SAFETY PROTECTION APPARATUS OF ELASTIC-PLASTIC STEEL STRUCTURE
A safety protection apparatus of elastic-plastic steel structure is disclosed. The apparatus includes an outer protecting layer (4) and buffering assemblies arranged in a layered manner along the vertical direction and fixed within the outer protecting layer (4). Each buffering assembly includes stiffening beams (3) distributed in a layered manner along the horizontal direction and buffer members (2) uniformly bridging between adjacent stiffening beams (3), and each of said buffer members (2) comprises a pair of arc-shaped damping spokes (1). Shock absorbing rubber elements (5) are provided between vertically adjacent stiffening beams (3). The apparatus has high safety, good durability, and it is convenient to be installed and maintained.
The invention relates to the technical field of structure protection in the operation of bridges and buildings, and more specifically relates to a safety protection apparatus, in particular a safety protection apparatus of elastic-plastic steel structure.
Technical BackgroundTraffic safety is not satisfactory in China for a long time. On numerous critical structures that may affect the public transportation safety, no protection apparatuses for isolating or mitigating the impacts of vehicles, such as cars or ships, are provided, which directly threatens the safety of lives and properties. However, as the traffic volume in China increases rapidly, the contradictions between cars or ships and the surrounding buildings near roads or rivers become more and more significant. Accidents of cars or ships crashing into bridge piers or surrounding buildings happen at times, resulting in collapse of bridge piers or building structures, destroy of cars or ships and casualty of human in serious cases. The reason is supposed to be that the direct impact between cars or ships and the surrounding structures is a rigid collision, during which extremely serious injuries will occur since no energy releasing or isolating devices are provided.
In order to solve such problems, some protection measures such as increasing the structural sizes of bridge piers or adopting simple protection devices, e.g., steel tube fences or bumper piles, have already been used, which to some extent ensure the structural safety of bridge piers. However, such devices are far from satisfying in respect of aesthetics and practical applicability. And above all, since the impact between cars or ships and the protection devices is still rigid collision, it is not possible to alleviate the harm towards the vehicles or humans from the impact without effective release of the energy.
SUMMARY OF THE INVENTIONAn object of the present invention is to provide a safety protection apparatus of elastic-plastic steel structure with high-efficient energy releasing ability in order to solve the problems existing in the prior arts, e.g., the energy of collision cannot be released effectively when rigid impacts occur between cars or ships and important surrounding building structures or bridge piers so that it is unable to alleviate the harm from the impacts towards vehicles or humans.
In order to solve the problems existing in the prior arts, the present invention provides a safety protection apparatus of elastic-plastic steel structure, including an outer protecting layer and buffering assemblies arranged in a layered manner along the vertical direction and fixed within the outer protecting layer,
wherein each buffering assembly includes stiffening beams distributed in a layered manner along the horizontal direction and buffer members uniformly bridging between adjacent stiffening beams,
each of said buffer members comprises a pair of arc-shaped damping spokes fastened to each other, one end of one of the damping spokes is crossed with one end of the other damping spoke;
said buffer members of adjacent buffering assemblies are arranged in a stagger manner with each other along the vertical direction, and
shock absorbing rubber elements are provided between vertically adjacent stiffening beams, wherein vertically adjacent shock absorbing rubber elements are arranged in a stagger manner with each other.
The crossed ends of said pair of damping spokes are connected with outer horizontal stiffening beam, while the other ends are connected with adjacent inner horizontal stiffening beam.
Said buffer members are provided on both the upper side and the lower side of said stiffening beams, and the buffer members on the upper side are arranged in a stagger manner along the vertical direction relative to those on the lower side.
A dustproof cover board is provided on the top of said outer protecting layer.
Suspended draglines are provided on the outer horizontal stiffening beam of the top buffering assembly.
Said damping spoke is made from elastic-plastic mild steel, and has a longitudinal cross section of C shape, semi-ellipse shape, nonlinear arc shape or the like.
Said stiffening beam is connected with the damping spoke via pins or rivets.
Said outer protecting layer is made by high-ductile steel plate with vulcanized rubber thereon, and the transverse cross section of the outer protecting layer is of a closed shape or a linear shape.
Compared with the prior arts, the present invention possesses the following advantages and technical effects.
