DE102009041902A1 - Jet engine for propulsion of watercraft - Google Patents

Abstract

Water jet engine for propelling watercraft with a closed inlet channel 1, in which the water column 2 guided through the ship moves to a propulsion device 3, and an outlet channel 4 with outlet nozzles 5, through which the water column 2 with the help of the propulsion device 3 as a water jet 6 is ejected, characterized in that the drive device 3 consists of an even number, at least two, vessel-shaped closed chambers 7, 8, in each chamber between mutual covers 7.3, 7.4 of the chamber 7 and 8.3, 8.4 of the chamber 8 waterproof and airtight elastic Hoses 9 are used, which divide each chamber 7, 8 into working spaces 7.1, 8.1, which are outside the hose 9, and working spaces 7.2, 8.2, which are inside the hose 9, with working spaces 7.1, 8.1 with air and working spaces in a cycle process 7.2, 8.2 are filled with water and emptied. The working spaces 7.2 and 8.2 of the chamber 7, 8 are closed with inlet duct 1, inlet openings 11, 12 on the cover 7.3, 8.3, which can be closed by a remote control system 10, and outlet valves 13, 14 on the cover 7.4, 8.4, which can be closed by the remote control system 10, with the outlet duct 4. The working spaces 7.1 and 8.1 of the chamber 7, 8 are inlet valves 15, 16, which can be closed by the remote control system 10, on compressed air line 17 to a low-noise air compressor 18, and outlet valves 19, 20 which can be closed by the remote control system 10 are ...

Description

The invention relates to a jet engine according to the preamble of claim 1.

Such jet engine are used in watercraft

Jet engines have many advantages in marine propulsion, such as increased safety and maneuverability.

For small craft outboard jet engines are used.

Such an outboard jet engine was replaced by the DE 20 2006 010 782 U1 known. In this outboard jet engine creates the water jet of a propeller propulsion system, which is inserted between a short inlet and a short exhaust duct.

In an invention 1 227 798 an inboard jet engine is described. In this jet engine, the jet of water also creates a propeller axial pump which is inserted between an inlet and an outlet channel. The inlet channel, which runs longitudinally through the ship, forms what is known as the water column, which sucks in the propeller axial pump and ejects it as pressurized water in the narrow outlet channel. At the end of the outlet channel from a discharge nozzle water jet occurs.

The disadvantage is that these and similar outboard and inboard jet engines produce very heavy noise levels for the user and the environment.

There are water jet engines according to P.A. 2 058 392 and 468 905 for driving watercraft known in which the inflowing water is supplied on routes from the channel inlet to the channel outlet in a drive system by compressed gases energy.

In these waterjet engines, a fuel is ignited directly in running through the drive water, a fuel and managed by the resulting pressure gases, a jet of water.

The disadvantage, however, is that these and similar inboard jet engines produce except very heavy sonic load for the user and the environment and the water pollution with fuel gases.

There is therefore the technical problem of developing a viable water jet engines, which creates a strong water jet without sound pollution and water pollution.

This object is solved by the characterizing features of claim 1 and subclaims 2 to 9.

In patent application DE 10 2009 038 366.2 is technical solution such jet engine described in two variants.

Here is the description of the technical solution for yet another embodiment of the jet engine in addition to the patent application DE 10 2009 038 366.2

The new jet engine eliminates the aforementioned disadvantages of the prior art.

The new water jet engine consists of uncomplicated for the production of single parts and is therefore easy and cheap in the production of metal and plastic. It is well suited for developing all known peripheral equipment, their control and maintenance. It is also very effective because its water jet is powerful and still noiseless.

In addition, the new jet engine can be easily installed in any type of ship due to small dimensions of its underwater part.

The invention will be explained in more detail with reference to an embodiment. To show:

1 : The new jet engine in operation:
in chamber 8th runs clock filling
in chamber 7 runs clock ejection

2 : The new jet engine in operation:
in chamber 8th stops clock filling
in chamber 7 stops clock ejection

The new jet engine for driving watercraft 1 , from a closed inlet channel 1 in which the water column guided by the ship 2 to a drive device 3 to move, and an ejection channel 4 with outlet nozzles 5 through which the water column 2 with the help of the drive device 3 as a jet of water 6 is ejected.

