CN115136920A - Cultivation circulating temperature control system - Google Patents

Abstract

The invention relates to a cultivation circulation temperature control system, wherein cultivation grooves are distributed on the cultivation circulation temperature control system, the cultivation grooves are annularly provided with groove walls, the groove walls surround a cultivation pond for containing water, temperature adjusting pipes and temperature measuring elements are distributed on the cultivation pond, the groove walls are respectively provided with vertical walls, and a temperature insulation space is kept between the vertical walls. The periphery of the culture tank is distributed with a temperature-changing container, a temperature-changing containing chamber is arranged in the temperature-changing container, and the temperature-changing container is provided with the temperature measuring element which is arranged in the temperature-changing containing chamber. The temperature adjusting device is distributed with a temperature raising machine and a temperature lowering machine, and the temperature raising machine is provided with a temperature raising element; the cooling machine is provided with a cooling element; the breeding circulation temperature control system is provided with a setting device, and the setting device is controlled according to the temperature measured by the temperature measuring element to be provided with: the pump and the temperature adjusting device.

Description

Cultivation circulating temperature control system

Technical Field

The invention relates to a cultivation circulation temperature control system, wherein a cultivation tank is provided with a cultivation space for accommodating water, and the water temperature is controlled by a temperature adjusting device.

Background

Present land aquatic products A0 breed mainly utilizes fish farm 10 to breed aquatic products A0, and fish farm 10 need dig an open-air farm hole 101 earlier before the establishment, and farm hole 101 need through at least three months's insolate, make the end after digging well back, go into water B0 again and go into behind farm hole 101 water B0, go into aquatic products A0 breed again, borrow this, reduce aquatic products A0 depreciation as far as possible. However, the fish farm 10 is open air, climate change and natural disasters can directly attack the fish farm 10, so that the damage of the aquatic product A0 can not be estimated, and the water pump C0 and the cultivation apparatus D0 controlled by the water B0 quality need to purchase a large amount of expensive commercial electric power, so that the normal operation of the fish farm 10 can be reluctantly maintained, and the aquatic product A0 cultivation is easily affected by food feeding, bottom-sinking, optimal oxidation, pollution and abnormal change of the farm pit 101, and factors of climate interference, so that the aquatic product A0 cultivation must be according to: the larval, the sub-adult and the adult are cultured by changing ponds in stages, and meanwhile, the aquaculture quantity A0 of the aquatic products must be strictly limited (as shown in figure 1).

Therefore, only the intensive tank 20 for indoor cultivation is produced, and the intensive tank 20 is matched with the filter 201 to stabilize the quality of the water B0, so that the aquatic product A0 is cultivated in the intensive tank 20 without bearing: feeding the bait to ingest the submerged water B0 for quality optimization and oxidation, pollution and mutation of the water B0, pond changing and continuous culture of larval, sub-adult and adult stages, climate change and natural disaster interference. In addition, the filter 201, the water pump C0 and the cultivation apparatus D0 still need to purchase a large amount of high-price commercial power to maintain the normal operation of the intensive tank 20, so that the operation cost of the intensive tank 20 cannot be effectively reduced (as shown in FIG. 2).

In addition, if the sump 20 needs to control the temperature of the water B0, most of the commercially available heaters 202 and impractical hot air conduits are generally selected to supply the temperature of the water B0, and the heaters 202 are not suitable for use in sumps 20 that use large amounts of water B0 because the heaters 202 cause local water B0 temperatures in the sump 20 that are too high to damage the aquatic products A0 and water B0 Wen Bujun. The aquatic product A0 cannot be adjusted. Therefore, it is a very important issue to uniformly adjust the temperature of the water B0 (as shown in FIG. 2; the temperature of the water B0 is not shown and labeled herein by the hot air passing through the duct).

Disclosure of Invention

In order to solve the defect that the water temperature cannot be effectively regulated in the intensive tank of the conventional aquaculture, the application provides an aquaculture circulation temperature control system using a temperature regulating device to circularly control the water temperature.

