CN214742297U - A hydrophobic means for hydraulic engineering - Google Patents

Abstract

The utility model discloses a hydrophobic means for hydraulic engineering, include box, supporting leg, inhale filter chamber, centrifugal chamber, inhale and strain subassembly and centrifugal subassembly, the box comprises inhaling filter chamber and centrifugal chamber, the box bottom is the toper, the supporting leg passes through the bolt and installs in the box bottom, inhale the filter chamber and install in the box, just it is L shape to inhale the filter chamber, the centrifugal chamber is installed and is inhaled filter chamber top one side, the centrifugal chamber bottom comprises the filter screen, inhale and strain the unit mount and inhale in straining the chamber. The utility model discloses a through being equipped with and inhaling the subassembly of straining, utilize the second cylinder to pull the pump line and move down, inhale the stub bar and will inhale a large amount of impurity in filter chamber bottom and mud and inhale the pump line, realize the mediation to rivers, first cylinder pulls the sliding block and removes on the slide bar to the messenger inhales the stub bar and inhales the filter chamber bottom reciprocating motion, inhales a large amount of impurity in the filter chamber and mud and strains, realizes convenient quick hydrophobic effect.

Description

A hydrophobic means for hydraulic engineering

Technical Field

The utility model relates to a hydraulic engineering correlation technique field specifically is a hydrophobic means for hydraulic engineering.

Background

Water is the indispensable resource in the life, but its form is changeable, so must make the great rise hydraulic engineering, just can control rivers, but contain a large amount of impurity and earth in often rivers and can lead to the fact the jam to rivers, so just need hydrophobic installation, hydrophobic installation thinks about as the name meaning is exactly the device that dredges rivers, impurity and earth in the clearance rivers, the circulation and the hydraulic engineering's of the rivers of being convenient for construction.

The prior art has the following defects: unable quick convenient clear up impurity and earth, and the device can't accomplish self-cleaning, often uses the short time to cause the jam, need change the filter screen, complex operation, and the life of damage device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydrophobic means for hydraulic engineering to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a hydrophobic means for hydraulic engineering, includes box, supporting leg, inhales straining chamber, centrifugal chamber, inhales and strains subassembly and centrifugal subassembly, the box comprises inhaling straining chamber and centrifugal chamber, the box bottom is the toper, the supporting leg passes through the bolt and installs in the box bottom, inhale the straining chamber and install in the box, just it is L shape to inhale the straining chamber, the centrifugal chamber is installed and is inhaled straining chamber top one side, the centrifugal chamber bottom comprises the filter screen, inhale and strain the unit mount in inhaling the straining chamber, centrifugal subassembly installs in the centrifugal chamber.

As a further preferred of this technical scheme, box bottom both sides are equipped with inlet tube, outlet pipe respectively, the inlet tube all is equipped with the flange with the outlet pipe output, the inlet tube all is equipped with the external screw thread with the outlet pipe output, inlet tube, outlet pipe and flange pass through the screw thread and close soon.

As a further preferred of this technical scheme, inhale and strain the subassembly and include slide bar, sliding block, connecting rod, take out material portion and filter house, the slide bar joint is installed on inhaling and is straining indoor top, the sliding block cover is established and is installed outside the slide bar, sliding block and slide bar sliding connection, the connecting rod passes through the bolt and installs on the sliding block top, it installs in inhaling and straining indoor to take out material portion, the filter house is installed and is being located the centrifugal chamber below inhaling and straining indoor.

As a further preferred of this technical scheme, material pumping portion includes fixed block, first cylinder, second cylinder, material pumping pipe and inhales the stub bar, the fixed block passes through the buckle to be installed and inhales filter chamber inner wall one side top and be located the slide bar top, first cylinder passes through the bolt and installs in fixed block one side, just first cylinder output passes through the buckle with the connecting rod and is connected, the second cylinder passes through the bolt and installs in the slide block bottom, material pumping pipe installs at second cylinder output, just material pumping pipe is made by plasticity material, inhale stub bar cover and establish and install in material pumping pipe bottom.

As a further preferred of the technical scheme, the filtering part comprises three groups of filtering plates, the three groups of filtering plates are closely arranged in the suction filtering chamber, and the top ends and the bottom ends of the three groups of filtering plates are respectively connected with the lower surface of the bottom end of the centrifugal chamber and the inner surface of the bottom end of the suction filtering chamber through buckles.

