CN206978458U - Small size pond cultivates cooling system - Google Patents

Abstract

The utility model discloses a kind of small size pond to cultivate cooling system, including control device, refrigerating plant, heat-exchange device and water circle device, the temp probe of control device monitors the temperature of breeding barrel reclaimed water in real time, controller judges whether temperature is higher than threshold value, if it is higher than, refrigerating plant is then controlled to cool down the heat exchanging agent in incubator by the spiral copper pipe that freezes, the water body in breeding barrel is pumped into incubator by water circle device simultaneously, current are flowed back in breeding barrel after being cooled down by heat release spiral copper pipe to be cooled, until temperature is less than threshold value.Accurate, automation cooling that the utility model can be realized, can effectively reduce human input in experimentation, reduce human error, small on cultivated animals influence, improve operating efficiency, and technical guarantee is provided for temperature stress experiment；In addition, for professional cooling system, the utility model has the advantages that simple in construction, installing/dismounting is easy, small volume, cheap, safe.

Description

Small size pond cultivates cooling system

Technical field

The utility model belongs to the technical field of cultivation equipment, and in particular to a kind of small size pond cultivates cooling system.

Background technology

Environment temperature to aquatile area distribution, metabolism, grow and immune response etc. has very Important influence, it is always that Hydrobiology and aquatic products are supported to the stress reaction and adaptation mechanism of temperature change to probe into aquatile Grow research emphasis.

In temperature stress research, it is often necessary to the small-sized breeding water body of multiple different temperatures is built, it is higher in temperature Area, while it is always a problem to carry out gradient cooling processing for multiple small size ponds：Professional cooling system price is high, volume Greatly, installing/dismounting inconvenience.Conventional testing program is that manually input ice cube or addition frozen water are cooled into water body, and work people Member needs to monitor water temperature change at any time, and this method is big except human input, it is difficult to outside the experiment for carrying out longer cycle, water also be present Temperature fluctuates the drawback such as larger.

Above-mentioned discussion content purpose is to introduce to reader may be with the utility model for being described below and/or advocating The related technology of various aspects various aspects, it is believed that the discussion content contributes to as reader with background's information, with favourable In more fully understanding various aspects of the present utility model, it is therefore to be understood that be that these discussions are read with this angle, rather than Recognize prior art.

Utility model content

The purpose of this utility model is to avoid deficiency of the prior art and provide a kind of small size pond cultivation cooling system, It can be realized automatically and accurately cools to breeding water body, can effectively reduce human input in breeding process, improves production effect Rate, offer technical guarantee is smoothed out for temperature stress experiment.

The purpose of this utility model is achieved through the following technical solutions：

A kind of small size pond cultivation cooling system is provided, including breeding barrel, heat-exchange device, refrigerating plant, water circle device, Control device, wherein：

The heat-exchange device includes incubator and the heat exchanging agent being filled in incubator；

The refrigerating plant includes refrigeration spiral copper pipe, compressor and radiator, and the compressor is used for the spiral shell that will freeze Refrigerant in rotation copper pipe is compressed, and the radiator is used to distribute the heat discharged during refrigerant compression, the system Cold spiral copper pipe is positioned in incubator；

The water circle device is made up of immersible pump, water inlet pipe, heat release spiral copper pipe and outlet pipe, and the immersible pump is placed In breeding barrel, the outlet of immersible pump is connected with the water inlet end of water inlet pipe, and the heat release spiral copper pipe is positioned in incubator, is put The water side with water inlet pipe, one end of outlet pipe connect respectively at the both ends of hot spiral copper pipe, and the other end of outlet pipe is connected to foster Grow bucket；

The temp probe that described control device includes controller, is connected with controller, the temp probe is arranged at foster Grow in bucket, the controller is connected with compressor.

As a further improvement, the controller is connected with immersible pump.

As a further improvement, the heat exchanging agent is liquid heat exchanging agent.

As a further improvement, the incubator is closed container, and insulation material is filled between parietal layer.

