CN218673825U - Hydraulic engineering detection device for hydraulic engineering - Google Patents

Abstract

The utility model relates to a hydraulic engineering technical field especially relates to a hydraulic engineering detection device for hydraulic engineering. Including dykes and dams and base, the mounting bracket has been erect at the dykes and dams top, the base mounting is on the precast concrete platform of riverbed bottom, the mounting bracket is kept away from and is installed two pick-up plates between dykes and dams's one end and the base, be provided with the scale mark on the pick-up plate, sliding connection has the kickboard between the pick-up plate, the kickboard top is connected with a plurality of floaters, install two filter screens between the pick-up plate, the kickboard is located between the filter screen, install drive assembly on the mounting bracket, drive assembly's output is connected with the clearance subassembly, and brush and the contact of filter screen outer wall in the clearance subassembly, still install the boosting subassembly that is connected with the clearance subassembly on the mounting bracket, install control switch on one of them pick-up plate upper end outer wall, and the driving motor electric connection in control switch and the boosting subassembly. The utility model discloses can prevent that the kickboard from being strikeed by the impurity in the river and leading to the condition of damage to take place.

Description

Hydraulic engineering detection device for hydraulic engineering

Technical Field

The utility model relates to a hydraulic engineering technical field especially relates to a hydraulic engineering detection device for hydraulic engineering.

Background

In water conservancy projects, river regulation is an important task.

At present, at the in-process of river regulation, all need detect the water level in the river course usually, but because current water level detection device structure is generally comparatively single simple and convenient, and the river water is adulterated with impurity such as a large amount of mud-rock flows again, and the kickboard is soaked in the river for a long time, through the contact of river, is strikeed by the impurity in the river very easily, and leads to the kickboard the condition that damages to appear, and then influences the normal detection work of kickboard to the river course water level.

Therefore, it is necessary to provide a new hydraulic engineering detection device for hydraulic engineering to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model provides a hydraulic engineering detection device for hydraulic engineering, through the filter screen that sets up between the pick-up plate, can filter the river with the kickboard contact, the impurity of doping keeps apart and blocks on the filter screen in making the river to its inside impurity of doping causes the condition of impact damage to the kickboard when avoiding the river to flow, and then so that follow-up kickboard is to the detection of river course water level.

The utility model provides a hydraulic engineering detection device for hydraulic engineering, including dykes and dams, mounting bracket, pick-up plate and base, the mounting bracket has been erect at the dykes and dams top, the pedestal mounting is on the precast concrete platform of riverbed bottom, two pick-up plates are installed between dykes and dams was kept away from to the mounting bracket one end and the base, be provided with the scale mark on the outer wall of pick-up plate, sliding connection has the kickboard between the pick-up plate, the top of kickboard is connected with a plurality of floaters, still includes:

two filter screens are arranged between the detection plates, and the floating plate is positioned between the filter screens;

the mounting frame is provided with a driving assembly;

the output end of the driving assembly is connected with the cleaning assembly, and a brush in the cleaning assembly is in contact with the outer wall of the filter screen;

the mounting frame is provided with a boosting assembly, and the boosting assembly is connected with the cleaning assembly;

and one of the control switches is provided with a control switch on the outer wall of the upper end part of the detection plate, and the control switch is electrically connected with a driving motor in the boosting assembly.

Preferably, the opposite sides of the detection plates are provided with sliding grooves, the two sides of the floating plate are connected with sliding blocks matched with the sliding grooves, and the sliding blocks are connected inside the sliding grooves in a sliding mode.

Preferably, the driving assembly comprises an air cylinder, the air cylinder is erected on the outer wall of the top of one end, facing the detection plate, of the mounting frame, the output end of the air cylinder penetrates through the mounting frame and is vertically and downwards connected with a first connecting block, and the first connecting block is connected with the cleaning assembly.

Preferably, the clearance subassembly includes the second connecting block, just the second connecting block is installed in the bottom of first connecting block, the second connecting block is kept away from the one end of dykes and dams and is installed the clearance frame, just the clearance frame is the U-shaped structure, all install a plurality of brush on the both sides inner wall of clearance frame, all install the scraper blade on the both ends top outer wall of clearance frame, just the scraper blade contacts with the outer wall of filter screen.

