JPH07223583A - Self battery charge type observation buoy - Google Patents

Abstract

PURPOSE:To operata a dynamo by instlling a storage battery for the power source for the observation equipment and a dynamo for electric charge and utilizing the swing of a buoy body due to waves, etc. CONSTITUTION:The frame body 4a of a weight 4 is supported by a spring 5 so as to be moved vertically along a guide rail 6 inside a buoy body 1, and on the frame body 4a, a storage battery 9 as the electric power source for the observation equipment 11a, 11b and a dynamo 10 for electric charge are supported. If the frame body 4a relatively moves in reciprocation vertically, accompanied with the vertical movement due to the waves of the buoy body 1, a ratchet type rotor 7 connected with the rotary shaft of the dynamo 10 is engaged with a fixed rack 8 and revolves in one direction, and the dynamo 10 is operated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a buoy equipped with equipment for observing sea conditions such as tidal current and water temperature, atmospheric pressure, temperature, wind direction and wind speed, and weather such as sunshine. With a generator for charging the storage battery,
The present invention relates to a self-charged observation buoy that can be operated by using the vibration of the buoy itself.

[0002]

2. Description of the Related Art Generally, a storage battery is used as a power source for an observation device mounted on an observation buoy, and a solar cell has been conventionally used to self-charge the storage battery.

[0003]

By the way, in the conventional solar cell type observation buoy as described above, since the solar cell does not work sufficiently in cloudy weather, the amount of charge to the power storage battery of the observation equipment is insufficient. Therefore, there is a risk that observation will not be possible. The present invention is intended to solve such a problem, power generation is performed by utilizing the sway of an observation buoy due to waves and wind forces, and a storage battery as a power source for observation equipment can be sufficiently charged. The purpose of the present invention is to provide a self-charged observation buoy.

[0004]

In order to achieve the above object, a self-charging observation buoy according to the present invention comprises an observation device, a storage battery as a power source of the device, and a generator for charging the storage battery. In the observation buoy with the above, a weight supported by a buoy body via a spring, a guide rail for guiding relative movement of the weight with respect to the buoy body, and reciprocation of the weight along the guide rail. And a motion conversion mechanism for converting the motion into a unidirectional rotary motion to rotationally drive the generator.

In the self-charged observation buoy of the present invention, the motion conversion mechanism includes a pair of sprocket wheels mounted in the buoy body, and an endless chain mounted between the sprocket wheels. , A ratchet type rotor engaged with the same chain, the rotating shaft of the generator is connected to the rotating shaft of the sprocket wheel, and the weight is coupled to an arm supporting the ratchet type rotor. It is characterized by that.

Further, in the self-charged observation buoy of the present invention, the guide rail is arranged and fixed in the buoy body in a vertical direction, and the weight has a rectangular frame body guided on both sides by the guide rail. The storage battery and the generator are supported by the frame, and the motion conversion mechanism is configured by a rack in which the buoy body is arranged and fixed in the vertical direction, and a ratchet type rotor that engages with the rack. The rotating shaft of the generator is connected to the rotating shaft of the rotor.

[0007]

In the self-charged observation buoy of the present invention described above, the weight supported by the buoy body via the spring moves relative to the buoy body due to the sway of the buoy body due to waves or the like. Moreover, since it reciprocates along the guide rail,
The motion is converted into rotational motion in one direction by the motion conversion mechanism, and the generator can be rotationally driven. In this way, the generator operates without being affected by the weather, and the storage battery as the power source of the observation equipment is sufficiently charged.

Further, the motion converting mechanism is composed of an endless chain wound around a pair of sprocket wheels and a ratchet type rotor engaging with the chain, so that the motion converting mechanism is supported by a spring. The elastic reciprocating motion of the weight is efficiently converted into the rotational motion of the ratchet type rotor in one direction, whereby the rotational drive of the generator is accurately performed.

Further, when the guide rails are arranged and fixed in the buoy body in the vertical direction, and the guide rails guide both sides of the rectangular frame body constituting the weight, the vertical stroke of the weight. The weight of the observation buoy is not increased and the weight of the observation buoy is increased by supporting the storage battery and the generator as heavy objects on the frame. Can be fully exerted.

The motion converting mechanism is composed of a rack fixed vertically in the buoy body and a ratchet type rotor engaging with the rack, and the rotating shaft of the rotor is provided with the above generator. By connecting the rotating shaft, the operation of vertically moving the ratchet-type rotor relative to the rack while the generator is supported by the frame is performed without any hindrance, whereby the generator is The vertical reciprocating motion of the weight including the above is converted into a rotational motion in one direction, so that the operation of rotationally driving the generator can be surely performed.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIGS. 1 to 3 show a self-charged observation buoy as a first embodiment of the present invention, and FIG. FIG. 2 is an explanatory view schematically showing the internal structure of the buoy body, and FIG. 3 is an electric circuit diagram for charging the storage battery from the generator.

