EP0867360A2 - Diving apparatus and method for its production - Google Patents

Abstract

The diving gear, for long-term submersion, is a longitudinal hollow body (1) which can accommodate a human body within it with room to shift the position. The body has elasticity in at least one zone of driving movement, and it is fitted with at least one propelling tail or other fin.(2). The body (1) is less elastic in the zones not used for drive movements. The drive movement zones can be in the centre or the rear of the hollow body (1). The diver has linkages to operate the drive fin(s). Also claimed is a prodn. technique, where a waterproof layer is placed within a negative mould under an insulation layer, where the waterproof layer is held in place by underpressure and the insulation layer is foamed over it between a positive and negative mould. The hollow body is of rubber or plastics.

Description

The invention relates to a diving device according to claim 1 and a Process for its manufacture according to claim 38.

Divers generally use diving suits and fins for locomotion in the water. One disadvantage is that the wetsuit is usually is only made from a relatively thin, synthetic material that hugs the human body closely, so as possible to offer low water resistance. The synthetic skin the surrounding human body is therefore almost immediately external influences exposed to water, such as cold or animal attacks.

Furthermore, an oxygen bottle must be used with conventional diving suits be carried so that you can stay under water for a long time. Since this oxygen cylinder is usually relatively bulky and Back of the diver, it offers additional resistance in the water, which means an increased effort for locomotion in the water.

Furthermore, it is hardly possible with this type of diving, for a long time Example spending several days under water as it is very cumbersome and is tedious, essential things like oxygen or drinking water to carry along.

The object of the invention is to provide a diving device that a longer stay in the water and better protection of the diver against environmental influences. In addition, a suitable Method for producing such a diving device specified will.

The device-side solution to the problem is claim 1 refer to. Advantageous embodiments are in the subclaims 2 to 37 marked.

In contrast, the procedural solution of the task is the claim 38 can be seen. In sub-claims 39 to 45 are excellent Refinements of the method called.

A diving device according to the invention is characterized in that it consists of an elongated hollow body, which extends in the longitudinal direction of the hollow body stretching human body completely can and deviates from its outer shape, the hollow body at least in an area for elastic movement is and merges into at least one drive fin.

Due to the elongated hollow body, the human body completely encloses, the latter is effective against external influences, such as the temperature or the attacks against aquatic animals, because the hollow body is well insulating and essentially dimensionally stable is. The human body is completely inside the hollow body and only touches the inner surface of the hollow body in certain areas. At the same time it is elongated and of human form deviating structure of the hollow body the water resistance of the diving device reduced, which makes energy-saving locomotion in water is made possible.

In the diving device according to the invention, the human body extends in the longitudinal direction of the body, his back preferably after up to the water surface and his head forward in the direction of movement point of the diving device when it is horizontal in the operating state objects are in front of, under or in the water to be able to observe next to the diving equipment, for example the seabed. On the other hand, the human body could also look at Water surface in the operating state of the diving device, so on convenient way to observe objects above or next to the diving device, for example when visually inspecting hulls in the water Damage.

Furthermore, at least one area for the drive movement is elastic or flexible, wherein the elongated hollow body at one end in a drive fin passes over, so an effective and energy-saving movement to allow for drive purposes, the hollow body always remains essentially dimensionally stable. The hollow body can from Hood or dome end to be flexible or elastic, especially in Area of the drive generation in the middle and rear.

Due to the elasticity of the hollow body in at least one drive area it is possible, for example, dolphin-like, rhythmic body movements about the transverse axis of the body in a striking motion of the drive fin to implement for drive purposes. The hollow body can less outside the area intended for the drive movement be elastic. For example, the area for the drive movement could be lie approximately in the middle of the hollow body, so that by rhythmic movements of the upper part of a human body the flapping movements of the drive fin are caused what represents an effective drive for the diving device.

On the other hand, the area for the drive movement could also be in the rear Part of the hollow body lie so that the striking movement of the drive fin by moving for example the area below the Hip of the human body can be generated. Of course, the hollow body could also be completely elastic.

