CN220308130U - Wave-reducing and energy-dividing type young-raising reef with hollowed-out multiple grids - Google Patents

Abstract

The utility model provides a multi-grid hollowed wave-reducing energy-division type child-culturing reef, which comprises a child-culturing reef body, wherein the child-culturing reef body comprises a plurality of reinforced columns which are arranged in a matrix, the lower ends of the reinforced columns are fixed on a substrate layer, the tops of the reinforced columns are fixed with a reef bottom plate, the rear side of the reef bottom plate is fixed with a rear baffle, the lower ends of the rear baffle are attached to the reinforced columns positioned at the rear side, a first transverse rod which is vertically forward is arranged on the rear baffle in an array manner, vertical rods which are vertically upwards arranged on the reef bottom plate in an array manner are arranged on the longitudinal rods, and channels for the first transverse rod to pass through are formed on the longitudinal rods; the first cross rod and the longitudinal rod are spliced to form a grid-shaped channel; the fish reef bottom plate is further provided with a front baffle, the outer contour of the front baffle is arc-shaped, the front baffle is connected with the cross rod in a clamping mode, the front end of the cross rod penetrates through the front baffle, the length of the cross rod is consistent with that of the fish reef bottom plate, and the height of the front baffle is smaller than that of the rear baffle.

Description

Wave-reducing and energy-dividing type young-raising reef with hollowed-out multiple grids

Technical Field

The utility model relates to the technical field of aquaculture, artificial fish reefs and marine pasture, in particular to a wave-reducing and energy-dividing type juvenile reef with a plurality of hollow grids.

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 a wave-reducing energy-division type child-culturing reef with a plurality of hollow grids so as to solve at least one technical problem.

The technical scheme of the utility model is as follows: the wave-reducing energy-division type juvenile reef with the multiple grid hollowed-out structures comprises a juvenile reef body and is characterized in that the juvenile reef body comprises a plurality of reinforced columns which are arranged in a matrix, the lower ends of the reinforced columns are fixed on a substrate layer, a reef bottom plate is fixed at the top of the reinforced columns, a rear baffle is fixed on the rear side of the reef bottom plate, the lower ends of the rear baffle are attached to the reinforced columns positioned on the rear side, first transverse rods which are vertically and forwards arranged on the rear baffle in an array manner, vertical rods which are vertically and upwards arranged on the reef bottom plate in an array manner are arranged, and channels for the first transverse rods to pass through are formed in the vertical rods; the first cross rod and the longitudinal rod are spliced to form a grid-shaped channel;

the fish reef bottom plate is further provided with a front baffle, the outer contour of the front baffle is arc-shaped, the front baffle is connected with the cross rod in a clamping mode, the front end of the cross rod penetrates through the front baffle, the length of the cross rod is consistent with that of the fish reef bottom plate, and the height of the front baffle is smaller than that of the rear baffle.

According to the utility model, through the design of the hollow grid, wave carried energy is dissipated, and wave can be reflected through the front baffle, so that the arc-shaped front baffle can better play a role in slowing down the wave. Meanwhile, in order to fix the artificial fish reef, a concrete reinforcement column structure is adopted at the lower part of the reef body to fix the artificial fish reef, so that a first anti-wave line is formed. Meanwhile, as the artificial fish reef, more violent waves can attract a part of individuals to perch in the artificial fish reef, so that leisure fishery mainly comprising ocean swimming can be developed, and the economic benefit is improved.

Further preferably, the first cross bars are arranged at equal intervals from top to bottom along the height of the rear baffle, and three second cross bars are vertically and cross-connected on the first cross bars at the top.

According to the utility model, the second cross rod is added to the top, so that the opening size of the top can be limited, and large-scale fish can be prevented from entering the fish tank.

Further preferably, the top of the vertical rod is provided with a linear groove, and the top of the vertical rod positioned at the intersection of the first cross rod and the second cross rod is provided with a cross groove.

Thereby facilitating the fixation of the first cross bar and the second cross bar.

Further preferably, the steel bar upright post is of a cylindrical structure, and the outer diameter of the bottom of the steel bar upright post gradually decreases from top to bottom.

Therefore, the steel bar upright posts can be better inserted into the substrate layer, and the fixing effect is achieved.

Further preferably, the reef base plate is provided with a mounting hole for accommodating the reinforcing steel bar upright post, and the top of the reinforcing steel bar upright post is flush with the upper surface of the reef base plate.

The utility model can improve the connection strength with the steel bar upright post by adding the mounting holes.

Further preferably, the installation position of the vertical rod corresponds to the installation position of the steel bar upright post.

Thereby ensuring the fixing strength of the longitudinal rod.

Drawings

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

In the figure: 1. a steel bar upright post; 2. a fish reef bottom plate; 3. a rear baffle; 4. a first cross bar; 5. a longitudinal bar; 6. a front baffle; 7. and a second cross bar.

