JP2003042052A - Street light device utilizing generation with wind power and solar light - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a street light device utilizing wind power generation and solar power generation capable of increasing the generation capacity of the wind power generation by effectively utilizing the wind hitting a solar panel. SOLUTION: The street light device comprises a wind power generator means with a generator connected to the rotation shaft of a vertical-axis wind turbine, a solar power generator means with the solar panel, an accumulation means for accumulating the power generated by the wind power generator means and the solar power generator means, and a lighting means for emitting light by using the power accumulated in the accumulation means. The wind power generator means, solar power generator means and lighting means are held by a support at a prescribed height from the ground. The solar panel is disposed so that the wind hitting the solar panel is guided to blades of the vertical-axis wind turbine.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a streetlight device utilizing wind and solar power generation in which wind power generation means, solar power generation means, and lighting means are held at a predetermined height from the ground by stanchions, and this streetlight device. Information management system.

[0002]

2. Description of the Related Art Streetlight devices and advertising towers utilizing wind power generation and solar power generation have been conventionally proposed. For example, Japanese Patent Application Laid-Open No. 8-138422 proposes a streetlight device that can be used as a monument having the characteristics of the city without impairing the scenery of the cityscape and that uses windmill power generation and solar power generation integrated in the monument. ing.

[0003]

However, in the conventional devices utilizing wind power generation and solar power generation, although the electric power generated from each of them is stored in the same storage means,
Regarding power generation, the wind power generator and the solar power generator only function independently, and none of the organic generators organically functions the other power generators. On the other hand, this type of device utilizing wind power or sunlight is a device suitable for a disaster such as a flood or an earthquake because it can operate without supplying power from other sources. Therefore, it is preferable that the device be a device that functions effectively in the event of a disaster, and that the system be a device that functions effectively in the event of a disaster.

[0004] Therefore, the present invention aims to provide a streetlight device utilizing power generation by wind power and sunlight, which can enhance the power generation capacity of wind power generation by effectively utilizing the wind hitting the solar panel. And It is another object of the present invention to provide a streetlight device that uses power generation by wind power and sunlight, which can maintain the lighting function without the power storage means being submerged in the event of flood damage. Another object of the present invention is to provide a streetlight device using power generation by wind power and sunlight, which can provide timely information as information provision at the time of disaster or as an advertising means. Another object of the present invention is to provide an information management system capable of timely advertisement according to a time zone or installation location, or capable of displaying emergency information in a timely manner in the event of a disaster. Another object of the present invention is to provide an information management system capable of effectively monitoring a park or the like and preventing crimes or the like.
Another object of the present invention is to provide an information management system capable of efficiently performing maintenance and inspection of each streetlight device and promptly responding to an abnormality.

[0005]