Through the elastic area or areas for the drive movement can additionally simple control of the diving device according to the invention takes place, by suitable body rotations of the elongated Hollow body surrounding people. These body rotations work through the elastic area to the outside and bring about change the desired geometry changes in the outer geometry of the hollow body.

According to a further embodiment of the invention, the hollow body is in one piece trained and open for entry-level purposes. One piece trained hollow body has the main advantage that in the manufacture the likelihood of a water leak is less than for a hollow body that is composed of several parts, because there are fewer seams or joints.

However, a hollow body which is formed from several parts is also from Advantage because individual elements are replaced in such a hollow body can be, if they are damaged.

The opening for entry purposes in the one-piece hollow body for example by a zipper or Velcro be realized, it must be ensured that this entry opening can be closed again watertight. Furthermore, the opening can be anywhere be formed on the hollow body, provided that getting on and off the People is possible.

With a divisible hollow body, getting in and out is also made easier, since it is easily dismantled for entry purposes and after entry again can be put together.

In a further embodiment of the invention, a front is more transparent Area of the hollow body formed as a dome, so that one of the hollow body surrounded person can look out of the hollow body.

A transparent dome in the front area of the hollow body provides the advantage that the field of view of the person surrounded by the hollow body is enlarged if the dome is designed such that a largely free movement of the head forward and to the side is possible.

The dome can rest on the remaining area of the hollow body be attachable. This has the advantage that if the dome is damaged it is easily interchangeable. However, it is also possible to use the see-through To let the dome emerge in one piece from the rest of the hollow body, so that it does not have to be transported separately.

It is possible to extend the remaining area of the hollow body in the longitudinal direction of the hollow body to open to allow easy boarding. Of the The remaining area of the hollow body could, for example, with a zipper to be opened from the inside or outside, but the must prevent water from entering the cavity.

The remaining area z. B. from at least two together connectable shells, which are hinged together are connected so that by separating or connecting the bowls easily created an entry / exit becomes.

According to yet another development of the invention, that is at least a drive fin via a connecting device with the feet and / or calves of the human body connectable. In this way there is an effective conversion of the foot or leg movements into striking movements the drive fin.

The at least one drive fin can be horizontal in the operating state lie, the operating state being defined by the state where the hollow body lies horizontally in the water. The attachment and muscle power transmission from humans to the integrated, horizontal attached drive fin on both legs z. B. by cuff-like Tabs on both lower legs and feet. The horizontal trained drive fin has the advantage that with the diving device According to the invention, for example, very close to the bottom of the water can be operated if the drive fin only very slight strokes executes. The drive fin can only be used with your feet be connected.

According to another embodiment of the invention, that is at least a drive fin lying vertically in the operating state, which is the advantage has that with the diving equipment for example very close to cliffs can dive along if the vertical drive fin is caused by drive movements is only slightly deflected to the side. This is the fin blade to integrate into the cavity perpendicular to the transverse axis of the body.

The vertical drive fin can be equipped with two lever-like collar beams be connected and preferably extends between the legs of the human body, so that the generation of the lateral flap by mutual longitudinal displacement of the legs along the longitudinal axis of the body is possible. There are shoes on the two cantilevers attached to accommodate the feet.

The hollow body is preferably designed in a streamlined manner, so that the To offer water as little resistance as possible. So it has a streamlined Form and is therefore low resistance.

According to a development of the invention, the hollow body is fish-shaped trained, which makes it possible, for example, to go unnoticed in To stop schools of fish. Here are other forms of the hollow body, that resemble the animal world, conceivable.

In another development of the invention, the hollow body contains for certain groups of fish characteristic, external characteristics, in order to this way to further improve the camouflage of the diving equipment. Such characteristic features could be a dorsal fin, Fake gills or others.

To further improve the camouflage, the hollow body could additionally be provided with a coloring that has a biological model.

According to the preferred embodiment of the invention, the hollow body is made Made of rubber and / or plastic, which makes production easy of the hollow body is possible. Others not mentioned in the description and materials suitable for the hollow body are also conceivable.

According to another embodiment of the invention, the hollow body is made at least from an outer water-repellent layer and an inner, the outer layer supporting support layer. Due to the outer water-repellent Layer is prevented that water penetrate into the hollow body can. The inner support layer admits the entire hollow body an essentially stable at all times and convex in most areas Shape.

