CN215012706U

CN215012706U - Hemispherical cultivation greenhouse with annular runway

Info

Publication number: CN215012706U
Application number: CN202120777270.9U
Authority: CN
Inventors: 王鲁清; 高峰
Original assignee: Shandong Huali Ocean Technology Co ltd
Current assignee: Shandong Huali Ocean Technology Co ltd
Priority date: 2021-04-16
Filing date: 2021-04-16
Publication date: 2021-12-07
Anticipated expiration: 2031-04-16

Abstract

The utility model discloses a hemispherical breeding greenhouse with an annular runway, which comprises a hemispherical greenhouse, wherein an annular breeding area is arranged in the greenhouse, and a water inlet pipe and a water drain pipe are buried underground in the breeding area; the culture area comprises a first culture water tank, a second culture water tank and a third culture water tank which are arranged in a stepped mode, and a circular first partition wall is arranged between the first culture water tank and the second culture water tank; the utility model discloses a pond, including first breed pond, second breed pond, third breed pond, be equipped with circular shape second partition wall between pond, the third breed pond, the bottom surface in first breed pond is the basin shape of high middle low all around, and the bottom surface in pond, third breed pond is the inclined plane of low in the high outer. The utility model adopts the hemispherical greenhouse, improves the structural strength of the greenhouse, reduces the wind resistance, and is more wind and snow resistant than the traditional structure; the utility model discloses a notch cuttype's structure has improved big-arch shelter space utilization, has realized three-dimensional breed to it is very convenient to manage and maintain.

Description

Hemispherical cultivation greenhouse with annular runway

Technical Field

The utility model relates to an aquaculture facility technical field specifically is a big-arch shelter is bred to hemisphere type with annular runway.

Background

Most of the existing cultivation greenhouses are rectangular, the structure not only needs to use more materials, but also has larger wind resistance, particularly in snowstorm weather, the greenhouses are often crushed by the snowstorm, and the space utilization rate in the greenhouses is lower. Although runway type culture ponds are arranged in some existing greenhouses, most of the existing greenhouses are long-distance runways in a field-operating mode, a high-power water pump is needed for driving water flow, the effect is not good, cultured organisms do not move fully, and meanwhile, daily maintenance and cleaning of the culture ponds consume a large amount of manpower.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to overcome the problems, the hemispherical breeding greenhouse with the annular runway is provided.

The utility model provides a technical scheme that its technical problem adopted is: the hemispherical breeding greenhouse with the annular runway comprises a hemispherical greenhouse body, wherein an annular breeding area is arranged in the greenhouse body, and a water inlet pipe and a water drain pipe are buried in the ground of the breeding area.

The cultivation area comprises a first cultivation water pool, a second cultivation water pool and a third cultivation water pool which are arranged in a stepped mode, the first cultivation water pool is circular and is positioned in the middle, an annular second cultivation water pool is arranged around the outer portion of the first cultivation water pool, and a circular first partition wall is arranged between the first cultivation water pool and the second cultivation water pool; an annular third culture water pool is arranged around the outside of the second culture water pool, a circular second partition wall is arranged between the second culture water pool and the third culture water pool, a pool wall is arranged on the outer side of the third culture water pool, and the upper edge of the pool wall is flush with the lower edge of the greenhouse; the height of the first partition wall is greater than that of the second partition wall, and the height of the second partition wall is greater than that of the wall of the third culture pond; the bottom surface of the first culture pond is in a basin shape with high periphery and low middle, and the bottom surfaces of the second culture pond and the third culture pond are inclined planes with high outside and low inside.

The water inlet pipe is provided with a water inlet, and the water inlet is arranged at the outer edge of the bottom surface of each water tank; the water discharge pipe is provided with a water discharge port which is positioned at a low concave position of the bottom surface of each water pool.

The utility model discloses in, the big-arch shelter includes frame, spud pile, the frame is longitude and latitude formula structure, the bottom of frame is the collar tie-beam, the collar tie-beam passes through the fastener and is connected with the spud pile, one side of frame is equipped with the business turn over door, the surface of frame is equipped with the cover, the cover is the HDPE film. And a ventilation window is arranged at the top of the frame.

Preferably, the diameter of the first culture pond is 4-5 meters, and the width of the second culture pond and the third culture pond is 4-5 meters; the height difference between the first partition wall and the second partition wall is 10-20cm, and the height difference between the second partition wall and the wall of the third culture water pool is 10-20 cm.

HDPE plates are laid on the bottom surfaces of the second culture pond and the third culture pond, and the first partition wall and the second partition wall are made of HDPE plates.

The inlet tube is pre-buried in each pond bottom surface below to upwards pass each pond bottom surface through the standpipe, the end-to-end connection of standpipe has the valve, valve outlet direction is on a parallel with the tangential direction in pond.