1. Compared with conventional collision-prevention devices, the safety protection apparatus according to the present invention provides a flexible outer protecting layer, damping spokes and shock absorbing rubber elements as energy releasing materials for collision, which, through connection with annular stiffening beams one of which being nested into the other, forms an elastic-plastic energy releasing apparatus with a high integrity. When it is hit by a car or a ship, the safety protection apparatus can prolong the duration of collision, release the energy from the collision and reduce the impact force via the elastic-plastic deformation of the damping spokes. Due to the integral effectiveness of the outer protecting layer and the stiffening beams, more damping spokes will be subjected to the impact force, in particular in the case of side collision. Therefore, the force can be transmitted farther, thus increasing the area for receiving the impact force, dispersing the impact force and achieving a more uniform stress condition.
2. The present invention provides a multilevel protection, which includes a three-level energy releasing protection structure with a light collision protection level, an intermediate collision protection level and a strong collision protection level. In the case of the light collision, the outer protecting layer and the damping spokes of the safety protection apparatus function together to generate a deformation which will consume energy, but the elastic-plastic steel is substantially in a stage of elastic deformation or only generates a relatively low plastic deformation. In the case of the intermediate collision, the outer protecting layer and the steel damping spokes of the safety protection apparatus function together to generate a deformation which consumes energy, wherein the damping spokes are deformed plastically to a relatively large extent. However, the displacement caused by the collision is still less than the gap between the outer stiffening beams and the shock absorbing rubber elements. Consequently, the outer stiffening beams cannot contact with the shock absorbing rubber elements. In the case of the strong collision, the safety protection apparatus generates a large displacement, enabling the outer stiffening beams to contact the shock absorbing rubber elements. In this case, the safety protection apparatus can release energy through the deformation of the outer protecting layer and the stiffening beams, the plastic deformation of the damping spokes, and the compressing deformation of the shock absorbing rubber elements all together. In this way, the duration of collision is effectively prolonged, and the impact force is lowered significantly. Although the damping spokes generate a large plastic deformation, the displacement limit of the structural design would not be exceeded due to the shock absorbing rubber elements provided to achieve a final limit protection and energy releasing function. Therefore, no breakdown of the damping spokes will happen, and thus the integral function of buffering collision of the safety protection apparatus is ensured. In addition, the impact force can be applied to the bridge piers more uniformly due to the existence of the shock absorbing rubber elements, and the bridge piers are better protected.
3. In the case of a side collision, the outer stiffening beam and the elastic-plastic steel can rotate to a certain extent during the collision due to the pin joint between the elastic-plastic steel and the outer stiffening beam, so that the impact point of the cars or ships will change, with the result that most of the kinetic energy of the cars or ships will be retained on the cars or ships, keeping the cars and ships away from the bridge piers or the building structures without being stuck. In this way, the energy exchange during the collision of cars or ships with the bridge piers or the building structures is considerably reduced, thus protecting the bridge piers or building structure.
4. The upper and lower layers of the damping spokes are arranged in a stagger way with each other and connected to the stiffening beams in a symmetrical structure. Therefore, the stress condition in collisions from different directions is also symmetrical. Thus the protection effect in the case of collisions from various directions can be ensured.
5. In the safety protection apparatus according to the invention, the bottom is separated from the ground. In order to support the safety protection apparatus along the vertical direction, the safety protection apparatus is provided with suspended draglines on the top thereof. The draglines can restrict the deformation of the outer stiffening beams of the safety protection apparatus along the vertical direction, thus mitigating the effect of collision. Compared with the design of connecting the bottom of the safety protection apparatus to the ground, wherein wastes will easily accumulate at the bottom of the protection apparatus and thus influence on cleaning and the effect of slipping of the safety protection apparatus after being subjected to the impact force, the design of adopting suspended draglines is especially advantageous for the deformation and maintenance of the safety protection apparatus.
6. The inner stiffening beam of the safety protection apparatus according to the invention is mounted to surround the bridge piers or the building structures with no damages being generated thereto. Therefore, the safety protection apparatus can be used in a variety of applications. The stiffening beams, the steel damping spokes and the shock absorbing rubber elements of the safety protection apparatus are all designed as modular units, and are connected via pins and rivets, thus achieving an easier mount, maintenance and replacement. Since only the damaged elements in some particular locations are required to be replaced after a strong collision, the cost of repair and maintenance is low.
The invention will be discussed in detail with reference to the attached drawings and examples below.