As a further preferred of this technical scheme, the centrifugation subassembly includes fixed plate, pump, conveying pipe, raceway, multiunit screens spare and centrifugation portion, the fixed plate joint is installed on the indoor top of centrifugation, pump's input and pump pipe tail end connection, the conveying pipe is installed at pump output end, the raceway is installed in the centrifugation room and the tail end extends to outside the centrifugation room, the multiunit screens spare is established respectively the cover and is installed in conveying pipe, raceway outside, the centrifugation portion is installed in the centrifugation room and is located the fixed plate below.

As a further preferred of this technical scheme, centrifugation portion includes driving motor, transmission shaft, centrifuge bowl, row's material pipe, control valve, multiunit filter screen and multiunit brush, driving motor passes through the bolt and installs on the fixed plate top, the transmission shaft passes through the buckle and installs in the fixed plate bottom, the centrifuge bowl rotates and installs at the driving motor output, just the centrifuge bowl bottom is the toper, the centrifuge bowl both sides comprise the screen cloth, it rotates and installs in the centrifuge bowl bottom to arrange the material pipe, just it runs through to inhale the filter chamber and extends to the outside to arrange the material pipe, the control valve is installed and is arranged the material pipe output, the multiunit the filter screen cover is established and is installed at the transmission shaft outsidely, the multiunit the filter screen lateral wall is installed to the brush, and the multiunit the brush output is laminated with the centrifuge bowl inner wall.

As a further preferred option of the technical scheme, an annular groove is formed in the top end surface of the centrifugal cylinder, the output ends of the feeding pipe and the water pipe both penetrate through the annular groove and extend into the centrifugal cylinder, and the output ends of the feeding pipe and the water pipe are slidably connected with the annular groove.

The utility model provides a hydrophobic means for hydraulic engineering possesses following beneficial effect:

(1) the utility model discloses a be equipped with and inhale and strain the subassembly, three group's filters are inhaling a large amount of impurity in the pipeline aquatic and earth interception and are straining indoorly, the second cylinder pulls the pumping tube downstream, it will inhale during the remaining a large amount of impurity in straining chamber bottom and mud inhale the pumping tube to inhale the stub bar, the realization is to the mediation of rivers, first cylinder pulls the sliding block and removes on the slide bar, thereby the messenger inhales the stub bar and is inhaling straining chamber bottom reciprocating motion, inhale to inhaling a large amount of impurity in the straining chamber and mud and strain, realize convenient quick hydrophobic effect, guarantee the circulation of rivers, and can not harm the device.

(2) The utility model discloses a be equipped with centrifugal subassembly, utilize the pump to send into a large amount of impurity and mud in the centrifuge tube through the conveying pipe, driving motor drives the high-speed rotation of centrifuge tube, in the rotation process, the overall stability of component can be guaranteed to multiunit screens piece, high-speed rotatory water in with a large amount of impurity and mud gets rid of the centrifuge chamber through the screen cloth, the water that filters off flows to the suction filter chamber by centrifuge chamber bottom filter screen, can wash three group's filters, prevent that three group's filter from blockking up influence filter effect, multiunit filter screen filters impurity and mud in the centrifugation, the brush cleans the centrifuge tube, realize the self-cleaning effect of device.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the suction filter assembly of the present invention;

FIG. 3 is a schematic structural view of the centrifugal assembly of the present invention;

fig. 4 is an enlarged schematic view of the utility model at a in fig. 2;

fig. 5 is an enlarged schematic view of the utility model at the position B in fig. 3;

fig. 6 is a schematic top view of the centrifugal cylinder of the present invention.

