CN112942476A - River course desilting equipment is used in hydraulic engineering construction - Google Patents

Abstract

The invention discloses river channel dredging equipment for hydraulic engineering construction, which belongs to the technical field of hydraulic engineering and comprises a base, wherein two adjusting mechanisms are symmetrically arranged on the base, and the bottoms of the adjusting mechanisms are connected with a filtering mechanism; the garbage collecting device comprises a base, a first filter screen, a second filter screen, a water guide plate, a desilting mechanism, a first storage tank, a second filter screen, a third filter screen, a fourth filter screen, a fifth filter screen, a sixth filter screen, a fifth filter screen, a sixth filter screen; through making filtering mechanism rotate to the oblique below position in the outside, make rotor plate isotructure to the downward direction removal that inclines through adjustment mechanism, then make filtering mechanism rotate to the inboard, will concentrate the below of desilting mechanism with silt to extract silt through desilting mechanism, and through discharging in the standing groove.

Description

River course desilting equipment is used in hydraulic engineering construction

Technical Field

The invention relates to the technical field of hydraulic engineering, in particular to river channel dredging equipment for hydraulic engineering construction.

Background

Hydraulic engineering is a general term for various engineering constructions constructed for controlling, utilizing and protecting surface and underground water resources and environments, and is used for controlling and allocating surface water and underground water in nature to achieve the purposes of removing harm and benefiting, and is also called 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.

The engineering is built for eliminating water damage and developing and utilizing water resource. The service objects are divided into flood control engineering, farmland hydraulic engineering, hydroelectric power engineering, channel and harbor engineering, water supply and drainage engineering, environmental hydraulic engineering, coastal reclamation engineering and the like. The hydraulic engineering which can serve multiple targets such as flood control, water supply, irrigation, power generation and the like at the same time is called comprehensive utilization hydraulic engineering. 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.

Whether the water damage is treated or the water conservancy is developed, the water damage is treated through a certain number of hydraulic buildings. Hydraulic buildings are generally divided into three categories according to their functions: a water retaining building; a water outlet structure; special hydraulic buildings. An aggregate consisting of a plurality of hydraulic buildings is called a hydro-junction.

A water retaining structure is a structure that blocks or restricts water flow, has a high height, or adjusts an upstream water level, and is generally called a dam across a river, and is called a dike built on both sides of the river along the direction of water flow.

A water discharge structure is a structure capable of discharging surplus or required water from a reservoir safely and reliably. The concrete dam has stronger anti-scouring capability, and can discharge flood by using the overflow of the dam body, so the concrete dam is called an overflow dam.

In addition to the above two common general buildings, the buildings designed for a specific purpose or for a specific task are special hydraulic buildings such as channels, water transportation tunnels, aqueducts or inverted siphons, and the dams block the original passages of ships, wooden rafts, bamboo rafts and fish migrations after the reservoir is built, so that ship locks, raft and fishways for passing ships, rafts and fish are required to be specially built.

In the process of carrying out hydraulic engineering construction on some river channels, due to the influence of geographical forms or surrounding environments and construction problems, the problems of sludge accumulation and the like of some river channels can occur, the water flow passing and the water flow velocity of the river channels are influenced, and therefore the river channels need to be desilted; but current river course desilting adopts artifical desilting more or uses the desilting pump to draw silt, and artifical desilting is wasted time and energy, and the desilting pump can inhale more water when extracting the silt of river course bottom, and subsequent silt of being not convenient for is handled.

Based on the technical scheme, the invention designs the river channel dredging equipment for the hydraulic engineering construction so as to solve the problems.

Disclosure of Invention

The invention aims to provide river channel dredging equipment for hydraulic engineering construction, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a river channel dredging device for hydraulic engineering construction comprises a base, wherein vertical upper side plates are symmetrically fixed on the front side and the rear side of the top surface of the base, a top plate is fixed between the top ends of the upper side plates, accommodating grooves are symmetrically formed in the left side and the right side of the base, supporting plates are symmetrically fixed on the top surface of the base corresponding to the two sides of the accommodating grooves, an adjusting mechanism is arranged between the two supporting plates, and the bottom of the adjusting mechanism is located in the accommodating grooves and connected with a filtering mechanism;

the middle part bilateral symmetry of base is equipped with the notch, be equipped with the standing groove in two notches respectively, the lateral wall and the bottom surface equipartition of standing groove have the filtration pore, and the bottom of standing groove is located the below of base, both sides are fixed with two vertical downside boards around the bottom surface of base, be fixed with the water deflector between the bottom of downside board, and the top surface bilateral symmetry slope of water deflector, be convenient for make the water that drips out in the standing groove outwards remove along the water deflector, the centre of water deflector is equipped with desilting mechanism, and the top of desilting mechanism is located the top of base, the bottom is located between two filter mechanism's the lower part.

