CN115198702A - Efficiency of water delivery is improved water delivery groove for hydraulic engineering construction - Google Patents

Abstract

The invention provides a water delivery groove for hydraulic engineering construction, which improves the water delivery efficiency and relates to the technical field of hydraulic engineering, and comprises a main body installation part; a settlement supporting part is fixedly connected to the main body mounting part; the main body mounting part is fixedly connected with a separation filtering device; the main body mounting part is rotatably connected with a driving device; a transverse propelling device is arranged on the main body mounting part; two scraping and cleaning parts are connected to the transverse propelling device in a sliding manner; the two scraping and cleaning parts are symmetrically arranged; the main body mounting part is connected with two collecting devices in a sliding way; the anti-settling supporting effect is better, and meanwhile, impurities can be automatically removed in the process of collecting the impurities; the problem of present construction with the water delivery groove, impurity removal inefficiency, comprehensive inadequately simultaneously, rely on electric power simultaneously, energy-conservation inadequately, whole water delivery inefficiency, whole butt joint is stable inadequately simultaneously, can't realize supporting the regulation, receives the geology to subside to influence greatly is solved.

Description

Efficiency of water delivery is improved water delivery groove for hydraulic engineering construction

Technical Field

The invention relates to the technical field of hydraulic engineering, in particular to a water delivery tank for hydraulic engineering construction, which improves water delivery efficiency.

Background

In the actual hydraulic engineering construction work, the water delivery tank is always an important facility, and due to the close relation of the water delivery tank to the drainage efficiency, the water delivery tank plays an important role in later maintenance and water resource management, so that the water delivery tank for the hydraulic engineering construction, which is good in water delivery efficiency improvement, is very important.

However, as for the water delivery tank for construction at present, the impurity removal efficiency is low, and is not comprehensive enough, relies on electric power simultaneously, and is energy-conserving inadequately, and whole water delivery is inefficient, and whole butt joint is stable inadequately simultaneously, can't realize supporting the regulation, and is practical inadequately, receives the geology to subside to influence greatly, overall structure poor stability, and the life-span is short.

Disclosure of Invention

In view of the above, the invention provides a water delivery tank for hydraulic engineering construction, which improves water delivery efficiency, and has a scraping cleaning part, so that linkage cleaning can be realized, electric driving is not required, water flow energy is fully utilized, and meanwhile, the overall structure is more ingenious, so that drainage efficiency is ensured, automatic cleaning can be realized, the use is more stable, and the overall structure is more durable.

The invention provides a water delivery tank for hydraulic engineering construction, which improves water delivery efficiency and specifically comprises a main body installation part; a settlement supporting part is fixedly connected to the main body mounting part; the main body mounting part is fixedly connected with a separation filtering device; the main body mounting part is rotatably connected with a driving device; a transverse propelling device is arranged on the main body mounting part; two scraping and cleaning parts are connected to the transverse propelling device in a sliding manner; the two scraping cleaning parts are symmetrically arranged; the main body mounting part is connected with two collecting devices in a sliding way; the body mounting portion includes: the water tank comprises a water tank main body, a water guide plate, an installation inserting block, an installation inserting shaft, a fixed magnet, an installation positioning shaft and an installation positioning tension spring, wherein a rectangular groove and two circular holes are formed in the side surface of the water tank main body; four rows of water guide plates are fixedly connected to the water tank main body; every two of the four rows of water guide plates form a group, and the two groups of the four rows of water guide plates are respectively arranged in a splayed shape; the mounting insert block is fixedly connected to the water tank main body; the installation is inserted the axle and is equipped with two, and two installation are inserted axle fixed connection on the basin main part.

Optionally, the collecting means comprises: the water tank comprises two collecting boxes and two collecting magnets, wherein the two collecting boxes are respectively connected to the water tank main body in a sliding manner; collecting magnets are respectively embedded on the two collecting boxes; and the two collecting magnets are respectively connected with the two fixed magnets in a magnetic attraction manner.

Optionally, the settling support comprises: the water tank comprises two driving threaded rods and a running linkage belt, wherein the two driving threaded rods are respectively and rotatably connected to the water tank main body; the two driving threaded rods are respectively provided with a rotating crank; belt wheels are fixedly connected to the two driving threaded rods respectively; and belt wheels on the two driving threaded rods are in transmission connection through a running linkage belt.