The drainage pipe is pre-buried in each pond bottom surface below, and its drain outlet department is equipped with foraminiferous floral tube, the horizontal buried pipe is connected to the lower extreme of foraminiferous floral tube, the horizontal buried pipe outwards extends to the big-arch shelter outside and upwards connects the drainage intubate through the elbow.

A pedestrian ladder is further arranged above the breeding area.

The utility model has the advantages that:

1. the utility model adopts the hemispherical greenhouse, improves the structural strength of the greenhouse, reduces the wind resistance, resists wind and snow better than the traditional structure, and is safer;

2. the utility model is made of HDPE material, corrosion resistant, and reduces the later maintenance cost;

3. the utility model adopts the annular runway stepped culture pond, eliminates the straight line segment, improves the driving efficiency of water flow, improves the space utilization rate in the greenhouse due to the stepped structure, and realizes three-dimensional culture; the buried pipeline is adopted, the obstruction of the pipeline to water flow is reduced, and the management and the maintenance are very convenient.

Drawings

FIG. 1 is a schematic sectional view of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is a schematic structural view of the greenhouse of the present invention.

1. A greenhouse; 101. a frame; 102. fixing the pile; 103. a ring beam; 104. an entrance door; 105. a cover; 106. a ventilation window; 2. a breeding area; 3. a water inlet pipe; 301. a water inlet; 302. a vertical tube; 303. a valve; 4. a drain pipe; 401. a water outlet; 402. perforated floral tubes; 403. horizontally burying the pipe; 404. bending the pipe; 405. a drainage pipe; 5. a first culture pond; 6. a second culture pond, 7, a third culture pond; 701. a tank wall; 8. a first partition wall; 9. a second partition wall; 10. A pedestrian ladder.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings and illustrate, by way of illustration only, the basic structure of the invention, and therefore only show the components relevant to the invention.

As shown in fig. 1-3, a hemispherical breeding greenhouse 1 with an annular runway comprises a hemispherical greenhouse 1, wherein an annular breeding area 2 is arranged in the greenhouse 1, and a water inlet pipe 3 and a water outlet pipe 4 are buried under the breeding area 2.

The culture area 2 comprises a first culture water tank 5, a second culture water tank 6 and a third culture water tank 7 which are arranged in a stepped manner, the first culture water tank 5 is circular and is positioned in the middle, an annular second culture water tank 6 is arranged around the outside of the first culture water tank 5, and a circular first partition wall 8 is arranged between the first culture water tank 5 and the second culture water tank 6; an annular third culture pond 7 is arranged around the outside of the second culture pond 6, a circular second partition wall 9 is arranged between the second culture pond 6 and the third culture pond 7, a pond wall 701 is arranged on the outer side of the third culture pond 7, and the upper edge of the pond wall 701 is flush with the lower edge of the greenhouse 1; the height of the first partition wall 8 is greater than that of the second partition wall 9, and the height of the second partition wall 9 is greater than that of the wall 701 of the third culture pond 7; the bottom surface of the first culture pond 5 is in a basin shape with high periphery and low middle, and the bottom surfaces of the second culture pond 6 and the third culture pond 7 are inclined planes with high outside and low inside.

The water inlet pipe 3 is provided with a water inlet 301, and the water inlet 301 is arranged at the outer edge of the bottom surface of each water tank; the drain pipe 4 is provided with a drain port 401, and the drain port 401 is located in a low recess of the bottom surface of each of the basins.

The utility model discloses in, big-arch shelter 1 includes frame 101, spud pile 102, frame 101 is longitude and latitude formula structure, the bottom of frame 101 is collar tie-beam 103, collar tie-beam 103 passes through the fastener and is connected with spud pile 102, one side of frame 101 is equipped with business turn over door 104, the surface of frame 101 is equipped with cover 105, cover 105 is the HDPE film. The top of the frame 101 is provided with a ventilation window 106. By adopting the structure, the wind resistance can be effectively reduced, the rain water and the ice and snow can slide off easily by the arc ceiling, and the pressure of the rain and the snow on the ceiling is reduced. The greenhouse 1 with the hemispherical structure is arranged on the coastal mudflat, so that the appearance is more attractive, and the attractiveness of large-area culture is improved.

Preferably, the diameter of the first culture pond 5 is 4-5 meters, and the width of the second culture pond 6 and the third culture pond 7 is 4-5 meters; the height difference between the first partition wall 8 and the second partition wall 9 is 10-20cm, and the height difference between the second partition wall 9 and the pond wall 701 of the third culture pond 7 is 10-20 cm. Through setting up the difference in height, be cascaded between each pond to the utilization ratio in big-arch shelter 1 space has been improved, and three-dimensional breed has been realized.

HDPE plates are laid on the bottom surfaces of the second culture pond 6 and the third culture pond 7, and the first partition wall 8 and the second partition wall 9 are made of HDPE plates. The plate made of the material is very corrosion resistant, and the plate is easy to process and weld, so that the integral connection of the water pool is realized, and no leakage is achieved.

