CN113699959A - River course cleaning device for hydraulic engineering - Google Patents

Abstract

The invention discloses a river channel cleaning device for hydraulic engineering, which structurally comprises a starting handle, a telescopic rod, an extractor and an extraction head, wherein the extractor generates strong extraction power, the extraction head is used for extracting sundries in a large range, liquid and sundries in a river are simultaneously extracted during extraction, the liquid is guided to a crushing frame by a concentration block when flowing, the crushing frame is pressed to enable a pressure spring to generate elasticity and swing along with the flowing of the liquid, meanwhile, a swing connecting rod which is crushed quickly swings due to the pressure of water flow, the water flow is guided to a hydraulic wheel through a guide block, the hydraulic blades generate rotating power to rotate and cut through fin-shaped sheets arranged on the hydraulic blades, and an additional chopping effect is generated through the centrifugal force of the central wheel, so that the problem that the sucked water grass blades block the extraction head to cause the large reduction of the river channel cleaning speed is solved .

Description

River course cleaning device for hydraulic engineering

Technical Field

The invention relates to the field of hydraulic engineering, in particular to a river channel cleaning device for hydraulic engineering.

Background

The hydraulic engineering is subject engineering for carrying out water energy utilization and reconnaissance design construction planning on an area through which water flows, can effectively increase the utilization degree of water resources, can prevent flood disasters, can well obtain energy contained in the water flows, is usually constructed around rivers during the hydraulic engineering, enables the flow direction and the energy of the water flows to be within a control range, is very complex and changeable due to the fact that the environment of the rivers is not manually intervened, before construction and construction are carried out, the rivers need to be cleaned firstly, a cleaning device is needed to be used for cleaning objects to be cleaned in the rivers, and when the rivers growing more phaleria macrocarpa are cleaned, the phaleria macrocarpa easily enters the cleaning device along with the pumped water flows, and the rhizomes of the phaleria macrocarpa are thick, and the blade is wide, consequently leads to the winding of the imperial crown grass of suction inside cleaning device very easily to block up cleaning device's extraction mouth through wide blade, lead to cleaning device can't effectively produce sufficient suction and absorb the clearance to the river course of treating the clearance, greatly reduced clearance's effect and speed.

Disclosure of Invention

Aiming at the problems, the invention provides a river channel cleaning device for hydraulic engineering.

In order to achieve the purpose, the invention is realized by the following technical scheme: a river channel cleaning device for hydraulic engineering structurally comprises a starting handle, a telescopic rod, an extractor and an extraction head, wherein the bottom surface of the starting handle is fixedly embedded and connected with the top surface of the telescopic rod, the top surface of the extractor is welded and connected with the bottom surface of the telescopic rod, and the bottom surface of the extractor is mutually communicated with the top surface of the extraction head and is fixedly connected with the top surface of the extraction head; the extraction head includes top sucking disc, recoil groove, chassis, top sucking disc inlayer and recoil groove shaping as an organic whole, the chassis top surface is put through each other and is connected through the electric welding with top sucking disc bottom surface, top sucking disc top surface and extractor bottom surface put through each other and through inlaying solid the connection, the recoil groove runs through the groove structure for the smooth semicircle ring shape of inner wall.

Further, the chassis includes interior dish, collection way, concentrated piece, crushing frame, interior dish bottom surface and the mutual switch-on of collection way top surface are connected and are connected through the electric welding, the outer embedding of concentrated piece is in collection way inlayer, smash frame both sides and interior dish inlayer swing joint, interior dish top surface and top suction disc bottom surface are connected and are connected through the electric welding each other, the concentrated piece is the dentate block structure that smooth and most advanced process rounding handled of surface.

Still further, smash the frame including installation pole, pressure spring, roller head, crushing piece, installation pole top surface and pressure spring bottom surface inlay solid and be connected, roller head center and installation pole right side activity block, smash the piece and imbed in installation pole middle section, roller head outer and adduction dish inlayer swing joint, it is equipped with threely to smash the piece, and three crushing piece clearance imbeds in installation pole middle section uniformly.

