JPH02208435A - Artificial tornado producing mechanism and its device - Google Patents

Abstract

PURPOSE:To facilitate a repairing and maintenance and reduce a construction cost as well as a keeping and monitoring cost by a method wherein an air sucking port is positioned below so as to cause an artificial tornado to be directed downwardly in an artificial tornado generating device. CONSTITUTION:An air sucking processing device 7 of an artificial tornado generating device 1 is positioned at a lower portion of a substantial central part of an axial direction of a spacing constituted by four air blowing pipes 2. This air sucking and processing device 7 is constructed such that a suction fan 11 and a filter 12 are stored within a housing 10 in which each of an air suction port 8 at its upper surface and a discharging port 9 at its circumferential surface having a substantial cylindrical outer shape. Accordingly, if this air sucking processing device 7 is present, the air entered from the air suction port 8 into the housing 10 is made clean through the filter 12 and thus the air can be discharged through the discharging port 9.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to an artificial tornado generating mechanism and its device for artificially generating tornadoes.

[Conventional technology]

Various methods have been developed to artificially generate tornadoes. For example, there is a method in which a vortex is created along the inner wall of a horizontally long exhaust hood and sucked into the center to generate an artificial tornado. This is a tornado in an enclosed hood, and although it can obtain uniform suction wind speed in the horizontal longitudinal direction, it does not have suction directionality in free space.
In that sense, there is no difference from the conventional side-type hood.
There are also devices that rotate the blow-off nozzle using a burner's combustion mechanism or an air conditioner's outlet to blow out air in a tornado-like manner; these are so-called blow-tornado mechanisms. In addition, a tornado-based recovery device has been developed for collecting slatch on the ocean floor, which creates a vortex in a cylinder, transmits it into the water, and sucks it into the center. Since this device does not forcibly form a vortex in free water, the vortex is logarithmically attenuated and can only be used in a very limited range, and only extremely unstable tornadoes have been obtained. Therefore, the present applicant filed a patent application No. 106384/1984 for a mechanism for easily generating an artificial tornado, which had previously been considered impossible, and a method for utilizing the mechanism. The present invention is constructed as shown in FIG. That is, 4
It consists of two air blowing pipes 2, and each air blowing pipe 2 has several air blowing holes 3 arranged in parallel at equal intervals from top to bottom. Each air blowing pipe 2 is attached to the air hood 4 so that each air blowing hole 3 faces toward the right air blowing pipe 2. An air suction port 8 is attached to the air hood 4. Therefore. This invention is based on: ■ attempting to generate an artificial tornado in a space without walls, ■ surrounding the free space with an air curtain that rotates in the same direction, and ■ creating a continuous vortex due to the wake action of the air curtain. ■ An attempt was made to suck air from the center of the vortex and form an airflow toward the suction port. ■ In other words, the combination of the vortex and the airflow toward the suction port created a free space surrounded by an air curtain. It was an attempt to create an artificial tornado in space. In addition, attempts have been made to use the artificial tornadoes generated in this way for collecting and discharging harmful gas dust, for local heating and cooling, for decoration, for stirring fluids, for transmitting rotational power, and for the thrust of ships. They are trying to use it for increasing purposes, and are trying to use it for transporting slips, powder and granular materials, etc. [Problem to be Solved by the Invention J] However, in the artificial tornado generating mechanism and the method of using the same according to the above-mentioned application, in all the specific examples, the artificial tornado H is directed toward the air suction port 8 provided vertically upward. It's starting to happen. For this reason, the air blowing pipe 2
In the case where an air blowing fan for blowing air from the air outlet and an air suction fan for sucking air from the air suction port 8 are installed individually to make the artificial tornado generating mechanism more compact, these air blowing and suction Heavy objects such as fans must be installed on the top, so the structure for supporting these heavy objects becomes large, and the installation work is also large-scale, resulting in high costs. Furthermore, since these air blowing and suction fans are installed at the top, maintenance and inspection of these is difficult. Therefore, the present invention was made in view of the above circumstances, and it is possible to provide a fan for blowing out air, a fan for sucking air, and a filter for processing the air after sucking, etc. at the bottom. The purpose of this invention is to provide an artificial tornado generation mechanism and its device. [Means for Solving the Problems J] In order to solve the above problems, the artificial tornado generating mechanism of the present invention forms an air curtain that surrounds a certain space by blowing out air from multiple locations so that the rotation direction is always the same. Artificial tornado generation in which an artificial tornado is generated within the air curtain in the direction of air suction by forming a swirling airflow by the wake action of the air curtain and suctioning air from the generally axial center of the swirling airflow. In