Preferably, adjustment mechanism includes the regulation frame of rectangle, the top of regulation frame is equipped with the drive chamber, be equipped with first drive assembly in the drive chamber, the both sides wall of regulation frame rotates with the backup pad that corresponds respectively and is connected, and wherein the rotation junction of one side is connected with the motor, the inside rotation of the both sides wall of regulation frame is connected with adjusting screw, adjusting screw's top stretches into in the drive chamber, and be connected with first drive assembly, the regulating block has been cup jointed on the adjusting screw, and the one end of regulating block and the lateral wall sliding connection of regulation frame, the bottom of regulation frame is equipped with the opening, and filtering mechanism is located the opening part, and the top both sides respectively with two regulating block fixed connection.

Preferably, the first driving assembly comprises a first rotating shaft which is rotatably connected in the driving cavity, one end of the first rotating shaft is connected with a motor, two second bevel gears are fixed on the first rotating shaft, the top end of the movable screw rod extends into the driving cavity and is fixed with a first bevel gear, and the two first bevel gears are respectively meshed with the corresponding second bevel gears.

Preferably, two rotor plates that the filter mechanism set up including the symmetry, the vertical setting in upper portion of rotor plate, and with the regulating block fixed connection who corresponds the side, the lower part of rotor plate is to the inboard slope, and be fixed with first filter screen between the vertical section of two rotor plates, be fixed with the second filter screen of slope between the slope section, the inboard of second filter screen is equipped with the stirring axle, and evenly be fixed with a plurality of stirring vanes on the stirring axle, the both ends of stirring axle rotate respectively and are connected with the end plate, and the end plate is fixed with rotor plate slope section, be equipped with the motor case on one of them end plate, the one end of stirring axle stretches into the motor case, and be connected with the motor.

Preferably, the inboard top symmetry of adjusting the frame is fixed with two stock guides, and the medial surface of stock guide and the lateral surface sliding connection of first filter screen, two stock guides are all established to triangle-shaped, and inboard edge symmetry slope, the outside limit is vertical, the outside limit of stock guide and the rotor plate medial surface sliding connection who corresponds the side, when needs clear up the rubbish of river course surface of water, form the feed opening between the tip of first filter screen and the adjusting frame, effect through the stock guide makes rubbish concentrate to the centre, be convenient for get into in the standing groove.

Preferably, the desilting mechanism is including evenly being fixed in a plurality of desilting pumps in the middle of the base bottom surface, and the bottom of desilting pump is fixed with first inlet pipe, and the top is fixed with the discharging pipe, and the centre of stock guide is passed to the bottom of first inlet pipe to be connected with the second inlet pipe, the base is passed at the top of a plurality of discharging pipes, and be fixed with a horizontally major ingredient pipe jointly, and the bilateral symmetry of major ingredient pipe is equipped with a plurality of horizontally flexible pipes.

Preferably, flexible pipe is fixed in the fixed pipe on the main ingredient pipe lateral wall including the level, the outside terminal surface center department sliding connection of fixed pipe has the removal pipe, the medial extremity of removing the pipe is fixed with annular boss, and be fixed with the spring between the outside end of annular sand grip and fixed pipe, and the spring is in tensile state all the time, the outside end of removing the pipe stretches out fixed pipe, and be fixed with vertical first locating plate on the section of stretching out, the top of fixed pipe is fixed with vertical second locating plate, be fixed with the electro-magnet on the opposite flank of first locating plate and second locating plate respectively, the electro-magnet electricity is connected with power and switch, and two electro-magnets attract mutually after the circular telegram.

Preferably, the upper portion sliding connection of a plurality of second inlet pipes is in first inlet pipe, the lower part has lifting unit jointly, lifting unit is including being fixed in the lifter plate on a plurality of second inlet pipes jointly, the lifter plate level sets up, and both sides threaded connection has vertical lifting screw respectively, the lateral wall bottom of two downside boards is fixed with the motor case, lifting screw's top rotates with the top surface of motor case to be connected, and the top stretches into in the motor case, and be connected with the motor, the below of water deflector is fixed with a horizontally connecting rod through a plurality of montants, the position that corresponds every second inlet pipe on the connecting rod all is fixed with a ring section of thick bamboo, and evenly be fixed with the brush hair along the circumferencial direction on the inside wall of ring section of thick bamboo.

