CN215872969U - System for adjusting content and temperature of nutrient gas for bean sprout growth and automatically supplementing nutrient gas - Google Patents

Abstract

The utility model discloses a system for adjusting the content and temperature of nutrient gas for bean sprout growth and automatically supplementing nutrient gas, which comprises a water supply device, a bean sprout incubation device and a temperature adjusting device; the water supply device is provided with a water inlet end and a water outlet end, the water inlet end is connected with supply water through a water pipe, and the water outlet end is connected with the temperature adjusting device through a water pipe; the temperature adjusting device is provided with an air inlet and an air outlet, and the air inlet and the air outlet are both connected with the bean sprout hatching device; the utility model can keep the temperature in the hatching barrel between 20 and 22 ℃ which is most suitable for the growth of the bean sprouts, thereby improving the quality and the yield of the bean sprouts.

Description

System for adjusting content and temperature of nutrient gas for bean sprout growth and automatically supplementing nutrient gas

Technical Field

The utility model relates to a bean sprout cultivation technology, in particular to a system for adjusting the content and temperature of nutrient gas for bean sprout growth and automatically supplementing the nutrient gas.

Background

The batch bean sprouts usually finish hatching and growing in hatching barrels with the height of about 1 to 2 meters, but the bean sprouts coming out from the same hatching barrel have different qualities in the upper layer, the middle layer and the lower layer of the hatching barrel, the bean sprouts at the bottom are short and thick and are easy to rot; the bean sprouts in the middle layer have the best appearance and taste; while the uppermost layer of bean sprouts is long and thin and has poor taste; through repeated experiments of the applicant, the reason of the condition is found to be two main reasons: firstly, the upper temperature and the lower temperature in an incubation barrel are unbalanced, the upper temperature and the lower temperature are different, the difference between the heights of two meters reaches 6-7 ℃, the difference between the heights of 1 meter is about 3-4 ℃, an air conditioner is generally used in an existing incubation workshop to adjust the temperature, the height of 1.5 meters is taken as a reference value, the upper temperature and the lower temperature difference in the incubation barrel are continuously increased along with the rise of heat, and therefore the bottom bean sprouts are rotten due to low temperature, the top temperature is high, and the bean sprouts grow too much and have poor taste; in the bean sprout growth stage, the internal temperature of the hatching barrel can reach 28-33 ℃, the temperature on the upper part of the hatching barrel is higher, the temperature suitable for bean sprout growth in the stage is about 20-22 ℃, and the temperature is too high, so that the bean sprouts grow excessively and are burnt, even if spray water is adopted for cooling at present, the temperature is still not ideal, and the yield, the quality and the taste of the bean sprouts are seriously influenced. Also, the temperature of the hatching workshop is not identical to that of the bean sprouts hatching barrel, which also affects the quality of the bean sprouts.

In addition, the space of the hatching workshop is large, the energy consumption is high by adopting an air conditioner to adjust the temperature, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the technology, the utility model aims to provide an automatic supplementing system for regulating the content and temperature of nutrient gas for bean sprout growth, which can keep the temperature in an incubation barrel between 20 and 22 ℃ which is most suitable for bean sprout growth, and improves the quality and yield of bean sprouts; and the system can also adjust the temperature of the incubation workshop, so that the temperature of the incubation workshop is consistent with the temperature in the incubation barrel, the quality of the bean sprouts is further improved, the energy consumption is reduced, and the national policy of energy conservation and emission reduction is met.

In order to realize the technology, the following technical scheme is adopted:

adjust bean sprouts growth nutrient gas content, temperature and automatic replenishment system, its characterized in that: comprises a water supply device, a bean sprout incubation device and a temperature adjusting device;

the water supply device is provided with a water inlet end and a water outlet end, the water inlet end is connected with supply water through a water pipe, and the water outlet end is connected with the temperature adjusting device through a water pipe;

the temperature adjusting device is provided with an air inlet and an air outlet, and the air inlet and the air outlet are both connected with the bean sprout hatching device.

The system for adjusting the content and the temperature of nutrient gas for bean sprout growth and automatically supplementing the nutrient gas also comprises a gas supercharging device, and the gas supercharging device is arranged on a gas inlet pipeline of the temperature adjusting device.

Adjust bean sprouts growth nutrient gas content, temperature and automatic complementary system still include gaseous detection device, gaseous detection device be connected with bean sprouts hatching device for detect gaseous composition and temperature in the bean sprouts hatching device.