Inlet tube 3 is pre-buried in each pond bottom surface below to upwards pass each pond bottom surface through standpipe 302, the end-to-end connection of standpipe 302 has valve 303, valve 303 export direction is on a parallel with the tangential direction in pond. The flow velocity of water is improved by the inflow water, and the environment of the aquaculture water body is improved.

The drainage pipe 4 is pre-buried below the bottom surface of the water pool, a perforated pipe 402 is arranged at a drainage outlet 401, the lower end of the perforated pipe 402 is connected with a horizontal buried pipe 403, and the horizontal buried pipe 403 extends outwards to the outside of the greenhouse 1 and is upwards connected with a drainage insertion pipe 405 through an elbow 404.

A pedestrian ladder 10 is also arranged above the culture area 2. By the aid of the structure, people can conveniently enter and exit the culture area 2 to operate.

The utility model discloses when building the use, can make at the scene, also can assemble at the scene after the mill is prefabricated. Whole bottom of pool part ground needs excavate to improve the utilization ratio of 1 inner space of big-arch shelter, when using, can open the inlet tube 3 valve 303 and the drainage intubate 405 in every breed pond alone, thereby realize circulating alone to the water in every breed pond, reduce the pollution of water between each pond. The rivers of 3 introductions of inlet tube can increase the flow of water to make the interior water of pond along the annular runway flow, and then increase the activity of breeding living beings, improve the growth quality of breeding living beings.

The utility model adopts the hemispherical greenhouse, improves the structural strength of the greenhouse, reduces the wind resistance, resists wind and snow better than the traditional structure, and is safer; the high-density polyethylene (HDPE) material is adopted for manufacturing, so that the corrosion is resisted, and the later maintenance cost is reduced; the circular runway stepped culture pond omits a straight line section, improves the driving efficiency of water flow, improves the space utilization rate in a greenhouse due to a stepped structure, and realizes three-dimensional culture; the buried pipeline is adopted, the obstruction of the pipeline to water flow is reduced, and the management and the maintenance are very convenient.

In light of the foregoing description of the preferred embodiments of the present invention, it is to be understood that various changes and modifications may be made therein by those skilled in the art without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a big-arch shelter is bred to hemisphere type with annular runway which characterized in that: the cultivation device comprises a hemispherical greenhouse, wherein an annular cultivation area is arranged in the greenhouse, and a water inlet pipe and a water drain pipe are buried underground in the cultivation area;

the cultivation area comprises a first cultivation water pool, a second cultivation water pool and a third cultivation water pool which are arranged in a stepped mode, the first cultivation water pool is circular and is positioned in the middle, an annular second cultivation water pool is arranged around the outer portion of the first cultivation water pool, and a circular first partition wall is arranged between the first cultivation water pool and the second cultivation water pool; an annular third culture water pool is arranged around the outside of the second culture water pool, a circular second partition wall is arranged between the second culture water pool and the third culture water pool, a pool wall is arranged on the outer side of the third culture water pool, and the upper edge of the pool wall is flush with the lower edge of the greenhouse; the height of the first partition wall is greater than that of the second partition wall, and the height of the second partition wall is greater than that of the wall of the third culture pond; the bottom surface of the first culture water tank is in a basin shape with the periphery higher than the middle part and the middle part lower than the periphery, and the bottom surfaces of the second culture water tank and the third culture water tank are inclined surfaces with the outer part higher than the inner part lower than the inner part;

2. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: the big-arch shelter includes frame, spud pile, the frame is longitude and latitude formula structure, the bottom of frame is the collar tie-beam, the collar tie-beam passes through the fastener and is connected with the spud pile, one side of frame is equipped with the business turn over door, the surface of frame is equipped with the covering, the covering is the HDPE film.

3. The hemispherical breeding greenhouse with the annular runway as claimed in claim 2, characterized in that: and a ventilation window is arranged at the top of the frame.

4. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: the diameter of the first culture pond is 4-5 meters, and the width of the second culture pond and the third culture pond is 4-5 meters; the height difference between the first partition wall and the second partition wall is 10-20cm, and the height difference between the second partition wall and the wall of the third culture water pool is 10-20 cm.

5. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: HDPE plates are laid on the bottom surfaces of the second culture pond and the third culture pond, and the first partition wall and the second partition wall are made of HDPE plates.

6. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: the inlet tube is pre-buried in each pond bottom surface below to upwards pass each pond bottom surface through the standpipe, the end-to-end connection of standpipe has the valve, valve outlet direction is on a parallel with the tangential direction in pond.

7. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: the drainage pipe is pre-buried in each pond bottom surface below, and its drain outlet department is equipped with foraminiferous floral tube, the horizontal buried pipe is connected to the lower extreme of foraminiferous floral tube, the horizontal buried pipe outwards extends to the big-arch shelter outside and upwards connects the drainage intubate through the elbow.

8. The hemispherical breeding greenhouse with the annular runway as claimed in claim 1, wherein: a pedestrian ladder is further arranged above the breeding area.