Preferably, the limiting block is installed at the top of the second connecting block, a limiting groove matched with the limiting block is formed in the bottom of the first connecting block, the limiting block is embedded in the limiting groove, embedding grooves are formed in the groove walls of the two sides of the limiting groove, the limiting block is connected with a reset spring towards the outer wall of the two sides of one end of the cleaning frame, the other end of the reset spring is connected with a convex block matched with the embedding groove, and the convex block is embedded in the embedding groove.

Preferably, the bottom sliding connection of clearance frame has the balladeur train, the balladeur train is the U-shaped structure, the holding tank has been seted up at the top of balladeur train, the handle is installed towards one side of dykes and dams to the balladeur train.

Preferably, the boosting assembly comprises a driving motor, the mounting bracket is provided with two side plates on the top wall in one end of the dam, the driving motor is arranged on one side plate, the output end of the driving motor runs through the side plates and is connected with a rotating shaft, the rotating shaft is rotatably connected onto the other side plate, gears are arranged at two ends of the rotating shaft, two sliding plates are slidably connected onto the inner top wall of the mounting bracket, racks are arranged at the bottoms of the sliding plates, and the racks are meshed with the gears to be connected.

Preferably, the fourth connecting plate is all installed to the both sides of second connecting block, the one end that the second connecting block was kept away from to the clearance frame is installed the third connecting plate, all install the second connecting plate corresponding with fourth connecting plate position on the one side outer wall that carries on the back mutually between the slide, the slide is kept away from the one end of curb plate and is installed the first connecting plate corresponding with third connecting plate position, just all install the telescopic link between first connecting plate and the third connecting plate and between second connecting plate and the fourth connecting plate.

Compared with the prior art, the utility model provides a hydraulic engineering detection device for hydraulic engineering has following beneficial effect:

(1) The utility model provides a hydraulic engineering detection device for hydraulic engineering, through the filter screen that sets up between the pick-up plate, can filter the river water with the kickboard contact, make the impurity of adulteration in the river water keep apart and block on the filter screen, thus avoid the impurity of its inside adulteration to cause the situation that the impact damages to the kickboard when the river water flows, and then so as to be convenient for the detection of follow-up kickboard to the river course water level;

(2) The utility model provides a pair of hydraulic engineering detection device for hydraulic engineering can order about the clearance frame through the cylinder that sets up and carry out corresponding vertical migration on the outer wall of filter screen, makes the brush laminating on the filter screen surface, clears up the impurity of filter screen surface adhesion, prevents that the filter screen surface from accumulating impurity too much and stopping the contact of river water and kickboard, appears influencing the condition emergence of kickboard to water level detection;

(3) The utility model provides a hydraulic engineering detection device for hydraulic engineering, because still install the scraper blade on the clearance frame, can be when the brush clearance, through the scraper blade, strike off some more difficult material of sweeping away that adhere on the filter screen surface to improve the efficiency of clearance;

(4) The utility model provides a pair of hydraulic engineering detection device for hydraulic engineering, the boosting subassembly that the accessible is connected after the clearance, will clear up the subassembly and push away to the direction of dykes and dams to in order to carry out subsequent processing to the impurity after the clearance.

Drawings

Fig. 1 is an overall structural schematic view of a preferred embodiment of a hydraulic engineering detection device for hydraulic engineering according to the present invention;

FIG. 2 is a schematic structural view of the joint of the detection board of the present invention;

fig. 3 is a schematic structural view of the cylinder joint of the present invention;

fig. 4 is a schematic structural view of the connection of the driving motor of the present invention;

fig. 5 is a schematic structural view of a local explosion according to the present invention;

fig. 6 is an enlarged schematic structural view of a portion a in fig. 5 according to the present invention.

Reference numbers in the figures: 1. a dam; 2. a mounting frame; 3. a base; 4. detecting a plate; 5. scale mark; 6. a control switch; 7. a chute; 8. a slider; 9. a floating plate; 10. a floating ball; 11. a filter screen; 12. a cylinder; 13. a first connection block; 14. a limiting groove; 15. caulking grooves; 16. a side plate; 17. a drive motor; 18. a rotating shaft; 19. a gear; 20. a slide plate; 21. a rack; 22. a first connecting plate; 23. a second connecting plate; 24. a telescopic rod; 25. a second connecting block; 26. a limiting block; 27. a return spring; 28. a bump; 29. cleaning the rack; 30. a brush; 31. a squeegee; 32. a third connecting plate; 33. a fourth connecting plate; 34. a carriage; 35. accommodating grooves; 36. a handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided to illustrate specific embodiments of the present invention.

