CN215836383U - Dripping cooling system - Google Patents

Abstract

The application discloses cooling system drips, cooling system drips includes the subassembly that drips, the subassembly of blowing, temperature sensor and control unit. The water dripping assembly comprises a water supply pipe and a plurality of drippers connected to the water supply pipe, the drippers are arranged at intervals, each dripper corresponds to one column, and the columns are used for accommodating animals. The air blowing assembly comprises a plurality of air outlet portions, and the air outlet portions correspond to the drippers and the columns one to one. The control part comprises an electromagnetic valve and a controller, the controller is electrically connected with the electromagnetic valve, the air blowing assembly and the temperature sensor, the electromagnetic valve is arranged on the water supply pipeline, the controller controls the electromagnetic valve to open or close the water supply pipeline according to the temperature value of the temperature sensor, and the controller can also control the air outlet part to blow air to the column. So, the cooling system that drips can be accurate to single field, and the mode of the cooling that drips simultaneously can effective water economy resource to produce ponding in avoiding the field, moist shady and cold causes bacterial mosquito to breed, guarantees the health of animal.

Description

Dripping cooling system

Technical Field

The application relates to the technical field of cultivation, more specifically relates to a cooling system drips.

Background

In hot and high-temperature weather in summer, the heat stress phenomenon of pigs in a farm is serious, and in the related art, the heat stress reaction of the pigs is usually reduced by using an artificial flushing mode. However, the method can not only give consideration to multiple pigs, but also cause waste of water resources, and meanwhile, the method is easy to generate water accumulation, so that diseases such as foot gout and the like of the pigs are caused, and the health of the pigs is influenced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a dripping cooling system.

The dripping cooling system of the embodiment of the application comprises a dripping assembly, a blowing assembly, a temperature sensor and a control component. The water dripping assembly comprises a water supply pipe and a plurality of drippers connected to the water supply pipe, the drippers are arranged at intervals, the water supply pipe is used for supplying water to the drippers, each dripper corresponds to one column, and the column is used for accommodating animals. The air blowing assembly corresponds to the water dripping assembly and comprises a plurality of air outlet portions, and the air outlet portions are in one-to-one correspondence with the drippers and the columns. The temperature sensor is used for detecting the temperature of the field and/or the temperature of the animal. The control part comprises an electromagnetic valve and a controller, the controller is electrically connected with the electromagnetic valve, the air blowing assembly and the temperature sensor, the electromagnetic valve is arranged on the water supply pipeline, the controller can control the electromagnetic valve to be opened or closed according to the temperature value of the temperature sensor, and the controller can also control the air outlet part to blow air to the column.

In the cooling system that drips of this application embodiment, when the temperature value that detects at temperature sensor is greater than or equal to and predetermines the temperature, water supply pipe is opened to controller control solenoid valve, and the cooling water drips to the animal through the dripper, and after the in-process that drips or drip was finished, the controller can control out the air outlet part and dry to the column, accelerates the evaporation of animal surface water, takes away the animal heat on one's body fast. So, the cooling system that drips can be accurate to single field, and the mode of the cooling that drips simultaneously can effective water economy resource to produce ponding in avoiding the field, moist shady and cold causes bacterial mosquito to breed, guarantees the health of animal.

In some embodiments, the drip assembly further comprises a drip-proof device, the drip-proof device is arranged on a pipeline between the dripper and the water supply pipe, and the drip-proof device conducts the pipeline between the dripper and the water supply pipe when the water pressure is greater than a preset value.

In some embodiments, the water supply pipeline comprises a main pipeline and at least one branch pipeline connected to the main pipeline, the main pipeline is connected to an external water inlet pipe, the electromagnetic valve is arranged on the main pipeline, and the drippers are connected to the branch pipelines.

In some embodiments, the drip cooling system comprises a main control valve and a pressure reducing valve, wherein the main control valve and the pressure reducing valve are installed on the main pipeline, the pressure reducing valve is arranged between the main control valve and the electromagnetic valve, and the main control valve is arranged between the pressure reducing valve and the external water inlet pipe.

In some embodiments, the drip cooling system further comprises a plurality of first valves, the first valves are connected between the branch pipes and the drippers, and each dripper corresponds to one of the first valves.

