CN214530532U - Hydraulic engineering dyke reinforcing apparatus - Google Patents

Abstract

The application relates to the technical field of hydraulic engineering, in particular to a hydraulic engineering embankment reinforcement device, which comprises a protection embankment arranged on two sides of a river channel, wherein the bottom of the river channel is fixedly connected with a vertical support column, the end part of the support column is fixedly connected with a horizontal butt plate, two ends of the butt plate extend to the side wall of the protection embankment, the end part of the butt plate is provided with a reinforcement assembly, and the reinforcement assembly has a reinforcement effect on the side wall of the protection embankment; the below of butt joint board is equipped with the interception subassembly, through the interception subassembly is intercepted the drift thing on the river course, and this application has the lateral wall to the protection embankment and strengthens and reinforced effect.

Description

Hydraulic engineering dyke reinforcing apparatus

Technical Field

The application relates to hydraulic engineering's field especially relates to a hydraulic engineering dyke reinforcing apparatus.

Background

The development and repair of hydraulic engineering are favorable for promoting the economic development of China, a very important component in the hydraulic engineering is a dam, the dam is a waterproof and water-retaining building or structure, the stability of the hydraulic engineering is closely related to the construction of the dam, and therefore the stability and the safety of the dam are guaranteed.

A related patent document with an authorization publication number of CN208136834U discloses a novel hydraulic engineering protection embankment, which includes a protection embankment body, wherein a plurality of protection body units are arranged side by side in the extension direction of the protection embankment body, each protection body unit includes an anti-seepage protection body and an anti-impact protection body riveted with each other, geotextile is arranged between the anti-seepage protection body and the protection embankment body, a diversion trench is arranged on the anti-impact protection body, foundation bolts are arranged at the top end and the bottom end of each protection body unit, and a drainage channel is arranged at the bottom of the protection embankment body. The protection body units with corresponding number are arranged in parallel according to the actual length of the protection dyke body, so that the construction period is greatly shortened, and any protection body unit can be directly replaced after being scrapped, so that the efficiency is high; the adjacent straight plate wings can form a water channel consistent with the gradient direction, and the water channel, the diversion trench and the drainage channel drain water together; the anti-seepage protection body and the geotextile have the function of protecting the protection dyke body, and the anti-impact protection body can effectively resist the flowing water erosion and the water pressure of the rising of the horizontal plane. The utility model relates to a rationally, simple structure, be fit for extensive popularization.

According to the related technology, in the flood season, the water flow in the river channel is increased, and the side wall of the protection dike is easily damaged due to the fact that the larger water flow washes the side wall of the protection dike for a long time.

SUMMERY OF THE UTILITY MODEL

In order to strengthen and consolidate the lateral wall to the dyke, this application provides a hydraulic engineering dyke reinforcing apparatus.

The application provides a hydraulic engineering dyke reinforcing apparatus adopts following technical scheme:

a hydraulic engineering embankment reinforcement device comprises a protection embankment arranged on two sides of a river channel, wherein the bottom of the river channel is fixedly connected with a vertical support column, the end part of the support column is fixedly connected with a horizontal butt plate, two ends of the butt plate extend to the side wall of the protection embankment, the end part of the butt plate is provided with a reinforcement assembly, and the reinforcement assembly has a reinforcement effect on the side wall of the protection embankment; and an intercepting component is arranged below the abutting plate and is used for intercepting driftage on a river channel.

Through adopting above-mentioned technical scheme, the butt board butt that sets up on support column and the support column tip is on the lateral wall of embankment, and the reinforcement subassembly of butt board tip can play the reinforcement effect to the lateral wall of embankment. The interception component below the butt plate can intercept the floating objects in the water flow in the process that the water flow passes through the river channel. The utility model provides a protection embankment among the correlation technique lateral wall is impaired under the impact easily when discharge is great, and the improvement of this application lies in can playing reinforced effect to the lateral wall of protection embankment greatly.

Preferably, the reinforcing component comprises two abutting blocks, the two abutting blocks are arranged at two ends of the abutting plate respectively, fixing screws penetrate through the abutting blocks, and the abutting blocks are fixed on the side wall of the protective embankment through the fixing screws.