Please refer to fig. 1 to 6, the embodiment of the utility model provides a pair of hydraulic engineering detection device for hydraulic engineering, including dykes and dams 1, mounting bracket 2, detection plate 4 and base 3, mounting bracket 2 has been erect at 1 top of dykes and dams, and base 3 installs on the precast concrete platform of riverbed bottom, and two detection plates 4 are installed to mounting bracket 2 between one end of keeping away from dykes and dams 1 and base 3, are provided with scale mark 5 on detection plate 4's the outer wall, and sliding connection has floating plate 9 between the detection plate 4, and the top of floating plate 9 is connected with a plurality of floaters 10, still includes:

two filter screens 11 are arranged between the filter screens 11 and the detection plate 4, and the floating plate 9 is positioned between the filter screens 11;

the mounting frame 2 is provided with a driving assembly;

the output end of the driving component is connected with the cleaning component, and a brush 30 in the cleaning component is contacted with the outer wall of the filter screen 11;

the mounting frame 2 is also provided with a boosting assembly, and the boosting assembly is connected with the cleaning assembly;

and a control switch 6 is arranged on the outer wall of the upper end part of one detection plate 4, and the control switch 6 is electrically connected with a driving motor 17 in the boosting assembly.

It should be noted that: the river water in contact with the floating plates 9 can be filtered through the filter screens 11 arranged between the detection plates 4, so that impurities doped in the river water are isolated and blocked on the filter screens 11, the situation that the floating plates 9 are impacted and damaged by the impurities doped in the river water when the river water flows is avoided, and the detection of the river water level by the floating plates 9 is facilitated subsequently;

it should be noted that: when clearing up filter screen 11, the drive assembly that the accessible set up, order about the clearance subassembly and remove, brush 30 through the inside setting of clearance subassembly, the surface of laminating filter screen 11, the impurity to 11 surface interceptions of filter screen is swept and is collected, and clearance subassembly resets after the clearance is accomplished, contact control switch 6, driving motor 17 in the control boosting subassembly is opened, carry out the boosting to the clearance subassembly, make the clearance subassembly push out the top in river course, and remove to dykes and dams 1 top, thereby the staff of one time carries out subsequent clearance to the impurity of collecting in the clearance subassembly.

In the embodiment of the present invention, please refer to fig. 2, the chute 7 is disposed on one side of the detecting plate 4, the two sides of the floating plate 9 are connected to the sliding blocks 8 adapted to the chute 7, and the sliding blocks 8 are slidably connected to the inside of the chute 7.

It should be noted that: the floating plate 9 floats on the water surface under the influence of river water, and the slide block 8 moves inside the sliding groove 7 along with the position of the floating plate 9.

In the embodiment of the present invention, please refer to fig. 3 and 5, the driving assembly includes a cylinder 12, the cylinder 12 is erected on the outer wall of the top of one end of the mounting frame 2 facing the detection plate 4, the output end of the cylinder 12 penetrates through the mounting frame 2 and is vertically connected to a first connecting block 13 downwards, and the first connecting block 13 is connected to the cleaning assembly;

the cleaning assembly comprises a second connecting block 25, the second connecting block 25 is installed at the bottom of the first connecting block 13, a cleaning frame 29 is installed at one end, away from the dam 1, of the second connecting block 25, the cleaning frame 29 is of a U-shaped structure, a plurality of hairbrushes 30 are installed on inner walls of two sides of the cleaning frame 29, scraping plates 31 are installed on outer walls of the tops of two ends of the cleaning frame 29, and the scraping plates 31 are in contact with the outer wall of the filter screen 11.

It should be noted that: through the cylinder 12 that sets up, can order about first connecting block 13 in coordination with the synchronous downstream of second connecting block 25 in the clearance subassembly, along with the removal of second connecting block 25, clearance frame 29 also can carry out corresponding removal in the filter screen 11 outside along with, and when clearance frame 29 removed, brush 30 of installation can laminate and remove on the outer wall of filter screen 11 on clearance frame 29, sweep away the impurity of filter screen 11 surface adhesion, and after brush 30 clearance, scraper blade 31 synchronous motion, scrape some more intractable impurity of filter screen 11 surface adhesion, thereby make impurity on the filter screen 11 thoroughly cleared up, and then when clearing up the impurity of filter screen 11 surface adhesion, also can improve the clearance efficiency to filter screen 11.

