CN204139128U - Flexible protection energy dissipating circle - Google Patents

Abstract

The utility model relates to a kind of flexible protection energy dissipating circle, comprise shell, described enclosure hollow, from center, outside shell inwall is provided with some spaced cushion coats and weight coating to enclosure, described cushion coat is made up of the filler in some hollow tubes and hollow tube, described weight coating is rearranged by some hollow tubes, and described cushion coat is parallel with the circumferential axis of shell with the axis of each hollow tube in weight coating.This flexible protection energy dissipating circle adopts built-in hollow tubular structure, can effectively cushion external impact, increases collision time, reduces the loss; Body adopts composite material, effectively can prevent corrosion, increase the service life; In hollow tube, filled polyurethane or other packing materials regulate the energy dissipating ability of energy dissipating circle entirety, and regulate averag density by weight coating, realize floated protection, decrease making material, save cost of manufacture.

Description

Flexible protection energy dissipating circle

Technical field

The utility model relates to self-floating Anti-collision fender, particularly a kind of flexible protection energy dissipating circle.

Background technology

Anti-collision fender is mainly used in the protection to bridge pier, makes the shock injury of hull to bridge pier be reduced to minimum, and also plays certain protective action to hull.

Existing Anti-collision fender is all generally adopt steel housing-case to be located at bridge pier outside, collision time is extended when hull clashes into bridge pier, reduce the loss, but this housing-case is because long period of soaking is in water, in the seawater that particularly corrosivity is stronger, application life is shorter, because housing-case is fixed on around bridge pier, so when there is lifting in the water surface, housing-case cannot synchronously be elevated, general mode is exactly the amplitude according to water surface fluctuation, increase the height of housing-case, make the water surface no matter what change occur, the height of housing-case enough covers and protects bridge pier, the housing-case of this mode needs to expend a lot of material and just can satisfy the demands, cost compare is high, and the internal construction of this housing-case is general all more single, also very limited to the protection of hull and bridge pier.

Utility model content

The technical problems to be solved in the utility model is: in order to overcome, prior art application life is short, cost of manufacture is high, and the deficiency of protected effect difference, provide a kind of long service life, cost of manufacture low, and the flexible protection energy dissipating circle that protected effect is good.

The utility model solves the technical scheme that its technical problem adopts: a kind of flexible protection energy dissipating circle, comprise shell, described enclosure hollow, from center, outside shell inwall is provided with some spaced cushion coats and weight coating to enclosure, described cushion coat is made up of the filler in some hollow tubes and hollow tube, described weight coating is rearranged by some hollow tubes, and described cushion coat is parallel with the circumferential axis of shell with the axis of each hollow tube in weight coating.

Described shell is hollow annular body, and the cross section of ring bodies is circular, namely this ring bodies to be walked the solid figure formed for a week by circle, the track route of this circle is not limited to circle, can be other rule or irregular closed figures, the center of the cross section of each hollow tube in same cushion coat or weight coating be arranged along same even circumferential circumference.

In order to increase the energy dissipating ability of whole energy dissipating circle, described filler is the one in polyurethane foam, polyvinyl chloride foam, carbon foam, PEI foam and PMI foam, Balsa wood, paulownia wood, China fir or strong core felt.

In order to increase the intensity of hollow tube, described hollow tube is composite material tube.

Described shell is composite material, or is the composite construction of composite material Rotating fields and steel Rotating fields.Described composite construction can be double-layer structure, and skin is composite layer, and internal layer is steel Rotating fields; Also can be three layer construction, outermost layer be composite layer, and intermediate layer is steel Rotating fields, and innermost layer is composite layer.

The beneficial effects of the utility model are, this flexible protection energy dissipating circle adopts built-in hollow tubular structure, can effectively cushion external impact, increase collision time, reduce the loss; Body adopts composite material, effectively can prevent corrosion, increase the service life; In hollow tube, filled polyurethane or other packing materials regulate the energy dissipating ability of energy dissipating circle entirety, and regulate averag density by weight coating, realize floated protection, decrease making material, save cost of manufacture.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structural representation of the utility model flexible protection energy dissipating circle.

Fig. 2 is the A-A sectional drawing of Fig. 1.

In figure: 1. shell, 2. hollow tube, 3. filler.

