CN212589170U

CN212589170U - Temperature-control fertilization irrigation system

Info

Publication number: CN212589170U
Application number: CN202021485924.2U
Authority: CN
Inventors: 尹义蕾; 丁小明; 侯永; 李邵; 李恺; 张凌风; 王春辉
Original assignee: Academy of Agricultural Planning and Engineering MARA
Current assignee: Academy of Agricultural Planning and Engineering MARA
Priority date: 2020-07-24
Filing date: 2020-07-24
Publication date: 2021-02-26
Anticipated expiration: 2030-07-24

Abstract

The embodiment of the utility model provides a accuse temperature fertilization irrigation system relates to fruit vegetables planting technical field, including the cultivation groove, the cultivation inslot is equipped with the drip irrigation zone, the week side of drip irrigation zone encloses and is equipped with the temperature-controlled tube, the both ends mouth of temperature-controlled tube all communicates with cold and hot exchange mechanism. The embodiment of the utility model provides a through setting up the cultivation groove, be used for planting cultivation fruit vegetables, set up the drip irrigation zone in the cultivation groove for the storage culture medium, the week side of drip irrigation zone encloses and establishes the temperature control pipe, and the both ends mouth of temperature control pipe all communicates with cold and hot exchange mechanism, regulates and control the temperature of temperature control pipe through cold and hot exchange mechanism, and then realizes heating or cooling to the culture medium in the drip irrigation zone to realize fruit vegetables root system normal growth and absorb the nutrition, improve the quality and increase the efficiency, guarantee the production quality of fruit vegetables; through setting up the thermometer, the temperature of the internal water of real-time supervision entering liquid manure to supply with the hot water volume through adjusting the hot-water line, guarantee that the temperature of the liquid manure of liquid manure all-in-one output satisfies the normal growth demand of fruit vegetables.

Description

Temperature-control fertilization irrigation system

Technical Field

The utility model relates to a fruit vegetables planting technical field especially relates to a accuse temperature fertilization irrigation system.

Background

The overhead strawberry planting system has the advantages of convenience in operation, high land utilization rate, time saving and labor saving, and is developed rapidly at present. In the overwintering planting production of the elevated strawberries, the temperature of a culture medium is rapidly reduced when water and fertilizer are irrigated, and the growth of the root systems of the strawberries and the absorption of nutrients are seriously influenced; the temperature inside the greenhouse is too high in the spring and summer connecting season, and the culture medium is also affected by the high temperature and rises, so that the quality and the yield of the strawberries are affected.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a accuse temperature fertilization irrigation system for solve among the prior art liquid manure and irrigate the growth that the temperature influences fruit vegetables root system and the absorptive defect of nutrition, realize the adjustment to liquid manure irrigation in-process matrix temperature, guarantee the normal growth and the nutrient absorption of fruit vegetables root system.

The embodiment of the utility model provides a accuse temperature fertilization irrigation system, including the cultivation groove, be equipped with the drip irrigation zone in the cultivation inslot, the week side of drip irrigation zone encloses and is equipped with the temperature-controlled tube, the both ends mouth of temperature-controlled tube all communicates with cold and hot exchange mechanism.

According to the temperature-controlled fertilization and irrigation system provided by the embodiment of the utility model, the cold-heat exchange mechanism comprises a hot water tank and a cold water tank, and a water outlet of the hot water tank is connected with a first port of the temperature-controlled pipe through a first water outlet pipe;

and the water outlet of the cold water tank is connected with the first port of the temperature control pipe through a second water outlet pipe.

According to the utility model discloses a accuse temperature fertilization irrigation system, be equipped with first on-off valve on the first outlet pipe, be equipped with the second on-off valve on the second outlet pipe.

According to the temperature-controlled fertilization and irrigation system provided by the embodiment of the utility model, the water return port of the hot water tank is connected with the second port of the temperature-controlled pipe through the first water return pipe;

and a water return port of the cold water tank is connected with a second port of the temperature control pipe through a second water return pipe.

According to the utility model discloses a accuse temperature fertilization irrigation system, be equipped with the disconnected valve of third tee on the first wet return, be equipped with the disconnected valve of fourth tee on the second wet return.

