CN220598341U - Novel water conservancy ecological dike protection - Google Patents

Abstract

The utility model provides a novel hydraulic ecological dike, includes dykes and dams base member, rubble layer, guard plate, fixed inserted bar, breakwater, location locking piece, fastening locking lever, location plug bush, dykes and dams base member connects the rubble layer, the guard net is connected to the rubble layer, the guard net is connected the guard plate, the rubble layer is connected to the guard plate, the guard plate has a plurality of fixed inserted bars, fixed inserted bar inserts the rubble layer, the guard plate both sides have the removal slide, remove the slide and position the piece and be suited, the removal slide is connected to the location piece, the location piece slides on removing the slide, the location piece has the breakwater, the reinforcement pull rod one side is connected to the breakwater, consolidate the pull rod opposite side and connect the location piece, the guard plate is connected in proper order to the location branch, the location branch passes through threaded connection location piece, the location branch lower extreme has spacing plectane, the guard plate is connected to the guard plate inboard, the motor is connected to the location branch upper end, the guard plate is connected to the guard plate, waterproof box is connected to the guard plate, the motor is connected to the waterproof box inboard.

Description

Novel water conservancy ecological dike protection

Technical Field

The utility model relates to the field of water conservancy dike protection, in particular to a novel water conservancy ecological dike protection.

Background

The prior patent (bulletin number: CN 207537962U) proposes a hydraulic engineering ecological slope protection with water level detection function, which comprises a wireless signal transmitter, vegetation, a substrate, a dike protection brick layer and a water level detection pipe, wherein a sand stone layer is arranged above the substrate, a gravel layer is paved at the upper end of the sand stone layer, a stone layer is arranged at the upper end of the gravel layer, a dike protection brick layer is paved at the upper end of the stone layer, the dike protection brick layer is formed by hexagon brickwork, a vegetation cultivation groove is formed in the hexagon brickwork, vegetation is cultivated in the vegetation cultivation groove, the water level detection groove is formed in the front end of the dike protection brick layer, however, a blocking protection mechanism is absent at the bottom of a matrix of the device, and when water body in a river gushes up a dike, water flows to strongly wash the matrix, soil on the surface of the matrix is taken away, water and soil loss is prevented, and disadvantages are caused.

Disclosure of Invention

The utility model aims at the defects existing in the prior art, and provides the novel water conservancy ecological dike which is used for reinforcing and protecting the water conservancy ecological dike surface, preventing the dike surface from landslide and broken stone scattering, improving the stability and safety of the water conservancy ecological dike surface, simultaneously preventing water flow from rising in a river channel by additionally arranging the water baffle, causing strong impact on a dike matrix, avoiding water flow scouring, taking away partial soil on the upper surface of the matrix, improving the protection performance of the dike surface, reducing the soil loss of the dike protection slope, correspondingly changing the protection position of the water baffle according to the actual water level height in the river channel, and has flexible structure, convenient operation and stable support.

The utility model aims at realizing the following technical scheme:

the utility model provides a novel ecological embankment of water conservancy, includes dykes and dams base member, rubble layer, guard plate, fixed inserted bar, breakwater, location locking piece, fastening locking lever, location plug bush, dykes and dams base member connection rubble layer, the guard net is connected to the rubble layer, the guard net is connected the guard plate, the rubble layer is connected to the guard plate, the guard plate has a plurality of fixed inserted bars, fixed inserted bar inserts the rubble layer, the guard plate both sides have the removal slide, remove the slide and position the piece and be suitable for, the removal slide is connected to the location piece, the location piece slides on removing the slide, the location piece has the breakwater, the breakwater is connected and is consolidated pull rod one side, consolidate pull rod opposite side and connect the location piece, the guard plate is connected in proper order to the location branch, the location branch passes through threaded connection location piece, the location branch lower extreme has spacing plectane, the guard plate is connected to the inboard motor of spacing plectrum, the motor is connected to the location branch upper end, waterproof box is connected to the guard plate, the motor is connected to the waterproof box inboard.

The protection plate is connected with the movable rotating plate, the movable rotating plate is provided with a positioning locking groove, the positioning locking groove is adaptive to the positioning locking block, and the positioning locking groove is connected with the positioning locking block.

Advantageous effects

The protection plate is paved and fixed on the dam slope, the protection net is used for reinforcing and protecting the rubble layer, preventing the dam surface from landslide and rubble scattering, improving the stability and safety of the water conservancy ecological dike protection surface, simultaneously preventing water flow in a river channel from upwelling by adding the water baffle, causing strong impact on a dam matrix, avoiding the water flow from scouring, taking away part of soil on the upper surface of the matrix, improving the protection performance of the dike surface, reducing the soil loss of the dike protection slope, and being reasonable in structure.

