CN214089702U - Flood control dike protection structure for water conservancy - Google Patents

Abstract

The utility model provides a flood control dyke protection structure for water conservancy, include: a vertical grid plate; the number of the vertical grid plates is two, and the two groups of vertical grid plates are connected through a vertical connection ground grabbing device; the upper side and the lower side of the vertical grid plate are fixedly provided with a transverse grid plate; four groups of hook devices are fixedly arranged on the upper side and the lower side of each vertical grid plate; through being provided with horizontal and fore-and-aft check board can arbitrary built-up connection form a complete cuboid, the cuboid can change according to the big size length of dykes and dams, but split check board has improved handling efficiency greatly in the transport dismantlement process, and labour saving and time saving has improved the device steadiness of flood control dyke protection through having set up a vertical connection ground grabbing device in vertical board junction greatly.

Description

Flood control dike protection structure for water conservancy

Technical Field

The utility model belongs to the technical field of the flood control dyke protection, more specifically say, in particular to a flood control dyke protection structure for water conservancy.

Background

In many areas of China, the terrains and mountains are high, the valleys are deep, the slopes are steep, rainfall is more, rainy seasons are obvious, natural disasters frequently occur due to the influence of terrains and climates, disasters such as flood, landslide and debris flow are increasingly aggravated, and the lives and properties are greatly lost and a great amount of water and soil is lost. Therefore, the construction of flood control engineering facilities is strengthened, and flood control and flood fighting work is especially important.

Based on the above, the water conservancy flood control dike protection used at present is mainly implemented through flood control gabion nets, and the flood control gabion nets are soft in texture and are easy to wind and stretch inconveniently; when the dam is used and installed, stones are filled into the gabion net easily to be unevenly filled, gaps are large, and the dam protection effect is affected; become flexible easily to appear when the flood is great, reduced the guard effect.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a flood control embankment structure for water conservancy is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a flood control dike protection structure for water conservancy, which is mainly used for flood control dike protection through a flood control gabion net, and the flood control gabion net is soft in texture, so that the situation of inconvenient winding and stretching is easy to occur; when the dam is used and installed, stones are filled into the gabion net easily to be unevenly filled, gaps are large, and the dam protection effect is affected; become flexible easily to appear when the flood is great, reduced the problem of protecting effect.

The utility model relates to a purpose and efficiency that is used for flood control dyke protection structure of water conservancy is reached by following concrete technological means:

a flood bank structure for water conservancy comprising: a vertical grid plate; the number of the vertical grid plates is two, and the two groups of vertical grid plates are connected through a vertical connection ground grabbing device; the upper side and the lower side of the vertical grid plate are fixedly provided with a transverse grid plate; four groups of hook devices are fixedly arranged on the upper side and the lower side of each vertical grid plate; the vertical connection ground grabbing device further comprises a pulling plate A, a baffle plate A, a belt B and a supporting column; the top of the vertical connection ground grabbing device is integrally and fixedly provided with a baffle A, and the baffle A is of a rectangular structure with one side being concave; the bottom of the baffle A is integrally and fixedly provided with a support column, and the support column is of a cylindrical structure and is hollow inside; a pulling plate A is movably arranged on one side of the baffle A, is of a rectangular structure with a convex side, and is connected with the baffle A; the belt B is fixedly arranged at the bottom of the baffle A in an integrated mode, penetrates through the baffle A and is connected with the baffle B and the baffle C.

Furthermore, the vertical grid plate also comprises a vertical plate grid, a vertical plate outer ring rod, a vertical plate connecting column and a vertical plate protruding connecting column; a vertical plate outer ring rod is integrally arranged on the outer ring of the vertical grid plate and is a rectangle surrounded by a slender cylinder; a riser grid is fixedly arranged in the riser outer ring rod in an integrated manner, and the riser grid is composed of a plurality of hexagons; four groups of vertical plate protruding connecting columns are fixedly arranged on the upper side and the lower side of the vertical plate outer ring rod through welding, and each vertical plate protruding connecting column is formed by integrally fixing a cylindrical structure on one side and a smaller cylindrical structure on one side; four groups of vertical plate connecting columns are fixedly arranged on the left side and the right side of the vertical plate outer ring rod through welding, the vertical plate connecting columns are not positioned on the same parallel line, and the vertical plate connecting columns are of hollow cylindrical structures; the vertical connection ground grabbing device penetrates through the vertical plate connecting column to connect the two groups of vertical grid plates.

