CN113957849A - Multi-functional water conservancy construction economical embankment structure - Google Patents

Abstract

The invention provides a multifunctional water conservancy construction economic embankment structure, which comprises an installation mechanism; the device comprises a mounting mechanism, a floating device, a limiting part, a dike part, a floating device and two reinforcing mechanisms, wherein the limiting part is mounted inside the mounting mechanism, the dike part is mounted on the left side of the top of the mounting mechanism, the floating device is mounted inside the dike part, and the two reinforcing mechanisms are mounted inside the dike part; the supporting devices are provided with two groups, the two groups of supporting devices are arranged at the top of the mounting mechanism, and tensioning devices are arranged on the outer sides of the two groups of supporting devices; when the water level is higher than the floating plate, the floating plate is driven to move upwards under the buoyancy action of water, so that when the floating plate moves upwards, the two reinforcing members simultaneously move inwards under the action of the tension spring, the two reinforcing members are separated from the fixing holes, the expansion plate is driven to move upwards under the action of the floating plate, and the height of the dike can be automatically adjusted according to the water level.

Description

Multi-functional water conservancy construction economical embankment structure

Technical Field

The invention belongs to the technical field of water conservancy dikes, and particularly relates to a multifunctional water conservancy construction economic dike structure.

Background

A water conservancy dike refers to a dike or a flood wall and the like built around the coasts or reservoir areas of rivers, seas, lakes and seas, and a water retaining structure built along the coasts of the rivers, lakes and seas is called a dike; a hydraulic structure constructed in a valley or river to intercept water flow is called a dam; "dikes that are water resistant" are collectively referred to as "dikes".

If the application number is: in CN 201610065761.4's patent, a bank embankment protecting wall is disclosed, insert the H type prestressed concrete pile in soil including many intervals, H type prestressed concrete pile's cross section is the H shape that comprises two edges of a wing and the web of connecting two edges of a wing, two edges of a wing and web form the recess portion that extends along pile body length direction in H type prestressed concrete pile's both sides, be equipped with prefabricated picture peg between two adjacent H type prestressed concrete piles, the left and right sides of prefabricated picture peg is inserted and is established in the recess portion, be equipped with the protruding or recessed footboard portion that is for the people to trample of polylith footboard portion on the outer wall on the edge of a wing, polylith footboard portion sets up at the interval on H type prestressed concrete pile's length direction. The whole structure of the protective wall is simple and reasonable, the construction without a complex connecting structure is more convenient, and the construction period is greatly shortened. The setting of footboard portion can let the people that fall upwards climb along footboard portion for the bank embankment revetment that adopts this precast pile designs more humanized in the security.

Based on the above, the inventor finds that the height of the conventional dike device is relatively fixed, when the water level rises in heavy rain weather, the height of the dike cannot be automatically adjusted according to the water level, so that the water inside the dike overflows, the quality of the dike is reduced, the conventional dike device is not convenient for workers to rapidly install and rapidly collect, the working efficiency is reduced, the conventional dike device is not convenient for storage and turnover, and the conventional dike device cannot meet the current use requirements.

Disclosure of Invention

In order to solve the technical problems, the invention provides a multifunctional water conservancy construction economic type dike structure, which aims to solve the problems that the height of the conventional dike is relatively fixed, when the water level rises in heavy rain, the height of the dike cannot be automatically adjusted according to the water level, so that the water in the dike overflows, the quality of the dike is reduced, quick installation and quick collection of workers are inconvenient, the working efficiency is reduced, and the storage and turnover are inconvenient.

The purpose and the effect of the multifunctional water conservancy construction economic type embankment structure are achieved by the following specific technical means:

a multifunctional water conservancy construction economic embankment structure comprises an installation mechanism;

the device comprises a mounting mechanism, a floating device, a limiting part, a dike part, a floating device and two reinforcing mechanisms, wherein the limiting part is mounted inside the mounting mechanism, the dike part is mounted on the left side of the top of the mounting mechanism, the floating device is mounted inside the dike part, and the two reinforcing mechanisms are mounted inside the dike part;

the supporting devices are provided with two groups, the two groups of supporting devices are arranged at the top of the mounting mechanism, and tensioning devices are arranged on the outer sides of the two groups of supporting devices; and two groups of connecting devices and two groups of driving mechanisms are arranged on the right side of the embankment part.

