CN214116476U - Water conservancy river course bank protection - Google Patents

Abstract

A water conservancy river channel revetment comprises a supporting plate, a water baffle plate, a supporting rod, a mounting plate, a driving motor, a clamping table, a connecting frame, a first transmission block, a fixed rod and a dam body; one side of the supporting plate is arranged on the dam body; the water baffle is arranged between the supporting plates; the supporting plate is provided with a mounting groove; the supporting rod is connected with the supporting plate in a sliding mode and can be detached, and the supporting rod is located in the mounting groove; the mounting plate is arranged on the supporting rod in a sliding manner; the driving motor is arranged on the mounting plate, and the output end of the driving motor is in driving connection with the clamping table; the connecting frame is clamped with the clamping table; the first transmission block is arranged at the lower end of the connecting frame; the fixed rod is arranged on the supporting plate in a sliding mode, one end of the fixed rod is located inside the dam body, and a first rotating groove is formed in the fixed rod; one end of the first transmission block is clamped in the first rotating groove. The utility model discloses on installing the dam body with breakwater and backup pad, carry out the dismouting to the backup pad that can be quick through the dead lever to can have more flood prevention and need change the position.

Description

Water conservancy river course bank protection

Technical Field

The utility model relates to a water conservancy facility equipment technical field especially relates to a water conservancy river course bank protection.

Background

River course bank protection is a device for preventing water and soil loss of two bank ramps of river course. The slope protection is divided into two types, one type is the slope protection which is used for protecting soil on the slope; the other is ecological slope protection combined with green plants.

The impact force of flood when assaulting the river bank dam body is great, can take away the soil on surface when assaulting, causes soil erosion and water loss, destroys peripheral ecology, and current slope protection device all is fixed the setting on the dam body, and inconvenient dismantlement is maintained, and can not different water levels are nimble to be laid.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides a water conservancy river bank protection installs the dam body with breakwater and backup pad on, carries out the dismouting to the backup pad that can be quick through the dead lever to can have more flood prevention and need change the position.

(II) technical scheme

The utility model provides a water conservancy river slope protection, which comprises a support plate, a water baffle, a support rod, a mounting plate, a driving motor, a clamping table, a connecting frame, a first transmission block, a fixed rod and a dam body;

the supporting plate is of a V-shaped structure, one side of the supporting plate is arranged on the dam body and is parallel to the dam body; the water baffle is arranged between the supporting plates; the supporting plate is provided with a mounting groove; two mounting grooves and two support rods are symmetrically arranged; the two support rods are connected with the support plate in a sliding mode and can be detached, and the two support rods are respectively positioned in the two mounting grooves; the mounting plate is arranged on the two support rods in a sliding manner; the driving motor is arranged on the mounting plate, and the output end of the driving motor is in driving connection with the clamping table; the connecting frame is clamped with the clamping table and is detachably connected with the clamping table; the first transmission block is arranged at the lower end of the connecting frame; the fixed rod is arranged on the supporting plate in a sliding mode, one end of the fixed rod is located inside the dam body, and a first rotating groove is formed in the fixed rod; one end of the first transmission block is clamped in the first rotating groove and is detachably connected with the first rotating groove; the fixing rod comprises a first rotating part and a first thread part; the first rotating parts are provided with two sections, the first thread part is positioned between the two first rotating parts, and the first rotating parts and the first thread part are integrally formed; the first thread part is in threaded connection with the support plate.

Preferably, a conical head and a clamping module are arranged at one end of the fixing rod in the dam body; the clamping module comprises a first connecting rod, a second connecting rod, a guide rod and a lifting platform; the conical head is arranged at the lower end of the lifting platform; the first connecting rods, the second connecting rods and the guide rods are all provided in plurality, one ends of the guide rods are all arranged at the upper end of the lifting platform, and the other ends of the guide rods are all arranged on the first rotating part in a sliding manner; the plurality of first connecting rods are rotatably arranged on the first rotating part; the second connecting rods are rotatably arranged on the lifting platform; the other ends of the first connecting rods are respectively and rotatably connected with the other ends of the second connecting rods; a rotating rod for driving the lifting platform to lift is arranged in the fixed rod.

Preferably, the rotating rod is provided with a second rotating groove and a second transmission block; the second transmission block is arranged at the lower end of the connecting frame, and one end of the second transmission block is positioned in the second rotating groove, clamped with the rotating rod and detachably connected with the rotating rod; the rotating rod comprises a second rotating part and a second thread part; the second rotating part is positioned above the second thread part and is connected with the inside of the fixed rod in a sliding way; the second thread part is in threaded connection with the inner part of the first thread part; one end of the second thread part is positioned in the clamping module and is rotationally connected with the lifting platform.

