JPH0468242A - Mechanism and device for generating artificial spout and illuminating device employing same - Google Patents

Abstract

PURPOSE:To provide an artificial spout generating mechanism which eliminates a need to erect an air discharge pipe from a space, e.g. a room floor, by a method wherein a plurality of air discharge spots are arranged approximately in a plane and an air suction position is arranged approximately flush with a plurality of the air discharge spots. CONSTITUTION:An artificial spout generating device 1 has eight air discharge pipes 2 and a plurality of air discharge holes 3 are formed in juxtaposition in each air discharge pipe 2. An air suction fan 10 is run, and air is sucked through an air suction port 5 and discharged through each air discharge hole 3 to generate a continuous revolving air flow A. Air is sucked through the air suction port 5 opened in a down state, and a core part B is formed in the revolving air flow a. Through location of an air suction processing device 11 to the lower part of the approximate central part in an axial direction of the revolving air flow A, air is also sucked through an air suction port 5' with the aid of an air suction fan 14, and the core part B is formed in the revolving air flow A. An artificial spout H sucks air in the revolving air flow A, a part thereof enters the air suction port 5, and the rest enters the air suction port 5'. The air is filtered through a filter 15 and discharges through a discharge port 12 to the outside.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an artificial tornado generating mechanism for artificially generating a tornado, its device, and a lighting device using the same.

[Prior art 1] Various methods for artificially generating tornadoes have been developed. For example, an artificial tornado is generated by creating a vortex along the inner wall of the hood in a horizontally long exhaust hood and sucking it in the center. There is a way to do it. 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. Additionally, a tornado-based recovery device for slatch on the ocean floor has been developed, 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 applicant of the present invention filed a patent application No. 106384/1983 for a mechanism for easily and easily generating an artificial tornado, which had previously been considered impossible, and a method for utilizing the same. The present invention is constructed as shown in FIG. That is,
It consists of four 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 aims to: 1) generate an artificial tornado in a space without walls; 2) surround a free space with an air curtain C that rotates in the same direction; and 2) wake effect of the air curtain C. ■ An attempt was made to form a continuous vortex by sucking air from the center of the vortex to form an airflow toward the suction port. It was an attempt to create an artificial tornado in an enclosed free space. In addition, attempts have been made to use the artificial tornadoes generated in this way for purposes such as collecting and discharging harmful gas dust, local heating and cooling, decoration, stirring fluids, transmitting rotational power, etc. 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 1] 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. Furthermore, the air blowing pipe 2 is
All of them are arranged vertically along the space surrounded by the air curtain C, respectively. For this reason, a plurality of air blowing pipes 2 are present in close proximity to the space surrounded by the air curtain, and the installation positions of the air blowing pipes 2 are also limited, so these air blowing pipes 2 may get in the way. There is a risk that the space will not be fully utilized. Therefore, in cases where a large space without obstacles is required, conventional artificial tornado generators cannot be used. Therefore, the present invention was made in view of the above circumstances. The purpose of the present invention is to provide an artificial tornado generating mechanism that does not require an air blowing pipe to be installed in a space such as the floor of a room, and its device, as well as a lighting device using the same. 1. In order to solve the above problems, the artificial tornado generation mechanism of the present invention is as follows.

■ Air blows out from multiple air blowing points in the same rotational direction at all times to form an air curtain that surrounds a certain space, and the wake action of the air curtain forms a swirling airflow, and the swirling airflow is generally directed 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 sucking air from the center, the plurality of air blowing points are arranged so as to be generally planar; The air suction position is arranged approximately horizontally with the plurality of air blowing positions.

(2) Furthermore, the artificial tornado generating device of the present invention has a plurality of air blowing pipes each having air blowing holes through which the air blown out is generally directed in the same direction.

A plurality of the air blowing pipes are arranged so that the air blown out from the air blowing hole always rotates in the same direction, and the air blowing out from the air blowing hole and rotating in the same direction is located at a generally axial center of the air blowing out from the air blowing hole. an air suction port is provided, and air is blown out from the air blowing holes of the plurality of air blowing pipes to form an air curtain surrounding a certain space;
In the artificial tornado generating device that generates an artificial tornado in the air curtain toward the air suction port by forming a swirling airflow by the wake action of the air curtain and sucking air from the air suction port, The air blowing pipe is arranged so as to be generally planar, and the air suction port is provided substantially horizontally to the air blowing pipe.

(2) Also, the air blowing pipes may be arranged radially and an air suction port may be provided substantially horizontally to the air blowing pipes.

(2) Also, the air blowing pipe may be arranged diagonally, and the air suction port may be provided substantially horizontally to the air blowing pipe.

