CN220767918U

CN220767918U - Reservoir side slope reinforced structure

Info

Publication number: CN220767918U
Application number: CN202322530567.7U
Authority: CN
Inventors: 时浩; 焦朝阳; 刘向阳; 蒋伯乐; 宋思雨
Original assignee: Henan Wujian Urban And Rural Construction Development Co ltd
Current assignee: Henan Wujian Urban And Rural Construction Development Co ltd
Priority date: 2023-09-18
Filing date: 2023-09-18
Publication date: 2024-04-12
Anticipated expiration: 2033-09-18

Abstract

The utility model relates to a reservoir side slope reinforcing structure, which comprises a reinforcing plate and a penetrating column, wherein the reinforcing plate is provided with a through hole; the reinforcing plates are provided with penetrating columns near four corners, and each penetrating column comprises a cylinder body, a rotating rod, a driving ring and a left vertical rod; the barrel upper end runs through the gusset plate, and upper portion outer wall fixed connection gusset plate, the bull stick is coaxial to be established in the barrel, and the bull stick upper end runs through the barrel roof, and rotates the roof of connecting the barrel, the equal cover in lower part is established in bull stick in the barrel is fixed with the drive ring, and the left part of drive ring is equipped with the left arc hole of protruding orientation left place ahead, and two left arc downthehole ends are passed respectively to left pole setting both ends, and the perisporium left end of left pole setting is fixed with left picture peg from last downward interval, barrel perisporium left end is equipped with the left through-hole that supplies a plurality of left picture pegs to pass. The utility model solves the problem that the connection capability between the inserted column for fixing the reinforcing plate on the reservoir slope and the soil body of the reservoir slope is not strong.

Description

Reservoir side slope reinforced structure

Technical Field

The utility model relates to the technical field of water conservancy facilities, in particular to a reservoir slope reinforcing structure.

Background

The reservoir is a large-scale water body which is artificially constructed and used for storing water resources, and the reservoir bears the functions of water storage, runoff adjustment, irrigation and the like; the reservoir slope refers to soil or rock slope around the reservoir, and bears various forces such as reservoir water pressure, gravity, external environment and the like, so that the slope stability is important for safe operation of the reservoir;

in order to enhance the stability of the side slope and improve the anti-slip capability and the anti-scouring property of the side slope, a reinforcing plate is additionally arranged on the side slope of the reservoir in a common mode, the reinforcing plate is paved on the side slope through penetrating columns extending into soil bodies of the side slope of the water reservoir, but the surfaces of penetrating columns which are generally used are smooth, the connecting capability of the penetrating columns and the soil bodies is not strong, the reinforcing plate is easy to loosen, the reinforcing plate is difficult to fix on the side slope of the reservoir for a long time, and the use effect is poor.

Disclosure of Invention

The utility model provides a reservoir slope reinforcing structure, which aims to solve the problem that the penetrating column used for fixing a reinforcing plate on a reservoir slope and the reservoir slope soil body are not strong in connection capability, and is convenient to fix the reinforcing plate on the reservoir slope and strong in connection with the reservoir slope.

In order to solve the problems, the technical scheme of the utility model is as follows:

a reservoir slope reinforcement structure comprises a reinforcement plate and a penetrating column; the reinforcing plates are provided with penetrating columns near four corners, and each penetrating column comprises a cylinder body, a rotating rod, a driving ring and a left vertical rod; the upper end of the cylinder body penetrates through the reinforcing plate, the outer wall of the upper part of the cylinder body is fixedly connected with the reinforcing plate, the rotating rod is coaxially arranged in the cylinder body, the upper end of the rotating rod penetrates through the top plate of the cylinder body and is rotationally connected with the top plate of the cylinder body, the upper part and the lower part of the rotating rod in the cylinder body are respectively sleeved and fixed with a driving ring, the left part of the driving ring is provided with a left arc-shaped hole with a bulge facing to the left front, the inner end of the left arc-shaped hole is close to the inner ring of the driving ring, and the outer end of the left arc-shaped hole is inclined backwards and close to the outer edge of the driving ring; the left end of the left upright rod penetrates through the inner ends of the two left arc-shaped holes respectively, the two ends of the left upright rod are respectively provided with a left limiting plate in sliding contact with the opposite side surfaces of the two driving rings, the left end of the peripheral wall of the left upright rod is fixedly provided with a left inserting plate at intervals from top to bottom, and the left end of the peripheral wall of the cylinder body is provided with a left through hole for a plurality of left inserting plates to penetrate through.