Preferably, the top of standing groove is equipped with filter pressing mechanism, and filter pressing mechanism is including the filter-pressing board that is located two standing grooves directly over, the tip intermediate position that corresponds every filter-pressing board on the inside wall of two epipleural all is equipped with vertical shifting chute, the swivelling joint has vertical removal screw rod in the shifting chute, the top of four removal screw rods is connected with the second drive assembly jointly, the movable block that has cup jointed of removal screw rod, the one end sliding connection of movable block is in the shifting chute, the other end extends to the top of filter-pressing board, and the left and right sides symmetry of extension section is fixed with the depression bar, the bottom of depression bar and the top surface fixed connection of filter-pressing board.

Preferably, the second drive assembly is including being fixed in the drive case of roof top surface, the top of four removal screws stretches into in the drive case, and be fixed with third bevel gear respectively, the center department of drive case rotates and is connected with fourth bevel gear, fourth bevel gear is connected with the motor, all be equipped with the transmission shaft between fourth bevel gear and every third bevel gear, the transmission shaft rotates with the bottom surface of drive case to be connected, and both ends are fixed with first transmission bevel gear and second transmission bevel gear respectively, and first transmission bevel gear and third bevel gear meshing, second transmission bevel gear and fourth bevel gear meshing.

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

1. according to the invention, the base is arranged on the corresponding river channel, the first filter screen is in a vertical state, so that floating garbage on the horizontal direction can be intercepted, and the garbage is prevented from floating and transferring along with the water flow in the river channel;

2. the adjusting frame drives the first filter screen to rotate, the garbage on the water surface is fished up through the first filter screen, the first filter screen is enabled to move towards the direction of the adjusting frame through the adjusting mechanism and rotate to incline, so that the garbage falls into the placing groove along the inclined first filter screen to be collected, and the garbage is drained through the placing groove, so that the subsequent treatment is facilitated;

3. according to the invention, the filtering mechanism is rotated to the position obliquely below the outer side, the adjusting mechanism is used for enabling the rotating plate and other structures to move obliquely downwards, then the filtering mechanism is rotated inwards, sludge is collected below the dredging mechanism, the sludge is extracted through the dredging mechanism and is discharged into the placing groove, and water is drained through the placing groove, so that subsequent treatment is facilitated;

4. according to the invention, the motor of the stirring shaft is started, and the stirring shaft drives the stirring blades to rotate through the motor, so that the contacted sludge is stirred, the condition that the sludge is sticky or caked is reduced, and the subsequent dredging is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic view of the upper structure of the pivotal plate of the present invention;

FIG. 3 is a schematic view showing a lower structure of a rotating plate according to the present invention;

FIG. 4 is a schematic structural view of a drive chamber of the present invention;

FIG. 5 is a schematic view of the connection between the adjustment frame and the rotation plate according to the present invention;

FIG. 6 is a schematic view of a material guiding block according to the present invention;

fig. 7 is a schematic structural view of the filter press plate of the present invention;

FIG. 8 is a schematic view of the structure of the driving box of the present invention;

FIG. 9 is a schematic view of a filter press cell according to the present invention;

FIG. 10 is a schematic view of the connection of the fixed pipe and the movable pipe according to the present invention;

FIG. 11 is a schematic view of the lifter plate of the present invention;

fig. 12 is a schematic structural view of the annular cylinder of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-base, 101-containing groove, 102-upper side plate, 103-top plate, 104-driving box, 105-moving groove, 106-water guide plate, 107-lower side plate;

2-filtering mechanism, 201-rotating plate, 202-first filter screen, 203-second filter screen, 204-stirring shaft, 205-stirring blade, 206-regulating block;

3-adjusting mechanism, 301-adjusting frame, 302-adjusting screw, 303-adjusting cavity, 304-first bevel gear, 305-second bevel gear, 306-first rotating shaft, 307-guide plate;

4-a filter pressing mechanism, 401-a filter pressing plate, 402-a pressing rod, 403-a moving block, 404-a moving screw, 405-a third bevel gear, 406-a transmission shaft, 407-a fourth bevel gear;

5-a dredging mechanism, 501-a dredging pump, 502-a first feeding pipe, 503-a discharging pipe, 504-a main pipe, 505-a fixed pipe, 506-a movable pipe, 507-a first positioning plate, 508-a second positioning plate and 509-a second feeding pipe;

6-placing the groove;

7-lifting plate, 701-lifting screw, 702-annular cylinder and 703-connecting rod.

