TWM621551U - Removable fishery and electricity symbiosis culture pond - Google Patents

Abstract

The novel detachable fish-electricity symbiotic breeding pond mainly surrounds a breeding area by a plurality of positioning pillars, and a solar panel group is erected above the breeding area, and the positioning pillars are sequentially provided with a C-shaped steel frame and supporting plates to construct the prototype of the breeding pond, and then cooperate with the barrier layer to be laid from the supporting plates on one side and extend to the supporting plates on the other side, and the barrier layer is supported by the above-mentioned prototype of the breeding pond, In order to enclose a breeding space, the fish-electricity symbiotic breeding pond can be quickly constructed, which not only has the effects of breeding and green energy power generation, but also greatly shortens the construction time and reduces the construction cost. It helps to disperse the stress on the barrier layer, so as to effectively prevent the barrier layer from being damaged, and the subsequent maintenance operations are also very convenient and easy.

Description

Detachable fish and electricity symbiotic breeding pond

The new model relates to a breeding pond, especially a detachable fish-electricity symbiotic breeding pond.

In view of the limited land resources, in order to effectively develop green electricity, it has become a trend to combine the multiple utilization of fishery land and solar power generation facilities. and the benefits of green energy power generation; and currently the most common breeding ponds are mainly used for land preparation at the site where the breeding is to be carried out, so as to excavate part of the soil to form a concave breeding area, and the excavated soil is piled up around the An earth embankment is formed around the breeding area to initially shape the prototype of the breeding pond. At the same time, in order to prevent soil loss or collapse, the wall of the breeding area is usually piled with bricks or stones, or covered with cement mortar, Plastic film, waterproof cloth, etc. form a waterproof layer to solve the problem of soil loss.

However, after the actual use, it is found that the construction of conventional breeding ponds must go through multiple stages of operations, such as soil preparation, excavation, construction of earth embankments, and laying of waterproof layers, which is not only time-consuming and labor-intensive, but also leads to excessive construction costs. High, if the plastic film or tarpaulin is directly laid on the soil as the waterproof layer, it is easy to cause the waterproof layer to be damaged by sharp objects in the soil. In addition, the materials with high hardness such as bricks, stones or cement mortar are used for laying As a waterproof layer, although it can achieve better strength, it is prone to rupture when it encounters external vibration, impact or sudden temperature change, resulting in soil loss at the bottom of the breeding area, and subsequent backfilling and repairing operations are more difficult and time-consuming. , and resulting in increased costs.

Continuing the above, if the installation of solar power generation facilities is added, it must be constructed according to the original breeding pond, resulting in the installation and erection of the solar power generation facilities being limited by the original breeding pond design. When the breeding pond is no longer in use, it is even more difficult to transform, and the cleaning operation is time-consuming and laborious, and the waste generated by the cleaning operation cannot be recycled and reused, which is a burden on the environment. If it is directly idle and discarded, it will take up a lot of Land resources need to be improved.

Therefore, the purpose of the present invention is to provide a detachable fish-electricity symbiosis breeding pond, which effectively simplifies the construction operation, greatly shortens the construction time and reduces the construction cost, and makes the subsequent maintenance operations easier.

Therefore, the new detachable fish-electricity symbiotic culture pond includes a plurality of positioning pillars arranged on the ground, a plurality of solar panel groups laid above the positioning pillars, and a plurality of C-shaped steel frames arranged on the positioning pillars. , a plurality of support plates arranged on one side of the C-shaped steel frames and opposite to the positioning pillars, a barrier layer laid on the support plates, and a buffer layer arranged between the barrier layer and the ground; Therefore, through the setting of the positioning pillars, the C-shaped steel frames and the support plates, the rapid construction of the prototype of the fishery and electricity symbiosis breeding pond is achieved, and at the same time, the barrier layer starts from the support plates on one side. Lay and extend the support plates on the other side, so as to quickly encircle a breeding space under the support of the prototype of the fishery-electricity symbiosis breeding pond, which not only has the effects of breeding and green energy power generation, but also effectively simplifies The construction of the fish-electricity symbiotic breeding pond shortens the overall construction time and construction cost, and the support plates help to disperse the stress on the barrier layer and avoid damage to the barrier layer, so that subsequent Maintenance work is easier.

The foregoing and other technical contents, features and effects of the present invention will be clearly understood in the following detailed description of the preferred embodiments with reference to the drawings.

