RU92031U1 - DIFFUSING WAVES KESSON - Google Patents

Abstract

1. A wave-diffusing caisson, comprising: a bottom wall having a plurality of openings; a vertical frame element extending upward at the four corners of the indicated lower wall, and each of the four horizontal frame elements is connected to the specified vertical frame elements, forming open sides and an open top of the specified frame; a first pair of trapezoidal guiding elements connected to each other at their small edges and protruding outward in the direction of their large edges; and a second pair of trapezoidal guiding elements connected to each other at their small edges and protruding outward in the direction of their large edges; each of these flow directing elements having a plurality of holes, wherein the first and second pair of trapezoidal elements are connected to each other by their connected small edges, and the first pair of trapezoidal flowing elements is rotated 90 ° with respect to the second pair of trapezoidal flowing elements; said connected first and second pairs of trapezoidal flow guiding elements are connected to the indicated frame by each large edge of the first pair of trapezoidal flow guiding elements connected to one of the vertical frame elements and passing along this element on one side of the lower wall, one of the large edges of the second pair of trapezoidal flow guiding elements is connected with one of the horizontal elements of the frame and runs along this element on the opposite side of the bottom wall, and the other is large to the paradise of the second pair of trapezoidal guiding elements is connected to the edge of the lower wall

Description

The field to which the utility model relates and the prior art

This device refers to a caisson passing through itself and scattering waves, made mainly of concrete and mounted on the seabed to dissipate the energy of waves passing through it.

Wave scattering has so far been achieved using tetrapods or concrete blocks. Such a device has the disadvantage that the tetrapods or concrete blocks used move due to wave energy or additional blocks are required to prevent such movements. This entails an increase in value.

In addition, the obstacle to the movement of waves from such blocks prevents an alternative flow of sea water through the blocks, which leads to decay of sea water.

It should be pointed out that blocks having a penetrating structure were proposed, but they were made only of beams elongated into the structure of the box with walls inside, and therefore the possibility remained that the waves could overturn them due to their energy. In addition, the places in which the blocks are installed are deepened by waves, while the caissons are unstable. The proposed device is a caisson, providing stable dispersion of waves, which does not move under the influence of wave energy.

In addition, the proposed caisson not only improves the changing wave flows of sea water after passing through it, but can also be used for fish farming due to its penetrating structure.

BRIEF DESCRIPTION OF USEFUL MODEL

In accordance with this utility model, two trapezoidal or triangular flow guiding elements having an appropriate number of drilled holes are installed with diverging lower sides of each, and upper sides opposite each other and connected, forming a flow guiding body, while a set of two flow guides thus formed cases additionally connected to each other by opposite upper parts, so that they face each other and rotate They are angled by 90 degrees relative to each other, and the structure thus constructed is mounted in the frame in the form of a bookshelf, in which the lower wall has the corresponding number of holes and the upper part of which is formed only by the corner sections of the frame, and then the deflecting lower side of each flow element attached to each corner section of the frame of the frame.

In this design, the waves passing between the deflecting lower sides of the flow guide body located in the frame (as shown by the arrow in FIG. 1) are displaced and separated in the vertical direction A by the vertical space and in the horizontal direction B with holes made in the flow body, and then additionally It is divided vertically and horizontally by the rear flow guide body, rotated through an angle of 90 degrees. Thus, in the caisson, the waves break and become turbulent, and the wave energy is completely crushed and scattered.

In addition, the holes in the bottom surface absorb the energy of the waves, while removing the possibility of tipping the caisson by the waves. In addition, the presence of a bottom in addition to the holes prevents the penetration of waves into the place where the box is installed, and from washing the seabed in this place, while maintaining the stability of the installed box. In addition, due to the fact that the caisson has a penetrating structure and, in addition, each flow element has openings and the free space ratio inside the caisson is significant, it is possible to use the caisson to place fish and shellfish. Thus, the caisson can be used for fish farming.

In addition to these advantages, the penetrating structure and the presence of holes in each flow guide element of the caisson, which has a volume of 1000-1500 m ³ , can reduce the amount of concrete required, and with it the production cost.

