DE4229670A1 - Light, transportable, immersible vehicle for transport from land into water - comprises several components releasably connected together, at least on component having lifting device and one having viewing surface - Google Patents

Abstract

The vehicle is composed of several components by releasably connected together by connecters (17-19) and one or more components are provided with at least one lifting device. At least one component has a view surface (25) for underwater goggles. One or more watertight component parts are connected to the immersible vessel by releasable connecting parts. For each of these component parts at least one further functional part with the same drive and driven facility is available together with a signaller, wireless and emergency container (24) with holder grip, and securing device for the releasable connecting components. USE/ADVANTAGE - The immersible vehicle can be assembled by one or more lifting devices on the surface of a calm water area. The vehicle can be converted without auxiliary help from land to water use and vice versa.

Description

State of the art

The invention relates to diving vehicles that without the presence of port facilities, cranes, slip dare or specially equipped carrier ships can be used or land.

Known torpedo-shaped devices (SCOOTER) on which divers can be attached and pulled, are in the Scuba diving has been in use for a long time. they are easy to transport on land, easy to ver load and ready to use quickly.

In a known diving vehicle for combat swimmers (Patent DE 38 31 456 A1) are two torpedo releasable pressure body to a catamaran-shaped Fuselage connected and so the available battery space compared to a boat with a pressure hull Diameter doubled. The pressure hull can be a transported to the bank area and closed there be put together. This can be done from the bank area Submersible vehicle by several transport forces in the Waters are carried.

A device to handle larger submersibles without additional technical aids for use or Transporting land was started with the construction of the dive vehicle "SEETEUFEL" realized. Here was a Crawler under the pressure body attached that the screw drive can be switched if necessary  could (book, "History of German submarine construction", Volume 2 - Rössler - pages 468 to 470).

With the diving vehicle "BIBER" the pressure hull was formed from three components. Two waterproof Flange connections made it possible to mount on the location and simplified the transport (book, Deut submarines - Lakowski - pages 202 to 205). For small ones by the crew or additional trans Portable submersible vehicles must be found be that due to their low mass of mitge led batteries only via a small drive performance and therefore mostly only for sport diving are applicable.

The main shortcoming of the known diving vehicles with one Displacement of more than approx. 0.5 t is the high one Requirements for technical aids for their trans port from land to water and vice versa, which the Increase or significantly increase the vehicle's operating costs use in areas with complicated designs Banks, e.g. B. steep banks u. a., do not allow. This Deficiency is caused by well-known submersibles, which consist of meh Other components that can be put together are not fixed because which can only be installed on land.

problem

The invention specified in claim 1 is the pro blem underlying the implementation of one of its crew as a whole no longer portable submersibles from Land into the water and vice versa, without technical aids tel or additional transport forces. In addition, the use of the submersible from kom plicated bank areas and small surface vessels become feasible from.  

Achievable advantages

The problem is solved according to the invention in that by means of one or more lifting devices the Mon days of the submersible from several components on the Surface takes place in shallow water areas, which is then manned by the divers and after the Retracting the lifting devices floats freely. When landing, the lifting devices after the Reached out to a shallow water area and on closing the submersible in a few people other portable components disassembled.

The development of the invention according to claim 2 is used the rapid changeover of diving equipment stuff on different tasks, e.g. B. Search, Inspi adorn, film u. a., without that when replacing the construction parts that contain the respective special equipment a major change in boat trim he follows. In addition, the Divers one or more emergency containers that come with a Can be separated from the boat quickly and easily by hand can to look for a possible emergency over emergency armor.

The development of the invention according to claim 3 he enables the operation of the submersible and the Orientation of divers over the visible areas displayed information. Furthermore, the Visible areas one after the other and / or next to each other technical systems of the submersible and the measuring results of the technical equipment retrieved the.  

An additional flow protection prevents the Flow directly against the diver's front helmes presses.

The development of the invention according to claim 4 ver reduces the front surface of the submersible Minimum possible with several seated divers. The Training the tail is said to form water whirl behind the back of divers and diminish also offer the possibility of antennas, lighting tungen u. a. when out of water, remove from the water parts in a little obscure the view of divers area to be attached.

The development of the invention according to claim 5 is used low-risk storage and fast and safe loading of the components in / on various Means of transport that are not viable in detail must be able to hold the entire submersible. By replacing individual containers with functional ones different components according to claim 2 can when loading quickly to special application tasks be reacted to. The execution also allows multiple containers transport without essential Aids and their stowage on a carrier otherwise ship unsuitable small surface vehicle because whose trim can be taken into account.

