CN212306541U - High-quality ecological soft-shelled turtle farming systems of mountain - Google Patents

Abstract

A mountainous high-quality ecological turtle culture system comprises a constant-temperature shed room for young turtles to grow into young turtles and an outdoor culture pond for the young turtles to grow into adult turtles; the constant-temperature shed room comprises a shed body, a covering film and a plurality of juvenile soft-shelled turtle ponds, wherein the covering film is covered on the shed body and used for shading and insulating light; the outdoor culture pond comprises a plurality of unit culture ponds which are closely arranged from upstream to downstream in sequence, and each unit culture pond is internally provided with a leisure area for the young turtles to rest, an activity area with water flow flowing from upstream to downstream and an outdoor feeding table for the young turtles to feed. The ecological soft-shelled turtle culture system is ideal in structural design, and a combined culture mode combining indoor constant-temperature oxygen supply and outdoor running water subareas is adopted for different growth periods of the ecological soft-shelled turtles, so that the yield of the ecological soft-shelled turtles is greatly improved, and the cultured ecological soft-shelled turtles are good in quality.

Description

High-quality ecological soft-shelled turtle farming systems of mountain

Technical Field

The utility model relates to a soft-shelled turtle artificial breeding field, specifically speaking indicate the ecological soft-shelled turtle farming systems of mountain high quality.

Background

The soft-shelled turtle is commonly called as a turtle, is a precious aquatic product, is tender in meat quality and delicious in taste, is a relatively good traditional Chinese medicine, is regarded as a nourishing nutritional health food by people since ancient times, and is regarded as favored by people for prolonging life and tonifying greatly. The turtle is a omnivorous amphibian mainly taking meat as food, which likes animals which are warm and afraid of cold, and stops eating food when the temperature is low and the water temperature reaches 15 ℃, and submerges into the water bottom to avoid cold. When the water temperature is reduced to 10 ℃, the water penetrates into the mud to perform long pseudo-death type hibernation.

The existing artificial breeding mode of soft-shelled turtles is not ideal enough, the existing artificial breeding mode of soft-shelled turtles generally adopts outdoor pond-dividing breeding, a plurality of soft-shelled turtle fries are quantitatively grouped according to the size and the specification of a pool body, each group of soft-shelled turtle fries is placed into a soft-shelled turtle pool containing a certain amount of water, and feed is periodically added, so that the outdoor pond-dividing breeding mode is not ideal enough, the design in the breeding pool is conventional, the breeding yield is limited, the growth is slow relatively, and the quality is not high. In addition, some of the existing artificial breeding methods of the soft-shelled turtles adopt greenhouse breeding, but the structural design of the existing greenhouse breeding methods is not ideal enough, and although the soft-shelled turtles grow faster, the quality of the finished soft-shelled turtles is greatly reduced because the soft-shelled turtles are in the greenhouse for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a ecological soft-shelled turtle farming systems of mountain high quality to overcome current soft-shelled turtle artificial breeding mode not ideal enough, especially outdoor branch pond breed the output limited, grow slowly relatively and the quality shortcoming such as not high again.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a mountainous high-quality ecological turtle culture system comprises a constant-temperature shed room for young turtles to grow into young turtles and an outdoor culture pond for the young turtles to grow into adult turtles; the constant-temperature shed room comprises a shed body, a covering film and a plurality of juvenile soft-shelled turtle ponds, wherein the covering film is covered on the shed body and used for shading and insulating light; each young turtle pond is internally provided with an indoor feeding platform for feeding young turtles, an oxygen increasing device for increasing oxygen in the pond body at regular time, a climbing net cover for stopping the young turtles, a heat supply device for supplying warm water to the pond body and a sewage discharge pipe for discharging bottom water in the pond body; the outdoor culture pond comprises a plurality of unit culture ponds which are closely arranged from upstream to downstream in sequence, and each unit culture pond is internally provided with a leisure area for the young turtles to rest, an activity area with water flow flowing from upstream to downstream and an outdoor feeding table for the young turtles to feed.

