CN204475257U - Harbour of refuge automatic desilting structure - Google Patents

Abstract

The utility model discloses a kind of harbour of refuge automatic desilting structure, comprise the unrestrained dykes and dams of gear and rock massif.Being provided with one between the unrestrained dykes and dams of described gear and rock massif can by unidirectional row's silt device of harbour of refuge unidirectional unlatching towards off-lying sea.Described unidirectional row's silt device comprises the unidirectional loose-leaf that interval is embedded in the multiple anchor block between the unrestrained dykes and dams of gear and rock massif and is connected between two anchor blocks, and wherein, the upper end of described unidirectional loose-leaf upper end and two anchor blocks is hinged to one.This structure revolutionizes traditional artificial dredging mode, but utilize the periodic characteristics of tiding, automatically open the mud that region, innerland taken out of by unidirectional loose-leaf time on the ebb, effectively overcome its long-term touting problems, there is good energy-saving and cost-reducing, advantage that desilting is with low cost.

Description

Harbour of refuge automatic desilting structure

Technical field

The utility model relates to construction of hydro project field, particularly relates to the structure being applicable to ocean desilting and dredging regulation, relates more particularly to a kind of harbour of refuge automatic desilting structure.

Background technology

In recent years, in order to resist day severeer storm surge disaster, substantial contribution is thrown in build for safety of ship turnover and the harbour of refuge of berthing by country in coastal area, this is the pro-poor measurement of benefiting fisherman's centuries.Wherein, the unrestrained dykes and dams of artificial gear are protective equipment the most key in the overall structure of harbour of refuge, can bear the percussion of climax and billow during typhoon storm tide.But keep off unrestrained dykes and dams and there is a maximum side effect, be i.e. " short become silted up ", its harmful effect is in particular in shale sea-bed area.Due to the effect of tide, floodtime bring a large amount of mud into from entrance, harbour of refuge and in slack tide time be deposited on inside, harbour of refuge, although can take away a small amount of mud of Post Office at ebb tide, ratio is very micro-.Along with the passing of service time, harbour there will be alluvial phenomenon to a certain degree, thus causes the depth of water to reduce gradually, and hinder and navigate by water normally, therefore too serious harbour of depositing even can lose wind sheltering defencive function and become useless port.For the fishing port, Shitang of plant resources in Wenling, fish creek fishing port, Ruo Shan fishing port, use duration less than 10 years, now occurred touting problems in various degree, urgently to be resolved hurrily.

In the prior art, in order to extend the application life of harbour of refuge, the maintenance phase after building up must pay close attention to Sedimentation Trend, and timing adopts dredge boat or other facility excavation waters to carry out artificial desilting work.This measure can keep harbour to dredge effectively, but equally also brings certain economic pressures, and dredging maintenance cost often becomes white elephant, and the cycle of back-silting is short, needs dredging operation frequently.

Utility model content

Technical problem to be solved in the utility model is to overcome the problems referred to above, and provides a kind of harbour of refuge automatic desilting structure that significantly can reduce dredging expense, and ingenious performance tidal water potential difference realizes the unidirectional outer row of mud to keep the depth of water of harbour of refuge.

The technical solution of the utility model is:

Harbour of refuge described in the utility model automatic desilting structure, comprises the unrestrained dykes and dams of gear and rock massif, it is characterized in that: being provided with one between the unrestrained dykes and dams of described gear and rock massif can by unidirectional row's silt device of harbour of refuge unidirectional unlatching towards off-lying sea.

Further, in the automatic desilting structure of harbour of refuge described in the utility model, described unidirectional row's silt device comprises the unidirectional loose-leaf that interval is embedded in the multiple anchor block between the unrestrained dykes and dams of gear and rock massif and is connected between two anchor blocks, wherein, the upper end of described unidirectional loose-leaf upper end and two anchor blocks is hinged to one.

