CN207803104U - Pig house intelligent cooling system - Google Patents

Abstract

The utility model discloses a kind of pig house intelligent cooling system, including solar energy power generating subsystem, monitoring temperature subsystem and it is connected to the solar energy power generating subsystem and external electrical network and the double power supply converting switch for controlling monitoring temperature subsystem power supply；The solar energy power generating subsystem includes solar photovoltaic cell panel, header box and inverter, and the solar photovoltaic cell panel is set on the She Ding of pig house ontology；The monitoring temperature subsystem includes temperature control platform, temperature detection sensor and wet curtain air-cooler, and the temperature control platform is connected with temperature detection sensor, wet curtain air-cooler respectively；The double power supply converting switch is connect with temperature control platform, wet curtain air-cooler, inverter and external electrical network by circuit respectively.Using the utility model, while reducing the pig house electricity charge and labour pays, the constant temperature that pig house can be effectively ensured is maintained at suitable range, the energy saving of system, environmental protection, cleaning, at low cost.

Description

Pig house intelligent cooling system

Technical field

The utility model is related to cooling system more particularly to a kind of pig house intelligent cooling systems.

Background technology

Summer high temperature has pig farm swinery extremely serious harm.The sweat gland of pig is extremely undeveloped, and high temperature seriously affects life The growth of pig and the fertility of boar：Boar semen degradation, fetal death of sow and weak young quantity increase, weanling pig weight It reduces, meanwhile, it is dead that high fever can also cause the diseases such as heatstroke, the high fever syndrome even swinery that takes place frequently, and is caused to pig farm huge Loss.In order to cool down to pig house, many pig farms are mounted with wind turbine or air-conditioning in pig house, but high-power and running for a long time Air-supply or refrigeration system produce high electric cost expenditure, along with non intelligent air-supply or refrigeration system need artificially controlling temperature, Increase human cost, seriously restricts the economic well-being of workers and staff on pig farm.

Utility model content

Technical problem to be solved by the utility model is to provide a kind of pig house intelligent cooling systems, are reducing pig house While the electricity charge and labour pay, the constant temperature that pig house can be effectively ensured is maintained at suitable range, realizes energy saving, ring It protects, cleans, is at low cost.

In order to solve the above-mentioned technical problem, the utility model provides a kind of pig house intelligent cooling system, including solar energy Photovoltaic generation subsystem, monitoring temperature subsystem and it is connected to the solar energy power generating subsystem and external electrical network and use In the double power supply converting switch of control monitoring temperature subsystem power supply, the solar energy power generating subsystem, monitoring temperature System and double power supply converting switch are all set on pig house ontology；

Wherein, the solar energy power generating subsystem includes solar photovoltaic cell panel, header box and inverter, described Solar photovoltaic cell panel is set on the She Ding of pig house ontology；

The monitoring temperature subsystem includes temperature control platform, temperature detection sensor and wet curtain air-cooler, the temperature Degree control platform is connected with temperature detection sensor, wet curtain air-cooler respectively；

The double power supply converting switch passes through with temperature control platform, wet curtain air-cooler, inverter and external electrical network respectively Circuit connects.

As the improvement of said program, the solar energy power generating subsystem includes controller and accumulator group, described Controller is connect with header box, inverter and accumulator group by circuit respectively.

As the improvement of said program, the solar photovoltaic cell panel is mono-crystalline silicon solar photovoltaic battery panel.

It is equipped with air-cooler as the improvement of said program, between the temperature control platform and wet curtain air-cooler and controls relay Device, the double power supply converting switch are connect with air-cooler control relay by circuit.

As the improvement of said program, the temperature control platform includes monitoring device and Temperature-controlled appliance, the temperature Degree detection sensor is connected with monitoring device, and the air-cooler control relay is connected with Temperature-controlled appliance.

As the improvement of said program, the temperature control platform respectively with temperature detection sensor, air-cooler control after Electric appliance is connected by wireless technology.

As the improvement of said program, the air-cooler control relay is connect with wet curtain air-cooler by wireless technology.

As the improvement of said program, the air outlet of the temperature detection sensor and wet curtain air-cooler is each provided at pig house sheet In vivo, the refrigerating part of wet curtain air-cooler is mounted on pig house exterior wall.

As the improvement of said program, the quantity of the solar photovoltaic cell panel is 5-50 blocks.

As the improvement of said program, the quantity of the wet curtain air-cooler is 2-18 platforms.