According to a further embodiment of the invention, the support layer consist of a water and / or gas absorbing material. The The supporting property of the support layer must be maintained. To this Way z. B. air for breathing or buoyancy purposes through the support layer be sucked up or taken up.

The inside of the support layer can also be coated with water or gastight material to be covered to prevent penetration of the support layer stored substances, e.g. B. water, in the interior of the hollow body to prevent.

The support layer can also be in several water or gas tight from each other separate chambers can be divided. So it is possible to have different Place substances in the support layer without these together be mixed.

According to a preferred embodiment of the invention are in the wall of the hollow body hollow chambers are present, which also have channels can be interconnected, for example via hoses.

The hollow chambers can be filled with a liquid or with gas be so that, for example, drinking water or oxygen are carried along can, to allow longer dives. Filling the cavities with a solid substance is not excluded. With the Hollow chambers can also be combined to pass through a tube system Filling and emptying the hollow chambers a tare of the diving device to enable. The same applies to chambers made of water or gas absorbing material. In the case of hollow chambers can this and the hose system by foaming from before introduced containers and hoses are formed.

According to another development of the invention, the chambers or Fill hollow chambers with a manually operated pump system or to empty. The manually operated pump system could Example be formed by bellows using hoses with the chambers are connected, and by actuation, for example arm or hand movements of the diver into the air or water or can pump out of the chambers or hollow chambers. With the help of this Pump systems is a simple way of balancing the diving device Can be realized without electrical energy, i.e. balancing the diving device without the use of external energy only through the muscular strength of the diver.

However, the pump system could also be operated electrically, whereby then, for example, a power supply in one of the chambers, for example a battery must be made available. Alternatively, could the pump system can also be driven pneumatically; this is then z. B. to carry an energy supply in the form of compressed air in pressure bottles.

According to another embodiment of the invention, at least one of the Chambers with one pointing upwards when the diving device is in operation Air inlet connector and connected to the inside of the hollow body. In this way it is possible to use air through the air inlet nozzle of the pump system and in at least one of the chambers save. The air inlet connector expediently points upwards, so that in the surface of the diving device, a suction of air is possible from the atmosphere. This air could then be in at least one of the chambers can be stored, for example, when needed also by means of the pump system for breathing into the interior of the hollow body to deliver. For regular exchange of the breathing air in the hollow body the diver can come to the surface of the water by means of the pumping system, for example the bellows that used up Pump out air and new air through the air intake in the hollow body suck in.

For example, the air intake port could be directly on the outer surface be integrated into the hollow body or, for example, in a dorsal fin lie, the latter only has to protrude from the water to Suck air into at least one of the chambers and, if necessary, into the Deliver inside the hollow body.

According to a further embodiment of the invention, some of the hollow chambers open to the inside or outside of the hollow body. One for For example, the chamber open towards the inside of the hollow body could be used for Serve to accommodate an oxygen bottle carried in the hollow body, so as to ensure oxygen supply in a conventional manner.

According to another development of the invention, the hollow body has openings to pass through the arms of the human body, being on the outside open chambers for receiving the arms are formed. On this way the arms of a person surrounded by the hollow body on the one hand securely received and on the other hand for tax purposes on the side be spread apart.

In addition, the openings can be closed with sleeves to accommodate the arms should be connected, making it easy to work outside of the hollow body is possible. However, the openings could also be such be designed so that the arms can be spread out only when needed are so that they are generally located inside the hollow body, for example to carry out work inside the hollow body. The possibility of spreading the arms sideways and putting them back on to be able to do it in a simple way Pump system, the z. B. comes to rest in the armpit area, or a steering system will be realized.

The design of the openings for the hollow chambers open to the outside the arm could be lip-shaped. These lips touch other along the outer longitudinal axis of the hollow chamber, so that by the the existing slot pushed the arms out at any time and moved freely can be. Because of the lips that lie against each other existing gap in principle open hollow chamber for receiving the arms the flow losses caused by turbulence kept small.