Optionally, the lateral pushing device comprises: the water tank comprises a reciprocating screw rod, a sliding stabilizing shaft, a linkage belt wheel, a sliding installation piece and a floating slide block, wherein the reciprocating screw rod is rotatably connected inside a water tank main body; two sides of the reciprocating screw rod are respectively provided with a bidirectional thread; the two sliding stabilizing shafts are respectively and fixedly connected inside the water tank main body; the middle part of the reciprocating screw rod is fixedly connected with a linkage belt wheel, and the linkage belt wheel is connected with a belt wheel in the middle part of the driving main shaft through belt wheel transmission; the reciprocating screw rod is in threaded connection with two sliding installation pieces; the two sliding installation parts are respectively connected to the two sliding stable shafts in a sliding mode; and two sliding installation parts are respectively and fixedly connected with a floating sliding block.

Optionally, the scraping and cleaning part further comprises: the cleaning device comprises a rubber scraping blade, a cleaning brush and a cleaning inclined block, wherein the rubber scraping blade is fixedly connected to a lifting scraping plate; the rubber scraper is attached above the inclined surface box; the cleaning brush is fixedly connected to the lifting scraping plate; the cleaning brush is attached to the separation filter screen plate; the lifting scraping plate is fixedly connected with a cleaning inclined block; the side surface of the cleaning inclined block is of an inclined structure.

Optionally, two fixed magnets are arranged, and the two fixed magnets are fixedly embedded in the inner side of the water tank main body respectively; the two mounting and positioning shafts are respectively connected to the water tank main body in a sliding manner; and the two mounting and positioning shafts are respectively sleeved with a mounting and positioning tension spring, and the two mounting and positioning tension springs are respectively connected between the water tank main body and the mounting and positioning shafts.

Optionally, the scraping cleaning part comprises: the lifting scraping plate is fixedly connected with two lifting installation shafts, and the two lifting installation shafts are respectively sleeved with a lifting spring; the two lifting mounting shafts are connected with floating sliding blocks in a sliding manner; two ends of the two lifting springs are respectively connected between the bottom of the floating slide block and the bottom of the lifting scraping plate.

Optionally, the settling support further comprises: the water tank comprises two sliding threaded sleeves and a supporting sliding plate, wherein the two sliding threaded sleeves are respectively connected to the water tank main body in a sliding manner; the bottoms of the two sliding threaded sleeves are respectively and fixedly connected with a supporting sliding plate.

Optionally, the drive device comprises: the driving main shaft, the rotary pushing frame and the arc shifting piece; the middle part of the driving main shaft is fixedly connected with a belt wheel; the driving main shaft is rotationally connected to the water tank main body; two rotary pushing frames are fixedly connected to the driving main shaft, and six arc-shaped shifting pieces are fixedly connected to the two rotary pushing frames respectively.

Optionally, the separation filter device comprises: the water tank comprises a separation filter screen plate, an inclined surface box and an inclined surface opening, wherein the separation filter screen plate is fixedly connected to a water tank main body; the separation filter screen plate is provided with a through slot; two inclined surface boxes are fixedly connected to the separation filter screen plate, and inclined surface openings are respectively formed in the two inclined surface boxes; the separation filter screen plate is communicated with the inclined plane box.

Advantageous effects

The water delivery tank provided by the invention has the advantages that the structure is simpler and more stable, the overall practicability can be improved in an auxiliary manner, the anti-sedimentation supporting effect is better, the overall drainage is better and smoother, meanwhile, impurities can be automatically removed in the process of collecting the impurities, and the water delivery tank is more practical.

In addition, through setting up the settlement supporting part, the settlement supporting part that the cooperation set up, can effectual improvement holistic connection efficiency, it is simple more convenient to operate simultaneously, the settlement supporting part that sets up can realize supplementary anti support of subsiding, can assist the supporting effect who realizes improving whole basin circuit of sleeping, avoid leading to the circuit sunken because of the geology subsides, influence rivers trafficability characteristic, overall structure is simple more practical, through pulling installation location axle, afterwards, to inserting two water delivery grooves, insert the installation inserted block respectively through two installation location axles, fix a position, it carries out stable positioning to pull installation location axle through installation location extension spring, can rotate the drive threaded rod simultaneously, realize two drive threaded rod rotations of linkage through the interlocking area immediately, realize the slip of the support sliding plate on the drive slip threaded sleeve, realize an adjustable floating support, and is more practical.

