CN112525286A

CN112525286A - Detection device and method for hydraulic engineering

Info

Publication number: CN112525286A
Application number: CN202011284749.5A
Authority: CN
Inventors: 夏燕东
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-03-19

Abstract

The invention discloses a detection device and a detection method for hydraulic engineering, which comprise a floating plate and a scroll, wherein a measurement rope is wound on the scroll, a heavy block is arranged at one end, far away from the scroll, of the measurement rope, a motor is fixed at one end of the scroll, two ends of the scroll are respectively and rotatably connected with a baffle, the motor and the two baffles are both fixed on the floating plate, and the floating plate is a convenient device for pulling out the heavy block deeply sunk in silt.

Description

Detection device and method for hydraulic engineering

Technical Field

The invention relates to the technical field of hydraulic engineering detection, in particular to a detection device and method for hydraulic engineering.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in nature to achieve the purposes of removing harmful substances and benefiting. Also known as water engineering. Water is a valuable resource essential for human production and life, but its naturally occurring state does not completely meet the needs of human beings. Only when hydraulic engineering is built, water flow can be controlled, flood disasters are prevented, and water quantity is adjusted and distributed to meet the requirements of people on water resources in life and production. Hydraulic engineering needs to build various types of hydraulic buildings such as dams, dikes, spillways, water gates, water inlets, channels, transition troughs, rafts, fishways and the like so as to achieve the aims.

Current detection device for hydraulic engineering is detecting the water level to river course etc. and is being equipped with the pouring weight that the parcel has the probe through measuring rope one end, makes probe and pouring weight sink to the river bottom together and determine the water level, but because the pouring weight, the quality is heavier, and the river bottom generally has silt, when the pouring weight sinks to the bottom, generally can insert bottom such as river course, because silt produces great suction to the pouring weight, cause and need exert great power just can extract the pouring weight from silt after the detection finishes. Therefore, a detection device and a detection method for hydraulic engineering are provided.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems occurring in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a detection device for hydraulic engineering, includes kickboard and spool, it has the measuring rope to coil on the spool, the one end that the spool was kept away from to the measuring rope is equipped with the pouring weight, spool one end is fixed with the motor, the spool both ends are all rotated and are connected with the baffle, motor and two baffles are all fixed on the kickboard, be convenient for on the kickboard with the convenient device that the pouring weight that sinks deeply in silt pulled out, through convenient device, can pull out the pouring weight from submarine silt behind the detection water level, avoid because of the great unable pouring weight of pulling out of suction that the pouring weight received, facilitate for the water level detection work.

Preferably, convenient device includes the connecting axle, the connecting axle both ends are connected with the rotor plate, and the connecting axle both ends pass two rotor plates respectively and rotate and be connected with first backup pad, two be fixed with the bracing piece between the rotor plate, the bracing piece is fixed at the rotor plate tip, measure the rope around hanging on the bracing piece, be fixed with the connecting block on the connecting axle, be equipped with the spring on the connecting block, spring one end is fixed with the fixed other end of connecting block and is fixed with the fixing base, the fixing base is located the one end of keeping away from the bracing piece, is equipped with the push rod between two rotor plates, the push rod is located the spring below, be equipped with the power device who is convenient for drive spring deformation on the kickboard, be convenient for drive the pouring.

Preferably, power device includes the arc, the arc is equipped with two, two be fixed with the connecting pipe between the arc, and two arcs are located same vertical plane with two rotor plates respectively, it has first axis of rotation to fix to run through on connecting pipe and two arcs, first axis of rotation both ends are all rotated and are connected with the second backup pad, the second backup pad is fixed on the kickboard, the fixing base is located between two arcs, fixes in the second backup pad, the epaxial drive arrangement who is convenient for rotate the drive arc pivoted through the motor that is equipped with of spool, is convenient for provide the instantaneous turning force for the rotor plate, makes the pouring weight violently pulled out.