In the embodiment of the present invention, please refer to fig. 5, the bottom of the cleaning frame 29 is slidably connected with a sliding frame 34, the sliding frame 34 is a U-shaped structure, the top of the sliding frame 34 is provided with a receiving groove 35, and the sliding frame 34 is provided with a handle 36 towards one side of the dam 1.

It should be noted that: because the sliding connection has balladeur train 34 in clearance frame 29 bottom, and set up holding tank 35 on the balladeur train 34, can collect the impurity that brush 30 and scraper blade 31 cleared up out to in the follow-up clearance work to impurity.

In the embodiment of the present invention, please refer to fig. 4, 5 and 6, the top of the second connecting block 25 is provided with a limiting block 26, the bottom of the first connecting block 13 is provided with a limiting groove 14 adapted to the limiting block 26, the limiting block 26 is embedded in the limiting groove 14, the two side walls of the limiting groove 14 are both provided with caulking grooves 15, the outer walls of the two sides of one end of the limiting block 26 facing the cleaning frame 29 are both connected with a return spring 27, the other end of the return spring 27 is connected with a bump 28 adapted to the caulking groove 15, and the bump 28 is embedded in the caulking groove 15;

the boosting assembly comprises a driving motor 17, two side plates 16 are mounted on an inner top wall of one end, facing the dam 1, of the mounting frame 2, the driving motor 17 is mounted on one side plate 16, an output end of the driving motor 17 penetrates through the side plates 16 and is connected with a rotating shaft 18, the rotating shaft 18 is rotatably connected to the other side plate 16, gears 19 are mounted at two ends of the rotating shaft 18, two sliding plates 20 are slidably connected to the inner top wall of the mounting frame 2, racks 21 are mounted at the bottoms of the sliding plates 20, and the racks 21 are meshed with the gears 19;

fourth connecting plate 33 is all installed to the both sides of second connecting block 25, third connecting plate 32 is installed to the one end that second connecting block 25 was kept away from to clearance frame 29, all install on the one side outer wall that carries on the back mutually between slide 20 with the corresponding second connecting plate 23 in fourth connecting plate 33 position, slide 20 keeps away from the one end of curb plate 16 and installs the first connecting plate 22 corresponding with third connecting plate 32 position, and all install telescopic link 24 between first connecting plate 22 and the third connecting plate 32 and between second connecting plate 23 and the fourth connecting plate 33.

It should be noted that: after cleaning, the cleaning frame 29 moves upwards to realize resetting, at the moment, the control switch 6 is touched to enable the driving motor 17 to be opened, when the driving motor 17 is started, the rotating shaft 18 can be rotated, when the rotating shaft 18 rotates, the gears 19 arranged at the two ends of the rotating shaft 18 are driven to synchronously rotate, and because the sliding plate 20 is slidably connected on the inner top wall of the mounting frame 2, the bottom of the sliding plate 20 is provided with the rack 21 meshed and connected with the gear 19, when the gear 19 rotates, the rack 21 is meshed and driven on the inner top wall of the mounting frame 2 to correspondingly move towards the direction of the dam 1, and because the sliding plate 20 is connected with the cleaning component through a plurality of connecting plates and telescopic rods 24, when the sliding plate 20 moves, the cleaning frame 29 can be synchronously driven to move, because the cleaning frame 29 is connected with the output end of the air cylinder 12 through the second connecting block 25 and the first connecting block 13, when the second connecting block 25 moves along with the movement of the cleaning frame 29 in the direction of the dam 1, the limiting block 26 moves outwards in the limiting groove 14, at this time, because the limiting block 26 and the limiting groove 14 are connected in the caulking groove 15 through the return spring 27 and the projection 28, when the limiting block 26 moves, the return spring 27 is pulled, so that the projection 28 is separated from the inside of the caulking groove 15 and moves towards the direction of the dam 1, at this time, the first connecting block 13 and the second connecting block 25 are separated, the cleaning assembly can move in the direction of the dam 1, and then, a worker can correspondingly clean impurities accumulated in the accommodating groove 35 by pulling the handle 36 to slide the carriage 34 out of the bottom of the cleaning frame 29;

it should also be noted that: after cleaning, the sliding frame 34 can slide into the bottom of the cleaning frame 29, the limiting block 26 is embedded into the limiting groove 14 through the transmission of the gear 19 and the rack 21, the lug 28 is embedded into the embedding groove 15 under the action of the elastic force of the return spring 27, the first connecting block 13 and the second connecting block 25 are connected, and finally the cleaning frame 29 is moved to the initial cleaning position.

