CN219527502U

CN219527502U - Water conservancy river dam roadbed reinforcing apparatus

Info

Publication number: CN219527502U
Application number: CN202320307596.4U
Authority: CN
Inventors: 李薇; 田政
Original assignee: Hebei Institute of Investigation and Design of Water Conservancy and Hydropower Group Co Ltd
Current assignee: Hebei Institute of Investigation and Design of Water Conservancy and Hydropower Group Co Ltd
Priority date: 2023-02-21
Filing date: 2023-02-21
Publication date: 2023-08-15
Anticipated expiration: 2033-02-21

Abstract

The utility model relates to the field of water conservancy dam reinforcement, in particular to a water conservancy dam roadbed reinforcement device, which comprises; the dam is fixedly connected with a buffer seat at one side end of the dam, one end of the buffer seat is fixedly connected with a plurality of blocking grids, and a water guide assembly is arranged at the inner side of the buffer seat; and when the water flows to the dam to push the impact, the water flows into the buffer seat at the moment to push the water flow buffer assembly to rotate, the water flow buffer assembly transmits the impact force of the water flow part at the moment, and meanwhile, the water flow buffer assembly drives the transmission consumption assembly to rotate, so that the water flow buffer assembly can absorb the water flow transmitted by the water flow buffer assembly, the water flow entering the buffer seat can be discharged through the backflow component, the water flow entering the buffer seat is pushed, and the impact force of the water flow entering the buffer seat is reduced.

Description

Water conservancy river dam roadbed reinforcing apparatus

Technical Field

The utility model relates to the field of water conservancy dam reinforcement, in particular to a water conservancy dam roadbed reinforcement device.

Background

The dam is a general name of the dam and the dam, and also generally refers to a waterproof water-blocking building and a structure, the conventional water conservancy dam is generally made of reinforced concrete, the dam is impacted by water flow daily, and after a long time, the dam is continuously impacted and corroded, so that the dam is easy to collapse and damage.

Therefore, a hydraulic river dam roadbed reinforcing device is provided to solve the problems.

Disclosure of Invention

The utility model aims to solve the problems and provide the water conservancy river dam roadbed reinforcing device, which solves the problems that the dam is impacted by water flow daily and is easy to collapse and damage after being impacted and corroded continuously for a long time.

The technical scheme is that the hydraulic river dam roadbed reinforcing device comprises a dam, wherein one side end of the dam is fixedly connected with a buffer seat, one end of the buffer seat is fixedly connected with a plurality of blocking grids, and the inner side of the buffer seat is provided with a water guide component; and the buffering consumption mechanism comprises a water flow buffering component for buffering the water flow impact force impacting the dam and a transmission consumption component for transmitting and consuming the water flow impact force, and the water flow buffering component and the transmission consumption component are arranged on one side of the buffering seat.

Preferably, the water guide assembly comprises a water guide groove, a backflow part and a plurality of water inlet grooves, wherein the water inlet grooves are fixedly connected to one side end of the buffer seat, the water guide groove is fixedly connected to one ends of the water inlet grooves, the backflow part is arranged on one side of the water guide groove, and water flow entering the buffer seat can be guided through the water guide assembly, so that the direct impact force of the water flow is reduced.

Preferably, the reflux component comprises a guide plate, the guide plate is fixedly connected to one end of the water guide groove, water flow entering the buffer seat can be discharged through the reflux component, the water flow entering the buffer seat is pushed, and the impact force of the water flow entering the buffer seat is reduced.

Preferably, the water flow buffering component is provided with the multiunit, every group the water flow buffering component all includes first transfer line and two water wheels leaf, first transfer line rotates to be connected in the lower inner wall of intake groove, the upper end of first transfer line rotates and runs through the upper end of buffering seat and upwards extends, two water wheels leaf all fixed connection in the circumference surface of first transfer line can carry out the partial absorption to the rivers impact force of contact through the water flow buffering component, reduces the rivers impact force that gets into in the buffering seat.

Preferably, the transmission consumption assembly comprises a second transmission rod, two groups of damping components, a plurality of rotating seats and a plurality of groups of transmission assemblies, the rotating seats are fixedly connected to the upper ends of the buffer seats, the second transmission rod is rotationally connected to the inner walls of the plurality of rotating seats, the two groups of damping components and the plurality of groups of transmission assemblies are arranged on the upper sides of the buffer seats, and the water flow impact force absorbed by the water flow buffer assemblies can be consumed and damped through the transmission consumption assembly.

Preferably, the multiple groups of transmission components comprise worm gears and worms, the worm gears are fixedly connected to the circumferential surface of the second transmission rod, the worms are fixedly connected to the upper end of the first transmission rod, the worms are meshed with the worm gears, and the rotation force output by the transmission consumption component can be firstly consumed through the reduction transmission of the worm gears and the worms.

Preferably, each group of damping components comprises a speed reducer, the speed reducer is fixedly connected to the upper end of the buffer seat, the speed reducer is fixedly connected with the second transmission rod, and the speed reducer can absorb the rotating force output by the transmission consumption assembly.