In some embodiments, the drip assembly further comprises an exhaust duct connected to an end of the branch duct remote from the main duct, and the drip cooling system further comprises a second valve connected to the exhaust duct.

In some embodiments, the drip cooling system further comprises an adjusting pipe, the adjusting pipe is connected with the water supply pipeline and the dripper, and the adjusting pipe can be bent relative to the water supply pipeline to adjust the position of the dripper.

In some embodiments, the air outlet portion comprises a fan, and the fan corresponds to the drippers one by one.

In some embodiments, the blowing assembly includes a blower and an air duct assembly, the air duct assembly includes a main air duct and a plurality of air outlet portions, the air outlet portions can selectively communicate with the main air duct, the blower is disposed in the main air duct, and the blower is electrically connected to the controller.

In some embodiments, the blowing assembly further includes a plurality of air duct valves, the air duct valves are disposed at a connection between the air outlet portion and the main air duct, and the air duct valves can selectively communicate the air outlet portion and the main air duct.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a drip cooling system according to an embodiment of the present application;

FIG. 2 is a schematic view of a portion of a drip cooling system according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a blowing assembly according to an embodiment of the present application.

Description of the main element symbols:

a drip cooling system 100;

the water dripping device comprises a water dripping component 10, a water supply pipeline 11, a main pipeline 111, a branch pipeline 112, a water dropper 12, a drip preventer 13, an exhaust pipeline 14, a blowing component 20, an air outlet part 21, a fan 211, an air duct component 22, a main air duct 221, an air duct valve 223, a temperature sensor 30, a control component 40, an electromagnetic valve 41, a controller 42, a main control valve 50, a pressure reducing valve 60, a first valve 70, a second valve 80 and an adjusting pipe 90.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the application. To simplify the disclosure of the present application, the components and settings of a specific example are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or reference letters in the various examples, which have been repeated for purposes of brevity and clarity and do not in themselves dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1 and 2, the present embodiment provides a water drop cooling system 100, and the water drop cooling system 100 includes a water drop assembly 10, a blower assembly 20, a temperature sensor 30, and a control component 40. The water dripping assembly 10 comprises a water supply pipe 11 and a plurality of drippers 12 connected to the water supply pipe 11, the drippers 12 are arranged at intervals, the water supply pipe 11 is used for supplying water for the drippers 12, each dripper 12 corresponds to one column, and the column is used for accommodating animals. The blowing assembly 20 is arranged corresponding to the dripping assembly 10, the blowing assembly 20 comprises a plurality of air outlet portions 21, and the air outlet portions 21 correspond to the drippers 12 and the columns one to one.

The temperature sensor 30 is used to detect the temperature of the field and/or the temperature of the animal. The control part 40 comprises an electromagnetic valve 41 and a controller 42, the controller 42 is electrically connected with the electromagnetic valve 41, the blowing assembly 20 and the temperature sensor 30, the electromagnetic valve 41 is arranged on the water supply pipeline 11, the controller 42 can control the electromagnetic valve 41 to open or close the water supply pipeline 11 according to the temperature value of the temperature sensor 30, and the controller 42 can also control the air outlet part 21 to blow the column.

It is understood that in the related art, the temperature of the swine is generally reduced by using an artificial water flush to treat the heat stress reaction of the swine. However, the method can not only give consideration to multiple pigs, but also cause waste of water resources, and meanwhile, the method is easy to generate water accumulation, so that diseases such as foot gout and the like of the pigs are caused, and the health of the pigs is influenced.

In the drip cooling system 100 according to the embodiment of the present application, each of the drippers 12 corresponds to one column, and the plurality of air outlet portions 21 correspond to the drippers 12 and the columns one to one. The temperature sensor 30 is used for detecting the temperature of the column and/or the temperature of the animal, the controller 42 can control the electromagnetic valve 41 to open or close the water supply pipeline 11 according to the temperature value of the temperature sensor 30, and the controller 42 can also control the air outlet part 21 to blow air to the column. Like this, when the temperature value that temperature sensor 30 detected is greater than or equal to preset the temperature, water supply pipe 11 is opened to the steerable solenoid valve 41 of controller 42, and the cooling water passes through dripper 12 to the animal drip in the column, at the drip in-process or after dripping, controller 42 can control air-out portion 21 and blow to the column, accelerates the evaporation of animal surface water, takes away the heat on the animal body fast. So, the cooling system 100 that drips can be accurate to single column position, can drip the cooling automatically according to the detection temperature, need not artificial intervention, and the cooling is efficient, and simultaneously, the mode that drips the cooling automatically also can effective water economy resource to produce ponding, moist shady and cold in avoiding the column position and cause the breeding of bacterium mosquito, guarantee the health of animal.