Preferably, the driving device comprises a second rotating shaft, the second rotating shaft is fixed at one end, far away from the motor, of the scroll, a driving wheel is fixed on the second rotating shaft, a fixed shaft is fixed on the second supporting plate, the fixed shaft is rotatably connected with a first driven wheel, a shifting plate is arranged on the first driven wheel and is located between two wheel teeth of the driving wheel, a second driven wheel is fixed at one end of the first rotating shaft, the first driven wheel and the second driven wheel are meshed and connected, an adjusting device used for enabling the rotating shaft to rotate anticlockwise all the time is arranged on the fixed shaft, and power can be provided for rotation of the rotating plate when the motor receives and releases the measuring rope without additional power.

Preferably, the adjusting device comprises a first oblique block engaged with the gear teeth of the first driven wheel, the second driven wheel is provided with a plurality of first limiting grooves in an annular array, the first oblique block is provided with a plurality of first limiting grooves which are movably inserted into the plurality of first limiting grooves respectively, the fixed shaft is rotatably connected with an annular plate, a third driven wheel is fixed on the annular plate and is not contacted with the first driven wheel and the third driven wheel, a through hole is arranged in the third driven wheel, a fourth driven wheel is fixed on the first driven wheel and is sleeved on the fixed shaft and is positioned in the through hole of the third driven wheel, the third driven wheel is provided with a plurality of second limiting grooves in an annular array on the inner wall, a second oblique block engaged with the fourth driven wheel is movably inserted into the second limiting grooves, a fifth driven wheel is fixedly sleeved on the first rotating shaft, and the outer walls of the fifth driven wheel and the third driven wheel are sleeved with a matched with the second oblique block, can be no matter the motor corotation or reversal can make the arc rotate anticlockwise all the time to be convenient for will immerse in the pouring weight of submarine silt and pull out in many times of measurement work.

Preferably, two the side that the rotor plate kept away from each other all is fixed with the limiting plate, the limiting plate is fixed in the one end that the rotor plate is close to the arc, makes the arc can pass power with the fine contact of rotor plate, avoids mutual slippage.

Preferably, the weight is conical, so that the weight is fixed at the bottom of the water conveniently, and the water level detection is more accurate.

A detection method for hydraulic engineering comprises the following steps:

s1: firstly, controlling a motor to release a measuring rope, enabling a heavy block to fall into water to the bottom, measuring the water level, when an electric starter rotates, driving a scroll to rotate anticlockwise, driving a driving wheel to rotate anticlockwise, further driving a first driven wheel and a fourth driven wheel to rotate clockwise, driving a second driven wheel and a first rotating shaft to rotate anticlockwise, driving an arc plate to rotate anticlockwise, pushing one end of the rotating plate close to the arc plate to rotate upwards, enabling the other end of the rotating plate and the heavy block to move downwards together, and stretching and deforming a spring;

s2: after the measurement finishes, through the control motor reversal, drive spool and drive wheel clockwise, drive first from driving wheel and fourth from driving wheel anticlockwise rotation, drive the third from driving wheel anticlockwise rotation, drive the fifth from driving wheel and first axis of rotation anticlockwise rotation, continue to drive arc anticlockwise rotation, cancel the power to the rotor plate, the spring drives the rotor plate and is close to the one end of arc roof down suddenly under the power that resumes self shape, pull out the pouring weight of inhaling in silt, the motor continues to drive the spool and rotates, until will measure the rope rolling and accomplish.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the weight block can be pulled out from the underwater silt after the water level is detected by the convenient device, so that the situation that the weight block cannot be pulled out due to the fact that the weight block immersed in the underwater silt is subjected to a large suction force is avoided, the weight block is convenient to pull out, and convenience is provided for water level detection work.

Drawings

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

FIG. 2 is a top view of the structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

FIG. 4 is a partial cross-sectional view of a portion of the structure of the present invention;

FIG. 5 is a partial cross-sectional view of a second driven wheel construction of the present invention;

fig. 6 is an enlarged view of a portion a in fig. 1.

