JP2012056550A - Raft houseboat with submersible device using electric energy by private electric generation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a raft houseboat for performing undersea observation on board while moving over the sea and performing diving or snorkeling after arriving at a diving spot, which is provided with an undersea observation transparent window allowing on-board underwater observation in the marine area and has a self-traveling function mounted with a submersible device using photovoltaic power generation or wind power generation.SOLUTION: In the raft houseboat, a floor surface 5 is constructed around an undersea observation box 1 provided with the undersea observation window 2 at the bottom, the observation box having an area such that a plurality of persons can be simultaneously seated, and a floating body (foam polystyrene) 14 is housed under the floor surface to secure the buoyancy of the rafting houseboat. A roof 8 covered with a photovoltaic generation panel 9 is constructed over the whole surface of the floor surface, a cylindrical wind power generator 12 is installed below an eaves of the roof to perform private electric generation, and the submersible device and a portable toilet are arranged at a corner of the buoyancy housing space.

Description

  The present invention relates to a barge-shaped boat that enhances the utilization effect of the barnyard-shaped boat.

  A houseboat belonging to a ship is a ship for water excursions and transportation of goods that is originally used in rivers, lakes, canals, etc., and is also used as a floating house built on a vertical floating body. An underwater observation box with an underwater observation window is set up on the floor of the Ashiya-shaped boat, and it is possible to self-run with a diving device powered by a private power generator that serves as a marine base for diving, snorkeling or swimming after arriving at a diving spot. There is no practical example of the Tsuboya boat.

Start of invention

Problems to be solved by the invention

  In general, when the diving spot is close to the shore, diving by diving by moving in the sea while taking a walk in the sea directly entering from the shore. It is common to perform diving and snorkeling after entering the spot. Also, when swimming, it is normal to enter from the shore, swim, and return to the shore again.

  When multiple people want to participate in water recreation at the same time, walk around the sea while moving on the sea, arrive at the sea area where you want to diving, stop the ship and stop diving and snorkeling in the same area In order for people to enter the water and those who do not to observe the sea area from the ship through the underwater observation transparent window, it is necessary to procure a certain ship, and there are problems in budget and selection of an appropriate ship.

  Diving with a compact cylinder filled with compressed air has a diving time limit, and snorkeling is anxious about water accidents when unfamiliar, and diving for each breath even when diving, and even when swimming To perform diving, snorkeling, or submerged swimming games in the sea area off the shore due to swimming near the sea, a ship that can take a break on the water is required.

  Divers and snorkelers who participate with multiple people and those who do not go to the sea on the free course while observing in the sea and arrive at the diving spot, stop at the sea via anchors and underwater the sea area Observations can be made from or from the ship. There is a need for a ship equipped with an underwater observation function that extends the diving time with a diving apparatus that utilizes electric energy obtained by solar power generation or wind power generation and that is self-propelled by an electric propulsion device.

Means for solving the problem

  The present invention observes the sea from the ship while moving on the sea, performs diving and snorkeling after arriving at the diving spot, and has an underwater observation transparent window that can observe the underwater of the sea area from the ship. The power generation will solve the problem by providing a barge-shaped boat with a self-propelled function equipped with a diving device.

  Boarding a ship with a transparent window for underwater observation, and building a floor in all directions of the underwater observation box where people can participate at the same time. A step is installed. The floating body of foamed polystyrene is stored in the space between the wall of the underwater observation box and the boarding / disembarking step to maintain the buoyancy of the barbarian boat, and the roof that spans the floor of the barbarian boat is built to create a wide ocean. In the shade.

  A solar power generation panel is mounted on the top surface of the roof, and a cylindrical windmill is installed at the bottom of the roof sunshade. The windmill and the power generation motor are connected, and the electric energy obtained from solar power generation and wind power generation is stored in the battery. To construct a Ashiya-shaped boat equipped with a diving device powered by a battery that is supplementarily charged with an electric propulsion device.

  A number of anchors are provided for the anchorage of the barnyard boat.

  In order to supply compressed air to a plurality of divers, a plurality of diving equipment is mounted on the compressor.

  A simple toilet will be installed to support long-time sea leisure activities.

In order to ensure the safety of those who use the barnyard boat, a swimming lamp and a patelight that lights up in the event of an emergency will be installed on the roof of the barnyard boat to prevent rear-end collisions with other ships and ensure that an emergency occurs. Make it possible.
In addition, an electric propulsion machine and an outboard motor can be attached to the boarding / exiting step.

The invention's effect

  The Ashiya boat of the present invention is equipped with a self-propelled function and a diving device to be used when two or more people participate at the same time to carry out marine leisure. For those who do not enter the water by diving and snorkeling through the sea area, those who do not enter the water are boats that are used to enjoy underwater leisure by observing the sea from the underwater observation box. It is.

  The Ashiya-shaped boat is equipped with steps that are one step lower on the four sides of the floor, so it is easier to get on and off, and you can get a break under the roof in a wide area of the sea, so you can take in light snacks and drinks The effect of being able to enjoy long-time marine leisure while supplying water is great.