According to the present invention, there is provided a streetlight device utilizing power generation by wind power and solar power, wherein wind power generation means has a rotating shaft of a vertical shaft type wind turbine and a generator connected thereto.
A solar power generation unit having a solar panel, a power storage unit that stores the power generated by the wind power generation unit and the solar power generation unit, and an illumination unit that emits light using the power stored in the power storage unit. A streetlight device using wind power and solar power generation, in which the wind power generation unit, the solar power generation unit, and the lighting unit are held at a predetermined height from the ground by a pillar, and the wind hits the solar panel. The solar panel is arranged so as to guide the to the blades of the vertical wind turbine. According to a second aspect of the present invention, in the streetlight device using the wind power and the solar power generation according to the first aspect, the solar panel is located below the vertical wind turbine and has a predetermined dimension from the pillar. It is characterized in that the solar panels are installed apart from each other and the upper end of the solar panel is installed so as to be inclined so as to be close to the vertical wind turbine side. According to a third aspect of the present invention, in the streetlight device using the wind power and the solar power generation according to the first aspect, the solar panel is composed of a plurality of panels in different directions. To do. A streetlight device using power generation by wind power and solar light according to the present invention according to claim 4, a wind power generation unit having a generator connected to a rotating shaft of a wind turbine, a solar power generation unit having a solar panel, and the wind power generation unit. Means and a power storage means for storing the power generated by the solar power generation means, and a lighting means for emitting light using the power stored in the power storage means, the wind power generation means, the solar power generation means and the lighting. And a means for holding the means at a predetermined height above the ground using a wind power and solar power generation, wherein a capacitor is used as the power storage means, and the power storage means is held at a predetermined height above the ground by the pillars. It is characterized by doing. According to a fifth aspect of the present invention, in the streetlight device using the wind power and the solar power generation according to the first or fourth aspect, the lighting means is a display means for displaying information by characters or images. Is characterized by. A streetlight device using power generation by wind power and solar light according to the present invention according to claim 6, a wind power generation unit in which a generator is connected to a rotating shaft of a wind turbine, a solar power generation unit having a solar panel, and the wind power generation. Means and power storage means for storing power generated by the solar power generation means, and display means for displaying using the power stored in the power storage means, the wind power generation means, the solar power generation means, and the display. And a means for holding the means at a predetermined height from the ground by means of a pillar, and a streetlight device utilizing power generation by wind power and sunlight, wherein a receiving means for receiving information from the outside is provided, and the information received by the receiving means is displayed on the display. It is characterized by displaying by means. According to a seventh aspect of the present invention, in the streetlight device using the wind power and the solar power generation according to the sixth aspect, the electric power of the power storage means is used as a power source required for the receiving means. To do. An information management system of the present invention according to claim 8 is a streetlight device that uses power generation by wind power and solar power according to claim 6 installed at a predetermined location,
The centralized management server transmits display information to a plurality of the streetlight devices. An information management system according to the present invention according to claim 9 is characterized in that a streetlight device utilizing wind power and solar power according to claim 6 is provided with a photographing means.
The centralized management server receives the photographing information from the photographing means. An information management system of the present invention according to claim 10 is the streetlight device using power generation by wind power and sunlight according to claim 6, wherein the power generation function of the wind power generation means or the solar power generation means, or the power storage means. The monitoring means for monitoring the power storage function is provided, and the monitoring information from the monitoring means is received by the centralized management server.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION A streetlight device using power generation by wind power and sunlight according to a first embodiment of the present invention is a solar panel so as to guide the wind hitting the solar panel to the blades of a vertical wind turbine. Is arranged. In this way, by guiding the wind hitting the solar panel to the blades of the vertical wind turbine, the power generation capacity of wind power generation can be enhanced. In particular,
Comparing the rated outputs of wind power generation and solar power generation, which are generally adopted at present, the output of wind power generation is lower than that of solar power generation in consideration of practical size. Therefore,
By increasing the power generation capacity on the low output side, the power storage capacity can be further increased.

The second embodiment of the present invention is a streetlight device using power generation by wind power and sunlight according to the first embodiment, in which the solar panel is below the vertical wind turbine and The solar panel is installed at a predetermined distance from, and the upper end of the solar panel is tilted so as to be close to the vertical wind turbine side. In this way, by arranging the solar panel below the vertical wind turbine, the panel surface of the solar panel is kept at an inclination angle at which the irradiation light of the sun can be efficiently received and the solar panel is hit. The wind can be effectively guided to the blades of the wind turbine.

A third embodiment of the present invention is a streetlight device using power generation by wind power and sunlight according to the first embodiment, in which the solar panel is composed of a plurality of panels in different directions. It was done. In this way, by disposing a plurality of solar panels with their panel surfaces oriented in different directions, it is possible to cope with different wind directions and to enhance the power generation capacity of wind power generation.

A streetlight device using power generation by wind power and sunlight according to the fourth embodiment of the present invention uses a capacitor as a power storage means and holds the power storage means at a predetermined height from the ground by a pillar. In this way, by holding the power storage means at a predetermined height above the ground, the power storage means will not be submerged in water even when the water is damaged, and the illumination function can be maintained. Further, since the capacitor is used as the power storage means, it is lighter in weight than the power storage means such as a lead storage battery, and thus a large-capacity capacitor can be used without impairing stability.

A fifth embodiment of the present invention is a streetlight device utilizing power generation by wind power and solar power according to the first or fourth embodiment, in which the illumination means is a display for displaying information by characters or images. It is a means. In this way, by causing the illumination means to function as the display means, it can be used, for example, as information provision in the event of a disaster or as advertising means.