Further, smash the piece and connect stick, fixed block, leading-in piece, hydraulic wheel including the swing, the swing connects stick both sides to be embedded in installation pole middle section, the fixed block skin is connected with swing connects stick middle section embedded solid, hydraulic wheel both sides and fixed block inlayer activity block, the fixed block top and bottom and leading-in inlayer embedded solid connect, swing connects stick both sides to be equipped with the elasticity arc connecting strip structure that four mirror images distribute.

Furthermore, the hydraulic wheel comprises a center wheel, a swing groove, hydraulic blades and side supporting strips, wherein the outer ring of the center wheel is connected with the bottom surface of the swing groove in a welding mode, the bottoms of the hydraulic blades are embedded into the inner layer of the swing groove, the tops of the side supporting strips are fixedly connected with the right sides of the hydraulic blades in an embedding mode, the outer layer of the center wheel is movably clamped with the inner layer of the fixed block, and four sharpening fin-shaped piece structures distributed in a mirror image mode are arranged on the outer layer of the hydraulic blades.

Furthermore, the center wheel comprises a bearing wheel, a leading-in raised head, a swinging hammer head and a protruding frame, the front surface of the bearing wheel is connected with the back surface of the leading-in raised head in a welding mode, the bottom of the swinging hammer head is movably clamped with the outer layer of the bearing wheel, two sides of the protruding frame are movably clamped with the outer layer of the bearing wheel, the outer layer of the bearing wheel is connected with the bottom surface of the swinging groove in a welding mode, the outer layer of the bearing wheel is movably clamped with the inner layer of the fixed block, and the leading-in raised head is of an arc-shaped body structure with a smooth surface.

Furthermore, the protruding frame comprises an impact head, an upper punch frame, a stress push block and a cutting piece, the top surface of the impact head is fixedly embedded with the bottom surface of the upper punch frame, the top surface of the upper punch frame is movably clamped with the bottom surface of the stress push block, the left side of the cutting piece is movably clamped with the left side of the top surface of the stress push block, the left side of the top surface of the stress push block is movably clamped with the outer layer of the bearing wheel, and the bottom surface of the impact head is provided with five rough arc-shaped groove structures with uniformly distributed gaps.

Further, the cutting piece includes shrink strip, swing piece, bounce frame, pressure balloon, injection pipe, the swing piece bottom surface is connected with atress ejector pad right side is inlayed through shrink strip and atress ejector pad right side, swing piece left side and atress ejector pad top surface right side activity block, bounce frame top surface is connected with the outer solid of inlaying of ball of calming the anger, the ball center of calming the anger is connected with the inlayer of swing piece is inlayed admittedly, the injection pipe right side is connected through inlaying with the outer intercommunication of ball of calming the anger, bounce frame bottom surface is equipped with the hollow ball structure that an elastic rubber made.

Advantageous effects

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

1. the invention generates strong extraction power through the extractor, extracts sundries in a large range through the extraction head, simultaneously extracts liquid and sundries in a river during extraction, leads the liquid to the crushing frame by the concentration block when the liquid flows, presses the crushing frame to enable the pressure spring to generate elasticity and swing along with the flowing of the liquid, simultaneously swings the swing connecting rod which is crushed quickly due to the pressure of water flow, leads the water flow to the hydraulic wheel through the guide block, generates rotating power through the hydraulic blades, rotates and cuts through the fin-shaped sheets arranged on the hydraulic blades, and generates an additional chopping effect through the centrifugal force of the central wheel, thereby avoiding the problem that the sucked water plant blades block the extraction head to cause the large reduction of the cleaning speed of the river channel.