The water baffle, the reinforcing pull rod and the positioning support blocks are mutually connected to form the triangular support frame, so that the water baffle support stability and the impact resistance are improved, deformation caused by the impact of water waves is prevented, the positioning support blocks are in positioning connection with the positioning support rods through threads, when the motor drives the positioning support rods to rotate, the positioning support blocks drive the water baffle to lift and displace along with the positioning support rods, the protection position of the water baffle can be correspondingly changed according to the actual water level height in a river channel, and the water baffle is flexible in structure and convenient to operate.

The positioning bowls arranged on the two sides of the positioning plug bush can strengthen positioning fulcra among the positioning plug bush, the dam matrix and the crushed stone layer, provide a stress fulcrum for supporting and fixing the protection plate, avoid the influence of inclination angle and the like of the dam surface, enable the protection plate to slide downwards, improve the laying stability of the protection plate, enable the fastening lock rod to be inserted and positioned between the fastening lock rod and the positioning plug bush, strengthen the upper part of the protection plate to compress and position, enable the fastening lock rod to be embedded into the limiting clamping groove through the limiting clamping block, enable the positioning lock block to be embedded into the positioning lock groove, and enable the movable rotating plate to be braked and locked, so that the structural stability is improved, and the structure is reasonable.

Drawings

Fig. 1 is a schematic diagram of a novel hydraulic ecological dike protection structure.

Fig. 2 is a sectional view of the novel hydraulic ecological dike protection structure.

Fig. 3 is a cross-sectional view of a connecting structure of a positioning support block and a positioning support rod according to the present utility model.

Fig. 4 is a cross-sectional view of the connecting structure of the positioning sleeve, the fastening lock rod and the protection plate.

Fig. 5 is a cross-sectional view of a positioning sleeve according to the present utility model.

FIG. 6 is a cross-sectional view of a connecting structure of a positioning insert and a fastening lock rod according to the present utility model.

Fig. 7 is a cross-sectional view of a connection structure of a limit clamping block and a limit clamping groove according to the present utility model.

Fig. 8 is a cross-sectional view of a connecting structure of a positioning sleeve and a fastening lock rod according to the present utility model.

Fig. 9 is an enlarged view of the structure a of fig. 4 according to the present utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the drawings and examples:

example 1:

the utility model provides a novel hydraulic ecological dike, includes dyke base member 01, rubble layer 02, guard plate 04, fixed inserted bar 05, breakwater 09, location locking piece 17, fastening locking bar 20, location plug bush 25, dyke base member 01 connects rubble layer 02, rubble layer 02 connects protection network 03, protection network 03 connects guard plate 04, guard plate 04 connects rubble layer 02, guard plate 04 has a plurality of fixed inserted bars 05, fixed inserted bar 05 inserts rubble layer 02, guard plate 04 lays and is fixed in dyke domatic, protection network 03 that it has consolidates the protection to rubble layer 02, prevent dyke face landslide, the rubble scatter, when improving hydraulic ecological dike face steadiness and security, and through adding and establishing breakwater 09, prevent rivers upward gush in the river course, cause strong impact to dyke base member 01, take away base member upper surface part soil after avoiding rivers to wash, improve the face protectiveness to dyke face, the soil loss of the slope surface of the dike is reduced, the structure is reasonable, the two sides of the protection plate 04 are provided with the movable slide ways 26, the movable slide ways 26 are matched with the positioning support blocks 11, the positioning support blocks 11 are connected with the movable slide ways 26, the positioning support blocks 11 slide on the movable slide ways 26, the positioning support blocks 11 are provided with water baffles 09, the water baffles 09 are connected with one side of the reinforcing pull rod 10, the other side of the reinforcing pull rod 10 is connected with the positioning support blocks 11, the positioning support rods 06 are sequentially connected with the protection plate 04 and the positioning support blocks 11, the positioning support rods 06 are connected with the positioning support blocks 11 through threads, the lower ends of the positioning support rods 06 are provided with limiting circular plates 12, the inner sides of the limiting circular plates 12 are connected with the protection plates 04, the upper ends of the positioning support rods 06 are connected with the motor 07, the protection plate 04 is connected with the waterproof box 08, the inner sides of the waterproof box 08 are connected with the motor 07, the water baffles 09, the reinforcing pull rod 10 and the positioning support blocks 11 are mutually connected and form a triangular supporting frame, the supporting stability and the resistance of the water baffle 09 are improved, the water baffle 09 is prevented from being impacted by water waves to be beaten to deform, and meanwhile, the positioning support blocks 11 are connected with the positioning support rods 06 in a positioning mode through threads, so that when the motor 07 drives the positioning support rods 06 to rotate, the positioning support blocks 11 drive the water baffle 09 to lift and displace along with the positioning support blocks, and accordingly the protection position of the water baffle 09 can be correspondingly changed according to the actual water level height in a river channel, and the water baffle 09 is flexible in structure and convenient to operate.