In the figure: 1. a box body; 2. supporting legs; 3. a suction filtration chamber; 4. a centrifugal chamber; 5. a suction filter assembly; 6. a centrifuge assembly; 7. a water inlet pipe; 8. a water outlet pipe; 9. a flange; 10. a slide bar; 11. a slider; 12. a connecting rod; 13. a material pumping part; 14. a filtering part; 15. a fixed block; 16. a first cylinder; 17. a second cylinder; 18. a material pumping pipe; 19. a suction head; 20. a filter plate; 21. a fixing plate; 22. a material pumping pump; 23. a feed pipe; 24. a water delivery pipe; 25. a clamping piece; 26. a centrifuge section; 27. a drive motor; 28. a drive shaft; 29. a centrifugal cylinder; 30. a discharge pipe; 31. a control valve; 32. a filter screen; 33. a brush; 34. an annular groove.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-6, the utility model provides a technical scheme: the utility model provides a hydrophobic means for hydraulic engineering, includes box 1, supporting leg 2, inhales straining chamber 3, centrifugal chamber 4, inhales and strains subassembly 5 and centrifugal subassembly 6, box 1 comprises inhaling straining chamber 3 and centrifugal chamber 4, 1 bottom of box is the toper, supporting leg 2 passes through the bolt and installs in 1 bottom of box, inhale straining chamber 3 and install in box 1, just inhale straining chamber 3 and be L shape, centrifugal chamber 4 is installed and is being inhaled straining chamber 3 top one side, 4 bottoms of centrifugal chamber comprise the filter screen, inhale and strain subassembly 5 and install in inhaling straining chamber 3, centrifugal subassembly 6 installs in centrifugal chamber 4.

In this embodiment, specifically: 1 bottom both sides of box are equipped with inlet tube 7, outlet pipe 8 respectively, inlet tube 7 all is equipped with flange 9 with the 8 outputs of outlet pipe, inlet tube 7 all is equipped with the external screw thread with the 8 outputs of outlet pipe, inlet tube 7, outlet pipe 8 pass through the screw thread with flange 9 and close soon, facilitate the device with external pipeline's connection and dismantlement.

In this embodiment, specifically: inhale and strain subassembly 5 and include slide bar 10, sliding block 11, connecting rod 12, take out material portion 13 and filter house 14, slide bar 10 joint is installed on inhaling and is strained indoor 3 top, 11 covers of sliding block are established and are installed in slide bar 10 outsidely, slide block 11 and slide bar 10 sliding connection, connecting rod 12 passes through the bolt and installs on the 11 tops of sliding block, take out material portion 13 and install in inhaling and strain indoor 3, filter house 14 is installed and is located centrifugal chamber 4 below in inhaling and strain indoor 3, can be convenient for first cylinder 16, the removal of second cylinder 17.

In this embodiment, specifically: material portion 13 includes fixed block 15, first cylinder 16, second cylinder 17, pumping pipe 18 and inhales stub bar 19, fixed block 15 is installed on 3 inner wall one side tops of inhaling filtration chamber through the buckle and is located slide bar 10 top, first cylinder 16 passes through the bolt and installs in 15 one sides of fixed block, just first cylinder 16 output passes through the buckle with connecting rod 12 and is connected, second cylinder 17 passes through the bolt and installs in 11 bottoms of sliding block, pumping pipe 18 is installed at second cylinder 17 output, just pumping pipe 18 is made by plasticity material, inhale stub bar 19 cover and establish and install in pumping pipe 18 bottoms, can realize inhaling the filtration to the impurity in the filtration chamber 3 and the omnidirectional of mud.

In this embodiment, specifically: the filter part 14 includes three group's filters 20, three groups the filter 20 closely arranges and installs in inhaling filter chamber 3, three groups filter 20 top, bottom pass through the buckle with 4 bottom lower surfaces of centrifugal chamber, 3 bottom internal surfaces of inhaling filter chamber respectively and are connected, closely arrange the multiple layer filtration, realize the interception to impurity and earth.

In this embodiment, specifically: the centrifugal assembly 6 comprises a fixing plate 21, a pumping pump 22, a feeding pipe 23, a water conveying pipe 24, a plurality of clamping parts 25 and a centrifugal part 26, the fixing plate 21 is clamped and installed at the top end in the centrifugal chamber 4, the input end of the pumping pump 22 is connected with the tail end of the pumping pipe 18, the feeding pipe 23 is installed at the output end of the pumping pump 22, the water conveying pipe 24 is installed in the centrifugal chamber 4, the tail end of the water conveying pipe extends out of the centrifugal chamber 4, the clamping parts 25 are respectively sleeved and installed outside the feeding pipe 23 and the water conveying pipe 24, the centrifugal part 26 is installed in the centrifugal chamber 4 and is located below the fixing plate 21, and the overall stability of the centrifugal assembly 6 in the centrifugal process is achieved.