(2) Also, a guide may be provided along the outer periphery of the air blowing hole of the air blowing pipe.

■Also, the air blowing pipe may be formed into a ring shape, a guide vane may be provided in the same direction in the air blowing hole drilled in the air blowing pipe, and an air suction port may be provided approximately horizontally with the air blowing pipe. good.

(2) Alternatively, an air suction fan may be provided in series within the air suction port, and the downstream side of the air suction fan may be communicated with the air blowing pipe.

■Also, a filter may be provided between the air suction port and the air suction fan to obtain clean air.

(2) Alternatively, another air suction port may be provided opposite to the air suction port provided substantially horizontally with the air blowing pipe.

[Phase] Alternatively, an air suction fan may be provided in another air suction port, and a filter may be provided between these for obtaining clean air.

■Also, an air blowing fan may be provided within the air blowing pipe.

(2) In the lighting device of the present invention, a lighting device is provided in the above-mentioned artificial tornado generating device, an air suction fan is connected to the air suction port, and clean air is provided between the air suction port and the air suction fan. A filter is provided to obtain the air, and the downstream side of the air suction fan is communicated with an air blowing pipe.

1. According to the artificial tornado generation mechanism configured as described above, air is blown out from a plurality of air blowing points located generally in a plane so as to always rotate in the same direction, and creates an air curtain that surrounds a certain space. As it forms, it becomes a swirling air current. By simultaneously suctioning air from a plurality of air blowing points arranged in a generally planar manner and an air suction port provided substantially horizontally, an artificial tornado is generated within the air curtain toward the air suction port.

■Also, according to the artificial tornado generator with the above configuration, the air is
Air is always blown out from each of the air blowing holes of a plurality of air blowing pipes arranged in a planar manner so as to always be in the same rotational direction, forming an air curtain surrounding a certain space and creating a swirling airflow. At the same time, when air is sucked through an air suction port disposed substantially horizontally to the air blowing pipe, an artificial tornado is generated within the air curtain toward the air suction port.

(2) Also, the same effect as described above can be obtained by arranging the air blowing pipes of the above-mentioned artificial tornado generating device radially or (2) disposing them diagonally.

■By arranging a guide along the outer periphery of the air blowing hole of the air blowing pipe, the swirling airflow is guided by the guide, resulting in a more stable artificial tornado.

■In addition, the air blown out from the air outlet of the ring-shaped air blowing pipe so that it always rotates in the same direction forms an air curtain that surrounds a certain space by the guide vanes installed in the same direction, and also rotates. It becomes an air current. At the same time, when air is sucked through an air suction port disposed substantially horizontally to the air blowing pipe, an artificial tornado is generated within the air curtain toward the air suction port.

■Also, by installing an air suction fan in the air suction port and communicating the downstream side of the air suction fan with the air blowing pipe, the air from the discharge side of the air suction fan can be sent to the air blowing pipe. , air can be blown out from the air outlet.

■In addition, if a filter is placed between the air suction port and the air suction fan to obtain clean air, the air containing harmful gases and dust collected by the artificial tornado heading toward the air suction port will be removed by the filter. removed, resulting in clean air.

■Also, if another air suction port is arranged opposite to the air suction port provided approximately horizontally with the air blowing pipe, air will be sucked into each air suction port, and a portion of each core will be drawn into the swirling airflow. is generated, and a continuous artificial tornado is obtained that moves toward each air suction port centering on a portion of each fan.

[Phase] Also, if an air suction fan is installed in another air suction port and a filter is placed between these to obtain clean air, noxious gases or Air containing dust and the like is removed by a filter, resulting in clean air.

@Also, if an air blowing fan is installed in the air blowing pipe, the air blowing fan with the minimum necessary air volume will blow air directly from the air blowing hole of the air blowing pipe.
Form an air curtain.

■According to the lighting device with the above configuration, when the lighting equipment is installed in the artificial tornado generating device, the air containing harmful gases and dust collected by the artificial tornado heading towards the air suction port is filtered out. It is removed, resulting in clean air and can be used as lighting equipment.

[Embodiment 1] Hereinafter, an embodiment of the present invention will be described in detail based on FIGS. 1 to 11.

FIG. 1 is a perspective view showing a device to which the artificial tornado generation mechanism of the present invention is applied, FIGS. 2(a) and 2(b) are perspective views of an air blowing pipe, and FIG. Fig. 4 is a cross-sectional view taken along line ■-IV in Fig. 1;
The figure is a vertical cross-sectional view taken along line V-V in Figure 1, and Figure 6 is an explanatory diagram of the artificial tornado generating mechanism. It has a real air blowing pipe 2. Each of these air blowing pipes 2 has a plurality of circular air blowing holes 3 arranged in parallel from top to bottom at equal intervals, as shown in FIG. 2(A).

