CN220191845U - Open-close type double-cavity care reef with irregular inclined plane - Google Patents

Abstract

The utility model provides an open-close type double-cavity conservation reef with an irregular inclined plane, which comprises a conservation reef body, wherein the conservation reef body comprises a left reef body and a right reef body, the left reef body and the right reef body are respectively provided with a rough surface, the rough surfaces of the left reef body and the right reef body are opposite, the left reef body and the right reef body are spliced and arranged along the rough surfaces, and the splicing angle of the left reef body and the right reef body is 0-135 degrees; the left reef body and the right reef body are the inside hollow structure's the reef body, the top surface of the reef body is connected through a plurality of irregular inclined planes with the bottom surface of the reef body, and has seted up a plurality of circular through-holes on the irregular inclined planes, and circular through-hole switches on with the inside of the reef body, and the inside of the reef body is provided with the baffle, and the baffle personally submits perpendicularly with adjacent roughness and is connected. According to the utility model, a certain cultivation area can be generated by splicing and arranging the left reef body and the right reef body, and residual substances in the seawater can be kept on the rough surface through the rough surface, so that nutrients are provided for the young fish and the fish gathering effect is generated.

Description

Open-close type double-cavity care reef with irregular inclined plane

Technical Field

The utility model relates to the technical field of aquaculture, artificial fish reefs and marine pasture, in particular to an open-close type double-cavity conservation reef with an irregular inclined plane.

Background

The artificial reef is a common technical mode for restoring the ecological environment of a near-shore water area, and can provide a fishery resource restoration function while playing a role in preventing waves and reducing disasters by combining the artificial reef with a breakwater.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model provides an open-close type double-cavity incubator reef with an irregular inclined plane, so as to solve at least one technical problem.

The technical scheme of the utility model is as follows: the open-close type double-cavity conservation reef with the irregular inclined plane comprises a conservation reef body and is characterized in that the conservation reef body comprises a left reef body and a right reef body, wherein the left reef body and the right reef body are both provided with a rough surface, the rough surface of the left reef body and the rough surface of the right reef body are arranged opposite to each other, the left reef body and the right reef body are spliced and arranged along the rough surface, and the splicing angle of the left reef body and the right reef body is 0-135 degrees;

the left reef body and the right reef body are the inside hollow structure's the reef body, the top surface of the reef body with the bottom surface of the reef body is connected through a plurality of irregular inclined planes, just a plurality of circular through-holes have been seted up on the irregular inclined planes, circular through-hole and the inside of the reef body switch on, just the inside of the reef body is provided with the baffle, the baffle is personally submitted perpendicularly with adjacent roughness and is connected.

According to the utility model, a certain cultivation area can be generated by splicing and arranging the left reef body and the right reef body, and residual substances in the seawater can be kept on the rough surface through the rough surface, so that nutrients are provided for the young fish and the fish gathering effect is generated. The shelter place can be provided for the young fish through the hollow fish reef body, the through holes can limit the entry of large-scale fish, and the internal space through the double-cavity design is suitable for the life of different fishes.

Further preferably, the splicing angle of the left reef body and the right reef body is 0 degrees, and the left reef body and the right reef body are spliced to form an incubator main body with an octagonal top surface.

The octagon on the top surface can provide a larger contact surface, and is suitable for the propagation of algae.

Further preferably, the splicing angle of the left reef body and the right reef body is 90 degrees. The left reef body and the right reef body are vertically spliced to generate vortex when waves pass through, so that more microorganisms are provided to enter the crack between the left reef body and the right reef body, and nutrients are provided for the young fish.

Further preferably, the rough surface is a rough surface made of concrete, and an outer edge of the rough surface is covered with a circle of broken stone.

The broken stone can form a multi-heterogeneity space to facilitate benthonic animals to perch, and the feed quantity of the bait is increased to attract the benthonic fishes to gather.

Further preferably, the rough surface is a rough surface made of a metal net, and an outer edge of the rough surface is covered with a circle of broken stone.

The sea water can flow conveniently through the metal mesh, the metal mesh can facilitate the climbing of algae plants, and then nutrients are provided for the young fish in the fish reef body, the broken stone can form a multi-heterogeneity space to facilitate the benthonic animal to perch, and the feed quantity of the bait is increased so as to attract the aggregation of benthonic fish.

