AU2020103204A4

AU2020103204A4 - Emergency wave-blocking embankment protection device

Info

Publication number: AU2020103204A4
Application number: AU2020103204A
Authority: AU
Inventors: Xiaoxiang Feng; Haiying Liu; Mingqi Wang; Yanjie WEI; Zhipeng Zhang; Hongbo ZHAO
Original assignee: Tianjin Research Institute for Water Transport Engineering MOT
Current assignee: Tianjin Research Institute for Water Transport Engineering MOT
Priority date: 2020-10-23
Filing date: 2020-11-03
Publication date: 2021-01-14
Anticipated expiration: 2028-11-03
Also published as: CN213596929U

Abstract

OF THE DISCLOSURE The utility model relates to the field of coastal protection technologies, and specifically to an emergency wave-blocking embankment protection device, comprising an embankment body. A left side of the embankment body is bolted to a support plate; an outer side of each of front and rear ends of the support plate is fixedly connected with a baffle; a buffer plate is articulated between the baffles on two sides; a first buffer mechanism is provided between the buffer plate and the support plate; and a second buffer mechanism is provided on an upper side of the first buffer mechanism. According to the utility model, the first buffer mechanism is provided, such that a first connecting rod drives a first slider to compress a first spring through a first fixed block when the buffer plate receives impact, thereby implementing primary absorption of an impact force; the second buffer mechanism is provided, such that a damping liquid and a second spring can further absorb the impact force, thereby greatly reducing damage to the emergency wave-blocking embankment protection device caused by wave impacts and prolonging the service life of the emergency wave-blocking embankment protection device. 1/2 DRAWINGS 114 15 1219 722 FG 6 F23 117 FIG. 1

Description

1/2

DRAWINGS

114 15 1219 722

6 F23

FG

117

FIG. 1

EMERGENCY WAVE-BLOCKING EMBANKMENT PROTECTION DEVICE BACKGROUND OF THE INVENTION

[0001] 1. Technical Field

[0002] The utility model relates to the field of coastal protection technologies, specifically to an emergency wave-blocking embankment protection device.

[0003] 2. Description of Related Art

[0004] Our country has a very long shoreline, and suffers from serious shoreline erosion issues. In particular, beach erosion caused by strong stormy waves and storm tides has become a huge threat to the national land resources of our country and to the life and property safety of coastal people. In order to protect the shoreline, people have built different types of coastal protection structures at different time, for example, dry rubble revetments, grouted rubble revetments, concrete revetments, etc.

[0005] Existing coastal protection structures have a protection effect, but fail to effectively buffer the received impact force when facing wave impacts, resulting in frequent repair of the protective structures, wasting labor, and causing a decline in the protection capability of the structures. Therefore, targeting at the foregoing current situations, it is an urgent need to develop an emergency wave-blocking embankment protection device to overcome defects in actual use.

BRIEF SUMMARY OF THE INVENTION

[0006] The objective of the utility model is to provide an emergency wave-blocking embankment protection device to solve the problem proposed in the background technology.

[0007] To achieve the above objective, the utility model provides the following technical solution:

[0008] An emergency wave-blocking embankment protection device includes an embankment body, where a left side of the embankment body is bolted to a support plate; an outer side of each of front and rear ends of the support plate isfixedly connected with a baffle; a buffer plate is articulated between baffles on two sides, a first buffer mechanism is provided between the buffer plate and the support plate; and a second buffer mechanism is provided on an upper side of the first buffer mechanism.

[0009] As a further solution of the utility model, the first buffer mechanism includes a connecting block fixedly connected with and provided on a right side of the buffer plate; a first connecting rod is articulated to and provided on an inner side of the connecting block; the other end of the first connecting rod is articulated with a first fixed block; a first slider is fixedly connected with and provided at the bottom of the first fixed block; the first slider is slidably connected with a sliding chute provided on an inner side of the support plate; and a first spring is fixedly connected and provided between the first slider and the support plate.