According to the temperature-controlled fertilization and irrigation system provided by the embodiment of the utility model, a heater is arranged in the hot water tank, and a refrigerator is arranged in the cold water tank;

a water replenishing port of the hot water tank is connected with a water source through a first water replenishing pipe, and a fifth on-off valve is arranged on the first water replenishing pipe;

and a water replenishing port of the cold water tank is connected with a water source through a second water replenishing pipe, and a sixth on-off valve is arranged on the second water replenishing pipe.

According to the utility model discloses a accuse temperature fertilization irrigation system still includes the fertilizing mechanism, fertilizing mechanism includes liquid bucket is mixed to liquid manure all-in-one and liquid manure, the fertile mouth of advancing of liquid manure all-in-one through inhale fertile pipe with liquid bucket is mixed to liquid manure connects, the water inlet of liquid manure all-in-one pass through the inlet tube with the hot-water tank is connected, the play fertile mouth of liquid manure all-in-one pass through fertilizer conveying pipe with drip irrigation zone connects.

According to the temperature-controlled fertilization and irrigation system provided by the embodiment of the utility model, the first end of the water inlet pipe is connected with the water inlet of the water and fertilizer integrated machine, the second end of the water inlet pipe is respectively connected with one end of a hot water pipe and a water source through a three-way valve, and the other end of the hot water pipe is communicated with the hot water tank;

a water temperature meter is arranged at the second end of the water inlet pipe;

and the hot water pipe is provided with an electromagnetic valve.

According to the utility model discloses a accuse temperature fertilization irrigation system of embodiment, the cultivation groove is connected with the fluid-discharge tube.

According to the utility model discloses a accuse temperature fertilization irrigation system still includes the cultivation frame, the cultivation groove is installed cultivation is put up.

The embodiment of the utility model provides a temperature-controlled fertilization irrigation system is through setting up the cultivation groove, is used for planting cultivation fruit vegetables, sets up the drip irrigation zone in the cultivation groove for the storage cultivation matrix, and the week side of drip irrigation zone encloses and establishes the temperature-controlled tube, and the both ends mouth of temperature-controlled tube all communicates with cold and hot exchange mechanism, regulates and controls the temperature of temperature-controlled tube through cold and hot exchange mechanism, and then realizes heating or cooling to the cultivation matrix in the drip irrigation zone, in order to realize that fruit vegetables root system normal growth and absorption nutrition, improve the quality and improve the efficiency, guarantee the production quality of fruit vegetables;

furthermore, by arranging the hot water tank and the cold water tank, hot water and cold water are provided for the temperature control pipe according to actual needs, and further the effect of heating and cooling the culture medium is achieved;

furthermore, the water temperature of water entering the water and fertilizer integrated machine is measured in real time by arranging the water temperature meter, and the water and fertilizer temperature output by the water and fertilizer integrated machine is suitable for the normal growth temperature of fruits and vegetables by adjusting the respective water supply amounts of the hot water tank and the water source.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a temperature-controlled fertilization and irrigation system provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a cold-heat exchange mechanism of a temperature-controlled fertilization irrigation system provided by the embodiment of the utility model.

Reference numerals:

1. a cold-heat exchange mechanism; 2. a water delivery main pipe; 3. a water return main pipe; 4. a water pump; 5. a liquid discharge pipe; 6. a cultivation trough; 7. a drip irrigation tape; 8. a temperature control tube; 9. a cultivation shelf; 10. a fertilizer conveying pipe; 11. a water and fertilizer integrated machine; 12. a water inlet pipe; 13. a fertilizer suction pipe; 14. a water and fertilizer mixing barrel; 15. a water temperature meter; 16. an electromagnetic valve; 17. a hot water pipe; 21. a hot water tank; 22. a cold water tank; 23. a first water outlet pipe; 24. a first on-off valve; 26. a second on-off valve; 27. a second water outlet pipe; 28. a third shutoff valve; 29. a fourth shutoff valve; 210. a first water return pipe; 211. a second water return pipe; 212. a fifth on-off valve; 213. a sixth on-off valve; 214. a water replenishing main pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model discloses accuse temperature fertilization irrigation system of embodiment is described below with combination of fig. 1 to 2, including cultivation groove 6, be equipped with drip irrigation zone 7 in cultivation groove 6, the week side of drip irrigation zone 7 encloses and is equipped with the thermo tube 8, and the both ends mouth of thermo tube 8 all communicates with cold and hot exchange mechanism 1. It will be appreciated that the growing tank 6 is intended to carry fruit or vegetables to be grown, that is to say, to act as a container for fruit or vegetable growth. A drip tape 7 is arranged in the cultivation groove 6, and the drip tape 7 is arranged at the bottom of the inner side of the cultivation groove 6 along the length direction of the cultivation groove 6 and used for storing cultivation media. Meanwhile, water and fertilizer are dripped into the drip irrigation belt 7, so that the nutritional requirements of fruits and vegetables are met.