this mechanism, the air suction port is located at the bottom so that the artificial tornado is directed downward. Further, the artificial tornado generating device of the present invention has a plurality of air blowing pipes each having an air blowing hole in which the air blown out is generally in the same direction, and the air blowing out from the air blowing hole is always in the same direction. The air blowing pipes are arranged so as to be in the rotational direction, and an air suction port is provided at the center in the right axial direction of the plurality of air blowing pipes, and the air blowing port of the plurality of air blowing pipes is arranged so as to be in the rotation direction. The air is sucked into the air curtain by blowing air out of the holes to form an air curtain that surrounds a certain space, and forming a swirling airflow by the wake action of the air curtain, and sucking the air from the air suction port. In an artificial tornado generator that generates an artificial tornado heading toward the mouth,
The air blowing pipe is arranged in a vertical direction, and an air blowing fan is connected to the lower part of the air blowing pipe, and the air suction port is arranged upward so that the artificial tornado is directed downward in the vertical direction, and an air suction fan is arranged in the lower part of the air blowing pipe. It is a series of . Further, it is even better to provide an air suction processing device by disposing a filter for obtaining clean air between the air suction port and the air suction fan. Alternatively, the air suction processing device may be housed in an ashtray, chair, table, or the like. [Function] According to the artificial tornado generation mechanism configured as described above, air blown out from multiple locations so as to always rotate in the same direction forms an air curtain that surrounds a certain space and turns into a swirling air current. By suctioning air from the air suction port, an artificial tornado that moves downward is generated within the air curtain. Further, according to the artificial tornado generating device having the above configuration, when the air blowing fan connected to the bottom of the plurality of air blowing pipes is operated, the air is always rotated in the same direction from each air blowing hole of each air blowing pipe. The air is blown out, forming an air curtain that surrounds a certain space and creating a swirling airflow. At the same time, the air suction fan installed at the bottom is activated to suck air through the upward air suction port, creating an artificial tornado that moves downward toward the air suction port located at the bottom of the air curtain. In addition, if a filter is installed between the air suction port and the air suction fan to obtain clean air to form an air suction processing device, harmful substances collected by the downward artificial tornado toward the air suction port at the bottom can be removed. Gas, dust, etc. are removed by the filter, resulting in clean air. Moreover, when an air suction processing device is housed in an ashtray, it has both the function of an ashtray and the smoke from the cigarette butts is immediately removed by suction. Furthermore, if the air suction processing device is housed in the chair, it will also have the functions of a chair. Furthermore, if the air suction processing device is housed in the table, it will also have the functions of the table. [Embodiment J] An embodiment of the present invention will be described below in detail with reference to FIGS. 1 to 4. Figure 1 (a) is a perspective view showing a device to which the artificial tornado generation mechanism of the present invention is applied, Figures 1 (b) and (c) are perspective views of an air blowing pipe, and Figure 1 (d) is an artificial tornado. In drawing 0, which is an explanatory diagram of the generating mechanism, l indicates an artificial tornado generating device, and the artificial tornado generating device l has four air blowing pipes 2. Each air blowing pipe 2 has a
As shown in b), a plurality of circular air blowing holes 3 are arranged in parallel from top to bottom at equal intervals. Each air blowing pipe 2 is attached to the upper air hood 4 so that each air blowing hole 3 faces toward the right air blowing pipe 2. This air hood 4 is not particularly limited as long as it blocks the air, and may be a ceiling.
As shown in c), a long and narrow notch hole may be used, and the effect is the same in either case. The lower part of this air blowing pipe 2 has a slightly larger diameter, and an air blowing fan 6 is housed in this larger diameter portion 5.
Furthermore, a suction port 5 for sucking air into this large diameter portion 5 is provided.
The air suction processing device 7 in which the air suction processing device 7 a is provided is located at the lower part of the space formed by the four air blowing pipes 2 in the substantially central portion in the axial direction. This air suction processing device 7 includes a suction fan 11 and a filter 12 housed in a housing IO that has a substantially cylindrical outer shape and is provided with an air suction port 8 on the top surface and an exhaust port 9 on the circumferential surface. Become. Therefore, with this air suction processing device 7, the air entering the housing 10 from the air suction port 8 is purified by the filter 121 and is discharged from the discharge port 9. Next, the principle of the artificial tornado generating mechanism of the present invention will be explained with reference to FIGS. 1(a) and 1(d). By the air blowing fan 6 in the large diameter part 5 provided at the lower part of each air blowing pipe 2,