[0010] As a further solution of the utility model, the second buffer mechanism comprises a buffer block fixed connected with and provided on an outer side of the support plate; a cavity for containing a damping liquid is provided on an inner side of the buffer block; a pressing plate is slidably connected with and provided on an inner side of the cavity; a sliding rod slidably connected with the buffer block is fixedly connected with and provided on one side, away from the support plate, of the pressing plate; a top plate is fixedly connected with and provided at the other end of the sliding rod; the bottom of the top plate is articulated with a second connecting rod; the other end of the second connecting rod is articulated with a second fixed block; a second slider slidably connected with the sliding chute is fixedly connected with and provided at the bottom of the second fixed block; and a second spring is fixedly connected and provided between the second slider and the support plate.

[0011] As a further solution of the utility model, a water pump is bolted to and provided on an inner side of the embankment body; an input end of the water pump is connected with the bottom of the sliding chute via a water suction tube; an output end of the water pump is connected, through a water guide tube, with a water tank fixedly connected with and provided on the inner side of the embankment body; and a water drain tube is provided on an inner side of the water tank.

[0012] As a further solution of the utility model, the an air pump bolted to the embankment body is provided on an upper side of the water pump; an input end of the air pump is connected with a top end of the sliding chute through an air suction tube; an output end of the air pump is connected with a drying box fixedly connected with and provided on the inner side of the embankment body; a partition is fixedly connected with and provided at an inside top end of the drying box; a desiccant box for containing desiccant is clamped between the partition and the drying box; a bottom plate is provided on a lower side of the desiccant box; a support rod is fixedly connected and provided between the bottom plate and the desiccant box; the bottom plate and the drying box are connected through a fastener; and an output end of the drying box and the embankment body are connected through an air outlet tube.

[0013] Compared with the prior art, the utility model has the following beneficial effects:

[0014] 1. The first buffer mechanism is provided, such that the first connecting rod drives the first slider to compress the first spring through the first fixed block when the buffer plate receives impact, thereby achieving primary absorption of the impact force; the second buffer solution is provided, such that a damping liquid and the second spring can further absorb the impact force, thereby greatly reducing damage to the emergency wave-blocking embankment protection device caused by wave impacts and prolonging the service life of the emergency wave-blocking embankment protection device;

[0015] 2. The water pump is provided, such that sea water on the inner side of the sliding chute can be pumped away in time, avoiding sea water from eroding the spring and helping prolong the service life of the emergency wave-blocking embankment protection device;

[0016] 3. The air pump and the drying box are provided, such that the air humidity around the mechanism can be reduced, thereby prolonging the service life of the emergency wave blocking embankment protection device.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0017] FIG. 1 is a structural view of an emergency wave-blocking embankment protection device.

[0018] FIG. 2 is a structural view of a support plate in the emergency wave-blocking embankment protection device.

[0019] FIG. 3 is a structural view of a drying box in the emergency wave-blocking embankment protection device.

[0020] Description of reference signs: 1-embankment body; 2-support plate; 3-baffle; 4 buffer plate; 5-support rod; 6-connecting block; 7-first connecting rod; 8-first fixed block; 9-first slider; 10-sliding chute; 11-first spring; 12-buffer block; 13-top plate; 14-sliding rod; -pressing plate; 16-second connecting rod; 17-second fixed block; 18-second slider; 19 second spring; 20-water pump; 21-water tank; 22-air pump; 23-drying box; 24-bottom plate; 25-box.

DETAILED DESCRIPTION OF THE INVENTION

[0021] The following are further detailed description of the technical solution of the utility model in conjunction with specific embodiments.

[0022] The following are detailed description of embodiments of the utility model. The reference signs of the embodiments are shown in the accompanying drawings, wherein always identical or similar reference signs represent identical or similar components or have identical or similar functional components. The following embodiments described with reference the accompanying are exemplary embodiments, which are merely used for interpreting the utility model and cannot be construed as limiting the utility model.