A streetlight device utilizing power generation by wind power and sunlight according to a sixth embodiment of the present invention is provided with a receiving means for receiving information from the outside, and the information received by the receiving means is displayed on the display means. It is a thing. In this way, by providing the receiving means and displaying the information from the outside, it is possible to provide the timely information as the information provision at the time of a disaster or as the advertising means.

The seventh embodiment of the present invention uses the electric power of the power storage means as a power source required for the receiving means in the streetlight device using the wind power and the solar power generation according to the sixth embodiment. It is a thing. In this way, by using the power of the power storage means as the power source of the reception means, it is possible to maintain a stable operating environment even in the event of a disaster, for example.

In the information management system according to the eighth embodiment of the present invention, streetlight devices utilizing power generation by wind power and solar power according to the sixth embodiment are installed at predetermined places respectively, and a plurality of streetlight devices are installed. On the other hand, the centralized management server transmits display information. In this way, by managing the information displayed on each streetlight device by the central management server, for example, timely advertisement can be performed according to the time zone and installation location, or emergency information can be displayed in a timely manner in the event of a disaster. You can

An information management system according to a ninth embodiment of the present invention is provided with a photographing means in a streetlight device utilizing power generation by wind power and sunlight according to the sixth embodiment, and collects photographing information from the photographing means. It is received by the management server. As described above, by providing the image capturing means in each streetlight device and centrally managing the image capturing information, it is possible to effectively monitor, for example, a park and prevent crimes.

An information management system according to a tenth embodiment of the present invention is a streetlight device utilizing power generation by wind power and solar power according to the sixth embodiment, and has a power generation function of wind power generation means and solar power generation means. Alternatively, monitoring means for monitoring the power storage function of the power storage means is provided, and the monitoring information from the monitoring means is received by the centralized management server. As described above, by providing the monitoring means in each streetlight device and centrally managing the monitoring information, it is possible to efficiently perform maintenance and inspection of each streetlight device and to promptly respond to an abnormality.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a streetlight device utilizing power generation by wind power and sunlight according to the present invention will be described below with reference to the drawings. 1 is a front view of the streetlight device, FIG. 2 is a top view of the streetlight device, FIG. 3 is a side view of the streetlight device, and FIG. 4 is AA of FIG.
FIG. 5 is a cross-sectional view taken along the line, and FIG. 5 is a perspective view of the streetlight device.

The streetlight device according to the present embodiment includes a wind power generation means 10, a solar power generation means 20, a power storage means 30 for storing power generated by the wind power generation means 10 and the solar power generation means 20, and a power storage means 30. The illumination means 40 which emits light using the stored electric power is provided. Wind power generation means 10
The solar power generation means 20 and the lighting means 40 are held at a predetermined height from the ground by the pillar 1. In addition, the pillar 1 is
It is installed on the ground by the mount 2. The electricity storage means 30 is arranged in the mount 2. The mounting base 2 is installed by a fixing means such as an anchor bolt. In this case, fixing means such as anchor bolts are preferably arranged inside the mounting base 2. As the power storage means 30, a lead storage battery or a capacitor can be used.

The wind power generation means 10 is arranged at the upper end of the column 1 and comprises a wind turbine 11 and a generator 12. Windmill 11
Is a rotating shaft 1 connected to a generator 12 via a joint 13.
4, a plurality of blades 15 arranged around the rotating shaft 14, and a wind turbine frame 16 covering the outer periphery of the blade 15. Bearings 17 are provided on the upper end and the lower end of the rotary shaft 14, and the rotary shaft 14 is rotatably held by the bearings 17. Each bearing 17 is held by a tubular body 18. Windmill frame 16
Is composed of a plurality of guides, and these guides are connected to the cylinder body 18 on the upper end side and the cylinder body 18 on the lower end side. The guides forming the wind turbine frame 16 are shaped so as to be narrowed toward the rotating shaft 14 on the upper end side and the lower end side. The blades 15 are provided in two stages in the axial direction of the rotary shaft 14. Further, each stage is provided with two or three blades. A storage portion 19 for storing the generator 12 is provided below the lower end tubular body 18. The storage portion 19 has an outer diameter smaller than that of the wind turbine frame 16 and is connected to the support column 1 with the lower side thereof being conically narrowed. The wind power generation means 1
The wind turbine used for 0 is preferably a Savonius type or a cross flow type vertical axis type wind turbine. By using the Savonius type wind turbine, it is possible to realize a wind turbine with low noise and high safety. The mounting base 2 is provided with an inspection door 2A, and the storage section 19 is provided with an inspection door 19A. Further, the illuminance sensor 3 is provided on the cylindrical body 18 at the upper end of the wind turbine generator 10. This illuminance sensor 3 can turn on and off the lights automatically.

