CN209359161U - A kind of energy conservation greenhouse constant temperature system - Google Patents

Abstract

The utility model discloses a kind of energy saving greenhouse constant temperature systems, it will be connected to inside greenhouse with heat pump unit internal body and form circulating air duct, when heat pump unit is in heating operation, hot-air in greenhouse enters heat pump unit by the first air inlet, and cooling is carried out to the hot-air by the second heat exchanger and forms cold wind, it is returned in greenhouse under the action of blower fan module；When heat pump unit is in refrigerating operaton, the cold air in greenhouse enters heat pump unit by the first air inlet, and carries out heat temperature raising to the cold air by the second heat exchanger and form hot wind, returns in greenhouse under the action of blower fan module；The setting for also passing through heating water route simultaneously, the hot water on water tower top is sent into the heating heat-exchange pipe for being layed in plantation basin bottom part and carries out radiation heat transfer, realizes that the bottom to planting pot heats.As it can be seen that the utility model can satisfy the constant temperature demand of greenhouse internal refrigeration storage and heating, efficiency is high and energy-saving effect is obvious, while can guarantee that heat pump unit operates normally.

Description

A kind of energy conservation greenhouse constant temperature system

Technical field

The utility model belongs to greenhouse constant temperature technology field, more specifically to a kind of energy saving greenhouse constant temperature system.

Background technique

Previous greenhouse constant temperature system generallys use gas fired-boiler heating, is then carried out by the radiant tube that greenhouse is laid with up and down Upper and lower radiant heating, but this thermostatic mode needs the big temperature difference because of radiation heat transfer, just there will necessarily be temperature difference in greenhouse, thus nothing Method guarantees that the heat supply temperature in greenhouse is uniform, affects constant temperature effect, and heated with gas fired-boiler, it is not energy-efficient that energy consumption is high.

Utility model content

Technical problem to be solved in the utility model is to provide for a kind of energy saving greenhouse constant temperature system, can satisfy greenhouse Internal constant temperature demand, efficiency is high and energy-saving effect is obvious, while can guarantee that heat pump unit operates normally.

In order to solve the above-mentioned technical problem, the utility model provides a kind of energy saving greenhouse constant temperature system, including greenhouse, heat The outside of the greenhouse, the heat pump unit is arranged in pump assembly, water tower, unit water route and heating water route, the heat pump unit Equipped with the first air outlet and the first air inlet, first air inlet is equipped with the first air inlet valve, and first air outlet is equipped with the One outlet valve, first air outlet are connected to by blast pipe with the inside of the greenhouse, and first air inlet passes through return air Pipe is connected to the inside of the greenhouse；The unit water route includes the first water inlet pipe and the first outlet pipe, first water inlet pipe One end be connected to the bottom of the water tower, the water inlet of the other end of first water inlet pipe and the First Heat Exchanger connects Logical, one end of first outlet pipe is connected to the bottom of the water tower, the other end of first outlet pipe and described first The water outlet of heat exchanger is connected to, and first water inlet pipe or first outlet pipe are equipped with the first water pump；At the bottom of planting pot Portion is provided with heating heat-exchange pipe, and the heating water route includes the second water inlet pipe and the second outlet pipe, and the one of second water inlet pipe End is connected to the top of the water tower, and the other end of second water inlet pipe is connected to the water inlet of the heating heat-exchange pipe, institute The one end for stating the second outlet pipe is connected to the bottom of the water tower, the other end of second outlet pipe and the heating heat-exchange pipe Water outlet connection, second water inlet pipe or second outlet pipe are equipped with the second water pump.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, the unit water route further include third water inlet Pipe, first water inlet pipe are equipped with the first threeway ratio adjusting valve, one end of the third water inlet pipe and first threeway Ratio adjusting valve connection, the other end of the third water inlet pipe are connected to the top of the water tower, the first threeway ratio tune The water outlet of section valve is connected to the negative pressure side of first water pump.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, second water inlet pipe are equipped with the two or three Logical ratio adjusting valve, second water inlet pipe are connected to by the second threeway ratio adjusting valve with second outlet pipe, institute The water outlet for stating the second threeway ratio adjusting valve is connected to the negative pressure side of second water pump.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, the heat pump unit are equipped with compressor, the The body inner cavity of the heat pump unit is separated into outlet air by one heat exchanger, the second heat exchanger and blower fan module, the blower fan module Two parts up and down of chamber and air-inlet cavity, the suction side of the blower fan module are connected to the air-inlet cavity, and the blower fan module is just Pressure side is connected to the air-out chamber, and the compressor, the First Heat Exchanger and second heat exchanger are fixedly mounted on institute State in air-inlet cavity, second heat exchanger close to the blower fan module suction side, the air-inlet cavity be equipped with and the greenhouse First air inlet of inside connection, first air inlet are located at the lower section of second heat exchanger, and the air-out chamber is set There is first air outlet being connected to the inside of the greenhouse, first air inlet is equipped with the first air inlet valve, and described first Air outlet is equipped with the first outlet valve.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, the air-inlet cavity is equipped with to be connected with outside air The second logical air inlet, second air inlet are located at the lower section of second heat exchanger, and the air-out chamber is equipped with and external world's sky Second air outlet of gas connection, second air inlet are equipped with the second air inlet valve, and second air outlet is equipped with the second outlet valve.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, the greenhouse are internally provided with jet stream wind The top of greenhouse is arranged in machine, the jet blower, for pushing the air in greenhouse to flow.Energy conservation as the utility model The preferred embodiment of greenhouse constant temperature system, the water tower are equipped with insulating layer.