[0023] Embodiment 1

[0024] Refer to FIG. 1 to FIG. 3. In this embodiment of the utility model, an emergency wave-blocking embankment protection device includes an embankment body 1, wherein a left side of the embankment body 1 is bolted to a support plate 2; an outer side of each of front and rear ends of the support plate 2 isfixedly connected with a baffle; a buffer plate 4 is articulated between baffles on two sides, a first buffer mechanism is provided between the buffer plate 4 and the support plate 2; and a second buffer mechanism is provided on an upper side of the first buffer mechanism.

[0025] Embodiment 2

[0026] In this embodiment, the first buffer mechanism includes a connecting block 6 fixedly connected with and provided on a right side of the buffer plate 4; a first connecting rod 7 is articulated to and provided on an inner side of the connecting block 6; the other end of the first connecting rod 7 is articulated with a first fixed block 8; a first slider 9 is fixedly connected with and provided at the bottom of the first fixed block 8; the first slider 9 is slidably connected with a sliding chute 10 provided on an inner side of the support plate 2; and a first spring 11 is fixedly connected and provided between the first slider 9 and the support plate 2. The first buffer mechanism is provided, such that the first connecting rod 7 drives the first slider 9 to compress the first spring 11 through the first fixed block 8 when the buffer plate 3 receives impact, thereby implementing primary absorption of an impact force.

[0027] In this embodiment, the second buffer mechanism includes a buffer block 12 fixed connected with and provided on an outer side of the support plate 2; a cavity for containing a damping liquid is provided on an inner side of the buffer block 12; a pressing plate 15 is slidably connected with and provided on an inner side of the cavity; a sliding rod 14 slidably connected with the buffer block 12 is fixedly connected with and provided on one side, away from the support plate 2, of the pressing plate 15; a top plate 13 is fixedly connected with and provided at the other end of the sliding rod 14; the bottom of the top plate 13 is articulated with a second connecting rod 16; the other end of the second connecting rod 16 is articulated with a second fixed block 17; a second slider 18 slidably connected with the sliding chute 10 is fixedly connected with and provided at the bottom of the second fixed block 17; and a second spring 19 isfixedly connected and provided between the second slider 18 and the support plate 2. The second buffer mechanism is provided, such that a damping liquid and the second spring 19 can further absorb the impact force, thereby greatly reducing damage to the emergency wave-blocking embankment protection device caused by wave impacts and prolonging the service life of the emergency wave-blocking embankment protection device.

[0028] In this embodiment, a water pump 20 is bolted to and provided on an inner side of the embankment body 1; an input end of the water pump 20 is connected with the bottom of the sliding chute 10 via a water suction tube; an output end of the water pump 20 is connected, through a water guide tube, with a water tank 21 fixedly connected with and provided on the inner side of the embankment body 1; and a water drain tube is provided on an inner side of the water tank 21. The water pump 20 is provided, such that sea water on the inner side of the sliding chute 10 can be pumped away in time, avoiding sea water from eroding the spring and helping prolong the service life of the emergency wave blocking embankment protection device.

[0029] In this embodiment, the an air pump 22 bolted to the embankment body 1 is provided on an upper side of the water pump 20; an input end of the air pump 22 is connected with a top end of the sliding chute 10 through an air suction tube; an output end of the air pump 22 is connected with a drying box 23 fixedly connected with and provided on the inner side of the embankment body 1; a partition is fixedly connected with and provided at an inside top end of the drying box 23; a desiccant box 25 for containing desiccant is clamped between the partition and the drying box 23; a bottom plate 24 is provided on a lower side of the desiccant box 25; a support rod 5 is fixedly connected and provided between the bottom plate 24 and the desiccant box 25; the bottom plate 24 and the drying box 23 are connected through a fastener; and an output end of the drying box 23 and the embankment body 1 are connected through an air outlet tube. The air pump 22 and the drying box 23 are provided, such that the air humidity around the emergency wave blocking embankment protection device can be reduced, thereby prolonging the service life of the emergency wave-blocking embankment protection device.

