KR200428958Y1 - Upwelling block using waste concrete sleeper - Google Patents

Abstract

The present invention relates to a water-flow block that is stacked in multiple stages on the ocean floor to induce upwelling. Looking at the features of the configuration, the water-flow block 10 has a flat loading surface 12 formed on the upper and lower sides thereof, and the loading One or two or more surfaces of the surface 12 and the outer surface 14 are provided with a loading groove 16, and are accommodated in the loading groove 16 of the melt flow block 10 and are stacked in multiple stages. Auxiliary block 20, such as sleepers; characterized in that comprises a.

Accordingly, the Yongseung flow block is installed on the bottom of the sea in the state of receiving waste materials such as waste concrete sleepers, and induces the flow of water, thereby reducing the waste disposal cost and material cost reduction by the manufacture of the melt flow block. In particular, waste materials such as waste concrete sleepers are already included in concrete while in use. Therefore, the toxic substances are neutralized and thus have an environmentally friendly effect.

Yongseung, Yongseung flow, Yongseung flow block, Waste concrete sleepers,

Description

Upwelling block using waste concrete sleeper

1 is a configuration diagram showing a melt flow block for inducing melt flow in the prior art.

Figure 2 is a front view showing a water flow block accommodated in the auxiliary block according to the present invention.

Figure 3a to 3c is a block diagram showing several embodiments of the water flow block according to the present invention.

Figure 4 is a state diagram showing the configuration of the water flow block according to the present invention installed on the ocean floor.

Explanation of symbols on the main parts of the drawings

10: melt flow block 12: laminated surface 14: the outer surface

16: loading groove 20: auxiliary block

The present invention relates to a water flow block using waste concrete sleepers, and more specifically, the water flow block is installed on the bottom of a seabed while receiving waste material such as waste concrete sleepers to induce a melt flow, thereby treating waste by recycling waste materials. To reduce the cost of materials due to the production of cost and water flow blocks. Especially, waste materials such as waste concrete sleepers are already included in concrete during use. As the toxic substances have been neutralized, the water flow blocks using eco-friendly waste concrete sleepers will be.

In general, the movement of the water in the lower layer to the surface due to any cause in the sea is called Yongyong, and the flow accompanying the water is called Yongyong Flow. Longitudinal currents have a great effect on the sea and coastal weather and climate due to the low temperature of the seawater that has risen, and the nutrients in the light-receiving layer in the sea generally bring about marine productivity. This high fishery is formed.

For example, natural causes of upwelling are caused by unevenness of the ocean floor, crossover of sea currents, waves or tsunamis pushing to the shore, but due to the small area of freely rising waters that exist naturally, Offshore development projects are being expanded.

1 is a configuration diagram showing a melt flow block for inducing melt flow in the related art.

In Fig. 1, the conventional flow block 1 is a structure mainly formed of concrete in a block shape of a hexahedron, which is stacked in multiple stages on the ocean floor to induce the seawater to rise up. However, the manufacturing cost is increased due to the excessive consumption of concrete by filling concrete into a mold made in a certain shape (for example, a hexahedron, etc.) in the form of a block in manufacturing the water flow block (1).

In addition, the melt flow block (1) formed of integral concrete as described above, the concrete toxic components such as volatile organic compounds, formaldehyde, etc. are released for a certain period after the initial production. Therefore, if the water flow block (1) is installed on the ocean floor immediately after manufacture, fish and shellfish may not be approached due to toxic components, and the marine environment may be degraded due to water pollution.

Accordingly, the present invention has been devised in view of the above, and more specifically, the Yongyong flow block is installed on the bottom of the sea in the state of receiving waste materials such as waste concrete sleepers to induce a melt flow, thereby recycling waste materials. Material cost reduction effect due to processing cost and melt flow block production. Especially, waste materials such as waste concrete sleepers are already included in concrete while in use. Toxic flow blocks using environmentally friendly waste concrete sleepers are provided because toxic substances are neutralized. It is for that purpose.