Preferably, the conical head is provided with a soil guide groove.

Preferably, the first transmission block is provided with a protective sleeve and a connecting block; the protective sleeve is arranged on the outer peripheral side of the first transmission block and sleeved on the outer peripheral side of the fixed rod; one end of the connecting block is positioned in the protective sleeve and is connected with the bottom of the first transmission block, and the other end of the connecting block is arranged in the first rotating groove in a sliding mode.

Preferably, the supporting plate is provided with an anti-skid block which is of a conical structure.

Preferably, the water baffle is of an arc structure.

Compared with the prior art, the above technical scheme of the utility model following profitable technological effect has:

in the utility model, the supporting plate is placed on the dam body, a fixed rod is inserted, two supporting rods are inserted into the mounting groove, the driving motor is positioned above the fixed rod, the downward mounting plate is arranged, the mounting plate drives the clamping table to move, the clamping table drives the connecting frame to move, the connecting frame drives the first transmission block to move, the first transmission block is connected with the fixed rod in a clamping way, the driving motor is started, the driving motor drives the first transmission block to rotate, the first transmission block drives the fixed rod to rotate, the first thread part is in threaded transmission with the supporting plate, so that the fixed rod moves downwards and is embedded into the dam body, the supporting plate and the water baffle are arranged on the dam body, and the dam body is protected; and after the installation is finished, the supporting rod is pulled out from the installation groove, and a next fixed rod is installed.

Drawings

Fig. 1 is the utility model provides a structural schematic of water conservancy river course bank protection.

Fig. 2 is the utility model provides a local structure schematic diagram of water conservancy river course bank protection.

Fig. 3 is the utility model provides a structure schematic diagram of transfer pole department in water conservancy river course bank protection.

Fig. 4 is the utility model provides a structure schematic diagram of joint module in water conservancy river course bank protection.

Reference numerals: 1. a support plate; 101. anti-skid blocks; 102. mounting grooves; 2. a water baffle; 3. a support bar; 4. mounting a plate; 5. a drive motor; 6. a clamping table; 7. a connecting frame; 8. a first transmission block; 801. a protective sleeve; 802. connecting blocks; 9. fixing the rod; 91. a first rotating section; 92. a first threaded portion; 901. a first rotating groove; 902. a conical head; 10. rotating the rod; 1001. a second rotating groove; 1011. a second rotating part; 1012. a second threaded portion; 11. a second transmission block; 12. clamping the module; 1201. a first connecting rod; 1202. a second connecting rod; 1203. a guide bar; 1204. a lifting platform; 13. a dam body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the utility model provides a water conservancy river bank protection, which comprises a supporting plate 1, a water baffle 2, a supporting rod 3, a mounting plate 4, a driving motor 5, a clamping table 6, a connecting frame 7, a first transmission block 8, a fixing rod 9 and a dam body 13;

the supporting plate 1 is of a V-shaped structure, one side of the supporting plate 1 is arranged on the dam body 13 and is parallel to the dam body 13; the water baffle 2 is arranged between the support plates 1; the supporting plate 1 is provided with a mounting groove 102; the two mounting grooves 102 and the two support rods 3 are symmetrically arranged; the two support rods 3 are connected with the support plate 1 in a sliding manner and can be detached, and the two support rods 3 are respectively positioned in the two mounting grooves 102; the mounting plate 4 is arranged on the two support rods 3 in a sliding manner; the driving motor 5 is arranged on the mounting plate 4, and the output end clamping table 6 of the driving motor 5 is in driving connection; the connecting frame 7 is clamped with the clamping table 6 and is detachably connected with the clamping table; the first transmission block 8 is arranged at the lower end of the connecting frame 7; the fixing rod 9 is arranged on the supporting plate 1 in a sliding mode, one end of the fixing rod 9 is located inside the dam body 13, and a first rotating groove 901 is formed in the fixing rod 9; one end of the first transmission block 8 is clamped in the first rotation groove 901 and is detachably connected with the first rotation groove 901; the fixing lever 9 includes a first rotating portion 91 and a first screw portion 92; the first rotating parts 91 are provided with two sections, the first thread part 92 is positioned between the two first rotating parts 91, and the first rotating parts 91 and the first thread part 92 are integrally formed; the first screw portion 92 is screw-coupled with the support plate 1.