The preferred embodiment of energy saving greenhouse constant temperature system as the utility model, the greenhouse is equipped at least one, each The heat pump unit is respectively configured in the greenhouse.

Implement a kind of energy saving greenhouse constant temperature system of the utility model, compared with prior art, has following beneficial to effect Fruit:

(1) compressor, First Heat Exchanger, the second heat exchanger and blower fan module are set in body by the utility model Portion by the setting of the first air inlet and the first air outlet makes that circulating air duct is connected to and formed with internal body inside greenhouse, when When heat pump unit is in heating operation, the hot-air in greenhouse enters heat pump unit by the first air inlet, and by the second heat exchange Device carries out cooling to the hot-air and forms cold wind, returns in greenhouse under the action of blower fan module and jet blower, Jin Erda To the purpose of refrigeration；When heat pump unit is in refrigerating operaton, the cold air in greenhouse enters heat pump machine by the first air inlet Group, and heat temperature raising is carried out to the cold air by the second heat exchanger and forms hot wind, under the action of blower fan module and jet blower It returns in greenhouse, and then achievees the purpose that heating；As it can be seen that the utility model can satisfy refrigeration inside greenhouse and heating Demand, and then realize the demand of greenhouse constant temperature；Efficiency is high and energy-saving effect is obvious；And setting due to water tower and unit water route It sets, so that heat pump unit operation Shi Nengyu First Heat Exchanger generates preferable heat transfer effect, guarantees that heat pump unit operates normally.

(2) the utility model is by the setting in heating water route, and the hot water on water tower top is sent to being layed in plantation basin bottom part Heating heat-exchange pipe in carry out radiation heat transfer, realize that the bottom to planting pot heats, and ensures the soil moisture, exports with heat pump unit Hot-air form comprehensive greenhouse effects, temperature is uniform, improves constant temperature effect.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, the attached drawing of embodiment will be made below simple Ground introduction.

Fig. 1 is a kind of structural schematic diagram of energy saving greenhouse constant temperature system provided by the utility model；

Fig. 2 is the structural schematic diagram of heat pump unit.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

As depicted in figs. 1 and 2, the preferred embodiment of a kind of energy saving greenhouse constant temperature system provided by the utility model, including Greenhouse 1, heat pump unit 2, water tower 3, unit water route 4 and heating water route 5.