Further, the air blowing hole 3 may be an elongated notch hole, as shown in FIG. 2(b), and the effect will be the same.

Each air blowing pipe 2 is radially connected to an air suction port 5 provided approximately at the center of the upper air hood 4 so that each air blowing hole 3 faces toward the air blowing pipe 2 on the right side. It is installation. This air hood 4 has a shallow tray shape with a substantially square cross section and is not particularly limited as long as it blocks the air, and may be a ceiling. A curved plate 6 is provided at each position. This handle 6 constitutes a guide 8 together with the side wall portion 7 of the air hood 4. This guide 8 guides the air blown out in a straight direction from the air blowing hole 3 of the air blowing pipe 2, so that the swirling airflow A is stabilized. It is intended to be used as a target. This guide 8 is not an essential requirement for this artificial tornado generation bag Ml, and an artificial tornado can occur even without it. However, if this guide 8 is present, the artificial tornado will be stabilized, making it more convenient. Incidentally, 9 is a hanging fitting for hanging the artificial tornado generator 1.

These air blowing pipes 2 are L-shaped,
Its distal end is closed, and its proximal end is connected to the peripheral wall surface of the air suction port 5 at equal angles. Therefore, the air blowing pipe 2 and the air suction port 5 are communicated with each other.

The air suction port 5 has a cylindrical shape and is open at the lower end,
The upper end is closed by the air hood 4. An air suction fan IO is housed within this air suction port 5.

The air suction processing device 11 includes eight air blowing pipes 2.
A swirling airflow A is blown out from the air outlet 3 of the
It is located at the lower part of the substantially central part in the axial direction.

This air suction processing device 11 has a substantially cylindrical outer shape, has an air suction port 5° on the top surface which also serves as a butt input port, and sucks air into an ashtray 13 provided with an air discharge port 12 on the circumferential surface. It houses a fan 14 and a filter 15. Therefore, with this air suction processing device 11, the air entering the ashtray 13 from the air suction port 5° is purified by the filter 15 and is discharged from the discharge port 12. Incidentally, 16 is a tray for extinguishing butts and storing them.

Next, the principle of the artificial tornado generating mechanism of the present invention will be explained with reference to FIGS. 1 and 6. When the air suction fan 10 provided in the air suction port 5 located approximately at the center in the axial direction of the air hood 4 is rotated, air is sucked from the air suction port 5 and sent to each air blowing pipe 2. Air is discharged from the blow-off hole 3. At this time, the air is blown out in a straight line one after another so that the direction of each air blowing pipe 2 is always constant and in the same rotational direction, so a swirling airflow A that continues in the direction of the arrow in Fig. 1 occurs. . This swirling airflow A is stabilized by the guide 8 and surrounds a certain space in the axial direction of the air hood 4. As mentioned above, since the air is sucked by the suction fan 1 [] from the air suction port 5 which is opened downward at the lower part of the substantially axial center of the air hood 4, part of the core B is inside the swirling airflow A. It is formed. That is, by suctioning from above 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 the core portion B is generated. An upwardly directed artificial tornado H toward the air suction port 5 is generated around this core portion B. This artificial tornado H is stabilized by the guide 8 and sucks the air in the swirling airflow A.

The air enters the air suction port 5° and is blown out from the air blowing pipe 2 again.

In addition, if the air suction processing device 11 is provided at the lower part of the swirling airflow A in the axial direction, the air suction fan 14 can also suck air from the air suction port 5° that opens upward at the lower part. Therefore, the core portion B is formed within the swirling airflow A. In other words, by suctioning from above and below the axial center of the continuous swirling airflow A, a core portion B is created in which a negative pressure region is formed evenly and stably along the axial center of the swirling airflow. become. What is generated around this core portion B is a continuous artificial tornado +1 directed upward and downward toward the air suction ports 5 and 5°, respectively. This artificial tornado H sucks air in the swirling airflow A, some of which enters the air suction port 5, the rest of which enters the ashtray 13 via the air suction port 5', and filters 15
is filtered and discharged to the outside from the discharge port 12.

Although eight air blowing pipes 2 are used in this embodiment, any number of air blowing pipes 2 may be used as long as it is two or more, preferably three or more.