In an alternative embodiment, a tapered head 902 and a clamping module 12 are arranged at one end of the fixing rod 9 in the dam body 13; the clamping module 12 comprises a first connecting rod 1201, a second connecting rod 1202, a guide rod 1203 and a lifting table 1204; the conical head 902 is arranged at the lower end of the lifting platform 1204; a plurality of first connecting rods 1201, a plurality of second connecting rods 1202 and a plurality of guide rods 1203 are arranged, one ends of the plurality of guide rods 1203 are arranged at the upper end of the lifting platform 1204, and the other ends of the plurality of guide rods 1203 are arranged on the first rotating part 91 in a sliding manner; the plurality of first connecting rods 1201 are rotatably arranged on the first rotating part 91; the second connecting rods 1202 are rotatably arranged on the lifting platform 1204; the other ends of the plurality of first connecting rods 1201 are respectively and rotatably connected with the other ends of the plurality of second connecting rods 1202; a rotating rod 10 for driving the lifting table 1204 to lift is arranged in the fixed rod 9.

It should be noted that when the rotating rod 10 moves upward, the lifting table 1204 is driven to move upward, the lifting table 1204 drives the second connecting rod 1202 to rotate, and the second connecting rod 1202 drives the first connecting rod 1201 to rotate, so that the joint between the first connecting rod 1201 and the second connecting rod 1202 is opened outward, and the dam body 13 is opened for limiting; the guide bar 1203 is used to support the elevating table 1204.

In an alternative embodiment, the rotating lever 10 is provided with a second rotating groove 1001 and a second transmission block 11; the second transmission block 11 is arranged at the lower end of the connecting frame 7, and one end of the second transmission block 11 is positioned in the second rotating groove 1001, is clamped with the rotating rod 10 and is detachably connected with the rotating rod 10; the rotating lever 10 includes a second rotating portion 1011 and a second threaded portion 1012; the second rotating part 1011 is positioned above the second thread part 1012, and the second rotating part 1011 is connected with the inside of the fixed rod 9 in a sliding way; second threaded portion 1012 is internally threaded with first threaded portion 92; one end of the second threaded portion 1012 is located in the clamping module 12 and is rotatably connected to the lifting platform 1204.

It should be noted that the first transmission block 8 and the second transmission block 11 can be replaced by the connecting frame 7; first transmission block 8 is used for rotating the dead lever, and second transmission block 11 is used for rotating dwang 10, and second transmission block 11 drives second rotation portion 1011 and rotates, and second rotation portion 1011 drives second screw thread portion 1012 and rotates to make second screw thread portion 1012 and first screw thread portion 92 screw-thread fit, make dwang 10 remove, dwang 10 drives elevating platform 1204 and removes, thereby makes joint module 12 open.

In an alternative embodiment, the conical head 902 is provided with soil guiding grooves.

It should be noted that the soil guiding groove can facilitate the fixing rod 9 to extend into the dam body 13.

In an alternative embodiment, the first transmission block 8 is provided with a protective sleeve 801 and a connection block 802; the protective sleeve 801 is arranged on the outer periphery of the first transmission block 8 and sleeved on the outer periphery of the fixed rod 9; one end of the connecting block 802 is located in the protective sleeve 801 and connected with the bottom of the first transmission block 8, and the other end of the connecting block 802 is slidably disposed in the first rotating groove 901.

The protective sleeve 801 can protect the first transmission block 8 from deformation and breakage during rotation.

In an alternative embodiment, the supporting plate 1 is provided with a skid 101, and the skid 101 is of a conical structure.

It should be noted that the anti-slip blocks 101 can support the supporting plate 1, so that the fixing rod 9 can be conveniently installed.

In an alternative embodiment, the splash plate 2 is of arcuate configuration.

It should be noted that the arc-shaped structure can better prevent waves, and annular backflow is formed when the waves come, so that the impact force of the waves is reduced.

In the utility model, the supporting plate 1 is placed on the dam body 13, the fixing rod 9 is inserted, two supporting rods 3 are inserted into the mounting groove 102, the driving motor 5 is positioned above the fixing rod 9, the mounting plate 4 is downward arranged, the mounting plate 4 drives the clamping table 6 to move, the clamping table 6 drives the connecting frame 7 to move, the connecting frame 7 drives the first transmission block 8 to move, the first transmission block 8 is connected with the fixing rod 9 in a clamping manner, the driving motor 5 is started, the driving motor 5 drives the first transmission block 8 to rotate, the first transmission block 8 drives the fixing rod 9 to rotate, the first thread part 92 is in thread transmission with the supporting plate 1, the fixing rod 9 is moved downward and embedded into the dam body 13, the supporting plate 1 and the water baffle 2 are installed on the dam body 13, and the dam body 13 is protected; after the installation, the support rod 3 is pulled out from the installation groove 102, and the next fixing rod 9 is installed.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A water conservancy river course revetment is characterized by comprising a supporting plate (1), a water baffle (2), a supporting rod (3), a mounting plate (4), a driving motor (5), a clamping table (6), a connecting frame (7), a first transmission block (8), a fixing rod (9) and a dam body (13);