Referring to FIG. 1 and FIG. 2 , the first preferred embodiment of the novel detachable fish-electricity symbiotic culture pond 3, in this embodiment, the fish-electricity symbiotic culture pond 3 is erected on the ground 4, and the The fish-electricity symbiotic breeding pond 3 includes a plurality of positioning pillars 31 arranged on the ground 4 and encircling a breeding area A, and a plurality of solar panel groups 32 laid above the positioning pillars 31 and located on the breeding area A. , a plurality of support frames 33 arranged on the positioning pillars 31, a plurality of C-shaped steel frames 34 arranged on the support frames 33, a plurality of C-shaped steel frames 34 arranged on one side and opposite to the support frames 33 of support plates 35, a barrier layer 36 laid on the support plates 35, and a buffer layer 37 provided between the barrier layer 36 and the ground 4; wherein, the barrier layer 36 is supported by the supports on one side The plate 35 starts to be laid to the buffer layer 37, and then extends to the support plates 35 on the other side, so that the barrier layer 36 is placed between the positioning pillars 31, the support frames 33, the C-shaped steel frames 34 and the The supporting plate 35 is matched with the support of the prototype of the fishery-electricity symbiotic culture pond 3 to enclose a culture space 38; and in this embodiment, the buffer layer 37 can be non-woven fabric or sand, so that the ground 4 can be formed. In a flat state, the barrier layer 36 will not be damaged by sharp objects on the ground 4 .

Referring to FIGS. 1 and 2 , when the fishery-electricity symbiosis breeding pond 3 is constructed, the positioning pillars 31 are arranged in two rows on the ground 4, so as to encircle the breeding area A, and then the The supporting frames 33 are erected on the positioning pillars 31, the C-shaped steel frames 34 are erected on the supporting frames 33 and opposite to the positioning pillars 31, and the supporting plates 35 are arranged and laid on the side of the positioning pillars 31. On the C-shaped steel frames 34, the support plates 35 can be formed in an integrally formed plate shape, or can be arranged in a plurality of parallel to each other, so that at least one fishery-electricity symbiosis breeding pond 3 can be initially erected and surrounded by In this embodiment, a plurality of fishery-electricity symbiotic culture ponds 3 are formed in the same location as an example for illustration. 31 for the supporting frames 33 , the C-shaped steel frames 34 and the supporting plates 35 to be erected in sequence, so that the ground 4 can construct a plurality of prototypes of fish-electricity symbiotic breeding ponds 3 .

Continuing the above, then one end of the barrier layer 36 is fixed to the positioning pillars 31 on one side, and the barrier layer 36 is extended to pass through the support plates 35, the buffer layer 37, and the support plates on the other side 35, and finally fixed on the positioning pillars 31 on the other side, so that the barrier layer 36 is in the position where the positioning pillars 31, the support frames 33, the C-shaped steel frames 34 and the support plates 35 cooperate. Under the support of the prototype of the fishery-electricity symbiotic breeding pond 3 of the structure, the breeding space 38 is encircled, so that the construction of the fishery-electricity symbiotic breeding pond 3 can be quickly completed, which not only effectively simplifies the operation of the fishery-electricity symbiotic breeding pond 3. The construction operation, and the construction time is greatly shortened, the rapid construction effect is achieved, and the construction cost is greatly reduced. In addition, the support plates 35 not only help to make the surface of the barrier layer 36 flat, and avoid the barrier layer 36 Damaged, when the breeding space 38 is filled with water, the support plates 35 can prevent the stress generated by the water from being excessively concentrated in a specific area of the barrier layer 36, and at the same time distribute the stress evenly, thereby avoiding the barrier layer. 36 When damage occurs, furthermore, the positioning pillars 31 can be used for the installation of the solar panel groups 32 , which facilitates the development of both aquaculture and green energy power generation, and further enhances the overall economic benefits.

