CN217104928U - Slope protection bearing structure that hydraulic engineering used - Google Patents

Abstract

The utility model relates to a hydraulic engineering technical field specifically is a slope protection bearing structure that hydraulic engineering used, including slope protection board, splice plate, stabilizing mean and stop gear, the slope protection board is all installed to the both sides face of splice plate, the slope protection board. Through setting up inserted bar and connecting piece, can stabilize this device when installing on the river course, can avoid monolithic breast board to receive water impact too big when installing a plurality of this devices simultaneously, can share water impact, and be convenient for to the concatenation of this device, the stability of this device has been increased, guide plate and buffer spring through setting up can reduce water impact force, and carry out the water conservancy diversion to rivers, thereby can prevent that the soil layer from coming off or earth washes away along with rivers can appear in the bank protection when rivers wash away for a long time, the life of this device has been increased.

Description

Slope protection bearing structure that hydraulic engineering used

Technical Field

The utility model relates to a hydraulic engineering technical field specifically is a bank protection bearing structure that hydraulic engineering used.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in nature to achieve the purposes of removing harmful substances and benefiting. Also known as water engineering. Water is a valuable resource essential for human production and life, but its naturally occurring state does not completely meet the needs of human beings. Only when hydraulic engineering is built, water flow can be controlled, flood disasters are prevented, and water quantity is adjusted and distributed to meet the requirements of people on water resources in life and production. In the hydraulic engineering, in order to keep the river bank structure stable, prevent water and soil loss, prevent flood and drain waterlogging, a revetment is usually required to be arranged on the river channel, and then the existing revetment has certain defects to be perfected;

current bank protection piles up for earth and forms usually, and the bank protection can appear the soil layer and drop or earth washes away along with rivers when rivers wash for a long time, and the slope protection board is not hard up this moment, therefore slope protection structure is difficult to the holding stability and takes place to incline or sink.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bank protection bearing structure that hydraulic engineering used to solve the problem that proposes in the above-mentioned background art. In order to achieve the above object, the utility model provides a following technical scheme: a slope protection supporting structure for hydraulic engineering comprises slope protection plates, splicing plates, a stabilizing mechanism and a limiting mechanism, wherein the slope protection plates are arranged on two side faces of each splicing plate, three buffer barrels are arranged on one side face of each slope protection plate, buffer springs are arranged inside the three buffer barrels, one ends of the three buffer springs are connected with fixed blocks and three guide plates are arranged on one sides of the fixed blocks, four splicing blocks are arranged on the top end faces of the splicing plates, connecting pieces are correspondingly arranged on every two splicing blocks in a sliding mode, a movable rod is arranged on each connecting piece in a sliding mode, one side plate inside each movable rod is connected with a pressure spring, plug connectors are arranged inside each movable rod in a sliding mode, one side face of each plug connector is connected with one end of each pressure spring, the pressure springs are located on the outer surface of each movable rod, the stabilizing mechanism is arranged on each slope protection plate, the limiting mechanism is installed on one side of the slope protection plate.

Preferably, the stabilizing mechanism comprises a fixed cylinder and an insertion rod, wherein two slope protection plates are provided with mounting grooves, two fixed cylinders are mounted in the mounting grooves, and the two fixed cylinders are connected through the insertion rod.

Preferably, stop gear includes spacing frame and spacing groove, spacing frame is installed to a side of fender slope board, the spacing groove has been seted up to the inside of spacing frame, the top of guide plate is located the spacing inslot, just the junction of spacing frame and guide plate is provided with the blotter.

Preferably, a plurality of diversion trenches are formed in one side of the diversion plate.

Preferably, the plug connector comprises a connecting block and a plug pin rod, and one end of the plug pin rod is connected with one side face of the connecting block.

Preferably, the connecting piece is provided with a plug groove, and the plug rod is plugged in the plug groove.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, through inserted bar and the connecting piece that sets up, can stabilize this device when installing on the river course, can avoid monolithic breast board to receive the rivers impact too big simultaneously when installing a plurality of this devices, can share the rivers impact, and the concatenation of this device of being convenient for has increased the stability of this device;

the utility model discloses in, can reduce the rivers impact force through guide plate and the buffer spring who sets up to carry out the water conservancy diversion to rivers, thereby can prevent that the bank protection can appear the soil layer and drop or earth washes away along with rivers when rivers wash away for a long time, increased the life of this device.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the explosion structure of the connection between the middle slope protection plate and the guide plate;

fig. 3 is a schematic rear view of the present invention;

fig. 4 is a schematic view of the internal structure of the middle connector of the present invention.

In the figure: 1. a slope protection plate; 2. splicing plates; 3. a fixed cylinder; 4. inserting a rod; 5. a limiting frame; 6. a buffer cylinder; 7. a buffer spring; 8. a fixed block; 9. a baffle; 10. splicing blocks; 11. a connecting member; 12. a movable rod; 13. a pressure spring; 14. and (7) a plug connector.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the staff of ordinary skill in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: a slope protection supporting structure for hydraulic engineering comprises slope protection plates 1, splicing plates 2, a stabilizing mechanism and a limiting mechanism, wherein the slope protection plates 1 are respectively installed on two side surfaces of each splicing plate 2, three buffer barrels 6 are installed on one side surface of each slope protection plate 1, buffer springs 7 are respectively installed inside the three buffer barrels 6, one ends of the three buffer springs 7 are respectively connected with a fixed block 8, a guide plate 9 is installed on one side of each fixed block 8, four splicing blocks 10 are installed on the top end surface of each splicing plate 2, every two of the four splicing blocks 10 are correspondingly and slidably installed with connecting pieces 11, a movable rod 12 is slidably installed on each connecting piece 11, one side plate inside each movable rod 12 is connected with a pressure spring 13, a plug connector 14 is slidably installed inside each movable rod 12, one side surface of each plug connector 14 is connected with one end of each pressure spring 13, the pressure springs 13 are located on the outer surface of each movable rod 12, the stabilizing mechanism is installed on each slope protection plate 1, the limiting mechanism is arranged on one side of the slope protection plate 1.