It can be understood that during the animal breeding process, the temperature and humidity of the field need to be kept appropriate to ensure the health of the bred animals and prolong the life of the animals. In hot and high-temperature weather, the body of the animal needs to be washed by water to achieve the purpose of cooling the animal, and meanwhile, the field is prevented from being wet due to water accumulation. Therefore, the dripping cooling system 100 according to the embodiment of the present application can drip water to the animals in the columns through the drippers 12, and can avoid water accumulation while effectively cooling the animals.

Specifically, in some embodiments, the temperature sensor 30 may transmit the detected temperature value back to the controller 42, and the controller 42 controls the solenoid valve 41 to open when the controller 42 confirms that the temperature value detected by the temperature sensor 30 is greater than or equal to the first preset temperature. After the electromagnetic valve 41 is opened, the water supply pipe 11 is conducted, the cooling water reaches the position of the water dropper 12 through the water supply pipe 11, and the water dropper 12 can be located above the column so that water drops dripped by the water dropper 12 can fall on animals in the column. After dripping for a certain time, the controller 42 controls the electromagnetic valve 41 to close, and simultaneously opens the air blowing assembly 20, so that the air outlet portion 21 blows air to the column, and further the evaporation of the water on the surface of the animal is accelerated to achieve the effect of cooling. After blowing for a certain time, the controller 42 closes the blowing assembly 20 and controls the solenoid valve 41 to be opened again to enable the dripper 12 to drip water, so that a cycle can be formed, the animal in the column can be continuously cooled without manual intervention until the temperature value detected by the temperature sensor 30 is less than the second preset temperature, and the cycle stops.

It can be understood that the first preset temperature is greater than the second preset temperature, so that after the temperature of the dripping water cooling system 100 is reduced to the second preset temperature, the low-temperature environment can last for a certain time, and the ambient temperature is prevented from floating up and down back and forth at the first preset temperature.

Of course, it is understood that in other embodiments, it is also possible that during the dripping process of the dripper 12, the controller 42 synchronously starts the blowing assembly 20, so that the dripping process of the dripper 12 and the blowing process of the air outlet 21 are performed simultaneously. Therefore, the rapid cooling can be realized, and the phenomenon that the animals are subjected to heat stress because the animals are in a high-temperature environment for a long time is avoided.

It should be noted that the temperature sensor 30 may detect the temperature of the field, or may directly detect the temperature of the animal, and of course, the temperature sensors 30 may also be multiple sensors for simultaneously detecting the field temperature and the animal temperature. In one example, the temperature sensor 30 may comprise an electronic thermometer, which may be hung on a wall beside the column, and an infrared temperature probe, which may also be hung on a wall beside the column so that the probe is directed towards the animal of the column. The electronic thermometer and infrared temperature probe are also electrically connected to the controller 42 to transmit temperature value information back to the controller 42. When the temperature value obtained by the electronic thermometer is greater than or equal to the first preset temperature or the temperature value obtained by the infrared temperature probe is greater than or equal to the third preset temperature, the controller 42 may control the electromagnetic valve 41 to open the water feeding pipe 11 and the dripper 12 to drip water for cooling the animal. (the field ambient temperature is different from the body temperature of the animal and thus the settings of the first and third preset temperatures are different)

In the embodiment of the present application, the number and the types of the animals in the columns are not limited, the animals may be pigs, cows, sheep, horses, etc., and one, two, three or more than three animals may be housed in one column to meet various requirements.

Referring to fig. 1, in some embodiments, the drip assembly 10 further includes an anti-drip device 13, the anti-drip device 13 is disposed on a pipe between the drip head 12 and the water supply pipe 11, and the anti-drip device 13 conducts the pipe between the drip head 12 and the water supply pipe 11 when the water pressure is greater than a predetermined value.

