CN216739518U

CN216739518U - Waterwall for hydraulic engineering

Info

Publication number: CN216739518U
Application number: CN202220136400.5U
Authority: CN
Inventors: 李晓通; 唐松松; 郝文豪; 肖庆功; 宋凯
Original assignee: Henan Luyu Water Conservancy Engineering Co ltd
Current assignee: Henan Luyu Water Conservancy Engineering Co ltd
Priority date: 2022-01-17
Filing date: 2022-01-17
Publication date: 2022-06-14
Anticipated expiration: 2032-01-17

Abstract

The application relates to the technical field of hydraulic engineering, in particular to a water retaining wall for hydraulic engineering, which comprises a base and an installation seat, wherein the base is installed at the bottom of a river channel, the installation seat is installed on the upper surface of the base, the upper surface of the base is rotatably connected with a water retaining plate and is connected with a sliding assembly in a sliding mode along the horizontal direction, the sliding direction of the sliding assembly is parallel to a plane formed by the water retaining plate during overturning, and the upper portions of the sliding assembly and the water retaining plate are rotatably connected with a rotating plate which is obliquely arranged; all be equipped with supporting element between mount pad and the rotor and between mount pad and the breakwater, supporting element includes along the vertical direction slide connect in the first slider of mount pad, along the incline direction of rotor slide connect in the rotor or along the incline direction of breakwater slide connect in the second slider of breakwater, rotate the gusset plate of connecting in first slider and second slider. This application can stably block river.

Description

Water retaining wall for hydraulic engineering

Technical Field

The application relates to hydraulic engineering's technical field especially relates to a waterwall for hydraulic engineering.

Background

When carrying out hydraulic engineering building, workman need separate the water resistance in the river, and then realize the building to the dam.

Through the retrieval, chinese patent publication No. CN212200265U discloses a water retaining device for hydraulic engineering construction, including base, lead screw and breakwater, the welding of the bottom left side top of base has the rotor plate, and the left side upper end fixedly connected with motor of rotor plate to the end-to-end connection of motor has the lead screw, the end welding of breakwater has the movable block, and the inboard middle part fixed mounting of breakwater has the slide bar, the left side middle part screwed connection of base has electric telescopic handle, and electric telescopic handle's top fixedly connected with sliding block, be connected with the extension rod around the base, and the bottom welding of extension rod has first fixed block. This can improve water retaining device for hydraulic engineering construction of steadiness improves water retaining device's for hydraulic engineering construction steadiness through extension rod, first fixed block and the second fixed block that sets up, and the regulation of breakwater angle is realized to lead screw, turning block, movable block, and the emergence of breakwater rusted and corrosion problems is avoided to the guard plate.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: a breakwater for manger plate only supports through electric telescopic handle, then the breakwater is probably taken place to buckle under the impact of water, has influenced the normal of river course water and has blockked, consequently needs to improve.

SUMMERY OF THE UTILITY MODEL

In order to stably block river water, this application provides a waterwall for hydraulic engineering.

The application provides a pair of waterwall for hydraulic engineering adopts following technical scheme: a water retaining wall for hydraulic engineering comprises a base and an installation seat, wherein the base is installed at the bottom of a river channel, the installation seat is installed on the upper surface of the base, the upper surface of the base is rotatably connected with a water retaining plate and is connected with a sliding assembly in a sliding mode along the horizontal direction, the sliding direction of the sliding assembly is parallel to a plane formed by the water retaining plate during overturning, and the upper portions of the sliding assembly and the water retaining plate are rotatably connected with the same rotating plate which is obliquely arranged; all be equipped with supporting element between mount pad and the rotor and between mount pad and the breakwater, supporting element includes along the vertical direction slide connect in the first slider of mount pad, along the incline direction of rotor slide connect in the rotor or along the incline direction of breakwater slide connect in the second slider of breakwater, rotate the gusset plate of connecting in first slider and second slider.

Optionally, the sliding assembly comprises a horizontal limiting dovetail groove formed in the upper surface of the base, a dovetail block is embedded in the limiting dovetail groove in a sliding mode, the dovetail block supplies the rotating plate to be far away from one end of the water baffle plate to be connected in a rotating mode, a sliding plate is installed on the dovetail block, the sliding plate is provided with an insertion nail in a sliding mode in the vertical direction, and the upper surface of the base is provided with a plurality of limiting grooves which are sequentially arranged in the extending direction of the limiting dovetail groove and are used for the insertion nail to penetrate.