According to one embodiment of the invention, the hollow body has an Internal and adapted to the shape of the human body Body support device through which a long-lasting and energy-saving Lying inside the cavity is possible. The support structure could also be designed so that it covers the human body additionally protects against cold, for example. Through the support structure the human body inside the cavity more hold and can so effectively the body movements in a striking motion of the drive fin implement.

According to a further embodiment of the invention is in the front area arranged a snorkel of the hollow body. This snorkel could For example, they are on top of the dome and in the operating state of the diving device face up towards the water surface. That’s it possible, when diving near the water surface over the Snorkel to suck in air from the atmosphere for breathing purposes. Of the Snorkel could also be integrated into a dorsal fin. The suction can be done using the pump system or the diver's airway respectively. It should be convenient between snorkel and Dome a valve to be formed, which prevents deeper diving Water can enter the dome through the snorkel. The valve could be operated manually or even automatically.

In a further embodiment of the invention, the dome is like this trained that display instruments, such as a speedometer or a depth gauge are integrated, so that in a comfortable way and Way the diving process can be monitored at any time.

• Bildung einer Negativform wenigstens von Teilen des Hohlkörpers;
• Auskleiden der Negativform mit einer wasserdichten ersten Schicht: und
• Aufbringen wenigstens einer Isolationsschicht auf die Innenseite der in der Negativform liegenden ersten Schicht.

A method according to the invention for producing a diving device from an elongated hollow body which can accommodate a human body extending in the longitudinal direction of the hollow body is characterized by the following steps:

• Formation of a negative shape of at least parts of the hollow body;
• Lining the negative mold with a waterproof first layer: and
• Applying at least one insulation layer to the inside of the first layer lying in the negative mold.

An advantage of the method according to the invention for producing a Diving device according to the invention lies in the small number of process steps, which has a positive effect on the manufacturing costs.

The negative form can, for example, have a multi-layer structure. To this Wise is a simple manufacture of the outer shape of the diving device possible.

After a development of the method according to the invention, the first Layer pulled by negative pressure against the negative form, whereby the later outer skin, for example seawater-proof and waterproof, flexible Rubber material, fits positively on the negative shell. It could the outer skin is made of any other suitable material, even if this is not explicitly mentioned in the description.

Furthermore, according to the invention, the at least one insulation layer be formed by foaming material. The foam is there preferably flexible and can hold liquids or Gas should be suitable if it is correspondingly porous. So after the Harden the very well glued with an outer skin and with a convex Shape provided, but still flexible outer shape of the Diving equipment.

With the help of this at least one insulation layer, it is possible to Hollow human body very long before cooling to preserve. Instead of just an insulation layer on the inside of the outer skin several insulation layers would also be conceivable, whereby further improves the thermal insulation behavior of the diving device.

According to another development of the method according to the invention becomes an area between a positive shape to form the insulation layer and the negative form foamed. For example, the positive form resemble the shape of a human body, creating an individual Adaptation to the respective diver is possible. It can too be provided with waterproof and watertight insulation, which after acceptance the positive form sticks to the foam.

According to a further embodiment of the method according to the invention the introduction of the hollow chambers and channels into the insulation layer by foaming appropriate containers and lines that were previously installed. This makes it possible to make all connections in advance to attach or assemble and connect. By the final foaming permanently bonds all surfaces with each other, making the containers and pipes easy in the wall of the hollow body can be integrated. This represents an easy one and yet reliable manufacturing process safe.

According to yet another embodiment of the method according to the invention becomes a water and / or gas absorbent to form the insulation layer Material used so that the insulation layer itself at least can form a chamber. However, several chambers can also be used formed in this way by water and / or gas impermeable Material are separated from each other.

Ultimately, according to the invention, various can be used to form the hollow body Wall elements are made and then assembled. This has the advantage that the different wall elements are simple can be made from different materials.