Thus, when the controller 42 controls the electromagnetic valve 41 to close the water supply pipe 11, the drip-proof device 13 can block the dripping of the dripper 12, thereby avoiding water resource waste and preventing column water accumulation and over-low ambient temperature caused by dripping of the dripper 12.

It will be appreciated that after the dripping is finished, residual water is still left in the water supply pipe 11 and the dripper 12, and the residual water may drip through the dripper 12, so that the column is kept cool and moist for a long time, and water resources are wasted. The drip-proof device 13 can effectively prevent water drops in the water dropper 12 and the water supply pipeline 11 from falling, when the controller 42 controls the electromagnetic valve 41 to be closed, the water pressure in the water dropper 12 and the water supply pipeline 11 is low, and the drip-proof device 13 can prevent water from flowing out of the water dropper 12; only when the controller 42 controls the solenoid valve 41 to open, the water pressure in the water supply pipe 11 will be greater than the maximum bearing pressure value of the drip-proof device 13, so that water can flow out of the dripper 12.

Referring to fig. 1 and 2, in some embodiments, the water supply pipe 11 includes a main pipe 111 and at least one branch pipe 112, the branch pipe 112 is connected to the main pipe 111, the main pipe 111 is connected to an external water inlet pipe (not shown), the solenoid valve 41 is disposed on the main pipe 111, and the plurality of drippers 12 are connected to the main pipe 111.

Thus, the external water inlet pipe provides water into the main pipe 111, the main pipe 111 can further divert water to the branch pipe 112, and the branch pipe 112 can further divert water to the plurality of drippers 12.

It will be appreciated that the columns are limited to the housing and terrain of the farm and that many arrangements may be present. For example, the columns may be arranged in a single row, or may be arranged in parallel in two rows, or other arrangements. The arrangement of the branch pipes 112 is consistent with that of the columns, so that the drippers 12 can correspond to the columns one by one, and the animals in each column can be guaranteed to be dripped.

In one example, the columns may be divided into two rows, each row has four columns, the main pipe 111 connects two branch pipes 112, the two branch pipes 112 are respectively located right above the two rows of columns, four drippers 12 are arranged on each branch pipe 112 at intervals, and one dripper 12 corresponds to one column, so that the dripper 12 can drip water from above the column.

Referring to fig. 1 and 2, in some embodiments, the drip cooling system 100 includes a main control valve 50 and a pressure reducing valve 60, the main control valve 50 and the pressure reducing valve 60 are installed on a main pipe 111, the pressure reducing valve 60 is disposed between the main control valve 50 and an electromagnetic valve 41, and the main control valve 50 is disposed between the pressure reducing valve 60 and an external inlet pipe.

So, the user can manually open or close main control valve 50 to make the user can the manual control drip cooling system 100's switch, relief pressure valve 60 is used for the trunk line 111 decompression, avoids water pressure to damage trunk line 111.

Specifically, the main control valve 50 is disposed on the main pipe 111 between the pressure reducing valve 60 and the external inlet pipe, and when the main control valve 50 is closed by a user, the external inlet pipe cannot supply water to the main pipe 111; when the user opens the main control valve 50, the external inlet pipe may supply water to the main pipe 111.

Referring to fig. 1 and 2, in some embodiments, the drip cooling system 100 further includes a plurality of first valves 70, the first valves 70 are connected between the branch pipes 112 and the drippers 12, and each dripper 12 corresponds to one first valve 70.

Thus, the user can manually open or close the first valve 70 to control the specific dripper 12, so that the user can accurately select several columns needing cooling, and waste of water resources caused by dripping of columns without animals is avoided.

Illustratively, the farm has eight columns, only the first four columns have animals, and the user can manually control to open the first valves 70 of the first four columns, close the first valves 70 of the last four columns, i.e., open the first valves 70 of the columns in which animals exist, and close the first valves 70 of the columns in which no animals exist. Thus, when the controller 42 controls the electromagnetic valve 41 to open the water supply pipe 11, the drippers 12 with the four columns of the animals can drip water downwards, and the drippers 12 without the animals cannot drip water, so that the waste of water resources is avoided.