During construction, according to the invention, the innermost stiffening beams 3 are used to embrace around the bridge pier 8 tightly via bolts. The elastic-plastic steel damping spokes 1 connect the inner stiffening beam 3 with the corresponding outer stiffening beam 3 into a whole body via connecting pins. The outermost stiffening beam 3 on the top layer is suspended and connected to the bridge pier 8 via the suspended draglines 6. The dustproof cover board 7 is finally arranged on top of the protecting outer layer 4.
Example 1As is shown in
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In this case, no suspended draglines 6 are necessary. As seen from
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The present invention is not limited to the above discussed examples. Structures similar to bridge piers 8, protecting columns 9, protecting mounds 10 and the like that require protection are considered suitable for use of the safety protection apparatus of the invention.
REFERENCE LIST1. damping spoke
2. buffer member
3. stiffening beam
4. outer protecting layer
5. shock absorbing rubber element
6. suspended dragline
7. dustproof cover board
8. bridge pier
9. protecting column
10. protecting mound
11. Landscape decoration
Claims
1. A safety protection apparatus of elastic-plastic steel structure, including an outer protecting layer (4) and buffering assemblies arranged in a layered manner along the vertical direction and fixed within the outer protecting layer (4),
- wherein each buffering assembly includes stiffening beams (3) distributed in a layered manner along the horizontal direction and buffer members (2) uniformly bridging between adjacent stiffening beams (3),
- each of said buffer members (2) comprises a pair of arc-shaped damping spokes (1) fastened to each other, one end of one of the damping spokes is crossed with one end of the other damping spoke;
- said buffer members (2) of adjacent buffering assemblies are arranged in a stagger manner with each other along the vertical direction, and
- shock absorbing rubber elements (5) are provided between vertically adjacent stiffening beams (3), wherein vertically adjacent shock absorbing rubber elements (5) are arranged in a stagger manner with each other.
2. The safety protection apparatus of elastic-plastic steel structure according to claim 1, wherein said buffer members (2) are provided on both the upper side and the lower side of said stiffening beam (3), and the buffer members (2) on the upper side are arranged in a stagger manner along the vertical direction relative to those on the lower side.
3. The safety protection apparatus of elastic-plastic steel structure according to claim 1, wherein the crossed ends of said pair of damping spokes (1) are connected with outer horizontal stiffening beam (2), while the other ends are connected with adjacent inner horizontal stiffening beam (3).
4. The safety protection apparatus of elastic-plastic steel structure according to claim 1, wherein a dustproof cover board (7) is provided on the top of said outer protecting layer (4).
5. The safety protection apparatus of elastic-plastic steel structure according to claim 1, wherein suspended draglines (6) are provided on the outer horizontal stiffening beam (3) of top buffering assembly.
6. The safety protection apparatus of elastic-plastic steel structure according to claim 3, wherein said damping spoke (1) is made from elastic-plastic mild steel.
7. The safety protection apparatus of elastic-plastic steel structure according to claim 6, wherein said damping spoke (1) has a longitudinal cross section of C shape, semi-ellipse shape, or nonlinear arc shape.
8. The safety protection apparatus of elastic-plastic steel structure according to claim 7, wherein said stiffening beam (3) is connected with the damping spoke (1) via pins or rivets.
9. The safety protection apparatus of elastic-plastic steel structure according to claim 3, wherein said outer protecting layer (4) is made by high-ductile steel plate with vulcanized rubber thereon.
10. The safety protection apparatus of elastic-plastic steel structure according to claim 8, wherein the transverse cross section of the outer protecting layer (4) is of a closed shape or a linear shape.
11. The safety protection apparatus of elastic-plastic steel structure according to claim 2, wherein the crossed ends of said pair of damping spokes (1) are connected with outer horizontal stiffening beam (2), while the other ends are connected with adjacent inner horizontal stiffening beam (3).
Type: Application
Filed: Oct 8, 2010
Publication Date: Oct 17, 2013
Inventors: Ming Huo (Shaanxi), Shilin Liu (Shaanxi), Shengjin Ge (Shaanxi), Zeyou Peng (Shaanxi), Wei Wang (Shaanxi), Changping Pan (Shaanxi), Zhihua Xiong (Shaanxi), Ruixin Sun (Shaanxi), Jin Meng (Shaanxi), Shan Gao (Shaanxi)
Application Number: 13/817,297