The cultivation circulation temperature control system of the invention is provided with cultivation tanks, each cultivation tank is provided with a base, a tank wall extending upwards is annularly arranged above the base, the tank wall surrounds a cultivation pool, water is contained in the cultivation pool, temperature adjusting pipes for adjusting the temperature of the water are distributed in the cultivation pool, temperature adjusting liquid is circulated in the temperature adjusting pipes, liquid leading-in connectors and liquid leading-out connectors extending out of the cultivation pool are distributed in the temperature adjusting pipes, temperature measuring elements for measuring the temperature of the water are distributed in the cultivation pool, three vertical walls are respectively arranged on the tank walls, and a hollow temperature insulation space is kept between the vertical walls. The temperature adjusting device is distributed with a temperature adjusting container, a temperature changing chamber for accommodating the temperature adjusting liquid is arranged in the temperature changing container, the temperature changing container is connected with the temperature measuring element which is arranged in the temperature changing chamber and measures the temperature of the temperature adjusting liquid, the temperature adjusting device is distributed with a pump for pumping the temperature adjusting liquid in the temperature changing chamber and entering the temperature adjusting pipe from the leading-in connector, and the temperature adjusting pipe circulates the temperature adjusting liquid to flow back to the temperature changing chamber through the leading-out connector. The temperature adjusting device is distributed with a heating machine and a cooling machine; the temperature raising machine is provided with a temperature raising element for heating the temperature adjusting liquid, the temperature adjusting device is distributed with the pump for pumping the temperature adjusting liquid in the temperature changing chamber into the temperature raising element, and the temperature adjusting device is distributed with a temperature raising circulating pipe for communicating the temperature adjusting liquid of the temperature raising element into the temperature changing chamber; the temperature-reducing machine is provided with a temperature-reducing element for cooling the temperature-regulating liquid, the temperature-regulating device is distributed with the pump for pumping the temperature-regulating liquid in the temperature-changing chamber into the temperature-reducing element, and the temperature-regulating device is distributed with a temperature-reducing circulating pipe for communicating the temperature-regulating liquid in the temperature-reducing element into the temperature-changing chamber. The breeding circulating temperature control system is provided with a setting device, the setting device adjusts and presets the temperature of the water and the temperature adjusting liquid, the setting device is connected with the temperature measuring element for measuring the temperature of the water and the temperature adjusting liquid, and the setting device at least controls, starts and closes the pump and the temperature adjusting device according to the temperature measured by the temperature measuring element.

The heating element is internally provided with a heating chamber for accommodating the temperature-adjusting liquid, the heating chamber is also provided with a heating pipe for increasing the temperature of the temperature-adjusting liquid, the heating pipe is additionally circulated with medium oil, and the heating pipe is connected with a heating medium heater for circularly heating the medium oil outside the heating element. In addition, the heat medium heater is also provided with a solar heat collecting umbrella, the center of the solar heat collecting umbrella is also upwards connected with a heat collector in a erecting mode, a heat medium part communicated with the heat collector is additionally distributed on the solar heat collecting device, an oil medium chamber is also arranged inside the heat medium part, medium oil is additionally contained in the oil medium chamber, an oil medium pump for pumping the medium oil in the oil medium chamber to the heat collector is also distributed on the solar heat collecting device, and the heat collector is additionally connected with an oil medium guide pipe for serially connecting the heat collector and circulating the medium oil to the oil medium chamber; the heating medium part is also provided with a temperature adjusting pump for circulating the medium oil to the heating chamber in the oil medium chamber, the heating chamber is also provided with a heating pipe for circulating the medium oil to the oil medium chamber, and the setting device controls, starts and closes the oil medium pump and the temperature adjusting pump according to the temperature of the temperature adjusting liquid measured by the temperature measuring element.

The temperature adjusting device is also provided with a heat medium heater, the heat medium heater is also provided with a solar heat collecting umbrella, the center of the solar heat collecting umbrella is also upwards connected with a heat collector in an erecting way, the solar heat collecting device is also provided with a heat medium part communicated with the heat collector, an oil medium chamber is also arranged in the heat medium part, the oil medium chamber is also used for accommodating medium oil, the solar heat collecting device is also provided with an oil medium pump for pumping the medium oil in the oil medium chamber to the heat collector, and the heat collector is also connected with an oil medium guide pipe which is connected with the heat collector in series and circulates the medium oil back to the oil medium chamber; the heating medium part is provided with a heating interface pipe for circulating the temperature regulating liquid in the oil medium chamber, the heating interface pipe is additionally connected with a temperature regulating pump for circulating the temperature regulating liquid to the temperature regulating chamber outside the heating medium part, and the setting device controls, starts and closes the oil medium pump and the temperature regulating pump according to the temperature measured by the temperature measuring element.