Optionally, the rotating plate is provided with two rotating plates between the sliding assembly and the water baffle, the two limiting dovetail grooves are arranged on the upper surface of the base, the dovetail blocks correspond to the limiting dovetail grooves one to one, and the sliding plate is connected to the two dovetail blocks.

Optionally, the limiting groove runs through the lower surface of the base, and the plug pins can be arranged on the sliding plate and the limiting groove in a penetrating mode and inserted into the bottom of the river channel.

Optionally, a plurality of groups of supporting units are arranged between the mounting seat and the rotating plate and between the mounting seat and the water baffle, and the lengths of the reinforcing plates in the supporting units between the mounting seat and the rotating plate or between the mounting seat and the water baffle are different.

Optionally, two sides of the mounting seat are respectively provided with a first dovetail groove which extends along the vertical direction and is used for the sliding embedding of the first sliding block, and the first dovetail groove penetrates through the upper end of the mounting seat; all be equipped with on breakwater and the rotor and supply the second slider to slide and inlay the second dovetail of establishing, breakwater all is equipped with the wearing and establishing groove that supplies the second slider to slide to wear to establish towards one side of mount pad and rotor one side of mount pad, wearing and establishing groove intercommunication in the second dovetail that corresponds.

Optionally, a plurality of first embedding grooves sequentially arranged along the length direction of the first dovetail groove are formed in the groove wall of the first dovetail groove, and a first bolt for screwing into the first embedding groove is in threaded fit with the first sliding block; a plurality of second embedding grooves which are sequentially arranged along the length direction of the second dovetail groove are formed in the groove wall of the second dovetail groove, and a second bolt which is screwed into the second embedding grooves is matched with the second sliding block in a threaded mode.

To sum up, this application includes following beneficial technological effect:

1. the water baffle can block river water at different inclination angles, and in the rotating process of the water baffle, the dovetail block slides in the limiting dovetail groove, so that the rotating plate, the base and the water baffle can always form a triangular structure, and the stability of the water baffle is improved;

2. the sliding plate can be fixed at different positions on the base, so that the stability of the water baffles with different inclination angles is ensured, the inserting nails can penetrate through the sliding plate and the inserting nails of the limiting grooves and are inserted into the bottom of the river channel, and the stability of the base in the river channel is improved;

3. the first sliding block can slide in the first dovetail groove, and the second sliding block can slide in the second dovetail groove, so that the reinforcing plate can support the water baffle and the rotating plate at different inclination angles, and the stability of the water baffle and the rotating plate is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure in the embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present application showing a slider assembly;

FIG. 3 is a schematic sectional view showing a support unit in the embodiment of the present application;

FIG. 4 is a schematic structural view showing a mount and a splash plate in the embodiment of the present application.

Reference numerals: 1. a base; 11. a ground nail; 2. a water baffle; 21. a second dovetail groove; 3. a sliding assembly; 31. a limiting dovetail groove; 32. a dovetail block; 33. a rotating plate; 34. a slide plate; 35. inserting a nail; 36. a limiting groove; 4. a mounting seat; 41. a first dovetail groove; 5. a support unit; 51. a first slider; 52. a second slider; 53. a reinforcing plate; 54. a first embedding groove; 55. a first bolt; 56. a second embedded groove; 57. a second bolt; 58. the groove is penetrated.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses waterwall for hydraulic engineering. As shown in fig. 1, the water retaining wall for the hydraulic engineering comprises a base 1, wherein the base 1 is installed at the bottom of a river channel through a plurality of ground nails 11; the upper surface of base 1 rotates and is connected with breakwater 2, and breakwater 2 can block with the inclination of difference carries out the river.