Further, the lower end of the cylinder is connected with a cone with a downward tip, and the opening of the lower end of the cylinder is blocked by the top surface of the cone.

Further, the upper end of the rotating rod is connected with a rotating plate, and blind holes are arrayed on the circumferential surface of the rotating plate.

Further, the right portion of driving ring is equipped with the right arc hole the same with left arc hole shape size, right arc hole uses the axis of driving ring as the rotation axis, clockwise rotation 180 degrees and left arc hole coincidence, and the right side of bull stick is equipped with right pole setting, and right pole setting both ends pass two right arc downthehole ends respectively, and the both ends of right pole setting are equipped with the right limiting plate of two driving rings opposite sides of sliding contact respectively, and the perisporium right-hand member of right pole setting is fixed with the right picture peg from last downward interval, barrel perisporium right-hand member is equipped with the right through-hole that supplies a plurality of right picture pegs to pass.

Further, the left inserting plate and the right inserting plate are V-shaped plates with upward openings, the left through hole is a V-shaped hole matched with the left inserting plate, and the right through hole is a V-shaped hole matched with the right inserting plate.

Further, when both ends of the left upright rod are all located at the inner ends of the two left arc-shaped holes, the outer end of each left plugboard on the left upright rod is located in the corresponding left through hole, and when both ends of the right upright rod are all located at the inner ends of the two right arc-shaped holes, the outer end of each right plugboard on the right upright rod is located in the corresponding right through hole.

Through the technical scheme, the utility model has the beneficial effects that:

1. after the penetrating columns on the reinforcing plate extend into the soil, the rotating plate on each penetrating column is rotated, and the rotating rod can drive the left inserting plate and the right inserting plate on the penetrating column to extend into the soil, so that the connectivity of the penetrating column and the soil is improved, and the stability is improved.

2. The left plugboard and the right plugboard are V-shaped plates with upward openings, so that the tensile capacity of the penetrating column is further improved, and the stability is further improved.

3. When the reinforcing plate is required to be detached from the reservoir side slope, the rotating rod is only required to be rotated, the left inserting plate and the right inserting plate both enter the cylinder under the action of the driving ring, and the penetrating and inserting column on the reinforcing plate can be conveniently separated from the soil body for next use, so that the penetrating and inserting column can be repeatedly used, and good application of resources is realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view (enlarged) in cross-section of a piercing post according to the utility model;

fig. 3 is a schematic view (enlarged) of the structure of the connection of the driving ring, the left pole and the right pole of the present utility model.

The reference numerals in the drawings are: 1. reinforcing plate, 2, barrel, 3, bull stick, 4, the drive ring, 5, left arc hole, 6, left pole setting, 7, left limiting plate, 8, left picture peg, 9, left through-hole, 10, circular hole, 11, bearing, 12, revolving plate, 13, blind hole, 14, right arc hole, 15, right pole setting, 16, right limiting plate, 17, right picture peg, 18, right through-hole, 19, circular cone.

Detailed Description

The utility model is further described with reference to the drawings and detailed description which follow:

as shown in fig. 1 to 3, the reservoir slope reinforcement structure comprises a reinforcement plate 1, wherein the reinforcement plate 1 is a rectangular plate body and further comprises a penetrating column; the reinforcing plate 1 is provided with penetrating columns near four corners, and each penetrating column comprises a cylinder 2, a rotating rod 3, a driving ring 4 and a left upright rod 6; the upper end of the cylinder body 2 penetrates through the reinforcing plate 1, the outer wall of the upper part of the cylinder body 2 is fixedly connected with the reinforcing plate 1, the rotating rod 3 is coaxially arranged in the cylinder body 2, the rotating rod 3 is a round rod body with the diameter smaller than the inner diameter of the cylinder body 2, the upper end of the rotating rod 3 penetrates through the top plate of the cylinder body 2 and is rotationally connected with the top plate of the cylinder body 2, a round hole 10 for the rotating rod 3 to penetrate through is formed in the top surface of the cylinder body 2, the rotating rod 3 is rotationally connected with the round hole 10 through a bearing 11, a driving ring 4 is fixedly sleeved on the upper part and the lower part of the rotating rod 3 in the cylinder body 2, a left arc hole 5 with a bulge facing to the left front is formed in the left part of the driving ring 4, the inner end of the left arc hole 5 is close to the inner ring of the driving ring 4, and the outer end of the left arc hole is inclined backwards and close to the outer edge of the driving ring 4; the inner of two left arc holes 5 is passed respectively at left pole setting 6 both ends, the upper and lower end in left arc hole 5 all runs through the upper and lower face of driving ring 4, left pole setting 6 is the circle body that diameter and left arc hole width were joined in marriage and is corresponded, and the both ends of left pole setting 6 are equipped with the left limiting plate 7 of two driving rings 4 opposite sides of sliding contact respectively, and the perisporium left end of left pole setting 6 is fixed with left picture peg 8 from last downward interval, barrel 2 perisporium left end is equipped with the left through-hole 9 that supplies a plurality of left picture peg 8 to pass.