Through adopting above-mentioned technical scheme, the lateral wall butt of butt piece and embankment to through set screw nail tight on the lateral wall of embankment, the butt piece can increase the area with the embankment contact, the bearing effect to the lateral wall of embankment has been strengthened in setting up of butt piece, thereby makes the embankment both sides wall have stronger stability.

Preferably, fixedly connected with swash plate between butt joint board and the support column, the both ends of swash plate are fixed connection respectively between butt joint board and support column.

Through adopting above-mentioned technical scheme, the setting up of swash plate makes and forms the triangle-shaped structure between swash plate, butt joint board and the support column to holistic stability has been strengthened greatly.

Preferably, the intercepting component comprises an intercepting plate, the intercepting plate is hinged to the lower surface of the abutting plate, and the intercepting plate is horizontally arranged.

Through adopting above-mentioned technical scheme, when the rivers in the river course flow, rivers can drive the floater in the rivers and pass through the interception board, and the interception board can intercept the floater of rivers top, plays the effect of administering the river course environment.

Preferably, a torsional spring is arranged on a hinged shaft of the intercepting plate and the abutting plate.

Through adopting above-mentioned technical scheme, the setting of torsional spring plays the effect that resets to the interception board. When the water flow in the river channel is large and the flow velocity is high, the impact force of the water flow can push the interception plate to rotate along the hinged position below the abutting plate, so that the effect of protecting the interception plate from being bent or damaged by the impact force is achieved, and when the water flow is small and not enough to push the interception plate, the interception plate can be restored to the vertical state under the restoring force of the torsion spring.

Preferably, a sliding groove is formed in the side surface of the abutting plate, a bidirectional screw rod is rotatably connected in the sliding groove, two sliding blocks are connected in the sliding groove in a sliding mode and are respectively located on two sides of the middle point of the bidirectional screw rod, a vertical gathering plate is fixedly connected to the sliding blocks, the gathering plate extends downwards, and the gathering plate abuts against the side surface of the intercepting plate; and a driving assembly for driving the screw rod to rotate is arranged in the butt joint plate.

By adopting the technical scheme, the bidirectional screw rod can rotate in the sliding groove, and the driving piece can drive the rotation of the bidirectional screw rod. Two equal sliding connection of sliding block are in the sliding tray, and when two-way lead screw rotated, two-way lead screw rotated and had the trend that drives the sliding block and rotate simultaneously, and the sliding tray carries on spacingly to the sliding block to make the sliding block only slide along the length direction of sliding tray. The two sliding blocks are respectively positioned on two sides of the middle point of the bidirectional screw rod, threads on the bidirectional screw rod are symmetrically arranged along the center, and the sliding blocks can be relatively far away from or move close to each other along the sliding grooves by the rotation of the bidirectional screw rod. When the sliding block moves, the gathering plate fixedly connected with the sliding block can be driven to move, and when the gathering plate moves, the floating objects blocked in front of the intercepting plate can be pushed to move towards the two side walls of the protective embankment, so that the floating objects can be cleaned conveniently.

Preferably, the driving assembly comprises a driving groove, the driving groove is formed in the side face of the abutting plate, the end portion of the bidirectional screw rod penetrates through the groove wall of the sliding groove and extends into the driving groove, a first bevel gear is arranged in the driving groove and fixedly connected to the end portion of the bidirectional screw rod, and a driving piece is fixedly connected to the upper surface of the abutting plate and drives the bidirectional screw rod to rotate through the driving piece.

Through adopting above-mentioned technical scheme, first bevel gear rotates under the drive of driving piece to realized the pivoted drive to two-way lead screw.

Preferably, the driving part comprises a driving motor, an output shaft of the driving motor penetrates through the abutting plate and extends into the driving groove, a second bevel gear is arranged at the end part of the output shaft of the driving motor, which extends into the driving groove, and the first bevel gear is meshed with the second bevel gear.

By adopting the technical scheme, when the driving motor is started, the output shaft of the driving motor rotates to drive the second bevel gear fixedly connected with the driving motor to rotate in the driving groove, and the second bevel gear rotates to drive the first bevel gear meshed with the second bevel gear to rotate, so that the bidirectional screw rod is driven to rotate.