7 and 8 show another embodiment of the artificial tornado generating device of the present invention, and the difference from the embodiment shown in FIGS. 1 to 6 is that The air blowing pipes 2 are arranged at diagonal positions of the air hood 4, and the air blowing fans 20 are respectively provided in the base end portions of the air blowing pipes 2. Note that an air suction fan 10 may be provided in the air suction port 5, or may be connected to an air suction fan 10 provided at another position through a duct (not shown), or may have other configurations and functions. Since the components are the same as those in the embodiment shown in FIGS. 1 to 6, reference numerals are attached to the drawings and explanation thereof will be omitted.

9 and 1O show other embodiments of the artificial tornado generating device of the present invention, and the difference from the embodiments of FIGS. 1 to 6 is that the The air hood 4 is made circular, and a ring-shaped air blowing chamber 2' is arranged around its periphery, and a guide vane 21 is provided in each air blowing hole 3 of this air blowing chamber 2'.

In addition, an air blowing fan 2θ is provided within the ring-shaped air blowing chamber 2°, and furthermore, this air blowing fan 20
The downstream side of the air suction port 5 is connected to the air suction port 5. The other configurations and operations are the same as those of the embodiment shown in FIGS. 1 to 6, so the reference numerals are attached to the drawings and the explanation thereof will be omitted.

FIG. 11 shows a lighting device 22 in which the artificial tornado generator of the present invention is incorporated into a lighting fixture. That is, in the embodiment shown in FIG. 9 and FIG.
A filter 15 and an air suction fan 10 are respectively provided in the air suction port 5, and the downstream side of the air suction fan IO is connected to the air blowing pipe 5 for communication. With this configuration, the indoor contaminated air is immediately sucked into the air suction port 5 by the artificial tornado H, and is filtered by the filter 15 to become clean air, and the clean air is again passed through the guide vane 21. This creates a swirling airflow A, which is suctioned by the air suction port 5 and becomes an artificial tornado (1) heading towards the air suction port 5. In addition, 24 in FIG. 11 is a light bulb (four-bright appliance).

Effects of the Invention 1 As detailed above, ■According to the artificial tornado generation mechanism of the present invention, an air curtain that surrounds a certain space is formed by Prj number of air blowing points and air suction ports that are arranged approximately two-dimensionally. At the same time, an artificial tornado can be generated within the air curtain toward the air suction port. Therefore, there is no need to provide a plurality of three-dimensional air blowing points to form an air curtain for enclosing a certain space, and the mechanism becomes compact, allowing effective use of space such as two rooms.

■Also, the device using the artificial tornado generation mechanism of the present invention is compact with a plurality of air blowing pipes and air suction ports arranged in a generally planar manner, and this device can create an air curtain surrounding a certain space. At the same time, an artificial tornado can be generated within the air curtain toward the air suction port. Therefore, space such as a room can be used effectively.

(2) Also, by arranging a plurality of air blowing pipes radially around the air suction port or (2) arranging them at diagonal positions, the single volume generator can be easily made compact.

■If a guide is arranged along the outer periphery of the air blowing hole of the air blowing pipe, the swirling airflow will be guided by this guide, and a more stable artificial tornado can always be obtained.

■Also, even if the air blowing pipe is formed into a ring shape and a guide vane is provided in the air blowing hole of the air blowing pipe,
The artificial tornado generator can be easily made compact.

■Also, if an air suction fan is connected to the downstream side of the air suction port and the downstream side of the air suction fan is connected to the air blowing pipe, the air from the discharge side of the air suction fan is sent to the air blowing pipe. The air can be blown out from the air outlet. Therefore, there is no need to separately provide an air blowing fan.

■Additionally, by installing a filter to obtain clean air between the air suction port and the air suction fan, even though it is a compact device, it is possible to eliminate toxic gases and dust collected by the artificial tornado heading toward the air suction port. Filters can purify air that contains pollutants.

■Also, if another air suction port is placed opposite to the air suction port that is installed approximately horizontally with the air blowing pipe, a continuous artificial tornado will flow toward each air suction port, so one artificial tornado will be It becomes stable.

[Phase] Also, if an air suction fan is installed downstream of another air suction port, and a filter is placed between them to obtain clean air, the air flowing toward the other air suction port can be installed even though it is a compact device. Air containing toxic gases and dust collected by artificial tornadoes can be purified by filters.

■In addition, by installing an air blowing fan in the air blowing pipe, air can be blown directly from the air blowing hole of the air blowing pipe using the air blowing fan with the minimum required air volume, forming an air curtain. There is no need to separately provide a suction fan.

■According to the lighting device having the above configuration, when the lighting device is installed in the artificial tornado generating device, the air containing toxic gases and dust collected by the artificial tornado heading toward the air suction port is filtered out. Since it can be cleaned, it can be used as a lighting fixture as well as purifying the air, even though it is compact.