The drive device 3 The new jet engine consists of even number, at least two, vase-shaped closed chamber 7 . 8th , in each chamber between mutual lids 7.3 . 7.4 the chamber 7 and 8.3 . 8.4 the chamber 8th Water and airtight elastic hoses 9 . used, which each chamber 7 . 8th on workrooms 7.1 . 8.1 that except the hose 9 lie, and work spaces 7.2 . 8.2 inside the hose 9 lie, split, thereby working spaces in a cycle process 7.1 . 8.1 with air and working spaces 7.2 . 8.2 filled with water and liberated.

The workrooms 7.2 and 8.2 chamber 7 . 8th are with inlet channel 1 through a remote control system 10 closable inlet openings 11 . 12 on the lid 7.3 . 8.3 and with ejection channel 4 through the remote control system 10 closable exhaust valves 13 . 14 on the lid 7.4 . 8.4 closed.

The workrooms 7.1 and 8.1 chamber 7 . 8th are through the remote control system 10 closable intake valves 15 . 16 on compressed air line 17 to a low-noise air compressor 18 and through the remote control system 10 closable exhaust valves 19 . 20 on exhaust pipe 21 to an air storage 22 closed.

The air inlet pipe 23 of the air compressor 18 is at air storage 24 closed, thereby forms a closed air circulation, in the air compressor 18 the working air from air storage 22 in workrooms 7.2 or 8.2 chamber 7 or 8th , with the pressure of 1-20 bar through compressed air line 17 pumps in and at the same time air from work spaces 8.1 or 7.1 chamber 8th or 7 , sucks.

Through the closable inlet opening 24 the inlet channel 1 , which is arranged under Watehrlinie, bow and obliquely to the keel of the ship, and through opened inlet opening 11 of the workroom 7.1 the chamber 7 the water comes first into the workspace 7.1 working chamber 7 , When the workroom 7.1 is filled with water, is in the chamber 7 first stroke - the filling - finished, 2 , and the remote control system 10 closes the inlet opening 11 ,

At the same time the remote control system opens 10 the outlet valve 13 of the workroom 7.1 to the discharge channel 4 , the inlet opening 12 of the workroom 8.1 the chamber 8th to the inlet channel 1 and the inlet valve 15 of the workroom 7.2 to the air compressor 18 , The airtight elastic hose 9 , which consists of folds, unfolds under 1-20 bar of air pressure and blows into working space 7.1 , By blowing in the hose 9 starts in workroom 7.1 chamber 7 second bar - the ejection. When the workroom 7.2 filled with the compressed air is in the chamber 7 second stroke - the ejection - finished, 2 , and the remote control system 10 closes the inlet valve 15 ,

At the same time starts in workroom 8.1 the chamber 8th the first bar - the filling.

The first bar and the second bar in chamber after another are in progress 7 and chamber 8th form a cycle for the water ejection process.

Under the 1-20 bar pressure of the elastic membrane 9 pokes the pressurized water out of work spaces 7.1 and 8.1 in discharge channel 4 away and forms at the outlet of outlet nozzles 5 a constant stream of water 6 out.

To possible vibration of the water pressure in discharge channel 4 To avoid possession of the new jet engine in discharge channel 4 a continuous pressurized water tank 25 , which with a reductor 26 to the air compressor 18 connected.

The remote control system 10 with the help of the reductor 26 Maintains constant air pressure over the water surface in the pressurized water tank 25 always smaller than at enema 28 and thus ensures, in spite of possible vibration, the water pressure in the inlet 28 , constant, stable water pressure values in spout 27 the pressurized water tank 25 and water jet 6 ,

The inlet opening 24 the inlet channel 1 own one by remote control system 10 closable slide 29 and a protective grid 30 , During the break, the remote control system closes 10 the inlet opening 24 the express canal 1 with the slider 29 for possible ingress of molluscs in the express channel 1 to avoid.

ejection channel 4 new jet engine branches off 31 . 32 . 33 . 34 with by a remote control system 10 closable valves, each branch to the outlet nozzles 5 closed, 3 , By using these branches maneuverability is ensured.

inlet port 24 the express canal 1 is located below waterline, bow and diagonal to the keel of the ship, therefore the seawater the chamber contents only under atmospheric pressure, water pressure difference between water surface and the inlet opening 24 the inlet channel 1 and dynamic water pressure in shipping filled.