The barrel 2 is a cylinder with a closed upper end and an open lower end, the lower end of the barrel 2 is connected with a cone 19 with a downward tip, the lower end opening of the barrel 2 is blocked by the top surface of the cone 19, and the diameter of the top surface of the cone 19 is equal to the outer diameter of the barrel 2.

The upper end of the rotating rod 3 is connected with a rotating plate 12, the rotating plate 12 is a circular plate body which is positioned outside the cylinder 2 and the bottom surface of which is in sliding contact with the outer top surface of the cylinder 2, and blind holes 13 are arrayed on the circumferential surface of the rotating plate 12.

The right part of the driving ring 4 is provided with a right arc hole 14 with the same shape and size as the left arc hole, the right arc hole 14 uses the central axis of the driving ring 4 as a rotating shaft, rotates 180 degrees clockwise and coincides with the left arc hole 5, the right side of the rotating rod is provided with a right vertical rod 15, two ends of the right vertical rod 15 respectively penetrate through the inner ends of the two right arc holes 14, the upper end and the lower end of the right arc hole 14 respectively penetrate through the upper surface and the lower surface of the driving ring 4, the right vertical rod 15 is a round rod body with the diameter corresponding to the width of the right arc hole, two ends of the right vertical rod 15 are respectively provided with a right limiting plate 16 in sliding contact with the opposite side surfaces of the two driving rings 4, the right end of the peripheral wall of the right vertical rod 15 is fixedly provided with a right plugboard 17 from top to bottom at intervals, and the right end of the peripheral wall of the cylinder 2 is provided with a right through hole 18 for a plurality of right plugboards 17 to penetrate through.

The left plugboard 8 and the right plugboard 17 are V-shaped plates with upward openings, the left through hole 9 is a V-shaped hole matched with the left plugboard 8, and the right through hole 18 is a V-shaped hole matched with the right plugboard 17.

When both ends of the left upright rod 6 are located at the inner ends of the two left arc-shaped holes 5, the outer end of each left plugboard 8 on the left upright rod 6 is located in the corresponding left through hole 9, and when both ends of the right upright rod 15 are located at the inner ends of the two right arc-shaped holes 1, the outer end of each right plugboard 17 on the right upright rod 1 is located in the corresponding right through hole 18, so that when the two driving rings 4 rotate anticlockwise (the anticlockwise rotation of the driving rings 4 is the overlooking view in fig. 3), the outer end of the left plugboard 8 is limited by the left through hole 9, the outer end of the right plugboard 17 is limited by the right through hole 18, the left arc-shaped holes 5 can only drive the left upright rod 6 to move leftwards from right, the left upright rod 6 cannot rotate along with the driving rings 4, and similarly, the right arc-shaped holes 14 can only drive the right upright rod 15 to move leftwards from left, and the right upright rod 15 cannot rotate along with the driving rings 4.

When the rotary rod is used, firstly, a rod-shaped object stretches into a blind hole 13 of a rotary plate on a penetrating column, so that the rotary plate 12 drives the rotary rod 3 to rotate clockwise (the rotary rod 3 rotates clockwise to be seen from a top view in fig. 3), two driving rings 4 rotate clockwise along with the rotary rod 3, when the two driving rings 4 rotate, a left arc-shaped hole 5 and a right arc-shaped hole 14 respectively drive a left vertical rod 6 and a right vertical rod 15 to move towards the rotary rod 3 until two ends of the left vertical rod 6 are respectively positioned at the inner ends of the two left arc-shaped holes 5, two ends of the right vertical rod 15 are respectively positioned at the inner ends of the two right arc-shaped holes 14, at the moment, the outer end of each left inserting plate is positioned in a corresponding left through hole 9, and the outer end of each right inserting plate 17 is positioned in a corresponding right through hole 18;