  The Tsuboya-shaped boat is equipped with an emergency patrol light that is turned on in the event of an emergency occurrence of a swimming light that is lit during use.

  When marine leisure is carried out by a large number of people, it is possible to connect a plurality of Ashiya-shaped boats, and it can be used as a marine base offshore.

  When the weather conditions are bad and solar power generation is weak, it is possible to install a spare charged battery, or to install a small outboard motor to reduce the electric energy consumption of the battery.

  Another aspect of utilization is the characteristics of a barn-shaped boat that is used for surveying and maintaining the seabed, marine civil engineering work, and maintenance of seafood aquaculture projects, and there are elements that can also be used as fishing boats.

Best Mode for Carrying Out the Invention

  Hereinafter, embodiments of the present invention will be described with reference to FIGS.

  FIG. 1 is a partial cross-sectional view showing an embodiment of the Ashiya-shaped boat of the present invention. As shown in the figure, the space between the wall of the underwater observation box (1), the floor of the Ashiya-shaped boat (5), and the boarding / leaving step (6) is shown. The floating body (14) is stored, and the floating body of the Ashiya boat is constructed.

  A roof (8) that spans the entire upper surface of the floor (5) is constructed with a plurality of pillars (7), and a photovoltaic power generation panel (9) is stacked on top of the roof (8). In addition, a swimming lamp (11) and an emergency generating satellite (10) are installed in the center of the roof (8).

  Further, as shown in the figure, a wind power generator (12) composed of a power generation motor interlocked with a cylindrical windmill is installed below the day difference portion of the roof (8), and a solar power generation panel (9 ) To be able to carry out in-house power generation.

  As shown in the figure, a transparent underwater observation window (2) is installed at the bottom of the underwater observation box (1), and a seat step (21) is attached to the inner wall surface of the underwater observation box. Observation can be carried out. Furthermore, a battery (15) is housed in the lower part of the seat step (21) so as to supplement the electric energy generated in-house.

  Similarly, as shown in the figure, a safety handrail (13) extending over a plurality of upper pillars of the floor surface (5) is attached to prevent the passenger from falling on the water surface and can be moved in the ship via the handrail. Become.

  Similarly, as shown in the figure, a swimming lamp (11) and an emergency patrol light (10) are installed on the top of the roof (8), and they are always on during use to prevent rear-end collisions with other ships. In the event of an outbreak, the emergency patrol light should be turned on so that an emergency response can be made.

  Similarly, as shown in the figure, a boarding / disembarking step (6) is installed at a position slightly lower than the floor at the four sides of the floor (5) so as to facilitate water entry and convoy of boarding / disembarking. .

  FIG. 2 is a plan view showing a floor skeleton part showing the carrying of the houseboat of the present invention. As shown in the figure, the floor skeleton part (4) is fixed to the outside of the underwater observation box (1) in the center part of the floor surface. The boarding / disembarking step (18) is attached to the outer solid part of the floor skeleton (4).

  A space for storing the diving apparatus is secured in a part of the floating body storage space (19) of the floor skeleton part (4), and a set of crosspieces is stored therein. In addition, a simple toilet is installed in the adjacent floating body storage space.

These are the fragmentary sectional views which show embodiment of the Ashiya boat of this invention. These are top views which show the floor surface frame | skeleton part of this invention Ashiyakata boat.

1. 10. Underwater observation box Swimming light2. Transparent window for underwater observation 12. 2. Wind generator 3 Underwater observation box step 13. Safety handrail 4. Floor skeleton 14. Floating body 5. Floor 15. Battery 6. Boarding / disembarking step 16. Diving device 7. Pillar 17. Simple toilet 8. Roof 18. Anchor 9. Photovoltaic panel 19. Electric propulsion machine 10. Emergency patrol light 20. Floating body storage space

Claims (7)

  A method of producing compressed air by installing a solar power generation panel on the entire roof of a barnyard boat, supplementing the battery with the electrical energy generated by the solar power generation panel, and driving a compressor powered by the battery.   A cylindrical windmill was installed at the bottom of the daylight difference between the roofs of the Ashiya-shaped boat, and the generated rotational force was transmitted to the electric motor by the wind pressure of the cylindrical windmill by connecting the rotating shaft of the windmill and the rotating shaft of the generator motor. A method of producing compressed air by driving a compressor that uses a battery as a power source by supplementing the battery with electrical energy.   A feature of a barnyard-type ship equipped with a diving apparatus for supplying compressed air produced according to claims 1 and 2 to a diver.   A swimming lamp that lights up while using a barnyard boat. A special feature of Ashiya-shaped boats equipped with emergency patrol lights that light up in the event of an emergency.   A characteristic of the Tsuboya-shaped boat that has built an underwater observation box with a transparent window for underwater observation that allows multiple people to participate simultaneously in the center of the floor of the Ashiya-shaped boat.   The floor structure of a barge-shaped boat that has built a boarding / unloading step that simplifies boarding / disembarking for divers, snorkelers, and swimmers at a position slightly lower than the floor of the barn-shaped boat.   Characteristic of Ashiya boat with an electric propulsion machine that uses electric energy obtained from solar power and wind power.

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