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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

Example one

Referring to the drawings, the present invention provides a technical solution: a river channel dredging device for hydraulic engineering construction comprises a base 1, wherein vertical upper side plates 102 are symmetrically fixed on the front side and the rear side of the top surface of the base 1, a top plate 103 is fixed between the top ends of the upper side plates 102, accommodating grooves 101 are symmetrically arranged on the left side and the right side of the base 1, supporting plates are symmetrically fixed on the top surface of the base 1 corresponding to the two sides of the accommodating grooves 101, an adjusting mechanism 3 is arranged between the two supporting plates, and the bottom of the adjusting mechanism 3 is located in the accommodating grooves 101 and connected with a filtering mechanism 2;

the middle part bilateral symmetry of base 1 is equipped with the notch, be equipped with standing groove 6 in two notches respectively, the lateral wall and the bottom surface equipartition of standing groove 6 have the filtration pore, and the bottom of standing groove 6 is located the below of base 1, both sides are fixed with two vertical lower side plates 107 around the bottom surface of base 1, be fixed with water deflector 106 between the bottom of lower side plate 107, and the top surface bilateral symmetry slope of water deflector 106, be convenient for make the water that drips out in the standing groove 6 outwards remove along water deflector 106, the centre of water deflector 106 is equipped with desilting mechanism 5, and the top of desilting mechanism 5 is located the top of base 1, the bottom is located between the lower part of two filter equipment 2.

Adjustment mechanism 3 includes the regulation frame 301 of rectangle, the top of regulation frame 301 is equipped with drive chamber 303, be equipped with first drive assembly in the drive chamber 303, the both sides wall of regulation frame 301 rotates with the backup pad that corresponds respectively and is connected, and the rotation junction of one side wherein is connected with the motor, the both sides wall inside rotation of regulation frame 301 is connected with adjusting screw 302, adjusting screw 302's top stretches into in the drive chamber 303, and be connected with first drive assembly, adjusting screw 302 is last to have cup jointed regulating block 206, and the one end of regulating block 206 and the lateral wall sliding connection of regulation frame 301, the bottom of regulation frame 301 is equipped with the opening, and filtering mechanism 2 is located the opening part, and the top both sides respectively with two regulating block 206 fixed connection.

The first driving assembly comprises a first rotating shaft 306 which is rotatably connected in the driving cavity 303, one end of the first rotating shaft 306 is connected with a motor, two second bevel gears 305 are fixed on the first rotating shaft 306, the top end of the movable screw 404 extends into the driving cavity 303 and is fixed with a first bevel gear 304, and the two first bevel gears 304 are respectively meshed with the corresponding second bevel gears 305.

The filter mechanism 2 includes two rotor plates 201 that the symmetry set up, the vertical setting in upper portion of rotor plate 201, and with the regulating block 206 fixed connection who corresponds the side, the inboard slope of lower part of rotor plate 201, and be fixed with first filter screen 202 between the vertical section of two rotor plates 201, be fixed with the second filter screen 203 of slope between the slope section, the inboard of second filter screen 203 is equipped with stirring axle 204, and evenly be fixed with a plurality of stirring vanes 205 on the stirring axle 204, the both ends of stirring axle 204 are rotated respectively and are connected with the end plate, and the end plate is fixed with rotor plate 201 slope section, be equipped with the motor case on one of them end plate, the one end of stirring axle 204 stretches into the motor case, and be connected with the motor.

The dredging mechanism 5 comprises a plurality of dredging pumps 501 uniformly fixed in the middle of the bottom surface of the base 1, a first feeding pipe 502 is fixed at the bottom of each dredging pump 501, a discharging pipe 503 is fixed at the top of each dredging pump 501, the bottom of each first feeding pipe 502 penetrates through the middle of the material guide plate 307 and is connected with a second feeding pipe 509, the tops of the discharging pipes 503 penetrate through the base 1 and are jointly fixed with a horizontal main material pipe 504, and a plurality of horizontal telescopic pipes are symmetrically arranged on two sides of the main material pipe 504.