the supporting plate (1) is of a V-shaped structure, one side of the supporting plate (1) is arranged on the dam body (13) and is parallel to the dam body (13); the water baffle (2) is arranged between the support plates (1); the supporting plate (1) is provided with a mounting groove (102); two mounting grooves (102) and two support rods (3) are symmetrically arranged; the two support rods (3) are connected with the support plate (1) in a sliding manner and can be detached, and the two support rods (3) are respectively positioned in the two mounting grooves (102); the mounting plate (4) is arranged on the two support rods (3) in a sliding manner; the driving motor (5) is arranged on the mounting plate (4), and the output end clamping table (6) of the driving motor (5) is in driving connection; the connecting frame (7) is clamped with the clamping table (6) and is detachably connected with the clamping table; the first transmission block (8) is arranged at the lower end of the connecting frame (7); the fixing rod (9) is arranged on the supporting plate (1) in a sliding mode, one end of the fixing rod (9) is located inside the dam body (13), and a first rotating groove (901) is formed in the fixing rod (9); one end of the first transmission block (8) is clamped in the first rotating groove (901) and is detachably connected with the first rotating groove (901); the fixing rod (9) comprises a first rotating part (91) and a first thread part (92); the first rotating parts (91) are provided with two sections, the first thread part (92) is positioned between the two first rotating parts (91), and the first rotating parts (91) and the first thread part (92) are integrally formed; the first thread part (92) is in threaded connection with the support plate (1).

2. The water conservancy river channel revetment according to claim 1, wherein a tapered head (902) and a clamping module (12) are provided at one end of the fixing rod (9) in the dam body (13); the clamping module (12) comprises a first connecting rod (1201), a second connecting rod (1202), a guide rod (1203) and a lifting platform (1204); the conical head (902) is arranged at the lower end of the lifting platform (1204); the first connecting rod (1201), the second connecting rod (1202) and the guide rods (1203) are all provided with a plurality of guide rods, one ends of the guide rods (1203) are all arranged at the upper end of the lifting platform (1204), and the other ends of the guide rods (1203) are all arranged on the first rotating part (91) in a sliding mode; the plurality of first connecting rods (1201) are rotatably arranged on the first rotating part (91); the second connecting rods (1202) are all rotatably arranged on the lifting platform (1204); the other ends of the first connecting rods (1201) are respectively and rotatably connected with the other ends of the second connecting rods (1202); a rotating rod (10) for driving the lifting platform (1204) to lift is arranged in the fixed rod (9).

3. The water conservancy river channel revetment according to claim 2, wherein the rotation rod (10) is provided with a second rotation groove (1001) and a second transmission block (11); the second transmission block (11) is arranged at the lower end of the connecting frame (7), one end of the second transmission block (11) is positioned in the second rotating groove (1001), is clamped with the rotating rod (10) and is detachably connected with the rotating rod (10); the rotating rod (10) comprises a second rotating part (1011) and a second threaded part (1012); the second rotating part (1011) is positioned above the second thread part (1012), and the second rotating part (1011) is connected with the inside of the fixed rod (9) in a sliding way; the second thread part (1012) is in threaded connection with the inside of the first thread part (92); one end of the second thread part (1012) is positioned in the clamping module (12) and is rotationally connected with the lifting platform (1204).

4. The water conservancy river channel revetment according to claim 1, wherein the cone head (902) is provided with a soil guide groove.

5. The water conservancy river channel revetment according to claim 1, wherein the first transmission block (8) is provided with a protective sleeve (801) and a connecting block (802); the protective sleeve (801) is arranged on the outer peripheral side of the first transmission block (8) and sleeved on the outer peripheral side of the fixed rod (9); one end of the connecting block (802) is positioned in the protective sleeve (801) and is connected with the bottom of the first transmission block (8), and the other end of the connecting block (802) is arranged in the first rotating groove (901) in a sliding mode.

6. The water conservancy river channel revetment according to claim 1, wherein the support plate (1) is provided with an anti-slip block (101), and the anti-slip block (101) is of a conical structure.

7. The water conservancy river channel revetment according to claim 1, wherein the water baffle (2) is of an arc structure.

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