Detailed Description

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

Referring to fig. 1, the wave-reducing energy-division type juvenile reef comprises a juvenile reef body, wherein the juvenile reef body comprises a plurality of reinforced columns 1 which are arranged in a matrix, the lower ends of the reinforced columns are fixed on a substrate layer, a reef bottom plate 2 is fixed at the top of the reinforced columns, a rear baffle 3 is fixed at the rear side of the reef bottom plate, the lower ends of the rear baffle are attached to the reinforced columns positioned at the rear side, a first transverse rod 4 which is vertically and forwards arranged on the rear baffle in an array manner, vertical rods 5 which are vertically and upwards arranged on the reef bottom plate in an array manner are arranged on the vertical rods, and channels for the first transverse rods to pass through are formed in the vertical rods; the first cross rod and the longitudinal rod are spliced to form a grid-shaped channel; the fish reef bottom plate is further provided with a front baffle 6, the outer contour of the front baffle is arc-shaped, the front baffle is connected with the cross rod in a clamping mode, the front end of the cross rod penetrates through the front baffle, the length of the cross rod is consistent with that of the fish reef bottom plate, and the height of the front baffle is smaller than that of the rear baffle.

According to the utility model, through the design of the hollow grid, wave carried energy is dissipated, and wave can be reflected through the front baffle, so that the arc-shaped front baffle can better play a role in slowing down the wave. Meanwhile, in order to fix the artificial fish reef, a concrete reinforcement column structure is adopted at the lower part of the reef body to fix the artificial fish reef, so that a first anti-wave line is formed. Meanwhile, as the artificial fish reef, more violent waves can attract a part of individuals to perch in the artificial fish reef, so that leisure fishery mainly comprising ocean swimming can be developed, and the economic benefit is improved.

Further preferably, the first cross bars are arranged at equal intervals along the height of the rear baffle plate from top to bottom, and three second cross bars are vertically and cross-connected on the first cross bars at the top. The second cross rod 7 is added to the top, so that the size of an opening at the top can be limited, and large-sized fish can be prevented from entering the fish.

Further preferably, the top of the longitudinal rod is provided with a linear groove, and the top of the longitudinal rod positioned at the intersection of the first cross rod and the second cross rod is provided with a cross groove. Thereby facilitating the fixation of the first cross bar and the second cross bar.

Further preferably, the steel bar upright is of a cylindrical structure, and the outer diameter of the bottom of the steel bar upright gradually decreases from top to bottom. Therefore, the steel bar upright posts can be better inserted into the substrate layer, and the fixing effect is achieved.

Further preferably, the reef bottom plate is provided with a mounting hole for accommodating the reinforcing steel bar upright post, and the top of the reinforcing steel bar upright post is flush with the upper surface of the reef bottom plate. The utility model can improve the connection strength with the steel bar upright post by adding the mounting holes.

Further preferably, the installation position of the vertical rod corresponds to the installation position of the steel bar upright post. Thereby ensuring the fixing strength of the longitudinal rod.

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 wave-reducing energy-division type juvenile reef with the multiple grid hollowed-out structures comprises a juvenile reef body and is characterized in that the juvenile reef body comprises a plurality of reinforced columns which are arranged in a matrix, the lower ends of the reinforced columns are fixed on a substrate layer, a reef bottom plate is fixed at the top of the reinforced columns, a rear baffle is fixed on the rear side of the reef bottom plate, the lower ends of the rear baffle are attached to the reinforced columns positioned on the rear side, first transverse rods which are vertically and forwards arranged on the rear baffle in an array manner, vertical rods which are vertically and upwards arranged on the reef bottom plate in an array manner are arranged, and channels for the first transverse rods to pass through are formed in the vertical rods; the first cross rod and the longitudinal rod are spliced to form a grid-shaped channel;

the fish reef bottom plate is further provided with a front baffle, the outer contour of the front baffle is arc-shaped, the front baffle is connected with the cross rod in a clamping mode, the front end of the cross rod penetrates through the front baffle, the length of the cross rod is consistent with that of the fish reef bottom plate, and the height of the front baffle is smaller than that of the rear baffle.

2. The multi-grid hollowed out wave reduction and energy division type child-care reef according to claim 1, wherein the first cross bars are distributed at equal intervals from top to bottom along the height of the rear baffle, and three second cross bars are vertically and cross-connected to the first cross bars at the top.

3. The multi-grid hollowed-out wave-reducing and energy-dividing type child-culturing reef according to claim 2, wherein the top of the longitudinal rod is provided with a linear groove, and the top of the longitudinal rod positioned at the intersection of the first cross rod and the second cross rod is provided with a cross groove.

4. The multi-grid hollowed wave energy reduction and division type juvenile reef according to claim 1, wherein the steel bar upright post is of a cylindrical structure, and the outer diameter of the bottom of the steel bar upright post gradually decreases from top to bottom.

5. The multi-grid hollowed-out wave-reducing and energy-splitting type juvenile fish shelter of claim 4, wherein the reef base plate is provided with a mounting hole for accommodating a reinforcing steel bar upright post, and the top of the reinforcing steel bar upright post is flush with the upper surface of the reef base plate.

6. The multi-grid hollowed out wave reduction and energy division type child-care reef according to claim 1, wherein the installation position of the longitudinal rod corresponds to the installation position of the steel bar upright post.