each penetrating column on the reinforcing plate 1 is inserted into the soil body of the reservoir slope, as the outer ends of the left inserting plate 8 and the right inserting plate 17 on the penetrating columns do not extend out of the cylinder body 2, the lower end of the cylinder body 2 is provided with the cone 19, the penetrating columns can conveniently penetrate into the slope soil body, each penetrating column on the reinforcing plate 1 is inserted into the soil body, after the bottom surface of the reinforcing plate 1 contacts the reservoir slope, the rotating plate 12 on each penetrating column is reversely rotated, the rotating rod 3 rotates along with the rotating plate 12, when the two driving rings 4 rotate, the left vertical rods 6 are driven to drive the outer ends of the left inserting plates 8 to penetrate out of the left through holes 9 and extend into the soil body, the right vertical rods 15 are driven to penetrate out of the right through holes 18 and extend into the soil body, the connectivity of the penetrating columns and the soil body is improved, the stability is improved, the left inserting plates 8 and the right inserting plates 17 are V-shaped plates with upward openings, the tensile capacity of the penetrating columns is further improved, and the stability is further improved.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and all equivalent or equivalent modifications and substitutions of the technical solutions of the present utility model are included in the scope of protection of the present utility model without departing from the spirit of the present utility model, i.e., the scope of disclosure.

Claims

1. The reservoir slope reinforcement structure comprises a reinforcement plate (1), and is characterized by further comprising a penetrating column; the reinforcing plate (1) is provided with penetrating columns near four corners, and each penetrating column comprises a cylinder body (2), a rotating rod (3), a driving ring (4) and a left upright rod (6); the upper end of the barrel body (2) penetrates through the reinforcing plate (1), the outer wall of the upper part of the barrel body is fixedly connected with the reinforcing plate (1), the rotating rod (3) is coaxially arranged in the barrel body (2), the upper end of the rotating rod (3) penetrates through the top plate of the barrel body (2) and is rotationally connected with the top plate of the barrel body (2), the upper part and the lower part of the rotating rod (3) in the barrel body (2) are respectively sleeved and fixed with the driving ring (4), the left part of the driving ring (4) is provided with a left arc-shaped hole (5) with a bulge facing to the left front, the inner end of the left arc-shaped hole (5) is close to the inner ring of the driving ring (4), and the outer end of the rotating rod is inclined backwards and is close to the outer edge of the driving ring (4); the two ends of the left vertical rod (6) respectively penetrate through the inner ends of the two left arc-shaped holes (5), the two ends of the left vertical rod (6) are respectively provided with left limiting plates (7) which are in sliding contact with the opposite side surfaces of the two driving rings (4), the left end of the peripheral wall of the left vertical rod (6) is fixedly provided with left inserting plates (8) from top to bottom at intervals, and the left end of the peripheral wall of the cylinder body (2) is provided with left through holes (9) for the plurality of left inserting plates (8) to penetrate through.

2. A reservoir side slope reinforcement structure according to claim 1, wherein the lower end of the cylinder (2) is connected with a cone (19) with a downward tip, and the opening of the lower end of the cylinder (2) is blocked by the top surface of the cone (19).

3. A reservoir side slope reinforcement structure according to claim 1, characterized in that the upper end of the rotating rod (3) is connected with a rotating plate (12), and blind holes (13) are arrayed on the circumferential surface of the rotating plate (12).

4. The reservoir side slope reinforcement structure according to claim 1, wherein the right portion of the driving ring (4) is provided with a right arc hole (14) with the same shape and size as the left arc hole, the right arc hole (14) uses the central axis of the driving ring (4) as a rotation axis, rotates 180 degrees clockwise and is overlapped with the left arc hole (5), the right side of the rotating rod is provided with a right vertical rod (15), two ends of the right vertical rod (15) respectively penetrate through the inner ends of the two right arc holes (14), two ends of the right vertical rod (15) are respectively provided with a right limiting plate (16) in sliding contact with the opposite side surfaces of the two driving rings (4), the right inserting plate (17) is fixed at intervals from top to bottom at the right end of the peripheral wall of the right vertical rod (15), and the right end of the peripheral wall of the cylinder (2) is provided with a right through hole (18) for a plurality of right inserting plates (17) to penetrate through.

5. The reservoir side slope reinforcement structure according to claim 4, wherein the left insertion plate (8) and the right insertion plate (17) are V-shaped plates with upward openings, the left through hole (9) is a V-shaped hole corresponding to the left insertion plate (8), and the right through hole (18) is a V-shaped hole corresponding to the right insertion plate (17).

6. A reservoir side slope reinforcement structure as in claim 4, wherein when both ends of the left upright (6) are located at the inner ends of the two left arc holes (5), the outer end of each left insert plate (8) on the left upright (6) is located in the corresponding left through hole (9), and when both ends of the right upright (15) are located at the inner ends of the two right arc holes (14), the outer end of each right insert plate (17) on the right upright (15) is located in the corresponding right through hole (18).