CN112474299A

CN112474299A - Fine sand desilting and collecting device for engineering building

Info

Publication number: CN112474299A
Application number: CN202011413515.6A
Authority: CN
Inventors: 李松
Original assignee: Wenzhou Yizhu Trade Co ltd
Current assignee: Wenzhou Yizhu Trade Co ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-03-12

Abstract

The invention discloses a fine sand desilting and collecting device for engineering construction, which comprises a main body frame, wherein a feeding work box is fixedly connected to the outer wall of the main body frame, one side of the feeding work box is positioned on the outer wall of the main body frame and is fixedly connected with a vibrating work box, one side of the vibrating work box, which is far away from the feeding work box, is positioned on the outer wall of the main body frame and is fixedly connected with a rotating work box, a driving roller is installed at the output end of a first motor, a conveying belt is wound on the outer wall of the driving roller, a connecting rod is arranged in the feeding work box, a pneumatic push rod works to drive a push block to move, the push block drives a rotating plate to rotate through a groove, the rotating plate drives a second connecting rod to move through a rotating plate and further drives a first connecting rod to move, the first connecting rod drives the connecting rod to move, the rotating angle of the connecting rod is 90 degrees, realize fine sand desilting collection device's automatic feeding operation.

Description

Fine sand desilting and collecting device for engineering building

Technical Field

The invention relates to the technical field of fine sand dredging, in particular to a fine sand dredging and collecting device for engineering construction.

Background

In recent years, due to the rapid development of basic construction engineering in China, qualified sand sources used in civil construction engineering are gradually exhausted, the quality of the existing sand sources is poor, particularly the grain grading is poor, fine sand grains are more, coarse grains are less, the engineering use requirements are difficult to meet, and further screening treatment is needed.

Need use fine sand desilting collection device to fine sand collection, but the problem that can't carry out screening operation many times appears in current fine sand desilting collection device, and work efficiency is low, for this reason we provide a fine sand desilting collection device for engineering building.

Disclosure of Invention

The invention aims to provide a fine sand dredging and collecting device for engineering construction, which solves the problem that multiple screening operations cannot be carried out in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a fine sand dredging and collecting device for engineering construction comprises a main body frame, wherein a feeding work box is fixedly connected to the outer wall of the main body frame, one side of the feeding work box is located on the outer wall of the main body frame and is fixedly connected with a vibration work box, one side, away from the feeding work box, of the vibration work box is located on the outer wall of the main body frame and is fixedly connected with a rotation work box, one side, away from the vibration work box, of the rotation work box is located on the outer wall of the main body frame and is fixedly connected with a first motor, a driving roller is installed at the output end of the first motor, a conveying belt is wound on the outer wall of the driving roller, a first driven roller is rotatably connected to the inner wall of the main body frame inside a conveying belt above the driving roller, a second driven roller is rotatably connected to the inner wall of the main body frame inside a conveying belt on one side of the first driven, the inner wall fixedly connected with water tank that the inside of conveyer belt is located main body frame, and the outside welding that the bottom of water tank extends to main body frame has the delivery port.

Preferably, the outer wall of drive roll, the outer wall of first driven voller, the outer wall of second driven voller and the outer wall of third driven voller all twine the conveyer belt, and the top conveyer belt of first driven voller and second driven voller is 30 with main body frame bottom contained angle.

Preferably, the feeding work box comprises a pneumatic push rod, a push block, a rotating plate, a groove, a first connecting rod, a rotating plate, a second connecting rod, a connecting rod and a feeding table, the pneumatic push rod is fixedly connected to the inner wall of the feeding work box, the push block is installed at the output end of the pneumatic push rod, the rotating plate is screwed to the inner wall, located on the main body frame, of the end, far away from the pneumatic push rod, of the push block, the groove is formed in the connecting portion of the rotating plate and the push block, the first connecting rod is screwed to the middle of the rotating plate, the rotating plate is screwed to the inner wall, located on the main body frame, of the first connecting rod, the second connecting rod is screwed to the end, far away from the rotating plate, of the rotating plate, the connecting rod is screwed to the connecting portion of the first connecting rod, and the feeding table.