In the figure: 1-floating plate; 2-a reel; 3-measuring the rope; 4-weight block; 5, a motor; 6-a baffle plate; 7-a portable device; 8-a connecting shaft; 9-a rotating plate; 10-a first support plate; 11-a support bar; 12-connecting blocks; 13-a spring; 14-a fixed seat; 15-a push rod; 16-a power plant; 17-an arc-shaped plate; 18-a connecting tube; 19-a first rotating shaft; 20-a second support plate; 21-a drive device; 22-a limiting plate; 23-a drive wheel; 24-a fixed shaft; 25-a first driven wheel; 26-pulling a plate; 27-a second driven wheel; 28-a regulating device; 29-a first swash block; 30-a first limit groove; 31-an annular plate; 32-a third driven wheel; 33-fourth driven wheel; 34-a second limiting groove; 35-a second swash block; 36-a fifth driven wheel; 37-transmission belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a detection device for hydraulic engineering, includes kickboard 1 and spool 2, it has measuring rope 3 to coil on the spool 2, the one end that spool 2 was kept away from to measuring rope 3 is equipped with pouring

weight

4, 2 one ends of spool are fixed with

motor

5, 2 both ends of spool all rotate and are connected with baffle 6, motor 5 and two baffle 6 are all fixed on kickboard 1, be convenient for pull out convenient device 7 with pouring weight 4 deeply sunken in silt on the kickboard 1, through convenient device 7.

Convenient device 7 includes connecting

axle

8, 8 both ends of connecting axle are connected with

rotor plate

9, and 8 both ends of connecting axle pass two rotor plates 9 respectively and rotate and be connected with first backup pad 10, two be fixed with bracing piece 11 between the rotor plate 9, bracing piece 11 is fixed at rotor plate 9 tip, measuring rope 3 is around hanging on bracing piece 11, be fixed with connecting block 12 on the connecting axle 8, be equipped with spring 13 on the connecting block 12, spring 13 one end is fixed with fixing base 14 with the fixed other end of connecting block 12, fixing base 14 is located the one end of keeping away from bracing piece 11, is equipped with push rod 15 between two rotor plates 9, push rod 15 is located spring 13 below, be equipped with the power device 16 that is convenient for drive spring 13 and warp on the kickboard 1, be convenient for drive pouring weight 4 through the rotation of rotor plate and pull out from silt.

Power device 16 includes arc 17, arc 17 is equipped with two, two be fixed with connecting pipe 18 between the arc 17, and two arcs 17 are located same vertical plane with two rotor plates 9 respectively, it has first axis of rotation 19 to fix to run through on connecting pipe 18 and two

arcs

17, 19 both ends of first axis of rotation are all rotated and are connected with second backup pad 20, second backup pad 20 is fixed on kickboard 1, fixing base 14 is located between two arcs 17, fixes on second backup pad 20, is convenient for provide the power of turning plate 9 in the twinkling of an eye, makes pouring weight 4 violently pulled out.

The scroll 2 is provided with a driving device 21 which is convenient for driving the arc-shaped plate 17 to rotate through the rotation of the motor 5, the driving device 21 comprises a second rotating shaft fixed at one end of the reel 2 far away from the motor 5, and a driving wheel 23 is fixed to the second rotating shaft, a fixed shaft 24 is fixed to one of the second supporting plates 20, the fixed shaft 24 is rotatably connected with a first driven wheel 25, a shifting plate 26 is arranged on the first driven wheel 25, the shifting plate 26 is positioned between two gear teeth of the driving wheel 23, one end of the first rotating shaft 19 is fixed with a second driven wheel 27, the first driven wheel 25 is engaged with the second driven wheel 27, the fixed shaft 24 is provided with an adjusting device 28 for enabling the rotating shaft to rotate anticlockwise all the time, the motor 5 can be used for winding and unwinding the measuring rope 3 and providing power for the rotation of the rotating plate 9 without additional power.