Referring to fig. 1, in some embodiments, the drip assembly 10 further includes an exhaust duct 14, the exhaust duct 14 is connected to an end of the branch duct 112 away from the main duct 111, and the drip cooling system 100 further includes a second valve 80, and the second valve 80 is connected to the exhaust duct 14.

In this manner, the user may open the second valve 80 so that the air in the drip assembly 10 may escape to the environment through the exhaust duct 14, the exhaust duct 14 being designed at the end of the branch duct 112 remote from the main duct 111 so that the exhaust duct 14 may exhaust the air in the entire branch duct 112. When the drip assembly 10 is used for drip cooling, the user may close the second valve 80 to prevent water from flowing out of the exhaust duct 14, and the second valve 80 may be an exhaust valve.

Referring to fig. 1, in some embodiments, the drip cooling system 100 further includes an adjusting pipe 90, the adjusting pipe 90 connects the water supply pipe 11 and the dripper 12, and the adjusting pipe 90 can be bent relative to the water supply pipe 11 to adjust the position of the dripper 12.

Thus, the user can bend the adjusting tube 90, so that the dripper 12 can bend relative to the water supply pipe 11, and further the position of the dripper 12 can be adjusted and controlled, and the dripping water of the dripper 12 can smoothly drip to the animals in the column.

It can be understood that the animal has a certain activity space in the column, and the user can bend the adjusting tube 90, so that the position of the dripper 12 is moderately over the animal, specifically, in the embodiment of the present application, the adjusting tube 90 can be a connecting pipe such as a corrugated pipe which has flexibility and can keep a bending state after being bent.

In some embodiments, a plurality of animals may be included in a column, and the user may bend the adjustment tube 90 to align the dripper 12 with one of the animals, and bend the adjustment tube 90 a plurality of times to allow the dripper 12 to drip onto all of the animals in the column. In other embodiments, a plurality of animals can move freely in the column, the user can select a position in the column as the animal drip cooling position, and the adjusting pipe 90 is bent to enable the dripper 12 to face the position, so that the animals can autonomously fall under the dripper 12 to drip cooling.

Referring to fig. 1, in some embodiments, the air outlet portion 21 may include a fan 211, and the fan 211 corresponds to the drippers 12 one by one. Thus, the number of the fans 211 is consistent with that of the drippers 12, so that a user can select specific columns for dripping and blowing, and waste of resources is avoided.

It can be understood that when water flow and air flow exist on the surface of the animal body, the body temperature is greatly reduced, and the cooling speed is higher, namely, the dropping water is matched with the air outlet part 21 to accelerate the cooling. Thus, one fan 211 may be provided next to each dripper 12, and the fan 211 may be mounted on the roof or wall of the farm. The plurality of fans 211 may be electrically connected to the controller 42 such that the controller 42 may control the fans 211 to blow air.

Illustratively, the temperature sensor 30 detects the temperature of the animal in the field and transmits the detected temperature value back to the controller 42, and the controller 42 controls the solenoid valve 41 to open when the controller 42 confirms that the temperature value is greater than or equal to a third preset temperature. The water flow of the external water inlet pipe enters the water supply pipe 11 and the water dropper 12 in sequence, and drips from the water dropper 12 to the animals in the column. After dripping, or controller 42 control opens fan 211 when dripping, and fan 211 blows to the animal in the column to the evaporation of the moisture of animal body surface is accelerated, and then the process of accelerating the cooling.

Referring to fig. 3, in some embodiments, the blowing assembly 20 may include a fan 211 and an air duct assembly 22, the air duct assembly 22 includes a main air duct 221 and a plurality of air outlet portions 21, the air outlet portions 21 can selectively communicate with the main air duct 221, the fan 211 is disposed in the main air duct 221, and the fan 211 is electrically connected to the controller 42.

Thus, the fan 211 can generate airflow in the main air duct 221, the airflow is divided into the air outlet portions 21, and the air outlet portions 21 are aligned with the columns to cool the animals in the columns.

Further, referring to fig. 3, in some embodiments, the blowing assembly 20 further includes a plurality of air duct valves 223, the air duct valves 223 are disposed at a connection position of the air outlet portion 21 and the main air duct 221, and the air duct valves 223 can selectively communicate the air outlet portion 21 and the main air duct 221.