In this embodiment, specifically: centrifugal part 26 includes driving motor 27, transmission shaft 28, centrifuge bowl 29, row's material pipe 30, control valve 31, multiunit filter screen 32 and multiunit brush 33, driving motor 27 passes through the bolt and installs on fixed plate 21 top, transmission shaft 28 passes through the buckle and installs in fixed plate 21 bottom, centrifuge bowl 29 rotates and installs at driving motor 27 output, just centrifuge bowl 29 bottom is the toper, centrifuge bowl 29 both sides comprise the screen cloth, arrange material pipe 30 and rotate and install in centrifuge bowl 29 bottom, just arrange material pipe 30 and run through and inhale filter chamber 3 and extend to the outside, control valve 31 installs at row material pipe 30 output, the multiunit filter screen 32 cover is established and is installed outside transmission shaft 28, the multiunit brush 33 is installed at filter screen 32 lateral wall, and the multiunit brush 33 output laminates with centrifuge bowl 29 inner wall, can separate the water in impurity and the mud, fully filter, realize the self-cleaning effect of device, guarantee good centrifugal effect.

In this embodiment, specifically: the top end surface of the centrifugal cylinder 29 is provided with an annular groove 34, the output ends of the feeding pipe 23 and the water pipe 24 penetrate through the annular groove 34 and extend into the centrifugal cylinder 29, and the output ends of the feeding pipe 23 and the water pipe 24 are slidably connected with the annular groove 34, so that the feeding pipe 23 and the water pipe 24 can be conveniently connected, and the subsequent cleaning and dismounting of the device can be realized.

The working principle is that when the device is used, the drainage device is moved to a place to be used, the device is connected with an external pipeline through a flange 9, pipeline water enters a suction filtration chamber 3 from a water inlet pipe 7, the pipeline water is filtered by three groups of filter plates 20, a large amount of impurities and slurry are remained in the suction filtration chamber 3, the pipeline water passing through the three groups of filter plates 20 flows out from a water outlet pipe 8, a suction filtration component 5 is arranged, a second air cylinder 17 is utilized to draw a suction pipe 18 to move downwards, a suction head 19 sucks a large amount of impurities and slurry at the bottom of the suction filtration chamber 3 into the suction pipe 18 to realize the dredging of water flow, a first air cylinder 16 draws a sliding block 11 to move left and right on a sliding rod 10, so that the suction head 19 reciprocates at the bottom of the suction filtration chamber 3 to remove the large amount of impurities and slurry in the suction filtration chamber 3, the blockage of water flow is prevented, the convenient and quick drainage effect is realized, and the centrifugal component 6 is arranged, the material pumping pump 22 feeds a large amount of impurities and slurry sucked by the material suction head 19 into the centrifugal cylinder 29 through the feeding pipe 23, in the operation process, the plurality of clamping pieces 25 fix and protect the feeding pipe 23, the driving motor 27 drives the centrifugal cylinder 29 to rotate at a high speed, water in the large amount of impurities and slurry is thrown into the centrifugal chamber 4 through the screen, the filtered water flows to the suction filter chamber 3 through the filter screen at the bottom of the centrifugal chamber 4, the three groups of filter plates 20 can be cleaned, the three groups of filter plates 20 are prevented from being blocked and affecting the filtering effect, the plurality of groups of filter screens 32 filter the impurities and the slurry in the centrifugation process, the brush 33 cleans the centrifugal cylinder 29, a good centrifugation effect is ensured, after the suction filter is finished, the first electric push rod and the second electric push rod pull the sliding block 11 and the material pumping pipe 18 to reset, after the centrifugation is finished, the clean water enters the centrifugal cylinder 29 through the water conveying pipe 24, the centrifugal cylinder 29 and the plurality of filter screens 32 are cleaned, for the next use of the apparatus, the control valve 31 is opened and the remaining impurities are discharged through the discharge pipe 30.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a hydrophobic means for hydraulic engineering, its characterized in that includes box (1), supporting leg (2), inhales straining chamber (3), centrifugal chamber (4), inhales and strains subassembly (5) and centrifugal subassembly (6), box (1) comprises inhaling straining chamber (3) and centrifugal chamber (4), box (1) bottom is the toper, supporting leg (2) are installed in box (1) bottom through the bolt, inhale straining chamber (3) and install in box (1), just it is L shape to inhale straining chamber (3), install in inhaling straining chamber (3) top one side centrifugal chamber (4), centrifugal chamber (4) bottom comprises the filter screen, inhale and strain subassembly (5) and install in inhaling straining chamber (3), install in centrifugal chamber (4) centrifugal subassembly (6).