The solar power generation means 20 has a solar panel 21 having a solar module made of polycrystalline silicon on one surface. A mounting plate 22 is provided on the other surface of the solar panel 21. The solar panel 21 is arranged at a predetermined position and at a predetermined angle by a horizontal arm 23 and an inclined arm 24 that connect the mounting plate 22 and the support 1. The solar panel 21 is arranged so as to guide the wind hitting one surface of the solar panel 21 on which the solar module is provided to the blades 15 of the wind turbine 11. That is, the solar panel 21 is installed below the wind turbine 11 and separated from the support 1 by a predetermined distance by the horizontal arm 23 and the inclined arm 24, and the upper end of the solar panel 21 is placed close to the wind turbine 11 side. It is inclined to. The lighting unit 40 is arranged below the solar panel 21. Lighting means 40
Installs an illuminating lamp 41 formed by an ultra-high-brightness LED on the column 1 facing downward.

The wind power generation means 10, the solar power generation means 20, and the lighting means 40 are electrically connected to the power storage means 30 via the control device 4, and the electric power generated by the wind power generation means 10 and the solar power generation means 20. Is stored in the storage means 30, and the illumination means 40 is caused to emit light by using the electric power stored in the storage means 30. In addition, the signal from the illuminance sensor 3 also controls the control means 4.
Is input to control lighting and extinction.

By guiding the wind hitting the solar panel 21 to the blades 15 as in this embodiment, the power generation capacity of the wind power generation means 10 can be enhanced. In particular, the wind power generation means 10 having a rated output lower than the rated output of the solar power generation means 20.
Is effective when using. In addition, by arranging the solar panel 21 below the wind turbine 11, the panel surface of the solar panel 21 is kept at an inclination angle at which the irradiation light of the sun can be efficiently received and the solar panel 21 is hit. The wind can be effectively guided to the blades 15 of the wind turbine 11.

Another embodiment of the streetlight device using the wind power and the solar power generation of the present invention will be described below with reference to the drawings. The components having the same functions as those in the above embodiment are designated by the same reference numerals and the description thereof will be omitted. Further, other configurations not shown in the following embodiments are similar to those of the above embodiments.

FIG. 6 is a perspective view of the streetlight device. The streetlight device according to the present embodiment uses, as the solar power generation means 20, four solar panels 21 each having a solar module made of polycrystalline silicon on one surface. The two solar panels 21A and 21B are arranged in the same direction and at the same angle. In addition, the other two solar panels 21C and 21D
Also in the same direction and at the same angle. Two
One solar panel 21A, 21B (21C, 21D)
Are provided at a predetermined interval. Even when the two solar panels 21A, 21B (21C, 21D) are provided with a predetermined gap in this way, the two solar panels 21A, 21B (21C, 21D) are horizontally aligned. The wind hit from the wind becomes the airflow toward the upper windmill 11,
The amount of air blown on the blades 15 can be increased. Further, the illumination means 40A and 40B according to the present embodiment are display means for displaying information by characters and images.
Further, the illumination means 40A and 40B are provided so as to face the other directions, respectively. In FIG. 6, the illuminating means 40A is arranged on the column 1 below the solar panels 21A and 21B, and the illuminating means 40B is arranged on the column 1 below the solar panels 21C and 21D. Lighting means 40
For A and 40B, it is preferable to use a display using an ultra-high brightness LED.

FIG. 7 is a perspective view of the streetlight device according to another embodiment. The streetlight device according to the present embodiment uses, as the solar power generation unit 20, three solar panels 21 each having a solar module made of polycrystalline silicon on one surface. The three solar panels 21E, 21F, 21G are
They are arranged at the same angle in different directions. At this time, the three solar panels 21E, 21F, and 21G are provided at equal intervals. Like this 3
By installing the solar panels 21E, 21F, and 21G in different directions in different directions, each solar panel 21
The wind blown from the directions of E, 21F, and 21G becomes an airflow toward the upper windmill 11, and the amount of wind hitting the blades 15 can be increased. Further, the illumination means 40A and 40B according to this embodiment are display means for displaying information by characters and images, as in the embodiment shown in FIG.

