CN207622136U - A kind of edible mushroom greenhouse central processing structure - Google Patents

Abstract

A kind of edible mushroom greenhouse central processing structure includes for adjusting environment in greenhouse：Temperature and humidity adjustment mechanism and air quantity adjusting mechanism, temperature and humidity adjustment mechanism include thermostat unit and humidity adjustment unit；It is equipped with compressor, water-side heat, finned heat exchanger, gas-liquid separator and four-way valve in thermostat unit；It is equipped with humidifier in humidity adjustment unit；Four valve ports of four-way valve are respectively connected to the air inlet of the gas outlet of compressor, the air inlet of water-side heat, the gas outlet of finned heat exchanger and gas-liquid separator by pipeline；The gas outlet pipeline of gas-liquid separator is connected to the air inlet of compressor；The gas outlet pipeline of water-side heat is connected to the air inlet of finned heat exchanger.A kind of edible mushroom greenhouse central processing structure of the utility model provides whole control environment, to ensure the quality of edible mushroom, it can be achieved that the heating of edible mushroom greenhouse, cooling, ventilation, damping and insecticidal function for the growth course of edible mushroom.

Description

A kind of edible mushroom greenhouse central processing structure

Technical field

The utility model belongs to plant growth environment and adjusts field, and in particular to a kind of edible mushroom greenhouse central processing knot Structure.

Background technology

Edible mushroom greenhouse cultivation is the traditional plantation project in China, and now domestic, external market demand is very big, has become The main project earned foreign exchange for China's Agricultural Export.The method handled now greenhouse-environment space is mainly summer cascade Cool down.But when environment temperature is higher, such method is not achieved the ambient temperature range of edible fungi growth demand, therefore Hot summer, many planting edible mushroom family selections stop plantation to the phenomenon of edible mushroom supply of material shortage in the market occur.And Winter carries out heating system using coal stove, this is that the environmental protection policy big with country is away from each other, while coal furnace direct-burning heating easily produces Raw poisonous metal and sulfur dioxide generate more serious influence to edible mushroom meeting quality.If heated up with electrical heating, unit Operating cost can be very high, and power load is also very big.Carbon dioxide is controlled, is drawn by manual start-stop exhaust blower Gas concentration lwevel adjustment is carried out into fresh air, this sample loading mode controls freeing to gas concentration lwevel, cannot reach and accurately control Purpose.Wet-bulb temperature control is then that the experience according to master worker manually carries out humidification process according to indoor wet-bulb temperature.

Application No. is：201310165566.5 utility model application, disclose that " a kind of multifunctional indoor air quality changes Good device ", including shell are provided with air intake vent and air outlet on shell, and connection air intake vent and air outlet are provided in shell A wind turbine is arranged on air duct in air duct, and sterilization chamber, oxygenerator, ozone generator, anion are additionally provided in the shell and is occurred Device, humidistat and detecting and controlling system.

Utility model content

In order to solve the above problem, realize that one kind can heat edible mushroom greenhouse, cool down, divulge information, damping and having both is killed The system equipment of worm function, the utility model provide a kind of edible mushroom greenhouse central processing structure, and technical solution is specific It is as follows：

A kind of edible mushroom greenhouse central processing structure, for adjusting environment in greenhouse, it is characterised in that include：It is warm and humid Regulating mechanism and air quantity adjusting mechanism are spent,

The temperature and humidity adjustment mechanism includes thermostat unit and humidity adjustment unit；

It is equipped with compressor (1), water-side heat (2), finned heat exchanger (3), gas-liquid point in the thermostat unit From device (4) and four-way valve (5)；

It is equipped with humidifier (6) in the humidity adjustment unit；

Four valve ports of the four-way valve are respectively connected to the gas outlet of compressor, the air inlet of water-side heat by pipeline The air inlet of mouth, the gas outlet of finned heat exchanger and gas-liquid separator；

The gas outlet pipeline of the gas-liquid separator is connected to the air inlet of compressor；

The gas outlet pipeline of the water-side heat is connected to the air inlet of finned heat exchanger；

The finned heat exchanger is for providing temperature required in greenhouse；

The humidifier is for providing humidity required in greenhouse.