The cooling element is internally provided with a cooling chamber for containing the temperature regulating liquid, the cooling chamber is also provided with a cooling pipe for cooling the temperature of the temperature regulating liquid, the cooling pipe is also circulated with a refrigerant liquid, and the cooling pipe is connected with a refrigerant cooler for circularly cooling the refrigerant liquid outside the cooling element.

The temperature adjusting pipe is coiled on the bottom side of the culture pond in a circular shape. In addition, the spiral temperature adjusting pipes are distributed on the culture pond.

The beneficial effects of the invention include: 1. the tank wall is provided with three vertical walls, a hollow thermal insulation space is kept between the vertical walls, the tank wall surrounds the culture pond above the base, the culture pond contains the water, and the tank wall has substantial benefit of isolating the water contained in the culture space from the external temperature according to the thermal insulation space.

2. The temperature adjusting pipes for adjusting the temperature of the water are distributed in the culture pond, the temperature adjusting liquid is circulated in the temperature adjusting pipes in a circulating way, and the temperature measuring elements for measuring the temperature of the water are distributed in the culture pond. The temperature adjusting device is distributed with the pump which continuously pumps the temperature adjusting liquid in the temperature adjusting chamber, and the temperature adjusting liquid enters the temperature adjusting pipe from the leading-in joint to circulate the temperature adjusting chamber. The temperature adjusting device is provided with a temperature raising machine for heating the temperature adjusting liquid and a temperature lowering machine for cooling the temperature adjusting liquid, and the temperature raising machine and the temperature lowering machine are provided with a pump for circularly pumping the temperature adjusting liquid. The setting device adjusts and presets the temperature of the water and the temperature adjusting liquid, the setting device is connected with the temperature measuring element for measuring the temperature of the water and the temperature adjusting liquid, and the setting device at least controls, starts and closes the pump and the temperature adjusting device according to the temperature measured by the temperature measuring element.

3. The temperature adjusting device is provided with the heat medium heater, the heat medium heater is communicated with the heat medium part of the heat collector through the heat collector at the center of the solar heat collecting umbrella, the heat medium part is provided with the oil medium chamber for accommodating the medium oil, and the oil medium pump pumps the medium oil to circulate in the oil medium chamber and the heat collector. The heating medium part is provided with a substantial benefit of circulating the heating interface pipe of the temperature adjusting liquid to the temperature changing chamber in the oil medium chamber.

4. The culture pond is coiled and distributed with the temperature adjusting pipe.

Drawings

Fig. 1 is a schematic diagram of a conventional fish farm.

Fig. 2 is a schematic view of a conventional intensive tank.

FIG. 3 is a schematic view of a cultivation circulation temperature control system according to the present invention.

FIG. 4 is a schematic view of a heating medium heater of the warming device of the present invention.

Fig. 5 is another schematic view of the heating medium heater of the present invention.

Fig. 6 is a schematic view of a desuperheater of the present invention.

FIG. 7 is a schematic top view of a temperature control tube according to the present invention.

FIG. 8 is another schematic view of a temperature regulating tube of the present invention.

In the figure:

[ Prior Art ]

A0 aquatic product and B0 water

D0 cultivation apparatus of C0 water pump

10 fish farm 101 farm pit

20 intensive groove 201 filter

202 heater

[ invention ]

Temperature regulating liquid A, B

C temperature measuring element D pump

E medium oil F refrigerant liquid

N aquatic body X sun

X1 sunshine 1 breeds circulation temperature control system

11 culture tank 12 base

13 groove wall 131 vertical wall

132 heat insulation space 14 culture pond

15 temp. regulating pipe 151 liquid leading-in joint

152 liquid leading-out joint 2 temperature adjusting device

2A temperature raising machine 2A1 temperature raising element

2A2 heating chamber 2A3 heating pipe

2A4 heating medium heater 2A41 solar heat collecting umbrella

2A42 heat collector 2A43 heat medium part

2A44 oil medium chamber 2A45 oil medium pump

2A46 oil medium conduit 2A47 temperature regulating pump

2A48 heating interface pipe 2B cooling machine

2B1 Cooling element 2B2 Cooling Chamber

2B3 cooling pipe 2B4 refrigerant cooler

21 temperature-changing container 22 temperature-changing chamber

23 temperature-increasing circulation pipe 24 temperature-reducing circulation pipe

3 setting device.

