阅读说明：本技术 一种可随海水涨潮高度改变的护栏防护组件 (Guardrail protection component capable of changing with seawater tide height ) 是由 卢惠云 于 2020-07-02 设计创作，主要内容包括：本发明涉及海岸护栏防护设备领域,具体为一种可随海水涨潮高度改变的护栏防护组件,包括护栏主体、护栏立柱,护栏主体正面活动安装有挡浪板,挡浪板内侧固定安装有导流板,护栏主体上端固定安装有横梁。本发明通过护栏主体活动套接在护栏立柱外侧,且挡浪板外侧设置有倾斜弧形设置的受力板,使得当海水涨潮后海浪冲击到挡浪板上时,能利用受力板加大海浪与挡浪板接触后对其的作用力,以致挡浪板带动护栏主体沿护栏立柱外侧向上移动,达到随着海上涨潮向上移动远离海浪冲击的效果,再通过护栏主体内部设置有拉动板,使得当护栏主体带动拉动板向上移动后,拉动板能在弹簧的作用下拉动挡浪板进行转动,使其内侧向下对海浪进行阻挡。(The invention relates to the field of coastal guardrail protection equipment, in particular to a guardrail protection component capable of changing along with the rising tide height of seawater. According to the invention, the guardrail main body is movably sleeved on the outer side of the guardrail upright post, and the stress plate arranged in an inclined arc shape is arranged on the outer side of the wave blocking plate, so that when sea waves impact the wave blocking plate after sea tide, the stress plate can be utilized to increase the acting force on the wave blocking plate after the sea waves contact the wave blocking plate, so that the wave blocking plate drives the guardrail main body to move upwards along the outer side of the guardrail upright post, and the effect of keeping away from the impact of the sea waves along with the upward movement of the sea tide is achieved, and then the pull plate is arranged in the guardrail main body, so that after the guardrail main body drives the pull plate to move upwards, the pull plate can pull the wave blocking plate to rotate under the action of the.)

1. The utility model provides a can rise guardrail protection component of tide height change along with sea water, includes guardrail main part (1), guardrail stand (2), its characterized in that: guardrail main part (1) openly movable mounting has breakwater board (3), breakwater board (3) inboard fixed mounting has guide plate (12), guardrail main part (1) upper end fixed mounting has crossbeam (8), clean ring (9) have been cup jointed in the activity in the crossbeam (8) outside.

2. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: the guardrail is characterized in that the guardrail main body (1) is movably sleeved on the outer side of the guardrail upright post (2), and a stress plate (4) arranged in an inclined arc shape is fixedly installed on the outer side of the wave blocking plate (3).

3. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: the guardrail is characterized in that a pulling plate (5) is movably mounted at the upper end of the guardrail main body (1) relative to the wave board (3), the outer end of the pulling plate (5) is in a hook shape, and a bump (13) is fixedly mounted at the upper end of the wave board (3).

4. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: the inner side of the wave blocking plate (3) is in arc-shaped concave arrangement, and the guide plate (12) is in V-shaped arrangement with arc-shaped concave parts at two sides.

5. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: the internal movable mounting of guide plate (12) has bull stick (14), bull stick (14) outside fixed mounting has the rotor, breakwater (3) outside movable mounting has first bevel gear (6).

6. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: guardrail main part (1) openly movable mounting has second bevel gear (7), guardrail main part (1) inside upper end movable mounting has drive gear (10), clean ring (9) lower extreme fixed mounting has rack (15).

7. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: two sides of the cross beam (8) are respectively provided with a cleaning ring (9), and racks (15) at the lower ends of the two cleaning rings (9) are arranged on two sides of the cross beam (8).

8. The guardrail protection assembly of claim 1 wherein the guardrail protection assembly is adapted to be changed in response to the tidal height of seawater, and further comprising: the cleaning ring (9) is internally provided with a slag collecting groove (11), the slag collecting groove (11) is internally provided with an arc-shaped concave part, and one side communicated with the outside is obliquely arranged towards the cross beam (8).

Technical Field

The invention relates to the field of coastal guardrail protection equipment, in particular to a guardrail protection component capable of changing along with the rising tide height of seawater.

Background

The guardrail is also called as a protective fence and is mainly used for protecting and protecting personal safety and equipment facilities in occasions such as houses, roads, commercial districts, public places and the like, and the guardrail is visible everywhere in our lives. The beautiful scenery usually attracts people to watch on the coast, so that the arrangement of guardrails on the shore is particularly important.

The coast often suffers from the impact of sea waves due to the change of ocean weather, and the impact height of the sea waves is greatly improved when tide rises, so that the guardrails can be impacted together, but the existing seaside guardrail mostly lacks a structure rising along with the tide rise of sea water, so that the sea waves can easily impact the guardrails, the service life of the guardrail is shortened, and meanwhile, the diversion buffer structure for the sea waves is lacked, and the service life of the shore railings is further shortened.

