of the lifting cavity, the placing direction of the lifting rod is perpendicular to the mounting plate, the lifting threaded shaft is arranged in the lifting rod in a threaded mode, one end, close to the transportation water channel, of the lifting threaded shaft is in power connection with the lifting motor, and the lifting motor is fixed in the pump station

Compared with the prior art, the utility model has the beneficial effects that: scraping attached sundry garbage on the filter screen through the cleaning mechanism, simultaneously pressing out residual moisture in the filter screen, using conveniently and efficiently, simultaneously, conveying the scraped sundry garbage into a garbage station through the action of small water flow without manual secondary carrying, and operating conveniently.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1A;

FIG. 3 is a schematic view of the structure of FIG. 2B-B;

FIG. 4 is a schematic view of the cleaning apparatus of the present invention;

FIG. 5 is a schematic view of the structure of the filter plate according to the present invention.

In the figure: a. a cleaning device; b. a filtration device; c. a sewage draining device; d. a lifting device; 10. a pump station; 11. a filter chamber; 12. a water outlet pipe; 13. a water inlet pipe; 14. a water pump; 20. a sliding cavity; 21. switching the motors; 22. switching the threaded shafts; 23. a filter plate; 24. a filtration pore; 30. cleaning the cavity; 31. a transport water channel; 40. a lifting motor; 41. a lifting rod; 42. a lifting threaded shaft; 43. mounting a plate; 50. a lifting cavity; 51. a drive motor; 52. a drive threaded shaft; 53. a driving connecting block; 54. a telescopic threaded shaft; 55. a cleaning block; 56. cleaning the motor; 57. an elastic scraper; 58. a rotating shaft; 59. a torsion spring.

Detailed Description

Example 1:

referring to fig. 1-5, the present invention provides a technical solution: a hydraulic engineering pump station structure comprises a filtering device b, a sewage draining device c, a cleaning device a, a lifting device d, a pump station 10, a filtering cavity 11, a cleaning cavity 30, a mounting plate 43 and a cleaning block 55; the filter cavity 11 is communicated and arranged in the end face of one side of the pump station 10, one side of the end wall of one side of the filter cavity 11, which is close to the opening, is communicated and provided with a water inlet pipe 13 connected with an external water supply pipeline, one side of the end wall of one side of the filter cavity 11, which is far away from the opening, is fixedly provided with a water pump 14, and the water pump 14 is communicated and provided with a water outlet pipe 12 connected with an external water drainage pipeline; the cleaning cavity 30 is arranged at the opening of the pump station 10, the opening of the cleaning cavity 30 faces the same direction as the opening of the filter cavity 11 and is positioned at one side of the filter cavity 11, the mounting plate 43 is arranged at the openings of the filter cavity 11 and the cleaning cavity 30, the cleaning block 55 is arranged at one side of the cleaning cavity 30 far away from the filter cavity 11 in a sliding manner, the cleaning device a is arranged on the cleaning block 55, the lifting device d is arranged at one side of the cleaning cavity 30 far away from the filter cavity 11, the filter device b is connected with the mounting plate 43 in a sliding manner, and the sewage discharging device c is positioned at one side of the filter cavity 11 far away from the opening and is communicated with the cleaning cavity 30; the cleaning device a is used for cleaning foreign matters on the surface of the filtering device b, the filtering device b is used for filtering the foreign matters in water, the sewage discharging device c is used for transporting the foreign matters removed from the filtering device b, and the lifting device d is used for assisting the filtering device b in cleaning.

Referring to fig. 1 and 2, the cleaning device a includes a lifting cavity 50, a driving motor 51, a driving threaded shaft 52, a driving connecting block 53, a telescopic threaded shaft 54, a cleaning motor 56 and a scraping component; the lifting cavity 50 is communicated with the end wall of one side of the cleaning cavity 30 far away from the filter cavity 11, the driving motor 51 is fixed in the end wall of one side of the lifting cavity 50 far away from the opening of the cleaning cavity 30, the driving motor 51 is in power connection with the driving threaded shaft 52, the driving threaded shaft 52 is in rotation connection with the end wall of one side of the lifting cavity 50 near the opening of the cleaning cavity 30, the driving connecting block 53 is slidably arranged in the lifting cavity 50 and in threaded connection with the driving threaded shaft 52, one end of the telescopic threaded shaft 54 is in threaded connection with one side of the driving connecting block 53 near the filter cavity 11, the cleaning motor 56 is fixed in the cleaning block 55 and is in power connection with the other end of the telescopic threaded shaft 54, the scraping component is arranged on one side of the cleaning block 55 far away from the telescopic threaded shaft 54, and is used for scraping foreign matters on the surface of the filter device b and pressing out moisture on the surface of the filter device b.