The outside of the greenhouse 1 is arranged in the heat pump unit 2, and the heat pump unit 2 exchanges heat equipped with compressor 6, first Device 7, the second heat exchanger 8, blower fan module 9, the first air outlet 10 and the first air inlet 11, specifically, the blower fan module 9 is by institute The inner cavity for stating heat pump unit 2 is separated into two parts up and down of air-out chamber 24 and air-inlet cavity 25, the suction side of the blower fan module 9 with The air-inlet cavity 25 is connected to, and the positive pressure side of the blower fan module 9 is connected to the air-out chamber 24, the compressor 6, described first Heat exchanger 7 and second heat exchanger 8 are fixedly mounted in the air-inlet cavity 25, and second heat exchanger 8 is close to the wind The suction side of machine module 9, the air-inlet cavity 25 are equipped with first air inlet 11, and first air inlet 11 is located at described second The lower section of heat exchanger 8, first air inlet 11 are connected to by backwind tube 13 with the inside of the greenhouse 1；The air-out chamber 24 Equipped with first air outlet 10, first air outlet 10 is connected to by blast pipe 12 with the inside of the greenhouse 1, and described the One air inlet 11 is equipped with the first air inlet valve 26, and first air outlet 10 is equipped with the first outlet valve 27.

The unit water route 4 include the first water inlet pipe 14 and the first outlet pipe 15, one end of first water inlet pipe 14 with The bottom of the water tower 3 is connected to, and the other end of first water inlet pipe 14 is connected to the water inlet of the First Heat Exchanger 7, institute The one end for stating the first outlet pipe 15 is connected to the bottom of the water tower 3, the other end and described first of first water outlet, 15 pipes The water outlet of heat exchanger 7 is connected to, and first water inlet pipe 14 or first outlet pipe 15 are equipped with the first water pump 16.

The heating water route 5 includes the second water inlet pipe 17 and the second outlet pipe 18, obtains bottom in planting pot and is provided with heating Heat exchanger tube 32, one end of second water inlet pipe 17 are connected to the top of the water tower 3, the other end of second water inlet pipe 17 It is connected to the water inlet of the heating heat-exchange pipe 32, one end of second outlet pipe 18 is connected to the bottom of the water tower 3, institute The other end for stating the second outlet pipe 18 is connected to the water outlet of the heating heat-exchange pipe 32, second water inlet pipe 17 or described Two outlet pipes 18 are equipped with the second water pump 19.

A kind of energy saving greenhouse constant temperature system provided by the utility model as a result, by compressor 6, First Heat Exchanger 7, second Heat exchanger 8 and blower fan module 9 are set to the inside of body, by the setting of the first air inlet 11 and the first air outlet 10, make big 1 inside of canopy is connected to internal body and is formed circulating air duct, the hot-air when heat pump unit is in heating operation, in greenhouse 1 Enter heat pump unit 2 (i.e. air-inlet cavity 25) by the first air inlet 11, and cooling shape is carried out to the hot-air by the second heat exchanger 8 It at cold wind, is returned in greenhouse 1 under the action of blower fan module 9, and then achievees the purpose that refrigeration；When heat pump unit is in refrigeration When operation, the cold air in greenhouse 1 enters heat pump unit 2 (i.e. air-inlet cavity 25) by the first air inlet 11, and by the second heat exchange Device 8 carries out heat temperature raising to the cold air and forms hot wind, returns in greenhouse 1 under the action of blower fan module 9, and then reach system The purpose of heat；As it can be seen that the utility model can satisfy the refrigeration inside greenhouse and the demand of heating, and then realize greenhouse constant temperature Demand；Efficiency is high and energy-saving effect is obvious.

It should also be noted that, enabling heat pump unit 2 when running with first due to the setting of water tower 3 and unit water route 4 Heat exchanger 7 generates preferable heat transfer effect, guarantees that heat pump unit operates normally；It, can be by water again due to the setting in heating water route 5 The hot water on 3 top of tower, which is sent into the heating heat-exchange pipe 32 for being layed in plantation basin bottom part, carries out radiation heat transfer, realizes to planting pot Bottom heating, ensures the soil moisture, forms comprehensive greenhouse effects with the hot-air of heat pump unit output, temperature is uniform, is promoted Constant temperature effect.