A kind of edible mushroom greenhouse central processing structure according to the present utility model, it is characterised in that：

Further include having ventilating mechanisms, the ventilating mechanisms are formed and carried out to greenhouse via the air inlet of finned heat exchanger The circulation air path of air-supply and air draft；Include air supply pipeline, turbulent heat regenerator (7), interior circulating fan (8) and water meter cooler (9)；

The air supply pipeline is connected to the air inlet of turbulent heat regenerator, include be connected to turbulent heat regenerator fresh air into The fresh air air inlet pipeline in air port；

Electric air valve (10) is equipped on the fresh air air inlet pipeline；

The air outlet of turbulent heat regenerator is connected in two-way pipeline, and pipeline is arranged via exhaust blower to air, another way all the way Pipeline is connected to the air inlet of interior circulating fan；

The air outlet of interior circulating fan is connected to the air inlet of finned heat exchanger via water meter cooler；

The air outlet of finned heat exchanger is connected to greenhouse through air port via humidifier；

Greenhouse air outlet is connected in two-way pipeline, and pipeline leads to the air inlet of interior circulating fan all the way, with turbulent recuperation of heat The pipeline that the air outlet of device leads to interior circulating fan air inlet is in parallel laying；Another way pipeline leads to turbulent heat regenerator It is heat-treated air inlet.

A kind of edible mushroom greenhouse central processing structure according to the present utility model, it is characterised in that：

The water inlet of the water-side heat and the water inlet of water meter cooler by a three-way control valve (11) be connected into Water lines.

A kind of edible mushroom greenhouse central processing structure according to the present utility model, it is characterised in that：

Filtering, desinsection mechanism are added in the air inlet of finned heat exchanger.

A kind of edible mushroom greenhouse central processing structure according to the present utility model is peculiar to be：

Stainless steel water-collecting tray is set immediately below finned heat exchanger,

It is equipped with water tank (12) in the humidifier side,

The stainless steel water-collecting tray by piping connection to water tank,

The water tank is for providing humidifier humidifies water.

A kind of edible mushroom greenhouse central processing structure according to the present utility model, it is characterised in that：

The finned heat exchanger is made of surge anti-corrosion material, and the end plate of the finned heat exchanger is by full aluminium material system At.

A kind of edible mushroom greenhouse central processing structure of the utility model,

First by via the compressor of four-way valve member, water-side heat, finned heat exchanger and gas-liquid separator machine Structure realizes that canopy temperature is adjusted；

Secondly, it by using turbulent heat recovery technology, is changed turbulent flow is carried out with fresh air by the air being discharged out of greenhouse Heat carries out pre-heater or pre-cooler to fresh air, carries out heat transfer recycling, so as to be effectively prevented from the loss of cooling and heating load, reaches To energy-efficient purpose.Fresh air after turbulent-flow heat-exchanging also passes through finned heat exchanger and carries out heat exchange, can prevent logical fresh air When, fresh air is introduced directly into greenhouse, uneven to canopy temperature occur, subregion temperature and canopy temperature difference The phenomenon that, ensure that canopy temperature is uniform constant, not will produce larger fluctuation；

Again, using the pre- refrigeration technique of water meter cooler, the cold in underground water, which is fully recovered to, to be needed in fresh air, and reduction is new The inlet air temperature of wind reaches the load for being effectively reduced refrigeration.In transition season, need not can open only using this technology Compressor can achieve the purpose that, to greenhouse constant temperature, product is efficient, energy saving；Meanwhile using underground water as conversion heat source, and Air-source compares, and in refrigeration, underground water is lower than air themperature, the refrigerating capacity bigger of such product, the efficiency higher of refrigeration. On the contrary, when heating, ground water temperature is higher than environment temperature, and the heat of heating also bigger, energy-saving effect is also more preferable, while will not also go out The phenomenon that showing the phenomenon that air-source fin frosting performance declines, defrosting effectively avoided canopy temperature to be caused to decline；

Then, in cooling in summer, air has a large amount of high-grade moisture and is condensed down when passing through finned heat exchanger Come, by having installed stainless steel water-collecting tray additional below finned heat exchanger, during the water condensed is collected in water tank, in case plus Wet device uses, and saves water resource；

Finally, filtering, insect-killing device have been installed additional in the air inlet of finned heat exchanger, the air in greenhouse can have been carried out net Change, while the various insects destroyed to edible mushroom can be killed, and finned heat exchanger uses surge anti-corrosion material, end plate to adopt With full aluminium material, it can be effectively prevented corrosion of the greenhouse-environment to fin of high humidity in this way.