In this embodiment, as shown in fig. 1 and fig. 3, the stabilizing mechanism includes a fixed cylinder 3 and an inserted bar 4, and mounting grooves have all been seted up on two slope protection plates 1, all install a fixed cylinder 3 in two mounting grooves, and two fixed cylinders 3 are connected through inserted bar 4 to can improve the stability of this device, avoid sinking out the river course.

In this embodiment, as shown in fig. 1 and 2, the limiting mechanism includes a limiting frame 5 and a limiting groove, the limiting frame 5 is installed on one side surface of the slope protection plate 1, the limiting groove is opened in the limiting frame 5, the top of the guide plate 9 is located in the limiting groove, and a cushion pad is arranged at the joint of the limiting frame 5 and the guide plate 9.

In this embodiment, as shown in fig. 2 and 3, a plurality of flow guide grooves are formed in one side of the flow guide plate 9, so that the stability of the device can be improved.

In this embodiment, as shown in fig. 4, the plug 14 includes a connection block and a latch rod, and one end of the latch rod is connected to one side surface of the connection block.

In this embodiment, as shown in fig. 4, the connecting member 11 is provided with an insertion groove, and the latch rod is inserted into the insertion groove.

The utility model discloses a use method and advantage: this kind of bank protection bearing structure that hydraulic engineering used when using, the working process as follows:

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, when using the device, firstly, the external power supply is carried out on the electric equipment in the device, the device is placed on the river channel, the device is spliced according to the length of the river channel, the stability of the device is increased, the insertion rod 4 is inserted into the river channel along the fixed cylinder 3, the slope protection plate 1 is fixed, the device is placed on the river channel in sequence, the movable rod 12 is pulled to contract the pressure spring 13 and move the insertion piece 14 to one side, the connecting piece 11 is placed between the splicing blocks 10 at the moment, the movable rod 12 is loosened to ensure that the insertion piece 14 is inserted into the splicing block 10 under the action of the pressure spring 13 to fix the device, when water flow impacts, the guide plate 9 moves to one side to ensure that the guide plate 9 is protected under the action of the buffer spring 7, and water flow is discharged under the action of the guide groove.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a bank protection bearing structure that hydraulic engineering used, includes slope protection board (1), splice plate (2), stabilizing mean and stop gear, its characterized in that: the slope protection plate comprises splicing plates (2), slope protection plates (1) are installed on two side faces of the splicing plates (2), three buffer cylinders (6) are installed on one side face of each slope protection plate (1), buffer springs (7) are installed inside the three buffer cylinders (6), one ends of the three buffer springs (7) are connected with fixed blocks (8), guide plates (9) are installed on one sides of the three fixed blocks (8), four splicing blocks (10) are installed on the top end face of each splicing plate (2), four splicing blocks (10) are slidably installed in a pairwise corresponding mode to each other, connecting pieces (11) are slidably installed on the upper portions of the connecting pieces (11), movable rods (12) are slidably installed on one side face of the inside of each movable rod (12), a compression spring (13) is connected to one side face of each movable rod (12), a plug connector (14) is slidably installed inside the corresponding movable rods (12), one side face of each plug connector (14) is connected with one end of each compression spring (13), and the pressure spring (13) is positioned on the outer surface of the movable rod (12), the stabilizing mechanism is arranged on the slope protection plate (1), and the limiting mechanism is arranged on one side of the slope protection plate (1).

2. A revetment supporting structure for hydraulic engineering according to claim 1, wherein: stabilizing mean includes solid fixed cylinder (3) and inserted bar (4), two all seted up the mounting groove on the slope guard (1), two gu fixed cylinder (3), two are all installed in the mounting groove gu fixed cylinder (3) are connected through inserted bar (4).

3. A revetment supporting structure for hydraulic engineering according to claim 1, wherein: the limiting mechanism comprises a limiting frame (5) and a limiting groove, the limiting frame (5) is installed on one side face of the slope protection plate (1), the limiting groove is formed in the limiting frame (5), the top of the guide plate (9) is located in the limiting groove, and a buffering cushion is arranged at the joint of the limiting frame (5) and the guide plate (9).

4. A revetment supporting structure for hydraulic engineering according to claim 1, wherein: and a plurality of diversion trenches are formed in one side of the diversion plate (9).

5. A revetment supporting structure for hydraulic engineering according to claim 1, wherein: the plug connector (14) comprises a connecting block and a plug pin rod, and one end of the plug pin rod is connected with one side face of the connecting block.

6. A revetment support structure for hydraulic engineering according to claim 5, wherein: the connecting piece (11) is provided with a plug groove, and the plug pin rod is plugged in the plug groove.

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