[0030] Working principle of the utility model: The first connecting rod 7 drives the first slider 9 to compress the first spring 11 through a first fixed block 8 when the buffer plate 3 receives impact, thereby achieving primary absorption of the impact force; the damping liquid and the second spring 19 can further absorb the impact force, thereby greatly reducing damage to the emergency wave-blocking bank protection device caused by wave impacts and prolonging the service life of the emergency wave-blocking bank protection device; the water pump 20 is provided to pump the sea water the inner side of the sliding chute 10 away in time, thereby avoiding sea water from eroding the spring; and the air pump 22 and the drying boxes 23 are provided, such that the air humidity around the emergency wave-blocking embankment protection device can be reduced, thereby prolonging the service life of the emergency wave-blocking embankment protection device.

[0031] The foregoing are merely the preferred embodiments of the utility model. It should be noted that, within the concept of the utility model, those ordinarily skilled in the art can make various changes and improvements which shall all fall within the protective scope of the utility model and shall not affect the effects and patent practice of the utility model.

Claims

1. An emergency wave-blocking embankment protection device, comprising an embankment body (1), wherein a left side of the embankment body (1) is bolted to a support plate (2); an outer side of each of front and rear ends of the support plate (2) is fixedly connected with a baffle; a buffer plate (4) is articulated between baffles on two sides, a first buffer mechanism is provided between the buffer plate (4) and the support plate (2); and a second buffer mechanism is provided on an upper side of the first buffer mechanism.

2. The emergency wave-blocking embankment protection device according to Claim 1, wherein the first buffer mechanism comprises a connecting block (6) fixedly connected with and provided on a right side of the buffer plate (4); afirst connecting rod (7) is articulated to and provided on an inner side of the connecting block (6); the other end of the first connecting rod (7) is articulated with a first fixed block (8); a first slider (9) isfixedly connected with and provided at the bottom of the first fixed block (8); the first slider (9) is slidably connected with a sliding chute (10) provided on an inner side of the support plate (2); and a first spring (11) is fixedly connected and provided between the first slider (9) and the support plate (2).

3. The emergency wave-blocking embankment protection device according to Claim 2, wherein the second buffer mechanism comprises a buffer block (12) fixed connected with and provided on an outer side of the support plate (2); a cavity for containing a damping liquid is provided on an inner side of the buffer block (12); a pressing plate (15) is slidably connected with and provided on an inner side of the cavity; a sliding rod (14) slidably connected with the buffer block (12)is fixedly connected with and provided on one side, away from the support plate (2), of the pressing plate (15); a top plate (13) isfixedly connected with and provided at the other end of the sliding rod (14); the bottom of the top plate (13) is articulated with a second connecting rod (16); the other end of the second connecting rod (16) is articulated with a second fixed block (17); a second slider (18) slidably connected with the sliding chute (10) is fixedly connected with and provided at the bottom of the second fixed block (17); and a second spring (19) isfixedly connected and provided between the second slider (18) and the support plate (2).

4. The emergency wave-blocking embankment protection device according to Claim 3, wherein a water pump (20) is bolted to and provided on an inner side of the embankment body (1); an input end of the water pump (20) is connected with the bottom of the sliding chute (10) via a water suction tube; an output end of the water pump (20) is connected, through a water guide tube, with a water tank (21) fixedly connected with and provided on the inner side of the embankment body (1); and a water drain tube is provided on an inner side of the water tank (21).

5. The emergency wave-blocking embankment protection device according to Claim 4, wherein an air pump (22) bolted to the embankment body (1) is provided on an upper side of the water pump (20); an input end of the air pump (22) is connected with a top end of the sliding chute (10) through an air suction tube; an output end of the air pump (22) is connected with a drying box (23)fixedly connected with and provided on the inner side of the embankment body (1); a partition is fixedly connected with and provided on an inside top end of the drying box (23); a desiccant box (25) for containing desiccant is clamped between the partition and the drying box (23); a bottom plate (24) is provided on a lower side of the desiccant box (25); a support rod (5) is fixedly connected and provided between the bottom plate (24) and the desiccant box (25); the bottom plate (24) and the drying box (23) are connected through a fastener; and an output end of the drying box (23) and the embankment body (1) are connected through an air outlet tube.