When air is sent into each air blowing pipe 2, the air is discharged from each air blowing hole 3. At this time, since the air is blown out one after another so that the direction of each air blowing pipe 2 is always constant and in the same rotational direction, an air curtain C with a lateral flow in the direction of the arrow in FIG. 1 (a) is formed. , the space is surrounded by an air curtain C. Due to the wake action of the air curtain C, a swirling airflow A that continues in the longitudinal direction of the air blowing pipes 2 is generated in the space between each air blowing pipe 2, and furthermore, an air suction port 8 that opens upward at the bottom is generated. A core portion B is formed in the swirling airflow by sucking air from the air with the suction fan 11. In other words, by suctioning from below the axial center of the continuous swirling airflow A, a negative pressure region is formed evenly along the axial center of the swirling airflow A, and a core portion B is generated. What is generated around part B is an artificial tornado H that moves downward toward the air suction port 8. This artificial tornado H sucks the air inside the air curtain C and enters the housing IO via the air suction port 8. The water enters the filter 12, is filtered by the filter 12, and is discharged to the outside from the outlet 9. Although four air blowing pipes 2 are used in this embodiment, any number of air blowing pipes 2 may be used as long as it is three or more. FIG. 2 shows another embodiment of the air suction processing device 7 of the present invention, and the difference from the embodiment shown in FIG. That's what I did. That is, in this embodiment, an ashtray 13 is used instead of the housing IO, and the filter 12 and the suction fan II are housed in the ashtray 13. Note that 14 is a tray for extinguishing and stocking butts; other configurations and functions are the same as in the embodiment shown in FIG.
Reference numerals are given to the drawings and their explanations are omitted. FIG. 3 shows another embodiment of the air suction processing device 7 of the present invention, and the difference from the embodiment shown in FIG. It is a point. That is, in this embodiment, a chair 15 is used instead of the housing IO, and a filter 12 and a suction fan 11 are housed in the chair 15. The other functions of the configuration 1 are the same as those of the embodiment shown in FIG. 1, so the reference numerals are attached to the drawings and the explanation thereof will be omitted. FIG. 4 shows another embodiment of the air suction processing device 7 of the present invention, and the difference from the embodiment shown in FIG. There are points. That is, this embodiment uses desk 16 instead of housing IO.
A filter 12 and a suction fan 1 are installed inside this desk 16.
1 is stored. Other configurations and operations are similar to those in the embodiment shown in FIG. 1, so reference numerals are attached to each drawing and explanation thereof will be omitted. [Effect of the invention 1 As detailed above, according to the artificial tornado generating mechanism of the present invention, the air blown out from multiple locations so as to always rotate in the same direction forms an air curtain surrounding the window space. At the same time, the airflow becomes a swirling airflow, and by suctioning air from the air suction port provided at the bottom, an artificial tornado that moves downward is generated within the air curtain. Therefore, a device for processing harmful gases, dust, etc. collected by the artificial tornado can be installed at the bottom, which eliminates the need for structures to support them, and has other effects such as easier maintenance and inspection. be. Further, according to the artificial tornado generating device having the above configuration, when the air blowing fan connected to the bottom of the plurality of air blowing pipes is operated, the air is always rotated in the same direction from each air blowing hole of each air blowing pipe. The air is blown out to form an air curtain that surrounds the window space and turns into a swirling airflow. At the same time, the air suction fan installed at the bottom is activated to suck air through the upward air suction port, creating an artificial tornado that moves downward toward the air suction port located at the bottom of the air curtain. Therefore, an air blowing fan, an air suction fan, or a device for processing harmful gases, dust, etc. collected by a downward artificial tornado can be installed at the bottom, so structures for supporting these heavy objects can be installed. This eliminates the need for maintenance and inspection. Therefore, installation work becomes easier, and both construction costs and maintenance costs are reduced. In addition, if a filter is installed between the air suction port and the air suction fan to obtain clean air to create an air suction processing device, harmful substances collected by the downward artificial tornado toward the air suction port at the bottom can be removed. Gas, dust, etc. are removed by the filter, resulting in clean air. Therefore,
In addition to the above-mentioned effects, the device can be made more compact. Furthermore, when an air suction processing device is housed in an ashtray, it also has the function of an ashtray, and the smoke from the butts is immediately removed by suction. Therefore, in addition to the above-mentioned effects, there is no need to prepare a separate ashtray, which makes it more convenient and allows for effective use of space. Furthermore, when the air suction processing device is housed in the chair, it also has the functions of a chair. Therefore, there is no need to prepare a separate chair, making it more convenient and allowing effective use of space. Furthermore, when the air suction processing device is housed in the table, it also has the functions of a table. Therefore, there is no need to prepare a separate table or the like, making it more convenient and allowing effective use of space.