Continuing the above, in view of the fact that the fish-electricity symbiotic breeding pond 3 is set on the ground 4 instead of being directly dug under the ground, it not only effectively reduces the time for excavation and construction, but also when the fishery-electricity symbiotic breeding pond 3 is damaged. It can also be quickly checked by the naked eye, which makes subsequent maintenance operations easier and reduces maintenance costs. Moreover, when the fishery and electricity symbiotic breeding pond 3 needs to be dismantled, it is only necessary to dismantle the barrier layer 36, the The supporting plates 35, the C-shaped steel frames 34, the supporting frames 33, the solar panel groups 32, the positioning pillars 31, and the buffer layer 37 are removed, and the fish-electricity symbiosis breeding pond can be quickly 3. Remove and restore the breeding site to its original state without backfilling soil. At the same time, the barrier layer 36, the support plates 35, the C-shaped steel frames 34, the support frames 33, and the solar panels are removed after removal. The group 32 , the positioning pillars 31 and the buffer layer 37 can also be reassembled for use, which greatly reduces the generation of waste.

Referring to FIG. 3 and FIG. 4 , the second preferred embodiment of the present invention still includes the components described in the first embodiment, and its purpose and function are the same as those of the first embodiment, which will not be repeated here. To repeat, and this embodiment is particularly in that: the positioning pillars 31 are arranged on the ground 4 to encircle a circular breeding area A, and a separation bridge 39 is provided in the breeding space 38 formed by laying the barrier layer 36, and the The two ends of the separation bridge 39 are not connected with the positioning pillars 31. Therefore, the breeding space 38 is divided into different areas by the separation bridge 39 for planning and use for different purposes. Not being connected with the positioning pillars 31 makes the water in the breeding space 38 circulate and circulate with each other, thereby greatly improving the breeding efficiency.

To sum up the above, the new detachable fish-electricity symbiosis breeding pond can quickly construct the prototype of the fishery-electricity symbiosis breeding pond through the design of the positioning pillars, the C-shaped steel frames and the support plates. The barrier layer starts from the support plates on one side and extends to the support plates on the other side, so as to enclose the breeding space, and at the same time, the positioning pillars can be installed for the solar panel groups, not only has In addition to the effects of aquaculture and green energy power generation, the overall construction time is greatly shortened, and the construction cost is effectively reduced. At the same time, the support plates help to disperse the stress on the barrier layer and effectively avoid damage to the barrier layer, and Subsequent maintenance operations are also very convenient and easy, and even after dismantling, it can be reused.

However, the above descriptions are merely to illustrate the preferred embodiments of the present invention, and should not limit the scope of implementation of the present invention, that is, simple equivalent changes and modifications made in accordance with the scope of the patent application for this new model and the contents of the description of the new model. , shall still fall within the scope of this new patent.

(this creation) 3: Fishing and electricity symbiotic breeding pond 31: Positioning the Pillar 32: Solar panel set 33: Support frame 34: C-shaped steel frame 35: Support plate 36: Barrier layer 37: Buffer layer 38: Breeding space 39: Separation Bridge A: Breeding area 4: Ground

FIG. 1 is a schematic diagram of the first preferred embodiment of the present invention. FIG. 2 is a partial schematic view of the first preferred embodiment. FIG. 3 is a schematic diagram of the second preferred embodiment of the present invention. FIG. 4 is a partial schematic view of the second preferred embodiment.

(this creation)

3: Fishing and electricity symbiotic breeding pond

31: Positioning the Pillar

33: Support frame

34: C-shaped steel frame

35: Support plate

36: Barrier layer

38: Breeding space

A: Breeding area

Claims (5)

A detachable fish-electricity symbiotic breeding pond, comprising a plurality of positioning pillars arranged on the ground and encircling a breeding area, a plurality of solar panel groups laid above the positioning pillars and located on the breeding area, A plurality of C-shaped steel frames arranged on the positioning pillars, a plurality of support plates arranged on one side of the C-shaped steel frames and opposite to the positioning pillars, a barrier layer laid on the support plates, and a A buffer layer between the barrier layer and the ground; wherein, the barrier layer is laid from the support plates on one side and extends to the support plates on the other side, so that the barrier layer is placed between the positioning pillars, The C-shaped steel frames and the support plates are matched with the support of the prototype of the culture pond constructed to enclose a culture space. According to the detachable fish-electricity symbiotic breeding pond according to claim 1, a support frame is provided between the positioning pillars and the C-shaped steel frame. According to the detachable fishing-electricity symbiotic breeding pond according to claim 1, the buffer layer can be non-woven fabric or sand. According to the detachable fish-electricity symbiotic breeding pond according to claim 1, a separation bridge is arranged in the breeding space, and both ends of the separation bridge are not connected with the positioning pillars. According to the detachable fish-electricity symbiotic breeding pond according to claim 1, wherein the positioning pillars encircle a circular breeding area.

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