In order to achieve the above object of the present invention, a multi-stage stack in a seawater flow block that induces water flow: The water flow block 10 is formed on the upper and lower flat loading surface 12, the loading surface 1 or 2 or more of the outer surface 14 is provided with a loading groove 16 on the surface, the sleeper concrete sleeper that is accommodated in the loading groove 16 of the melt flow block 10 and loaded in multiple stages Auxiliary block 20, such as; characterized in that comprises a.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Figure 2 is a front view showing a water flow block accommodated in the auxiliary block according to the present invention, Figures 3a to 3c is a block diagram showing various embodiments of the water flow block according to the present invention, Figure 4 is a water flow block according to the present invention It is a use state diagram which shows the structure installed in the bottom surface.

The present invention relates to a water-flow block that is multi-stage stacked on the ocean floor to induce upwelling, wherein the water-flow block 10 is stacked in multi-stage water on the ocean floor so that seawater is dissolved and many nutrients in the light-receiving layer ( Iii) to induce bringing, the water flow block 10 should be designed and manufactured in an environment-friendly aspect so as not only to reduce the cost according to the manufacturing but also to deteriorate the marine environment (eg, water misuse, fishery destruction, etc.) after installation. do. To this end, the water flow block 10 of the present invention is characterized by consisting of a loading surface 12, an outer surface 14, a loading groove 16, an auxiliary block 20 and the like.

The water flow block 10 according to the present invention has a flat loading surface 12 formed on the upper and lower portions thereof, and a loading groove 16 on one or two or more surfaces of the loading surface 12 and the outer surface 14. ) Is provided. The water flow block 10 is filled into the mold to produce a predetermined shape (for example, shown in a cube in Fig. 2), the upper and lower loading surface 12 is formed parallel to each other. The stacking surface 12 is formed flat as shown in FIG. 2 and is firmly engaged in a state of being interviewed with each other when the water flow block 10 is stacked in multiple stages.

At this time, the melt flow block 10 is provided with a loading groove 16 on any one surface or two or more surfaces of the loading surface 12 and the outer surface (14). The loading groove 16 is a space portion into which the auxiliary block 20 to be described later is inserted, and recessed in one surface of the molten flow block 10 as shown in FIG. 3A or through the outer surface 14 facing each other as shown in FIG. 3B. And the outer surface 14 and the mounting surface 12 which face each other as shown in FIG. 3C.

On the other hand, the loading groove 16 is preferably formed to be inclined to the edge portion is weak durability so that the crack does not easily occur in the installation in the water flow block 10 in the state accommodating the auxiliary block 20.

In addition, the auxiliary block 20 is accommodated in the loading groove 16 of the melt flow block 10 according to the present invention is provided in a multi-stage. The auxiliary block 20 is accommodated in multiple stages in the loading groove 16 of the water flow block 10, as shown in Figure 2 to 4, wherein the auxiliary block 20 is recycled waste materials such as waste concrete sleepers Used. For example, although the auxiliary block 20 in Figures 2 to 4 shows a state in which the recycled concrete sleepers are recycled, a configuration using waste materials such as waste concrete sidewalk blocks (not shown) is also possible.

Here, since waste materials such as waste concrete sleepers used as the auxiliary block 20 are already installed and used, the toxic components contained in the concrete are neutralized, so even if they are installed together with the water flow block 10 on the ocean floor, There is an environmentally friendly advantage that fisheries are formed in a shorter time without adversely affecting water pollution or seafood due to toxic components.

In addition, the melt flow block 10 is produced by using a small amount of concrete as a means for supporting the auxiliary block 20 to promote the material cost reduction effect, and also to recycle the waste materials used as an auxiliary block 20 As a result, even the cost of waste treatment can be reduced.

According to the above configuration and action, the present invention is a material according to the waste treatment cost and the construction of the dissolved flow block by recycling the waste material as the dissolved flow block is installed on the bottom of the sea in the state of receiving waste materials such as waste concrete sleepers. To achieve non-saving effects, especially waste materials such as waste concrete sleepers are already included in concrete while in use.

Claims (1)

In a rise-flow block which is stacked in multiple stages on the ocean floor to induce rise: The rising flow block 10 is provided with a loading groove 16 on any one surface or two or more surfaces of the loading surface 12 and the outer surface 14 while the flat loading surface 12 is formed on the upper and lower sides. Become, A submersible block using waste concrete sleepers, comprising: an auxiliary block 20, such as waste concrete sleepers, which are accommodated in the loading grooves 16 of the melt flow block 10 and stacked in multiple stages.

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