Detailed Description

The present invention is further described with reference to the following drawings and specific examples so that those skilled in the art can better understand the present invention and can practice the present invention, but the examples are not intended to limit the present invention.

The invention relates to a cultivation circulating temperature control system 1, wherein cultivation tanks 11 are distributed on the cultivation circulating temperature control system 1, at least one base 12 is arranged on each cultivation tank 11, at least one upward extending tank wall 13 is annularly arranged above each base 12, at least one cultivation pool 14 is surrounded by each tank wall 13, water A is contained in each cultivation pool 14, temperature adjusting pipes 15 for adjusting the temperature of the water A are distributed in each cultivation pool 14, a temperature adjusting liquid B is circulated in each temperature adjusting pipe 15 in a circulating manner, liquid leading-in connectors 151 and liquid leading-out connectors 152 extending out of the cultivation pools 14 are distributed on each temperature adjusting pipe 15, temperature measuring elements C for measuring the temperature of the water A are distributed in each cultivation pool 14, at least three vertical walls 131 are respectively arranged on each tank wall 13, and a hollow temperature isolating space 132 is reserved between the vertical walls 131. The cultivation circulating temperature control system 1 is characterized in that temperature adjusting devices 2 are distributed around the cultivation tank 11, temperature adjusting devices 21 are distributed on the temperature adjusting devices 2, at least one temperature changing chamber 22 for containing the temperature adjusting liquid B is arranged in the temperature changing container 21, the temperature measuring element C which is arranged in the temperature changing chamber 22 and used for measuring the temperature of the temperature adjusting liquid B is assembled on the temperature changing container 21, a pump D which is used for pumping the temperature adjusting liquid B in the temperature changing chamber 22 and enters the temperature adjusting pipe 15 through the leading-in connector 151 is distributed on the temperature adjusting devices 2, and the temperature adjusting pipe 15 circulates the temperature adjusting liquid B through the leading-out connector 152 and flows back to the temperature changing chamber 22. The temperature adjusting device 2 is distributed with a temperature raising machine 2A and a temperature lowering machine 2B, the temperature raising machine 2A is at least provided with a temperature raising element 2A1 for heating the temperature adjusting liquid B, the temperature adjusting device 2 is distributed with a pump D for pumping the temperature adjusting liquid B in the temperature changing accommodating chamber 22 into the temperature raising element 2A1, and the temperature adjusting device 2 is distributed with a temperature raising circulating pipe 23 for communicating the temperature adjusting liquid B of the temperature raising element 2A1 into the temperature changing accommodating chamber 22. The cooling machine 2B is at least provided with a cooling element 2B1 for cooling the temperature adjusting liquid B, the pump D for pumping the temperature adjusting liquid B in the temperature changing chamber 22 into the cooling element 2B1 is distributed on the temperature adjusting device 2, and the cooling circulation pipe 24 for communicating the temperature adjusting liquid B in the temperature adjusting device 2B1 into the temperature changing chamber 22 is distributed on the temperature adjusting device 2. The cultivation circulation temperature control system 1 at least has a setting device 3, the setting device 3 adjusts and presets the temperature of the water A and the temperature adjusting liquid B, the setting device 3 is connected with the temperature measuring element C for measuring the temperature of the water A and the temperature adjusting liquid B, the setting device 3 at least controls, starts and closes the temperature raising machine 2A and the temperature lowering machine 2B (as shown in figure 3) with the pump D and the temperature adjusting device 2 according to the temperature measured by the temperature measuring element C.

Therefore, the tank wall 13 is provided with three vertical walls 131, a hollow thermal insulation space 132 is maintained between the vertical walls 131, the culture pond 14 is surrounded by the tank wall 13 above the base 12, the culture pond 14 contains the water a, the hollow thermal insulation space 132 of the tank wall 13 is a very effective climate temperature insulation device, and the culture pond 14 almost isolates the water a from the outside climate temperature by the thermal insulation space 132 (as shown in fig. 3).