2. The hydrophobic device for hydraulic engineering according to claim 1, wherein: box (1) bottom both sides are equipped with inlet tube (7), outlet pipe (8) respectively, inlet tube (7) all are equipped with flange (9) with outlet pipe (8) output, inlet tube (7) all are equipped with the external screw thread with outlet pipe (8) output, inlet tube (7), outlet pipe (8) close through the screw thread soon with flange (9).

3. The hydrophobic device for hydraulic engineering according to claim 1, wherein: inhale and strain subassembly (5) including slide bar (10), sliding block (11), connecting rod (12), take out material portion (13) and filter house (14), slide bar (10) joint is installed and is being inhaled filter chamber (3) top, slide block (11) cover is established and is installed in slide bar (10) outside, slide block (11) and slide bar (10) sliding connection, connecting rod (12) are installed on sliding block (11) top through the bolt, take out material portion (13) and install in inhaling filter chamber (3), filter house (14) are installed and are being located centrifugal chamber (4) below in inhaling filter chamber (3).

4. A hydrophobic means for hydraulic engineering according to claim 3, characterized in that: draw material portion (13) including fixed block (15), first cylinder (16), second cylinder (17), material pumping pipe (18) and inhale stub bar (19), fixed block (15) are installed on inhaling filter chamber (3) inner wall one side top and are located slide bar (10) top through the buckle, first cylinder (16) are installed in fixed block (15) one side through the bolt, just first cylinder (16) output is connected through the buckle with connecting rod (12), second cylinder (17) are installed in slide block (11) bottom through the bolt, material pumping pipe (18) are installed at second cylinder (17) output, just material pumping pipe (18) are made by plasticity material, inhale stub bar (19) cover and establish and install in material pumping pipe (18) bottom.

5. A hydrophobic means for hydraulic engineering according to claim 3, characterized in that: the filter part (14) comprises three groups of filter plates (20), the filter plates (20) are tightly arranged in the filter suction chamber (3), and the top ends and the bottom ends of the filter plates (20) are respectively connected with the lower surface of the bottom end of the centrifugal chamber (4) and the inner surface of the bottom end of the filter suction chamber (3) through buckles.

6. The hydrophobic device for hydraulic engineering according to claim 1, wherein: centrifugal component (6) are including fixed plate (21), material pumping pump (22), conveying pipe (23), raceway (24), multiunit screens spare (25) and centrifugation portion (26), top in centrifugal chamber (4) is installed in fixed plate (21) joint, the input and the material pumping pipe (18) end connection of material pumping pump (22), conveying pipe (23) are installed at material pumping pump (22) output, raceway (24) are installed in centrifugal chamber (4) and the tail end extends to outside centrifugal chamber (4), the multiunit screens spare (25) are established respectively and are installed in conveying pipe (23), raceway (24) outsidely, centrifugation portion (26) are installed in centrifugal chamber (4) and are located fixed plate (21) below.

7. The hydrophobic device for hydraulic engineering according to claim 6, wherein: centrifugal part (26) includes driving motor (27), transmission shaft (28), centrifuge tube (29), row material pipe (30), control valve (31), multiunit filter screen (32) and multiunit brush (33), driving motor (27) are installed on fixed plate (21) top through the bolt, transmission shaft (28) are installed in fixed plate (21) bottom through the buckle, centrifuge tube (29) are rotated and are installed at driving motor (27) output, just centrifuge tube (29) bottom is the toper, centrifuge tube (29) both sides comprise the screen cloth, arrange material pipe (30) and rotate and install in centrifuge tube (29) bottom, just row material pipe (30) run through and inhale filter chamber (3) and extend to the outside, control valve (31) are installed and are arranged material pipe (30) output, the multiunit filter screen (32) cover is established and is installed in transmission shaft (28) outside, the multiple groups of brushes (33) are arranged on the side wall of the filter screen (32), and the output ends of the multiple groups of brushes (33) are attached to the inner wall of the centrifugal cylinder (29).

8. The hydrophobic device for hydraulic engineering according to claim 7, wherein: an annular groove (34) is formed in the top end surface of the centrifugal cylinder (29), the output ends of the feeding pipe (23) and the water conveying pipe (24) penetrate through the annular groove (34) and extend into the centrifugal cylinder (29), and the output ends of the feeding pipe (23) and the water conveying pipe (24) are connected with the annular groove (34) in a sliding mode.

Images