In addition, through setting up separation filter equipment, the drive arrangement and the horizontal advancing device that the cooperation set up, can realize that more energy-conserving drive is clean, simultaneously rivers are big silt stone clearance more high-efficient, accord with actual demand more, whole clearance mode can not respond rivers and pass through efficiency yet, through the horizontal advancing device who sets up, can realize linkage reciprocal drive clearance, more high-efficient, when rivers pass through, through the basin main part that sets up, rivers impact arc plectrum this moment, it rotates to drive the driving spindle, driving spindle can drive reciprocal lead screw through the transmission of wheel area and rotate this moment, realize that two slip mounting pieces of drive are reciprocal removal, realize the clearance drive, the structure is ingenious stable, can improve holistic cleaning efficiency simultaneously, the separation filter equipment who sets up simultaneously, through setting up the bevel box, when can realizing supplementary clearance, the arc structure of its setting is also difficult for persisting gravel and sand, therefore, the steam generator is more practical, the overall structure operates stably, long service life.

In addition, through setting up collection device cooperation scraping clearance portion, when can realizing linkage clearance, can assist recovery impurity, it is more practical, adopt the mode of both sides independent collection simultaneously, can not influence holistic rivers trafficability characteristic, overall structure is simple and stable, the clearance of setting is put the piece to one side of the rubber scraping piece of discharging after can being convenient for to sand and stone impurity shovel more, realize releasing impurity, the inclined plane trompil that sets up simultaneously can be convenient for push into the collection box behind the moisture of discharge impurity rubbish when the removal clearance of lift scraping board more, the in-process of reciprocating removal is done at two slip installed parts, can realize driving lift scraping board simultaneous movement, the in-process is under the elastic action of lift spring, make the rubber scraping piece on the lift scraping board can laminate in the inclined plane box in real time, when impurity piles up, can directly stimulate the collection box and come to dismantle the clearance with the collection box, collect the magnetic attraction of magnet and connect the mounting means of two fixed magnets, it is convenient and fast more to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of a water transport trough in its entirety, according to an embodiment of the present invention;

FIG. 2 shows a schematic view of the front side of a water transport trough according to an embodiment of the invention;

FIG. 3 shows a sectional view of the inner structure of a water transport tank according to an embodiment of the present invention;

FIG. 4 shows a schematic view of a body mount according to an embodiment of the invention;

FIG. 5 illustrates a partially enlarged schematic view of a body mount according to an embodiment of the invention;

figure 6 shows a schematic view of a settling support according to an embodiment of the invention;

FIG. 7 shows a schematic view of a separation and filtration apparatus according to an embodiment of the invention;

fig. 8 shows a schematic view of a drive device according to an embodiment of the invention;

FIG. 9 shows a schematic view of a lateral pushing device according to an embodiment of the present invention;

FIG. 10 shows a schematic view of a scraping cleaning section according to an embodiment of the invention;

fig. 11 shows a schematic view of a collecting device according to an embodiment of the invention.

List of reference numerals

1. A main body mounting portion; 101. a sink body; 1011. a water guide plate; 102. installing an inserting block; 103. installing an inserting shaft; 104. fixing a magnet; 105. installing a positioning shaft; 1051. installing a positioning tension spring; 2. a settlement support; 201. driving the threaded rod; 202. operating the linkage belt; 203. a sliding threaded sleeve; 204. supporting the sliding plate; 3. a separation filtration device; 301. separating the filter screen plate; 302. a bevel box; 3021. the inclined plane is provided with a hole; 4. a drive device; 401. driving the main shaft; 402. rotating the propelling frame; 403. an arc-shaped shifting sheet; 5. a transverse propelling device; 501. a reciprocating screw rod; 502. a sliding stabilization shaft; 503. a linkage pulley; 504. a sliding mount; 5041. a floating slider; 6. a scraping cleaning part; 601. lifting the scraping plate; 6011. lifting and mounting shafts; 6012. a lift spring; 602. a rubber blade; 603. cleaning brushes; 604. cleaning the inclined block; 7. a collection device; 701. a collection box; 702. and collecting the magnet.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