Disclosure of Invention

The utility model provides a can rise automatically upwards when the sea water tide rise, increase the distance with the wave to guardrail protection subassembly that can rise tide height along with the sea water, the device, and can also guide the impact force of wave simultaneously, reduce the power of acting on the guardrail.

The utility model provides a guardrail protection component that can rise tide height along with sea water changes, includes guardrail main part, guardrail stand, the positive movable mounting of guardrail main part has the breakwater, the inboard fixed mounting of breakwater has the guide plate, guardrail main part upper end fixed mounting has the crossbeam, clean ring has been cup jointed in the activity of the crossbeam outside.

Preferably, the guardrail main body is movably sleeved on the outer side of the guardrail upright post, and a stress plate arranged in an inclined arc shape is fixedly installed on the outer side of the wave blocking plate.

Preferably, a pulling plate is movably mounted in the guardrail main body relative to the upper end of the wave blocking plate, the outer end of the pulling plate is in a hook-shaped arrangement, and a bump is fixedly mounted at the upper end of the wave blocking plate.

Preferably, the inner side of the wave baffle plate is in arc-shaped concave arrangement, and the guide plate is in V-shaped arrangement with arc-shaped concave arrangement at two sides.

Preferably, a rotating rod is movably mounted inside the guide plate, a rotating sheet is fixedly mounted on the outer side of the rotating rod, and a first bevel gear is movably mounted on the outer side of the wave blocking plate.

Preferably, the front surface of the guardrail main body is movably provided with a second bevel gear, the upper end inside the guardrail main body is movably provided with a driving gear, and the lower end of the cleaning ring is fixedly provided with a rack.

Preferably, two cleaning rings are arranged on two sides of the cross beam respectively, and racks at the lower ends of the two cleaning rings are arranged on two sides of the cross beam.

Preferably, the cleaning ring is internally provided with a slag collecting groove, the inner part of the slag collecting groove is in an arc-shaped concave arrangement, and one side communicated with the outside is inclined towards the cross beam.

Compared with the prior art, the invention has the following beneficial effects:

1. the guardrail main body is movably sleeved on the outer side of the guardrail upright post, and the outer side of the wave blocking plate is fixedly provided with the stress plate which is obliquely and arcuately arranged, so that when sea waves impact the wave blocking plate after sea tides, the stress plate can be used for increasing the acting force on the wave blocking plate after the sea waves contact the wave blocking plate, the wave blocking plate drives the guardrail main body to move upwards along the outer side of the guardrail upright post, further, the effect of keeping away from the sea wave impact along with the upward movement of the sea tides is achieved, then, the pull plate is movably arranged in the guardrail main body relative to the upper end of the wave blocking plate, the outer end of the pull plate is in a hook-shaped arrangement, when the pull plate is driven by the guardrail main body to move upwards to the through groove at the upper end of the guardrail upright post, the pull plate can move inwards to enter the through groove under the action of the spring, so that the hook at the outer, therefore, the impact of sea waves on the guardrail is further reduced, the service life of the guardrail is prolonged, the gear teeth are arranged at the upper ends of the pulling plate and the breakwater plate, and the rotating efficiency of the breakwater plate can be further improved.

2. The inner side of the wave blocking plate is in the arc-shaped concave arrangement, and the guide plate is in the V-shaped arrangement with the arc-shaped concave at two sides, so that when sea waves impact the inner side of the wave blocking plate, the sea waves can be guided outwards to avoid the height of the sea waves exceeding the wave blocking plate, meanwhile, the sea waves can be guided towards two sides by utilizing the shape of the guide plate, the acting force of the sea waves on the wave blocking plate is further reduced, the rotating rod is movably arranged in the guide plate, and the rotating sheet is fixedly arranged at the outer side of the rotating rod, so that when the sea waves are guided by the guide plate, the sea waves can be contacted with the rotating sheet at the outer side of the rotating rod, the rotating rod is driven to move, the rotating rod can drive the first bevel gear to rotate by utilizing the conveyor belt, the first bevel gear can be meshed with the second bevel gear after the wave blocking plate rotates upwards, and the upper end of the driving gear is meshed with the rack at the lower end of the cleaning ring, so that the cleaning ring can be driven to move outside the beam by the impact force of sea waves, dust and impurities outside the beam are cleaned, the effect of automatically cleaning the guardrail is achieved, the consumption of a power supply is saved, and the spring springs are fixedly mounted on the two sides of the driving gear, so that the driving gear can drive the cleaning ring to return.