Furthermore, the circumferential side of the drip irrigation tape 7 is provided with the temperature control pipe 8, and the horizontal circumferential side of the outer side of the drip irrigation tape 7 is provided with the temperature control pipe 8, so that the uniformity and the effect of heat exchange are ensured. The temperature control pipe 8 exchanges heat with the culture medium in the drip irrigation zone 7, so that the temperature of the culture medium is suitable for the growth of the roots of the fruits and the vegetables and the absorption of nutrients.

Wherein, two ports of the temperature control tube 8 are both communicated with the heat exchange mechanism 1, and the heat exchange mechanism 1 conveys heat medium to the temperature control tube 8, so as to realize the heating function of the temperature control tube 8 on the culture medium in the drip irrigation zone 7 and realize the heating effect; the cold and heat exchange mechanism 1 conveys cold media to the temperature control pipe 8, so that the temperature control pipe 8 can cool the culture medium in the drip irrigation zone 7, and the cooling effect is realized. That is to say, carry heat transfer medium to temperature control pipe 8 through cold and hot exchange mechanism 1, temperature control pipe 8 carries out the heat transfer with the culture medium in drip irrigation zone 7, guarantees that the temperature of culture medium satisfies the growth of fruit vegetables root all the time and absorbs nutritional temperature demand, guarantees the quality of fruit vegetables.

According to the temperature-controlled fertilization and irrigation system of one embodiment of the utility model, the cold-heat exchange mechanism 1 comprises a hot water tank 21 and a cold water tank 22, and a water outlet of the hot water tank 21 is connected with a first end of a temperature control pipe 8 through a first water outlet pipe 23;

the water outlet of the cold water tank 22 is connected with the first end of the temperature control pipe 8 through a second water outlet pipe 27. It is understood that the heat exchange medium in this embodiment is water, and other substrates may also be adopted, for example, the heat medium is heat conduction oil, and the cold medium is refrigerant.

Further, as shown in fig. 1 and 2, the heat exchange mechanism 1 includes a hot water tank 21 and a cold water tank 22 which are connected in parallel, so as to conveniently and respectively supply water to the hot water tank 21 and the cold water tank 22, and meanwhile, the heat exchange mechanism is conveniently and respectively connected with the temperature control pipe 8, so as to reduce the arrangement of pipelines.

Wherein, the delivery port of hot-water tank 21 is connected with the first port of accuse temperature pipe 8 through first outlet pipe 23, and the realization is carried the hot water in the hot-water tank 21 to in the accuse temperature pipe 8, guarantees the heating effect of accuse temperature pipe 8 to the culture medium in the drip irrigation zone 7, realizes the intensification effect.

Further, the water outlet of the cold water tank 22 is connected with the first port of the temperature control pipe 8, namely the water inlet, through the second water outlet pipe 27, so that cold water in the cold water tank 22 is conveyed into the temperature control pipe 8, the cooling effect of the temperature control pipe 8 on the culture medium in the drip irrigation zone 7 is guaranteed, and the cooling effect is realized.

According to the utility model discloses a accuse temperature fertilization irrigation system is equipped with first on-off valve 24 on the first outlet pipe 23, is equipped with second on-off valve 26 on the second outlet pipe 27. It can be understood that, as shown in fig. 2, in the present embodiment, one end of the first water outlet pipe 23 is connected to the water outlet of the hot water tank 21, and the first on-off valve 24 is disposed on the first water outlet pipe 23 for controlling the on-off of the first water outlet pipe 23, so as to control the hot water delivery state. One end of the second water outlet pipe 27 is connected with the water outlet of the cold water tank 22, and the second water outlet pipe 27 is provided with a second on-off valve 26 for controlling the on-off of the second water outlet pipe 27 and further controlling the conveying state of the cold water.