The telescopic pipe comprises a fixed pipe 505 horizontally fixed on the side wall of the main pipe 504, the center of the outer end face of the fixed pipe 505 is connected with a movable pipe 506 in a sliding mode, an annular boss is fixed at the inner end of the movable pipe 506, a spring is fixed between the annular protruding strip and the outer end of the fixed pipe 505 and is always in a stretching state, the outer end of the movable pipe 506 extends out of the fixed pipe 505, a vertical first positioning plate 507 is fixed on the extending section, a vertical second positioning plate 508 is fixed at the top of the fixed pipe 505, electromagnets are fixed on the opposite side faces of the first positioning plate 507 and the second positioning plate 508 respectively, the electromagnets are electrically connected with a power supply and a switch, and the two electromagnets are attracted after being electrified.

The working principle of the embodiment is as follows:

the base 1 is installed on a corresponding river channel, when the dredging mechanism 5 does not work, the first filter screen 202 is in a vertical state and can intercept floating garbage on the horizontal direction, and the garbage is prevented from floating and transferring along with water flow in the river channel;

when the garbage on the water surface needs to be cleaned, a motor on the adjusting frame 301 is started, the adjusting frame 301 drives the first filter screen 202 and other structures to rotate, the garbage on the water surface is fished up through the first filter screen 202, meanwhile, the first driving assembly is started, the first rotating shaft 306 rotates, the two adjusting screws 302 rotate simultaneously through the transmission of the first bevel gear 304 and the second bevel gear 305, the first filter screen 202 and other structures move towards the adjusting frame 301 through the adjusting block 206, and a discharging port is formed between the adjusting frame 301 and the side edge of the first filter screen 202;

when the first filter screen 202 rotates to incline towards the placing groove 6, the discharge opening is positioned above the placing groove 6, the garbage moves towards the placing groove 6 along the inclined first filter screen 202 and falls into the placing groove 6 for collection, then the adjusting frame 301 and the first filter screen 202 are returned to the conveying position through the first driving assembly and the motor of the adjusting mechanism 3, the garbage is drained through the placing groove 6, the subsequent treatment is facilitated, and the drained water flows along the water guide plate 106 and returns to the river channel;

when sludge in a river channel needs to be cleaned, a motor of an adjusting frame 301 is started, the adjusting frame 301 drives a filtering mechanism 2 to rotate outwards to an outward inclined lower position, the bottom of the filtering mechanism 2 is located in water, a motor of a first driving assembly is started, an adjusting screw 302 is rotated through the first driving assembly, an adjusting block 206 drives structures such as a rotating plate 201 and the like to move towards an inclined lower direction, a second filter screen 203 extends into the sludge, the motor of the adjusting frame 301 is driven again to rotate reversely, the second filter screens 203 on two sides drive the sludge to move towards the middle, the sludge is concentrated below a dredging mechanism 5, the height of the bottom of the second filter screen 203 is adjusted according to the depth of the river channel in the rotating and returning process of the second filter screen 203, and the problem that the bottom of the second filter screen 203 is contacted with the bottom of the river to damage the second filter screen 203 when dredging is performed at a position with a lower depth is avoided;

starting the dredging pump 501, pumping sludge through the first feeding pipe 502 and the second feeding pipe 509, allowing the sludge to enter the discharging pipe 503 and the main material pipe 504, discharging the sludge into the placing groove 6 through the telescopic pipe, draining water through the placing groove 6, removing part of water in the sludge, and allowing the viscous sludge to remain in the placing groove 6, so that subsequent treatment is facilitated;

when silt is too thick or the condition such as caking appears, when being not convenient for remove and extract, start stirring shaft 204's motor, make stirring shaft 204 drive stirring vane 205 through the motor and rotate, stir the silt of contact to reduce the silt and glue the condition of gluing or caking, be convenient for follow-up desilting.

Can fix base 1 on one section river course, carry out the desilting of fixed point, also can set up the mobile device in 1 both sides of base to make base 1 drive whole equipment and remove, carry out the desilting of section by section to the river course, after the desilting, can appear equipment fixing on the river course of silt and rubbish easily, be convenient for regularly carry out desilting and refuse treatment.

Notches of corresponding shapes may be provided on the upper side plate 102 and the lower side plate 107 at positions corresponding to the placing groove 6 so as to enable the placing groove 6 to move and move to the outside of the apparatus through the notches, so as to clean up sludge or garbage in the placing groove 6, facilitating subsequent work of the apparatus.