A kind of edible mushroom greenhouse central processing structure of the utility model, with the above arrangement, realizing big to edible mushroom Heating, cooling, ventilation, damping and the insecticidal function of canopy provide whole control environment, to protect for the growth course of edible mushroom Demonstrate,prove the quality of edible mushroom.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model.

In figure, 1 is compressor；2 be water-side heat；3 be finned heat exchanger；4 be gas-liquid separator；5 be four-way valve； 6 be humidifier；7 be turbulent heat regenerator；8 be interior circulating fan；9 be water meter cooler；10 be Electric air valve；11 be threeway tune Save valve；12 be water tank.

Specific implementation mode

In the following, according to specification drawings and specific embodiments to a kind of edible mushroom greenhouse centre of the utility model Reason structure is further described in detail.

A kind of edible mushroom greenhouse central processing structure as shown in Figure 1 includes for adjusting environment in greenhouse：Temperature Humidity regulation mechanism and air quantity adjusting mechanism,

The temperature and humidity adjustment mechanism includes thermostat unit and humidity adjustment unit；

It is equipped with compressor (1), water-side heat (2), finned heat exchanger (3), gas-liquid point in the thermostat unit From device (4) and four-way valve (5)；

It is equipped with humidifier (6) in the humidity adjustment unit；

Four valve ports of the four-way valve are respectively connected to the gas outlet of compressor, the air inlet of water-side heat by pipeline The air inlet of mouth, the gas outlet of finned heat exchanger and gas-liquid separator；

The gas outlet pipeline of the gas-liquid separator is connected to the air inlet of compressor；

The gas outlet pipeline of the water-side heat is connected to the air inlet of finned heat exchanger；

The finned heat exchanger is for providing temperature required in greenhouse；

The humidifier is for providing humidity required in greenhouse.

Wherein,

Further include having ventilating mechanisms, the ventilating mechanisms are formed and carried out to greenhouse via the air inlet of finned heat exchanger The circulation air path of air-supply and air draft；Include air supply pipeline, turbulent heat regenerator (7), interior circulating fan (8) and water meter cooler (9)；

The air supply pipeline is connected to the air inlet of turbulent heat regenerator, include be connected to turbulent heat regenerator fresh air into The fresh air air inlet pipeline in air port；

Electric air valve (10) is equipped on the fresh air air inlet pipeline；

The air outlet of turbulent heat regenerator is connected in two-way pipeline, and pipeline is arranged via exhaust blower to air, another way all the way Pipeline is connected to the air inlet of interior circulating fan；

The air outlet of interior circulating fan is connected to the air inlet of finned heat exchanger via water meter cooler；

The air outlet of finned heat exchanger is connected to greenhouse through air port via humidifier；

Greenhouse air outlet is connected in two-way pipeline, and pipeline leads to the air inlet of interior circulating fan all the way, with turbulent recuperation of heat The pipeline that the air outlet of device leads to interior circulating fan air inlet is in parallel laying；Another way pipeline leads to turbulent heat regenerator It is heat-treated air inlet.

Wherein,

The water inlet of the water-side heat and the water inlet of water meter cooler by a three-way control valve (11) be connected into Water lines.

Wherein,

Filtering, desinsection mechanism are added in the air inlet of finned heat exchanger.

Wherein,

Stainless steel water-collecting tray is set immediately below finned heat exchanger,

It is equipped with water tank in the humidifier side,

The stainless steel water-collecting tray by piping connection to water tank (12),

The water tank is for providing humidifier humidifies water.

Wherein,

The finned heat exchanger is made of surge anti-corrosion material, and the end plate of the finned heat exchanger is by full aluminium material system At.