Furthermore, the transverse grid plate also comprises transverse plate grids, transverse plate outer ring rods and transverse plate concave connecting columns; a transverse plate outer ring rod is integrally arranged on the outer ring of the transverse grid plate and is a rectangle surrounded by a slender cylinder; transverse plate grids are fixedly arranged in the transverse plate outer ring rods in an integrated mode and are composed of a plurality of hexagons; four groups of transverse plate concave connecting columns are fixedly arranged on the left side and the right side of the transverse plate outer ring rod through welding, and the transverse plate concave connecting columns are of cylindrical structures with concave middles; and a hook device is rotationally arranged on one side of the outer ring rod of the transverse plate, and the two groups of transverse grid plates are connected through the hook device.

Furthermore, the vertical connection ground grabbing device also comprises a belt A, an auxiliary fixing plate, a baffle B, a fixing plate, a rotating wheel, a grabbing hook, a spring A, a baffle C and a rubber pad; the bottom of the support column is fixedly provided with a baffle B through welding; two groups of fixing plates are integrally and fixedly arranged on two sides of the bottom of the baffle B; the bottom of the fixed plate is rotatably provided with a rotating wheel through a rotating shaft; the bottom of the rotating wheel is integrally and fixedly provided with a grapple which is of a wedge-shaped structure with a sharp bottom; two groups of belts B are integrally and fixedly arranged on the inner side of the grapple; a spring A is integrally and fixedly arranged in the middle of the bottom of the baffle B; the baffle C is arranged at the bottom of the spring A and is of a rectangular structure, and the spring A is wound on the surface of the baffle C; the bottom of the baffle C is fixedly provided with a rubber pad in an integrated manner.

Furthermore, the hook device also comprises a hook column, a supporting plate, a hook outer device, a hook inner device, a spring B and a handle; the outer wall of the transverse plate outer ring rod of the transverse plate device is movably provided with two groups of hook columns which are of hollow cylindrical structures; a support plate is integrally and fixedly arranged on one side of the hook column, and the support plate is of a slender rectangular structure; one side of the supporting plate is integrally and fixedly provided with a hook, and the hook is externally provided with a semicircular structure; the hook inner device is arranged inside the hook outer device in a sliding mode, the hook inner device is of a cylindrical structure, and meanwhile a spring B is arranged at the bottom of the hook inner device; the handle is fixedly arranged on the outer wall of the device in the hook in an integrated mode.

Compared with the prior art, the utility model discloses following beneficial effect has:

neotype water conservancy flood control embankment structure can be arbitrary built-up connection form a complete cuboid through being provided with horizontal and fore-and-aft waffle slab, this cuboid can change according to the big or small length of dykes and dams, but split waffle slab, handling efficiency has been improved greatly in the transport dismantlement process, time saving and labor saving, neotype water conservancy flood control embankment is through having set up a vertical connection ground grabbing device in vertical board junction, be favorable to the firm of the cuboid of constituteing, the hook grab of bottom inserts the stability that can improve the device greatly in bottom earth or the bottom net simultaneously.

Drawings

Fig. 1 is a schematic front view structure of the present invention.

Fig. 2 is a schematic top view structure of the present invention.

Fig. 3 is a schematic view of the structure of the present invention in a partial sectional view.

Fig. 4 is a schematic view of the enlarged structure of the vertical connection ground-grasping device of the present invention.