Example two

The structure of this embodiment is basically the same as that of the first embodiment, the difference lies in that a filter pressing mechanism 4 is arranged above the placing grooves 6, and the filter pressing mechanism 4 includes filter pressing plates 401 located directly above the two placing grooves 6, a vertical moving groove 105 is arranged on the inner side walls of the two upper side plates 102 corresponding to the end middle position of each filter pressing plate 401, a vertical moving screw 404 is rotatably connected in the moving groove 105, the top ends of the four moving screws 404 are connected with a second driving assembly together, a moving block 403 is sleeved on the moving screw 404, one end of the moving block 403 is slidably connected in the moving groove 105, the other end extends to the upper side of the filter pressing plate 401, pressing rods 402 are symmetrically fixed on the left side and the right side of the extending section, and the bottom ends of the pressing rods 402 are fixedly connected with the.

The second driving assembly comprises a driving box 104 fixed on the top surface of the top plate 103, the top ends of the four movable screws 404 extend into the driving box 104 and are respectively fixed with a third bevel gear 405, the center of the driving box 104 is rotatably connected with a fourth bevel gear 407, the fourth bevel gear 407 is connected with a motor, a transmission shaft 406 is arranged between the fourth bevel gear 407 and each third bevel gear 405, the transmission shafts 406 are rotatably connected with the bottom surface of the driving box 104, a first transmission bevel gear and a second transmission bevel gear are respectively fixed at two ends of the transmission shafts, the first transmission bevel gear is meshed with the third bevel gear 405, and the second transmission bevel gear is meshed with the fourth bevel gear 407.

After the garbage or sludge enters the placing groove 6 for draining, a motor of the second driving assembly is started, the fourth bevel gear 407 is rotated, the four third bevel gears 405 are simultaneously rotated through transmission of the transmission shaft 406, the first transmission bevel gear and the second transmission bevel gear, and the four moving screws 404 are driven to rotate, so that the moving block 403 drives the pressing rod 402 and the pressing plate 401 to move downwards, the garbage or sludge in the placing groove 6 is subjected to press filtering through the pressing plate 401, and draining is accelerated.

When the dredging mechanism 5 works, the two electromagnets are powered off, the moving pipe 506 moves outwards under the action of the spring, so that the outer end of the moving pipe 506 is positioned above the placing groove 6, and the sludge enters the placing groove 6; when the filter pressing plate 401 needs to be moved, the electromagnet is energized to move the moving pipe 506 inward and stretch the spring, and the outer end position of the moving pipe 506 is displaced from the inner cavity position of the placement groove 6, so that the filter pressing plate 401 can be moved smoothly without being obstructed by the pipe end of the moving pipe 506.

EXAMPLE III

The structure of this embodiment is basically the same as embodiment one, the difference lies in, the upper portion sliding connection of a plurality of second inlet pipes 509 is in first inlet pipe 502, the lower part is connected with lifting unit jointly, lifting unit is including being fixed in the lifter plate 7 on a plurality of second inlet pipes 509 jointly, lifter plate 7 level sets up, and both sides threaded connection has vertical lifting screw 701 respectively, the lateral wall bottom of two lower plates 107 is fixed with the motor case, lifting screw 701's top is rotated with the top surface of motor case and is connected, and the top stretches into in the motor case, and be connected with the motor, the below of water deflector 106 is fixed with a horizontally connecting rod 703 through a plurality of montants, the position that corresponds every second 509 on the connecting rod 703 all is fixed with annular cylinder 702, and the brush hair is evenly fixed with along the circumferencial direction on the inside wall of annular cylinder 702.

When dredging is carried out on riverways with different depths, a motor of the lifting screw 701 is started, so that the lifting screw 701 rotates, the lifting plate 7 drives the second feeding pipe 509 to move, and the bottom position of the second feeding pipe 509 is adjusted, so that sludge at the bottoms of the riverways with different depths can be cleaned;

when the second feeding pipe 509 needs to be moved upwards, the second feeding pipe 509 moves relative to the annular cylinder 702, and the side wall of the second feeding pipe 509 is cleaned by the brush hairs, so that sludge adhered to the side wall of the second feeding pipe 509 is prevented from entering the first feeding pipe 502.