The oxygenation device comprises an aerator arranged outside the constant-temperature shed, an oxygenation main pipe communicated with the output end of the aerator, oxygenation branch pipes communicated with the oxygenation main pipe, and air outlet pipes which are arranged in each young turtle pond and are provided with small holes, each air outlet pipe is communicated with the corresponding oxygenation branch pipe, and each oxygenation branch pipe is provided with a first valve.

The plurality of young turtle ponds in each constant-temperature shed room are divided into two groups, the two groups of young turtle ponds are symmetrically arranged along the center line of a room beam of the constant-temperature shed room, the rear side of each group of young turtle pond is provided with a sewage discharge ditch, the rear side of each group of young turtle pond is provided with a sewage discharge outlet, the sewage discharge outlet is communicated with a sewage discharge pipe capable of adjusting the depth of the water level in the young turtle pond, and the bottom layer sewage in the young turtle pond can be discharged into the sewage discharge ditch only by rotating the sewage discharge pipe leftwards or rightwards to change the vertical height of the sewage discharge pipe.

The heat supply device comprises an air energy water heater arranged in the greenhouse body, a water outlet of the air energy water heater is communicated with a heat supply main pipe, heat supply branch pipes which are communicated with the heat supply main pipe and correspond to the plurality of young turtle ponds one by one, warm water is supplied to the pond body from an outlet of each heat supply branch pipe, and a second valve is arranged on each heat supply branch pipe.

The constant-temperature shed room further comprises a controller, an oxygen concentration tester for detecting the oxygen content of water in the pool body and a temperature detector for detecting the temperature of the water in the pool body are further arranged in each young turtle pool, the heat supply device and the oxygen increasing device are both controlled by the controller, and the oxygen concentration tester and the temperature detector are respectively connected with the controller.

The outdoor culture pond further comprises a live water source for providing flowing live water and a water supply pipe communicated with the live water source, an outlet of the water supply pipe is arranged on the unit culture pond positioned at the upstream, an overflow through pipe is arranged between two adjacent unit culture ponds, the plurality of overflow through pipes are arranged in a staggered mode, and each overflow through pipe is positioned at one side of a movable area.

The outlet end of the active water source is communicated with one end of a sedimentation tank, the other end of the sedimentation tank is communicated with an ultraviolet sterilizer, and the water outlet of the ultraviolet sterilizer is communicated with the water supply pipe.

Every unit is bred and is equipped with the back of body platform that shines that supplies the climbing of young soft-shelled turtle to shine the back of the body usefulness in the pond, should shine the back of the body platform and be located in the leisure area, should shine the back of the body platform including being located the surface of water above and being network structure's square platform and also being network structure's four climbing platforms with square platform four sides are connected, and every climbing platform's bottom extends to below the surface of water.

Each unit culture pond is internally provided with a strip-shaped partition plate, the partition plate divides the unit culture pond into the leisure area and the movable area, and the outdoor feeding table is positioned in the movable area; an arc-shaped transition plate is arranged at the included angle of the side edge of each unit culture pond.

By adopting the technical scheme, the utility model has the advantages that the ecological soft-shelled turtle culture system has ideal structural design, adopts a combined culture mode combining indoor constant-temperature oxygen supply and outdoor running water subareas aiming at different growth periods of the ecological soft-shelled turtles, greatly improves the yield of the ecological soft-shelled turtles, and ensures that the cultured ecological soft-shelled turtles have good quality. Because the volume of the young turtles is small, the resistance to the outside is poor, and at the moment, the young turtles need to be subjected to an indoor constant-temperature oxygen supply breeding mode, are not easy to be infected by the outside to cause diseases, so that the young turtles grow fast; when the young turtles grow into the young turtles, the young turtles are large in size and strong in resistance to the outside, and at the moment, an outdoor live water partition breeding mode needs to be carried out on the young turtles, so that the living habits of the young turtles are met, the live water breeding is good in environment, and the quality of the ecological turtles is improved.

Drawings

Fig. 1 is a schematic diagram of the first embodiment.