In summary, the present application includes at least one of the following beneficial technical effects:

the butt board butt that sets up on support column and the support column tip is on the lateral wall of embankment, and the reinforcement subassembly of butt board tip can play the reinforcing effect to the lateral wall of embankment. The interception component below the butt plate can intercept the floating objects in the water flow in the process that the water flow passes through the river channel. The side wall of the protective bank in the related art is easy to damage under impact when the water flow is large, and the improvement of the application lies in that the side wall of the protective bank can be greatly reinforced;

the setting of torsional spring plays the effect that resets to the interception board. When the water flow in the river channel is large and the flow velocity is high, the impact force of the water flow can push the interception plate to rotate along the hinged position below the abutting plate, so that the effect of protecting the interception plate from being bent or damaged by the impact force is achieved, and when the water flow is small and not enough to push the interception plate, the interception plate can be restored to the vertical state under the restoring force of the torsion spring.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a first bevel gear and a second bevel gear in an embodiment of the present application;

fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 1. a protective dike; 2. a support pillar; 3. a butt joint plate; 4. a butting block; 5. a set screw; 6. a sloping plate; 7. a interception plate; 8. a torsion spring; 9. a sliding groove; 10. a bidirectional screw rod; 11. a slider; 12. a collector plate; 13. a drive slot; 14. a first bevel gear; 15. a second bevel gear; 16. the motor is driven.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The application discloses hydraulic engineering dyke reinforcing apparatus refers to fig. 1, including locating the protection dyke 1 of river course both sides. The protection embankment 1 sets up in the river course both sides, and the river course is located between two lateral walls of protection embankment 1, is equipped with the inclined plane on the lateral wall of protection embankment 1. The bottom fixedly connected with vertical support column 2 of river course, support column 2 are fixed in the length midpoint of the both sides wall of protection dyke 1. The tip fixed connection of support column 2 has horizontally butt board 3, and on the both ends extension of butt board 3 reached the lateral wall of embankment 1, the tip of butt board 3 was equipped with the reinforcement subassembly, plays reinforced effect through the reinforcement subassembly to the lateral wall of embankment 1. The utility model provides a but the improvement of this application can make support column 2 butt board 3 play support and stable effect to the both sides wall of embankment 1, and support column 2 and 3 one section river course intervals of butt board set up, have played reinforced (rfd) effect to the embankment 1 of river course both sides that embankment 1 among the correlation technique can lead to the lateral wall damage of embankment 1 at the great in-process of discharge.

Referring to fig. 2 and 3, the reinforcing component includes two abutting blocks 4, the abutting blocks 4 are square blocks, the two abutting blocks 4 are respectively and fixedly connected to two ends of the abutting plate 3, and the abutting blocks 4 abut against the side wall of the protection embankment 1. The butt piece 4 is laminated with the inclined plane of embankment 1, wears to be equipped with set screw 5 on the butt piece 4, and the butt piece 4 is fixed in on the lateral wall of embankment 1 through set screw 5. When the abutment block 4 is fixed, the fixing screw 5 is screwed to the abutment block 4 to be fixed. The arrangement of the abutting block 4 increases the contact area with the side wall of the protective bank 1, thereby enhancing the supporting effect on the side wall of the protective bank 1.

Referring to fig. 2 and 3, fixedly connected with swash plate 6 between butt plate 3 and the support column 2, the both ends of swash plate 6 are fixed connection respectively between butt plate 3 and support column 2. The inclined plate 6 is arranged to form a triangular structure between the inclined plate 6, the butt plate 3 and the support column 2, so that the overall stability is greatly enhanced.