Further, the other end of the first water outlet pipe 23 and the other end of the second water outlet pipe 27 are connected with one end of the water delivery main pipe 2 through a tee joint, and the other end of the water delivery main pipe 2 is connected with the first port of the temperature control pipe 8. Specifically, a first on-off valve 24 is opened, a second on-off valve 26 is closed, a first water outlet pipe 23 is sequentially communicated with the water delivery main pipe 2 and the temperature control pipe 8, a second water outlet pipe 27 is closed, and the first water outlet pipe 23 outputs hot water into the temperature control pipe; and closing the first on-off valve 24, opening the second on-off valve 26, sequentially communicating the second water outlet pipe 27 with the water delivery main pipe 2 and the temperature control pipe 8, closing the first water outlet pipe 23, and outputting cold water into the temperature control pipe by the second water outlet pipe 27. Realize the isolated operation, accurate control improves the heat transfer effect.

According to the temperature-controlled fertilization and irrigation system of one embodiment of the utility model, the water return port of the hot water tank 21 is connected with the second port of the temperature control pipe 8 through the first water return pipe 210;

the water return port of the cold water tank 22 is connected with the second port of the temperature control pipe 8 through a second water return pipe 211. It can be understood that the water outlet of the hot water tank 21 is arranged at the bottom side, and the water return port is arranged at the upper side, so that the hot water can flow out and flow back conveniently. The water return port of the hot water tank 21 is connected with the second port of the temperature control pipe 8, namely the water outlet, through the first water return pipe 210, so that the water subjected to heat exchange and heat release flows back to the hot water tank 21 for recycling.

Further, the water outlet of the cold water tank 22 is arranged at the bottom side, and the water return port is arranged at the upper side, so that cold water can flow out and flow back conveniently. The water return port of the cold water tank 22 is connected with the second port of the temperature control pipe 8, namely the water outlet, through the second water return pipe 211, so that water subjected to heat exchange and heat absorption flows back to the cold water tank 22 for recycling.

According to the utility model discloses a accuse temperature fertilization irrigation system is equipped with third broken valve 28 on the first wet return 210, is equipped with fourth broken valve 29 on the second wet return 211. It can be understood that, as shown in fig. 2, in the present embodiment, one end of the first water return pipe 210 is connected to the water return port of the hot water tank 21, and the first water return pipe 210 is provided with a third cut-off valve 28 for controlling the on/off of the first water return pipe 210. One end of the second water return pipe 211 is connected with a water return port of the cold water tank 22, and a fourth shut-off valve 29 is provided on the second water return pipe 211 to control the on/off of the second water return pipe 211.

Further, the other end of the first water return pipe 210 and the other end of the second water return pipe 211 are connected with one end of the water return header pipe 3 through a tee joint, and the other end of the water return header pipe 3 is connected with the second port of the temperature control pipe 8. Specifically, when hot water flows through the temperature control pipe 8 to heat the culture medium in the drip irrigation zone 7, the third shutoff valve 28 is opened, the fourth shutoff valve 29 is closed, the first water return pipe 210 is communicated with the temperature control pipe 8 through the water return main pipe 3, the second water return pipe 211 is closed, and the heat released water flows back into the hot water tank 21 for recycling; when cold water flows through the temperature control pipe 8 to cool the culture medium in the drip irrigation zone 7, the third cut-off valve 28 is closed, the fourth cut-off valve 29 is opened, the second water return pipe 211 is communicated with the temperature control pipe 8 through the water return header pipe 3, the first water return pipe 210 is closed, and the water after heat absorption flows back to the cold water tank 22 for recycling.

According to the temperature-controlled fertilization and irrigation system of one embodiment of the utility model, a heater is arranged in the hot water tank 21, and a refrigerator is arranged in the cold water tank 22;

a water replenishing port of the hot water tank 21 is connected with a water source through a first water replenishing pipe, and a fifth on-off valve 212 is arranged on the first water replenishing pipe;

the water replenishing port of the cold water tank 22 is connected with a water source through a second water replenishing pipe, and a sixth on-off valve 213 is arranged on the second water replenishing pipe. It can be understood that a heater is provided in the hot water tank 21 to continuously heat the water in the hot water tank 21 so as to maintain the water in the hot water tank 21 at a set temperature. A refrigerator is arranged in the cold water tank 22 to continuously cool water in the cold water tank 22, so that the water in the cold water tank 22 is maintained at a set temperature.

Further, the water replenishing port of the hot water tank 21 is arranged on the upper side of the hot water tank 21 and is connected with a water source through a first water replenishing pipe, so that the effect of replenishing the water source to the hot water tank 21 is realized. The first water replenishing pipe is provided with a fifth on-off valve 212 for controlling the on-off of the first water replenishing pipe.