Further preferably, the roughness is in a trapezoid structure. The support effect can be well achieved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

In the figure: 1. a left reef body; 2. a right reef body; 3. a rough surface; 4. circular through holes.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1, the open-close type double-cavity conservation reef with an irregular inclined plane comprises a conservation reef body, wherein the conservation reef body comprises a left reef body 1 and a right reef body 2, the left reef body and the right reef body are respectively provided with a rough surface 3, the rough surfaces of the left reef body and the right reef body are arranged opposite to each other, the left reef body and the right reef body are spliced and distributed along the rough surfaces, and the splicing angle of the left reef body and the right reef body is 0-135 degrees; the left reef body and the right reef body are the inside hollow structure's the reef body, and the top surface of the reef body is connected through a plurality of irregular inclined planes with the bottom surface of the reef body, and has seted up a plurality of circular through-holes 4 on the irregular inclined planes, and circular through-hole switches on with the inside of the reef body, and the inside of the reef body is provided with the baffle, and the baffle personally submits perpendicularly with adjacent roughness and is connected.

According to the utility model, a certain cultivation area can be generated by splicing and arranging the left reef body and the right reef body, and residual substances in the seawater can be kept on the rough surface through the rough surface, so that nutrients are provided for the young fish and the fish gathering effect is generated. The shelter place can be provided for the young fish through the hollow fish reef body, the through holes can limit the entry of large-scale fish, and the internal space through the double-cavity design is suitable for the life of different fishes.

Further preferably, the splicing angle of the left reef body and the right reef body is 0 degrees, and the left reef body and the right reef body are spliced to form an conservation reef body with an octagonal top surface. The octagon on the top surface can provide a larger contact surface, and is suitable for the propagation of algae.

Further preferably, the splicing angle of the left reef body and the right reef body is 90 degrees. The left reef body and the right reef body are vertically spliced to generate vortex when waves pass through, so that more microorganisms are provided to enter the crack between the left reef body and the right reef body, and nutrients are provided for the young fish.

Further preferably, the rough surface is a rough surface made of concrete, and an outer edge of the rough surface is covered with a ring of crushed stone. The broken stone can form a multi-heterogeneity space to facilitate benthonic animals to perch, and the feed quantity of the bait is increased to attract the benthonic fishes to gather.

Further preferably, the roughened surface is a roughened surface made of a metal mesh, and an outer edge of the roughened surface is covered with a ring of crushed stone. The sea water can flow conveniently through the metal mesh, the metal mesh can facilitate the climbing of algae plants, and then nutrients are provided for the young fish in the fish reef body, the broken stone can form a multi-heterogeneity space to facilitate the benthonic animal to perch, and the feed quantity of the bait is increased so as to attract the aggregation of benthonic fish.

Further preferably, the asperities are of trapezoidal configuration. The support effect can be well achieved.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (6)

1. The open-close type double-cavity conservation reef with the irregular inclined plane comprises a conservation reef body and is characterized in that the conservation reef body comprises a left reef body and a right reef body, wherein the left reef body and the right reef body are both provided with a rough surface, the rough surface of the left reef body and the rough surface of the right reef body are arranged opposite to each other, the left reef body and the right reef body are spliced and arranged along the rough surface, and the splicing angle of the left reef body and the right reef body is 0-135 degrees;

the left reef body and the right reef body are the inside hollow structure's the reef body, the top surface of the reef body with the bottom surface of the reef body is connected through a plurality of irregular inclined planes, just a plurality of circular through-holes have been seted up on the irregular inclined planes, circular through-hole and the inside of the reef body switch on, just the inside of the reef body is provided with the baffle, the baffle is personally submitted perpendicularly with adjacent roughness and is connected.

2. The open-close type double-cavity incubator according to claim 1, wherein the splicing angle of the left reef body and the right reef body is 0 °, and the left reef body and the right reef body are spliced to form an incubator main body with an octagonal top surface.

3. An open-close type double chamber protection reef with irregular inclined surfaces according to claim 1, wherein the splicing angle of the left reef body and the right reef body is 90 °.

4. An open-close type double cavity incubator reef with irregular inclined surfaces according to claim 1, wherein the rough surface is a rough surface made of concrete, and an outer edge of the rough surface is covered with a ring of crushed stone.

5. An open-close type double cavity incubator reef with irregular inclined surfaces according to claim 1, wherein the rough surface is a rough surface made of a metal net, and an outer edge of the rough surface is covered with a ring of crushed stone.

6. An open-close type double chamber incubator reef with irregular inclined surfaces according to claim 1, wherein the rough surface has a trapezoid structure.