Example 2:

according to the utility model, the protection plate 04 is connected with the movable rotating plate 19, the movable rotating plate 19 is provided with a positioning locking groove 18, the positioning locking groove 18 is matched with the positioning locking piece 17, the positioning locking piece 17 is connected with one end of the spring strip 13, the other end of the spring strip 13 is connected with the protection plate 04, the protection plate 04 is connected with the positioning locking piece 17, the positioning locking piece 17 is provided with a fastening thread groove 15, the protection plate 04 is provided with a limiting perforation 16, the fastening thread groove 15 and the limiting perforation 16 are matched with the movable deflector rod 14, the movable deflector rod 14 passes through the limiting perforation 16, and the inner end of the movable deflector rod 14 is connected with the fastening thread groove 15 through threads.

Example 3:

the outside of the movable rotating plate 19 is provided with a shifting plate 27, the inside of the movable rotating plate 19 is provided with a fastening lock rod 20, the fastening lock rod 20 is connected with a positioning plug bush 25, the positioning plug bush 25 is provided with a clamping block chute 22, the fastening lock rod 20 is provided with a limiting clamping block 21, the limiting clamping block 21 is matched with the clamping block chute 22, the limiting clamping block 21 is connected with the clamping block chute 22, the clamping block chute 22 is provided with a limiting clamping groove 23, the limiting clamping groove 23 is matched with the limiting clamping block 21, and the limiting clamping block 21 is connected with the limiting clamping groove 23.

Example 4:

according to the utility model, the positioning plug bush 25 is sequentially connected with the protection plate 04, the gravel layer 02 and the dam matrix 01, the positioning plug bush 25 is provided with the positioning bowl 24, the positioning bowl 24 is divided into the upper positioning bowl 241 and the lower positioning bowl 242, the upper positioning bowl 241 is connected with the gravel layer 02, the lower positioning bowl 242 is connected with the dam matrix 01, the positioning bowl 24 arranged at two sides of the positioning plug bush 25 can strengthen positioning fulcra between the positioning plug bush 25 and the dam matrix 01 and the gravel layer 02, a stress fulcrum is provided for supporting and fixing the protection plate 04, the influence of the inclination angle of a dike surface and the like is avoided, displacement is downward sliding, the laying stability of the protection plate 04 is improved, the fastening lock rod 20 is inserted and positioned with the positioning plug bush 25, the upper part of the protection plate 04 is tightly positioned, the positioning lock block 21 is embedded into the positioning lock groove 23, the positioning lock block 17 is embedded into the positioning lock groove 18, and the movable rotating plate 19 is braked, so that the structural stability is improved, and the structure is reasonable.

Example 5:

the installation step comprises the following steps: firstly, the device positioning support structure is assembled, the positioning plug bush 25 is embedded in the dam matrix 01, the upper positioning bowl 241 and the lower positioning bowl 242 are respectively embedded in the gravel layer 02 and the dam matrix 01, the protection plate 04 is placed on the upper portion of the gravel layer 02 until the protection net 03 is attached to the gravel layer 02, the fixed plug rod 05 is inserted into the gravel layer 02, the upper end of the positioning plug bush 25 is inserted into the protection plate 04, then the spring strip 13 and the positioning lock block 17 are sequentially arranged in the protection plate 04, the fastening thread groove 15 corresponds to the position of the limiting perforation 16, the movable deflector rod 14 passes through the limiting perforation 16 until the inner end of the movable deflector rod is embedded in the fastening thread groove 15, the movable deflector rod 14 is fastened and connected with the positioning lock block 17 through threads, finally, the fastening lock rod 20 is inserted into the positioning plug bush 25, the limiting fixture block 21 is embedded in the fixture block chute 22 until the inner surface of the movable rotating plate 19 is attached to the protection plate 04, the fastening lock rod 20 is driven to rotate through the rotating deflector plate 27 until the limiting fixture block 21 is embedded in the limiting clamp groove 23, the positioning lock block 17 is embedded into the positioning lock groove 18, after the device positioning support structure is assembled, the device positioning support structure is sequentially arranged in the protection plate 04, the fastening structure is arranged in the position of the fastening plug rod 17, the fastening plug rod is sequentially corresponding to the position of the limiting perforation 16 until the inner end is embedded into the fastening thread groove 15, the limiting thread groove 15, the positioning plug rod 06 is connected with the positioning plug rod 06, the positioning plug rod 11 is sequentially, the positioning plug rod 09 is mounted in the sealing position of the sealing plug rod, and the sealing plug rod 11, the sealing plug rod is mounted to the sealing plug rod, and the sealing plug is mounted to the sealing, and the sealing plug.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (4)