The temperature adjusting pipe 15 for adjusting the temperature of the water a is distributed in the culture pond 14, the temperature adjusting liquid B circulates and circulates in the temperature adjusting pipe 15, the temperature of the temperature adjusting liquid B in the temperature changing chamber 22 is controlled in advance by the temperature raising machine 2A and the temperature lowering machine 2B of the temperature adjusting device 2, the temperature adjusting liquid B is input into the temperature adjusting pipe 15 in a circulating manner by the pump D, the temperature of the temperature adjusting liquid B after being adjusted is distributed by the temperature adjusting pipe 15 to affect the temperature of the water a within the preset range set by the setting device 3, when the temperature of the water a is adjusted within the preset range set by the setting device 3, the temperature measuring element C senses the temperature of the water a and closes the pump D which communicates with the temperature adjusting pipe 15 through the setting device 3, until the temperature of the water a exceeds the preset range set by the setting device 3, the temperature measuring element C senses the temperature of the water a and the pump D which communicates with the temperature adjusting pipe 15 through the temperature adjusting pipe 15 starts to circularly convey the temperature adjusting liquid B into the temperature adjusting pipe 15 to enter the temperature adjusting pipe 15, and the water a culture system which can continuously raise water without affecting the living climate N, and the living climate can be fed without being influenced by the climate N. In addition, the temperature-regulating liquid B is a liquid with better heat transfer efficiency and mildness, wherein the temperature-regulating liquid B can also select the water A as the implementation target (as shown in FIG. 3).

Moreover, the temperature adjusting device 2 is provided with the temperature raising machine 2A for heating the temperature adjusting liquid B and the temperature lowering machine 2B for cooling the temperature adjusting liquid B, and the pump D for circularly pumping the temperature adjusting liquid B is provided on the temperature raising machine 2A and the temperature lowering machine 2B. The setting device 3 adjusts and presets the preset temperature condition of the temperature adjusting liquid B, the setting device 3 is connected with the temperature measuring element C for measuring the temperature of the temperature adjusting liquid B, the setting device 3 at least controls, starts and closes the pump D according to the temperature measured by the temperature measuring element C, and the temperature raising machine 2A and the temperature lowering machine 2B of the temperature adjusting device 2 adjust the temperature of the temperature adjusting liquid B to the preset temperature condition which affects the temperature of the water A, when the temperature condition of the temperature adjusting liquid B conforms to the preset temperature condition which affects the temperature of the water A, the setting device 3 closes the operation of the temperature raising machine 2A or closes the operation of the temperature lowering machine 2B according to the temperature measured by the temperature measuring element C. Then, when the temperature condition of the temperature adjusting liquid B does not meet the predetermined temperature condition affecting the water A, the setting device 3 starts the operation of the temperature raising machine 2A or the operation of the temperature lowering machine 2B according to the temperature measured by the temperature measuring element C (as shown in FIG. 3).

The temperature adjusting device 2 of the invention is distributed with the warming machine 2A, the warming element 2A1 of the warming machine 2A is internally provided with a warming chamber 2A2 for containing the temperature adjusting liquid B, the warming chamber 2A2 is provided with a warming pipe 2A3 for raising the temperature of the temperature adjusting liquid B, the warming pipe 2A3 is circulated with a medium oil E, the warming pipe 2A3 is connected with a heat medium heater 2A4 for circularly heating the medium oil E outside the warming element 2A1, the heat medium heater 2A4 is also provided with a solar heat collecting umbrella 2A41, the center of the solar heat collecting umbrella 2A41 is also connected with a heat collector 2A42 upwards, the heat medium heater 2A4 is further distributed with a heat medium part 2A43 for communicating the heat collector 2A42, the inside of the heat medium part 2A43 is also provided with an oil chamber 2A44, the oil chamber 2A44 is further provided with a medium oil E, the heat collector 2A4 is further distributed with a heat medium part 2A44 for extracting the medium oil E in the oil chamber 2A44, and is connected with another heat medium oil circulating pipe 46A 42 and another medium oil pipe 46A 42; the heating medium part 2A43 is further provided with a temperature adjusting pump 2A47 for circulating the medium oil E to the heating chamber 2A3 in the oil medium chamber 2A44, the heating chamber 2A2 is further provided with a heating pipe 2A48 for circulating the medium oil E back to the oil medium chamber 2A44, and the setting device 3 controls, starts and closes the oil medium pump 2A45 and the temperature adjusting pump 2A47 according to the temperature of the temperature adjusting liquid B measured by the temperature measuring element C. The heating medium heater 2A4 mainly uses the sunlight X1 of the sun X to intensively irradiate and heat the medium oil E circulating in the heat collector 2A42 through the solar heat collecting umbrella 2A41, and then heats the temperature adjusting liquid B according to the heated medium oil E, so that the temperature adjusting liquid B is heated by the medium oil E, and the expensive commercial power is not needed to be used for heating the temperature adjusting liquid B (as shown in figure 4; in addition, the heating machine 2A can be a commercial heat pump).