2. When the central wheel rotates, centrifugal force is generated at the same time, and the swinging hammer head swings outwards under the action of the centrifugal force, hammering the impact head protruded out of the bottom of the frame, outputting impact force to the upper frame, and outputting the impact force to the stressed push block after the upper frame is centralized, thereby leading the stressed push block to drive the cutting blade to bulge outwards, stopping the outward bulge after the stressed push block reaches a certain degree, and the cutting blade continuously protrudes outwards due to the influence of inertia, so that the swinging blade swings, the sucked aquatic weed blade is cut by the sharp surface and is pushed back by the water flow, and then the tenesmus to extrusion bounce-back frame after laminating atress ejector pad again, the ball of calming anger produced the jet gas outward injection from this extrusion, and the pasture and water blade residue after will cutting blows off, makes it can keep sharp simultaneously when cleaing away the in-process of cutting, avoids the pasture and water residue after the cutting winding and arouses the cutting inefficacy problem.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a river channel cleaning device for hydraulic engineering.

Fig. 2 is a schematic structural view of a left side section of the extraction head of the present invention.

Fig. 3 is a schematic structural view of a front section of the chassis of the present invention.

FIG. 4 is a schematic structural view of a front cross section of the crushing frame of the present invention.

Fig. 5 is a structural schematic diagram of a front cross section of the crushing block of the present invention.

Fig. 6 is a schematic structural diagram of a top cross section of the hydraulic wheel of the present invention.

FIG. 7 is a front cross-sectional view of the center wheel of the present invention.

FIG. 8 is a schematic structural view of a front cross section of the outrigger of the present invention.

FIG. 9 is a schematic structural view of a front cross section of the cutting frame of the present invention.

In the figure: the device comprises a starting handle-1, a telescopic rod-2, an extractor-3, an extraction head-4, a top suction disc-41, a recoil groove-42, a chassis-43, an inward contraction disc-431, a collection channel-432, a concentration block-433, a crushing frame-434, a mounting rod-A1, a pressure spring-A2, a rolling head-A3, a crushing block-A4, a swinging connecting rod-A41, a fixing block-A42, a guide block-A43, a hydraulic wheel-A44, a central wheel-B1, a swinging groove-B2, a hydraulic blade-B3, a side supporting strip-B4, a bearing wheel-B11, a guide convex head-B12, a swinging hammer-B13, a convex frame-B14, an impact head-C1, an upper punch frame-C2, a stressed push block-C3, a cutting blade-C4, a contraction strip-C41, a contraction strip-C676326, a crushing machine, a machine, swing sheet-C42, rebound frame-C43, air ball-C44 and jet tube-C45.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

referring to fig. 1-6, the embodiments of the present invention are as follows: a river channel cleaning device for hydraulic engineering structurally comprises a starting handle 1, a telescopic rod 2, an extractor 3 and an extractor head 4, wherein the bottom surface of the starting handle 1 is fixedly embedded and connected with the top surface of the telescopic rod 2, the top surface of the extractor 2 is welded and connected with the bottom surface of the telescopic rod 2, and the bottom surface of the extractor 3 is mutually communicated with the top surface of the extractor head 4 and is fixedly connected with the top surface of the extractor head 4; extraction head 4 includes top sucking disc 41, recoil groove 42, chassis 43, 41 inlayers of top sucking disc and recoil groove 42 shaping as an organic whole, the mutual switch-on of 41 bottom surfaces of chassis 43 top surface and top sucking disc is connected through the electric welding, the mutual switch-on of 41 top surfaces of top sucking disc and 3 bottom surfaces of extractor is connected through the build-up, recoil groove 42 runs through the groove structure for the smooth semicircle ring shape of inner wall, is favorable to leading rivers and outer dashing, avoids the debris adhesion of entering at 41 inner walls of top sucking disc.

Wherein, chassis 43 includes interior dish 431, collection way 432, concentrated piece 433, smashes frame 434, interior dish 431 bottom surface and collection way 432 top surface switch-on each other and through the electric welding connection, the outer embedding of concentrated piece 433 is in collection way 432 inlayer, smash frame 434 both sides and interior dish 431 inlayer swing joint, interior dish 431 top surface and the mutual switch-on of top suction disc 41 bottom surface and through the electric welding connection, concentrated piece 433 is the smooth and cusp dentate block structure through the rounded processing in surface, is favorable to leading-in the frame 434 department of smashing with the pasture and water blade to avoid colluding and produce the jam.