Illustratively, the unit water route 4 further includes third water inlet pipe 21, and first water inlet pipe 14 is equipped with the one or three Logical ratio adjusting valve 22, one end of the third water inlet pipe 21 are connected to the first threeway ratio adjusting valve 22, the third The other end of water inlet pipe 21 is connected to the top of the water tower 3, the water outlet of the first threeway ratio adjusting valve 22 with it is described The negative pressure side of first water pump 16 is connected to.The setting of the first threeway ratio adjusting valve 22 can make the top heat of the water tower 3 as a result, The lower part cold water mix of water and the water tower 3, when temperature mixing to be suitable for the heat pump unit 2 evaporate temperature when just pass through institute The inside for stating the first threeway ratio adjusting valve 22 into the First Heat Exchanger 7 exchanges heat, this ensure that heat pump unit Safe operation.

Illustratively, second water inlet pipe 17 is equipped with the second threeway ratio adjusting valve 23, second water inlet pipe 17 It is connected to by the second threeway ratio adjusting valve 23 with second outlet pipe 18, the second threeway ratio adjusting valve 23 Water outlet is connected to the negative pressure side of second water pump 19.The setting of the second threeway ratio adjusting valve 23 can make water tower 3 as a result, Top hot water mixed with the cold water (water to exchange heat by heating heat-exchange pipe 32) in the second outlet pipe 18, when temperature is mixed Just pass through when closing the temperature of suitable planting basin bottom part the second threeway ratio adjusting valve 23 enter heating heat-exchange pipe 32 inside into Row heat exchange, more makes full use of the heat of water tower, realizes the energy-efficient operation of constant-temperature heat pump unit.

Illustratively, the air-inlet cavity 25 is equipped with the second air inlet 28 being connected to outside air, second air inlet 28 are located at the lower section of second heat exchanger 8, and the air-out chamber 24 is equipped with the second air outlet 29 being connected to outside air, described Second air inlet 28 is equipped with the second air inlet valve 30, and second air outlet 29 is equipped with the second outlet valve 31.The utility model as a result, By the setting of the second air inlet 28 and the second air outlet 29, it is connected to outside air with internal body and forms circulating air duct, After the air in greenhouse 1 realizes constant temperature, and when 3 heat storage capacity deficiency of water tower, water tower accumulation of heat mode is opened, at heat pump unit In heating operation, the second air inlet valve 30 and the second outlet valve 31 are opened, closes the first air inlet valve 26 and the first outlet valve 27, fresh air Enter air-inlet cavity 25 by the second air inlet 28, fresh air passes through the second air outlet after providing heat to the evaporation of the second heat exchanger 8 29 blowouts, the condensation of First Heat Exchanger 7 distribute heat, and the cold water in water tower 3 enters First Heat Exchanger 7 by the first water inlet pipe 14 Inside after cold water exchanges heat and is heated to be hot water, enters water tower 3,3 accumulation of heat of standpipe, to make water by the first outlet pipe 15 The temperature of the water of tower is maintained in the range of setting, realizes the energy-efficient operation of constant-temperature heat pump unit；When especially in winter, heat Pump assembly is in refrigerating operaton, and the heat that First Heat Exchanger 7 need to absorb water in water tower 3 is evaporated, and therefore, opens water tower accumulation of heat Mode can ensure that heat pump unit can operate normally at low ambient temperatures.

Illustratively, for excessive, the water tower 3 that guarantees that the temperature of the water in water tower is not influenced by outside air temperature Equipped with insulating layer.

Illustratively, the greenhouse 1 is internally provided with jet blower 20, and greenhouse 1 is arranged in the jet blower 20 Top has pushed the air in greenhouse to flow, in combination with heat pump unit because jet blower itself is dried the remote characteristic of stroke Return air exhausting ensure that thermostat temperature is uniform in greenhouse, improves constant temperature effect to make to form microconvection in greenhouse.