Fig. 1 eine Gesamtansicht eines ersten Ausführungsbeispiels eines Tauchgeräts gemäß der Erfindung:

Fig. 2 eine Gesamtansicht des ersten Ausführungsbeispiels nach Fig. 1 als Drahtmodell:

Fig. 3 eine Detailzeichnung des hinteren Bereichs des Ausführungsbeispiels nach Fig. 2;

Fig. 4 eine Seitenansicht eines zweiten Ausführungsbeispiels gemäß der Erfindung im Längsschnitt;

Fig. 5 eine perspektivische Ansicht eines dritten Ausführungsbeispiels der Erfindung:

Fig. 6 eine Gesamtansicht eines vierten Ausführungsbeispiels gemäß der Erfindung: und

Fig. 7 eine Draufsicht auf das vierte Ausführungsbeispiel nach Fig. 6.

Exemplary embodiments of the invention are described in more detail below with reference to the attached drawing. Show it:

1 is an overall view of a first embodiment of a diving device according to the invention:

2 shows an overall view of the first exemplary embodiment according to FIG. 1 as a wire model:

FIG. 3 shows a detailed drawing of the rear area of the exemplary embodiment according to FIG. 2;

Fig. 4 is a side view of a second embodiment according to the invention in longitudinal section;

5 shows a perspective view of a third exemplary embodiment of the invention:

6 is an overall view of a fourth embodiment according to the invention: and

7 is a plan view of the fourth embodiment of FIG. 6th

Fig. 1 shows an overall shaded view of a first preferred embodiment of a diving device according to the invention of an elongated hollow body 1 and a horizontal drive fin 2, which is integrally connected to the hollow body 1.

In Fig. 1 is also a head 3 of a lying in the longitudinal direction of the hollow body to see human body that protrudes into a transparent dome 4.

The dome 4 also has an upstanding snorkel 5, such as 1, which projects into the dome 4 via a seal 6. How can be seen further, the dome 4 offers enough space around the head 3 comfortably stretch forward and to the side.

Furthermore, the preferred first embodiment of the invention an area 7 lying approximately in the middle, and an area for driving movement in the rear part 8 of the hollow body 1. As in FIG. 1 indicated, the central region 7 is less elastic than that rear part 8 of the hollow body 1. Furthermore, an insulation layer 9 can be seen, into which the upper body of the person lying in the hollow body 1 is embedded.

FIG. 2 shows an overall view of the first exemplary embodiment according to FIG. 1 as a wireframe. The same reference numbers are used for the same parts as used in Fig. 1.

As seen in Fig. 2, are in the preferred first embodiment of the invention hollow chambers 10 in the wall of the hollow body 1 available to hold liquid, gaseous or solid substances. In the rear part 8 of the hollow body 1 there is also a connecting device 11 trained over the feet of a human body 13 with the drive fin 2 are connected. As further seen in Fig. 2 extends the rear part 8 of the hollow body 1 to about the hip of the human body 13.

Fig. 3 shows a detailed drawing of the rear part 8 of the first embodiment according to Fig. 2. It also contains the same components the same reference numbers are chosen.

As seen in Fig. 3, the preferred first embodiment of the invention, the feet are fixed on shoes 12 on a plate 14 which is coupled to the drive fin 2 via the connection unit 11. The Connection unit 11 consists of a relatively rigid and elongated Horizontal plate, the z. B. in one piece from the drive fin 2 emerges and points towards the human body 13. This in Direction to the human body 13 free end of this horizontal plate is attached obliquely to the plate 14, for example via a suitably designed Angle element 14a. The plate 14 lies obliquely to the longitudinal direction of the hollow body 1 and carries on its the connecting unit 11 opposite side firmly connected to the shoes 12 for recording of the feet of the human body 13. The entire connecting unit 11 is located inside the hollow body 1, so that only the drive fin 2 protrudes from this. The rear end of the Hollow body 1 pointed towards the drive fin 2 and is there with this z. B. welded or glued.

The rear end of the hollow body 1 is more elastic in the present case trained to stroke movements of the legs of human Allow body 13. The middle part of the hollow body could then be less be elastic and essentially serve to stabilize the shape. On the other hand, it is also possible to have the entire outside of the dome lying area of the hollow body 1 more elastic, but still to keep its shape in order to accommodate dolphin-like movements in human beings Allow body 13, which are essentially generated by that the latter can also be angled in the hip area.