Thus, the row that this structure defines a unidirectional opening and closing between the unrestrained dykes and dams of gear and natural rock massif is become silted up mouth, it in use mainly presents two states: one betides flood tide and slack tide stage, the inside and outside water level of the unrestrained dykes and dams of described gear shows as interior low outer height and makes unidirectional loose-leaf be in vertical closure state, and tidewater and mud cannot enter in harbour of refuge from this place; It two betides the ebb stage, and the water level of described gear wave dykes and dams is low inside and high outside, and inside and outside water-head drives unidirectional loose-leaf outwards overturn out certain angle and the mud being deposited on dykes and dams region is discharged with ebb from this.

Further, in the automatic desilting structure of harbour of refuge described in the utility model, described unidirectional loose-leaf selects corrosion-resistant material to make and its proportion is greater than the proportion 1 of water, can remain the static closed state perpendicular with horizontal plane with unidirectional loose-leaf during guaranteeing flood tide and slack tide and can not be arbitrarily floating, and the quality of its decay resistance determines the length in whole device application life.

Further, in the automatic desilting structure of harbour of refuge described in the utility model, the road surface elevation of described anchor block is basically identical with the road surface elevation of the unrestrained dykes and dams of gear, avoids unidirectional row's silt device road surface elevation too low and reduces gear wave effect herein.

The beneficial effects of the utility model are:

1, the utility model makes full use of tide energy and realizes shuttle automatic desilting operation to harbour of refuge, replace the traditional approach of hand excavation, not only effectively evade the risk that harbour of refuge is silted up, extend the service life of harbour of refuge, and this operation is without the need to providing power in addition, running cost is low, and way to manage is simple, in energy-saving and cost-reducing, there is obvious advantage, there is sustainability and replicability.

2, the utility model is rational in infrastructure, simplicity of design, cheap, is easy to realize.The utility model is selected to rely on the unrestrained dykes and dams of gear and natural cay massif to build, and can not cause harmful effect on the one hand to the shock resistance of dykes and dams, and be conducive to the investment reducing based process when constructing on the other hand, integral construction cost reduces.

Accompanying drawing explanation

Fig. 1 is the structural representation of one of them embodiment of the utility model.

Fig. 2 is the structural representation of the another embodiment of the utility model.

Fig. 3 is schematic perspective view when the unidirectional row of embodiment described in Fig. 2 is become silted up.

Detailed description of the invention

Now by reference to the accompanying drawings the utility model is further described:

With reference to shown in Fig. 1, Fig. 2, harbour of refuge described in the utility model automatic desilting structure, comprises the unrestrained dykes and dams 1 of gear and rock massif 2.Being provided with one between the unrestrained dykes and dams of described gear 1 and rock massif 2 can by unidirectional row's silt device 3 of harbour of refuge unidirectional unlatching towards off-lying sea.More specifically, described unidirectional row's silt device 3 comprises the unidirectional loose-leaf 5 that interval is embedded in the multiple anchor blocks 4 between the unrestrained dykes and dams 1 of gear and rock massif 2 and is connected between two anchor blocks 4.Wherein, the upper end of described unidirectional loose-leaf 5 upper end and two anchor blocks 4 is hinged to one, and its lower end is free movable end.It should be noted that, be arranged at the unidirectional loose-leaf 5 not only single plate body (with reference to shown in Fig. 1) between two anchor blocks 4, also can be as shown in Figures 2 and 3, form by the unit board of multiple same shape and structure is horizontally-spliced successively, and the upper end of each unit board is all movably connected between two anchor blocks 4 by articulated elements and constituent parts plate can independently be overturn each other.