Fig. 5 is a schematic view of a partially enlarged view of the hook device of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a vertical grid plate; 101. vertical plate grids; 102. a riser outer ring rod; 103. a vertical plate connecting column; 104. a vertical plate convex connecting column; 2. a transverse grid plate; 201. horizontal plate grids; 202. a transverse plate outer ring rod; 203. the transverse plate is sunken into the connecting column; 3. the ground grabbing device is vertically connected; 301. pulling a plate A; 302. a belt A; 303. a baffle A; 304. an auxiliary fixing plate; 305. a baffle B; 306. A fixing plate; 307. a rotating wheel; 308. a grapple; 309. a spring A; 310. A belt B; 311. a baffle C; 312. A rubber pad; 313. a support pillar; 4. a hooking device; 401. a hooking pole; 402. a support plate; 403. a hook outer device; 404. the device is arranged in the hook; 405. A spring B; 406. a handle.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and 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," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides a flood control dyke protection structure for water conservancy, include: a vertical grid plate 1; the number of the vertical grid plates 1 is two, and the two groups of vertical grid plates 1 are connected through a vertical connecting ground grabbing device 3; the upper side and the lower side of the vertical grid plate 1 are fixedly provided with a transverse grid plate 2; four groups of hook devices 4 are fixedly arranged on the upper side and the lower side of the vertical grid plate 1; the vertical connection ground grabbing device 3 further comprises a pulling plate A301, a baffle A303, a belt B310 and a supporting column 313; the top of the vertical connection ground grabbing device 3 is integrally and fixedly provided with a baffle A303, and the baffle A303 is of a rectangular structure with one side concave; the bottom of the baffle A303 is integrally and fixedly provided with a support column 313, and the support column 313 is of a cylindrical structure and is hollow inside; a pulling plate A301 is movably arranged on one side of the baffle A303, the pulling plate A301 is of a rectangular structure with a convex side, and the pulling plate A301 is connected with the baffle A303; a belt B310 is fixedly arranged at the bottom of the baffle A303 in an integrated manner, and the belt B310 penetrates through the baffle A303 to be connected with a baffle B305 and a baffle C311; the vertical grid plate 1 further comprises a vertical plate grid 101, a vertical plate outer ring rod 102, a vertical plate connecting column 103 and a vertical plate protruding connecting column 104; a vertical plate outer ring rod 102 is integrally arranged on the outer ring of the vertical grid plate 1, and the vertical plate outer ring rod 102 is a rectangle surrounded by slender cylinders; a riser grid 101 is integrally and fixedly arranged inside the riser outer ring rod 102, and the riser grid 101 is composed of a plurality of hexagons; four groups of riser raised connecting columns 104 are fixedly arranged on the upper side and the lower side of the riser outer ring rod 102 through welding, and the riser raised connecting columns 104 are integrally and fixedly formed by a cylindrical structure on one side and a smaller cylindrical structure on one side; four groups of vertical plate connecting columns 103 are fixedly arranged on the left side and the right side of the vertical plate outer ring rod 102 through welding, the positions of the vertical plate connecting columns 103 are not on the same parallel line, and the vertical plate connecting columns 103 are of hollow cylindrical structures; the vertical connection ground grabbing device 3 connects the two groups of vertical grid plates 1 through the vertical plate connecting column 103; the transverse grid plate 2 also comprises transverse plate grids 201, transverse plate outer ring rods 202 and transverse plate concave connecting columns 203; a transverse plate outer ring rod 202 is integrally arranged on the outer ring of the transverse grid plate 2, and the transverse plate outer ring rod 202 is a rectangle surrounded by slender cylinders; the transverse plate grids 201 are integrally and fixedly arranged inside the transverse plate outer ring rod 202, and the transverse plate grids 201 are composed of a plurality of hexagons; four groups of transverse plate concave connecting posts 203 are fixedly arranged at the left side and the right side of the transverse plate outer ring rod 202 through welding, and the transverse plate concave connecting posts 203 are of a cylindrical structure with a concave middle part; one side of the transverse plate outer ring rod 202 is rotatably provided with a hook device 4, and the two groups of transverse grid plates 2 are connected through the hook device 4.

The vertical connection ground grabbing device 3 further comprises a belt A302, an auxiliary fixing plate 304, a baffle B305, a fixing plate 306, a rotating wheel 307, a grabbing hook 308, a spring A309, a baffle C311 and a rubber pad 312; the bottom of the supporting column 313 is fixedly provided with a baffle B305 through welding; two groups of fixing plates 306 are integrally and fixedly arranged on two sides of the bottom of the baffle B305; the bottom of the fixed plate 306 is rotatably provided with a rotating wheel 307 through a rotating shaft; the bottom of the rotating wheel 307 is integrally and fixedly provided with a grapple 308, and the grapple 308 is a wedge-shaped structure with a sharp bottom; two groups of belts B310 are integrally and fixedly arranged on the inner side of the grapple 308; a spring A309 is integrally and fixedly arranged in the middle of the bottom of the baffle B305; the baffle C311 is arranged at the bottom of the spring A309, the baffle C311 is of a rectangular structure, and the spring A309 is wound on the surface of the baffle C311; the bottom of the baffle C311 is integrally and fixedly provided with a rubber pad 312; pulling the pulling plate A301 to drive the grabbing hook 308 at the bottom to retract inwards and insert into soil or grids, so that the stability of the device is improved.