Example four

The structure of this embodiment is basically the same as that of the first embodiment, the difference lies in that two material guide plates 307 are symmetrically fixed to the top of the inner side of the adjusting frame 301, the inner side surfaces of the material guide plates 307 are slidably connected with the outer side surfaces of the first filter screens 202, the two material guide plates 307 are all set to be triangular, the inner side surfaces of the material guide plates are symmetrically inclined, the outer side edges are vertical, the outer side edges of the material guide plates 307 are slidably connected with the inner side surfaces of the rotating plates 201 on the corresponding sides, when the garbage on the water surface of the river channel needs to be cleaned, a discharging opening is formed between the end portion of the first filter screen 202 and the adjusting frame 301, the garbage is concentrated towards the middle under the action.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a river course desilting equipment for hydraulic engineering construction, includes base (1), its characterized in that: vertical upper side plates (102) are symmetrically fixed on the front side and the rear side of the top surface of the base (1), a top plate (103) is fixed between the top ends of the upper side plates (102), accommodating grooves (101) are symmetrically arranged on the left side and the right side of the base (1), supporting plates are symmetrically fixed on the top surface of the base (1) corresponding to the two sides of the accommodating grooves (101), an adjusting mechanism (3) is arranged between the two supporting plates, and the bottom of the adjusting mechanism (3) is located in the accommodating grooves (101) and connected with a filtering mechanism (2);

the middle part bilateral symmetry of base (1) is equipped with the notch, is equipped with standing groove (6) in two notches respectively, and the lateral wall and the bottom surface equipartition of standing groove (6) have the filtration pore, and the bottom of standing groove (6) is located the below of base (1), both sides are fixed with two vertical downside boards (107) around the bottom surface of base (1), are fixed with water deflector (106) between the bottom of downside board (107), and the top surface bilateral symmetry slope of water deflector (106), the centre of water deflector (106) is equipped with desilting mechanism (5), and the top of desilting mechanism (5) is located the top of base (1), and the bottom is located between the lower part of two filtering mechanism (2).

2. The river channel dredging equipment for hydraulic engineering construction according to claim 1, wherein: adjustment mechanism (3) include regulation frame (301) of rectangle, and the top of regulation frame (301) is equipped with drive chamber (303), is equipped with first drive assembly in drive chamber (303), the both sides wall of regulation frame (301) rotates with the backup pad that corresponds respectively to be connected, and wherein the rotation junction of one side is connected with the motor, the both sides wall inside rotation of regulation frame (301) is connected with adjusting screw (302), and the top of adjusting screw (302) stretches into in drive chamber (303) to be connected with first drive assembly, regulating block (206) have been cup jointed on adjusting screw (302), and the one end of regulating block (206) and the lateral wall sliding connection of regulation frame (301), the bottom of regulation frame (301) is equipped with the opening, and filtering mechanism (2) are located the opening part to top both sides respectively with two regulating block (206) fixed connection.

3. The river channel dredging equipment for hydraulic engineering construction according to claim 2, wherein: the first driving assembly comprises a first rotating shaft (306) which is rotatably connected in a driving cavity (303), one end of the first rotating shaft (306) is connected with a motor, two second bevel gears (305) are fixed on the first rotating shaft (306), the top end of a movable screw (404) extends into the driving cavity (303) and is fixed with a first bevel gear (304), and the two first bevel gears (304) are respectively meshed with the corresponding second bevel gears (305).

4. The river channel dredging equipment for hydraulic engineering construction according to claim 2, wherein: two rotor plates (201) that filtering mechanism (2) set up including the symmetry, the vertical setting in upper portion of rotor plate (201) to with regulating block (206) fixed connection who corresponds the side, the inboard slope in lower part of rotor plate (201), and be fixed with first filter screen (202) between the vertical section of two rotor plates (201), be fixed with second filter screen (203) of slope between the slope section, the inboard of second filter screen (203) is equipped with stirring axle (204), and evenly is fixed with a plurality of stirring vanes (205) on stirring axle (204), the both ends of stirring axle (204) rotate respectively and are connected with the end plate, and the end plate is fixed with rotor plate (201) slope section, one of them be equipped with the motor case on the end plate, the one end of stirring axle (204) stretches into the motor case to be connected with the motor.