Fig. 2 is a schematic view of a thermostatic chamber in the first embodiment in a front view.

Fig. 3 is a schematic top view of a plurality of young turtle ponds in a constant temperature greenhouse according to the first embodiment.

Fig. 4 is a schematic side view of a soft-shelled turtle pond in the first embodiment.

Fig. 5 is a partially enlarged schematic view of a portion a of fig. 3.

Fig. 6 is a schematic view of a row of mesh enclosure assemblies according to a first embodiment of the present disclosure.

Fig. 7 is a schematic view of a unit mesh enclosure in the first embodiment.

Fig. 8 is a schematic view of a partial structure of an outdoor culture pond in the first embodiment.

Fig. 9 is a schematic view showing the connection between the source of the live water, the uv sterilizer and the settling tank in the first embodiment.

Fig. 10 is a schematic diagram of the second embodiment.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Example one

Reference is made to figures 1 and 2. A mountainous high-quality ecological turtle culture system comprises a constant-temperature greenhouse 1 for young turtles to grow into young turtles and an outdoor culture pond 2 for the young turtles to grow into adult turtles. The number of the constant temperature shed rooms 1 is two, and the two constant temperature shed rooms 1 are arranged at intervals in the front and the back. The outdoor culture pond 2 comprises a plurality of unit culture ponds 20 which are closely arranged from upstream to downstream, wherein a leisure area 200 for the young turtles to rest, an activity area 201 with water flowing from upstream to downstream and an outdoor feeding table 202 for feeding the young turtles are arranged in each unit culture pond 20. The plurality of unit culture ponds 20 are constructed according to the height difference of the mountain terrain, and the plurality of unit culture ponds 20 are divided into two groups which are arranged in a left and right manner.

In addition, the number of the constant temperature shed chambers 1 can be one or three or other suitable numbers according to the requirement of the culture scale.

Reference is made to figures 1, 2, 3 and 4. The constant-temperature shed room 1 comprises a shed body 10, a covering film 11 (such as a black thickened plastic film) which is covered on the shed body 10 and used for shading and insulating heat, and a plurality of young turtle ponds 12 which are sequentially arranged in the shed body 10. An indoor feeding table 120 for feeding the young turtles, an oxygen increasing device for increasing oxygen in the pond body at regular time, a climbing net cover 13 for stopping the young turtles, a heat supply device for supplying warm water to the pond body and a sewage discharge pipe 121 for discharging bottom water in the pond body are arranged in each young turtle pond 12. Each indoor feeding table 120 is located on the front side wall of each soft-shelled turtle pond 12, the section of each indoor feeding table 120 is a right-angled triangle, and the inclined surface of each indoor feeding table 120 is a stepped inclined surface extending to the position below the water surface. By adopting the design of the indoor feeding table 120 with the stepped inclined surface, the granulated feed is fed onto the indoor feeding table 120, and the granulated feed is easy to scatter and not easy to pile up, thereby facilitating the feeding of the young turtles.

Reference is made to fig. 3 and 4. The plurality of young turtle ponds 12 in each constant temperature shed room 1 are divided into two groups, the two groups of young turtle ponds are symmetrically arranged along the center line of a roof beam of the constant temperature shed room 1, a sewage discharge ditch 14 is arranged at the rear side of each group of young turtle ponds, a sewage discharge outlet is arranged at the rear side of each group of young turtle ponds 12 and communicated with the sewage discharge pipe 121 capable of adjusting the water level depth in the young turtle ponds 12, a U-shaped communicating vessel is formed between the sewage discharge pipe 121 and the young turtle ponds 12, and the sewage discharge pipe 121 is rotated leftwards or rightwards to change the vertical height thereof, so that the bottom layer sewage in the young turtle ponds 12 can be discharged into the sewage discharge ditch 14.