The temperature adjusting device 2 of the invention is additionally distributed with a heat medium heater 2A4, the heat medium heater 2A4 is also provided with a solar heat collecting umbrella 2A41, the center of the solar heat collecting umbrella 2A41 is also upwards erected with a heat collector 2A42, the heat medium heater 2A4 is additionally distributed with a heat medium part 2A43 communicated with the heat collector 2A42, the inside of the heat medium part 2A43 is also provided with an oil medium chamber 2A44, the oil medium chamber 2A44 is additionally accommodated with medium oil E, the heat medium heater 2A4 is also distributed with an oil medium pump 2A45 for pumping the medium oil E in the oil medium chamber 2A44 to the heat collector 2A42, the heat collector 2A42 is additionally connected with an oil medium conduit 2A46 for serially connecting the heat collector 2A42 and circulating the medium oil E back to the oil chamber 2A 44; the heat medium part 2a43 is further provided with a heat receiving interface pipe 2a48 for circulating the temperature adjusting liquid B in the oil medium chamber 2a44, the heat receiving interface pipe 2a48 is further connected to a temperature adjusting pump 2a47 for circulating the temperature adjusting liquid B to the temperature changing chamber 22 outside the heat medium part 2a43, and the setting device 3 controls, starts and stops the oil medium pump 2a45 and the temperature adjusting pump 2a47 according to the temperature measured by the temperature measuring element C. The heating medium heater 2A4 mainly uses the sunlight X1 of the sun X to intensively irradiate and heat the medium oil E circulating in the heat collector 2a42 through the solar heat collecting umbrella 2a41, and then heats the temperature adjusting liquid B according to the heated medium oil E and circulates to the temperature changing chamber 22, so that the temperature adjusting liquid B is heated by the medium oil E of the heating medium heater 2A4, and the temperature adjusting device 2 does not need to use expensive commercial electric power for heating the temperature adjusting liquid B (as shown in fig. 5).

A cooling chamber 2B2 for accommodating the temperature-adjusting liquid B is arranged in the cooling element 2B1 of the cooling machine 2B, a cooling pipe 2B3 for cooling the temperature-adjusting liquid B is erected on the cooling chamber 2B2, a refrigerant liquid F is circulated in the cooling pipe 2B3, and a refrigerant cooler 2B4 (shown in figure 6) for circularly cooling the refrigerant liquid F is connected to the cooling pipe 2B3 outside the cooling element 2B 1.

The temperature adjusting pipe 15 is circularly coiled at the bottom side of the culture pond 14 of the invention to enlarge the contact range of the temperature adjusting pipe 15 and the water A, so that the water A can quickly exchange the temperature of the temperature adjusting liquid B circulated by the temperature adjusting pipe 15 (as shown in figure 7; in addition, the temperature adjusting liquid B is shown in figure 3). In addition, the spiral temperature adjusting pipes 15 are distributed on the bottom side of the culture pond 14, and the spiral temperature adjusting pipes 15 can improve the temperature efficiency of the water A for exchanging the temperature adjusting liquid B (as shown in fig. 8; in addition, the temperature adjusting liquid B is shown in fig. 3).

As can be seen from the above description: the tank wall 13 is provided with three vertical walls 131, a hollow thermal insulation space 132 is maintained between the vertical walls 131, the culture pond 14 is surrounded by the tank wall 13 above the base 12, the culture pond 14 contains the water A, the hollow thermal insulation space 132 of the tank wall 13 is quite effective in climate and temperature insulation, and the culture pond 14 almost isolates the contained water A from the external climate and temperature by the thermal insulation space 132, so that the water A can guarantee the lasting benefit of the preset temperature, and the invention is the primary excellent characteristic.