5. The river channel dredging equipment for hydraulic engineering construction according to claim 4, wherein: the inside top symmetry of adjusting frame (301) is fixed with two stock guides (307), and the medial surface of stock guide (307) and the lateral surface sliding connection of first filter screen (202), two stock guide (307) all establish to the triangle-shaped, and inboard side symmetry slope, and the outside limit is vertical, the outside limit of stock guide (307) and the rotor plate (201) medial surface sliding connection who corresponds the side.

6. The river channel dredging equipment for hydraulic engineering construction according to claim 1, wherein: desilting mechanism (5) are including evenly being fixed in a plurality of desilting pumps (501) in the middle of base (1) bottom surface, and the bottom of desilting pump (501) is fixed with first inlet pipe (502), and the top is fixed with discharging pipe (503), and the centre of stock guide (307) is passed to the bottom of first inlet pipe (502) to be connected with second inlet pipe (509), a plurality of base (1) is passed at the top of discharging pipe (503) to be fixed with a horizontally owner material pipe (504) jointly, and the bilateral symmetry of owner material pipe (504) is equipped with a plurality of horizontally flexible pipes.

7. The river channel dredging equipment for hydraulic engineering construction according to claim 6, wherein: the telescopic pipe comprises a fixed pipe (505) which is horizontally fixed on the side wall of a main pipe (504), the center of the outer side end face of the fixed pipe (505) is connected with a movable pipe (506) in a sliding mode, an annular boss is fixed at the inner side end of the movable pipe (506), a spring is fixed between the annular protruding strip and the outer side end of the fixed pipe (505), the outer side end of the movable pipe (506) extends out of the fixed pipe (505), a vertical first positioning plate (507) is fixed on the extending section, a vertical second positioning plate (508) is fixed at the top of the fixed pipe (505), electromagnets are fixed on the opposite side faces of the first positioning plate (507) and the second positioning plate (508) respectively, and the electromagnets are electrically connected with a power supply and a switch.

8. The river channel dredging equipment for hydraulic engineering construction according to claim 6, wherein: the upper parts of a plurality of second feeding pipes (509) are connected in the first feeding pipe (502) in a sliding way, the lower parts are connected with a lifting component together, the lifting component comprises a lifting plate (7) which is jointly fixed on the plurality of second feeding pipes (509), the lifting plate (7) is horizontally arranged, and both sides are respectively connected with a vertical lifting screw (701) in a threaded manner, the bottom of the outer side wall of the two lower side plates (107) is fixed with a motor box, the top of the lifting screw (701) is rotatably connected with the top surface of the motor box, and the top end of the lifting screw extends into the motor box, and the lower part of the water guide plate (106) is fixed with a horizontal connecting rod (703) through a plurality of vertical rods, the connecting rod (703) is fixed with an annular cylinder (702) at the position corresponding to each second feeding pipe (509), and the inner side wall of the annular cylinder (702) is uniformly fixed with bristles along the circumferential direction.

9. The river channel dredging equipment for hydraulic engineering construction according to claim 1, wherein: the top of standing groove (6) is equipped with filter pressing mechanism (4), and filter pressing mechanism (4) all is equipped with vertical shifting chute (105) including filter-pressing board (401) directly over being located two standing grooves (6), two the tip intermediate position that corresponds every filter-pressing board (401) on the inside wall of epipleural (102), it is connected with vertical removal screw rod (404), four to rotate in shifting chute (105) the top of removing screw rod (404) is connected with the second drive assembly jointly, the cup jointed movable block (403) of removing screw rod (404), the one end sliding connection of movable block (403) is in shifting chute (105), and the other end extends to the top of filter-pressing board (401), and the left and right sides symmetry of extension section is fixed with depression bar (402), the bottom of depression bar (402) and the top surface fixed connection of filter-pressing board (401).

10. The river channel dredging equipment for hydraulic engineering construction according to claim 9, wherein: the second driving assembly comprises driving boxes (104) fixed on the top surfaces of the top plates (103), the top ends of the four moving screws (404) extend into the driving boxes (104) and are respectively fixed with third bevel gears (405), the center of each driving box (104) is rotatably connected with a fourth bevel gear (407), each fourth bevel gear (407) is connected with a motor, a transmission shaft (406) is arranged between each fourth bevel gear (407) and each third bevel gear (405), each transmission shaft (406) is rotatably connected with the bottom surface of each driving box (104), a first transmission bevel gear and a second transmission bevel gear are respectively fixed at two ends of each driving box, the first transmission bevel gears are meshed with the third bevel gears (405), and the second transmission bevel gears are meshed with the fourth bevel gears (407).

Images