FIG. 8 is a sectional view of the streetlight device according to still another embodiment. The streetlight device according to the present embodiment includes the power storage unit 3
0 and the control device 4 are provided in the storage unit 19. In the present embodiment, the power storage means 30 and the control device 4 are
By providing it in the storage section 19, the support 1 is installed on the ground as it is without using the mounting base 2. As shown in the present embodiment, by holding the electricity storage means 30 and the control device 4 at a predetermined height from the ground by the pillars 1, the electricity storage means 30 and the control device 4 will not be submerged even in the event of a flood, and the illumination function Can be maintained. Further, when the electricity storage means 30 is held at a predetermined height from the ground by the pillar 1 as in the present embodiment, it is preferable to use a capacitor as the electricity storage means 30. By using a capacitor as the power storage unit 30, since it is lighter than a power storage unit such as a lead storage battery, a large-capacity capacitor can be used without impairing stability. Although the mounting base 2 is not provided in this embodiment, the mounting base 2 may be provided to ensure the stability of the streetlight device. In addition, in this embodiment, the solar power generation means 20 and the illumination means 40 have the same configuration as that of the embodiment shown in FIG. 1, but the other embodiments shown in FIG. 6 and FIG. A configuration may be adopted.

Although not shown, the streetlight device described in each of the above embodiments is a communication device capable of receiving information from the outside, such as a portable terminal capable of communication using a base station or satellite. Is preferably provided. Then, it is preferable that the information received by the receiving means included in the communication device is displayed by the illuminating means (display means). Thus, by providing the streetlight device with the receiving means and displaying the information from the outside, it is possible to provide the timely information as the information provision at the time of a disaster or as the advertising means, for example. At this time, it is preferable to use the power of the power storage unit 30 as a power source required for the communication device. In this way, by using the electric power of the power storage unit 30 as the electric power source of the communication device, it is possible to maintain a stable operating environment even in the event of a disaster, for example.

An embodiment of an information management system provided with a streetlight device equipped with a communication device and a centralized management server capable of transmitting, receiving, or transmitting and receiving information between the streetlight device and the communication device of this streetlight device Will be described below. It is preferable to transmit the display information from the central management server to a plurality of streetlight devices respectively installed in predetermined places. In this way, by managing and transmitting the information displayed by each streetlight device by the central management server, for example, timely advertisement can be performed according to the time zone or the installation location, or emergency information can be timely provided in the event of a disaster. Can be displayed. Further, it is preferable that the streetlight device is provided with a photographing means and the photographing information from the photographing means is received by the central management server. As described above, by providing the image capturing means in each streetlight device and centrally managing the image capturing information, it is possible to effectively monitor, for example, a park and prevent crimes. Further, it is preferable that a monitoring means for monitoring the power generation function of the wind power generation means or the solar power generation means or the power storage function of the power storage means is provided in the streetlight device, and the monitoring information from the monitoring means is received by the centralized management server. As described above, by providing the monitoring means in each streetlight device and centrally managing the monitoring information, it is possible to efficiently perform maintenance and inspection of each streetlight device and to promptly respond to an abnormality.

[0028]

According to the present invention, it is possible to enhance the power generation capacity of wind power generation by effectively utilizing the wind hitting the solar panel. Further, according to the present invention, the illumination function can be maintained without the power storage means being submerged in water, for example, in the event of water damage. Further, according to the present invention, it is possible to provide timely information, for example, as information provision at the time of disaster or as an advertising means. Further, according to the present invention, for example, a park or the like can be effectively monitored, and a crime or the like can be prevented. Further, according to the present invention, it is possible to provide timely information, for example, as information provision at the time of disaster or as an advertising means. Further, according to the present invention, maintenance and inspection of each streetlight device can be efficiently performed, and a response to an abnormality can be swiftly performed.