The adjusting device 28 comprises a first oblique block 29 engaged with the gear teeth of the first driven wheel 25, a plurality of first limiting grooves 30 are arranged on the second driven wheel 27 in an annular array, a plurality of first oblique blocks 29 are respectively movably inserted into the plurality of first limiting grooves 30, an annular plate 31 is rotatably connected to the fixed shaft 24, a third driven wheel 32 is fixed to the annular plate 31, the first driven wheel 25 is not in contact with the third driven wheel 32, a through hole is formed in the third driven wheel 32, a fourth driven wheel 33 is fixed to the first driven wheel 25, the fourth driven wheel 33 is sleeved on the fixed shaft 24 and is positioned in the through hole of the third driven wheel 32, a plurality of second limiting grooves 34 are arranged on the annular array of the inner wall of the third driven wheel 32, a second oblique block 35 engaged with the fourth driven wheel 33 is movably inserted into the second limiting grooves 34, a fifth driven wheel 36 is fixedly sleeved on the first rotating shaft, the outer walls of the fifth driven wheel 36 and the third driven wheel 32 are sleeved with a transmission belt 37 matched with the fifth driven wheel, the inclination directions of the second inclined block 35 and the first inclined block 29 are different, and the first inclined block 29 or the second inclined block 35 which rotates to be higher automatically extends out of the first limiting groove 30 or the second limiting groove 34 under the self gravity of the first inclined block 29 and the second inclined block 35;

when the measuring rope 3 is released to measure the water level, when the driving wheel 23 starts to rotate, that is, the driving plate 26 is pushed to rotate, the first driven wheel 25 is driven to rotate clockwise by the rotating driving plate 26, and the gear teeth of the first driven wheel 25 are in contact with the straight edge of the first inclined block 29 which is positioned at the position higher than the first inclined block and extends out of the first limiting groove 30, at the moment, the fourth driven wheel 33 which rotates synchronously with the first driven wheel 25 is in contact with the inclined plate of the second inclined block 35 which is positioned higher than the second inclined block and extends out under the action of self gravity, the second inclined block 35 is pushed into the second limiting groove 34, the third driven wheel 32 cannot be driven to rotate by the clockwise rotation of the fourth driven wheel 33, and the first driven wheel 25 which rotates clockwise drives the second driven wheel 27, the first rotating shaft 19 and the;

after dialling board 26 clockwise rotation certain angle earlier and pushing away to the teeth of a cogwheel top of drive wheel 23 through drive wheel 23, continuous rotation through drive wheel 23 makes and dials board 26 and is located drive wheel 23 top all the time, it is motionless to dial board 26 after rotating certain angle, make first axis of rotation 19 and arc 17 rotate 180 and stop, make rotor plate 9 pushed to the highest point, spring 13 produces great tensile deformation, reach submarine back when pouring weight 4, motor 5 stop work, dial board 26 and rotate downwards to the lowest or offset with the teeth of a cogwheel of drive wheel 23.

Two the side that the rotor plate 9 kept away from each other all is fixed with limiting plate 22, limiting plate 22 is fixed in the one end that rotor plate 9 is close to arc 17, makes arc 17 can pass the power with the fine contact of rotor plate 9, avoids mutual slippage.

The shape of the weight 4 is conical, so that the weight 4 is convenient to fix at the bottom of the water, and the water level detection is more accurate.

A detection method for hydraulic engineering comprises the following steps:

s1: firstly, controlling a motor 5 to release a measuring rope 3, enabling a weight block 4 to fall into water to the bottom, measuring the water level, driving a scroll 2 and a driving wheel 23 to rotate anticlockwise when an electric starter rotates, pushing a shifting plate 26 to rotate clockwise and upwards for a certain angle to the top of the teeth of the driving wheel 23, further driving a first driven wheel 25 and a fourth driven wheel 33 to rotate clockwise for a certain angle, driving a second driven wheel 27 and a first rotating shaft 19 to rotate anticlockwise for 180 degrees, rotating an arc plate 17 anticlockwise for 180 degrees, pushing one end of the rotating plate 9, close to the arc plate 17, to rotate upwards to the highest position, and the other end of the rotating plate 9 to rotate downwards together with the weight block 4, and stretching and deforming;