[Brief explanation of drawings]

Figures 1 to 1! The figures show embodiments of the present invention; Fig. 1 is a perspective view showing a device to which the artificial tornado generating mechanism of the present invention is applied; Figs. 2 (a) and (b) are perspective views of an air blowing pipe; Figure 3 is a longitudinal cross-sectional view taken along line Ill-Ill in Figure 1, Figure 4 is a cross-sectional view taken along line +V - +V in Figure 3, and Figure 5 is a cross-sectional view taken along line V-V in Figure 1. A vertical sectional view, FIG. 6 is an explanatory diagram of an artificial tornado generating mechanism, FIGS. 7 and 8 are sectional views showing other embodiments of the artificial tornado generating device of the present invention, and FIG.
FIG. 1O is a cross-sectional view showing another embodiment of the artificial tornado generating device of the present invention, and FIG. 11 is a vertical cross-sectional view showing a state in which the artificial tornado generating device of the present invention is applied to a lighting device. FIG. 12 is a circular perspective view of FIG. 1 showing a conventional example. 1---...Artificial tornado generator 2...Air blowing pipe 2°...Air blowing chamber 3...
Air blowout hole (air blowout point) 5.5°...-
・Air suction port (air suction position) 6.20...
Air blowing fan 8...Guide 10
......-Suction fan 15...Filter
21...Guide vane 22-...-Lighting device 24...-Light bulb (lighting equipment)

Claims (12)

[Claims] (1) Air blows out from multiple air blowing points in the same rotational direction at all times to form an air curtain that surrounds a certain space, and the wake action of the air curtain forms a swirling airflow, and the swirling airflow is generally In an artificial tornado generation mechanism that generates an artificial tornado in the air curtain in the direction of air suction by suctioning air from the center in the axial direction, the plurality of air blowing points are arranged so as to be generally planar. An artificial tornado generating mechanism characterized in that an air suction position is arranged substantially horizontally with the plurality of air blowing positions. (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; The air blowing pipe is disposed, and an air suction port is provided in the center of the air blowing out from the air blowing hole in the same rotational direction in the axial direction, and the air is blowing out from the air blowing hole of the plurality of air blowing pipes. By blowing out air to form an air curtain surrounding a certain space, and forming a swirling airflow by the wake action of the air curtain, and sucking air from the air suction port,
In the artificial tornado generating device that generates an artificial tornado directed toward the air suction port within the air curtain, the air blowing pipe is arranged to be generally planar, and the air suction port is arranged substantially horizontally with the air blowing pipe. An artificial tornado generating device characterized by being provided with. (3) The artificial tornado generator according to claim (2), wherein the air blowing pipes are arranged radially and an air suction port is provided substantially horizontally to the air blowing pipes. (4) The artificial tornado generating device according to claim (2), wherein the air blowing pipes are disposed diagonally and an air suction port is provided substantially horizontally to the air blowing pipes. (5) Claim (2), (3) or (4), wherein a guide is arranged along the outer periphery of the air blowing hole of the air blowing pipe.
The artificial tornado generating device described. (6) The air blowing pipe is formed into a ring shape, and the air blowing hole bored in the air blowing pipe is provided with a guide vane in the same direction, and the air suction port is provided substantially horizontally with the air blowing pipe. The artificial tornado generating device according to item (2). (7) Claim (2), (3), (4), (5) or (6), wherein an air suction fan is provided in series in the air suction port and the downstream side of the air suction fan is communicated with the air blowing pipe. ) Artificial tornado generating device described. (8) Claim (2), wherein a filter for obtaining clean air is disposed between the air suction port and the air suction fan.
3), (4), (5), (6), or the artificial tornado generator described in (7). (9) Claim (2) in which another air suction port is disposed opposite to the air suction port provided substantially horizontally with the air blowing pipe.
), (3), (4), (5), (6), (7) or (8
) Artificial tornado generating device described. (10) The artificial tornado generating device according to claim (9), wherein an air suction fan is provided in the other air suction port and a filter for obtaining clean air is provided between the air suction fans. (11) Claims (2), (3), (4), (5), (6), (
9) or the artificial tornado generator described in (10). (12) Claims (2), (3), (4), (5) or (
6) A lighting device is provided in the artificial tornado generating device described above, and an air suction fan is connected to the air suction port, and a filter for obtaining clean air is provided between the air suction port and the air suction fan. , and a lighting device in which a downstream side of the air suction fan and an air blowing pipe are communicated with each other.