AERIAL SPRAY RAINMAKING DEVICE

Abstract

An aerial spray rainmaking device includes a container (10), a water storage assembly (20), a pump (30) and a spraying assembly (40). The water storage assembly (20) is disposed in the container (10) and includes a water tank (21) filled with water (B). The spraying assembly (40) includes a pressure tank (41) and multiple nozzles (42) communicating with the pressure tank (41). Two ends of the pump (30) separately communicate with the water tank (21) and the pressure tank (41). The water (B) is pressured by the pressure tank (41), and is nebulized and sprayed out of the container (10) by each nozzle (42). Therefore, widespread clouds in the high sky may be quickly condensed into water droplets to accomplish the function of rainmaking.

Claims

1. An aerial spray rainmaking device comprising: a container (10); a water storage assembly (20), disposed in the container (10), comprising a water tank (21) filled with water (B); a pump (30), one end thereof communicating with the water tank (21); and a spraying assembly (40), comprising a pressure tank (41) and multiple nozzles (42) communicating with the pressure tank (41), another end of the pump (30) communicating with the pressure tank (41), wherein the pressure tank (41) is configured to pressurize water (B), and the nozzles (42) are configured to nebulize pressurized water (B) and spray pressurized water (B) out of the container (10).

2. The aerial spray rainmaking device of claim 1, wherein the water storage assembly (20) further comprises a temperature regulator (22), the temperature regulator (22) is configured to heat or cool water (B).

3. The aerial spray rainmaking device of claim 2, wherein the temperature regulator (22) is a heater configured to heat up water (B).

4. The aerial spray rainmaking device of claim 3, wherein the spraying assembly (40) further comprises a heating element (43) configured to heat up water (B) in the pressure tank (41).

5. The aerial spray rainmaking device of claim 2, wherein the temperature regulator (22) is a refrigerant compressor configured to cool down water (B).

6. The aerial spray rainmaking device of claim 2, wherein the temperature regulator (22) comprises multiple heat conducting elements (221) disposed in the water tank (21).

7. The aerial spray rainmaking device of claim 6, wherein each heat conducting element (221) is a heating bar or a condensing tube.

8. The aerial spray rainmaking device of claim 1, wherein the water storage assembly (20) further comprises an insulation cover (23) disposed outside the water tank (21).

9. The aerial spray rainmaking device of claim 1, wherein the pump (30) comprises a control valve (31) configured to control communication or closure between the water tank (21) and the pump (30).

10. The aerial spray rainmaking device of claim 1, wherein the container (10) comprises an opening (11), and each nozzle (42) is configured to spray water (B) out of the container (10) through the opening (11).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 is a cross-sectional view of the disclosure;

[0009] FIG. 2 is a schematic view of the application of the disclosure; and

[0010] FIG. 3 is a cross-section view of the disclosure in a using status.

DETAILED DESCRIPTION

[0011] The technical contents of this disclosure will become apparent with the detailed description of embodiments accompanied with the illustration of related drawings as follows. It is intended that the embodiments and drawings disclosed herein are to be considered illustrative rather than restrictive.

[0012] The disclosure provides an aerial spray rainmaking device being carried by an aircraft A, please refer to FIGS. 1-3, which includes a container (such as an intermodal container or a shipping container) 10, a water storage assembly 20, a pump 30 and a spraying assembly 40.

[0013] The disclosure does not limit the size and shape of the container 10. The container 10 may be of various sizes on the market or may be adjusted according to different needs, as long as the loading effect is achieved. Therefore, the size and shape of the container 10 should not be used as a limitation of this disclosure. The container 10 has an opening 11, and the opening 11 communicates with the outside of the aircraft A. The purpose of using the container 10 is to facilitate transferring when entering and exiting the aircraft A. Also, the container 10 has the advantages of easy acquisition, firm structure, and convenient transportation.

[0014] The water storage assembly 20 is disposed in the container 10 and includes a water tank 21 filled with water B. The water B may be hot water or cold water. In some embodiments, the water storage assembly 20 further includes a temperature regulator 22, which has multiple heat conducting elements 221 disposed in the water tank 21. The temperature regulator 22 uses each heat conducting element 221 to heat up or cool down the water B in the water tank 21. In the embodiment, the temperature regulator 22 may be a heater or a refrigerant compressor, whose functions are described below. When the temperature regulator 22 is a heater, it heats up the water B in the water tank 21 and each heat conducting element 221 is a heating bar. When the temperature regulator 22 is a refrigerant compressor, it cools down the water B in the water tank 21 and each heat conducting element 221 is a condensing tube.

[0015] The spraying assembly 40 includes a pressure tank 41 and multiple nozzles 42 communicating with the pressure tank 41. Two ends of the pump 30 separately communicate with the water tank 30 and the pressure tank 41, and the pump 30 has a control valve 31 for controlling the communication between the water tank 21 and pump 30. Therefore, after the water B in the water tank 21 is heated or cooled by the temperature regulator 22, it may be pumped into the pressure tank 41 by the pump 30 to be pressured, and then the water B is nebulized and sprayed out of the container 10 by each nozzle 42.

[0016] Please refer to FIGS. 2 and 3. In the embodiment, the aircraft A is, but not limited to, a transport plane, any aircraft A capable of accommodating a container is included in the disclosure. The disclosure uses the aircraft A to carry the container 10 to the high-altitude sky where clouds are located, then the water B is sprayed into the high-altitude sky clouds C outside the aircraft A through the opening 11 of the container 10 to form nebulized water B′. The kinetic energy carried by the large-area nebulized water B′ and the low-temperature moisture in the high-altitude sky clouds C collide mutually, and they are combined together with respect to the temperature difference to increase volume and weight to form large droplets or tiny ice crystals. The large droplets or ice crystals may attract nearby moisture to increase its own volume and weight to form rainfall when the weight is greater than the buoyancy, and release the latent heat to heat up the surrounding air to make the force of the upward convection become larger so as to form a chain reaction until nearby cumulonimbus becomes raindrops to fall down. In addition, by the flying and spraying of the aircraft A, the spraying range and position of the nebulized water B′ may be accurately controlled in large area.

[0017] When the temperature is low in winter, the temperature regulator 22 may adopt a heater to heat up the water B in the water tank 21 to a high temperature which is under the boiling point (between, but not limited to, 80° C. and 99° C.). Therefore, when the high-temperature nebulized water B′ is sprayed out of the container 10, it may have a temperature difference with the low-temperature clouds C in the high-altitude sky to obtain the desirable effect of condensation, so as to maximize the rainfall efficiency. When the temperature is high in summer, the temperature regulator 22 may adopt a refrigerant compressor to cool down the water B in the water tank 21 to a low temperature which is above the freezing point (between, but not limited to, 1° C. and 20° C.). Therefore, when the low-temperature nebulized water B′ is sprayed out of the container 10, it may have a temperature difference with the high-temperature clouds C in the high-altitude sky to obtain the desirable effect of condensation, so as to maximize the rainfall efficiency. Also, the spraying assembly 40 further includes a heating element 43. When the temperature regulator 22 adopts a heater, the heating element 43 is used to secondarily heat up the water B in the pressure tank 41 to prevent the water B in the water tank 21, which is heated previously, from cooling down after passing through the pump 30 and the pressure tank 41 to maintain the water B at a high temperature when spraying.

[0018] Furthermore, the water storage assembly 20 includes an insulation cover 23 disposed outside the water tank 21 to slow down the cooling speed or heating speed of the water B in the water tank 21 so as to reduce the heating time or cooling time of the temperature regulator 22 to reduce energy consumption.

[0019] While this disclosure has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of this disclosure set forth in the claims.