Adjust bean sprouts growth nutrient gas content, temperature and automatic replenishment system still includes nutrient gas adjusting device, nutrient gas adjusting device also sets up on attemperator's admission line, has included the gas mixture jar.

The nutrient gas adjusting device also comprises a supplementary air filter, and the supplementary air filter is connected with the mixed gas tank.

The water supply device, the gas detection device, the nutrient gas adjusting device, the gas supercharging device and the water return device are all connected with the main controller.

The temperature adjusting device comprises a temperature adjusting water tank and a cover body, the air inlet and the air outlet are arranged on the temperature adjusting water tank or/and the cover body, an air coil is arranged in the temperature adjusting water tank, and two ends of the air coil are respectively connected with the air inlet and the air outlet; the temperature regulating water tank or/and the cover body are/is also provided with a water inlet connected with the water outlet end of the water supply device, and water can enter the temperature regulating water tank through the water inlet.

The system for adjusting the content and the temperature of nutrient gas for bean sprout growth and automatically supplementing the nutrient gas also comprises a water return device, and a drain pipe is arranged at the bottom of the temperature adjusting water tank; the water return device is started, and water in the temperature-adjusting water tank can enter the water supply device through the drain pipe.

The air inlet and the air outlet are arranged on the side wall of the temperature adjusting water tank, the positions corresponding to the air inlet and the air outlet are provided with an air inlet joint and an air outlet joint, the outer ends of the air inlet joint and the air outlet joint are respectively connected with the bean sprout hatching device through an air inlet pipeline and an air outlet pipeline, and the inner ends of the air inlet joint and the air outlet joint are connected with the air coil pipe.

A water level and water temperature sensor is arranged in the temperature adjusting water tank and connected with the main controller.

The gas coil is spirally wound in the temperature-regulating water tank.

The water inlet is arranged on the cover body, the water spraying pipe is arranged below the cover body and communicated with the water inlet, and a plurality of water spraying ports are arranged below the water spraying pipe.

The nutrient gas adjusting device and the gas supercharging device are both fixed on the cover body.

The temperature adjusting water tank is also provided with an air temperature exchange device, an air inlet end of the air temperature exchange device is communicated with the incubation workshop, air in the incubation workshop enters the air temperature exchange device through the air inlet end, and returns to the incubation workshop from an air outlet end of the air temperature exchange device after temperature adjustment, so that the air temperature in the incubation workshop is adjusted circularly.

And a supercharging device is arranged between the air temperature exchange device and the hatching barrel.

The air temperature exchange device comprises a fixed seat, a sealing cover and a plurality of gas exchange pipe fittings, wherein two ends of the gas exchange pipe fittings are respectively fixed on the inner side of the fixed seat to form a seat body, and a plurality of air inlet and outlet holes corresponding to the gas exchange pipe fittings are formed in the fixed seat; the temperature-regulating water tank is characterized in that mounting holes are formed in two opposite side walls of the temperature-regulating water tank, the two ends of the base body are matched with the mounting holes respectively and seal the mounting holes, the sealing cover is arranged at the mounting hole of the outer side wall of the temperature-regulating water tank and seals the air inlet and the air outlet in the mounting cover, the two ends of the mounting cover are respectively an air inlet end and an air outlet end, the air inlet end and the air outlet end are provided with an air inlet and exhaust pipe, and the air inlet and exhaust pipe is communicated with the air inlet and outlet.

The gas coil is spirally wound outside the air temperature exchanging device by taking the air temperature exchanging device as a shaft.

Starting a water supply device, and conveying water at the temperature of about 18-20 ℃ into a temperature-regulating water tank to enable the water to sink through a gas coil pipe; when the temperature in the bean sprout hatching barrel is higher than a set value, the gas supercharging device is started, gas in the bean sprout hatching barrel is pumped out and enters the gas coil, the gas coil and the temperature of the gas after water heat exchange are reduced to a proper temperature (the temperature at the position can be reached by controlling the stay time of the gas coil in water) and then are conveyed back to the bean sprout hatching barrel, the circulation is carried out once every other period of time, the upper temperature and the lower temperature in the bean sprout hatching barrel are kept at about 20-22 ℃, and the quality and the yield of the bean sprouts are improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic view of the construction of the temperature control device of the present invention;

FIG. 3 is a top view of the temperature conditioning device of the present invention;

FIG. 4 is a schematic view of the internal structure of the temperature control device of the present invention;

FIG. 5 is a schematic side view of the thermostat of the present invention;

FIG. 6 is a schematic view of the construction of the temperature regulated water tank of the present invention;

FIG. 7 is a schematic view of the construction of the plant air temperature exchange unit of the present invention;

fig. 8 is a side structural schematic view of the mount of the present invention.