Preferably, the connecting rods form a rotating structure through the first connecting rod and the main body frame, the rotating angle of the connecting rods is 90 degrees, the second connecting rod is parallel to the upper half portion of the first connecting rod, two groups of connecting rods are arranged, and the positions of the two groups of connecting rods are symmetrical relative to the feeding table.

Preferably, the vibration working box comprises a second motor, a rotary table, a guide post, a guide ball, a vibrating block, a vibrating rod, a connecting block, a first filter plate, a first guide pipe, a second filter plate and a second guide pipe, wherein the inner wall of the vibration working box is fixedly connected with the second motor, the output end of the second motor is provided with the rotary table, the top end of the rotary table is fixedly connected with the guide post, the top end of the guide post is welded with the guide ball, the outer wall of the guide ball is slidably connected with the vibrating block, the top end of the vibrating block is fixedly connected with the vibrating rod which is screwed with the inner wall of the vibration working box, one end of the vibrating rod, far away from the vibrating block, is fixedly connected with the connecting block, the top end of the connecting block is welded with the first filter plate, the bottom end of the first filter plate extends to the outside of the main body frame and is fixedly connected with, and the bottom end of the second filter plate extends to the outside of the main body frame and is fixedly connected with a second guide pipe.

Preferably, the axis of guide post is parallel with the axis of carousel, and the axis distance of the axis of guide post to the carousel equals with the diameter of guide ball, the vibrating mass passes through to constitute rotatory extending structure between guide ball and the vibration work box, and the rotation angle of vibrating mass is 30, the flexible length of vibrating mass equals with the diameter of guide ball.

Preferably, first filter parallels with the second filter, and the inclination of first filter and second filter is 30, the filtration pore has all been seted up with the second filter to first filter, and the filtration pore diameter of crossing of first filter is greater than the filtration pore diameter of crossing of second filter.

Preferably, the rotation work box includes third motor, pivot, rotation sloping block, swivel becket, rotating link, rotation support pole and rinsing mouth, the inner wall fixedly connected with third motor of rotation work box, and the output of third motor installs the pivot, the outer wall fixedly connected with of pivot rotates the sloping block, and the outer wall of rotating the sloping block has connect the swivel becket soon, the middle fixedly connected with rotating link of swivel becket, and the bottom of rotating link has connect the rotation support pole soon, the outer wall fixedly connected with rinsing mouth of rotation support pole.

Preferably, it is connected for the solid with the pivot to rotate the sloping block, and rotates the contained angle of sloping block and pivot and be 60, the swivel becket constitutes revolution mechanic through rotating between sloping block and the rotation work box, and the turned angle of swivel becket is 60, the rinsing mouth is provided with three groups, and three groups rinsing mouth evenly distributed are at the outer wall that rotates the bracing piece.

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

1. this fine sand desilting collection device for engineering building, through setting up the connecting rod, in the material loading work box, pneumatic push rod work drives the ejector pad motion, and the ejector pad passes through the recess and drives the rotor plate and rotate, and the rotor plate drives the motion of second connecting rod and then drives the motion of first connecting rod through the rotor plate, and the motion of connecting rod is driven to first connecting rod, and the rotation angle of connecting rod is 90, and the connecting rod drives the motion of material loading platform, realizes fine sand desilting collection device's automatic feeding operation.

2. This fine sand desilting collection device for engineering building, through setting up the guide ball, in the vibration work box, second motor work drives the carousel and rotates, the carousel passes through the guide post and drives the guide ball motion, the axis of guide post is parallel with the axis of carousel, and the axis distance of the axis of guide post to the carousel equals with the diameter of guide ball, the guide ball passes through the vibrating mass and drives the vibrating arm motion, the vibrating mass drives the vibrating arm and is rotatory concertina movement, the vibration operation to first filter and second filter has been realized.

3. This fine sand desilting collection device for engineering building, through setting up the connecting block, the vibrating mass drives the vibrating arm and is rotatory concertina movement, and the vibrating arm passes through the connecting block and drives first filter and second filter motion, and first filter parallels with the second filter, and the inclination of first filter and second filter is 30, is convenient for realize carrying out repeated screening operation to fine sand.