The hook device 4 further comprises a hook column 401, a support plate 402, a hook outer device 403, a hook inner device 404, a spring B405 and a handle 406; two groups of hook devices are movably arranged on one side of the transverse plate outer ring rod 202, and a hook column 401 is movably arranged on the outer wall of the transverse plate outer ring rod 202 and is of a hollow cylindrical structure; a support plate 402 is integrally and fixedly arranged on one side of the hook column 401, and the support plate 402 is of a slender rectangular structure; a hook outer device 403 is integrally and fixedly arranged on one side of the support plate 402, and the hook outer device 403 is of a semicircular structure; the hook inner device 404 is arranged inside the hook outer device 403 in a sliding mode, the hook inner device 404 is of a cylindrical structure, and meanwhile a spring B405 is arranged at the bottom of the hook inner device 404; the handles 406 are integrally and fixedly arranged on the outer wall of the hook inner device 404, and can connect a plurality of groups of transverse grid plates 2.

The specific use mode and function of the embodiment are as follows:

in the utility model, when in use, the vertical plate convex connecting column 104 at one side of the vertical grid plate 1 is inserted into the transverse plate concave connecting column 203 at one side of the transverse grid plate 2 to form connection; laying a group of transverse grid plates 2 at the bottom, mounting four groups of vertical grid plates 1 on four sides of the transverse grid plates 2, and mounting a group of transverse grid plates 2 at the top to form a group of cuboids; when four groups of vertical grid plates 1 are connected, the vertical plate connecting columns 103 on one sides of the vertical grid plates 1 are aligned in pairs, then the vertical connecting ground grabbing devices 3 penetrate through the holes, the auxiliary fixing plates 304 on one sides of the vertical connecting ground grabbing devices 3 are pulled to be buckled on the vertical plate connecting columns 103, the vertical connecting ground grabbing devices 3 are pulled to be fixed in an auxiliary mode, the pulling plates A301 are pulled after insertion, the belts A302 are driven, the baffle plates C311 bound on the baffle plates C311 are pulled, the grabbing hooks 308 are driven to be inserted into the ground to achieve the effect of lifting and stabilizing, and when two groups of cuboids are stacked when the dam is high, the grabbing hooks 308 can penetrate through the grids to achieve the effect of fixing; after forming the cuboid, then at the inside packing stone of cuboid, when the embankment is longer, with vertical grid plate 1 and other group's connection increase empty cuboid's length, with diaphragm sunken spliced pole 203 have one side of couple device 4 aim at the handle 406 on the other one side pulling couple device 4 that the spliced pole 203 of a set of diaphragm sunken spliced pole does not have couple device 4, device 404 is installed in the pulling couple, detain couple device 4 on diaphragm outer loop bar 202, release couple in device 404, couple in device 404 bottom spring B405 rebounds, fastening post diaphragm outer loop bar 202 forms the connection.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed, many modifications and variations will be apparent to those skilled in the art, and the embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (5)

1. A flood control embankment structure for water conservancy which characterized in that includes: a vertical grid plate (1); the number of the vertical grid plates (1) is two, and the two groups of vertical grid plates (1) are connected through a vertical connecting ground grabbing device (3); the upper side and the lower side of the vertical grid plate (1) are fixedly provided with a transverse grid plate (2); four groups of hook devices (4) are fixedly arranged on the upper side and the lower side of the vertical grid plate (1); the vertical connection ground grabbing device (3) further comprises a pulling plate A (301), a baffle plate A (303), a belt B (310) and a supporting column (313); the top of the vertical connection ground grabbing device (3) is integrally and fixedly provided with a baffle A (303), and the baffle A (303) is of a rectangular structure with one side being sunken; the bottom of the baffle A (303) is integrally and fixedly provided with a supporting column (313), and the supporting column (313) is of a cylindrical structure and is hollow inside; a pulling plate A (301) is movably arranged on one side of the baffle A (303), the pulling plate A (301) is of a rectangular structure with a convex side, and the pulling plate A (301) is connected with the baffle A (303); the bottom of the baffle A (303) is integrally and fixedly provided with a belt B (310), and the belt B (310) penetrates through the baffle A (303) to be connected with the baffle B (305) and the baffle C (311).