The power of the water jet regulates the remote control system 10 by the air pressure in working chamber 7.2 . 8.2 or in the balloon 36 and 37 and passing water in working chamber 7.1 . 8.1 ,

LIST OF REFERENCE NUMBERS

1

inlet channel

2

water column

3

PTO

4

ejection channel

5

slice

6

waterjet

7

chamber

7.1

Working chamber 7

7.2

Working chamber 7

7.3

Cover to the inlet opening

7.4

Cover for exhaust valve

8th

chamber

8.1

Working chamber 8th a. Working chamber 8th b. Cover to the inlet opening c. Cover for exhaust valve

9

Airtight elastic hose

10

Remote control system

11

Closable inlet opening to the working space 7.1 chamber 7

12

Closable inlet opening to the working space 8.1 chamber 8th

13

Closable exhaust valve working space 7.1 chamber 7

14

Closable exhaust valve working space 8.1 chamber 8th

15

Lockable inlet valve working space 7.2 chamber 7

16

Lockable inlet valve working space 8.2 chamber 8th

17

Compressed air line

18

Low noise air compressor

19

Closable exhaust valve working space 7.2 chamber 7

20

Closable exhaust valve working space 8.2 chamber 8th

21

exhaust duct

22

air storage

23

Air input line

24

Inlet opening of the inlet channel 1

25

Hydraulic accumulator

26

The reductor

27

Outlet from pressurized water tank

28

Inlet in pressurized water tank

29

Closable slides of the inlet channel 1

30

Protective grille of the inlet channel 1

31

Turn off to the left

32

Turn off to the right

33

Turn back to the left

34

Turn off to the right

35

Spherical cavity chamber 7

36

Spherical cavity chamber 8th

37

Balloon in Spherical Holraum chamber 7

38

Balloon in Spherical Holraum chamber 8th

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202006010782 U1 [0005]
• DE 102009038366 [0013, 0014]

Claims (7)

Jet engine for propulsion of watercraft with a closed inlet duct 1 in which the water column guided by the ship 2 to a drive device 3 to move, and an ejection channel 4 with outlet nozzles 5 through which the water column 2 with the help of the drive device 3 as a jet of water 6 is ejected, characterized in that the drive device 3 of even number, at least two, vessel-shaped closed chamber 7 . 8th exists in each chamber between mutual lids 7.3 . 7.4 the chamber 7 and 8.3 . 8.4 the chamber 8th waterproof and airtight elastic hose 9 , which used each chamber 7 . 8th on workrooms 7.1 . 8.1 that except the hose 9 lie, and work spaces 7.2 . 8.2 inside the hose 9 lie, split, thereby working spaces in a cycle process 7.1 . 8.1 with air and working spaces 7.2 . 8.2 filled with water and liberated Jet engine for propulsion of watercraft according to claim 1, characterized in that the working spaces 7.2 and 8.2 chamber 7 . 8th with inlet channel 1 through a remote control system 10 closable inlet openings 11 . 12 on the lid 7.3 . 8.3 and with ejection channel 4 through the remote control system 10 closable exhaust valves 13 . 14 on the lid 7.4 . 8.4 are closed. Jet engine for propulsion of watercraft according to claim 1, characterized in that the working spaces 7.2 and 8.2 chamber 7 . 8th through the remote control system 10 closable intake valves 15 . 16 on compressed air line 17 to an air compressor 18 and through the remote control system 10 closable exhaust valves 19 . 20 on exhaust pipe 21 to an air storage 22 are closed. Jet engine for propulsion of watercraft according to claim 1, characterized in that the air inlet line 23 of the air compressor 18 to air storage 22 is closed, thereby forming a closed air circulation, in the air compressor 18 the working air from air storage 22 in workrooms 7.2 or 8.2 chamber 7 or 8th , with the pressure of 1-20 bar through compressed air line 17 pumps in and at the same time air from work spaces 8.1 or 7.1 chamber 8th or 7 through exhaust air line 21 sucks Jet engine for propulsion of watercraft according to claim 1, characterized in that in discharge channel 4 a continuous pressurized water tank 25 is installed, which with a reductor 26 to the air compressor 18 is connected, while maintaining the remote control system 10 with the help of the reductor 26 constant air pressure over the water surface in the pressurized water tank 25 always smaller than at enema 28 and thus ensures, despite possible vibration, the water pressure in the inlet 28 , a constant and stable water pressure in outlet 27 the pressurized water tank 25 and water jet 6 , Jet engine for propulsion of watercraft according to claim 1, characterized in that the inlet opening 22 the express canal 1 under Watehrlinie, bow and obliquely to the keel of the ship is arranged, it owns the inlet opening 22 the inlet channel 1 one by remote control system 10 closable slide 32 and a protective grid Jet engine for propulsion of watercraft according to claim 1, characterized in that the discharge channel 4 own branches 31 . 32 . 33 . 34 with by a remote control system 10 closable valves, each branch to the outlet nozzles 5 closed is.

Images