4. This fine sand desilting collection device for engineering building rotates the sloping block through setting up, rotates in the work box, and third motor work drives the pivot and rotates, and the pivot drives the swivel becket motion through rotating the sloping block, rotates the contained angle of sloping block and pivot and is 60, and the swivel becket passes through rotatory connecting rod and drives the motion of rotation support rod, rotates the motion of support rod drive rinsing mouth, realizes the change of rinsing mouth to conveying belt angle, is convenient for carry out the rinsing operation to fine sand.

Drawings

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

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

FIG. 3 is a schematic view of the structure of the water tank and the conveyor belt of the present invention;

FIG. 4 is a schematic structural view of a feeding work box according to the present invention;

FIG. 5 is a schematic view of the structure of the vibrating chamber of the present invention;

FIG. 6 is a schematic view of the structure of the rotary work box of the present invention.

In the figure: 1. a main body frame; 2. a feeding work box; 201. a pneumatic push rod; 202. a push block; 203. a rotating plate; 204. a groove; 205. a first link; 206. a rotating plate; 207. a second link; 208. a connecting rod; 209. a feeding table; 3. vibrating the work box; 301. a second motor; 302. a turntable; 303. a guide post; 304. a guide ball; 305. vibrating the block; 306. a vibrating rod; 307. connecting blocks; 308. a first filter plate; 309. a first draft tube; 310. a second filter plate; 311. a second draft tube; 4. rotating the work box; 401. a third motor; 402. a rotating shaft; 403. rotating the inclined block; 404. a rotating ring; 405. rotating the connecting rod; 406. rotating the support rod; 407. rinsing the opening; 5. a first motor; 6. a drive roll; 7. a conveyor belt; 8. a first driven roller; 9. a second driven roller; 10. a third driven roller; 11. a water tank; 12. and (7) a water outlet.