The embodiment is as follows: please refer to fig. 1 to fig. 11: the invention provides a water delivery tank for hydraulic engineering construction, which improves the water delivery efficiency and comprises a main body mounting part 1; a settlement supporting part 2 is fixedly connected to the main body mounting part 1; the main body mounting part 1 is fixedly connected with a separation filtering device 3; a driving device 4 is rotatably connected to the main body mounting part 1; a transverse propelling device 5 is arranged on the main body mounting part 1; two scraping and cleaning parts 6 are connected on the transverse propelling device 5 in a sliding way; the two scraping cleaning parts 6 are symmetrically arranged; two collecting devices 7 are connected on the main body mounting part 1 in a sliding way; the main body mounting part 1 includes: the water tank comprises a water tank main body 101, a water guide plate 1011, an installation insertion block 102, an installation insertion shaft 103, a fixed magnet 104, an installation positioning shaft 105 and an installation positioning tension spring 1051, wherein a rectangular groove and two circular holes are formed in the side surface of the water tank main body 101; four rows of water guide plates 1011 are fixedly connected to the water tank main body 101; every two of the four rows of water guide plates 1011 form a group, and the two groups of the four rows of water guide plates 1011 are respectively arranged in a splayed shape; the mounting insert block 102 is fixedly connected to the water tank main body 101; two installation insertion shafts 103 are arranged, and the two installation insertion shafts 103 are fixedly connected to the water tank main body 101.

In addition, according to the embodiment of the present invention, as shown in fig. 4 to 6, two fixed magnets 104 are provided, and the two fixed magnets 104 are fixedly embedded inside the water tub main body 101, respectively; two mounting and positioning shafts 105 are arranged, and the two mounting and positioning shafts 105 are respectively connected to the water tank main body 101 in a sliding manner; the two mounting and positioning shafts 105 are respectively sleeved with a mounting and positioning tension spring 1051, and the two mounting and positioning tension springs 1051 are respectively connected between the water tank main body 101 and the mounting and positioning shafts 105; the settling support 2 includes: the water tank comprises two driving threaded rods 201 and two running linkage belts 202, wherein the two driving threaded rods 201 are respectively and rotatably connected to the water tank main body 101; the two driving threaded rods 201 are respectively provided with a rotating crank; belt wheels are fixedly connected to the two driving threaded rods 201 respectively; the belt wheels on the two driving threaded rods 201 are in transmission connection through a running linkage belt 202; the settling support 2 further comprises: two sliding threaded sleeves 203 and two supporting sliding plates 204 are arranged, the two sliding threaded sleeves 203 are respectively connected to the water tank main body 101 in a sliding manner; the bottom of two slip threaded sleeve 203 is fixedly connected with support sliding plate 204 respectively, subside supporting part 2 through setting up, the subside supporting part 2 that the cooperation set up, can effectual improvement holistic connection efficiency, it is simple more convenient simultaneously to operate, the subside supporting part 2 that sets up can realize supplementary anti support of subsiding, can assist the support effect that realizes improving whole basin circuit of sleeping, avoid leading to the circuit sunken because of the geology subsides, influence rivers trafficability characteristic, overall structure is more simple and practical, through pulling installation location axle 105, afterwards, with two water delivery grooves to inserting, insert installation inserted block 102 respectively through two installation location axles 105, fix a position, it fixes a position to promote installation location axle 105 through installation location extension spring 1051 and carry out stable location, can rotate drive threaded rod 201 simultaneously, realize two drive threaded rod 201 rotations of linkage through linkage area 202 immediately, realize that support sliding plate 204 on the slip threaded sleeve 203 slides, realize an adjustable floating support, and be more practical.