Further, the floating device includes:

the sliding plate is connected with the telescopic plate in a sliding manner;

the floating plate is fixedly arranged at the top of the sliding plate, and three springs are fixedly arranged between the top of the floating plate and the telescopic plate.

Further, the connecting device includes:

the mounting frame is fixedly connected with the embankment plate, a driving shaft is rotatably mounted on the mounting frame, a first gear and a second gear are fixedly mounted on the outer wall of the driving shaft, and the first gear is located on the outer side of the second gear;

the first stabilizing column is fixedly installed inside the mounting frame.

Further, the mounting mechanism includes:

the inner part of the bottom plate is in threaded connection with two fixing pieces;

the sliding rails are arranged, the two sliding rails are symmetrically arranged at the top of the bottom plate, and limiting plates are fixedly arranged at the left end and the right end of each sliding rail.

Further, the driving mechanism includes:

the L-shaped rod is fixedly connected with the telescopic plate, a first sliding groove is formed in the left side of the L-shaped rod, and the first sliding groove is connected with the first stabilizing column in a sliding mode;

and the first rack is fixedly arranged on the right side of the L-shaped rod and is meshed and connected with the first gear.

Further, the supporting device includes:

the sliding block is connected with the sliding rail in a sliding mode, and a second connecting shaft is fixedly mounted on the sliding block;

the top end of the supporting rod is rotatably installed on the first connecting shaft, and the bottom end of the supporting rod is rotatably installed on the second connecting shaft.

Further, the bank includes:

the embankment plate is fixedly connected with the bottom plate, and the front side and the rear side of the interior of the embankment plate are provided with fixing holes;

the expansion plate is slidably mounted inside the dike board, and two first connecting shafts are fixedly mounted on the right side of the expansion plate.

Further, the reinforcement mechanism includes:

the reinforcing member is connected with the telescopic plate in a sliding manner;

the drive post, drive post fixed mounting are in the inner of reinforcement, and the externally mounted of drive post has the extension spring to extension spring and reinforcement and expansion plate fixed connection.

Further, the tension device includes:

the second stabilizing column is fixedly connected with the bottom plate;

the tensioning rod is fixedly connected with the second connecting shaft, the bottom of the tensioning rod is provided with a second sliding groove, and the second sliding groove is in sliding connection with the second stabilizing column;

and the second rack is fixedly arranged at the top of the tensioning rod and is meshed and connected with the second gear.

Further, the limiting part comprises:

the limiting piece is connected with the bottom plate in a sliding mode, and four springs are fixedly installed between the bottom of the limiting piece and the bottom plate;

and the driving block is fixedly arranged at the top of the limiting piece.

The invention at least comprises the following beneficial effects:

1. the arrangement of the two fixing pieces facilitates workers to quickly fix the bottom plate and the ground, the drill bit is arranged at the bottom ends of the two fixing pieces, the dike board and the telescopic board are convenient to use on the hard ground, the universality of the dike board is improved, meanwhile, the working efficiency of the workers for installing the dike board is improved, the arrangement of the two supporting rods enables the dike board and the telescopic board to be more stable during use, the quality of the dike is improved, and the four springs are fixedly arranged between the bottom of the limiting piece and the bottom plate, so that the slider is prevented from moving rightwards, and the supporting strength is improved.

2. When the water level is higher than the floating plate, the floating plate is driven to move upwards under the buoyancy action of water, the driving column is fixedly arranged at the inner end of the reinforcing piece, the tension spring is arranged outside the driving column and fixedly connected with the reinforcing piece and the telescopic plate, so that when the floating plate moves upwards, the two reinforcing pieces simultaneously move inwards under the action of the tension spring, the two reinforcing pieces are separated from the fixed holes, the telescopic plate is driven to move upwards under the action of the floating plate, the height of the dike can be automatically adjusted according to the water level, three springs are fixedly arranged between the top of the floating plate and the telescopic plate, and when the bottom surface of the floating plate is level with the water level, the two reinforcing pieces are inserted and connected into the fixed holes, so that the telescopic plate is prevented from sliding during use, and the quality of the dike is improved.