s2: after the measurement is finished, the motor 5 is controlled to rotate reversely, the reel 2 and the driving wheel 23 are driven to rotate clockwise, the shifting plate 26 is pushed to rotate anticlockwise upwards for a certain angle to the top of the gear teeth of the driving wheel 23, the first driven wheel 25 and the fourth driven wheel 33 are driven to rotate anticlockwise for a certain angle, the third driven wheel 32 is driven to rotate anticlockwise for the same angle, the fifth driven wheel 36 and the first rotating shaft 19 are driven to continue to rotate anticlockwise for 180 degrees through the transmission belt 37, the arc-shaped plate 17 continues to rotate anticlockwise for 180 degrees, the force for pushing the rotating plate 9 to the highest position is suddenly cancelled, one end of the rotating plate 9 close to the arc-shaped top plate suddenly rotates downwards under the force of the spring 13 recovering the shape, the weight 4 sucked in the sludge is pulled out, and the motor 5 continues to drive the reel.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

1. The utility model provides a detection device for hydraulic engineering, includes kickboard (1) and spool (2), it has measuring rope (3) to coil on spool (2), the one end that spool (2) were kept away from in measuring rope (3) is equipped with pouring weight (4), spool (2) one end is fixed with motor (5), spool (2) both ends are all rotated and are connected with baffle (6), its characterized in that is all fixed on kickboard (1) in motor (5) and two baffle (6): the floating plate (1) is provided with a convenient device (7) which is convenient for pulling out the heavy blocks (4) deeply sunk in the sludge.

2. The detection device for hydraulic engineering according to claim 1, characterized in that: the convenient device (7) comprises a connecting shaft (8), wherein two ends of the connecting shaft (8) are connected with rotating plates (9), two ends of the connecting shaft (8) respectively penetrate through the two rotating plates (9) to be rotatably connected with first supporting plates (10), a supporting rod (11) is fixed between the two rotating plates (9), the supporting rod (11) is fixed at the end part of the rotating plate (9), the measuring rope (3) is wound on the supporting rod (11), a connecting block (12) is fixed on the connecting shaft (8), a spring (13) is arranged on the connecting block (12), a fixing seat (14) is fixed at one end of the spring (13) and the other end of the connecting block (12), the fixing seat (14) is positioned at one end far away from the supporting rod (11), a push rod (15) is arranged between the two rotating plates (9), and the push rod (15) is positioned below the spring (13, and a power device (16) which is convenient for driving the spring (13) to deform is arranged on the floating plate (1).

3. The detection device for hydraulic engineering according to claim 2, characterized in that: power device (16) are including arc (17), arc (17) are equipped with two, two be fixed with connecting pipe (18) between arc (17), and two arcs (17) are located same vertical plane with two rotor plates (9) respectively, it has first axis of rotation (19) to fix to run through on connecting pipe (18) and two arcs (17), first axis of rotation (19) both ends are all rotated and are connected with second backup pad (20), second backup pad (20) are fixed on kickboard (1), fixing base (14) are located between two arcs (17), fix on second backup pad (20), be equipped with on spool (2) and be convenient for rotate drive arc (17) pivoted drive arrangement (21) through motor (5).

4. The detection device for hydraulic engineering according to claim 3, characterized in that: drive arrangement (21) includes the second axis of rotation, the second axis of rotation is fixed in the one end that motor (5) were kept away from in spool (2), and is fixed with drive wheel (23), one in the second axis of rotation be fixed with fixed axle (24) on second backup pad (20), fixed axle (24) rotate and are connected with first follow driving wheel (25), be equipped with on first follow driving wheel (25) and dial board (26), dial board (26) and be located between two teeth of a cogwheel of drive wheel (23), first axis of rotation (19) one end is fixed with the second and follows driving wheel (27), first follow driving wheel (25) and second follow driving wheel (27) meshing and connect, be equipped with on fixed axle (24) and be used for making axis of rotation anticlockwise pivoted adjusting device (28) all the time.