The beneficial effects of the utility model are as follows:

1. when water flows to the dam to push impact, the water flows into the buffer seat to push the water flow buffer assembly to rotate, the water flow buffer assembly transmits part of impact force of the water flow, and meanwhile, the water flow buffer assembly drives the transmission consumption assembly to rotate so as to absorb the transmission of the water flow buffer assembly by the water flow buffer assembly;

2. through setting up the backward flow part, can be with the rivers discharge that gets into the buffer seat, the rivers in the guide buffer seat promote to the rivers of striking the buffer seat, reduced the impact force of the rivers that get into the buffer seat.

Drawings

FIG. 1 is a front perspective view of a hydraulic dam foundation reinforcement device;

FIG. 2 is an enlarged view of FIG. 1A in accordance with the present utility model;

FIG. 3 is a first perspective cutaway perspective view of the present utility model;

fig. 4 is an enlarged view of B of fig. 3 in accordance with the present utility model.

In the figure: 1. a dike; 2. a buffer seat; 3. a blocking grille; 4. a first transmission rod; 5. a worm wheel; 6. a water vane; 7. a rotating seat; 8. a worm; 9. a speed reducer; 10. a deflector; 11. a second transmission rod; 12. a water inlet tank; 13. a water guiding groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The specific implementation method comprises the following steps: as shown in fig. 1-4, a water conservancy river dam roadbed reinforcing device is characterized in that a dam 1 is fixedly connected with a buffer seat 2 at one side end of the dam 1, one end of the buffer seat 2 is fixedly connected with a plurality of blocking grids 3, and a water guide component is arranged at the inner side of the buffer seat 2; and the buffer consumption mechanism comprises a water flow buffer component for slowing down the water flow impact force of the impact dam 1 and a transmission consumption component for transmitting and consuming the water flow impact force, wherein the water flow buffer component and the transmission consumption component are arranged on one side of the buffer seat 2, the blocking grille 3 can block sundries such as partial resin entering the buffer seat 2 and the like and prevent the sundries from contacting with the water vane 6, so that collision damage is caused, when water flows to the dam 1 to push impact, the water flow firstly enters the buffer seat 2, at the moment, the water flow firstly pushes the water flow buffer component in the buffer seat 2 to rotate, at the moment, the water flow buffer component transmits the water flow partial impact force to the transmission consumption component, at the moment, the water flow buffer component drives the transmission consumption component to rotate, the water flow buffer component absorbs the water flow buffer component to transmit, and the impact force of the water flow impact dam 1 is reduced.

As shown in fig. 1, 2 and 4, the water guiding assembly comprises a water guiding groove 13, a backflow component and a plurality of water inlet grooves 12, wherein the water guiding grooves 12 are fixedly connected to one side end of the buffer seat 2, the water guiding groove 13 is fixedly connected to one end of the water inlet grooves 12, the backflow component is arranged on one side of the water guiding groove 13, when water flows to the buffer seat 2, the water firstly enters the water inlet grooves 12 to be contacted with the water flow buffering assembly, the water flow buffering assembly absorbs the impact force of the water flow, and after the water flow impacts the water flow buffering assembly, the water flow enters the water guiding groove 13.

The reflux component comprises a guide plate 10, the guide plate 10 is fixedly connected to one end of a water guide groove 13, when water flows into the water guide groove 13, the water flows are guided into the guide plate 10 through the water guide groove 13 and are guided by the guide plate 10, so that the water in the water guide groove 13 is pushed to the water flowing into the buffer seat 2, and the impact force of the water flowing into the buffer seat 2 is reduced.

As shown in fig. 1, fig. 2 and fig. 3, the water flow buffer components are provided with a plurality of groups, each group of water flow buffer components comprises a first transmission rod 4 and two water wheel blades 6, the first transmission rod 4 is rotationally connected to the lower inner wall of the water inlet groove 12, the upper end of the first transmission rod 4 is rotationally penetrated through the upper end of the buffer seat 2 and extends upwards, the two water wheel blades 6 are fixedly connected to the circumferential surface of the first transmission rod 4, when water flow enters the water inlet groove 12, the water flow impacts the water wheel blades 6 to rotate, then the water wheel blades 6 drive the first transmission rod 4 to rotate, the impact force of the water flow is absorbed through the water wheel blades 6, the plurality of groups of transmission components comprise worm wheels 5 and worm wheels 8, the worm wheels 5 are fixedly connected to the circumferential surface of the second transmission rod 11, the worm wheels 8 are fixedly connected to the upper end of the first transmission rod 4, the worm wheels 8 are in meshed connection with the worm wheels 5, when the first transmission rod 4 rotates, the worm wheels 8 are driven to rotate, the worm wheels 5 rotate, and the worm wheels 8 and the worm wheels 5 rotate to be in speed-reducing transmission, and part of the worm wheels are absorbed.