The upper surface of the base 1 is provided with a sliding assembly 3, the sliding assembly 3 comprises two limiting dovetail grooves 31 horizontally arranged on the upper surface of the base 1, and the length direction of each limiting dovetail groove 31 is parallel to a plane formed by the water baffle 2 when the water baffle 2 is turned over; all slide in the spacing dovetail 31 and inlay and be equipped with dovetail block 32, dovetail block 32 rotates with breakwater 2 and is connected with the rotor 33 that is the slope setting with the piece, and at breakwater 2's rotation in-process, dovetail block 32 will slide in spacing dovetail 31 for rotor 33, base 1 and breakwater 2 can enclose into the triangle-shaped structure all the time, have improved breakwater 2's stability.

As shown in fig. 1 and 2, the two dovetail blocks 32 are provided with the same sliding plate 34, and the sliding plate 34 is slidably attached to the upper surface of the base 1; the sliding plate 34 is provided with inserting pins 35 in a penetrating manner in a sliding manner along the vertical direction, the upper surface of the base 1 is provided with a plurality of limiting grooves 36 sequentially arranged along the extending direction of the limiting dovetail grooves 31, and the inserting pins 35 can be arranged on the sliding plate 34 and any limiting groove 36 in a penetrating manner, so that the sliding plate 34 can be fixed at different positions on the base 1, and the stability of the water baffle 2 with different inclination angles is ensured; the spacing groove 36 runs through in base 1's lower surface for the plug pin 35 of wearing to locate slide 34 and spacing groove 36 can insert the river course bottom, has improved the stability of base 1 in the river course.

As shown in fig. 1 and 3, a mounting seat 4 is mounted on the upper surface of the base 1, and two first dovetail grooves 41 extending in the vertical direction are respectively arranged on two sides of the mounting seat 4; two groups of second dovetail grooves 21 extending along the self-inclined direction are arranged on the water baffle 2, and each rotating plate 33 is provided with the second dovetail groove 21 extending along the self-inclined direction.

A plurality of supporting units 5 are arranged between the installation seat 4 and the rotating plate 33 and between the installation seat 4 and the water baffle 2, each supporting unit 5 comprises a first sliding block 51 which is embedded in the first dovetail groove 41 in a sliding manner, a second sliding block 52 which is embedded in the second dovetail groove 21 in a sliding manner, and a reinforcing plate 53 which is connected to the first sliding block 51 and the second sliding block 52 in a rotating manner, and the lengths of the reinforcing plates 53 in the supporting units 5 which are arranged between the installation seat 4 and the rotating plate 33 or between the installation seat 4 and the water baffle 2 are different. The first slider 51 can slide in the first dovetail groove 41, and the second slider 52 can slide in the second dovetail groove 21, so that the reinforcing plate 53 can support the water guard 2 and the rotating plate 33 at different inclination angles, and the stability of the water guard 2 and the rotating plate 33 is improved.

As shown in fig. 3 and 4, a plurality of first embedding grooves 54 are sequentially arranged along the length direction of the first dovetail groove 41 on the groove wall of the first dovetail groove 41, a first bolt 55 is screwed on the first slider 51, and the first bolt 55 can be screwed into the first embedding grooves 54 in a rotating manner, so that the first slider 51 is locked and fixed, and the stability of the first slider 51 and the reinforcing plate 53 in the mounting base 4 is improved.

The groove wall of the second dovetail groove 21 is provided with a plurality of second embedding grooves 56 which are sequentially arranged along the length direction of the second dovetail groove 21, the second sliding block 52 is in threaded fit with a second bolt 57, and the second bolt 57 can be screwed into the second embedding grooves 56 in a rotating manner, so that the second sliding block 52 is locked and fixed on the rotating plate 33 or the water baffle 2, and the stability of the second sliding block 52 and the reinforcing plate 53 on the rotating plate 33 or the water baffle 2 is improved.

The first dovetail groove 41 penetrates through the upper end of the mounting seat 4, so that the first sliding block 51 is convenient to assemble and disassemble on the mounting seat 4; one side of breakwater 2 towards mount pad 4 and one side of rotor plate 33 towards mount pad 4 all are equipped with the wear-out groove 58 that supplies second slider 52 to slide to wear to establish, and wear-out groove 58 communicates in the second dovetail 21 that corresponds, has made things convenient for the dismouting of second slider 52 on rotor plate 33 or breakwater 2.