Further, according to an embodiment of the present invention, as shown in fig. 7 to 9, the separation and filtration device 3 includes: the water tank comprises a separation filter screen plate 301, a slope box 302 and a slope opening 3021, wherein the separation filter screen plate 301 is fixedly connected to the water tank main body 101; a through slot is arranged on the separation filter screen plate 301; two inclined surface boxes 302 are fixedly connected to the separation filter screen plate 301, and inclined surface openings 3021 are respectively formed in the two inclined surface boxes 302; the separation filter screen plate 301 is communicated with the inclined plane box 302; the drive device 4 includes: a driving main shaft 401, a rotary pushing frame 402 and an arc-shaped shifting piece 403; the middle part of the driving main shaft 401 is fixedly connected with a belt wheel; the driving main shaft 401 is rotatably connected to the water tank main body 101; two rotary pushing frames 402 are fixedly connected to the driving spindle 401, and six arc-shaped shifting pieces 403 are respectively and fixedly connected to the two rotary pushing frames 402; the transverse pushing device 5 comprises: the water tank comprises a reciprocating screw rod 501, a sliding stabilizing shaft 502, a linkage belt pulley 503, a sliding installation piece 504 and a floating slide block 5041, wherein the reciprocating screw rod 501 is rotatably connected inside the water tank main body 101; two sides of the reciprocating screw rod 501 are respectively provided with two-way threads; two sliding stabilizing shafts 502 are arranged, and the two sliding stabilizing shafts 502 are respectively and fixedly connected inside the water tank main body 101; the middle part of the reciprocating screw rod 501 is fixedly connected with a linkage belt wheel 503, and the linkage belt wheel 503 is connected with a belt wheel in the middle part of the driving main shaft 401 through belt wheel transmission; two sliding installation pieces 504 are connected to the reciprocating screw rod 501 through threads; the two sliding mounting members 504 are respectively connected to the two sliding stabilization shafts 502 in a sliding manner; respectively fixedly connected with slider 5041 that floats on two slip installed parts 504, through setting up separation filter equipment 3, drive arrangement 4 and horizontal advancing device 5 that the cooperation set up, it is clean to realize more energy-conserving drive, simultaneously rivers are big silt stone clearance more high-efficient more, accord with actual demand more, whole clearance mode can not respond rivers and pass through efficiency yet, horizontal advancing device 5 through setting up, can realize linkage reciprocal drive clearance, it is more high-efficient, when rivers pass through, through the basin main part 101 that sets up, rivers impact arc plectrum 403 this moment, it rotates to drive main shaft 401, drive main shaft 401 can drive reciprocal lead screw 501 through the transmission in wheel area this moment and rotate, realize that two slip installed parts 504 of drive are reciprocal removal, realize the clearance drive, the structure is ingenious stable, can improve holistic clearance efficiency simultaneously, separation filter equipment 3 that sets up simultaneously, through setting up bevel box 302, when can realize supplementary clearance, the arc structure that its set up is difficult for remaining gravel and sand, it is more practical, the overall structure operates stably, long service life.

Further, according to the embodiment of the present invention, as shown in fig. 10, 11, the scraping and cleaning section 6 includes: the device comprises a lifting scraping plate 601, lifting installation shafts 6011 and lifting springs 6012, wherein the lifting scraping plate 601 is fixedly connected with the two lifting installation shafts 6011, and the two lifting installation shafts 6011 are respectively sleeved with the lifting springs 6012; the two lifting mounting shafts 6011 are slidably connected with a floating slider 5041; two ends of the two lifting springs 6012 are respectively connected between the bottom of the floating slider 5041 and the bottom of the lifting scraping plate 601; the scraping cleaning section 6 further includes: the cleaning device comprises a rubber blade 602, a cleaning brush 603 and a cleaning inclined block 604, wherein the rubber blade 602 is fixedly connected to a lifting scraping plate 601; a rubber blade 602 is attached above the bevel box 302; the cleaning brush 603 is fixedly connected to the lifting scraping plate 601; the cleaning brush 603 is attached to the separation filter screen plate 301; a cleaning inclined block 604 is fixedly connected to the lifting scraping plate 601; the side surface of the cleaning inclined block 604 is of an inclined structure; the collecting device 7 includes: two collecting boxes 701 and two collecting magnets 702 are arranged, wherein the two collecting boxes 701 are respectively connected to the water tank main body 101 in a sliding manner; the two collecting boxes 701 are respectively embedded with a collecting magnet 702; two collection magnets 702 are respectively connected with two fixed magnets 104 by magnetic attraction, through setting up collection device 7 cooperation scraping cleaning part 6, when can realize linkage clearance, can assist and retrieve impurity, and is more practical, adopt the mode of both sides independent collection simultaneously, can not influence holistic rivers trafficability characteristic, overall structure is simple and stable, the clearance of setting is put piece 604 to one side of rubber scraping blade 602 after can being convenient for to sand and stone impurity shovel, realize releasing, the inclined plane trompil 3021 that sets up simultaneously can be convenient for push collection box 701 behind the moisture of discharging impurity rubbish when going up and down scraping plate 601 removal clearance more, do reciprocating removal's in-process at two slip installed parts 504, can realize driving and go up and down scraping plate 601 and remove simultaneously, the in-process is under the elastic action of lift spring 6012, make the rubber scraping blade 602 on the lifting scraping plate 601 laminate in inclined plane box 302 in real time, when impurity pile up, can directly stimulate collection box 701 to come to collect box 701 and dismantle the clearance, collect the swift mounting means that magnet 104 is connected, it is convenient more to use.