Wherein, cold water tank 22's moisturizing mouth is located cold water tank 22's upside to be connected with the water source through second moisturizing pipe, realize the effect to cold water tank 22 replenishment water source. And a sixth on-off switch is arranged on the second water replenishing pipe and used for controlling the on-off of the second water replenishing pipe.

Further, as shown in fig. 2, in this embodiment, one end of the first water replenishing pipe is connected to the water replenishing port of the hot water tank 21, one end of the second water replenishing pipe is connected to the water replenishing port of the cold water tank 22, the other end of the first water replenishing pipe and the other end of the second water replenishing pipe are connected to one end of the water replenishing main pipe 214 through a tee joint, the other end of the water replenishing main pipe 214 is connected to a water source, and the water replenishing main pipe 214 is provided with a seventh on-off valve. Specifically, when the hot water tank 21 needs to be replenished with water, the seventh on-off valve and the fifth on-off valve 212 are opened, the sixth on-off valve 213 is closed, the first water replenishing pipe is communicated with a water source through the water replenishing main pipe 214, the second water replenishing pipe is closed, so that water is replenished to the hot water tank 21, and sufficient hot water is ensured; when the cold water tank 22 needs to be replenished with water, the seventh on-off valve and the sixth on-off valve 213 are opened, the fifth on-off valve 212 is closed, the second water replenishing pipe is communicated with a water source through the water replenishing header pipe 214, the first water replenishing pipe is closed, so that the cold water tank 22 is replenished with water, and sufficient cold water is ensured.

To improve the automation degree of the system, the first on-off valve 24, the second on-off valve 26, the third on-off valve 28, the fourth on-off valve 29, the fifth on-off valve 212, the sixth on-off valve 213, and the seventh on-off valve are all solenoid valves. The first, second, third, fourth, fifth, and sixth on-off

valves

24, 26, 28, 29, 212, and 213 may be solenoid valves, and the seventh on-off valve may be a manual valve. The first on-off valve 24, the second on-off valve 26, the third on-off valve 28, the fourth on-off valve 29, the fifth on-off valve 212, the sixth on-off valve 213, and the seventh on-off valve may be manual valves.

It should be noted that the temperature control tube 8 is made of a material with high thermal conductivity, and may be a PVC tube or an aluminum tube.

According to the utility model discloses a accuse temperature fertilization irrigation system still includes the fertilizing mechanism, and the fertilizing mechanism includes that liquid bucket 14 is mixed to liquid manure all-in-one 11 and liquid manure, and the fertilizer inlet of liquid manure all-in-one 11 is connected with liquid bucket 14 is mixed to liquid manure through inhaling fertile pipe 13, and the water inlet of liquid manure all-in-one 11 passes through inlet tube 12 and is connected with hot-water tank 21, and the play fertile mouth of liquid manure all-in-one 11 is connected with drip irrigation zone 7 through fertilizer conveying pipe 10. It can be understood that the fertilizer inlet of the integrated liquid fertilizer and water machine 11 sucks the liquid fertilizer in the liquid fertilizer and water mixing tank 14 into the integrated liquid fertilizer and water machine 11 through the fertilizer suction pipe 13. The water inlet of the water and fertilizer all-in-one machine 11 is connected with a water source through a water inlet pipe 12, so that water and fertilizer in the water and fertilizer all-in-one machine 11 are mixed, and the water and fertilizer meeting the requirement of composite irrigation are prepared. The fertilizer outlet of the water and fertilizer integrated machine 11 is connected with one end of the fertilizer conveying pipe 10, and the other end of the fertilizer conveying pipe 10 is connected with the drip irrigation belt 7, so that the water and fertilizer are conveyed into the drip irrigation belt 7.