Wherein, smash frame 434 includes installation pole A1, pressure spring A2, roller head A3, smashes piece A4, installation pole A1 top surface and pressure spring A2 bottom surface are embedded to be connected, roller head A3 center and installation pole A1 right side activity block, smash piece A4 and imbed in installation pole A1 middle section, roller head A3 skin and adduction dish 431 inlayer swing joint, it is equipped with threely to smash piece A4, and three crushing piece A4 clearance is embedded in installation pole A1 middle section evenly, is favorable to making crushing scope bigger, obtains faster crushing speed simultaneously.

Wherein, smash piece A4 including swing connecing stick A41, fixed block A42, leading-in piece A43, hydraulic wheel A44, swing connecing stick A41 both sides are embedded in installation pole A1 middle section, fixed block A42 skin connects stick A41 middle section embedded solid to be connected, hydraulic wheel A44 both sides and fixed block A42 inlayer activity block, fixed block A42 is last and down connected with leading-in piece A43 inlayer embedded solid, swing connecing stick A41 both sides are equipped with the elasticity arc connection strip structure that four mirror image distribute, are favorable to receiving to carry out the swing after assaulting, and then make the residual after the cutting of hydraulic wheel A44 washed away and shake off.

The hydraulic wheel A44 comprises a center wheel B1, a swing groove B2, a hydraulic blade B3 and a side stay B4, the outer ring of the center wheel B1 is in welded connection with the bottom surface of the swing groove B2, the bottom of the hydraulic blade B3 is embedded into the inner layer of the swing groove B2, the top of the side stay B4 is fixedly embedded into the right side of the hydraulic blade B3, the outer layer of the center wheel B1 is movably clamped with the inner layer of the fixing block A1, and the outer layer of the hydraulic blade B3 is provided with four sharpening fin structures distributed in a mirror image mode, so that cutting processing can be conducted simultaneously in the rotating process.

Based on the above embodiment, the specific working principle is as follows: the invention generates strong extraction power through the extractor 3, extracts sundries in a large range through the extraction head 4, simultaneously extracts liquid and sundries in rivers and discharges the liquid and the sundries through a small pipe behind the extractor 3 when the liquid flows, the liquid is guided to the crushing frame 434 by the concentration block 433, presses the crushing frame 434 to enable the pressure spring A2 to generate elasticity and generate swing along with the flowing of the liquid, simultaneously the swing connecting rod A41 of the crushing block A4 generates swing due to the pressure of water flow, guides the water flow to the hydraulic wheel A44 through the guide block A43, generates rotating power through the hydraulic blade B3, generates rotation and cuts through fin-shaped sheets arranged on the hydraulic blade B3, generates additional cutting effect through the fin-shaped sheets arranged on the central wheel B1, and simultaneously the hydraulic blade B3 generates swing under the action of the supporting strips B2 and the side B4 due to the turbulent flow of the liquid during the rotation, shaking off the dregs after cutting, destroying the sucked aquatic weed blade from this, avoiding the sucked aquatic weed blade to block up the extraction head and leading to the problem that river course cleaning speed drops by a large margin to appear.

Example two:

referring to fig. 7-9, the embodiment of the present invention is as follows: the central wheel B1 comprises a bearing wheel B11, a leading-in raised head B12, a swinging hammer head B13 and a protruding frame B14, the front side of the bearing wheel B11 is connected with the back side of the leading-in raised head B12 in a welding mode, the bottom of the swinging hammer head B13 is movably clamped with the outer layer of the bearing wheel B11, two sides of the protruding frame B14 are movably clamped with the outer layer of the bearing wheel B11, the outer layer of the bearing wheel B11 is connected with the bottom surface of the swinging groove B2 in a welding mode, the outer layer of the bearing wheel B11 is movably clamped with the inner layer of a fixed block A42, and the leading-in raised head B12 is of an arc-shaped body structure with a smooth surface, so that water flow resistance is greatly reduced, and suction force influence caused by overlarge resistance is avoided.