3. Respectively be provided with a clean ring through the crossbeam both sides, and the rack setting of two clean ring lower extremes is in the both sides of crossbeam, make drive gear can move two clean rings and remove to the crossbeam middle-end when rotatory, improve the clean efficiency of crossbeam, the inside receipts cinder notch of having seted up of rethread clean ring, and receive the inside arc indent setting that is of cinder notch, set up for inclining to the crossbeam with one side of outside intercommunication, make can conveniently shovel into the dust impurity on the crossbeam when receiving the cinder notch inside, can avoid dust impurity to go out at will again, make impurity only can remove to the row cinder notch of clean ring both sides along the cambered surface of receiving the cinder notch, and then improve dust impurity's discharge efficiency.

Drawings

FIG. 1 is a front view of the barrier body of the present invention;

FIG. 2 is a front perspective view of the barrier body of the present invention;

FIG. 3 is a right perspective view of the barrier body of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 3 according to the present invention;

FIG. 5 is a right perspective view of the breakwater according to the present invention;

fig. 6 is a perspective view of the breakwater according to the present invention;

FIG. 7 is a perspective view of the interior of the cleaning ring of the present invention.

In FIGS. 1-7: 1-guardrail main body, 2-guardrail upright post, 3-wave baffle plate, 4-stress plate, 5-pulling plate, 6-first bevel gear, 7-second bevel gear, 8-beam, 9-cleaning ring, 10-driving gear, 11-slag collecting groove, 12-guide plate, 13-lug, 14-rotating rod and 15-rack.

Detailed Description

Referring to fig. 1 to 7, a schematic plan view and a schematic perspective view of a guardrail protection assembly capable of changing with the height of sea water flood are shown.

The utility model provides a can be along with guardrail protection subassembly of sea water tide height change, includes guardrail main part 1, guardrail stand 2, and 1 positive movable mounting of guardrail main part has breakwater 3, and 3 inboard fixed mounting of breakwater have guide plate 12, and 1 upper end fixed mounting of guardrail main part has crossbeam 8, and the activity of the 8 outsides of crossbeam has cup jointed cleaning ring 9.

In the concrete implementation, 1 activity of guardrail main part cup joints in 2 outsides of guardrail stand, and 3 outside fixed mounting of breakwater has the atress board 4 that slope arc set up, makes when the sea wave strikes on the breakwater 3 after the sea wave rises tide, can utilize atress board 4 to increase the effort to it after wave and the contact of breakwater 3, so that breakwater 3 drives 1 upward movement along 2 outsides of guardrail stand, and then reaches and keeps away from the effect that the wave strikeed along with the sea wave rising tide upward movement.

In the concrete implementation, the pull plate 5 is movably mounted at the upper end of the opposite wave blocking plate 3 in the guardrail main body 1, the outer end of the pull plate 5 is in a hook-shaped arrangement, and the bump 13 is fixedly mounted at the upper end of the wave blocking plate 3, so that when the guardrail main body 1 drives the pull plate 5 to move upwards to the through groove at the upper end of the guardrail upright post 2, the pull plate 5 can move inwards under the action of the spring to enter the through groove, the hook at the outer end of the pull plate 5 can utilize the bump 13 on the wave blocking plate 3 to pull the wave blocking plate 3 to rotate, the inner side of the pull plate is downward to block sea waves, and the impact of the sea wave guardrails is further.

In specific implementation, the inner side of the wave deflector 3 is in an arc-shaped concave arrangement, and the guide plate 12 is in a V-shaped arrangement with arc-shaped concave arrangements at two sides, so that when the wave impacts the inner side of the wave deflector 3, the wave can be guided outwards to avoid the wave exceeding the height of the wave deflector 3, and meanwhile, the shape of the guide plate 12 can be utilized to guide the wave to two sides, and the acting force of the wave on the wave deflector 3 is further reduced.

In the specific implementation, a rotating rod 14 is movably mounted inside the deflector 12, a rotating piece is fixedly mounted on the outer side of the rotating rod 14, and a first bevel gear 6 is movably mounted on the outer side of the wave baffle 3, so that when sea waves are guided by the deflector 12, the sea waves can contact with the rotating piece on the outer side of the rotating rod 14, and the rotating rod 14 is driven to move, and the rotating rod 14 can drive the first bevel gear 6 to rotate by using a conveyor belt.

In the concrete implementation, guardrail main part 1 openly movable mounting has second bevel gear 7, guardrail main part 1 inside upper end movable mounting has drive gear 10, clean ring 9 lower extreme fixed mounting has rack 15, can let first bevel gear 6 be connected with second bevel gear 7 interlock after upwards rotating through manger plate 3, make first bevel gear 6 can drive second bevel gear 7 and rotate, rethread second bevel gear 7 rear end is connected with drive gear 10 interlock, and drive gear 10 upper end is connected with rack 15 interlock of clean ring 9 lower extreme, thereby can drive clean ring 9 and remove in the crossbeam 8 outside through the impact force of wave, clear up the dust impurity in the crossbeam 8 outside, the consumption of saving the power when reaching automatic clearance guardrail effect.