2. A flood bank protection structure for water conservancy as claimed in claim 1, wherein: the vertical grid plate (1) further comprises a vertical plate grid (101), a vertical plate outer ring rod (102), a vertical plate connecting column (103) and a vertical plate protruding connecting column (104); a vertical plate outer ring rod (102) is integrally arranged on the outer ring of the vertical grid plate (1), and the vertical plate outer ring rod (102) is a rectangle surrounded by a slender cylinder; a riser grid (101) is integrally and fixedly arranged inside the riser outer ring rod (102), and the riser grid (101) is composed of a plurality of hexagons; four groups of vertical plate protruding connecting columns (104) are fixedly arranged on the upper side and the lower side of the vertical plate outer ring rod (102) through welding, and the vertical plate protruding connecting columns (104) are integrally and fixedly formed by a cylindrical structure on one side and a smaller cylindrical structure on one side; four groups of vertical plate connecting columns (103) are fixedly arranged on the left side and the right side of the vertical plate outer ring rod (102) through welding, the vertical plate connecting columns (103) are not positioned on the same parallel line, and the vertical plate connecting columns (103) are of hollow cylindrical structures; the vertical connection ground grabbing device (3) penetrates through the vertical plate connecting column (103) to connect the two groups of vertical grid plates (1).

3. A flood bank protection structure for water conservancy as claimed in claim 1, wherein: the transverse grid plate (2) further comprises transverse plate grids (201), transverse plate outer ring rods (202) and transverse plate concave connecting columns (203); a transverse plate outer ring rod (202) is integrally arranged on the outer ring of the transverse grid plate (2), and the transverse plate outer ring rod (202) is a rectangle surrounded by a slender cylinder; the transverse plate grids (201) are integrally and fixedly arranged inside the transverse plate outer ring rod (202), and the transverse plate grids (201) are composed of a plurality of hexagons; four groups of transverse plate concave connecting columns (203) are fixedly arranged on the left side and the right side of the transverse plate outer ring rod (202) through welding, and the transverse plate concave connecting columns (203) are of a cylindrical structure with a concave middle part; one side of the transverse plate outer ring rod (202) is rotatably provided with a hook device (4), and the two groups of transverse grid plates (2) are connected through the hook device (4).

4. A flood bank protection structure for water conservancy as claimed in claim 1, wherein: the vertical connection ground grabbing device (3) further comprises a belt A (302), an auxiliary fixing plate (304), a baffle B (305), a fixing plate (306), a rotating wheel (307), a grabbing hook (308), a spring A (309), a baffle C (311) and a rubber pad (312); the bottom of the supporting column (313) is fixedly provided with a baffle B (305) through welding; two groups of fixing plates (306) are integrally and fixedly arranged on two sides of the bottom of the baffle B (305); the bottom of the fixed plate (306) is rotatably provided with a rotating wheel (307) through a rotating shaft; the bottom of the rotating wheel (307) is integrally and fixedly provided with a grapple (308), and the grapple (308) is of a wedge-shaped structure with a sharp bottom; two groups of belts B (310) are integrally and fixedly arranged on the inner side of the grapple (308); a spring A (309) is fixedly arranged in the middle of the bottom of the baffle B (305) in an integrated mode; the baffle C (311) is arranged at the bottom of the spring A (309), the baffle C (311) is of a rectangular structure, and the spring A (309) is wound on the surface of the baffle C (311); the bottom of the baffle C (311) is integrally and fixedly provided with a rubber pad (312).

5. A flood bank protection structure for water conservancy as claimed in claim 1, wherein: the hook device (4) further comprises a hook column (401), a support plate (402), a hook outer device (403), a hook inner device (404), a spring B (405) and a handle (406); two groups of hook devices (4) are movably arranged on one side of the transverse plate outer ring rod (202), a hook column (401) is movably arranged on the outer wall of the transverse plate outer ring rod (202), and the hook column (401) is of a hollow cylindrical structure; a support plate (402) is integrally and fixedly arranged on one side of the hook column (401), and the support plate (402) is of a slender rectangular structure; one side of the supporting plate (402) is integrally and fixedly provided with a hook outer device (403), and the hook outer device (403) is of a semicircular structure; the hook inner device (404) is arranged inside the hook outer device (403) in a sliding mode, the hook inner device (404) is of a cylindrical structure, and meanwhile a spring B (405) is arranged at the bottom of the hook inner device (404); a handle (406) is fixedly arranged on the outer wall of the hook inner device (404) in an integrated manner.

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