According to the utility model discloses a accuse temperature fertilization irrigation system, the first end of inlet tube 12 is connected with the water inlet of liquid manure all-in-one 11, and the second end of inlet tube 12 passes through the three-way valve to be connected with the one end and the water source of hot-water line 17 respectively. The other end of the hot water pipe 17 communicates with the bottom side of the hot water tank 21. The hot water pipe 17 is provided with an electromagnetic valve 16 for adjusting the flow rate of the hot water pipe 17. The second end of the water inlet pipe 12 is provided with a water temperature meter 15 for measuring the water temperature of the water entering the water and fertilizer integrated machine 11 in real time. Specifically, if the water temperature of the water provided by the water source is normal, namely the water temperature meets the normal growth temperature of the fruits and vegetables, the water source is directly used for supplying water, and the electromagnetic valve 16 is closed; if the water temperature monitored by the water temperature meter 15 is abnormal, namely the temperature is low, and the normal growth of fruits and vegetables is influenced, the electromagnetic valve 16 is opened, so that hot water in the hot water tank 21 is mixed with water supplied by a water source, the opening degree of the electromagnetic valve 16 is adjusted, the monitored water temperature of the water temperature meter 15 is checked, the mixed water supply temperature meets the growth requirement of the fruits and vegetables, the water temperature entering the water and fertilizer all-in-one machine 11 is increased, and the normal growth of the fruits and vegetables.

According to the utility model discloses a accuse temperature fertilization irrigation system is equipped with water pump 4 on the accuse temperature pipe 8. It will be appreciated that the water mains 2 is connected to the temperature control pipe 8 by a water pump 4, as shown in figure 2, the water pump 4 providing the motive force for the flow of water.

According to the utility model discloses a accuse temperature fertilization irrigation system, cultivation groove 6 is connected with fluid-discharge tube 5. As can be understood, the liquid discharge pipe 5 is arranged to effectively guide the culture medium leaked in the drip irrigation tape 7 to the ground in time.

According to the utility model discloses a accuse temperature fertilization irrigation system still includes cultivation frame 9, and cultivation groove 6 is installed on cultivation frame 9. It can be understood that, through installing cultivation groove 6 on cultivation frame 9, effectively guarantee cultivation groove 6's stability, simultaneously, will cultivate groove 6 and set up the take the altitude, make things convenient for manual inspection, need not to bow, also can avoid the fruit vegetables to be damaged by the animal.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. The utility model provides a accuse temperature fertilization irrigation system, its characterized in that, includes the cultivation groove, be equipped with the drip irrigation zone in the cultivation inslot, the week side of drip irrigation zone encloses and is equipped with the temperature control pipe, the both ends mouth of temperature control pipe all communicates with cold and hot exchange mechanism.

2. The temperature-controlled fertilization irrigation system according to claim 1, wherein the heat exchange mechanism comprises a hot water tank and a cold water tank, and a water outlet of the hot water tank is connected with the first port of the temperature-controlled tube through a first water outlet tube;

3. The temperature-controlled fertilization irrigation system of claim 2, wherein a first on-off valve is arranged on the first water outlet pipe, and a second on-off valve is arranged on the second water outlet pipe.

4. The temperature-controlled fertilization irrigation system according to claim 2, wherein the water return port of the hot water tank is connected with the second port of the temperature-controlled pipe through a first water return pipe;

5. The temperature-controlled fertilization irrigation system of claim 4, wherein a third shut-off valve is arranged on the first water return pipe, and a fourth shut-off valve is arranged on the second water return pipe.

6. The temperature-controlled fertilization and irrigation system of claim 2, wherein a heater is arranged in the hot water tank, and a refrigerator is arranged in the cold water tank;

7. The temperature-controlled fertilization and irrigation system as recited in claim 2, further comprising a fertilization mechanism, wherein the fertilization mechanism comprises a water and fertilizer integrated machine and a water and fertilizer liquid mixing barrel, a fertilizer inlet of the water and fertilizer integrated machine is connected with the water and fertilizer liquid mixing barrel through a fertilizer suction pipe, a water inlet of the water and fertilizer integrated machine is connected with the hot water tank through a water inlet pipe, and a fertilizer outlet of the water and fertilizer integrated machine is connected with the drip irrigation tape through a fertilizer delivery pipe.

8. The temperature-controlled fertilization and irrigation system as claimed in claim 7, wherein a first end of the water inlet pipe is connected with a water inlet of the water and fertilizer integrated machine, a second end of the water inlet pipe is respectively connected with one end of a hot water pipe and a water source through a three-way valve, and the other end of the hot water pipe is communicated with the hot water tank;

and the hot water pipe is provided with an electromagnetic valve.

9. The temperature-controlled fertilization irrigation system of claim 1, wherein a drain pipe is connected to the cultivation tank.

10. The temperature-controlled fertilization irrigation system of claim 1, further comprising a cultivation rack, wherein the cultivation tank is mounted on the cultivation rack.