The transmission consumption subassembly includes second transfer line 11, two sets of damping parts, a plurality of seat 7 and multiunit transmission subassembly rotate, a plurality of seat 7 fixed connection in the upper end of buffering seat 2 rotate, second transfer line 11 rotates and connects in the inner wall of a plurality of seat 7, two sets of damping parts and multiunit transmission subassembly all set up in the upside of buffering seat 2, when worm wheel 5 rotates, worm wheel 5 drives second transfer line 11 and rotates in a plurality of seat 7, every damping part of group all includes speed reducer 9, speed reducer 9 fixed connection is in the upper end of buffering seat 2, speed reducer 9 and second transfer line 11 fixed connection, when second transfer line 11 rotates, can drive speed reducer 9 and rotate, absorb the rotation force of second transfer line 11, speed reducer 9 absorbs the rotation force through methods such as gear wheel, the rotation force of water vane 6 and the transmission of first transfer line 4 absorbs this moment, reduce the impact force of rivers to 1, reduce and constantly strike and corrode because of the dam, lead to the possibility, for this technical staff is excessively, this is not done in the prior art for the speed reducer 9.

When the water pump is used, when water flows to the dam 1 to push impact, the water firstly enters the water inlet groove 12, when the water flows into the water inlet groove 12, the water flows impact the water vane 6 to rotate, the water vane 6 drives the first transmission rod 4 to rotate, when the first transmission rod 4 rotates, the worm 8 drives the worm wheel 5 to rotate, the worm 8 and the worm wheel 5 are in speed reduction transmission, part of rotating force can be absorbed, when the worm wheel 5 rotates, the worm wheel 5 drives the second transmission rod 11 to rotate in the plurality of rotating seats 7, when the second transmission rod 11 rotates, the speed reducer 9 is driven to rotate, the rotating force of the second transmission rod 11 is absorbed, the water flows are guided into the guide plate 10 by the guide groove 13, the water flows in the guide groove 13 are led to the impact buffer seat 2, the impact force of the water flows entering the buffer seat 2 is reduced, at the moment, the impact force of the dam 1 is reduced by absorbing impact, the dam is reduced, and the possibility of continuous corrosion caused by the dam is reduced.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. A water conservancy dam roadbed reinforcing apparatus, which characterized in that includes: the water guide device comprises a dam (1), wherein one side end of the dam (1) is fixedly connected with a buffer seat (2), one end of the buffer seat (2) is fixedly connected with a plurality of blocking grids (3), and a water guide component is arranged on the inner side of the buffer seat (2); and

the buffering consumption mechanism comprises a water flow buffering component for buffering the water flow impact force of the impact dam (1) and a transmission consumption component for transmitting and consuming the water flow impact force, and the water flow buffering component and the transmission consumption component are arranged on one side of the buffering seat (2).

2. The water conservancy dam subgrade reinforcing device as set forth in claim 1, wherein: the water guide assembly comprises a water guide groove (13), a backflow component and a plurality of water inlet grooves (12), wherein the water inlet grooves (12) are fixedly connected to one side end of the buffer seat (2), the water guide groove (13) is fixedly connected to one end of the water inlet grooves (12), and the backflow component is arranged on one side of the water guide groove (13).

3. The water conservancy dam subgrade reinforcing device as set forth in claim 2, wherein: the backflow component comprises a guide plate (10), and the guide plate (10) is fixedly connected to one end of the water guide groove (13).

4. The water conservancy dam subgrade reinforcing device as set forth in claim 1, wherein: the water flow buffering assembly is provided with a plurality of groups, each water flow buffering assembly comprises a first transmission rod (4) and two water wheel blades (6), the first transmission rod (4) is rotationally connected to the lower inner wall of the water inlet groove (12), the upper end of the first transmission rod (4) is rotationally penetrated through the upper end of the buffering seat (2) and extends upwards, and the two water wheel blades (6) are fixedly connected to the circumferential surface of the first transmission rod (4).

5. The water conservancy dam subgrade reinforcing device as set forth in claim 1, wherein: the transmission consumption assembly comprises a second transmission rod (11), two groups of damping components, a plurality of rotating seats (7) and a plurality of groups of transmission assemblies, wherein the rotating seats (7) are fixedly connected to the upper ends of the buffer seats (2), the second transmission rod (11) is rotationally connected to the inner walls of the rotating seats (7), and the two groups of damping components and the plurality of groups of transmission assemblies are arranged on the upper sides of the buffer seats (2).

6. The water conservancy dam subgrade reinforcing device as set forth in claim 5, wherein: the transmission components comprise worm gears (5) and worms (8), the worm gears (5) are fixedly connected to the circumferential surface of the second transmission rod (11), the worms (8) are fixedly connected to the upper ends of the first transmission rods (4), and the worms (8) are meshed with the worm gears (5).

7. The water conservancy dam subgrade reinforcing device as set forth in claim 5, wherein: each group of damping components comprises a speed reducer (9), the speed reducers (9) are fixedly connected to the upper ends of the buffer seats (2), and the speed reducers (9) are fixedly connected with the second transmission rods (11).