Implement the utility model, has the advantages that：

The utility model provides a kind of pig house intelligent cooling system, including solar energy power generating subsystem, monitoring temperature Subsystem and it is connected to the solar energy power generating subsystem and external electrical network and for controlling monitoring temperature subsystem electricity The double power supply converting switch in source, the solar energy power generating subsystem, monitoring temperature subsystem and double power supply converting switch are all Set on pig house ontology.By installing solar photovoltaic cell panel in pig house She Ding, it is straight that most sunlight on the one hand can be obstructed It is mapped to pig house, to play heat-blocking action；On the other hand, the illumination heat of solar photovoltaic cell panel absorbable 80% or more, And illumination heat is converted into electric energy, it powers to monitoring temperature subsystem, the electricity charge and the labour's expenditure of pig house can be reduced, reduced Cost.In addition, the controller in solar energy power generating subsystem, can be stored in electric power storage by the electric energy that a part is converted to In the group of pond, when solar irradiation deficiency, accumulator group can provide electricity for monitoring temperature subsystem, realize energy-saving and environmental protection.

Furthermore the utility model is additionally provided with double power supply converting switch.Double power supply converting switch is sent out with photovoltaic respectively Electronic system is connected with external electrical network.When solar energy power generating subsystem normal power supply, double power supply converting switch preferentially selects Select the electricity that solar energy power generating subsystem is provided；When solar energy power generating subsystem is unable to normal power supply, for example, In the case that solar irradiation is insufficient and the not enough power supply of accumulator group, double power supply converting switch will automatically switch to external electrical Net changes and is powered by external electrical network, until solar energy power generating subsystem restores normal power supply, double power supply converting switch just can be certainly It is dynamic to switch to solar energy power generating subsystem.Double power supply converting switch can be in solar energy power generating subsystem and external electrical network Between automatically switch, be effectively ensured to monitoring temperature subsystem continue, stable power-supplying, to ensure house in temperature ring Border, the health for ensureing pig.The utility model not only reduces the electricity charge and the labour's expenditure of pig house, reduces cost, and The constant temperature that pig house can be effectively ensured is maintained at suitable range, accomplishes energy-saving and environmental protection, cleaning, at low cost.

Description of the drawings

Fig. 1 is the structure distribution figure of the pig house intelligent cooling system of the utility model；

Fig. 2 is the fundamental diagram of the pig house intelligent cooling system of the utility model；

Fig. 3 is the structural schematic diagram of temperature control platform in Fig. 1.

Specific implementation mode

It is new to this practicality below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer Type is described in further detail.

Referring to Fig. 1 to 3, the utility model discloses a kind of pig house intelligent cooling system, which includes photovoltaic It power generation sub-system, monitoring temperature subsystem and is connected to the solar energy power generating subsystem and external electrical network 12 and is used for Control the double power supply converting switch 7 of monitoring temperature subsystem power supply, the solar energy power generating subsystem, monitoring temperature subsystem System and double power supply converting switch 7 are all set on pig house ontology 1；

Wherein, the solar energy power generating subsystem includes solar photovoltaic cell panel 2, header box 3 and inverter 6, The solar photovoltaic cell panel 2 is set on the She Ding of pig house ontology 1；

The monitoring temperature subsystem includes temperature control platform 8, temperature detection sensor 9 and wet curtain air-cooler 11, institute Temperature control platform 8 is stated respectively to be connected with temperature detection sensor 9, wet curtain air-cooler 11；

The double power supply converting switch 7 respectively with temperature control platform 8, wet curtain air-cooler 11, inverter 6 and external electrical network 12 are connected by circuit.

Preferably, the solar energy power generating subsystem further includes controller 4 and accumulator group 5, and the controller 4 divides It is not connect by circuit with header box 3, inverter 6 and accumulator group 5.

Solar photovoltaic cell panel is used to the luminous energy of the sun be converted into electric energy.Common solar energy on the market at present Photovoltaic battery panel can be divided into monocrystalline silicon, polysilicon, non-crystal silicon solar cell mainly using silicon materials as substrate.Preferably, described Solar photovoltaic cell panel 2 is mono-crystalline silicon solar photovoltaic battery panel.

Header box 3 is to ensure solar photovoltaic cell panel 2 orderly connection and confluence in solar energy power generating subsystem The termination of function.The identical solar photovoltaic cell panel of certain amount, specification 2 is together in series, composition photovoltaic one by one Then several photovoltaic tandem parallel connections are accessed header box 3 by tandem again, in header box 3 after confluence, pass through controller 4, inversion Device 6 etc. matches, and to constitute complete solar energy power generating subsystem, realizes in parallel with external electrical network 12.