Detailed Description

As shown in fig. 1, the present invention discloses a system for regulating the content and temperature of nutrient gas for bean sprout growth and automatically supplementing, which comprises a water supply device, a bean sprout hatching device and a temperature regulating device;

the water supply device is provided with a water inlet end and a water outlet end, the water inlet end is connected with supply water through a water pipe, and the water outlet end is connected with the temperature adjusting device through a water pipe;

the temperature adjusting device is provided with an air inlet and an air outlet, and the air inlet and the air outlet are both connected with the bean sprout hatching device.

The system for adjusting the content and the temperature of nutrient gas for bean sprout growth and automatically supplementing the nutrient gas also comprises a gas supercharging device, and the gas supercharging device is arranged on a gas inlet pipeline of the temperature adjusting device.

Adjust bean sprouts growth nutrient gas content, temperature and automatic complementary system still include gaseous detection device, gaseous detection device be connected with bean sprouts hatching device for detect gaseous composition and temperature in the bean sprouts hatching device.

Adjust bean sprouts growth nutrient gas content, temperature and automatic replenishment system still includes nutrient gas adjusting device, nutrient gas adjusting device also sets up on attemperator's admission line, has included the gas mixture jar.

The nutrient gas adjusting device also comprises a supplementary air filter, and the supplementary air filter is connected with the mixed gas tank.

The water supply device, the gas detection device, the nutrient gas adjusting device, the gas supercharging device and the water return device are all connected with the main controller.

As shown in fig. 2-8, the temperature adjusting device includes a temperature adjusting water tank 1 and a cover body 2, the air inlet and the air outlet are arranged on the temperature adjusting water tank, an air coil 3 is arranged in the temperature adjusting water tank, the air coil is a ground heating pipe with high heat dissipation coefficient, and is spirally wound in the temperature adjusting water tank; two ends of the gas coil are respectively connected with the gas inlet and the gas outlet; the cover body is also provided with a water inlet 21 connected with the water outlet end of the water supply device, and water can enter the temperature regulating water tank through the water inlet and completely submerge the gas coil.

The system for adjusting the content and the temperature of nutrient gas for bean sprout growth and automatically supplementing the nutrient gas also comprises a water return device, and the bottom of the temperature adjusting water tank is provided with a drain pipe 11; the water return device is started, and water in the temperature-adjusting water tank can enter the water supply device through the drain pipe.

The air inlet and the air outlet are arranged on the side wall of the temperature adjusting water tank, the air inlet joint 13 and the air outlet joint 14 are arranged at the positions corresponding to the air inlet and the air outlet, the outer ends of the air inlet joint and the air outlet joint are respectively connected with the bean sprout hatching device through an air inlet pipeline 15 and an air outlet pipeline 16, and the inner ends of the air inlet joint and the air outlet joint are connected with the air coil pipe 3.

A water level and water temperature sensor is arranged in the temperature adjusting water tank and connected with the main controller.

The water inlet 21 is arranged on the cover body, the water spraying pipe 5 is arranged below the cover body and communicated with the water inlet, and a plurality of water spraying ports 51 are arranged below the water spraying pipe.

The nutrient gas adjusting device 7 and the gas supercharging device 6 are both fixed on the cover body. The motor can be more stable in operation by fixing.

The working process of the utility model is as follows: the main controller starts the water supply device, common factory bean sprout manufacturers are far away from urban areas, underground water is mined locally as supply water, the temperature of the underground water is constant relative to surface water and is generally 18-20 ℃; conveying water into a temperature-regulating water tank, wherein the water is deep and submerges through a gas coil pipe; when the temperature sensor detects that the temperature in the bean sprout hatching device is higher than a set value, the temperature sensor feeds information back to the main controller, and the gas supercharging device is started; the main controller can control the staying time of the gas in the coil pipe so as to control the temperature of the gas; and after the exchange is finished, the temperature of the gas is reduced to a proper temperature and then is conveyed back to the bean sprout hatching device through the gas outlet pipeline 16 to form a closed loop, the closed loop is circulated once every a period of time, so that the temperature of the upper part and the lower part in the bean sprout hatching device is kept at about 20-22 ℃, the problem of large temperature difference of the upper part and the lower part in a hatching barrel is solved, the yield and the quality of the bean sprouts are improved, and the phenomena of bud rotting and seedling burning are reduced.