3. The invention ensures that the first rack is tightly attached to the first gear and prevents slipping between the first rack and the first gear because the first chute is in sliding connection with the first stabilizing column, and the second rack is fixedly mounted on the outer wall of the driving shaft and is in meshing connection with the second gear and the tensioning rod is fixedly connected with the second connecting shaft so as to drive the sliding block to move leftwards when the L-shaped rod moves upwards, so that the resistance of the sliding block during moving is reduced, the supporting rod is more stable during use, the supporting quality is improved, when a worker treads the driving block and pulls the floating plate upwards, the telescopic plate automatically moves downwards due to the gravity of the telescopic plate, the invention is convenient for storage and turnover.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of another structure according to the present invention.

Fig. 3 is a partially enlarged structural view of the area a in fig. 1 according to the present invention.

Fig. 4 is a partially enlarged structural view of the region B in fig. 1 according to the present invention.

FIG. 5 is a schematic structural view of the mounting mechanism of the present invention.

FIG. 6 is a schematic structural diagram of the limiting portion of the present invention.

Fig. 7 is a schematic view of the structure of the bank of the present invention with a partial cut.

Fig. 8 is a schematic structural view of the floating device of the present invention.

Fig. 9 is a schematic view of the center-cut structure of the bank portion and the floating device of the present invention.

Fig. 10 is a partially enlarged view of the region C of fig. 9 according to the present invention.

Fig. 11 is a schematic structural view of the supporting device of the present invention.

Fig. 12 is a schematic view of the construction of the connecting device of the present invention.

Fig. 13 is a schematic structural view of the drive mechanism of the present invention.

FIG. 14 is a schematic view of the construction of the tensioning device of the present invention.

Fig. 15 is a schematic structural diagram of another embodiment of the present invention.

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

1. an installation mechanism; 101. a base plate; 1011. a fixing member; 102. a slide rail;

2. a limiting part; 201. a limiting member; 202. a drive block;

3. an embankment section; 301. an embankment plate; 3011. a fixing hole; 302. a retractable plate; 3021. a first connecting shaft;

4. a floating device; 401. a sliding plate; 402. a floating plate;

5. a reinforcement mechanism; 501. a reinforcement; 502. a drive column;

6. a support device; 601. a slider; 6011. a second connecting shaft; 602. a support bar;

7. a connecting device; 701. a mounting frame; 7011. a drive shaft; 7012. a first gear; 7013. a second gear; 702. a first stabilizing column;

8. a drive mechanism; 801. an L-shaped rod; 8011. a first sliding chute; 802. a first rack;

9. a tensioning device; 901. a second stabilizing column; 902. a tension bar; 9021. a second chute; 903. and a second rack.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the 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 "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and are not intended to 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 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 should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be understood broadly, and for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Example (b):

as shown in figures 1 to 15:

the invention provides a multifunctional water conservancy construction economic embankment structure, which comprises an installation mechanism 1; a limiting part 2 is arranged in the installation mechanism 1, a bank part 3 is arranged on the left side of the top of the installation mechanism 1, a floating device 4 is arranged in the bank part 3, and two groups of reinforcing mechanisms 5 are arranged in the bank part 3; the supporting devices 6 are provided with two groups of supporting devices 6, the two groups of supporting devices 6 are arranged at the top of the mounting mechanism 1, and the outer sides of the two groups of supporting devices 6 are provided with tensioning devices 9; two sets of connecting devices 7 and two sets of driving mechanisms 8 are mounted on the right side of the embankment section 3.

As shown in fig. 5, 6, and 11, the mounting mechanism 1 includes: the base plate 101 is provided with two fixing pieces 1011 which are connected with the inner threads of the base plate 101; slide rail 102, slide rail 102 are equipped with two altogether, and two slide rail 102 symmetries are installed at the top of bottom plate 101 to slide rail 102 controls both ends fixed mounting and has the limiting plate, and spacing portion 2 includes: the limiting piece 201 is connected with the bottom plate 101 in a sliding mode, and four springs are fixedly installed between the bottom of the limiting piece 201 and the bottom plate 101; the driving block 202, the driving block 202 is fixedly installed on the top of the limiting member 201, and the supporting device 6 includes: the sliding block 601 is connected with the sliding rail 102 in a sliding mode, and a second connecting shaft 6011 is fixedly installed on the sliding block 601; the bracing piece 602, the bracing piece 602 top is rotated and is installed on connecting axle one 3021, and the bottom of bracing piece 602 is rotated and is installed on connecting axle two 6011, and its concrete function does: the arrangement of the two fixing pieces 1011 facilitates workers to quickly fix the bottom plate 101 with the ground, and the bottom ends of the two fixing pieces 1011 are drills, so that the dike plate 301 and the expansion plate 302 are more stable in use and the dike quality is improved due to the arrangement of the two support rods 602, and the limiting piece 201 is slidably connected with the bottom plate 101, and the four springs are fixedly arranged between the bottom of the limiting piece 201 and the bottom plate 101, so that the slider 601 is prevented from moving rightwards, and the support strength is improved.