Illustratively, the greenhouse 1 is equipped at least one, and the heat pump unit is respectively configured in each greenhouse 1 2, so that each greenhouse is able to achieve constant temperature.In the present embodiment, there are two greenhouse 1 is set, the heat pump unit 2 also is provided with two.

Implement a kind of energy saving greenhouse constant temperature system provided by the utility model, including mode control as follows:

When heating to greenhouse inside: heat pump unit is in refrigerating operaton, and first air inlet is opened in controller control Valve 26 and first outlet valve 27 close second air inlet valve 30 and second outlet valve 31, the cold sky of the greenhouse 1 Gas enters heat pump unit (i.e. air-inlet cavity 25) by first air inlet 10 by backwind tube 13, and the First Heat Exchanger 7 is logical Cross and absorb the heat of water in the water tower 3 and be evaporated, the condensation of the second heat exchanger 8 distribute heat and with enter heat pump unit The cold air of (i.e. air-inlet cavity 25) exchanges heat, after cold air is heated to be hot-air, by the blower fan module 9 through described One air outlet 10 and blast pipe 12 are uniformly conveyed to 1 heat of greenhouse after entering in jet blower 20, meanwhile, the water tower 3 Top hot water under the traction of second water pump 19, by second water inlet pipe 17 enter the heating heat-exchange pipe 32 in Radiation heat transfer is carried out, realizes that the bottom to planting pot heats, after the air in the greenhouse 1 reaches heating target temperature, stops Only heat pump unit is run.

When freezing to greenhouse inside: heat pump unit is in heating operation, and first air inlet is opened in controller control Valve 26 and first outlet valve 27, close second air inlet valve 30 and second outlet valve 31, and the heat of the greenhouse 1 is empty Gas enters heat pump unit (i.e. air-inlet cavity 25) by first air inlet 11 by backwind tube 13, and the First Heat Exchanger 7 is cold Heat is transmitted to 3 accumulation of heat of water tower by solidifying heat dissipation, and second heat exchanger 8 is by being absorbed into heat pump unit (i.e. air-inlet cavity 25) Hot-air in heat be evaporated, hot-air be absorbed heat cooling be cold air after, cold air passes through the blower fan module 9 It is uniformly conveyed to the greenhouse 1 after first air outlet 10 and blast pipe 12 enter in jet blower 20 to cool down, when described After air in greenhouse 1 reaches refrigeration target temperature, stop heat pump unit operation.

When heating to greenhouse inside, the top hot water of the water tower 3 can pass through the first threeway ratio adjusting valve 22 with the lower part cold water mix of the water tower 3, just pass through institute when it is suitable for the temperature of the evaporation of heat pump unit 2 that temperature mixing, which arrives, The inside for stating the first threeway ratio adjusting valve 22 into the First Heat Exchanger 7 exchanges heat.

When heating to greenhouse inside, the top hot water of the water tower 3 can pass through the second threeway ratio adjusting valve 23 are mixed with the cold water in second outlet pipe 18, are just passed through when temperature of the temperature mixing to suitable planting basin bottom part The inside that the second threeway ratio adjusting valve 23 enters the heating heat-exchange pipe 32 exchanges heat.

After the air in greenhouse realizes constant temperature, and when the shortage of heat of the heating heat-exchange pipe 32 or the water tower 3 When heat storage capacity deficiency, water tower accumulation of heat mode is opened, heat pump unit is in heating operation, opens second air inlet valve 30 and institute State the second outlet valve 31, close first air inlet valve 26 and the first outlet valve 27, fresh air by second air inlet 28 into Entering the air-inlet cavity 25, fresh air passes through second air outlet 29 blowout after providing heat to the evaporation of second heat exchanger 8, The condensation of First Heat Exchanger 7 distributes heat, and the cold water in the water tower 3 enters described first by first water inlet pipe 14 The inside of heat exchanger 7 after cold water exchanges heat and is heated to be hot water, enters the water tower 3 to institute by first outlet pipe 15 State 3 accumulation of heat of water tower.

Above disclosed is only the preferred embodiment of the utility model, certainly cannot be practical new to limit this with this The interest field of type, therefore equivalent variations made according to the patent scope of the utility model still belong to the utility model and are covered Range.