Reference is made to fig. 1, 2, 3, 4 and 5. The oxygenation device comprises an oxygenation machine (not shown in the figure) arranged outside the constant-temperature shed room 1, an oxygenation main pipe 15 communicated with the output end of the oxygenation machine, oxygenation branch pipes 16 communicated with the oxygenation main pipe 15 and air outlet pipes 17 which are arranged in each young turtle pond 12 and provided with small holes 170, each air outlet pipe 17 is communicated with the corresponding oxygenation branch pipe 16, and each oxygenation branch pipe 16 is provided with a first valve 18 (such as a manual ball valve). A hotbed layer 122 formed by piling fine sand is arranged in each juvenile soft-shelled turtle pond 12, and an air outlet pipe 17 in each juvenile soft-shelled turtle pond is horizontally fixed above the hotbed layer 122 through a support piece 19. The enclosure of each young turtle pond 12 is a heat-insulating enclosure which is formed by enclosing a plurality of heat-insulating bricks, the bottom of each young turtle pond 12 is a concrete bottom, and a heat-insulating layer 123 (such as a bubble concrete layer or a polyurethane heat-insulating layer) is clamped in the middle of the concrete bottom. The foam concrete layer is a lightweight, heat-preservation, heat-insulation, fire-resistant, sound-insulation and anti-freezing concrete material, a foaming agent is fully foamed in a mechanical mode through a foaming system of a foaming machine, foam and cement paste are uniformly mixed, and then cast-in-place construction or mold forming is carried out through a pumping system of the foaming machine. The enclosure of each juvenile soft-shelled turtle pond 12 is formed by a plurality of insulating bricks, and a heat insulation layer 123 is clamped in the middle of the bottom of the concrete, so that the heat insulation effect of the juvenile soft-shelled turtle pond 12 is more ideal.

Reference is made to fig. 3, 4 and 5. The heat supply device comprises an air energy water heater 3 arranged in the shed body 10, the water outlet of the air energy water heater 3 is communicated with a heat supply main pipe 31, heat supply branch pipes 32 which are communicated with the heat supply main pipe 31 and correspond to the plurality of young turtle ponds 12 one by one, the outlet of each heat supply branch pipe 32 supplies warm water to the pond body, and a second valve 33 (such as a manual ball valve) is arranged on each heat supply branch pipe 32. Adopt air ability water heater 3 as the heat supply source, more energy-concerving and environment-protective, avoid current adoption boiler as the heat supply source can produce a great deal of inconvenience, if the heat supply is not timely enough, energy-concerving and environment-protective etc. inadequately.

Reference is made to fig. 3, 6 and 7. The climbing net cover 13 comprises a plurality of rows of net cover components which are sequentially arranged at intervals in the width direction of the young turtle pond 12, each row of net cover components comprises a support rod 131 and a plurality of unit net covers 132 which are sequentially arranged at intervals in the length direction of the support rod and are fixed on the support rod 131 at the tops, each unit net cover 132 comprises an upper plastic ring 133, a lower plastic ring 134 and a plastic woven net 135 which is sleeved on the upper and lower plastic rings 133 and 134 and stretches the upper and lower plastic rings, the plastic woven net 135 is substantially conical, the left and right sides of the young turtle pond 12 are respectively provided with a plurality of bayonet pieces 136 which are matched with the plurality of support rods 131 one by one and are U-shaped, and the two ends of each support rod 131 are respectively arranged on the corresponding bayonet pieces 136. Each unit mesh enclosure 132 adopts the design of the expanding type plastic woven mesh, so that surface wrinkles and winding of the plastic woven mesh are avoided, the surface area of the plastic woven mesh is large, and young turtles have a climbing rest.