Detailed Description

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

Referring to fig. 1 to 6, in an embodiment of the present invention, a fine sand dredging and collecting device for engineering construction includes a main body frame 1, a feeding work box 2 is fixedly connected to an outer wall of the main body frame 1, the feeding work box 2 includes a pneumatic push rod 201, a push block 202, a rotating plate 203, a groove 204, a first connecting rod 205, a rotating plate 206, a second connecting rod 207, a connecting rod 208 and a feeding table 209, the inner wall of the feeding work box 2 is fixedly connected with the pneumatic push rod 201, an output end of the pneumatic push rod 201 is provided with the push block 202, one end of the push block 202, which is far away from the pneumatic push rod 201, is located on the inner wall of the main body frame 1 and is rotatably connected with the rotating plate 203, the connecting portion of the rotating plate 203 and the push block 202 is provided with the groove 204, the first connecting rod 205 is rotatably connected in the middle of the rotating plate 203, the rotating plate 206 is rotatably connected in the middle of the first connecting rod 205, one end of the, and the connecting rod 208 is screwed to the connecting part of the first connecting rod 205 and one end of the second connecting rod 207 far from the rotating plate 206, the top end of the connecting rod 208 is welded with the feeding platform 209, the connecting rod 208 forms a rotating structure with the main body frame 1 through the first connecting rod 205, the rotating angle of the connecting rod 208 is 90 degrees, the second connecting rod 207 is parallel to the upper half part of the first connecting rod 205, two groups of connecting rods 208 are arranged, the positions of the two groups of connecting rods 208 are symmetrical relative to the feeding platform 209, the feeding platform 209 is driven to rotate 90 degrees through the connecting rod 208, stable feeding operation of fine sand is realized, automatic feeding operation of fine sand desilting is facilitated by arranging the feeding work box 2, one side of the feeding work box 2 is positioned on the outer wall of the main body frame 1 and is fixedly connected with the vibrating work box 3, and the vibrating work box 3 comprises a second motor 301, a turntable 302, a guide column 303, a guide ball, A vibrating rod 306, a connecting block 307, a first filter plate 308, a first guide pipe 309, a second filter plate 310 and a second guide pipe 311, wherein the inner wall of the vibration working box 3 is fixedly connected with a second motor 301, the output end of the second motor 301 is provided with a turntable 302, the top end of the turntable 302 is fixedly connected with a guide column 303, the top end of the guide column 303 is welded with a guide ball 304, the outer wall of the guide ball 304 is slidably connected with a vibrating block 305, the central axis of the guide column 303 is parallel to the central axis of the turntable 302, the distance from the central axis of the guide column 303 to the central axis of the turntable 302 is equal to the diameter of the guide ball 304, the vibrating block 305 forms a rotary telescopic structure with the vibration working box 3 through the guide ball 304, the rotating angle of the vibrating block 305 is 30 degrees, the telescopic length of the vibrating block 305 is equal to the diameter of the guide ball 304, the vibrating rod 306 is driven by the vibrating block 305 to realize, and the top of the vibrating block 305 is fixedly connected with a vibrating rod 306 which is screwed with the inner wall of the vibrating work box 3, one end of the vibrating rod 306 far away from the vibrating block 305 is fixedly connected with a connecting block 307, the top of the connecting block 307 is welded with a first filter plate 308, the bottom end of the first filter plate 308 extends to the outside of the main body frame 1 and is fixedly connected with a first guide pipe 309, one end of the connecting block 307 far away from the first filter plate 308 is fixedly connected with a second filter plate 310, the first filter plate 308 is parallel to the second filter plate 310, the inclination angles of the first filter plate 308 and the second filter plate 310 are both 30 degrees, the first filter plate 308 and the second filter plate 310 are both provided with filter holes, the diameter of the filter holes of the first filter plate 308 is larger than that of the second filter plate 310, a copper drum is provided with the first filter plate 308 and the second filter plate 310, so as to realize repeated filtering operation, and the bottom end of the, the filtering operation of fine sand dredging is realized by arranging the vibration working box 3, one side of the vibration working box 3, which is far away from the feeding working box 2, is positioned on the outer wall of the main body frame 1 and is fixedly connected with a rotation working box 4, the rotation working box 4 comprises a third motor 401, a rotating shaft 402, a rotation inclined block 403, a rotating ring 404, a rotating connecting rod 405, a rotation supporting rod 406 and a rinsing port 407, the inner wall of the rotation working box 4 is fixedly connected with the third motor 401, the output end of the third motor 401 is provided with the rotating shaft 402, the outer wall of the rotating shaft 402 is fixedly connected with the rotation inclined block 403, the outer wall of the rotation inclined block 403 is screwed with the rotating ring 404, the middle of the rotating ring 404 is fixedly connected with the rotating connecting rod 405, the bottom end of the rotating connecting rod 405 is screwed with the rotation supporting rod 406, the outer wall of the rotation supporting rod 406 is fixedly connected with the rinsing port 407, the rotation inclined block 403 is, the rotating ring 404 forms a rotating structure through the rotating inclined block 403 and the rotating work box 4, the rotating angle of the rotating ring 404 is 60 degrees, three groups of rinsing ports 407 are arranged, the three groups of rinsing ports 407 are uniformly distributed on the outer wall of the rotating support rod 406, the rotating operation of the rinsing ports 407 is realized through the arrangement of the rotating ring 404, the angle adjustment operation of the rinsing ports 407 is facilitated, the fine sand rinsing operation is realized through the arrangement of the rotating work box 4, one side, far away from the vibrating work box 3, of the rotating work box 4 is positioned on the outer wall of the main body frame 1 and is fixedly connected with a first motor 5, the output end of the first motor 5 is provided with a driving roller 6, the outer wall of the driving roller 6 is wound with a conveyor belt 7, the inner wall of the main body frame 1, above the conveyor belt 7 of the driving roller 6 is rotatably connected with a first driven roller 8, the outer wall of the driving roller 6, the outer wall of the first driven roller 8, the outer wall of the, and the top conveyer belt 7 of first driven voller 8 and second driven voller 9 is 30 with 1 bottom contained angle of main body frame, it moves to drive conveyer belt 7 through drive roll 6, realize the transport operation to fine sand, and the angle of the working face of conveyer belt 7 is 30, be convenient for realize the repeated collection operation to fine sand, and the inside of one side conveyer belt 7 of first driven voller 8 is located main body frame 1 inner wall and has connect second driven voller 9 soon, the inside that the below of second driven voller 9 is located conveyer belt 7 is located main body frame 1 inner wall and has connect third driven voller 10 soon, the inside that is located main body frame 1 of conveyer belt 7 is connected with water tank 11 fixedly, and the bottom of water tank 11 has delivery port 12 to the outside welding of main body frame 1.