As shown in fig. 7, 8, and 10, the bank 3 includes: the embankment plate 301, the embankment plate 301 is fixedly connected with the bottom plate 101, and the front side and the rear side of the interior of the embankment plate 301 are provided with fixing holes 3011; the expansion plate 302, the expansion plate 302 is slidably mounted inside the embankment plate 301, and two connecting shafts 3021 are fixedly mounted on the right side of the expansion plate 302, and the floating device 4 includes: a sliding plate 401, the sliding plate 401 being slidably connected to the telescopic plate 302; float board 402, float board 402 fixed mounting at the top of sliding plate 401, and fixed mounting has three spring between the top of floating board 402 and expansion plate 302, and reinforcing mechanism 5 includes: the reinforcing member 501, the reinforcing member 501 is connected with the telescopic plate 302 in a sliding manner; drive post 502, drive post 502 fixed mounting are in the inner of reinforcement 501, and the externally mounted of drive post 502 has the extension spring to extension spring and reinforcement 501 and expansion plate 302 fixed connection, its concrete function does: when the water level is higher than the floating plate 402, the floating plate 402 is driven to move upwards under the buoyancy of water, and because the driving column 502 is fixedly arranged at the inner end of the reinforcing member 501, and the exterior of the driving column 502 is provided with a tension spring, and the tension spring is fixedly connected with the reinforcing member 501 and the expansion plate 302, so that when the floating plate 402 moves upward, the two stiffeners 501 move inward simultaneously under the action of the tension spring, and at this time, the two stiffeners 501 are separated from the fixing holes 3011, thereby driving the retractable plate 302 to move upward under the action of the floating plate 402, so that the invention can automatically adjust the height of the dike according to the water level, because three springs are fixedly arranged between the top of the floating plate 402 and the telescopic plate 302, furthermore, when the bottom surface of the floating plate 402 is flush with the water level, the two reinforcements 501 are inserted into the fixing holes 3011, so that the expansion plate 302 is prevented from sliding during use, and the quality of the dike is improved.

As shown in fig. 12, 13 and 14, the connecting device 7 includes: the mounting frame 701 is fixedly connected with the embankment plate 301, a driving shaft 7011 is rotatably mounted on the mounting frame 701, a first gear 7012 and a second gear 7013 are fixedly mounted on the outer wall of the driving shaft 7011, and the first gear 7012 is located on the outer side of the second gear 7013; a first stabilizing column 702, the first stabilizing column 702 being fixedly mounted inside the mounting frame 701, the driving mechanism 8 comprising: the L-shaped rod 801 is fixedly connected with the telescopic plate 302, a first sliding groove 8011 is formed in the left side of the L-shaped rod 801, and the first sliding groove 8011 is in sliding connection with the first stabilizing column 702; a first rack 802, the first rack 802 is fixedly installed on the right side of the L-shaped rod 801, and the first rack 802 is engaged with a first gear 7012, the tensioning device 9 comprises: a second stabilizing column 901, wherein the second stabilizing column 901 is fixedly connected with the bottom plate 101; the tensioning rod 902 is fixedly connected with the connecting shaft II 6011, the bottom of the tensioning rod 902 is provided with a sliding groove II 9021, and the sliding groove II 9021 is in sliding connection with the stabilizing column II 901; a second rack 903, the second rack 903 is fixedly installed at the top of the tension rod 902, and the second rack 903 is meshed with a second gear 7013, and the specific functions are as follows: because the L-shaped rod 801 is fixedly connected with the telescopic plate 302, the rack I802 is fixedly installed on the right side of the L-shaped rod 801, and the rack I802 is meshed with the gear I7012 to drive the gear I7012 to rotate when the telescopic plate 302 moves upwards, because the chute I8011 is in sliding connection with the stabilizing column I702, the rack I802 is ensured to be tightly attached to the gear I7012 to avoid slipping between the rack I802 and the gear I7012, and because the outer wall of the driving shaft 7011 is fixedly provided with the gear II 7013 and the rack II 903 is meshed with the gear II 7013, and the tensioning rod 902 is fixedly connected with the connecting shaft II 6011 to drive the sliding block 601 to move leftwards when the L-shaped rod 801 moves upwards, on one hand, the resistance of the sliding block 601 during moving is reduced, on the other hand, the supporting rod 602 is more stable during use, the embankment quality is improved, when a worker steps on the driving block 202 and pulls the floating plate 402 upwards, under the gravity of the retractable plate 302, the retractable plate 302 automatically moves downwards, which is convenient for the storage and turnover of the present invention.