Therefore, the user can manually open or close the air duct valve 223 to control the specific air outlet portion 21, so that the user can accurately select a plurality of columns needing cooling, and waste of resources caused by air outlet of columns without animals is avoided.

For example, the air outlet assembly may have only one fan 211 and eight air outlet portions 21, and the fan 211 provides air flows in the main air duct 221, and the air flows respectively lead to the different air outlet portions 21. The plant has eight columns in total, and every column corresponds an air-out portion 21, has bred the animal in only four preceding columns, and the user can open the wind channel valve 223 of four preceding columns, closes the wind channel valve 223 in four back columns, opens the wind channel valve 223 of the column that has the animal to exist promptly, closes the wind channel valve 223 of the column that does not have the animal to exist. Thus, when the controller 42 controls the fan 211 to be turned on, the fan 211 generates an airflow to enter the main air duct 221, the main air duct 221 divides the airflow to different air outlet portions 21, the air outlet portion 21 of the air duct valve 223 is closed and cannot be used for exhausting air, and the air outlet portion 21 of the air duct valve 223 is turned on to blow air to the animal in the column for cooling.

In the description of the embodiments of the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present application have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present application, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (10)

1. A drip cooling system, comprising:

the water dripping assembly comprises a water supply pipeline and a plurality of drippers connected to the water supply pipeline, the drippers are arranged at intervals, the water supply pipeline is used for supplying water for the drippers, each dripper corresponds to one column, and the column is used for accommodating animals;

the air blowing assembly is arranged corresponding to the water dropping assembly and comprises a plurality of air outlet parts, and the air outlet parts correspond to the drippers and the columns one to one; and

a temperature sensor for detecting the temperature of the field and/or the temperature of the animal;

the control component comprises an electromagnetic valve and a controller, the controller is electrically connected with the electromagnetic valve, the air blowing assembly and the temperature sensor, the electromagnetic valve is arranged on the water supply pipeline, the controller can control the electromagnetic valve to be opened or closed according to the temperature value of the temperature sensor, and the controller can also control the air outlet part to blow air to the column.

2. The drip cooling system according to claim 1, wherein the drip assembly further comprises a drip-proof device disposed on a pipe between the drip head and the water supply pipe, the drip-proof device communicating the pipe between the drip head and the water supply pipe when the water pressure is greater than a predetermined value.

3. The drip cooling system according to claim 1, wherein said water supply pipe comprises a main pipe and at least one branch pipe connected to said main pipe, said main pipe is connected to an external water inlet pipe, said solenoid valve is disposed on said main pipe, and said plurality of drippers are connected to said branch pipe.

4. A drip cooling system according to claim 3, comprising a main control valve and a pressure reducing valve, said main control valve and said pressure reducing valve being mounted on said main conduit, said pressure reducing valve being disposed between said main control valve and said solenoid valve, said main control valve being disposed between said pressure reducing valve and said external water inlet pipe.

5. The drip cooling system of claim 3, further comprising a plurality of first valves, said first valves being connected between said branch conduits and said drippers, one for each of said drippers.

6. The drip cooling system of claim 3, further comprising an exhaust conduit connected to an end of the branch conduit remote from the main conduit, the drip cooling system further comprising a second valve connected to the exhaust conduit.

7. The drip cooling system of claim 1, further comprising an adjustment tube connected to the water supply conduit and the dripper, wherein the adjustment tube is bendable relative to the water supply conduit to adjust the position of the dripper.

8. The drip cooling system according to claim 1, wherein the air outlet portion comprises a fan, and the fan corresponds to the drippers one to one.

9. The drip cooling system according to claim 1, wherein the blowing assembly comprises a blower and an air duct assembly, the air duct assembly comprises a main air duct and a plurality of air outlet portions, the air outlet portions can be selectively communicated with the main air duct, the blower is disposed in the main air duct, and the blower is electrically connected to the controller.

10. The drip cooling system of claim 9, wherein the blower assembly further comprises a plurality of air duct valves, the air duct valves being disposed at a junction of the air outlet portion and the main air duct, the air duct valves being capable of selectively communicating the air outlet portion and the main air duct.

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