The embodiment of the application provides a water retaining wall for hydraulic engineering's implementation principle does: at the manger plate in-process of breakwater 2, two blocks of rotor plates 33 on the base 1 will support breakwater 2, and gusset plate 53 on the mount pad 4 will support rotor plate 33 and breakwater 2 for rotor plate 33 and breakwater 2 are all difficult for buckling and remain stable, so this application can stabilize the river and block.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a waterwall for hydraulic engineering which characterized in that: the river channel water-retaining plate overturning device comprises a base (1) installed at the bottom of a river channel and an installation seat (4) installed on the upper surface of the base (1), wherein the upper surface of the base (1) is rotatably connected with a water-retaining plate (2) and is connected with a sliding assembly (3) in a sliding manner along the horizontal direction, the sliding direction of the sliding assembly (3) is parallel to a plane formed by the water-retaining plate (2) during overturning, and the upper parts of the sliding assembly (3) and the water-retaining plate (2) are rotatably connected with a rotating plate (33) which is obliquely arranged on the same block; between mount pad (4) and rotor plate (33) and between mount pad (4) and breakwater (2) all be equipped with supporting element (5), supporting element (5) slide along vertical direction and connect in first slider (51) of mount pad (4), slide along the incline direction of rotor plate (33) and connect in rotor plate (33) or slide along the incline direction of breakwater (2) and connect in second slider (52) of breakwater (2), rotate gusset plate (53) of connecting in first slider (51) and second slider (52).

2. The retaining wall for hydraulic engineering of claim 1, characterized in that: sliding assembly (3) locate spacing dovetail (31) of base (1) upper surface including the level, sliding fit is equipped with dovetail block (32) in spacing dovetail (31), dovetail block (32) supply rotor plate (33) to keep away from the one end rotation connection of breakwater (2), install slide (34) on dovetail block (32), slide along vertical direction on slide (34) and wear to be equipped with inserted nail (35), the upper surface of base (1) is equipped with a plurality of spacing grooves (36) of arranging in proper order and supplying inserted nail (35) to wear to establish along spacing dovetail (31) extending direction.

3. The retaining wall for hydraulic engineering according to claim 2, characterized in that: the two rotating plates (33) are arranged between the sliding assembly (3) and the water baffle (2), the two limiting dovetail grooves (31) are arranged on the upper surface of the base (1), the dovetail blocks (32) correspond to the limiting dovetail grooves (31) one to one, and the sliding plate (34) is connected to the two dovetail blocks (32).

4. The waterwall for hydraulic engineering of claim 3, wherein: limiting groove (36) run through in the lower surface of base (1), and slide (34) and limiting groove (36) and insert the river course bottom can be located in peg (35) penetration.

5. The waterwall for hydraulic engineering of claim 1, wherein: the supporting unit (5) is provided with a plurality of groups between the mounting seat (4) and the rotating plate (33) and between the mounting seat (4) and the water baffle (2), and the lengths of the reinforcing plates (53) in the supporting unit (5) between the mounting seat (4) and the rotating plate (33) or between the mounting seat (4) and the water baffle (2) are different.

6. The waterwall for hydraulic engineering of claim 5, wherein: two sides of the mounting seat (4) are respectively provided with a first dovetail groove (41) which extends along the vertical direction and is used for the sliding embedding of the first sliding block (51), and the first dovetail grooves (41) penetrate through the upper end of the mounting seat (4); all be equipped with on breakwater (2) and rotor plate (33) and supply second slider (52) slip to inlay second dovetail (21) of establishing, breakwater (2) all are equipped with wear-to-establish groove (58) that supply second slider (52) to slide to wear to establish towards one side of mount pad (4) and rotor plate (33) one side of mount pad (4), and wear-to-establish groove (58) communicate in corresponding second dovetail (21).

7. The retaining wall for hydraulic engineering of claim 6, characterized in that: a plurality of first embedding grooves (54) which are sequentially arranged along the length direction of the first dovetail groove (41) are formed in the groove wall of the first dovetail groove (41), and a first bolt (55) which is screwed into the first embedding groove (54) is in threaded fit with the first sliding block (51); a plurality of second embedding grooves (56) which are sequentially arranged along the length direction of the second dovetail groove (21) are formed in the groove wall of the second dovetail groove (21), and second bolts (57) which are screwed into the second embedding grooves (56) are matched with the second sliding blocks (52) in a threaded mode.