As shown in FIGS. 1 and 2, an observation buoy equipped with various devices to be described later inside a buoy body 1 floating on the sea surface 15 is anchored to an anchor 2 on the seabed via a cable 3 with a sensor, and the cable is attached. The detection signals related to the sea condition, etc. from the sensors (not shown) attached to 3 and the detection signals related to the weather, etc. from the other sensors are processed by the observation device 11 including the observation data collection device and the data transmission device. The information obtained in this way is used by the antenna 12 on top of the buoy body 1.
Will be sent to the observation facility on land. Further, inside the buoy body 1, a storage battery 9 as a power source for the observation device 11 and a generator 10 for charging the storage battery 9 are equipped.

In order to operate the generator 10, the weight 4 supported inside the buoy body 1 via the upper and lower springs 5 and 5 and the relative weight up and down of the weight 4 with respect to the buoy body 1. A vertical guide rail 6 for guiding the reciprocating motion is provided, and a motion converting mechanism for converting the vertical reciprocating motion of the weight 4 into a unidirectional rotary motion to rotationally drive the rotary shaft of the generator 10 is provided. Has been. As this motion conversion mechanism, in the present embodiment, a pair of upper and lower sprocket wheels 8a and 8b mounted inside the buoy body 1 and an endless chain 8c mounted between the sprocket wheels 8a and 8b, The ratchet type rotor 7 engaging with the chain 8c is provided, the rotating shaft of the generator 10 is connected to the rotating shaft of one sprocket wheel 8a, and the weight is attached to the arm 7a supporting the ratchet type rotor 7. 4 are connected.

In order to rectify the alternating current generated in the generator 10 and charge the storage battery 9, as shown in FIG.
A rectifier circuit 14 is provided between the generator 10 and the storage battery 9. Since the self-charged observation buoy as the first embodiment of the present invention is configured as described above, the weight 4 supported by the buoy body 6 via the spring 5 causes the buoy body 1 to sway due to waves or the like. As a result, the buoy body 1 moves relative to the buoy body 1 and reciprocates along the guide rail 6,
The motion is converted into a unidirectional rotary motion by the motion conversion mechanism, so that the generator 10 can be rotationally driven.

In this way, the generator 10 operates without being affected by the weather, and the storage battery 9 as the power source of the observation device 11 is sufficiently charged. In addition, the motion conversion mechanism includes a pair of sprocket wheels 8a,
An endless chain 8c that is wound around between 8b,
The elastic reciprocating motion of the weight 4 supported by the spring 5 efficiently causes the ratchet type rotor 7 to rotate in one direction by being constituted by the ratchet type rotor 7 that engages with the chain 8c. It is converted, and thereby, the rotational drive of the generator 10 is accurately performed.

Next, a self-charged observation buoy as a second embodiment of the present invention will be described. FIG. 4 is an explanatory view schematically showing the internal structure of the buoy body, and FIG. 5 is an electric circuit diagram thereof. In the self-charged observation buoy of the second embodiment, like the first embodiment, the observation buoy equipped with various equipment inside the buoy body 1 floating on the sea surface 15 is a seabed not shown via the cable 3. The sensor 13 attached to the cable 3 (see FIG. 5) attached to the cable 3 detects signals related to sea conditions, and other sensors detect weather related signals. Device 11
The information obtained in this way, which is processed by the observation equipment including b and the like, is transmitted from the antenna 12 above the buoy body 1 to the observation facility on land.

Inside the buoy body 1, there are an observation data collection device 11a and a data transmission device 11b as the above-mentioned observation equipment.
In addition to being mounted, a plurality of guide rails 6 and 6 are arranged and fixed in the vertical direction, and a weight 4 having a rectangular frame body 4a guided on both sides by the guide rails 6 and 6 has its frame The body 4a is provided so as to be supported in the buoy body 1 by upper and lower springs 5 and 5. Then, the observation equipment 11a, 11
A storage battery 9 as a power source of b and a generator 10 for charging the storage battery 9 are provided so as to be supported in the frame 14a.

Further, as a motion converting mechanism for converting the vertical reciprocating motion of the weight 4 relative to the buoy body 1 into a unidirectional rotational motion to drive the generator 10, the buoy body 1 is vertically arranged. A rack (including a chain) 8 that is fixedly installed and a ratchet type rotor 7 that engages with the rack 8 are provided, and the rotating shaft of the rotor 7 includes a generator 10
The rotating shaft of is connected.

Since the self-charging observation buoy as the second embodiment of the present invention has the above-mentioned structure, the frame 4a of the weight 4 is formed in a square shape, and the guide rails 6 are provided on both sides thereof.
The vertical stroke of the weight 4 can be increased by being guided by the guide, and the weight of the observation buoy as a whole can be increased by supporting the storage battery 9 and the generator 10 as heavy objects on the frame 4a. The weight 4 can be made heavier without inviting, and the function as a weight can be sufficiently exerted.