The protruding frame B14 comprises an impact head C1, an upper frame C2, a stressed push block C3 and a cutting blade C4, the top surface of the impact head C1 is fixedly connected with the bottom surface of the upper frame C2 in an embedded mode, the top surface of the upper frame C2 is movably clamped with the bottom surface of the stressed push block C3, the left side of the cutting blade C4 is movably clamped with the left side of the top surface of the stressed push block C3, the left side of the top surface of the stressed push block C3 is movably clamped with the outer layer of a bearing wheel B11, and the bottom surface of the impact head C1 is provided with five rough arc-shaped groove structures with uniformly distributed gaps, so that higher friction force is generated during impact, and impact force dispersion caused by sliding is avoided.

The cutting piece C4 comprises a contraction strip C41, a swinging piece C42, a bouncing frame C43, an air compressing ball C44 and an injection pipe C45, the bottom surface of the swinging piece C42 is fixedly connected with the right side of a stressed pushing block C3 through the contraction strip C41, the left side of the swinging piece C42 is movably clamped with the right side of the top surface of the stressed pushing block C3, the top surface of the bouncing frame C43 is fixedly connected with the outer layer of the air compressing ball C44, the center of the air compressing ball C44 is fixedly connected with the inner layer of the swinging piece C42, the right side of the injection pipe C45 is mutually communicated with the outer layer of the air compressing ball C44 and fixedly connected with the outer layer of the air compressing ball C44, the bottom surface of the bouncing frame C43 is provided with a hollow ball structure made of elastic rubber, so that the elastic force is generated when the air is compressed, and the speed of the swinging piece C42 pops up is facilitated.

Based on the above embodiment, the specific working principle is as follows: when the central wheel B1 rotates, centrifugal force is generated at the same time, the swinging hammer head B13 is swung outwards under the action of the centrifugal force, the impact head C1 at the bottom of the protruding frame B14 is hammered, impact force is output to the upper frame C2, the impact force is concentrated by the upper frame C2 and is output to the stressed push block C3, so that the stressed push block C3 carries the cutting blade C4 to bulge outwards, the stressed push block C3 stops bulging outwards after reaching a certain degree, the cutting blade C4 continues to bulge outwards due to the influence of inertia, so that the swinging blade C42 swings, the sucked aquatic weed blades are cut through a sharp surface and are pushed backwards by water flow, the water flow drops, the stressed push block C3 is attached again, the rebounding frame C43 is pressed, the rebounding frame C43 generates upward thrust, the balloon C44 is pressed to generate jet gas, water residues after cutting are blown outwards through the jet pipe C45, the utility model has the advantages of make it can keep sharp simultaneously when cleaing away the in-process of cutting, avoid the winding of pasture and water residue after the cutting and arouse the cutting inefficacy problem.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a river course cleaning device for hydraulic engineering, its structure is including starting handle (1), telescopic link (2), extractor (3), extraction head (4), its characterized in that:

the bottom surface of the starting handle (1) is fixedly connected with the top surface of the telescopic rod (2), the top surface of the extractor (2) is welded with the bottom surface of the telescopic rod (2), and the bottom surface of the extractor (3) is communicated with the top surface of the extraction head (4) and is fixedly connected with the top surface of the extraction head;

extraction head (4) are including top sucking disc (41), recoil groove (42), chassis (43), top sucking disc (41) inlayer and recoil groove (42) shaping as an organic whole, chassis (43) top surface and top sucking disc (41) bottom surface switch-on each other and through the electric welding connection, top sucking disc (41) top surface and extractor (3) bottom surface switch-on each other and through inlaying solid connection.