Another excellent feature of the present invention is: the temperature adjusting liquid B circulated by the temperature adjusting pipe 15 is used for adjusting the temperature of the water in the culture pond 14, the temperature adjusting liquid B contained by the temperature changing chamber 22 is controlled by the temperature raising machine 2A and the temperature lowering machine 2B in advance, then the temperature is input into the temperature adjusting pipe 15 in a circulating manner by the pump D, the adjusted temperature of the temperature adjusting liquid B is diffused by the temperature adjusting pipe 15 to influence the temperature of the water A to be within a preset range set by the setting device 3, the temperature measuring element C senses that the temperature of the water A is shut down by the pump D communicated with the temperature adjusting pipe 15 through the setting device 3, and when the temperature of the water A exceeds the preset range set by the setting device 3, the temperature measuring element C starts the pump D to convey the temperature adjusting liquid B in a circulating manner to enter the temperature adjusting pipe 15 to diffuse to influence the temperature of the water A to be within the preset range, so that the water living body N can be continuously fed at the most suitable living temperature, the temperature of the water A is not influenced by external temperature climate, and the culture circulating temperature control system 1 can perform the characteristic feeding benefit of the living body N without any climate.

The invention has another excellent characteristic that: the temperature raising machine 2A and the temperature lowering machine 2B are distributed with the pump D for circularly extracting the temperature adjusting liquid B, the preset temperature condition of the temperature adjusting liquid B is adjusted and preset by the setting device 3, the setting device 3 at least controls and starts and closes the temperature raising machine 2A and the temperature lowering machine 2B which are provided with the pump D and the temperature adjusting device 2 according to the temperature measured by the temperature measuring element C, when the temperature raising machine 2A and the temperature lowering machine 2B are adjusted to accord with the preset temperature condition which affects the temperature of the water a according to the temperature of the temperature adjusting liquid B, the setting device 3 immediately closes the operation of the temperature raising machine 2A or closes the operation of the temperature lowering machine 2B. Then, when the temperature condition of the temperature adjusting liquid B does not meet the predetermined temperature condition affecting the water a, the setting device 3 starts the operation of the temperature raising machine 2A or the operation of the temperature lowering machine 2B according to the temperature measured by the temperature measuring element C.

The invention has another excellent characteristic that: the heat medium heater 2A4 is used. The heating medium heater 2A4 mainly uses the sunlight X1 of the sun X to intensively irradiate and heat the medium oil E circulating in the heat collector 2a42 through the solar heat collecting umbrella 2a41, and then uses the medium oil E to heat the temperature adjusting liquid B to circulate to the temperature changing chamber 22, so that the temperature adjusting liquid B is heated by the medium oil E of the heating medium heater 2A4, and the temperature adjusting device 2 does not need to use expensive commercial electric power for heating the temperature adjusting liquid B.

Still another excellent feature of the present invention is: the temperature adjusting pipe 15 is coiled at the bottom side of the culture pond 14, so as to enlarge the contact range of the temperature adjusting pipe 15 and the water A, and ensure the characteristic benefit that the water A can quickly exchange the temperature of the temperature adjusting liquid B circulated by the temperature adjusting pipe 15.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (7)

1. A cultivation circulation temperature control system is characterized in that cultivation tanks are distributed on the cultivation circulation temperature control system, at least one base is arranged on each cultivation tank, at least one tank wall extending upwards is arranged above the base in a surrounding mode, at least one cultivation pond is surrounded by the tank wall, water is contained in the cultivation pond, temperature adjusting pipes for adjusting the temperature of the water are distributed in the cultivation pond, temperature adjusting liquid flows through the temperature adjusting pipes in a circulating mode, liquid leading-in connectors and liquid leading-out connectors extending out of the cultivation pond are distributed on the temperature adjusting pipes, temperature measuring elements for measuring the temperature of the water are distributed in the cultivation pond, at least three vertical walls are distributed on the tank wall, and a hollow temperature insulation space is reserved between the vertical walls; the culture circulating temperature control system is characterized in that temperature adjusting devices are distributed on the periphery of the culture tank, temperature adjusting containers are distributed on the temperature adjusting devices, at least one temperature changing chamber for containing the temperature adjusting liquid is arranged in each temperature changing container, the temperature changing containers are connected with temperature measuring elements which are placed in the temperature changing chambers and used for measuring the temperature of the temperature adjusting liquid, pumps which are used for pumping the temperature adjusting liquid in the temperature changing chambers and enter the temperature adjusting pipes through the leading-in connectors are distributed on the temperature adjusting devices, and the temperature adjusting pipes circulate the temperature adjusting liquid through the leading-out connectors and flow back to the temperature changing chambers; the temperature adjusting device is distributed with a temperature raising machine and a temperature lowering machine, the temperature raising machine is at least provided with a temperature raising element for heating the temperature adjusting liquid, the temperature adjusting device is distributed with a pump for pumping the temperature adjusting liquid in the temperature changing chamber into the temperature raising element, and the temperature adjusting device is distributed with a temperature raising circulating pipe for communicating the temperature adjusting liquid of the temperature raising element into the temperature changing chamber; the temperature-reducing machine is at least provided with a temperature-reducing element for cooling the temperature-regulating liquid, the temperature-regulating device is distributed with the pump for pumping the temperature-regulating liquid in the temperature-changing chamber into the temperature-reducing element, and the temperature-regulating device is distributed with a temperature-reducing circulating pipe for communicating the temperature-regulating liquid in the temperature-reducing element into the temperature-changing chamber; the breeding circulation temperature control system is at least provided with a setting device, the setting device adjusts and presets the temperature of the water and the temperature-adjusting liquid, the setting device is connected with the temperature measuring element for measuring the temperature of the water and the temperature-adjusting liquid, and the setting device at least controls, starts and closes the pump and the temperature adjusting device according to the temperature measured by the temperature measuring element.