[Brief description of drawings]

FIG. 1 is a front view of a streetlight device using wind and solar power generation according to an embodiment of the present invention.

FIG. 2 is a top view of the streetlight device.

FIG. 3 is a side view of the streetlight device.

FIG. 4 is a sectional view taken along line AA of FIG.

FIG. 5 is a perspective view of the streetlight device.

FIG. 6 is a perspective view showing another embodiment of a streetlight device using power generation by wind power and sunlight according to the present invention.

FIG. 7 is a perspective view showing still another embodiment of a streetlight device using power generation by wind power and sunlight according to the present invention.

FIG. 8 is a cross-sectional view showing still another embodiment of the streetlight device using the wind power and the solar power generation of the present invention.

[Explanation of symbols]

1 prop 10 Wind power generation means 11 windmills 12 generator 14 rotation axis 15 feathers 20 Solar power generation means 21 solar panels 30 power storage means 40 Lighting means

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) // F21Y 101: 02 F21S 1/02 G (72) Inventor Yasuo Kawai 6 Imafuku Nishi, Joto-ku, Osaka City, Osaka Prefecture 2nd 61st Matsushita Seiko Co., Ltd. (72) Inventor Kazuki Otsu 6-261 Imafuku Nishi, Joto-ku, Osaka City Osaka CC32 CC44 CC47 5F051 BA05 JA09 JA17 JA20

Claims (10)

[Claims] 1. A wind power generation means in which a generator is connected to a rotating shaft of a vertical axis wind turbine, a solar power generation means having a solar panel, and the wind power generation means and electric power generated by the solar power generation means are stored. And a lighting unit that emits light using the electric power stored in the power storage unit, and the wind power generation unit, the solar power generation unit, and the lighting unit are held at a predetermined height from the ground by a pillar. A streetlight device using power generation by wind power and sunlight, wherein the solar panel is arranged so as to guide the wind hitting the solar panel to the blades of the vertical wind turbine. Streetlight device that uses power generated by. 2. The solar panel is installed below the vertical wind turbine and separated from the pillar by a predetermined dimension, and the upper end of the solar panel is inclined so as to be close to the vertical wind turbine side. The streetlight device according to claim 1, wherein the streetlight device uses wind power and solar power. 3. The streetlight device according to claim 1, wherein the solar panel is composed of a plurality of panels whose directions are different from each other. 4. A wind power generation means in which a generator is connected to a rotating shaft of a wind turbine, a solar power generation means having a solar panel, and a power storage means for storing power generated by the wind power generation means and the solar power generation means. And a lighting unit that emits light by using the electric power stored in the power storage unit, and the wind power and the sun that hold the wind power generation unit, the solar power generation unit, and the lighting unit at a predetermined height from the ground by a pillar. A streetlight device using power generation by light, wherein a capacitor is used as the power storage means, and the power storage means is held at a predetermined height from the ground by the pillars. apparatus. 5. The streetlight device according to claim 1 or 4, wherein the lighting means is a display means for displaying information by characters or images. 6. A wind power generation means in which a generator is connected to a rotating shaft of a wind turbine, a solar power generation means having a solar panel, and a power storage means for storing electric power generated by the wind power generation means and the solar power generation means. And a display means for displaying using the electric power stored in the storage means, and the wind power and the sun for holding the wind power generation means, the solar power generation means and the display means at a predetermined height from the ground by a pillar. A streetlight device using power generation by light, comprising receiving means for receiving information from the outside, and displaying the information received by the receiving means on the display means Streetlight device used. 7. The electric power of the power storage means is used as a power source required for the receiving means.
A streetlight device utilizing power generation by wind power and solar power according to 1. 8. A streetlight device using power generation by wind power and solar power according to claim 6 is installed in a predetermined place, and display information is transmitted from a central management server to a plurality of the streetlight devices. Information management system characterized by. 9. An information management, characterized in that the streetlight device utilizing wind power and solar power generation according to claim 6 is provided with a photographing means, and the photographing information from the photographing means is received by a centralized management server. system. 10. A monitoring means for monitoring the power generation function of the wind power generation means or the solar power generation means, or the power storage function of the power storage means in the streetlight device using power generation by wind power and solar power according to claim 6. And a monitoring information from the monitoring means is received by a central management server.