Inverter 6 is that the direct current energy that solar energy power generating plate is converted to is transformed into alternating current.4 full name of controller It is in solar power system, control multichannel solar cell array to fill accumulator for solar charging discharging controller Automatic control equipment of the electric and accumulator to solar inverter load supplying.It is subject to the charge and discharge condition of accumulator Regulation and control, and control solar module and accumulator according to the power supply requirement of load and the electric energy of load is exported, it is whole The core control portions of a photovoltaic power supply system.

The solar photovoltaic cell panel 2 is set on the She Ding of pig house ontology 1.On the one hand, solar photovoltaic cell panel 2 is right She Ding has heat-blocking action, can reduce the temperature in pig house；On the other hand, the solar energy absorbed by solar photovoltaic cell panel 2, It can be converted into electric energy, powered for the monitoring temperature subsystem, realize intelligent cooling.Solar photovoltaic cell panel 2 is absorbable 80% or more solar irradiation heat, this partial heat are gathered on solar photovoltaic cell panel 2, then are preached to pig house by heat The She Ding of ontology 1, compared with direct irradiation of sunlight is in She Ding, the heat that She Ding is obtained wants much less.In addition, heat up dissipates Hair so that the heat for being transmitted to 1 She Ding of pig house ontology is more limited.

When solar irradiation is mapped on the solar photovoltaic cell panel 2 of 1 She Ding of pig house ontology, solar photovoltaic Pond plate 2 converts light energy into electric energy using the photovoltaic effect of monocrystalline silicon in its plate and exports, multigroup mono-crystalline silicon solar photovoltaic cell The square formation output DC current that plate is constituted enters header box 3 and summarizes, and is allocated to electric energy by controller 4.On the one hand it controls A part of electric energy is transferred to accumulator group 5 by device 4, is charged to accumulator group 5, when no solar irradiation, does not generate electricity Can, it can change and be powered to monitoring temperature subsystem by accumulator group 5；Another part electric energy is transferred to inverse by another aspect controller 4 Become device 6, this Partial DC electricity is converted into alternating current identical with 12 frequency of external electrical network by inverter 6, then is cut by dual power supply It changes switch 7 to power to monitoring temperature subsystem, realizes the temperature regulation and control of pig house ontology 1.It should be noted that when needing using storage When electricity in battery pack 5 powers to monitoring temperature subsystem, the electricity in accumulator group 5 is exported to controller 4, then by controlling Device 4 processed exports the electricity of this part to inverter 6, after being converted into alternating current by inverter 6, then is switched by dual power supply and is opened 7 are closed to power to monitoring temperature subsystem.Wherein, double power supply converting switch 7 can equilibrium assignmen solar electric power and external electrical network electricity Power accomplishes preferentially to make full use of solar electric power, while ensureing in 5 electric power deficiency of solar electric power and accumulator group, in time Switch to external electrical network 12.

Double power supply converting switch is exactly to have a power failure to automatically switch to the switch of another power supply for some reason.It is described in the utility model Double power supply converting switch 7 can be automatically performed the switching between solar energy power generating subsystem and external electrical network 12, preferential to select ZQ1-63 type double power supply automatic switching switch.

Preferably, it is equipped with air-cooler between the temperature control platform 8 and wet curtain air-cooler 11 and controls relay 10, it is described Double power supply converting switch 7 is electrically connected with air-cooler control relay 10.Air-cooler controls relay 10 in temperature control platform 8 Under instruction, for controlling being turned on and off for wet curtain air-cooler 11.

Wherein, the temperature control platform 8 includes monitoring device 81 and Temperature-controlled appliance 82, the temperature detection sensing Device 9 is connected with monitoring device 81, and the air-cooler control relay 10 is connected with Temperature-controlled appliance 82.Temperature detection passes For sensor 9 by the observed temperature signal transmission in the pig house ontology 1 detected to monitoring device 81, the reception of monitoring device 81 summarizes this A little signals are simultaneously transferred to Temperature-controlled appliance 82, and the temperature setting range of pig house is stored in Temperature-controlled appliance 82, works as temperature The temperature signal that control device 82 receives is higher than setting range, will start air-cooler and control relay 10, and realize to wet curtain The unlatching of air-cooler；When the temperature signal that Temperature-controlled appliance 82 receives be less than setting range, will control air-cooler control The break-off to wet curtain air-cooler is realized in the closing of relay 10.For example, when temperature detection sensor 9 detects actual measurement temperature When degree is less than or equal to 3 DEG C higher than setting range peak and observed temperature beyond setting peak, Temperature-controlled appliance 82 is sent out Go out instruction, so that air-cooler control relay 10 is started, connect the air blowing function of wet curtain air-cooler 11, realize air-supply cooling.Work as temperature When degree detection sensor 9 detects observed temperature higher than 3 DEG C of setting range peak or more, Temperature-controlled appliance 82 sends out finger It enables, so that air-cooler control relay 10 is started, connect the refrigerating function of wet curtain air-cooler 11, realize refrigeration cool-down.When temperature is examined When survey sensor 9 detects that observed temperature is less than setting range minimum value, Temperature-controlled appliance 82 sends out instruction, makes air-cooler control Relay 10 processed disconnects the operating circuit of wet curtain air-cooler 11, to make wet curtain air-cooler 11 be stopped.