Aquifer cultivation cooling system provided by the utility model, including breeding barrel, heat-exchange device, refrigerating plant, water follow Loop device, control device, the heat-exchange device include incubator and the heat exchanging agent being filled in incubator；The refrigeration dress Put including refrigeration spiral copper pipe, compressor and radiator, the compressor is used to enter the refrigerant to freeze in spiral copper pipe Row compression, the radiator are used to distribute the heat discharged during refrigerant compression, and the refrigeration spiral copper pipe is positioned over guarantor In incubator；The water circle device is made up of immersible pump, water inlet pipe, heat release spiral copper pipe and outlet pipe, and the immersible pump is placed In breeding barrel, the outlet of immersible pump is connected with the water inlet end of water inlet pipe, and the heat release spiral copper pipe is positioned in incubator, is put The water side with water inlet pipe, one end of outlet pipe connect respectively at the both ends of hot spiral copper pipe, and the other end of outlet pipe is connected to foster Grow bucket；The temp probe that described control device includes controller, is connected with controller, the temp probe are arranged at breeding barrel In, the controller is connected with compressor.The temp probe of control device monitors the temperature of breeding barrel reclaimed water in real time, and controller is sentenced Whether disconnected temperature is higher than threshold value, if being higher than, control refrigerating plant is by the spiral copper pipe that freezes by the heat exchanging agent in incubator Cooling, while the water body in breeding barrel is pumped into incubator by water circle device, current flow after being cooled down by heat release spiral copper pipe Return in breeding barrel, the water in breeding barrel is cooled, until after temperature is less than threshold value, water circle device and refrigerating plant just stop Only work.The utility model can be realized automatically and accurately to cool to breeding water body, can effectively reduce manpower in breeding process Input, improve production efficiency.In addition, for professional cooling system, the present invention has that simple in construction, installing/dismounting is simple Just, small volume, it is cheap, safe the advantages that.

Brief description of the drawings

Using accompanying drawing, the utility model is described in further detail, but the embodiment in accompanying drawing is not formed to of the present utility model Any restrictions, on the premise of not paying creative work, can also be according to following attached for one of ordinary skill in the art Figure obtains other accompanying drawings.

Fig. 1 is the structural representation of small size pond cultivation cooling system.

Embodiment

In order that those skilled in the art more fully understands the technical solution of the utility model, below in conjunction with the accompanying drawings and have The utility model is described in further detail body embodiment, it is necessary to explanation is, in the case where not conflicting, the application's Feature in embodiment and embodiment can be mutually combined.

As shown in figure 1, a kind of small size pond cultivation cooling system that the utility model embodiment provides, including breeding barrel 13, Heat-exchange device, refrigerating plant, water circle device, control device, wherein：

The heat-exchange device includes incubator 7 and the heat exchanging agent 6 being filled in incubator 7；The incubator 7 is close The container closed, insulation material is filled between parietal layer.The heat exchanging agent 6 is liquid heat exchanging agent, and liquid heat exchanging agent preferentially selects Take that specific heat capacity is small, chemical property is stable, chemical reaction occurs for discord copper pipe, cheap, nonconducting liquid solvent.

The refrigerating plant includes refrigeration spiral copper pipe 3, compressor 4 and radiator 5, and the compressor 4 is used for will system Refrigerant in cold spiral copper pipe 3 is compressed, and the radiator 5 is used to distribute the heat discharged during refrigerant compression, Refrigerant is compressed by compressor, while the heat discharged during refrigerant compression is absorbed and distributed by radiator, described Refrigeration spiral copper pipe 3 is positioned in incubator 7, and the evaporation in refrigeration spiral copper pipe 3 of the refrigerant after compression absorbs heat, refrigeration Spiral copper pipe 3, compressor 4 and radiator 5 are identical with the refrigeration principle of existing air-conditioning or refrigerator-freezer.

The water circle device is made up of immersible pump 11, water inlet pipe 10, heat release spiral copper pipe 9 and outlet pipe 8, the diving Pump 11 is positioned in breeding barrel, and the outlet of immersible pump 11 connects with the water inlet end of water inlet pipe 10, and the heat release spiral copper pipe 9 is placed In in incubator 7, the water side with water inlet pipe 10, one end of outlet pipe 8 connect respectively at the both ends of heat release spiral copper pipe 9, water outlet The other end of pipe 8 is connected to breeding barrel；Water body in breeding barrel is pumped into incubator 7 by immersible pump 11 through water inlet pipe 10, current Flowed back to after being cooled down by heat release spiral copper pipe 9 through outlet pipe 8 in breeding barrel 13.

The temp probe 2 that described control device includes controller 1, is connected with controller 1, the temp probe 2 are set In breeding barrel 13, temp probe 2 is connected by water proof wire with controller 1.The controller 1 and compressor 4, immersible pump 11 connections, controller 1 control compressor 4, the working condition of immersible pump 11.