According to the utility model, the water level and water temperature sensor is arranged in the temperature-adjusting water tank, if the water temperature of the temperature-adjusting water tank is too high and is not beneficial to cooling, the water return device is started, in the embodiment, the water return pump is adopted, part of water in the temperature-adjusting water tank flows back into the water supply device through the drain pipe, then the water supply device is started for water supplement, the water of the water supply device firstly enters the water spray pipe 5 and then enters the temperature-adjusting water tank through the plurality of water spray ports 51 arranged below the water spray pipe 5, and the plurality of water spray ports can enable the supplemented water to more uniformly enter all places of the temperature-adjusting water tank; and until the water level line is higher than a set value, the water level and water temperature sensor feeds information back to the main controller to stop water supplement. The water supply device is a water storage tank and is also used as spraying water of the bean sprouts, and the water supply device is connected with the spraying water device of the bean sprout incubation device, so return water can be recycled, the temperature of the return water can also neutralize the water temperature in the water storage tank, and the neutralized water temperature is more suitable for spraying the bean sprouts.

The gas detection device is connected with the bean sprout incubation device and is used for detecting gas components in the bean sprout incubation device; the device starts once every a period of time, and data transmission reaches main control unit, if some composition content that detects is not enough, then main control unit can start nutrient gas adjusting device's supplementary air cleaner, and with fresh gas supply into gas cylinder, it adjusts the temperature to get into in the gas coil pipe through the intake pipe again.

After heat exchange with the gas coil, the water temperature of the temperature adjusting water tank rises to some extent, in order to utilize the water in the temperature adjusting water tank to a greater extent, the temperature adjusting water tank is also provided with an air temperature exchange device 4, the air inlet end of the air temperature exchange device is communicated with the incubation workshop, the air in the incubation workshop enters the air temperature exchange device through the air inlet end, and the air returns to the incubation workshop from the air outlet end of the air temperature exchange device after temperature adjustment, so that the air temperature in the incubation workshop is adjusted in a circulating manner.

And a supercharging device is arranged between the air temperature exchange device and the hatching barrel.

The air temperature exchange device comprises a fixed seat 41, a sealing cover 42 and a plurality of gas exchange pipe fittings 43, wherein two ends of the gas exchange pipe fittings are respectively fixed on the inner side of the fixed seat to form a seat body, and a plurality of air inlet and outlet holes 44 corresponding to the gas exchange pipe fittings are arranged on the fixed seat; be provided with mounting hole 12 on two relative lateral walls of water pitcher adjusts the temperature, the both ends of pedestal cooperate and seal the mounting hole with the mounting hole respectively, the sealed cowling sets up the mounting hole department at the water pitcher lateral wall adjusts the temperature and seals the inside at the installation cover with business turn over gas port, the both ends of installation cover respectively be the inlet end and give vent to anger the end, the inlet end with give vent to anger the end and be provided with inlet and outlet pipes 45, inlet and outlet pipes and business turn over gas port intercommunication.

The gas coil pipe takes the air temperature exchanging device as a shaft and spirally surrounds the outside of the air temperature exchanging device. The gas coil is spirally wound outside the workshop air temperature exchange device, so that the space in the temperature-regulating water tank can be utilized to a greater extent. The spiral gas coil is only wound around the air temperature exchange device in a workshop instead of being wound on the air temperature exchange device in the workshop, and enough space is reserved between the spiral gas coil and the air temperature exchange device to allow water in the temperature-regulating water tank to contact the gas exchange pipe fitting; the both sides of spiral helicine gas coil all are provided with fixed curb plate 9, and fixed curb plate and the inside wall cooperation of the water pitcher that adjusts the temperature fix gas coil in the water pitcher that adjusts the temperature.

Starting a supercharging device, and sucking air in an incubation workshop into a gas exchange pipe fitting, wherein the gas exchange pipe fitting is a stainless steel pipe with high heat conduction efficiency; in winter, the room temperature is lower than the water temperature in the temperature-regulating water tank, and the gas absorbs heat through the pipe fitting to be heated; in summer, the room temperature is higher than the water temperature in the temperature-regulating water tank, and the gas releases heat through the pipe fitting to be cooled; the air after adjusting the temperature comes out from the other end of the air inlet and exhaust pipe and returns to the hatching workshop, so that the room temperature of the hatching workshop is basically consistent with the temperature in the bean sprout hatching device, the phenomenon that the bean sprouts are frozen or burnt due to the internal and external temperatures is avoided, and the quality of the bean sprouts is further improved. When the room temperature approaches the temperature in the incubator, the gas exchange device does not need to be started; after the air temperature exchanging device is adopted, the temperature of the hatching workshop does not need to be adjusted through an air conditioner, and the electricity utilization cost is greatly reduced.