The development of the invention according to claim 6 he enables the assembly and disassembly of the submersible in deep water on a dismantled pontoon. The Components can pass through between the land and the pontoon  one or more small boats are transported. The dismantling of the pontoon makes a towing unnecessary drives to the place of operation, to which this as well as the zer put submersible in containers according to claim 5 stowed on a surface vehicle can be. One of the two buoyancy bodies can optionally replaced by a surface vehicle, whereby the transport of those carried on it Components of the submersible on the mounting surface of the pontoon simplified. From the under water Liche mounting area can the submersible through the Use of the lifting device according to claim 1 free swim or land on it.

The development of the invention according to claim 7 he allows road transport and urination or landing on suitable shores in undismantled condition. By using the lifting device according to claim 1 arises compared to the transport of known diving vehicles on motor vehicle trailers the advantage that the submersible on land without additional hoists can be prepared for transport.

Description of an embodiment

An embodiment of the invention is shown in the drawings between FIGS . 1 to 21 and will be described in more detail below.

Show it:

Fig. 1, the submersible vehicle in its overall view,

Fig. 2-5, the submersible vehicle in exploded view,

Figure 6 shows the lifting device (22) presentation. In section,

Fig. 7-14 the sequence of assembly on the submersible vehicle illustrated in principle individual steps,

Fig. 15-16, the assembly of the submersible on the separable pontoon (28) as Prinzipdar position in two variants,

Fig. 17-18, the assembly of wheel sets (29.3) to the submersible vehicle as a schematic representation,

FIGS. 19 and 20, the loading of a conventional road transport trailer (29) with containers (29.2) as a sketch,

Fig. 21 the transport of containers ( 29.2 ) on a small surface ship as a sketch.

The overall view of the assembled submersible is shown in FIG. 1. Figs. 2 to 5 zei gene the association of the individual components to each other. Systems passing through several components, such as electrical cables and oil hydraulic hoses ( 23.2 ), as shown in FIG. 5, are laid to avoid separation points during assembly.

The assembly sequence of the individual components will be described below with reference to FIGS . 7-14. Fig. 7. On land, the three lifting devices ( 22 ) are installed in the shell-shaped components (only the rear one shown here), which later form the keel of the submersible.

Fig. 8. The components are brought into a depth of water, which allow later free swimming of the mounted submersible. Then the lifting rods ( 22.8 ) of the lifting device ( 22 ) are extended. Fig. 9. The two components forming the keel are screwed together at their flange-like end faces.

Fig. 10. The bowl-shaped keel is loaded with battery packs ( 11 ), compressed air bottle ( 12 ), etc., parent and oil lines are installed and the drive machine ne ( 10 ) is attached. The individual work can be facilitated by raising or lowering the keel components.

Fig. 11. The keel components are lowered and the submersible upper parts with the pressure bodies ( 1 ) are connected to the connecting claws ( 18 ) by means of the connecting bolts ( 17 ).

Fig. 12. The submersible is completed according to its application with the respective controls ( 27 ) and the specially equipped bow trim ( 14 ) as well as other components.

Fig. 13 and 14. The submersible is manned, the three lifting rods ( 22.8 ) are retracted simultaneously. The journey to the operational area can begin.

An embodiment of the lifting device ( 22 ) will be explained with reference to FIG. 6.

By actuating the hand oil pump ( 22.1 ), hydraulic oil ( 22.9 ) is pressed behind the piston ( 22.4 ) and the lifting rod ( 22.8 ) is extended. The independent function of the three lifting devices allows their respective standing heights to be adjusted to unevenness in the water floor. After assembling the submersible, the divers can occupy it and open the solenoid valve ( 22.3 ) on all three lifting devices at the same time with a current pulse. Now the hydraulic oil ( 22.9 ) is pressed by the weight of the submersible and the return spring ( 22.6 ) against the flow direction indicated by arrows in front of the piston ( 22.4 ) and the lifting rods ( 22.8 ) with the foot plates ( 22.7 ) are drawn in simultaneously.

In the game shown in FIGS. 1 to 5, the bow trim is shown in FIG. 2 and the visible surfaces ( 25 ) with the controls ( 27 ) in accordance with FIG. 5 are designed to be interchangeable depending on the task of the submersible. Through a volume-adapted pressure-resistant encapsulation of the functionally and weight-different components, the trim of the submersible remains largely unaffected by an armor order.

At the rear, an emergency reservoir (24) is shown in FIG. 4 are arranged. By turning the emergency container ( 24 ) by approx. 30 degrees while simultaneously pressing the safety lever ( 24.3 ) integrated in the handle ( 24.2 ), it can be quickly separated from the submersible with one hand. The emergency container ( 24 ) also contains a radio used for normal operation.

The example of the arrangement of operating elements ( 27 ), visible surfaces ( 25 ) and the possible formation of a flow protection ( 26 ) is shown in FIGS. 1 and 5.

From Fig. 1, the rear is drawn up to the head height of the diver seated at the rear, which tapers to the rear, tapers out laterally flattened.