1. A novel water conservancy ecological dike is characterized by comprising a dike matrix (01), a gravel layer (02), a protection plate (04), a fixed inserted link (05), a water baffle (09), a positioning lock block (17), a fastening lock rod (20) and a positioning insert sleeve (25), wherein the dike matrix (01) is connected with the gravel layer (02), the gravel layer (02) is connected with a protection net (03), the protection net (03) is connected with the protection plate (04), the protection plate (04) is connected with the gravel layer (02), the protection plate (04) is provided with a plurality of fixed inserted links (05), the fixed inserted links (05) are inserted into the gravel layer (02), two sides of the protection plate (04) are provided with movable slide ways (26), the movable slide ways (26) are matched with positioning support blocks (11), the positioning support blocks (11) are connected with the movable slide ways (26), the positioning support blocks (11) slide on the movable slide ways (26), the water baffle (09) are connected with the positioning support blocks (11), one side of the reinforcing pull rod (10) is connected with the other side of the reinforcing pull rod (10), the positioning support blocks (11), the positioning support blocks (06) are connected with the protection plate (04) in sequence, the two sides of the movable support blocks (06) are connected with the movable support blocks through threads, the lower extreme of location branch (06) has spacing plectane (12), and guard plate (04) is connected to spacing plectane (12) inboard, and motor (07) is connected to location branch (06) upper end, and guard plate (04) is connected to motor (07), and waterproof box (08) is connected to guard plate (04), and motor (07) is connected to waterproof box (08) inboard.

2. The novel hydraulic ecological dike dam according to claim 1, wherein the protection plate (04) is connected with the movable rotating plate (19), the movable rotating plate (19) is provided with a positioning lock groove (18), the positioning lock groove (18) is adaptive to the positioning lock block (17), the positioning lock groove (18) is connected with the positioning lock block (17), the positioning lock block (17) is connected with one end of the spring strip (13), the other end of the spring strip (13) is connected with the protection plate (04), the protection plate (04) is connected with the positioning lock block (17), the positioning lock block (17) is provided with a fastening thread groove (15), the protection plate (04) is provided with a limiting perforation (16), the fastening thread groove (15), the limiting perforation (16) is adaptive to the movable deflector rod (14), the movable deflector rod (14) penetrates through the limiting perforation (16), and the inner end of the movable deflector rod (14) is connected with the fastening thread groove (15) through threads.

3. The novel hydraulic ecological dike dam according to claim 2, wherein the movable rotating plate (19) is provided with a poking plate (27) on the outer side, the inner side of the movable rotating plate (19) is provided with a fastening lock rod (20), the fastening lock rod (20) is connected with a positioning plug bush (25), the positioning plug bush (25) is provided with a fixture block chute (22), the fastening lock rod (20) is provided with a limiting fixture block (21), the limiting fixture block (21) is adapted to the fixture block chute (22), the limiting fixture block (21) is connected with the fixture block chute (22), the fixture block chute (22) is provided with a limiting clamping groove (23), the limiting clamping groove (23) is adapted to the limiting fixture block (21), and the limiting fixture block (21) is connected with the limiting clamping groove (23).

4. The novel hydraulic ecological dike dam according to claim 3, wherein the positioning plug bush (25) is sequentially connected with the protection plate (04), the gravel layer (02) and the dike matrix (01), the positioning plug bush (25) is provided with the positioning bowl (24), the positioning bowl (24) is divided into an upper positioning bowl (241) and a lower positioning bowl (242), the upper positioning bowl (241) is connected with the gravel layer (02), and the lower positioning bowl (242) is connected with the dike matrix (01).