Referring to fig. 2 and 3, an intercepting component is arranged below the abutting plate 3, and the drifter on the river channel is intercepted by the intercepting component. The intercepting component comprises an intercepting plate 7, the intercepting plate 7 is hinged to the lower surface of the abutting plate 3, and the intercepting plate 7 is horizontally arranged. The interception plate 7 can intercept and clean the floating objects flushed by water flow, and the interception plate 7 blocks the floating objects in the water flow at one side of the interception plate 7, so that garbage such as the floating objects can not pass through the interception plate 7, and the environment-friendly effect is achieved. The articulated shaft of the interception plate 7 and the butt plate 3 is provided with a torsion spring 8, and when the torsion spring 8 is in a natural state, the interception plate 7 is horizontally arranged. The arrangement of the torsion spring 8 has a resetting effect on the interception plate 7. When the water flow in the river channel is large and the flow velocity is high, the impact force of the water flow can push the interception plate 7 to rotate along the hinged position below the abutting plate 3, so that the effect of protecting the interception plate 7 from being bent or damaged by the impact force is achieved, and when the water flow is small and not enough to push the interception plate 7, the interception plate 7 can be restored to the vertical state under the restoring force of the torsion spring 8.

Referring to fig. 2 and 3, a sliding groove 9 is formed in the side surface of the abutting plate 3, a bidirectional screw rod 10 is rotatably connected in the sliding groove 9, two sliding blocks 11 are slidably connected in the sliding groove 9, and the two sliding blocks 11 are respectively located on two sides of the midpoint of the bidirectional screw rod 10. The middle point of the sliding groove 9 is fixedly connected with a partition plate, the partition plate divides the sliding groove 9 into two sections, and a bidirectional screw rod 10 penetrates through the partition plate and is rotatably connected in the partition plate. The partition plate has the effects of blocking and supporting the bidirectional screw rod 10, and the force borne by the middle point of the bidirectional screw rod 10 is shared by the partition plate due to the fact that the length of the bidirectional screw rod 10 is long, so that the force borne by the middle point of the bidirectional screw rod 10 is more balanced. Two sliding blocks 11 are respectively positioned in the sliding grooves 9 at two ends separated by the partition plate, so that the two sliding blocks 11 cannot interfere in the moving process. The sliding block 11 is fixedly connected with a vertical gathering plate 12, and the gathering plate 12 is vertically arranged. The gathering plate 12 extends downwards, the gathering plate 12 is abutted to the side face of the intercepting plate 7, threads on the bidirectional screw rod 10 are symmetrical along the middle point of the bidirectional screw rod 10, when the bidirectional screw rod 10 rotates, the bidirectional screw rod 10 rotates to drive the sliding block 11 connected with the threads to rotate simultaneously, and the two sliding blocks 11 can be far away from each other or move close to each other under the limit of the sliding groove 9 to the sliding block 11. The sliding block 11 moves to drive the gathering plate 12 to move, and the gathering plate 12 moves to scrape on the side surface of the interception plate 7, so that the floating objects intercepted by the interception plate 7 are pushed to two sides of the abutting plate 3. The floater is promoted by gathering board 12 and is removed towards the lateral wall of embankment 1, and the staff can pick up the floater through the net handle at the bank of embankment 1 to water purification resource, environmental protection's effect has been reached.

Referring to fig. 2 and 3, a driving assembly for driving the screw rod to rotate is arranged in the abutting plate 3. The driving assembly comprises a driving groove 13, the driving groove 13 is arranged on the side face of the abutting plate 3, the groove wall of the end part of the bidirectional screw rod 10 penetrating through the sliding groove 9 extends into the driving groove 13, a first bevel gear 14 is arranged in the driving groove 13, the first bevel gear 14 is fixedly connected to the end part of the bidirectional screw rod 10, the upper surface of the abutting plate 3 is fixedly connected with a driving piece, and the driving piece drives the rotation of the bidirectional screw rod 10. The driving part comprises a driving motor 16, an output shaft of the driving motor 16 penetrates through the abutting plate 3 and extends into the driving groove 13, a second bevel gear 15 is fixedly connected to the end part of the output shaft of the driving motor 16 extending into the driving groove 13, and the first bevel gear 14 is meshed with the second bevel gear 15. When the driving motor 16 is started, the output shaft of the driving motor 16 rotates to drive the second bevel gear 15 fixedly connected with the driving motor to rotate, the second bevel gear 15 rotates to drive the first bevel gear 14 meshed with the second bevel gear to rotate, and the first bevel gear 14 rotates to drive the bidirectional screw 10 to rotate.