2. The river channel cleaning device for the hydraulic engineering of claim 1, wherein: chassis (43) are including interior dish (431), collection way (432), concentrated piece (433), smash frame (434), interior dish (431) bottom surface and collection way (432) top surface switch on each other and through electric welding connection, concentrated piece (433) skin imbeds in collection way (432) inlayer, smash frame (434) both sides and interior dish (431) inlayer swing joint, interior dish (431) top surface and top sucking disc (41) bottom surface switch on each other and through electric welding connection.

3. The river channel cleaning device for the hydraulic engineering of claim 2, wherein: smash frame (434) including installation pole (A1), pressure spring (A2), roller head (A3), crushing piece (A4), installation pole (A1) top surface is embedded with pressure spring (A2) bottom surface and is connected, roller head (A3) center and installation pole (A1) right side activity block, it imbeds in installation pole (A1) middle section to smash piece (A4), roller head (A3) skin and interior closing dish (431) inlayer swing joint.

4. The river channel cleaning device for the hydraulic engineering of claim 3, wherein: smash piece (A4) including swing joint bar (A41), fixed block (A42), leading-in piece (A43), hydraulic wheel (A44), swing joint bar (A41) both sides are embedded in installation pole (A1) middle section, fixed block (A42) outer and swing joint bar (A41) middle section are embedded and are connected admittedly, hydraulic wheel (A44) both sides and fixed block (A42) inlayer activity block, fixed block (A42) upper and lower face and leading-in piece (A43) inlayer are embedded and are connected admittedly.

5. The river channel cleaning device for the hydraulic engineering of claim 4, wherein: the hydraulic wheel (A44) comprises a center wheel (B1), a swinging groove (B2), hydraulic blades (B3) and side supporting strips (B4), wherein the outer ring of the center wheel (B1) is in welded connection with the bottom surface of the swinging groove (B2), the bottom of the hydraulic blades (B3) is embedded into the inner layer of the swinging groove (B2), the top of the side supporting strips (B4) is embedded and fixed with the right side of the hydraulic blades (B3), and the outer layer of the center wheel (B1) is movably clamped with the inner layer of the fixing block (A1).

6. The river channel cleaning device for the hydraulic engineering of claim 5, wherein: the center wheel (B1) comprises a bearing wheel (B11), a leading-in raised head (B12), a swinging hammer head (B13) and a protruding frame (B14), the front side of the bearing wheel (B11) is connected with the back side of the leading-in raised head (B12) in a welding mode, the bottom of the swinging hammer head (B13) is movably clamped with the outer layer of the bearing wheel (B11), two sides of the protruding frame (B14) are movably clamped with the outer layer of the bearing wheel (B11), the outer layer of the bearing wheel (B11) is connected with the bottom surface of a swinging groove (B2) in a welding mode, and the outer layer of the bearing wheel (B11) is movably clamped with the inner layer of a fixing block (A42).

7. The river channel cleaning device for the hydraulic engineering of claim 6, wherein: the protruding frame (B14) comprises an impact head (C1), an upper punch frame (C2), a stressed push block (C3) and a cutting blade (C4), wherein the top surface of the impact head (C1) is fixedly connected with the bottom surface of the upper punch frame (C2), the top surface of the upper punch frame (C2) is movably clamped with the bottom surface of the stressed push block (C3), the left side of the cutting blade (C4) is movably clamped with the left side of the top surface of the stressed push block (C3), and the left side of the top surface of the stressed push block (C3) is movably clamped with the outer layer of the bearing wheel (B11).

8. The river channel cleaning device for the hydraulic engineering of claim 7, wherein: cutting piece (C4) is including shrink strip (C41), swing piece (C42), bounce back frame (C43), ball (C44) of calming anger, injection pipe (C45), swing piece (C42) bottom surface is through shrink strip (C41) and atress ejector pad (C3) right side embedded solid be connected, swing piece (C42) left side and atress ejector pad (C3) top surface right side activity block, bounce back frame (C43) top surface is connected with pressing balloon (C44) skin embedded solid, press balloon (C44) center and swing piece (C42) inlayer embedded solid be connected, injection pipe (C45) right side and pressing balloon (C44) skin interconnect and through embedded solid being connected.

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