Reference is made to figures 1, 8 and 9 of the drawings. The outdoor culture pond 2 further comprises a running water source 4 for providing running water and a water supply pipe 40 communicated with the running water source 4, an outlet of the water supply pipe 40 is arranged on the unit culture pond 20 located at the upstream, an overflow through pipe 22 is arranged between every two adjacent unit culture ponds 20, the overflow through pipes 22 are arranged in a staggered mode, each overflow through pipe 22 is located on one side of the running area 201, and a pipe opening of each overflow through pipe is shielded by screen cloth. A back drying platform 23 for the young turtles to climb and dry the backs is arranged in each unit culture pond 20, and the back drying platform 23 is located in the leisure area 200. The back drying platform 23 comprises a square platform 231 which is located above the water surface and is of a net structure and four climbing platforms 232 which are connected with four sides of the square platform 231 and are also of a net structure, and the bottom of each climbing platform 232 extends to the position below the water surface. An elongated partition plate 24 is arranged in each unit culture pond 20, the partition plate 24 divides the interior of the unit culture pond 20 into the leisure area 200 and the activity area 201, and the outdoor feeding table 202 is positioned in the activity area 201. The arc-shaped transition plate 203 is arranged at the side corner of each unit culture pond 20, and the design of the arc-shaped transition plate 203 is adopted, so that when the young turtles move at the side corner, unnecessary damage to the bodies of the young turtles caused by the side corner edges (generally sharp) of the unit culture ponds 20 is avoided, and the young turtles are protected.

Reference is made to figures 1 and 9 of the drawings. The said active water source 4 is mountain spring water which is clear from mountain, the outlet end of the said active water source 4 is connected with one end of the sedimentation tank 5, the other end of the sedimentation tank 5 is connected with an ultraviolet sterilizer 6, the water outlet of the ultraviolet sterilizer 6 is connected with the said water supply pipe 40. Sedimentation tank 5 is enclosed construction, is equipped with a plurality of baffle 50 that staggers each other in this sedimentation tank 5, and this a plurality of baffle 50 is arranged at interval in proper order along 5 length directions in sedimentation tank. This sedimentation tank 5 combines the design of ultraviolet sterilizer 6, and this sedimentation tank 5 can filter the particle impurity such as silt in the mountain spring water, and this ultraviolet sterilizer 6 disinfects flowing running water, has reduced the harm of harmful bacterium to young soft-shelled turtle, has improved quality of water safety and stability widely.

Example two

Reference is made to fig. 10. The present embodiment is substantially the same as the first embodiment, except that: according to the consideration of the cost investment budget of the culture base, the constant-temperature greenhouse 1 of the high-quality ecological soft-shelled turtle culture system for the mountains can realize intelligent control. Specifically, the mountain high-quality ecological turtle breeding system further comprises a controller 7, each young turtle pond 12 is further provided with an oxygen concentration measuring instrument 71 for detecting the oxygen content of water in the pond body and a temperature detector 72 for detecting the temperature of the water in the pond body, the heat supply device and the oxygen increasing device are controlled by the controller, and the oxygen concentration measuring instrument 71 and the temperature detector 72 are respectively connected with the controller 7. The first valve 18 and the second valve 33 are electronic valves controlled by the controller 7. When the device is used, the oxygen-increasing machine 73 is started to operate and the corresponding one or more first valves 18 are opened if the oxygen concentration measuring instrument 71 in one or more young turtle ponds 12 detects that the oxygen concentration is too low, so that the oxygen-increasing machine 73 and the corresponding one or more first valves 18 are opened, the oxygen-increasing machine 73 and the corresponding one or more first valves 18 are turned off when the oxygen concentration measuring instrument 71 detects that the oxygen concentration reaches a preset normal oxygen concentration range value, and the automatic oxygen-increasing operation is finished; similarly, if the temperature detector 72 in one or more of the young turtle ponds 12 detects that the temperature is too low, the air-energy water heater 3 is started to operate, and the corresponding one or more second valves 33 are opened, so that the water supply work is performed in the pond body of the young turtle pond 12, and when the temperature detected by the temperature detector 72 reaches the preset normal temperature range value, the controller closes the air-energy water heater 3 and the corresponding one or more second valves 33, that is, the automatic water supply operation is completed

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (9)