Detailed description of the invention

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As shown in Figure 2, a kind of flexible protection energy dissipating circle of the present utility model, comprise the shell 1 of composite material, the ring bodies of described shell 1 inner hollow, and the cross section of ring bodies is circular, namely this ring bodies to be walked the solid figure formed for a week by circle, the track route of this circle is not limited to circle, can be other rule or irregular closed figures, as shown in Figure 1, the track route of this circle be rectangle.Shell 1 can also be composite construction, such as double-layer structure, and skin is composite layer, and internal layer is steel Rotating fields; Three layer construction, outermost layer is composite layer, and intermediate layer is steel Rotating fields, and innermost layer is composite layer.

From center, outside shell inwall is provided with some spaced cushion coats and weight coating in shell 1 inside, described cushion coat is made up of the filler 3 in some hollow tubes 2 and hollow tube 2, and described filler 3 is the one in polyurethane foam, polyvinyl chloride foam, carbon foam, PEI foam and PMI foam, Balsa wood, paulownia wood, China fir or strong core felt.Described weight coating is rearranged by some hollow tubes 2, described cushion coat is parallel with the circumferential axis of shell 1 with the axis of each hollow tube 2 in weight coating, and namely cushion coat is parallel with the track route of the circular cross-section of ring bodies shell 1 with the axis of each hollow tube 2 in weight coating.The center of the cross section of each hollow tube 2 in same cushion coat or weight coating is arranged along same even circumferential circumference.Described hollow tube 2 is composite material tube, and in the present embodiment, the cross sectional shape of hollow tube 2 is circular, but hollow tube of the present utility model is not limited to circle, can also be the shape such as hexagon, octagon.

Hollow tube 2 is filled in shell 1 inside, can make shell after suffering external impact, impact is when being delivered to shell 1 and being inner, impact is cushioned effectively, because cannot fit completely between each hollow tube 2, when impact extruded hollow pipe 2, hollow tube 2 can send distortion to a certain degree, impact is converted to potential energy by kinetic energy, thus reaches the effect reducing impact.

In fact, the hollow tube 2 in shell 1 with the axis of shell for center line is arranged ringwise.

In hollow tube 2 inside of spaced cushion coat, filler 3 is set; certain support and energy dissipating effect are played to hollow tube 2; other do not have then to fill water according to actual conditions in the hollow tube 2 of filler 3; so just can realize energy dissipating circle to suspend on the water surface; when the water surface changes; can synchronization lifting, like this with regard to not needing the very large protective cover of making one to protect, save making material.

The anticorrosive property of composite material is also stronger.

Compared with prior art, this flexible protection energy dissipating circle adopts built-in hollow tube 2 structure, can effectively cushion external impact; increase collision time; reduce the loss, body is make material with composite material, effectively can prevent corrosion; increase the service life; in hollow tube 2, filled polyurethane or other packing materials regulate the energy dissipating ability of energy dissipating circle entirety, and regulate averag density by weight coating, realize floated protection; decrease making material, save cost of manufacture.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on manual, must determine its technical scope according to right.

Claims (5)

1. a flexible protection energy dissipating circle, comprise shell (1), it is characterized in that, described shell (1) inner hollow, shell (1) is inner, and from center, outside shell inwall is provided with some spaced cushion coats and weight coating, described cushion coat is made up of the filler (3) in some hollow tubes (2) and hollow tube (2), described weight coating is rearranged by some hollow tubes (2), and described cushion coat is parallel with the circumferential axis of shell (1) with the axis of each hollow tube (2) in weight coating.

2. flexible protection energy dissipating circle as claimed in claim 1, it is characterized in that, described shell (1) is hollow annular body, and the cross section of ring bodies is circular, and the center of the cross section of each hollow tube (2) in same cushion coat or weight coating is arranged along same even circumferential circumference.

3. flexible protection energy dissipating circle as claimed in claim 1, it is characterized in that, described filler (3) is polyurethane foam, polyvinyl chloride foam, carbon foam, PEI foam and PMI foam, Balsa wood, paulownia wood, one in China fir or strong core felt.

4. flexible protection energy dissipating circle as claimed in claim 1, it is characterized in that, described hollow tube (2) is composite material tube.

5. flexible protection energy dissipating circle as claimed in claim 1, it is characterized in that, described shell (1) is composite material, or is the composite construction of composite material Rotating fields and steel Rotating fields.