2. The cultivation circulation temperature control system of claim 1, wherein the temperature raising element is additionally provided with a temperature raising chamber for accommodating the temperature regulating liquid, the temperature raising chamber is further provided with a temperature raising pipe for raising the temperature of the temperature regulating liquid, the temperature raising pipe is further circulated with a medium oil, and the temperature raising pipe is connected with a heat medium heater for circularly heating the medium oil outside the temperature raising element.

3. The circulating temperature control system for aquaculture of claim 2, wherein the heat medium heater further comprises a solar heat collecting umbrella, a heat collector is mounted at the center of the solar heat collecting umbrella and is further distributed with a heat medium part communicated with the heat collector, an oil medium chamber is further arranged inside the heat medium part and is further filled with medium oil, an oil medium pump is further distributed with the heat medium heater for pumping the medium oil in the oil medium chamber to the heat collector, and an oil medium conduit is further connected with the heat collector in series and is used for circulating the medium oil back to the oil medium chamber; the heating medium part is also provided with a temperature adjusting pump for circulating the medium oil to the heating chamber in the oil medium chamber, the heating chamber is also provided with a heating pipe for circulating the medium oil to the oil medium chamber, and the setting device controls, starts and closes the oil medium pump and the temperature adjusting pump according to the temperature of the temperature adjusting liquid measured by the temperature measuring element.

4. The circulating temperature control system for aquaculture of claim 1, wherein the temperature adjusting device further comprises a heat medium heater, the heat medium heater further comprises a solar heat collecting umbrella, the solar heat collecting umbrella is connected with a heat collector in an upward manner, the heat medium heater further comprises a heat medium part communicated with the heat collector, an oil medium chamber is further arranged in the heat medium part, the oil medium chamber further contains medium oil, the heat medium heater further comprises an oil medium pump for pumping the medium oil in the oil medium chamber to the heat collector, the heat collector is further connected with an oil medium conduit for connecting the heat collector in series and circulating the medium oil back to the oil medium chamber; the heating medium part is also provided with a heating interface pipe for circulating the temperature regulating liquid in the oil medium chamber, the heating interface pipe is additionally connected with a temperature regulating pump for circulating the temperature regulating liquid to the temperature regulating chamber outside the heating medium part, and the setting device controls, starts and closes the oil medium pump and the temperature regulating pump according to the temperature measured by the temperature measuring element.

5. The cultivation circulating temperature control system of claim 1, wherein a cooling chamber for containing the temperature adjusting liquid is additionally installed inside the cooling element, a cooling pipe for cooling the temperature adjusting liquid is further installed on the cooling chamber, a coolant liquid is further circulated in the cooling pipe, and the cooling pipe is connected to a coolant cooler for cooling the coolant liquid circularly outside the cooling element.

6. The cultivation circulation temperature control system of claim 1, wherein the temperature adjusting pipe is coiled on another circle of the bottom side of the cultivation pond.

7. The cultivation circulation temperature control system as claimed in claim 1, wherein the spiral temperature adjustment pipes are distributed in the cultivation pond.

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