[Brief explanation of the drawing]

1 to 4 show embodiments of the present invention.
Figure (a) is a perspective view showing a device to which the artificial tornado generation mechanism of the present invention is applied, Figures 1 (b) and (c) are perspective views of air blowing and pipes, and Figure 1 (d) is the artificial tornado generation mechanism. An explanatory diagram of
FIG. 2(a) is a sectional view showing the air suction processing device of the present invention stored in an ashtray, FIG. 2(b) is a perspective view showing the ashtray in use, and FIG. Figure (A) is a cross-sectional view of the circular shape compared to Figure 2 (A), Figure 3 (B) is a perspective view of the circular shape compared to Figure 2 (B), and Figure 4 (A) is a cross-sectional view of the circular shape compared to Figure 2 (B).
A) is a sectional view of the circular shape, FIG. 4(B) is a perspective view of the circular shape as shown in FIG. 2(B), and FIG. 5 is a perspective view of the circular shape as shown in FIG. l...-Artificial tornado generator 2--Air blowing pipe 3--Air blowing hole 6--Air blowing fan 7--Air suction Processing device 8---Air suction port 12---Filter 15---One chair A---Swirling air flow C-=Air curtain 11---Suction fan 13--- ---Ashtray 16 =--・Desk B ------Air part

Claims (6)

[Claims] (1) Air blows out from multiple locations so as to always rotate in the same direction to form an air curtain that surrounds a certain space, and the wake action of the air curtain forms a swirling airflow, and the center of the swirling airflow is approximately in the axial direction. In the artificial tornado generation mechanism that generates an artificial tornado in the direction of air suction within the air curtain by suctioning air from the air curtain, the air suction port is located at the bottom so that the artificial tornado is directed downward. An artificial tornado generation mechanism characterized by: (2) A plurality of air blowing pipes are provided with air blowing holes in which the air blown out is generally in the same direction, and the air blowing pipes are arranged such that the air blowing out from the air blowing holes always rotates in the same direction. Blow-off pipes are arranged, and an air suction port is provided approximately at the center in the axial direction of the plurality of air blow-off pipes, and air is blown out from the air blow-off holes of the plurality of air blow-off pipes to surround a certain space. An artificial tornado that generates an artificial tornado within the air curtain toward the air suction port by forming an air curtain, forming a swirling airflow by the wake action of the air curtain, and sucking air from the air suction port. In the generator, the air blowing pipe is arranged vertically, and an air blowing fan is connected to the lower part of the air blowing pipe, and the air suction port is arranged upward so that the artificial tornado is directed downward in the vertical direction. An artificial tornado generator characterized by having an air suction fan installed in series. (3) The artificial tornado generator according to claim (2), wherein a filter for obtaining clean air is disposed between the air suction port and the air suction fan to form the air suction processing device. (4) Claim (3) in which the air suction processing device is housed in the ashtray.
) Artificial tornado generating device described. (5) Claim (3) in which the air suction processing device is housed in the chair.
) Artificial tornado generating device described. (6) The artificial tornado generating device according to claim (3), wherein the air suction processing device is housed in the table.