Referring to fig. 2 and 3, the scraping assembly includes a rotating shaft 58 and an elastic scraper 57, the rotating shaft 58 is rotatably disposed on one side of the cleaning block 55 close to the filter cavity 11, a torsion spring 59 for returning rotation is disposed at a connection position of the rotating shaft 58 and the cleaning block 55, the elastic scraper 57 is fixed on one side of the rotating shaft 58 close to the filter cavity 11, and the rotating shaft 58 can only rotate in a direction away from the opening of the cleaning cavity 30 under the restriction of the cleaning block 55.

Referring to fig. 1, the filtering device b includes a sliding chamber 20, a switching motor 21, a switching threaded shaft 22, a filtering plate 23 and filtering holes 24, the sliding chamber 20 is communicated with and disposed in a side end face of the mounting plate 43 close to the pump station 10, the switching motor 21 is fixed on a side end wall of the sliding chamber 20 far away from the cleaning chamber 30, one end of the switching threaded shaft 22 is in power connection with the switching motor 21, the other end of the switching threaded shaft 22 is rotatably connected with the sliding chamber 20, the filtering plate 23 is in threaded connection with the switching threaded shaft 22, the lower end of the filtering plate 23 extends into the filtering chamber 11 and is tightly attached to the side end wall of the filtering chamber 11 far away from the opening, the filtering plate 23 is communicated with and disposed with a plurality of horizontally and vertically aligned filtering holes 24, and the filtering plate 23 is disposed between the water inlet pipe 13 and the water pump 14.

Referring to fig. 1, the sewage draining device c includes a water transporting channel 31 disposed at a side of the filtering cavity 11 away from the opening and communicated with the cleaning cavity 30, wherein a water input end of the water transporting channel 31 is connected to an external water supply device, and a water output end of the water transporting channel 31 is connected to an external garbage disposal apparatus.

Referring to fig. 1, the lifting device d includes a lifting motor 40, a lifting rod 41 and a lifting threaded shaft 42, the lifting rod 41 is slidably disposed in the pump station 10 and located at a side of the lifting cavity 50 away from the cleaning cavity 30, the lifting rod 41 is disposed in a direction perpendicular to the mounting plate 43, the lifting threaded shaft 42 is disposed in the lifting rod 41, one end of the lifting threaded shaft 42 close to the transportation water channel 31 is in power connection with the lifting motor 40, and the lifting motor 40 is fixed in the pump station 10

In an initial state, the filter plate 23 is vertically positioned in the filter cavity 11, except one side of the filter plate 23 close to the opening direction of the filter cavity 11, other sides are in close contact with the inner wall of the filter cavity 11, the cleaning cavity 30 and the opening of the filter cavity 11 are sealed by the mounting plate 43, the cleaning block 55 is positioned on one side close to the mounting plate 43, and a small amount of flowing water flow always exists in the water conveying channel 31.

