CN207828938U - Anti-fouling screen for submerged oil - Google Patents

Abstract

The utility model relates to a dirty screen of oil immersion and diving, including rubber body, the skirt body, counter weight and connector, the skirt body comprises the absorbent material two parts of outer canvas and inlayer, and the canvas has beaten the punchhole by upper portion, has tied up the strengthening band on the absorbent material, and it has the aperture to bore on the strengthening band, and magnet has been tied up to the absorbent material bottom, installs the probe in the punchhole of canvas. The utility model discloses antifouling screen outside canvas punchhole constitutes the heavy latent oil and gets into the inside passageway of antifouling screen, and when heavy latent oil got into antifouling screen inside through the canvas punchhole, under the adsorption of the adsorption material on inlayer and magnet, with heavy latent oil enclose the bottom of controlling in antifouling screen inlayer.

Description

One kind is stayed under water oily Anti-pollution barrier

Technical field

The utility model belongs to water pollution control technology field, oily prevention and control field of especially staying under water, and in particular to Yi Zhongchen Latent oil Anti-pollution barrier.

Background technology

In recent years, the event of the oil clot pollution water front of a lot of unknown sources has occurred in the Bohai Sea, but near the marine site not Oil spill accident occurs, surrounding sea areas sea is also without the greasy dirt for finding to float, with going deep into for understanding, the oil of this unknown sources Block is identified the oil that stays under water.

Although having carried out the correlative study for the oil that stays under water both at home and abroad, by oil spilling compositional difference and efflorescence, ocean ring The oil meter that stays under water of the influence of border complexity, formation reveals characteristic not of uniform size, different, that nature difference is larger.To current Until, it is main still by means of sorbing material for containing for the oil that stays under water, but there is the suction to the oil that stays under water in flaky adsorbing material The weak problem of attached power acts on although pectination sorbing material can adsorb the oil that stays under water of a part under the impact of ocean current It is very limited.

Invention content

The utility model provides one kind to solve technical problem present in known technology and stays under water oily Anti-pollution barrier, this is antifouling Canvas eyelet outside screen constitutes the oil that stays under water and enters the channel inside Anti-pollution barrier, and when staying under water, oil enters Anti-pollution barrier by canvas eyelet When internal, under the suction-operated of the sorbing material and magnet of internal layer, the oil that will stay under water is contained in the bottom of Anti-pollution barrier internal layer.

The utility model is adopted the technical scheme that solve technical problem present in known technology：

One kind is stayed under water oily Anti-pollution barrier, including Rubber inflator, skirt body, counterweight and connector, the skirt body by outer layer canvas It is formed with sorbing material two parts of internal layer, the canvas is equipped with eyelet by top, reinforcing strip, institute are tied on the sorbing material It states and is drilled with aperture in reinforcing strip.

Further, the sorbing material bottom is tied with magnet.

Further, the eye diameter on the canvas is 10~30mm, and the perforated area height of the canvas is not beat The 2 times or more of bore region height.

Further, the hole diameter in the reinforcing strip of the sorbing material is 5~10mm.

Further, the oily Anti-pollution barrier width that stays under water is 15m~25m, and the skirt body height is 3m~6m.

Further, the sorbing material is spongy resin material.

Further, probe is installed on the eyelet of the canvas.

The utility model has the advantages and positive effects of：

The Anti-pollution barrier of the utility model is particularly effective oily prevention and control of staying under water, and has abandoned and traditional has relied solely on sorbing material The oil that stays under water is handled to oily absorption of staying under water, adhesive tape, but takes absorption with containing the method being combined, has both increased and has stayed under water The treating capacity of oil, and improve treatment effeciency；By installing probe on Anti-pollution barrier, can to close to Anti-pollution barrier stay under water oil into Row alarm；By being punched on Anti-pollution barrier skirt body and sorbing material reinforcing strip so that the Anti-pollution barrier has better wind and wave resistance Property and rider, while also allow for staying under water it is oily can better Contact-sorption material, stayed under water oil with absorption.

Description of the drawings

Fig. 1 is the structural schematic diagram of the Anti-pollution barrier monomer of the utility model；

Fig. 2 is the sectional view of the Anti-pollution barrier monomer of the utility model；

Fig. 3 is the structural schematic diagram of the sorbing material of the utility model.

In figure：1- Rubber inflators；2- skirt bodies；3- counterweights；4- canvas；41- eyelets；5- connectors；6- probes；7- adsorption materials Material；8- magnet；9- reinforcing strips；10- apertures.