In another embodiment, referring to fig. 15, a pull rod may be fixedly installed on the top of the floating plate 402, so that the operation of the worker is more convenient and the working efficiency is improved.

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

when the invention is used, firstly, a worker moves the invention to a proper position, then the worker rotates the two fixing pieces 1011 to fix the bottom plate 101 and the ground quickly, and the bottom ends of the two fixing pieces 1011 are provided with drill bits, so that the invention is convenient to use on the hard ground, the universality of the invention is improved, and simultaneously the working efficiency of the invention for the worker to install the invention is improved, when the water level is higher than that of the floating plate 402, the floating plate 402 is driven to move upwards under the buoyancy of the water, when the floating plate 402 moves upwards, the two reinforcing pieces 501 simultaneously move inwards under the action of the tension spring, at the moment, the two reinforcing pieces 501 are separated from the fixing holes 3011, so that the telescopic plate 302 is driven to move upwards under the action of the floating plate 402, and further, the invention can automatically adjust the height of the dike according to the water level, because three springs are fixedly arranged between the top of the floating plate 402 and the telescopic plate 302, when the bottom surface of the floating plate 402 is level with the water level, the two reinforcements 501 are inserted into the fixing holes 3011, the telescopic plate 302 is prevented from sliding when in use, the quality of an embankment is improved, the L-shaped rod 801 is fixedly connected with the telescopic plate 302, the rack I802 is fixedly installed on the right side of the L-shaped rod 801 and is meshed with the rack I802, so that the telescopic plate 302 moves upwards to drive the rack I7012 to rotate, the sliding chute 8011 is slidably connected with the stabilizing column I702 to ensure that the rack I802 is tightly attached to the rack I7012, the rack I802 and the rack I7012 are prevented from sliding, the gear II 7013 is fixedly installed on the outer wall of the driving shaft 7011, the rack II 903 is meshed with the gear II 7013 and is fixedly connected with the tensioning rod 902, and the tensioning rod 902 is fixedly connected with the connecting shaft II 6011, so that the L-shaped rod 801 drives the sliding block 601 to move leftwards when moving upwards, on one hand, the resistance of the sliding block 601 in moving is reduced, on the other hand, the supporting rod 602 is more stable in use, the quality of the dike is improved, when a worker steps on the driving block 202 and pulls the floating plate 402 upwards, the telescopic plate 302 automatically moves downwards due to the gravity of the telescopic plate 302, and the storage and turnover of the invention are convenient.

The invention is not described in detail, but is well known to those skilled in the art.

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 of ordinary skill in the art. The embodiment was 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 (10)

1. The utility model provides a multi-functional water conservancy construction economy type dyke structure which characterized in that: comprises a mounting mechanism (1);

a limiting part (2) is installed inside the installation mechanism (1), a bank part (3) is installed on the left side of the top of the installation mechanism (1), a floating device (4) is installed inside the bank part (3), and two groups of reinforcing mechanisms (5) are installed inside the bank part (3);

the supporting devices (6) are provided with two groups in total, the two groups of supporting devices (6) are arranged at the top of the mounting mechanism (1), and tensioning devices (9) are arranged on the outer sides of the two groups of supporting devices (6); two groups of connecting devices (7) and two groups of driving mechanisms (8) are arranged on the right side of the embankment part (3).