When the water purifier works, water containing foreign matters enters from the water inlet pipe 13, the water entering the filter cavity 11 is filtered by the filter plate 23, so that the foreign matters are intercepted by the filter plate 23, the residual water is pumped out through the water outlet pipe 12 under the action of the water pump 14, one side surface of the filter plate 23 close to the water inlet pipe 13 is full of the foreign matters after long-time use, and the filter hole 24 is blocked, at the moment, the water inlet pipe 13 stops supplying water, the lifting motor 40 is started, so that the lifting threaded shaft 42 is driven to rotate, the lifting rod 41 is driven to move upwards under the action of threaded connection, the mounting plate 43 is driven to move upwards, the filter plate 23 is further pulled upwards, when the lowest side of the filter plate 23 is flush with the opening end face of the filter cavity 11, the switching motor 21 is started, the lifting motor 40 is stopped, so that the switching motor 21 drives the switching threaded shaft 22 to rotate, and the filter plate 23 is driven to move towards the direction close to the cleaning cavity 30, when the end surface of one side of the filter plate 23 far from the cleaning chamber 30 is aligned with the end wall of one side of the cleaning chamber 30 close to the filter chamber 11, the switching motor 21 is turned off, then the lifting motor 40 is started reversely, the mounting plate 43 is moved downwards through the above driving process, and then the filter plate 23 is moved into the cleaning chamber 30, after the mounting plate 43 is reset, the cleaning motor 56 is started, so that the telescopic threaded shaft 54 is rotated, so that the cleaning block 55 moves towards the direction close to the filter chamber 11 relative to the driving connecting block 53, and after the elastic scraper 57 contacts with the filter plate 23 and deforms towards the direction close to the mounting plate 43, the cleaning motor 56 is turned off, and then the driving motor 51 is started positively, so that the driving connecting block 53 moves downwards, so that the cleaning block 55 is driven by the telescopic threaded shaft 54 to move downwards, so that the elastic scraper 57 moves downwards, and the elastic scraper 57 scrapes off foreign matters attached to the surface of the filter plate 23, the scraped foreign matters enter the conveying water channel 31 under the action of gravity and are then carried out by water flow in the conveying water channel 31, when the cleaning block 55 moves downwards to enable the elastic scraper 57 to be separated from the filter plate 23, the driving motor 51 is started reversely, the elastic scraper 57 is driven to reset on line through the driving process, at the moment, the elastic scraper 57 collides with the filter plate 23 to enable the elastic scraper 57 to drive the rotating shaft 58 to turn over in the direction close to the conveying water channel 31, so that the elastic scraper 57 is tightly attached to the surface of the filter plate 23 to further extrude moisture absorbed by the surface of the filter plate 23, and when the cleaning block 55 returns to the initial position, the driving motor 51 is turned off;

then through the process, the mounting plate 43 moves to one side far away from the pump station 10, the filter plate 23 moves out of the cleaning cavity 30, then the switching motor 21 rotates reversely, the filter plate 23 moves to one side close to the filter cavity 11, when the filter plate 23 moves to any position between the water inlet pipe 13 and the water pump 14, the switching motor 21 stops running, then the mounting plate 43 is reset downwards to the initial position through the process, and then the water inlet pipe 13 is enabled to recover water supply.

Claims

1. The utility model provides a hydraulic engineering pump station structure which characterized in that: comprises a filtering device (b), a pollution discharge device (c), a cleaning device (a), a lifting device (d), a pump station (10), a filtering cavity (11), a cleaning cavity (30), a mounting plate (43) and a cleaning block (55);

the filter cavity (11) is communicated and arranged in the end face of one side of the pump station (10), a water inlet pipe (13) connected with an external water supply pipeline is communicated and arranged on one side, close to the opening, of the end wall of one side of the filter cavity (11), a water pump (14) is fixed on the end wall of one side, far away from the opening, of the filter cavity (11), and a water outlet pipe (12) connected with an external water drainage pipeline is communicated and arranged on the water pump (14);

the cleaning cavity (30) is arranged in the pump station (10), the opening of the cleaning cavity (30) faces the same direction as that of the filtering cavity (11) and is positioned on one side of the filtering cavity (11), the mounting plate (43) is arranged at the opening of the filtering cavity (11) and the cleaning cavity (30), the cleaning block (55) is arranged on one side, far away from the filtering cavity (11), of the cleaning cavity (30) in a sliding mode, the cleaning device (a) is arranged on the cleaning block (55), the lifting device (d) is arranged on one side, far away from the filtering cavity (11), of the cleaning cavity (30), the filtering device (b) is connected with the mounting plate (43) in a sliding mode, and the pollution discharge device (c) is positioned on one side, far away from the opening, of the filtering cavity (11) and is communicated with the cleaning cavity (30);

the cleaning device (a) is used for cleaning foreign matters on the surface of the filtering device (b), the filtering device (b) is used for filtering the foreign matters in water, the sewage discharging device (c) is used for transporting the foreign matters removed from the filtering device (b), and the lifting device (d) is used for assisting the filtering device (b) in cleaning.