Specific implementation mode

For that can further appreciate that the invention, features and effects of the utility model, the following examples are hereby given, and coordinates Detailed description are as follows for attached drawing：

Referring to Fig. 1~3, one kind of the utility model is stayed under water oily Anti-pollution barrier, which is led to by several Anti-pollution barrier monomers It crosses connector to concatenate, each Anti-pollution barrier monomer includes Rubber inflator 1, skirt body 2, counterweight 3 and connector 5, and floating body 1 is antifouling Screen provides buoyancy, so that Anti-pollution barrier is floated on sea, skirt body 2 is arranged in the lower section of floating body, and the lower edge in skirt body, counterweight is arranged in counterweight 3 Downward gravity is provided for Anti-pollution barrier, connector 5 is arranged in the two sides of Rubber inflator and skirt body, is connected by connector adjacent Two Anti-pollution barrier monomers, skirt body 2 is made of the canvas 4 of outer layer and 7 two parts of sorbing material of internal layer, and canvas 4 is beaten by top Perforation 41, as shown in Fig. 2, inner layer adsorption material 7 is wrapped up by the canvas 4 of outer layer, and the canvas 4 of outer layer is with sorbing material 7 are presented axial symmetry for axis；As shown in figure 3, being tied with reinforcing strip 9 on sorbing material 7, aperture 10 is drilled in reinforcing strip 9.

As further preferred embodiment, as shown in Fig. 2, 7 bottom of inner layer adsorption material is tied with magnet 8, magnet 8 is not only The oil that stays under water can be adsorbed, and stretching action is risen to sorbing material 7.

As further preferred embodiment, 41 a diameter of 30mm of eyelet on outer layer canvas 4, the canvas eyelet 41 of outer layer Top to be distributed on outer layer canvas, the perforated area height of canvas is 2 times of non-perforated area height.

As further preferred embodiment, 10 a diameter of 10mm of aperture in the reinforcing strip 9 of inner layer adsorption material.

As further preferred embodiment, the oily Anti-pollution barrier width that stays under water is 15m, and 2 height of skirt body is 3m.

As further preferred embodiment, sorbing material 7 is spongy resin material, and spongy resin material is to pass through Existing resin material, which is modified, to be obtained, and spongy resin material has oleophilic drainage performance, can be penetrated seawater and be adsorbed oily matter.

As further preferred embodiment, probe 6 is installed on the eyelet 41 of outer layer canvas 4, oil can be enclosed to close The oil that stays under water on column is alarmed.

In use, multiple Anti-pollution barrier monomers are joined end to end by connector, launch on sea, when the sea containing the oil that stays under water When water passes through Anti-pollution barrier, the oily and seawater that stays under water enters from the eyelet 41 of outer layer canvas 4 inside Anti-pollution barrier, is inhaled through sorbing material 7 After attached, retention, the oil that stays under water stays in Anti-pollution barrier, and seawater is by sorbing material and reinforces eyelet by other side outer layer canvas Eyelet returns in water body, and Anti-pollution barrier also carries oily Detection And Warning function of staying under water in addition.

The above is only the preferred embodiment to the utility model, is not made in any form to the utility model Limitation, it is every according to the technical essence of the utility model any simple modification made to the above embodiment, equivalent variations with Modification, is all within the scope of the technical scheme of the utility model.

Claims (7)

1. The oily Anti-pollution barrier 1. one kind is stayed under water, the Anti-pollution barrier are concatenated by several Anti-pollution barrier monomers, and each Anti-pollution barrier monomer includes Rubber inflator, skirt body, counterweight and connector, it is characterised in that：The skirt body is by the canvas of outer layer and the sorbing material two of internal layer Part forms, and the canvas is equipped with eyelet by top, reinforcing strip is tied on the sorbing material, is drilled in the reinforcing strip small Hole.
2. The oily Anti-pollution barrier 2. one kind according to claim 1 is stayed under water, it is characterised in that：The sorbing material bottom is tied with magnetic Iron.
3. The oily Anti-pollution barrier 3. one kind according to claim 1 is stayed under water, it is characterised in that：Eye diameter on the canvas is 10 ~30mm, the perforated area height of the canvas are the 2 times or more of non-perforated area height.
4. The oily Anti-pollution barrier 4. one kind according to claim 1 is stayed under water, it is characterised in that：In the reinforcing strip of the sorbing material Hole diameter is 5~10mm.
5. The oily Anti-pollution barrier 5. one kind according to claim 1 is stayed under water, it is characterised in that：The oily Anti-pollution barrier width that stays under water is 15m~25m, the skirt body height are 3m~6m.
6. The oily Anti-pollution barrier 6. one kind according to claim 1 is stayed under water, it is characterised in that：The sorbing material is spongy resin Material.
7. The oily Anti-pollution barrier 7. one kind according to claim 1 is stayed under water, it is characterised in that：Spy is installed on the eyelet of the canvas Needle.