The air outlet of the temperature detection sensor 9 and wet curtain air-cooler 11 is each provided in pig house ontology 1, wet curtain air-cooler Refrigerating part be mounted on pig house exterior wall.Ensure that temperature detection sensor 9 can effectively detect real time temperature in pig house ontology 1, it is wet Curtain air-cooler 11 can be effectively to being blown or being freezed in pig house ontology 1.

Preferably, the temperature control platform 8 passes through with temperature detection sensor 9, air-cooler control relay 10 respectively Wireless technology connects.The air-cooler control relay 10 is connect with wet curtain air-cooler 11 by wireless technology.

Preferably, the quantity of the solar photovoltaic cell panel 2 is 5-50 blocks.More preferably, the solar-energy photo-voltaic cell The quantity of plate 2 is 10-30 blocks.

Preferably, the quantity of the wet curtain air-cooler 11 is 2-18 platforms.More preferably, the quantity of the wet curtain air-cooler 11 is 3-8 platforms.

The above is preferred embodiments of the present invention, it is noted that for the ordinary skill of the art For personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these are improved and profit Decorations are also considered as the scope of protection of the utility model.

Claims (10)

1. a kind of pig house intelligent cooling system, which is characterized in that including solar energy power generating subsystem, monitoring temperature subsystem And it is connected to the solar energy power generating subsystem and external electrical network and pair for controlling monitoring temperature subsystem power supply Power change-over switch, the solar energy power generating subsystem, monitoring temperature subsystem and double power supply converting switch are all set to pig It gives up on ontology；

Wherein, the solar energy power generating subsystem includes solar photovoltaic cell panel, header box and inverter, the sun Energy photovoltaic battery panel is set on the She Ding of pig house ontology；

The monitoring temperature subsystem includes temperature control platform, temperature detection sensor and wet curtain air-cooler, the temperature control Platform processed is connected with temperature detection sensor, wet curtain air-cooler respectively；

The double power supply converting switch passes through circuit with temperature control platform, wet curtain air-cooler, inverter and external electrical network respectively Connection.

2. pig house intelligent cooling system as described in claim 1, which is characterized in that the solar energy power generating subsystem packet Controller and accumulator group are included, the controller is connect with header box, inverter and accumulator group by circuit respectively.

3. pig house intelligent cooling system as described in claim 1, which is characterized in that the solar photovoltaic cell panel is monocrystalline Silicon solar photovoltaic battery panel.

4. pig house intelligent cooling system as described in claim 1, which is characterized in that the temperature control platform and wet curtain cold wind It is equipped with air-cooler between machine and controls relay, the double power supply converting switch is connect with air-cooler control relay by circuit.

5. pig house intelligent cooling system as claimed in claim 4, which is characterized in that the temperature control platform includes that monitoring is set Standby and Temperature-controlled appliance, the temperature detection sensor are connected with monitoring device, the air-cooler control relay and temperature Degree control device is connected.

6. pig house intelligent cooling system as claimed in claim 4, which is characterized in that the temperature control platform respectively with temperature Detection sensor, air-cooler control relay are connected by wireless technology.

7. pig house intelligent cooling system as claimed in claim 4, which is characterized in that the air-cooler control relay and wet curtain Air-cooler is connected by wireless technology.

8. pig house intelligent cooling system as described in claim 1, which is characterized in that the temperature detection sensor and wet curtain are cold The air outlet of wind turbine is each provided in pig house ontology, and the refrigerating part of wet curtain air-cooler is mounted on pig house exterior wall.

9. pig house intelligent cooling system as described in claim 1, which is characterized in that the quantity of the solar photovoltaic cell panel For 5-50 blocks.

10. pig house intelligent cooling system as described in claim 1, which is characterized in that the quantity of the wet curtain air-cooler is 2- 18.