The implementation principle of the embodiment of the application is as follows: the effect that butt piece 4 and butt board 3 played the support to the both sides wall of embankment 1 has strengthened the stability of embankment 1. The interception plate 7 has an interception effect on floaters, the driving motor 16 is started, an output shaft of the driving motor 16 rotates to drive the second bevel gear 15 to rotate, the second bevel gear 15 rotates to drive the first bevel gear 14 meshed with the second bevel gear to rotate, the first bevel gear 14 rotates to drive the bidirectional screw rod 10 fixedly connected with the first bevel gear to rotate, the two sliding blocks 11 are moved away from each other in the rotating process of the bidirectional screw rod 10, the two sliding blocks 11 are moved away from each other to drive the gathering plate 12 to move towards the side wall of the protection embankment 1, and therefore the floaters are pushed towards the side wall of the protection embankment 1.

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 (8)

1. The utility model provides a hydraulic engineering dyke reinforcing apparatus, is including locating protection dyke (1) of river course both sides, its characterized in that: the bottom of the river channel is fixedly connected with a vertical supporting column (2), the end part of the supporting column (2) is fixedly connected with a horizontal abutting plate (3), two ends of the abutting plate (3) extend to the side wall of the protective embankment (1), the end part of the abutting plate (3) is provided with a reinforcing component, and the reinforcing component has a reinforcing effect on the side wall of the protective embankment (1); and an intercepting component is arranged below the abutting plate (3), and the drifting objects on the river channel are intercepted by the intercepting component.

2. A hydraulic engineering embankment reinforcement device according to claim 1, wherein: the reinforcing component comprises two abutting blocks (4), the two abutting blocks (4) are arranged at the two ends of the abutting plate (3) respectively, fixing screws (5) are arranged on the abutting blocks (4) in a penetrating mode, and the abutting blocks (4) are fixed on the side wall of the protective embankment (1) through the fixing screws (5).

3. A hydraulic engineering embankment reinforcement device according to claim 1, wherein: fixedly connected with swash plate (6) between butt joint board (3) and support column (2), the both ends of swash plate (6) are fixed connection respectively between butt joint board (3) and support column (2).

4. A hydraulic engineering embankment reinforcement device according to claim 1, wherein: the intercepting component comprises an intercepting plate (7), the intercepting plate (7) is hinged to the lower surface of the abutting plate (3), and the intercepting plate (7) is arranged horizontally.

5. A hydraulic engineering embankment reinforcement device according to claim 4, wherein: and a torsional spring (8) is arranged on a hinged shaft of the interception plate (7) and the abutting plate (3).

6. A hydraulic engineering embankment reinforcement device according to claim 1, wherein: a sliding groove (9) is formed in the side face of the abutting plate (3), a bidirectional screw rod (10) is rotationally connected in the sliding groove (9), two sliding blocks (11) are connected in the sliding groove (9) in a sliding mode, the two sliding blocks (11) are located on two sides of the middle point of the bidirectional screw rod (10) respectively, a vertical gathering plate (12) is fixedly connected to the sliding blocks (11), the gathering plate (12) extends downwards, and the gathering plate (12) abuts against the side face of the intercepting plate (7); and a driving assembly for driving the screw rod to rotate is arranged in the abutting plate (3).

7. A hydraulic engineering embankment reinforcement device according to claim 6, wherein: the driving assembly comprises a driving groove (13), the driving groove (13) is formed in the side face of the abutting plate (3), the groove wall, penetrating through the sliding groove (9), of the end portion of the bidirectional screw rod (10) extends into the driving groove (13), a first bevel gear (14) is arranged in the driving groove (13), the first bevel gear (14) is fixedly connected to the end portion of the bidirectional screw rod (10), a driving piece is fixedly connected to the upper surface of the abutting plate (3), and the driving piece drives the bidirectional screw rod (10) to rotate.

8. A hydraulic engineering embankment reinforcement device according to claim 7, wherein: the driving piece comprises a driving motor (16), an output shaft of the driving motor (16) penetrates through the abutting plate (3) and extends into the driving groove (13), a second bevel gear (15) is arranged at the end part, extending into the driving groove (13), of the output shaft of the driving motor (16), and the first bevel gear (14) is meshed with the second bevel gear (15).

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