Fig. 3 also shows a waterproof first layer 15, the entire Encloses hollow body 1, with a support layer under the layer 15 15a, which is designed as an insulation layer.

Fig. 4 shows a side view of a second preferred embodiment the invention as a wire model, the same for the same parts Reference numerals are chosen as in Figures 1 to 3.

As seen in Fig. 4, the second preferred embodiment differs from the first in that the drive fin 2 in the operating state is arranged vertically. A plate-shaped continuation 16 of the drive fin 2 extends to the knee area of the human body 13 and thus projects into the interior of the rear part 8 of the hollow body 1.

For the drive of the drive fin 2 are two lever-like cantilever beams 17A. B attached to opposite sides of the extension 16, via which the Feet of the human body 13 with the drive fin 2 for the drive movement are connected. The feet are stuck in shoes 12 the cantilevers 17A, B are attached.

5 shows an overall view of a third preferred exemplary embodiment the invention. The same reference numbers are used for the same parts as used in the previous figures.

5 differs from FIG. 1 essentially in that the dome 4 no snorkel 5 is present, and that instead an oxygen device 19 in the area of the back of the human Body 13 is located. This oxygen device 19 lies inside open cavity of the hollow body 1, wherein the cavity in the Wall of the hollow body 1 is located. The oxygen device 19 stands with a breathing mask that the diver wears.

In the exemplary embodiment according to FIG. 5, the shoes are also 12 replaced by rigid boots with a long shaft, uni even more strength to be able to transmit the drive fin 2.

6 and 7 relate to a fourth embodiment of the invention. For the same components, the same reference numerals as used in the previous figures.

In the fourth embodiment according to Figures 6 and 7 are hollow chambers 20 open to the outside in the side wall of the hollow body 1. These hollow chambers 20 extend in the longitudinal direction of the hollow body 1 and serve to hold the arms 18 of the human body 13, the are guided through the wall of the hollow body 1 to the outside. This is the wall of the hollow body 1 with corresponding through openings provided that are connected with sleeves and further with gloves into which the arms 18 of the human body 13 protrude to to prevent water from getting inside the hollow body 1 when the arms 18 are outside the hollow body 1.

The arms 18 are then spread away from the hollow body 1 when the diver this to support the longitudinal movement of its diving body for deemed necessary, or if he z. B. Objects from the bottom of the ocean floor want to cancel. When driving the hollow body 1, he can arms 18 in the existing cavities 20, then the To reduce flow resistance.

The wall thickness of the hollow body 1 in the region of the hollow chambers 20 need not necessarily be as thick as the width or thickness of the Hollow chambers 6. It is also possible that the hollow chambers 20 in the Hollow body 1 are convexly molded into it. In any case is also in Inside the hollow chambers 20 on the outside a water-repellent Layer available.

Claims (45)