Specific work process：

Refrigeration mode：Compressor sucks the gaseous refrigerant of low-temp low-pressure, by becoming high temperature and pressure after compressed action Gaseous state reaches four-way valve interface D, and four-way valve is power failure state at this time, and from outlet, C is flowed into water-side heat, carries out condensation and puts Heat drop temperature becomes liquid, is discharged away in the heat transfer water distributed, liquid refrigerant carries out throttling drop by electric expansion valve It presses, the refrigerant after reducing pressure by regulating flow is flowed into finned heat exchanger, and absorbing the heat in air by finned heat exchanger becomes gas State refrigerant is flowed into via four-way valve interface S in gas-liquid separator, the air in the greenhouse of inner loop wind turbine sucking at this time Refrigeration cool-down is carried out, refrigeration effect is reached.It is sucked again by compressor mouth, is thusly-formed an enclosed circulation system.

Heating mode：Compressor sucks the gaseous refrigerant of low-temp low-pressure, by becoming high temperature and pressure after compressed action Gaseous state, reach four-way valve interface D, at this time four-way valve be electricity condition, from outlet E be flowed into finned heat exchanger, pass through fin Heat in refrigerant is discharged into air by heat exchanger, and the air in the greenhouse of interior circulating fan sucking carries out heating liter at this time Temperature reaches heating effect.It discharges the refrigerant after heat and changes liquid, then reducing pressure by regulating flow, throttling are carried out by electric expansion valve Refrigerant after decompression is flowed into water-side heat, and by absorbing the heat in water-side heat, cooled water is drained.Become For gaseous refrigerant, it is flowed into gas-liquid separator via four-way valve interface S, then sucked by compressor mouth, is thusly-formed one Enclosed circulation system.

Wind system workflow：Interior circulating fan will be sent into that water meter cooler carry out table is cold changes from the air of the sucking in greenhouse Then heat is then sent through after finned heat exchanger is exchanged heat after being then sent through humidifier progress humidification process, is sent in greenhouse.

Fresh air is sent to turbulent heat regenerator by Electric air valve, and recuperation of heat processing, place are carried out with the wind being discharged in greenhouse Wind after reason is siphoned away after being mixed with greenhouse outlet air by interior circulating fan.And it is arranged by exhaust blower by the air draft after turbulent-flow heat-exchanging device It walks.

Water system workflow：Underground water is drawn into three-way control valve by water inlet by water pump, passes through three-way control valve The flow of distribution into water meter cooler and water-side heat is drained after water-side heat and the heat exchange of water meter cooler by discharge outlet.

In cooling in summer, the high-grade water condensed in refrigeration by finned heat exchanger is discharged into water tank, with Humidifier is provided to use.

A kind of edible mushroom greenhouse central processing structure of the utility model,

First by via the compressor of four-way valve member, water-side heat, finned heat exchanger and gas-liquid separator machine Structure realizes that canopy temperature is adjusted；

Secondly, it by using turbulent heat recovery technology, is changed turbulent flow is carried out with fresh air by the air being discharged out of greenhouse Heat carries out pre-heater or pre-cooler to fresh air, carries out heat transfer recycling, so as to be effectively prevented from the loss of cooling and heating load, reaches To energy-efficient purpose.Fresh air after turbulent-flow heat-exchanging also passes through finned heat exchanger and carries out heat exchange, can prevent logical fresh air When, fresh air is introduced directly into greenhouse, uneven to canopy temperature occur, subregion temperature and canopy temperature difference The phenomenon that, ensure that canopy temperature is uniform constant, not will produce larger fluctuation；

Again, using the pre- refrigeration technique of water meter cooler, the cold in underground water, which is fully recovered to, to be needed in fresh air, and reduction is new The inlet air temperature of wind reaches the load for being effectively reduced refrigeration.In transition season, need not can open only using this technology Compressor can achieve the purpose that, to greenhouse constant temperature, product is efficient, energy saving；Meanwhile using underground water as conversion heat source, and Air-source compares, and in refrigeration, underground water is lower than air themperature, the refrigerating capacity bigger of such product, the efficiency higher of refrigeration. On the contrary, when heating, ground water temperature is higher than environment temperature, and the heat of heating also bigger, energy-saving effect is also more preferable, while will not also go out The phenomenon that showing the phenomenon that air-source fin frosting performance declines, defrosting effectively avoided canopy temperature to be caused to decline；