1. Ecological soft-shelled turtle farming systems of mountain high quality, its characterized in that: comprises a constant temperature greenhouse for the growth of young turtles into young turtles and an outdoor culture pond for the growth of the young turtles into adult turtles; the constant-temperature shed room comprises a shed body, a covering film and a plurality of juvenile soft-shelled turtle ponds, wherein the covering film is covered on the shed body and used for shading and insulating light; each young turtle pond is internally provided with an indoor feeding platform for feeding young turtles, an oxygen increasing device for increasing oxygen in the pond body at regular time, a climbing net cover for stopping the young turtles, a heat supply device for supplying warm water to the pond body and a sewage discharge pipe for discharging bottom water in the pond body; the outdoor culture pond comprises a plurality of unit culture ponds which are closely arranged from upstream to downstream in sequence, and each unit culture pond is internally provided with a leisure area for the young turtles to rest, an activity area with water flow flowing from upstream to downstream and an outdoor feeding table for the young turtles to feed.

2. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: the oxygenation device comprises an aerator arranged outside the constant-temperature shed, an oxygenation main pipe communicated with the output end of the aerator, oxygenation branch pipes communicated with the oxygenation main pipe, and air outlet pipes which are arranged in each young turtle pond and are provided with small holes, each air outlet pipe is communicated with the corresponding oxygenation branch pipe, and each oxygenation branch pipe is provided with a first valve.

3. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: the plurality of young turtle ponds in each constant-temperature shed room are divided into two groups, the two groups of young turtle ponds are symmetrically arranged along the center line of a room beam of the constant-temperature shed room, the rear side of each group of young turtle pond is provided with a sewage discharge ditch, the rear side of each group of young turtle pond is provided with a sewage discharge outlet, the sewage discharge outlet is communicated with a sewage discharge pipe capable of adjusting the depth of the water level in the young turtle pond, and the bottom layer sewage in the young turtle pond can be discharged into the sewage discharge ditch only by rotating the sewage discharge pipe leftwards or rightwards to change the vertical height of the sewage discharge pipe.

4. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: the heat supply device comprises an air energy water heater arranged in the greenhouse body, a water outlet of the air energy water heater is communicated with a heat supply main pipe, heat supply branch pipes which are communicated with the heat supply main pipe and correspond to the plurality of young turtle ponds one by one, warm water is supplied to the pond body from an outlet of each heat supply branch pipe, and a second valve is arranged on each heat supply branch pipe.

5. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: the constant-temperature shed room further comprises a controller, an oxygen concentration tester for detecting the oxygen content of water in the pool body and a temperature detector for detecting the temperature of the water in the pool body are further arranged in each young turtle pool, the heat supply device and the oxygen increasing device are both controlled by the controller, and the oxygen concentration tester and the temperature detector are respectively connected with the controller.

6. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: the outdoor culture pond further comprises a live water source for providing flowing live water and a water supply pipe communicated with the live water source, an outlet of the water supply pipe is arranged on the unit culture pond positioned at the upstream, an overflow through pipe is arranged between two adjacent unit culture ponds, the plurality of overflow through pipes are arranged in a staggered mode, and each overflow through pipe is positioned at one side of a movable area.

7. The mountain high-quality ecological turtle breeding system according to claim 6, wherein: the outlet end of the active water source is communicated with one end of a sedimentation tank, the other end of the sedimentation tank is communicated with an ultraviolet sterilizer, and the water outlet of the ultraviolet sterilizer is communicated with the water supply pipe.

8. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: every unit is bred and is equipped with the back of body platform that shines that supplies the climbing of young soft-shelled turtle to shine the back of the body usefulness in the pond, should shine the back of the body platform and be located in the leisure area, should shine the back of the body platform including being located the surface of water above and being network structure's square platform and also being network structure's four climbing platforms with square platform four sides are connected, and every climbing platform's bottom extends to below the surface of water.

9. The mountain high-quality ecological turtle breeding system according to claim 1, characterized in that: each unit culture pond is internally provided with a strip-shaped partition plate, the partition plate divides the unit culture pond into the leisure area and the movable area, and the outdoor feeding table is positioned in the movable area; an arc-shaped transition plate is arranged at the included angle of the side edge of each unit culture pond.

Images