The working principle of the invention is as follows: when the fine sand desilting and collecting device for engineering buildings is used, firstly, a feeding operation is carried out, raw materials are placed on a feeding table 209, then in a feeding work box 2, a pneumatic push rod 201 works to drive a push block 202 to move, the push block 202 drives a rotating plate 203 to rotate through a groove 204, the rotating plate 203 drives a second connecting rod 207 through a rotating plate 206 to move to drive a first connecting rod 205 to move, the first connecting rod 205 drives a connecting rod 208 to move, the connecting rod 208 drives the feeding table 209 to move, the raw materials are poured onto a first filter plate 308 in a main body frame 1, the automatic feeding operation of the fine sand desilting and collecting device is realized, then, the raw materials are subjected to a vibration filtering operation, in a vibration work box 3, a second motor 301 works to drive a rotating disc 302 to rotate, the rotating disc 302 drives a guide ball 304 to move through a guide column 303, the guide ball 304 drives a vibration rod 306 to move through a vibration block 305, the vibration rod 306 drives the first filter plate 308 and a second filter plate 310 to, the raw materials are filtered, then the raw materials which are not filtered are collected through the first draft tube 309 and the second draft tube 311, the repeated screening operation is carried out, then, the raw material enters the conveyor belt 7 through the second filter plate 310, the first motor 5 rotates to drive the driving roller 6 to move, the driving roller 6 drives the conveyor belt 7 to move through the first driven roller 8, the second driven roller 9 and the third driven roller 10, the raw material is rinsed, and the raw material rotates in the work box 4, the third motor 401 operates to drive the rotating shaft 402 to rotate, the rotating shaft 402 drives the rotating ring 404 to move through the rotating inclined block 403, the rotating ring 404 drives the rotating support rod 406 to move through the rotating connecting rod 405, the rotating support rod 406 drives the rinsing port 407 to move, rinsing and screening the fine sand are realized by changing the angle of the rinsing port 407 to the conveyor belt 7, and then the fine sand is subjected to blanking operation through the conveyor belt 7.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a fine sand desilting collection device for engineering building, includes main body frame (1), its characterized in that: the outer wall of the main body frame (1) is fixedly connected with a feeding work box (2), one side of the feeding work box (2) is located on the outer wall of the main body frame (1) and is fixedly connected with a vibration work box (3), one side, away from the feeding work box (2), of the vibration work box (3) is located on the outer wall of the main body frame (1) and is fixedly connected with a rotating work box (4), one side, away from the vibration work box (3), of the rotating work box (4) is located on the outer wall of the main body frame (1) and is fixedly connected with a first motor (5), the output end of the first motor (5) is provided with a driving roller (6), the outer wall of the driving roller (6) is wound with a conveying belt (7), the inner wall of the upper conveying belt (7) of the driving roller (6) is located on the main body frame (1) and is rotatably connected with a first driven roller (8), and the inner wall of one side conveying belt (7) of the first driven, the inside that the below of second driven roller (9) is located conveyer belt (7) is located main body frame (1) inner wall and has connect third driven roller (10) soon, the inside of conveyer belt (7) is located the inner wall fixedly connected with water tank (11) of main body frame (1), and the outside welding that the bottom of water tank (11) extends to main body frame (1) has delivery port (12).

2. The fine sand dredging and collecting device for engineering construction according to claim 1, characterized in that: the outer wall of drive roll (6), the outer wall of first driven voller (8), the outer wall of second driven voller (9) and the outer wall of third driven voller (10) all twine conveyer belt (7), and top conveyer belt (7) and main body frame (1) bottom contained angle of first driven voller (8) and second driven voller (9) are 30.

3. The fine sand dredging and collecting device for engineering construction according to claim 1, characterized in that: the feeding working box (2) comprises a pneumatic push rod (201), a push block (202), a rotating plate (203), a groove (204), a first connecting rod (205), a rotating plate (206), a second connecting rod (207), a connecting rod (208) and a feeding table (209), the inner wall of the feeding working box (2) is fixedly connected with the pneumatic push rod (201), the push block (202) is installed at the output end of the pneumatic push rod (201), one end, far away from the pneumatic push rod (201), of the push block (202) is located on the inner wall of the main body frame (1) and is screwed with the rotating plate (203), the groove (204) is formed in the connecting portion of the rotating plate (203) and the push block (202), the first connecting rod (205) is screwed in the middle of the rotating plate (203), the rotating plate (206) is screwed with the rotating plate (206) in the inner wall of the main body frame (1) in the middle of the first connecting rod (205), and the second connecting rod (207) is screwed in the end, far, and a connecting rod (208) is screwed at the connecting part of one end of the second connecting rod (207), which is far away from the rotating plate (206), and the first connecting rod (205), and a feeding platform (209) is welded at the top end of the connecting rod (208).