2. A multi-functional water conservancy construction economy type embankment structure according to claim 1, wherein: the mounting mechanism (1) comprises:

the inner part of the bottom plate (101) is connected with two fixing pieces (1011) in a threaded manner;

the sliding rail (102), sliding rail (102) are equipped with two altogether, and two sliding rail (102) symmetry install the top at bottom plate (101) to both ends fixed mounting has the limiting plate about sliding rail (102).

3. A multi-functional water conservancy construction economy type embankment structure according to claim 2, wherein: the stopper (2) includes:

the limiting piece (201), the limiting piece (201) is connected with the bottom plate (101) in a sliding mode, and four springs are fixedly installed between the bottom of the limiting piece (201) and the bottom plate (101);

and the driving block (202), wherein the driving block (202) is fixedly arranged at the top of the limiting piece (201).

4. A multi-functional water conservancy construction economy type embankment structure according to claim 2, wherein: the bank (3) comprises:

the embankment plate (301), the embankment plate (301) is fixedly connected with the bottom plate (101), and fixing holes (3011) are arranged at the front and rear sides in the embankment plate (301);

the expansion plate (302) is slidably mounted inside the dike board (301), and two first connecting shafts (3021) are fixedly mounted on the right side of the expansion plate (302).

5. A multi-functional water conservancy construction economy type embankment structure according to claim 4, wherein: the floating device (4) comprises:

the sliding plate (401), the sliding plate (401) is connected with the telescopic plate (302) in a sliding way;

the floating plate (402) is fixedly arranged at the top of the sliding plate (401), and three springs are fixedly arranged between the top of the floating plate (402) and the telescopic plate (302).

6. A multi-functional water conservancy construction economy type embankment structure according to claim 5, wherein: the reinforcement mechanism (5) includes:

the reinforcing member (501), the reinforcing member (501) and the expansion plate (302) are connected in a sliding mode;

the driving column (502), the driving column (502) is fixedly installed at the inner end of the reinforcing member (501), and the extension spring is installed at the outer portion of the driving column (502), and the extension spring is fixedly connected with the reinforcing member (501) and the expansion plate (302).

7. A multi-functional water conservancy construction economy type embankment structure according to claim 2 or 4, wherein: the support device (6) comprises:

the sliding block (601), the sliding block (601) is connected with the sliding rail (102) in a sliding mode, and a second connecting shaft (6011) is fixedly installed on the sliding block (601);

the top end of the supporting rod (602) is rotatably mounted on the first connecting shaft (3021), and the bottom end of the supporting rod (602) is rotatably mounted on the second connecting shaft (6011).

8. A multi-functional water conservancy construction economy type embankment structure according to claim 4, wherein: the connection device (7) comprises:

the mounting rack (701), the mounting rack (701) is fixedly connected with the embankment plate (301), a driving shaft (7011) is rotatably mounted on the mounting rack (701), a first gear (7012) and a second gear (7013) are fixedly mounted on the outer wall of the driving shaft (7011), and the first gear (7012) is located on the outer side of the second gear (7013);

the first stabilizing column (702), the first stabilizing column (702) is fixedly arranged inside the mounting frame (701).

9. A multi-functional water conservancy construction economy type embankment structure according to claim 4 or 7, wherein: the drive mechanism (8) comprises:

the L-shaped rod (801), the L-shaped rod (801) is fixedly connected with the telescopic plate (302), a first sliding groove (8011) is formed in the left side of the L-shaped rod (801), and the first sliding groove (8011) is in sliding connection with a first stabilizing column (702);

the first rack (802), the first rack (802) is fixedly arranged on the right side of the L-shaped rod (801), and the first rack (802) is meshed with the first gear (7012).

10. A multi-functional water conservancy construction economy type embankment structure according to claim 2, wherein: the tensioning device (9) comprises:

the second stabilizing column (901), the second stabilizing column (901) is fixedly connected with the bottom plate (101);

the tensioning rod (902), the tensioning rod (902) is fixedly connected with the second connecting shaft (6011), the bottom of the tensioning rod (902) is provided with a second sliding groove (9021), and the second sliding groove (9021) is in sliding connection with the second stabilizing column (901);

and the second rack (903), the second rack (903) is fixedly installed at the top of the tension rod (902), and the second rack (903) is meshed and connected with the second gear (7013).

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