When there are many bean sprouts hatching device in hatching workshop, this system also can the simultaneous control: a nutrient gas adjusting device, an oilless air compressor, a group of gas coils and a gas exchange device form a circulation group; one circulation group is combined into one bean sprout hatching device for use, and the number of the circulation groups depends on the number of the bean sprout hatching devices; the temperature-regulating water tank and the cover body are lengthened greatly, the circulation group is integrated on the temperature-regulating water tank and the cover body, and other equipment is shared, so that the cost can be reduced, the occupied space can be reduced, and the management is more convenient.

Claims (10)

1. Adjust bean sprouts growth nutrient gas content, temperature and automatic replenishment system, its characterized in that: comprises a water supply device, a bean sprout incubation device and a temperature adjusting device;

the water supply device is provided with a water inlet end and a water outlet end, the water inlet end is connected with supply water through a water pipe, and the water outlet end is connected with the temperature adjusting device through a water pipe;

the temperature adjusting device is provided with an air inlet and an air outlet, and the air inlet and the air outlet are both connected with the bean sprout hatching device.

2. The system for regulating the content of nutrient gas, the temperature and the automatic supplement of bean sprout growth as claimed in claim 1, wherein: the temperature control device further comprises a gas pressurization device, and the gas pressurization device is arranged on the gas inlet pipeline of the temperature control device.

3. The system for regulating the content of nutrient gas, the temperature and the automatic supplement of bean sprout growth as claimed in claim 1, wherein: still include gaseous detection device, gaseous detection device be connected with bean sprouts hatching device for detect gaseous composition and the temperature in the bean sprouts hatching device.

4. The system for regulating the content of nutrient gas, the temperature and the automatic supplement of bean sprout growth as claimed in claim 1, wherein: the device also comprises a nutrient gas adjusting device, wherein the nutrient gas adjusting device is also arranged on the gas inlet pipeline of the temperature adjusting device and comprises a mixed gas tank.

5. The system for regulating nutrient gas content, temperature and automatic replenishment of bean sprout growth as claimed in claim 4, wherein: the nutrient gas adjusting device also comprises a supplementary air filter, and the supplementary air filter is connected with the mixed gas tank.

6. The system for regulating the content of nutrient gas, the temperature and the automatic replenishment of bean sprouts growth as claimed in any one of claims 1 to 5, wherein: the temperature adjusting device comprises a temperature adjusting water tank and a cover body, the air inlet and the air outlet are arranged on the temperature adjusting water tank or/and the cover body, an air coil is arranged in the temperature adjusting water tank, and two ends of the air coil are respectively connected with the air inlet and the air outlet; the temperature regulating water tank or/and the cover body are/is also provided with a water inlet connected with the water outlet end of the water supply device, and water can enter the temperature regulating water tank through the water inlet.

7. The system for regulating nutrient gas content, temperature and automatic replenishment of bean sprout growth as claimed in claim 6, wherein: the water temperature adjusting water tank is characterized by also comprising a water return device, wherein a drain pipe is arranged at the bottom of the temperature adjusting water tank; the water return device is started, and water in the temperature-adjusting water tank can enter the water supply device through the drain pipe.

8. The system for regulating nutrient gas content, temperature and automatic replenishment of bean sprout growth as claimed in claim 6, wherein: the air inlet and the air outlet are arranged on the side wall of the temperature adjusting water tank, the positions corresponding to the air inlet and the air outlet are provided with an air inlet joint and an air outlet joint, the outer ends of the air inlet joint and the air outlet joint are respectively connected with the bean sprout hatching device through an air inlet pipeline and an air outlet pipeline, and the inner ends of the air inlet joint and the air outlet joint are connected with the air coil pipe.

9. The system for regulating nutrient gas content, temperature and automatic replenishment of bean sprout growth as claimed in claim 6, wherein: a water level and water temperature sensor is arranged in the temperature adjusting water tank and connected with the main controller.

10. The system for regulating nutrient gas content, temperature and automatic replenishment of bean sprout growth as claimed in claim 6, wherein: the temperature adjusting water tank is also provided with an air temperature exchange device, an air inlet end of the air temperature exchange device is communicated with the incubation workshop, air in the incubation workshop enters the air temperature exchange device through the air inlet end, and returns to the incubation workshop from an air outlet end of the air temperature exchange device after temperature adjustment, so that the air temperature in the incubation workshop is adjusted circularly.

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