The possible design of containers ( 29.2 ) for accommodating the components of the submersible and accessories is shown in FIGS. 19 to 21. Known transport hangers ( 29 ) with removable wheel sets ( 29.3 ) are easier to load and unload due to their lowering by means of lifting devices loading surface ( 29.1 ).

With removed wheel sets ( 29.3 ) and trailer coupling ( 29.5 ), which can be stacked even in a container and stacked on the loading surface ( 29.1 ), the submersible vehicle packed with a transport trailer ( 29 ) is suitable for mechanical loading into larger transport vehicles.

In the embodiment according to Fig. 19 to 21 truncated cones (29.4) a slipping of the container (29.2) prevent.

In a detail of FIG. 21, a truncated cone ( 29.4 ) is indicated enlarged, which can be inserted into one of several troughs of the container to be arranged above it, so that stacking is possible in several variants.

The dismountable pontoon ( 28 ) is also suitable for storage and transport in containers ( 29.2 ), which, as an accessory to the submersible, enables its assembly and disassembly even in deep water. In Figs. 15 and 16 of the pontoon (28) is driven bodies with one or two UP (28.2), respectively. When only one buoyancy body ( 28.2 ) is attached, the function of the second is taken over by a surface vehicle to which the working surface ( 28.1 ) is connected.

The mounted on the transport trailer (29) wheel sets (29.3) can also be directly connected to the submersible vehicle is to be joined. In FIG. 17, the assembly of wheels on land is shown. With the attachment of a trailer coupling ( 29.5 ) according to Fig. 18, the submersible can be pulled from a road vehicle as a trailer.

List of reference symbols

1 pressure hull
2 diving cell
3 and 4 are not applicable
5 flood slot
6 forward rudder
7 rear rudder
8 tail fin
9 rudder nozzle
10 prime mover
11 battery pack
12 compressed air bottle
13 regulator
14 cladding element
15 deflectors
16 seat
17 connecting bolts
18 connecting claw
19 Fixing screw / eyelet
20 position lamp
21 indicators
22 lifting device
22.1 Hand oil pump
22.2 Check valve
22.3 Solenoid valve
22.4 pistons
22.5 cylinder
22.6 Return spring
22.7 footplate
22.8 lifting bar
22.9 hydraulic oil
23 pressure oil system
23.1 Actuator
23.2 Oil hose
24 emergency containers
24.1 antenna
24.2 Handle
24.3 Safety lever
24.4 threaded element
24.5 Threaded element sleeve
24.6 compression spring
25 visible surface
26 Flow protection
27 controls
28 assembly pontoon
28.1 Work surface
28.2 Float
28.3 Hoist
29 transport hangers
29.1 Loading area
29.2 container
29.3 wheelset
29.4 truncated cone
29.5 trailer coupling

Claims (7)

1. Easily transportable submersible for better transport and the aid-free implementation from land to water and vice versa
characterized,
that it is composed of several components by means of releasable connecting elements ( 17 - 19 ) and one or more components are provided with at least one lifting device ( 22 ),
whereby individual components that can be exchanged for each other have almost the same buoyancy
and at least one component has a visible surface ( 25 ) for diving goggles. 2. Easily portable submersible according to claim 1, characterized in that one or more waterproof construction parts are connected to the submersible by means of releasable connecting elements and for each of these components at least one further functionally different component with below the water surface close to the same buoyancy / downforce is available as well as at least one emergency container ( 24 ) equipped with signaling devices, radio equipment including a handle ( 24.2 ) and safety device ( 24.3 ) for the releasable connecting elements ( 24.4 and 24.5 ). 3. Easily transportable diving vehicle according to claim 1, characterized in that each diver is assigned a component to which various operating elements ( 27 ) and / or a viewing surface ( 25 ) are integrated, which can be surveyed by diving goggles and on which additionally Flow protection ( 26 ) is attached. 4. Easily portable submersible vehicle according to claim 1, characterized in that at least one component forms a seat ( 16 ) extending in the longitudinal axis of the vehicle and behind the divers the rear is raised to head height and tapers to the side and flattened laterally. 5. Easily portable submersible according to claim 1, characterized in that for the components of the submersible and its accessories, such as generator, compressor, etc., there are a number of suitable containers ( 29.2 ) provided by plug-in bolts ( 29.4 ), longitudinal grooves or other suitable training Ver non-slip stacking in various variants, with the accessories permanently installed in the container. 6. Easily transportable submersible according to claim 1, characterized in that for the assembly and disassembly of the components a dismountable and in at least one container ver dustable assembly pontoon ( 28 ) is present, the working surface ( 28.1 ) is below the water surface and at the two opposite lying outside releasable fasteners for the connection of buoyancy bodies ( 28.2 ) and above water vehicles are attached. 7. Easily portable submersible according to claim 1, characterized in that it is equipped with releasable connecting elements for the connection of wheel sets ( 29.3 ) and a trailer coupling ( 29.5 ).