The specific use mode and function of the embodiment are as follows: according to the invention, firstly, the water delivery tank is placed in a groove preset on the ground, the installation positioning shaft 105 is pulled, then, the two water delivery tanks are oppositely inserted, the installation insertion blocks 102 are respectively inserted through the two installation positioning shafts 105 for positioning, the installation positioning shaft 105 is pulled through the installation positioning tension spring 1051 for stable positioning, the driving threaded rod 201 can be rotated, the linkage of the two driving threaded rods 201 is realized through the linkage belt 202, the sliding of the supporting sliding plate 204 on the sliding threaded sleeve 203 is realized, the adjustable floating support is realized, the water flow passes through the water tank main body 101, the arc-shaped shifting sheet 403 is impacted by the water flow at the moment, the driving main shaft 401 drives the reciprocating screw rod 501 to rotate through the transmission of the wheel belt, the reciprocating movement of the two sliding installation pieces 504 is realized, the lifting scraping plate 601 can be driven to simultaneously move in the reciprocating movement process of the two sliding installation pieces 504, the rubber scraping blade 602 on the lifting scraping plate 601 can be attached to the face box 302 in real time under the elastic action of the lifting spring 6012, the water collection box 701 can be directly pulled in the process of collecting and the water delivery tank 701 can be finally used for the inclined water delivery engineering process of completing the water delivery process of the water conservancy collection and the water conservancy project.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. A water delivery tank for hydraulic engineering construction for improving water delivery efficiency is characterized by comprising a main body mounting part (1); a settlement supporting part (2) is fixedly connected to the main body mounting part (1); a separation filtering device (3) is fixedly connected to the main body mounting part (1); a driving device (4) is rotatably connected to the main body mounting part (1); a transverse propelling device (5) is arranged on the main body mounting part (1); two scraping and cleaning parts (6) are connected on the transverse propelling device (5) in a sliding way; the two scraping and cleaning parts (6) are symmetrically arranged; the main body mounting part (1) is connected with two collecting devices (7) in a sliding way; the main body mounting part (1) includes: the water tank comprises a water tank main body (101), a water guide plate (1011), an installation insertion block (102) and an installation insertion shaft (103), wherein a rectangular groove and two circular holes are formed in the side surface of the water tank main body (101); four rows of water guide plates (1011) are fixedly connected to the water tank main body (101); every two of the four rows of water guide plates (1011) form a group, and the two groups of the four rows of water guide plates (1011) are respectively arranged in a splayed shape; the mounting insertion block (102) is fixedly connected to the water tank main body (101); two installation inserting shafts (103) are arranged, and the two installation inserting shafts (103) are fixedly connected to the water tank main body (101).

2. The water delivery tank for hydraulic engineering construction for improving the water delivery efficiency as claimed in claim 1, wherein: the main body mounting part (1) further includes: a fixed magnet (104), a mounting positioning shaft (105) and a mounting positioning tension spring (1051); two fixed magnets (104) are arranged, and the two fixed magnets (104) are respectively and fixedly embedded in the inner side of the water tank main body (101); the number of the mounting and positioning shafts (105) is two, and the two mounting and positioning shafts (105) are respectively connected to the water tank main body (101) in a sliding manner; the two mounting and positioning shafts (105) are respectively sleeved with a mounting and positioning tension spring (1051), and the two mounting and positioning tension springs (1051) are respectively connected between the water tank main body (101) and the mounting and positioning shafts (105).

3. The water delivery tank for hydraulic engineering construction for improving the water delivery efficiency as claimed in claim 1, wherein: the settling support (2) comprises: the water tank comprises two driving threaded rods (201) and two operation linkage belts (202), wherein the two driving threaded rods (201) are respectively and rotatably connected to a water tank main body (101); the two driving threaded rods (201) are respectively provided with a rotating crank; belt wheels are fixedly connected to the two driving threaded rods (201) respectively; the belt wheels on the two driving threaded rods (201) are in transmission connection through a running linkage belt (202).