5. The detection device for hydraulic engineering according to claim 4, characterized in that: the adjusting device (28) comprises a first inclined block (29) engaged with gear teeth of a first driven wheel (25), a plurality of first limiting grooves (30) are arranged on a second driven wheel (27) in an annular array mode, the first inclined block (29) is provided with a plurality of first limiting grooves (30) which are movably inserted into the first limiting grooves (30), an annular plate (31) is connected to the fixed shaft (24) in a rotating mode, a third driven wheel (32) is fixed to the annular plate (31), the first driven wheel (25) is not in contact with the third driven wheel (32), a through hole is formed in the third driven wheel (32), a fourth driven wheel (33) is fixed to the first driven wheel (25), the fourth driven wheel (33) is sleeved on the fixed shaft (24) and located in the through hole of the third driven wheel (32), a plurality of second limiting grooves (34) are arranged on an inner wall of the third driven wheel (32) in an annular array mode, a second inclined block (35) which is used for being meshed with a fourth driven wheel (33) is movably inserted into the second limiting groove (34), a fifth driven wheel (36) is fixedly sleeved on the first rotating shaft, and a transmission belt (37) matched with the fifth driven wheel (36) and the third driven wheel (32) is sleeved on the outer wall of the fifth driven wheel (36) and the outer wall of the third driven wheel (32).

6. The detection device for hydraulic engineering according to claim 2, characterized in that: and limiting plates (22) are fixed on the sides of the two rotating plates (9) far away from each other, and the limiting plates (22) are fixed at one ends of the rotating plates (9) close to the arc-shaped plates (17).

7. The detection device for hydraulic engineering according to claim 1, characterized in that: the weight (4) is shaped as a cone.

8. A detection method for hydraulic engineering is characterized in that: the method comprises the following steps:

s1: firstly, controlling a motor (5) to release a measuring rope (3), enabling a weight (4) to fall into water to the bottom, measuring the water level, when an electric starter rotates, driving a scroll (2) and a driving wheel (23) to rotate anticlockwise, pushing a shifting plate (26) to rotate clockwise and upwards for a certain angle to the top of the gear teeth of the driving wheel (23), further driving a first driven wheel (25) and a fourth driven wheel (33) to rotate clockwise for a certain angle, driving a second driven wheel (27) and a first rotating shaft (19) to rotate anticlockwise (18) for 0 degree, pushing an arc-shaped plate (17) to rotate anticlockwise (18) for 0 degree, pushing a rotating plate (9) to be close to one end of the arc-shaped plate (17) to rotate upwards to the highest position, the other end of the rotating plate and the weight (4) to rotate downwards together, and stretching;

s2: after the measurement is finished, the motor (5) is controlled to rotate reversely to drive the reel (2) and the driving wheel (23) to rotate clockwise, the shifting plate (26) is pushed to rotate anticlockwise upwards for a certain angle to the top of the gear teeth of the driving wheel (23), the first driven wheel (25) and the fourth driven wheel (33) are driven to rotate anticlockwise for a certain angle, the third driven wheel (32) is driven to rotate anticlockwise for the same angle, the fifth driven wheel (36) and the first rotating shaft (19) are driven to rotate anticlockwise (18) for 0 degree through the transmission belt (37), the arc-shaped plate (17) is driven to rotate anticlockwise (18) for 0 degree, the force for pushing the rotating plate (9) to the highest position is suddenly cancelled, one end, close to the arc-shaped top plate, of the rotating plate (9) rotates suddenly under the force for restoring the self shape of the spring (13), the weight (4) sucked in the silt is pulled out, and the motor (5), until the winding of the measuring rope (3) is completed.