In specific implementation, two cleaning rings 9 are respectively arranged on two sides of the cross beam 8, and racks 15 at the lower ends of the two cleaning rings 9 are arranged on two sides of the cross beam 8, so that the two cleaning rings 9 can be driven to move towards the middle end of the cross beam 8 when the driving gear 10 rotates, and the cleaning efficiency of the cross beam 8 is improved.

In concrete implementation, clean ring 9 is inside to be seted up and to receive sediment groove 11, receives sediment groove 11 inside to be the arc indent setting, and one side with outside intercommunication is for setting up to 8 slopes of crossbeam for can conveniently shovel into the dust impurity on the crossbeam 8 and receive the sediment groove 11 inside when, can avoid dust impurity to go out at will again, make impurity can only remove to the row's cinder notch of clean ring 9 both sides along the cambered surface of receiving sediment groove 11, and then improve dust impurity's discharge efficiency.

The working principle of the guardrail protection component capable of changing along with the rising tide height of seawater is as follows.

Firstly, the guardrail main body 1 is movably sleeved on the outer side of a guardrail upright post 2, and the outer side of a wave blocking plate 3 is fixedly provided with a force bearing plate 4 which is obliquely and arcuately arranged, so that when sea waves impact the wave blocking plate 3 after sea tide, the force bearing plate 4 can be utilized to increase the acting force on the wave blocking plate 3 after the sea waves contact with the wave blocking plate 3, the wave blocking plate 3 drives the guardrail main body 1 to move upwards along the outer side of the guardrail upright post 2, further, the effect of keeping away from the wave impact along with the upward movement of the sea tide is achieved, then, a pulling plate 5 is movably arranged in the guardrail main body 1 relative to the upper end of the wave blocking plate 3, the outer end of the pulling plate 5 is in a hook-shaped arrangement, so that when the guardrail main body 1 drives the pulling plate 5 to move upwards to a through groove at the upper end of the guardrail upright post 2, the pulling plate 5 can move inwards under the action of a spring to enter the through groove, the inner side of the baffle plate is downwards blocked by sea waves, so that the impact of the sea waves on the guardrail is further reduced, the service life of the guardrail is prolonged, the gear teeth are arranged at the upper ends of the pulling plate 5 and the wave baffle 3, the rotating efficiency of the wave baffle 3 can be further improved, then the inner side of the wave baffle 3 is in arc-shaped concave arrangement, the guide plate 12 is in V-shaped arrangement with arc-shaped concave arrangement at two sides, the sea waves can be outwards guided to avoid the height of the wave baffle 3 when impacting the inner side of the wave baffle 3, the sea waves can be guided to two sides by the shape of the guide plate 12, the acting force of the sea waves on the wave baffle 3 is further reduced, the rotating rod 14 is movably arranged in the guide plate 12, and the rotating piece is fixedly arranged at the outer side of the rotating rod 14, so that when the sea waves are guided by the guide plate 12, the rotating piece can be contacted with the rotating piece at the, so that the rotating rod 14 can drive the first bevel gear 6 to rotate by utilizing the conveyor belt, the first bevel gear 6 can be meshed with the second bevel gear 7 after the wave blocking plate 3 rotates upwards, the first bevel gear 6 can drive the second bevel gear 7 to rotate, the rear end of the second bevel gear 7 is meshed with the driving gear 10, the upper end of the driving gear 10 is meshed with the rack 15 at the lower end of the cleaning ring 9, so that the cleaning ring 9 can be driven to move outside the beam 8 by the impact force of sea waves, dust and impurities outside the beam 8 can be cleaned, the consumption of a power supply can be saved while the effect of automatically cleaning the guardrail is achieved, wherein coil springs are fixedly arranged at two sides of the driving gear 10, so that the cleaning ring 9 can be driven to return, one cleaning ring 9 is respectively arranged at two sides of the beam 8, and the racks 15 at the lower ends of the two cleaning rings 9 are arranged at two sides of, make drive gear 10 can move two clean rings 9 when rotatory and remove to the crossbeam 8 middle-end, improve crossbeam 8's clean efficiency, the inside receipts cinder groove 11 of having seted up of rethread clean ring 9, and receive 1 inside arc indent settings for of cinder groove, set up for inclining to crossbeam 8 with one side of outside intercommunication, make can conveniently shovel the dust impurity on the crossbeam 8 go into when receiving 11 insides of cinder groove, can avoid dust impurity to go out at will again, make impurity only can remove to the row cinder notch of clean ring 9 both sides along the cambered surface of receiving cinder groove 11, and then improve dust impurity's discharge efficiency.