2. The hydraulic engineering pump station structure according to claim 1, characterized in that: the cleaning device (a) comprises a lifting cavity (50), a driving motor (51), a driving threaded shaft (52), a driving connecting block (53), a telescopic threaded shaft (54), a cleaning motor (56) and a scraping component;

the lifting cavity (50) is communicated with and arranged on the end wall of one side, far away from the filtering cavity (11), of the cleaning cavity (30), the driving motor (51) is fixed in the end wall of one side, far away from the opening of the cleaning cavity (30), of the lifting cavity (50), the driving motor (51) is in power connection with the driving threaded shaft (52), the driving threaded shaft (52) is in rotating connection with the end wall of one side, close to the opening of the cleaning cavity (30), of the lifting cavity (50), the driving connecting block (53) is arranged in the lifting cavity (50) in a sliding mode and in threaded connection with the driving threaded shaft (52), one end of the telescopic threaded shaft (54) is in threaded connection with one side, close to the filtering cavity (11), of the driving connecting block (53), the cleaning motor (56) is fixed in the cleaning block (55) and in power connection with the other end of the telescopic threaded shaft (54), the rubbing assembly is arranged on one side, far away from the telescopic threaded shaft (54) of the cleaning block (55), and is used for scraping foreign matters on the surface of the filtering device (b) and scraping the moisture on the surface of the filtering device (b) off the foreign matters And (4) extruding.

3. The hydraulic engineering pump station structure according to claim 2, characterized in that: the scraping component comprises a rotating shaft (58) and an elastic scraper (57), the rotating shaft (58) is rotatably arranged on one side, close to the filter cavity (11), of the cleaning block (55), a torsion spring (59) for resetting and rotating is arranged at the connecting position of the rotating shaft (58) and the cleaning block (55), the elastic scraper (57) is fixed on one side, close to the filter cavity (11), of the rotating shaft (58), and the rotating shaft (58) can only rotate in the direction far away from the opening of the cleaning cavity (30) under the limitation of the cleaning block (55).

4. The hydraulic engineering pump station structure according to claim 1, characterized in that: the filtering device (b) comprises a sliding cavity (20), a switching motor (21), a switching threaded shaft (22), a filtering plate (23) and filtering holes (24), sliding chamber (20) intercommunication sets up in a side end face that mounting panel (43) are close to pump station (10), switch motor (21) and fix in sliding chamber (20) keep away from a side end wall of clean chamber (30), the one end that switches threaded shaft (22) switches motor (21) power connection, the other end that switches threaded shaft (22) rotates with sliding chamber (20) and is connected, filter (23) with switch threaded shaft (22) threaded connection, the lower extreme of filter (23) extends to in filter chamber (11) and keeps away from open-ended one side end wall with filter chamber (11) and closely laminates, the intercommunication is provided with a plurality of filtration pores (24) that the level is vertical all to align on filter (23), filter (23) are located between inlet tube (13) and water pump (14).

5. The hydraulic engineering pump station structure according to claim 1, characterized in that: the sewage discharging device (c) comprises a conveying water channel (31) which is arranged on one side of the filtering cavity (11) far away from the opening and is communicated with the cleaning cavity (30), one end of the conveying water channel (31) for inputting water is connected with an external water supply device, and one end of the conveying water channel (31) for outputting water is connected with external garbage treatment equipment.

6. The hydraulic engineering pump station structure according to claim 1, characterized in that: lifting device (d) includes elevator motor (40), lifter (41) and lift threaded shaft (42), lifter (41) slide to set up in pump station (10) and lie in lift chamber (50) and keep away from one side of clean chamber (30), the direction of placing perpendicular to mounting panel (43) of lifter (41), lifter (41) internal thread is provided with lift threaded shaft (42), lift threaded shaft (42) are close to the one end and the elevator motor (40) power connection of transportation water course (31), elevator motor (40) are fixed in pump station (10).