Then, in cooling in summer, air has a large amount of high-grade moisture and is condensed down when passing through finned heat exchanger Come, by having installed stainless steel water-collecting tray additional below finned heat exchanger, during the water condensed is collected in water tank, in case plus Wet device uses, and saves water resource；

Finally, filtering, insect-killing device have been installed additional in the air inlet of finned heat exchanger, the air in greenhouse can have been carried out net Change, while the various insects destroyed to edible mushroom can be killed, and finned heat exchanger uses surge anti-corrosion material, end plate to adopt With full aluminium material, it can be effectively prevented corrosion of the greenhouse-environment to fin of high humidity in this way.

A kind of edible mushroom greenhouse central processing structure of the utility model, with the above arrangement, realizing big to edible mushroom Heating, cooling, ventilation, damping and the insecticidal function of canopy provide whole control environment, to protect for the growth course of edible mushroom Demonstrate,prove the quality of edible mushroom.

Claims (6)

1. a kind of edible mushroom greenhouse central processing structure, for adjusting environment in greenhouse, it is characterised in that include：Humiture Regulating mechanism and air quantity adjusting mechanism,

The temperature and humidity adjustment mechanism includes thermostat unit and humidity adjustment unit；

It is equipped with compressor (1), water-side heat (2), finned heat exchanger (3), gas-liquid separator in the thermostat unit (4) and four-way valve (5)；

It is equipped with humidifier (6) in the humidity adjustment unit；

Four valve ports of the four-way valve by pipeline be respectively connected to the gas outlet of compressor, the air inlet of water-side heat, The gas outlet of finned heat exchanger and the air inlet of gas-liquid separator；

The gas outlet pipeline of the gas-liquid separator is connected to the air inlet of compressor；

The gas outlet pipeline of the water-side heat is connected to the air inlet of finned heat exchanger；

The finned heat exchanger is for providing temperature required in greenhouse；

The humidifier is for providing humidity required in greenhouse.

2. a kind of edible mushroom greenhouse central processing structure according to claim 1, it is characterised in that：

Further include having ventilating mechanisms, the ventilating mechanisms are formed and blown to greenhouse via the air inlet of finned heat exchanger And the circulation air path of air draft；Include air supply pipeline, turbulent heat regenerator (7), interior circulating fan (8) and water meter cooler (9)；

The air supply pipeline is connected to the air inlet of turbulent heat regenerator, includes to be connected to turbulent heat regenerator fresh air air inlet Fresh air air inlet pipeline；

Electric air valve (10) is equipped on the fresh air air inlet pipeline；

The air outlet of turbulent heat regenerator is connected in two-way pipeline, and pipeline is arranged via exhaust blower to air, another way pipeline all the way It is connected to the air inlet of interior circulating fan；

The air outlet of interior circulating fan is connected to the air inlet of finned heat exchanger via water meter cooler；

The air outlet of finned heat exchanger is connected to greenhouse through air port via humidifier；

Greenhouse air outlet is connected in two-way pipeline, and pipeline leads to the air inlet of interior circulating fan all the way, with turbulent heat regenerator The pipeline that air outlet leads to interior circulating fan air inlet is in parallel laying；Another way pipeline leads at the heat of turbulent heat regenerator Manage air inlet.

3. a kind of edible mushroom greenhouse central processing structure according to claim 2, it is characterised in that：

The water inlet of the water-side heat and the water inlet of water meter cooler are connected to water inlet pipe by a three-way control valve (11) Road.

4. a kind of edible mushroom greenhouse central processing structure according to claim 1, it is characterised in that：

Filtering, desinsection mechanism are added in the air inlet of finned heat exchanger.

5. a kind of edible mushroom greenhouse central processing structure according to claim 1, peculiar to be：

Stainless steel water-collecting tray is set immediately below finned heat exchanger,

It is equipped with water tank in the humidifier side,

The stainless steel water-collecting tray by piping connection to water tank (12),

The water tank is for providing humidifier humidifies water.

6. a kind of edible mushroom greenhouse central processing structure according to claim 1, it is characterised in that：

The finned heat exchanger is made of surge anti-corrosion material, and the end plate of the finned heat exchanger is made of full aluminium material.