4. The fine sand dredging and collecting device for engineering and construction according to claim 3, wherein: the connecting rod (208) forms a rotating structure through the first connecting rod (205) and the main body frame (1), the rotating angle of the connecting rod (208) is 90 degrees, the second connecting rod (207) is parallel to the upper half portion of the first connecting rod (205), two groups of connecting rods (208) are arranged, and the positions of the two groups of connecting rods (208) are symmetrical relative to the feeding table (209).

5. The fine sand dredging and collecting device for engineering construction according to claim 1, characterized in that: the vibration working box (3) comprises a second motor (301), a rotary table (302), guide columns (303), guide balls (304), a vibrating block (305), a vibrating rod (306), a connecting block (307), a first filter plate (308), a first guide pipe (309), a second filter plate (310) and a second guide pipe (311), wherein the inner wall of the vibration working box (3) is fixedly connected with the second motor (301), the rotary table (302) is installed at the output end of the second motor (301), the guide columns (303) are fixedly connected to the top end of the rotary table (302), the guide balls (304) are welded to the top end of the guide columns (303), the vibrating block (305) is slidably connected to the outer wall of the guide balls (304), the vibrating rod (306) is fixedly connected to the inner wall of the vibration working box (3), the vibrating rod (306) is far away from the connecting block (307), and the top welding of connecting block (307) has first filter (308), the bottom of first filter (308) extends to the first honeycomb duct (309) of main body frame (1) outside fixedly connected with, the one end fixedly connected with second filter (310) of first filter (308) is kept away from in connecting block (307), and the bottom of second filter (310) extends to main body frame (1) outside fixedly connected with second honeycomb duct (311).

6. The fine sand dredging and collecting device for engineering and construction according to claim 5, wherein: the axis of guide post (303) is parallel with the axis of carousel (302), and the axis of guide post (303) equals to the axis distance of carousel (302) and the diameter of guide ball (304), vibrating mass (305) constitute rotatory extending structure between through guide ball (304) and vibration work box (3), and the rotation angle of vibrating mass (305) is 30, the flexible length of vibrating mass (305) equals with the diameter of guide ball (304).

7. The fine sand dredging and collecting device for engineering and construction according to claim 5, wherein: first filter (308) parallel with second filter (310), and the inclination of first filter (308) and second filter (310) is 30, the filtration pore has all been seted up with second filter (310) in first filter (308), and the filtration pore diameter of first filter (308) is greater than the filtration pore diameter of second filter (310).

8. The fine sand dredging and collecting device for engineering construction according to claim 1, characterized in that: rotate work box (4) and include third motor (401), pivot (402), rotate sloping block (403), swivel becket (404), rotating link (405), rotation bracing piece (406) and rinsing mouth (407), the inner wall fixedly connected with third motor (401) of rotation work box (4), and the output of third motor (401) installs pivot (402), the outer wall fixedly connected with of pivot (402) rotates sloping block (403), and the outer wall of rotating sloping block (403) has connect swivel becket (404) soon, fixedly connected with rotating link (405) in the middle of swivel becket (404), and the bottom of rotating link (405) has connect soon and has rotated bracing piece (406), the outer wall fixedly connected with rinsing mouth (407) of rotating bracing piece (406).

9. The fine sand dredging and collecting device for engineering and construction according to claim 8, wherein: rotate sloping block (403) and pivot (402) and be connected for the solid, and rotate the contained angle of sloping block (403) and pivot (402) and be 60, swivel becket (404) constitutes revolution mechanic through rotating sloping block (403) and rotating between work box (4), and the turned angle of swivel becket (404) is 60, rinsing mouth (407) are provided with three groups, and three groups rinsing mouth (407) evenly distributed are at the outer wall that rotates bracing piece (406).