The utility model provides a hydraulic engineering detection device for hydraulic engineering's theory of operation as follows: the filter screen 11 arranged between the detection plates 4 can filter the river water contacting with the floating plates 9, so that impurities doped in the river water are isolated and blocked on the filter screen 11, thereby avoiding the situation that the impurities doped in the river water flow to impact and damage the floating plates 9, and further facilitating the subsequent detection of the river water level by the floating plates 9;

when the filter screen 11 is cleaned, the first connecting block 13 can be driven to synchronously move downwards along with the second connecting block 25 in the cleaning assembly through the arranged cylinder 12, the cleaning frame 29 can correspondingly move outside the filter screen 11 along with the movement of the second connecting block 25, while the cleaning frame 29 moves, the brush 30 arranged on the cleaning frame 29 can be attached to the outer wall of the filter screen 11 to move in an attaching manner, so that impurities adhered to the surface of the filter screen 11 are swept away, after the brush 30 is cleaned, the scraper 31 synchronously moves, and some impurities adhered to the surface of the filter screen 11 and difficult to treat are scraped away, so that the impurities on the filter screen 11 are thoroughly cleaned away, and the cleaning efficiency of the filter screen 11 can be improved while the impurities adhered to the surface of the filter screen 11 are cleaned;

because the bottom of the cleaning frame 29 is connected with the sliding frame 34 in a sliding manner, and the sliding frame 34 is provided with the accommodating groove 35, impurities cleaned by the brush 30 and the scraper 31 can be collected, so that the subsequent cleaning work of the impurities is facilitated;

after cleaning, the cleaning frame 29 moves upwards to realize resetting, at the moment, the control switch 6 is touched to enable the driving motor 17 to be opened, when the driving motor 17 is started, the rotating shaft 18 can be rotated, when the rotating shaft 18 rotates, the gears 19 arranged at the two ends of the rotating shaft 18 are driven to synchronously rotate, and because the sliding plate 20 is slidably connected on the inner top wall of the mounting frame 2, the bottom of the sliding plate 20 is provided with the rack 21 meshed and connected with the gear 19, when the gear 19 rotates, the rack 21 is meshed and driven on the inner top wall of the mounting frame 2 to correspondingly move towards the direction of the dam 1, and because the sliding plate 20 is connected with the cleaning component through a plurality of connecting plates and telescopic rods 24, when the sliding plate 20 moves, the cleaning frame 29 can be synchronously driven to move, because the cleaning frame 29 is connected with the output end of the air cylinder 12 through the second connecting block 25 and the first connecting block 13, when the second connecting block 25 moves along with the movement of the cleaning frame 29 in the direction of the dam 1, the limiting block 26 moves outwards in the limiting groove 14, at this time, because the limiting block 26 and the limiting groove 14 are connected in the caulking groove 15 through the return spring 27 and the projection 28, when the limiting block 26 moves, the return spring 27 is pulled, so that the projection 28 is separated from the inside of the caulking groove 15 and moves towards the direction of the dam 1, at this time, the first connecting block 13 and the second connecting block 25 are separated, the cleaning assembly can move in the direction of the dam 1, and then, a worker can correspondingly clean impurities accumulated in the accommodating groove 35 by pulling the handle 36 to slide the carriage 34 out of the bottom of the cleaning frame 29;

after the cleaning is finished, the sliding frame 34 can slide into the bottom of the cleaning frame 29, the limiting block 26 is embedded into the limiting groove 14 through the transmission of the gear 19 and the rack 21, the lug 28 is embedded into the embedding groove 15 under the action of the elastic force of the return spring 27, the first connecting block 13 and the second connecting block 25 are connected, and finally the cleaning frame 29 is moved to the initial cleaning position.

The utility model discloses in circuit and control that relate to be prior art, do not carry out too much repeated description here.

The above is only the embodiment of the present invention, and the patent scope of the present invention is not limited thereby, and all the equivalent structures or equivalent processes made by the contents of the specification and the drawings are utilized, or directly or indirectly applied to other related technical fields, and all the same principles are included in the patent protection scope of the present invention.