Claims (8)

1. a kind of energy conservation greenhouse constant temperature system, which is characterized in that including greenhouse, heat pump unit, water tower, unit water route and heating water The outside of the greenhouse is arranged in road, the heat pump unit, and the heat pump unit is equipped with the first air outlet and the first air inlet, institute It states the first air outlet to be connected to by blast pipe with the inside of the greenhouse, first air inlet passes through backwind tube and the greenhouse Inside connection；The unit water route include the first water inlet pipe and the first outlet pipe, one end of first water inlet pipe with it is described The bottom of water tower is connected to, and the other end of first water inlet pipe is connected to the water inlet of the First Heat Exchanger, and described first goes out One end of water pipe is connected to the bottom of the water tower, the other end of first outlet pipe and the water outlet of the First Heat Exchanger Connection, first water inlet pipe or first outlet pipe are equipped with the first water pump；The bottom of planting pot is provided with heating to change Heat pipe, the heating water route include the second water inlet pipe and the second outlet pipe, one end and the water tower of second water inlet pipe Top connection, the other end of second water inlet pipe are connected to the water inlet of the heating heat-exchange pipe, second outlet pipe One end is connected to the bottom of the water tower, and the other end of second outlet pipe is connected to the water outlet of the heating heat-exchange pipe, Second water inlet pipe or second outlet pipe are equipped with the second water pump.

2. energy conservation greenhouse constant temperature system as described in claim 1, which is characterized in that the unit water route further includes third water inlet Pipe, first water inlet pipe are equipped with the first threeway ratio adjusting valve, one end of the third water inlet pipe and first threeway Ratio adjusting valve connection, the other end of the third water inlet pipe are connected to the top of the water tower, the first threeway ratio tune The water outlet of section valve is connected to the negative pressure side of first water pump.

3. energy conservation greenhouse constant temperature system as described in claim 1, which is characterized in that second water inlet pipe is equipped with the two or three Logical ratio adjusting valve, second water inlet pipe are connected to by the second threeway ratio adjusting valve with second outlet pipe, institute The water outlet for stating the second threeway ratio adjusting valve is connected to the negative pressure side of second water pump.

4. energy conservation greenhouse constant temperature system as described in claim 1, which is characterized in that the heat pump unit is equipped with compressor, the The body inner cavity of the heat pump unit is separated into outlet air by one heat exchanger, the second heat exchanger and blower fan module, the blower fan module Two parts up and down of chamber and air-inlet cavity, the suction side of the blower fan module are connected to the air-inlet cavity, and the blower fan module is just Pressure side is connected to the air-out chamber, and the compressor, the First Heat Exchanger and second heat exchanger are fixedly mounted on institute State in air-inlet cavity, second heat exchanger close to the blower fan module suction side, the air-inlet cavity be equipped with and the greenhouse First air inlet of inside connection, first air inlet are located at the lower section of second heat exchanger, and the air-out chamber is set There is first air outlet being connected to the inside of the greenhouse, first air inlet is equipped with the first air inlet valve, and described first Air outlet is equipped with the first outlet valve.

5. energy conservation greenhouse constant temperature system as claimed in claim 4, which is characterized in that the air-inlet cavity is equipped with to be connected with outside air The second logical air inlet, second air inlet are located at the lower section of second heat exchanger, and the air-out chamber is equipped with and external world's sky Second air outlet of gas connection, second air inlet are equipped with the second air inlet valve, and second air outlet is equipped with the second outlet valve.

6. energy conservation greenhouse constant temperature system as described in claim 1, which is characterized in that the greenhouse is internally provided with jet stream wind The top of greenhouse is arranged in machine, the jet blower, for pushing the air in greenhouse to flow.

7. energy conservation greenhouse constant temperature system as described in claim 1, which is characterized in that the water tower is equipped with insulating layer.

8. energy conservation greenhouse constant temperature system as described in any one of claim 1 to 7, which is characterized in that the greenhouse is equipped at least One, the heat pump unit is respectively configured in each greenhouse.