4. A water delivery trough for hydraulic engineering construction for improving water delivery efficiency according to claim 3, wherein: the drop support (2) further comprises: the water tank comprises two sliding threaded sleeves (203) and a support sliding plate (204), wherein the two sliding threaded sleeves (203) are respectively connected to the water tank main body (101) in a sliding manner; the bottoms of the two sliding threaded sleeves (203) are respectively fixedly connected with a supporting sliding plate (204).

5. The water delivery tank for hydraulic engineering construction for improving the water delivery efficiency according to claim 1, characterized in that: the separation and filtration device (3) comprises: the water tank comprises a separation filter screen plate (301), a slope box (302) and a slope opening (3021), wherein the separation filter screen plate (301) is fixedly connected to a water tank main body (101); a through slot is arranged on the separation filter screen plate (301); two inclined surface boxes (302) are fixedly connected to the separation filter screen plate (301), and inclined surface openings (3021) are respectively formed in the two inclined surface boxes (302); the separation filter screen plate (301) is communicated with the inclined plane box (302).

6. The water delivery tank for hydraulic engineering construction for improving water delivery efficiency as claimed in claim 5, wherein: the drive device (4) comprises: the device comprises a driving main shaft (401), a rotary pushing frame (402) and an arc-shaped shifting piece (403); the middle part of the driving main shaft (401) is fixedly connected with a belt wheel; the driving main shaft (401) is rotationally connected to the water tank main body (101); two rotary pushing frames (402) are fixedly connected to the driving main shaft (401), and six arc-shaped shifting pieces (403) are fixedly connected to the two rotary pushing frames (402) respectively.

7. The water delivery tank for hydraulic engineering construction for improving the water delivery efficiency as claimed in claim 6, wherein: the transverse pushing device (5) comprises: the water tank comprises a reciprocating screw rod (501), a sliding stabilizing shaft (502), a linkage belt wheel (503), a sliding installation piece (504) and a floating sliding block (5041), wherein the reciprocating screw rod (501) is rotatably connected inside a water tank main body (101); two sides of the reciprocating screw rod (501) are respectively provided with two-way threads; the number of the sliding stabilizing shafts (502) is two, and the two sliding stabilizing shafts (502) are respectively and fixedly connected to the inner part of the water tank main body (101); the middle part of the reciprocating screw rod (501) is fixedly connected with a linkage belt wheel (503), and the linkage belt wheel (503) is connected with a belt wheel in the middle part of the driving main shaft (401) through belt wheel transmission; two sliding installation pieces (504) are connected to the reciprocating screw rod (501) in a threaded manner; the two sliding installation parts (504) are respectively connected on the two sliding stabilization shafts (502) in a sliding mode; and floating sliding blocks (5041) are fixedly connected to the two sliding mounting pieces (504) respectively.

8. A water delivery trough for hydraulic engineering construction for improving water delivery efficiency according to claim 7, wherein: the scraping and cleaning part (6) comprises: the device comprises a lifting scraping plate (601), lifting installation shafts (6011) and lifting springs (6012), wherein the lifting scraping plate (601) is fixedly connected with the two lifting installation shafts (6011), and the two lifting installation shafts (6011) are respectively sleeved with the lifting springs (6012); and the two lifting mounting shafts (6011) are connected with a floating sliding block (5041) in a sliding manner.

9. The water delivery tank for hydraulic engineering construction for improving water delivery efficiency as claimed in claim 8, wherein: the scraping cleaning part (6) further comprises: the cleaning device comprises a rubber scraping blade (602), a cleaning brush (603) and a cleaning inclined block (604), wherein the rubber scraping blade (602) is fixedly connected to a lifting scraping plate (601); the rubber scraper blade (602) is attached above the inclined surface box (302); the cleaning brush (603) is fixedly connected to the lifting scraping plate (601); the cleaning brush (603) is attached to the separation filter screen plate (301); a cleaning inclined block (604) is fixedly connected to the lifting scraping plate (601); the side surface of the cleaning inclined block (604) is of an inclined structure.

10. The water delivery tank for hydraulic engineering construction for improving the water delivery efficiency as claimed in claim 1, wherein: the collecting device (7) comprises: the water tank comprises two collecting boxes (701) and two collecting magnets (702), wherein the two collecting boxes (701) are respectively connected to the water tank main body (101) in a sliding manner; collecting magnets (702) are respectively embedded on the two collecting boxes (701); the two collecting magnets (702) are respectively connected with the two fixed magnets (104) in a magnetic attraction manner.

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