Claims (8)

1. The utility model provides a hydraulic engineering detection device for hydraulic engineering, includes dykes and dams (1), mounting bracket (2), pick-up plate (4) and base (3), mounting bracket (2) have been erect at dykes and dams (1) top, base (3) are installed on the precast concrete platform of riverbed bottom, install two pick-up plates (4) between one end and base (3) of dykes and dams (1) are kept away from in mounting bracket (2), a serial communication port, be provided with scale mark (5) on the outer wall of pick-up plate (4), sliding connection has kickboard (9) between pick-up plate (4), the top of kickboard (9) is connected with a plurality of floater (10), still includes:

two filter screens (11) are arranged between the detection plates (4), and the floating plate (9) is positioned between the filter screens (11);

the mounting frame (2) is provided with a driving assembly;

the output end of the driving assembly is connected with the cleaning assembly, and a brush (30) in the cleaning assembly is in contact with the outer wall of the filter screen (11);

the mounting frame (2) is also provided with a boosting assembly, and the boosting assembly is connected with the cleaning assembly;

and the outer wall of the upper end part of one detection plate (4) is provided with a control switch (6), and the control switch (6) is electrically connected with a driving motor (17) in the boosting assembly.

2. The hydraulic engineering detection device for the hydraulic engineering according to claim 1, wherein sliding grooves (7) are formed in opposite sides between the detection plates (4), sliding blocks (8) matched with the sliding grooves (7) are connected to two sides of the floating plate (9), and the sliding blocks (8) are connected to the insides of the sliding grooves (7) in a sliding mode.

3. The hydraulic engineering detection device for the hydraulic engineering according to claim 1, wherein the driving assembly comprises an air cylinder (12), the air cylinder (12) is erected on the outer wall of the top of one end, facing the detection plate (4), of the mounting frame (2), the output end of the air cylinder (12) penetrates through the mounting frame (2) and is vertically downwards connected with a first connecting block (13), and the first connecting block (13) is connected with the cleaning assembly.

4. The hydraulic engineering detection device for hydraulic engineering of claim 3, wherein the clearance subassembly includes second connecting block (25), and second connecting block (25) is installed in the bottom of first connecting block (13), clearance frame (29) is installed to the one end that dykes and dams (1) were kept away from to second connecting block (25), just clearance frame (29) are the U-shaped structure, all install a plurality of brush (30) on the both sides inner wall of clearance frame (29), all install scraper blade (31) on the both ends top outer wall of clearance frame (29), just scraper blade (31) contact with the outer wall of filter screen (11).

5. The hydraulic engineering detection device for hydraulic engineering of claim 4, wherein a limiting block (26) is installed at the top of the second connecting block (25), a limiting groove (14) matched with the limiting block (26) is formed in the bottom of the first connecting block (13), the limiting block (26) is embedded in the limiting groove (14), caulking grooves (15) are formed in the groove walls of the two sides of the limiting groove (14), the limiting block (26) faces the outer wall of the two sides of one end of the cleaning frame (29) and is connected with a reset spring (27), the other end of the reset spring (27) is connected with a convex block (28) matched with the caulking groove (15), and the convex block (28) is embedded in the caulking groove (15).

6. The hydraulic engineering detection device for hydraulic engineering according to claim 4, characterized in that a carriage (34) is connected to the bottom of the cleaning frame (29) in a sliding manner, the carriage (34) is of a U-shaped structure, a receiving groove (35) is formed in the top of the carriage (34), and a handle (36) is installed on one side, facing the dam (1), of the carriage (34).

7. The hydraulic engineering detection device for hydraulic engineering of claim 4, wherein the boosting component comprises a driving motor (17), the mounting bracket (2) is provided with two side plates (16) towards the inner top wall of one end of the dam (1), the driving motor (17) is arranged on one side plate (16), the output end of the driving motor (17) penetrates through the side plate (16) and is connected with a rotating shaft (18), the rotating shaft (18) is rotatably connected to the other side plate (16), gears (19) are arranged at two ends of the rotating shaft (18), two sliding plates (20) are slidably connected to the inner top wall of the mounting bracket (2), racks (21) are arranged at the bottoms of the sliding plates (20), and the racks (21) are meshed with the gears (19).

8. The hydraulic engineering detection device for hydraulic engineering of claim 7, wherein fourth connecting plates (33) are installed on both sides of the second connecting block (25), a third connecting plate (32) is installed at one end, away from the second connecting block (25), of the cleaning frame (29), a second connecting plate (23) corresponding to the fourth connecting plate (33) in position is installed on the outer wall of one side, away from each other, of the sliding plate (20), a first connecting plate (22) corresponding to the third connecting plate (32) in position is installed at one end, away from the side plate (16), of the sliding plate (20), and telescopic rods (24) are installed between the first connecting plate (22) and the third connecting plate (32) and between the second connecting plate (23) and the fourth connecting plate (33).

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