Operation principle of the present utility model：Control device monitors the temperature of the reclaimed water 12 of breeding barrel 13 by temp probe 2 in real time Degree, controller 1 judges whether temperature is higher than threshold value, if being higher than, the compressor 4 of control refrigerating plant works, and passes through the spiral shell that freezes Rotation copper pipe 3 cools down the heat exchanging agent 6 in incubator 7, and the water body in breeding barrel is pumped into by the immersible pump 11 in water circle device In incubator 7, current are flowed back in breeding barrel 13 after being cooled down by heat release spiral copper pipe 9, the water in breeding barrel are cooled, directly After being less than threshold value to temperature, water circle device and refrigerating plant are just stopped.

Specifically used method of the present utility model is as follows：

(1) with reference to shown in the utility model structure diagram, small size pond is cultivated the incubator in cooling system and is arranged on Higher than in the stable platform of breeding barrel.

(2) start-up temperature is set in the controller and stops temperature.Start-up temperature i.e. when water temperature is higher than this temperature value, The water circle device and refrigerating plant being connected with controller can start simultaneously；It is when water temperature is less than the temperature value to stop temperature When, water circle device and refrigerating plant will be stopped；The controller can be accurate to 0.1 DEG C.

The utility model has advantages below：

(1) full-automatic round-the-clock progress water body cooling can be realized using the utility model, it is much to use manpower and material resources sparingly.

(2) the utility model is simple in construction, easy to operate, has very strong practicality.

(3) the utility model uses efficient controller system, and controllable temperature precision is high, and precision is up to 0.1 DEG C；In addition open Temperature range between stopping can voluntarily adjust according to experimental design.

(4) heat exchanging agent of the present utility model is improved outside heat transference efficiency using specific heat capacity is small, nonconducting liquid, Electricity separation is also achieved, prevents issuable Danger Electric shock risk during use, ensures the safety of user and experimental subjects.

(5) the utility model is for professional cooling system, and it has, and simple in construction, installing/dismounting is easy, volume The advantages that small, cheap.

Many details are elaborated in above description in order to fully understand the utility model, still, this practicality is new Type can also be different from other modes described here to implement using other, it is thus impossible to be interpreted as protecting the utility model Protect the limitation of scope.

In a word, although the utility model lists above-mentioned preferred embodiment, although it should be noted that the skill of this area Art personnel can carry out various change and remodeling, unless such change and remodeling deviate from the scope of the utility model, otherwise It should be construed as being included in the scope of protection of the utility model.

Claims (4)

1. a kind of small size pond cultivates cooling system, it is characterised in that including breeding barrel, heat-exchange device, refrigerating plant, water circulation Device, control device, wherein：

The heat-exchange device includes incubator (7) and the heat exchanging agent (6) being filled in incubator (7)；

The refrigerating plant includes refrigeration spiral copper pipe (3), compressor (4) and radiator (5), the compressor (4) and is used for The refrigerant to freeze in spiral copper pipe (3) is compressed, the radiator (5) discharges during being used to distributing refrigerant compression Heat, the refrigeration spiral copper pipe (3) is positioned in incubator (7)；

The water circle device is made up of immersible pump (11), water inlet pipe (10), heat release spiral copper pipe (9) and outlet pipe (8), described Immersible pump (11) is positioned in breeding barrel, and the outlet of immersible pump (11) connects with the water inlet end of water inlet pipe (10), the heat release spiral shell Rotation copper pipe (9) is positioned in incubator (7), the both ends water side with water inlet pipe (10), the water outlet respectively of heat release spiral copper pipe (9) One end connection of (8) is managed, the other end of outlet pipe (8) is connected to breeding barrel (13)；

The temp probe (2) that described control device includes controller (1), is connected with controller (1), the temp probe (2) It is arranged in breeding barrel (13), the controller (1) is connected with compressor (4).

2. small size pond according to claim 1 cultivates cooling system, it is characterised in that：The controller (1) and immersible pump (11) connect.

3. small size pond according to claim 1 or 2 cultivates cooling system, it is characterised in that：The heat exchanging agent (6) is liquid State heat exchanging agent.

4. small size pond according to claim 3 cultivates cooling system, it is characterised in that：The incubator (7) is closed Container, insulation material is filled between parietal layer.