In addition, the caisson in the claimed design does not violate the opposing flows of sea water through the caisson, preventing stagnation of water on its rear side. In addition to this, the box-type caisson structure makes it easy to install them on top of one another, ensuring a stable position of such a structure.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGURE 1 is a perspective view of a scattering wave caisson.

FIG. 2 is a perspective view of the structure of the connection of two sets of flow-guiding housings located in a diffuser box.

BEST DEVICE USE MODE

For a more detailed description of the present device, further consideration is carried out in accordance with the accompanying drawings.

Figure 1 shows one of the embodiments of the scattering wave of the caisson in the presented design made of concrete.

The box-type frame 1 does not have closed sides or an upper wall, but only has a wall 5 on the lower side. Other parts of the structure are composed only of the corner sections of the frame. Inside the frame, a set of two trapezoidal guiding elements 2 and 3 is installed with the lower sides or edges 2a and 3a, located as shown in FIG. 2. The smaller upper sides or edges 2b and 3b of the flow guide elements are arranged towards each other and connected to form the flow housing 4, while on the other side, the upper sides of the two trapezoidal flow elements 6 and 7 are also located towards each other in the same way and are connected to the formation of the other guide body 8. The upper parts 4b and 8b of the two guide bodies 4 and 8 are opposite to each other and connected to each other in the position shown in the figure, rotated by an angle of 90 g radii in relation to each other, and the resulting structure is installed and mounted in the frame. The upper parts 4b and 8b can be connected to each other using block 16, as shown in Figure 2.

The fastening is carried out so that the lower sides of each flow guide body are attached to the corresponding corner sections or frame elements 9 and 10 of the frame, and the lower sides 6a and 7a of the other flow guide body 8 are attached to the horizontal corner sections or frame elements 11 and 12. The frame element 11 is formed by one the edge of the wall 5. In each of the flow guiding elements 2, 3, 6 and 7 and in the lower surface 5, a corresponding number of holes 13, 13 ', 14, 14' and 15 are made, respectively.

Thus, the frame 1 is formed by a lower wall 5 having multiple openings 15, which has a leading edge through which water flows in the direction of a straight arrow in FIG. 1, a trailing edge 11 and side edges. The frame includes vertical frame elements that extend upward and are connected by horizontal frame elements to form an open side in the upper part of the frame.

The industrial applicability of the scattering wave of the caisson in the proposed design is that it is suitable for use as a breakwater, retaining wall or pier in harbors, on the coast or in rivers, and also as a place for breeding fish.

Claims (3)

1. A wave-diffusing caisson, comprising: a bottom wall having a plurality of openings; a vertical frame element extending upward at the four corners of the indicated lower wall, and each of the four horizontal frame elements is connected to the specified vertical frame elements, forming open sides and an open top of the specified frame; a first pair of trapezoidal guiding elements connected to each other at their small edges and protruding outward in the direction of their large edges; and a second pair of trapezoidal guiding elements connected to each other at their small edges and protruding outward in the direction of their large edges; each of these flow directing elements having a plurality of holes, wherein the first and second pair of trapezoidal elements are connected to each other by their connected small edges, and the first pair of trapezoidal flowing elements is rotated 90 ° with respect to the second pair of trapezoidal flowing elements; said connected first and second pairs of trapezoidal flow guiding elements are connected to the indicated frame by each large edge of the first pair of trapezoidal flow guiding elements connected to one of the vertical frame elements and passing along this element on one side of the lower wall, one of the large edges of the second pair of trapezoidal flow guiding elements is connected with one of the horizontal elements of the frame and runs along this element on the opposite side of the bottom wall, and the other is large to the paradise of the second pair of trapezoidal guiding elements is connected to the edge of the lower wall and runs along it on the opposite side of the lower wall. 2. A wave-scattering caisson according to claim 1, wherein the frame includes four vertical frame elements and four horizontal frame elements for forming a rectangular frame, the open side of this frame adjacent to one side of the lower wall defines the front side of the caisson receiving incoming waves, which are scattered and deflected upward through the open upper part of the frame and between the first pair of trapezoidal flow guiding elements, and to the sides through two open sides and through the holes in the specified first pair of ladders tseidalnyh struenapravlyayuschih elements. 3. The wave-scattering caisson according to claim 1, wherein the lower wall has three holes, and each of the trapezoidal flow directing elements of the first and second pairs has two holes.