Diving device, consisting of an elongated hollow body (1), the elnen human body extending in the longitudinal direction of the hollow body (13) can completely absorb and deviate from its external shape, and which is designed to be elastic at least in one area for the drive movement and passes into at least one drive fin (2). Diving device according to claim 1, characterized in that the hollow body (1) is made less elastic outside the area provided for the drive movement. Diving device according to claim 2, characterized in that the area for the drive movement lies approximately in the middle of the hollow body. Diving device according to claim 2, characterized in that the area for the drive movement lies in the rear part of the hollow body (8). Diving device according to one of claims 1 to 4, characterized in that the hollow body (1) is formed in one piece and can be opened for entry purposes. Diving device according to one of claims 1 to 4, characterized in that the hollow body (1) is divisible. Diving device according to claim 5 or 6, characterized in that a front transparent area of the hollow body (1) is designed as a dome (4). Diving device according to claims 6 and 7, characterized in that the dome () can be placed on the remaining area of the hollow body (1). Diving device according to claim 8, characterized in that the remaining area of the hollow body (1) can be opened in the longitudinal direction of the hollow body. Diving device according to claim 9, characterized in that the remaining area consists of at least two interconnectable shells. Diving device according to claim 10, characterized in that the shells are connected to one another by a hinge. Diving device according to one of claims 1 to 11, characterized in that the at least one drive fin (2) can be connected to the feet and / or calves of the human body (13) via a connecting device (11). Diving device according to claim 12, characterized in that the at least one drive fin (2) lies horizontally in the operating state. Diving device according to claim 12 , characterized in that the at least one drive fin (2) lies vertically in the operating state. Diving device according to claim 14, characterized in that the vertical drive fin (2) is connected to two lever-like cantilever beams (17A, 17B) and extends between the legs of the human body (13). Diving device according to one of claims 1 to 15, characterized in that the hollow body (1) is of streamlined design. Diving device according to claim 16 , characterized in that the hollow body (1) is fish-shaped. Diving device according to claim 17, characterized in that the hollow body (1) has characteristic external features for certain groups of fish. Diving device according to claim 17 or 18, characterized in that the hollow body (1) is colored according to a biological model. Diving device according to one of claims 1 to 19, characterized in that the hollow body (1) consists of rubber and / or plastic. Diving device according to one of claims 1 to 20, characterized in that the hollow body (1) consists of at least one outer water-repellent layer (15) and an inner supporting layer (15a) supporting the outer layer. Diving device according to claim 21, characterized in that the support layer (15a) consists of a water- and / or gas-absorbing material. Diving device according to claim 22, characterized in that the inside of the support layer (15a) is covered with a water- or gas-tight material. Diving device according to claim 22 or 23, characterized in that the support layer (15a) is subdivided into a plurality of water-tight or gas-tight separate chambers. Diving device according to one of claims 1 to 20, characterized in that there are hollow chambers (10) in the wall of the hollow body (1). Diving device according to claim 24 or 25, characterized in that chambers or hollow chambers are connected to one another via channels. Diving device according to claim 25 or 26, characterized in that the hollow chambers can be filled with a liquid or with gas. Diving device according to one of claims 24 to 27, characterized in that a pump system is provided for filling or emptying the chambers or hollow chambers. Diving device according to claim 28, characterized in that the pump system can be driven manually or operated by muscle power. Diving device according to claim 29 , characterized in that at least one of the chambers or hollow chambers is connected to an air inlet connection (5) which points upward in the operating state of the diving device and to the interior of the hollow body (1). Diving device according to one of claims 22 to 27, characterized in that hollow chambers are open to the inside or outside of the hollow body (1). Diving device according to claim 31, characterized in that the hollow body (1) has openings for the passage of the arms (18) of the human body (13), and that externally open chambers (20) are formed for receiving the arms (18). Diving device according to claim 32, characterized in that the openings are connected to closed sleeves (21) for receiving the arms (18). Diving device according to one of claims 1 to 33, characterized by a body support device (9) arranged in the interior of the hollow body (1) and adapted to the shape of the human body (13). Diving device according to one of claims 1 to 34, characterized in that a snorkel (5) is arranged in the front region of the hollow body (1). Diving device according to one of claims 7 to 35, characterized in that display instruments are arranged in the dome (4). Diving device according to claim 30 or 35, characterized in that the air inlet nozzle or snorkel (5) is guided by a dorsal fin. Method for producing a diving device from an elongated hollow body (1) which can accommodate a human body (13) extending in the longitudinal direction of the hollow body, with the following steps: Formation of a negative shape of at least parts of the hollow body (1); Lining the negative mold with a waterproof first layer (15); and Applying at least one insulation layer (15a) to the inside of the first layer (15) lying in the negative mold. A method according to claim 38, characterized in that the first layer is drawn against the negative mold by negative pressure. A method according to claim 38 or 39, characterized in that the at least one insulation layer is formed by foaming material. A method according to claim 40, characterized in that an area between a positive mold and the negative mold is foamed to form the insulation layer (9). Method according to claim 40 or 41, characterized in that hollow chambers and channels to be located in the wall of the hollow body (1) are introduced into the insulation layer (9). A method according to claim 42, characterized in that the hollow chambers and channels are introduced by foaming in corresponding containers and lines which were previously installed. Method according to one of claims 38 to 43, characterized in that a water- and / or gas-absorbing material is used to form the insulation layer (9). Method according to one of Claims 38 to 44, characterized in that, in order to form the hollow body (1), different wall elements are produced and assembled separately.

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