The motion converting mechanism is composed of a rack 8 arranged and fixed in the buoy body 1 in the vertical direction and a ratchet type rotor 7 engaging with the rack 8, and a rotary shaft of the rotor 7 By connecting the rotating shaft of the generator 10 to the, the operation of vertically moving the ratchet rotor 7 relative to the rack 8 can be performed without any hindrance while the generator 10 is supported by the frame 4a. As a result, the reciprocating vertical movement of the weight 4 including the generator 10 and the like is converted into a unidirectional rotary motion, and the operation of rotationally driving the generator 10 is reliably performed.

Thus, also in the case of the second embodiment, as long as the buoy body 1 moves up and down due to waves or the like, the generator 10
By operating the rectifier circuit 14 as shown in FIG. 5, the storage battery 9 as a power source for the observation devices 11a and 11b is sufficiently charged.

[0022]

As described above in detail, according to the self-charging observation buoy of the present invention, the following effects can be obtained. (1) The weight supported by the buoy body via a spring moves relative to the buoy body due to the swaying of the buoy body due to waves and the like, and also reciprocates along the guide rail. The motion is converted into one direction of rotary motion by the motion conversion mechanism, and it becomes possible to rotate the generator, so it is not affected by the weather like a solar cell,
The generator operates properly, and the storage battery as the power source of the observation equipment is sufficiently charged. (2) The motion converting mechanism is supported by a spring by being composed of an endless chain wound around a pair of sprocket wheels and a ratchet type rotor engaging with the chain. The elastic reciprocating motion of the weight is efficiently converted into a rotating motion of the ratchet type rotor in one direction,
As a result, the rotational drive of the generator can be accurately performed. (3) When both sides of the square frame of the weight are guided by the guide rails arranged vertically in the buoy body, the vertical stroke of the weight can be increased and the frame body By supporting the storage battery or the generator as a heavy object, the weight can be made heavy without causing an increase in the weight of the entire observation buoy, and the function as the weight can be sufficiently exerted. (4) The motion conversion mechanism is composed of a rack fixed vertically in the buoy body and a ratchet type rotor that engages with the rack, and the rotating shaft of the rotor is the generator in the frame. The rotation shaft of the generator is connected to the generator so that the ratchet type rotor can be moved up and down relative to the rack while the generator is supported by the frame. The vertical reciprocating motion of the weight including the machine and the like is converted into a unidirectional rotational motion, so that the operation of rotationally driving the generator can be reliably performed.

[Brief description of drawings]

FIG. 1 is an elevational view showing a use state of a self-charged observation buoy as a first embodiment of the present invention.

FIG. 2 is an explanatory view schematically showing the internal configuration of the self-charged observation buoy shown in FIG.

3 is an electric circuit diagram for charging the storage battery from the generator in FIG.

FIG. 4 is an explanatory diagram schematically showing the internal configuration of a self-charged observation buoy as a second embodiment of the present invention.

5 is an electric circuit diagram for charging the storage battery from the generator in FIG. 4 and supplying electric power from the storage battery to the observation device.

[Explanation of symbols]

 1 buoy body 2 anchor 3 cable 4 weight 4a frame 5 spring 6 guide rail 7 ratchet type rotor 8 rack 8a, 8b sprocket wheel 8c endless chain 9 storage battery 10 generator 11 observation device 11a observation data collection device 11b data Transmitter 12 Antenna 13 Sensor 14 Rectifier circuit 15 Sea level

Claims (3)

[Claims] 1. An observation buoy comprising an observation device, a storage battery as a power source for the device, and a generator for charging the storage battery, wherein a weight supported by a buoy body via a spring, A guide rail for guiding the relative movement of the same weight with respect to the buoy body, and a motion conversion mechanism for converting the reciprocating motion of the weight along the guide rail into a unidirectional rotational motion to rotationally drive the generator. A self-charged observation buoy characterized by the provision of and. 2. The self-charged observation buoy according to claim 1, wherein the motion conversion mechanism is mounted between a pair of sprocket wheels mounted inside the buoy body and between these sprocket wheels. An endless chain,
It consists of a ratchet type rotor that engages with the same chain,
A self-charged observation buoy characterized in that the rotation shaft of the sprocket wheel is connected to the rotation shaft of the generator, and the weight is connected to an arm supporting the ratchet type rotor. 3. The self-charged observation buoy according to claim 1, wherein the guide rail is arranged and fixed in the buoy body in a vertical direction, and the weight is guided on both sides by the guide rail. A rack provided with a frame body, the storage battery and the generator are supported by the frame body, and the motion conversion mechanism is vertically arranged and fixed in the buoy body, and a ratchet type rotation engaging with the rack. A self-charged observation buoy, which is composed of a child and a rotating shaft of the generator is connected to a rotating shaft of the rotor.