Because described unidirectional loose-leaf 5 is infiltrated in harsh naval air environment for a long time, alternation of wetting and drying is frequent, there is the etching problems such as high salt fog, high humility and suffer wave etc. to clash into impact, corrosion-resistant material should be selected to make for unidirectional loose-leaf 5 described in said structure and its proportion must be greater than the proportion 1 of water, concrete three layers of bonding structure that can adopt " glass fiber reinforced plastic+stainless steel+glass fiber reinforced plastic " when implementing.Thus, described unidirectional loose-leaf 5 can adapt to severe work condition environment better, more durable in use, ensures that it only relies on this characteristic of ebb hydraulic pressure unidirectional unlatching simultaneously, avoids because proportion is too small and in floating shape.

In both embodiments, the parameters of described anchor block 4 must fully in conjunction with the execution conditions in each wind sheltering fishing port, the change of local tidal range, keep off unrestrained dykes and dams design parameters etc. because of usually comprehensive Design, the road surface elevation of wherein said anchor block 4 should be basically identical with the road surface elevation of the unrestrained dykes and dams 1 of gear, basic elevation then depends on actual construction environment more, is that the lower dredging effect of basic elevation is better in principle.

Above structure, the utility model effectively can solve harbour of refuge must carry out the difficult problem of artificial desilting maintenance, a draining in automatic Dredging Process by substantial fund manpower, does not receive tide, and the depth of water of harbour of refuge can be kept to make it to continue to use.The desilting object of this structure is mainly for the unrestrained dykes and dams 1 of gear and rock massif 2 joint, and above-mentioned zone is the region, innerland in wind sheltering fishing port, more easily there is the problem of the difficult row of alluvial compared to port location.The method of operation of whole device is described as follows: in the tiding process of one-period, when being in flood tide phase and slack period, high-order seawater pours in and then raises water level in harbour of refuge to direction, harbour of refuge, now described unidirectional loose-leaf 5 is in vertically closed state all the time by flood tide water impact, keeps off unrestrained dykes and dams 1 and is linked to be a Fencing protection barrier with unidirectional row's silt device 3; And when arriving the ebb phase, in harbour of refuge, water level reaches the highest, and seawater goes along the outside regression of all directions, thus drives unidirectional loose-leaf 5 automatically outwards to raise and shape silt mouth in a row, region, above-mentioned innerland and off-lying sea connect, and thus can take away rapidly the mud in region, innerland with the tidewater trend that leaks.Owing to there is twice tide bulge and fall in diel, the unidirectional row device that becomes silted up also realizes automatically arranging silt twice thereupon, and dredging effect is very obvious, and this operation process does not rely on power drive, more efficient energy-saving, its economic benefit and social benefit inestimable.It should be noted that the utility model can also extend to two-way enter draining culvert-type structure freely, but there is the drawback taking back a large amount of mud of just having discharged at the incoming tide, thus dredging effect is slightly inferior to above-mentioned two embodiments.

Specific embodiment described herein is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore in every case have in art and usually know the knowledgeable all that complete under spirit that the utility model discloses and technological thought are equivalent modifies or change not departing from, still contained by claim of the present utility model.

Claims (4)

1. harbour of refuge automatic desilting structure, comprises the unrestrained dykes and dams of gear and rock massif, it is characterized in that: being provided with one between the unrestrained dykes and dams of described gear and rock massif can by unidirectional row's silt device of harbour of refuge unidirectional unlatching towards off-lying sea.

2. according to harbour of refuge according to claim 1 automatic desilting structure, it is characterized in that: described unidirectional row's silt device comprises the unidirectional loose-leaf that interval is embedded in the multiple anchor block between the unrestrained dykes and dams of gear and rock massif and is connected between two anchor blocks, wherein, the upper end of described unidirectional loose-leaf upper end and two anchor blocks is hinged to one.

3. according to harbour of refuge according to claim 2 automatic desilting structure, it is characterized in that: described unidirectional loose-leaf selects corrosion-resistant material to make and its proportion is greater than the proportion 1 of water.

4. according to harbour of refuge according to claim 2 automatic desilting structure, it is characterized in that: the road surface elevation of described anchor block is basically identical with the road surface elevation of the unrestrained dykes and dams of gear.