BACKGROUND OF THE INVENTION
1. Field of the Invention
[0001] The present disclosure relates to propelling systems of powered ships and, more particularly,
to a propelling system conducive to enhancement of propulsion efficiency and applicable
even when the ship has a shallow draft.
2. Description of the Related Art
[0002] An outboard motor is a demountable power device affixed to the stern of a ship and
designed to transmit power (for example, that supplied by an internal combustion engine
or a generator) to a propeller such that the propeller rotates. The rotation of the
propeller causes the ship to move forward. The outboard motor is suitable for small
ships sailing on rivers, lakes and coastal waters.
[0003] To ensure that the outboard motor has high propulsion efficiency, the prior art discloses
immersing the propeller in water such that the propeller has a sufficiently deep draft.
The prior art, however, is disadvantaged by an increase in water drag and an increase
in the likelihood that the propeller hits the beds of the rivers/lakes/coastal waters
or entangles itself with foreign bodies, such as plastic bags, fishing nets and waterweed,
in the water. The latter disadvantage causes damage to the propeller and even marine
organisms.
SUMMARY OF THE INVENTION
[0004] It is an objective of the present disclosure to provide a propelling system of a
powered ship such that the propelling system is conducive to enhancement of propulsion
efficiency and applicable even when the ship has a shallow draft.
[0005] In order to achieve the above and other objectives, the present disclosure provides
a propelling system comprising a support, an outboard motor, a guide component and
a water inlet unit. The support is disposed at a stern of the powered ship. The outboard
motor is disposed at the support and has a blade wheel. The axis of the blade wheel
is higher than a hull of the powered ship. The guide component has a guide ring and
a nozzle. The guide ring conceals the blade wheel. The nozzle is connected to the
back of the guide ring and disposed proximate to the blade wheel. The water inlet
unit is disposed at the stern of the powered ship and below the support. A water inlet
hole is disposed at the bottom of the water inlet unit. The water inlet unit has a
water outlet hole opening toward the guide ring. A water inlet channel is formed between
the water inlet hole and the water outlet hole.
[0006] Therefore, as soon as the blade wheel rotates, water in the hull is admitted to the
water inlet channel through the water inlet hole of the water inlet unit, then conveyed
to the guide ring through the water outlet hole of the water inlet unit, and finally
subjected to commutation performed by the blade wheel before being ejected from the
nozzle, enabling water to be conveyed at low pressure and ejected at high flow rate.
Therefore, the propelling system of a powered ship according to the present disclosure
is conducive to enhancement of propulsion efficiency and applicable even when the
ship has a shallow draft.
[0007] Fine structures, features, assembly or operation of the propelling system of the
present disclosure are illustrated by embodiments and described below. However, persons
skilled in the art understand that the description below and the specific embodiments
are illustrative of the present disclosure rather than restrictive of the claims of
the present disclosure.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008]
FIG. 1 is a schematic view of how a propelling system is mounted on a powered ship
according to the present disclosure.
FIG. 2 is a partial cross-sectional view of the propelling system of the present disclosure.
FIG. 3 is a partial rear view of the propelling system of the present disclosure.
DETAILED DESCRIPTION OF THE INVENTION
[0009] Directional wording used hereunder must be interpreted in accordance with the accompanying
drawings. Identical reference numerals used hereunder and in the accompanying drawings
denote identical or similar components or structural features thereof.
[0010] Referring to FIG. 1 through FIG. 3, a propelling system
16 of the present disclosure comprises a support
18, an outboard motor
20, a guide component
34 and a water inlet unit
40.
[0011] The support
18 is fixed to a stern
12 by welding or by screws and disposed proximate to the top of the stern
12.
[0012] The outboard motor
20 has a casing
22 for concealing its engine (which is disclosed by prior art and is not shown in the
accompanying drawings). An extension box
24 is connected to the casing
22 from below and adapted to contain a driving shaft (which is disclosed by prior art
and is not shown in the accompanying drawings). A bracket
26 is disposed on the front of the extension box
24. The outboard motor
20 is hung on the support
18 by the bracket
26. A gear box
28 is connected to the extension box
24 from below and adapted to connect to the driving shaft . An eddy-preventing baffle
32 is disposed between the gear box
28 and the extension box
24. A blade wheel
30 is connected to the gear box
28 from behind, as shown in FIG. 2. The axis of the blade wheel
30 is higher than a hull
14. Therefore, power generated by the engine is transmitted to the gear box
28 by the driving shaft. The power undergoes a deceleration process performed by the
gear box
28 before being transmitted to the blade wheel
30, enabling the blade wheel
30 to rotate.
[0013] The guide component
34 has a guide ring
36 and a nozzle
38. The guide ring
36 is disposed at the eddy-preventing baffle
32 of the outboard motor
20 and conceals the blade wheel
30 completely and the gear box
28 partially. The nozzle
38 is connected to the back of the guide ring
36 by screws and disposed proximate to the blade wheel
30.
[0014] The water inlet unit
40 is fixed to the stern
12 by welding or by screws and disposed below the support
18. A water inlet hole
42 is disposed at the bottom of the water inlet unit
40. The water inlet hole
42 is substantially as high as the hull
14. A water outlet hole
44 opening toward the guide ring
36 is disposed on the back of the water inlet unit
40. A water inlet channel
46 extending obliquely is formed between the water inlet hole
42 and the water outlet hole
44.
[0015] Therefore, as soon as the blade wheel
30 rotates, water in the hull
14 is admitted to the water inlet channel
46 through the water inlet hole
42 of the water inlet unit
40, then conveyed to the guide ring
36 through the water outlet hole
44 of the water inlet unit
40, and finally subjected to commutation performed by the blade wheel
30 before being ejected from the nozzle
38, enabling water to be conveyed at low pressure and ejected at high flow rate. To
slow down or stop a ship
10, all it needs to do is control the blade wheel
30 to decelerate, stop and rotate reversely.
[0016] In conclusion, compared with the prior art, the propelling system
16 of the present disclosure has advantages as follows:
- 1) First, the support 18 enables the outboard motor 20 to be mounted higher. Second, the rotation of the blade wheel 30 is confined to the guide ring 36. The first and second advantages together not only reduce the likelihood that the
blade wheel 30 hits riverbeds or entangles itself with foreign bodies and thus gets damaged, but
also reduce the likelihood that the blade wheel 30 injures the fish, swimmers or divers in the vicinity of the hull 14. Therefore, the propelling system 16 of the present disclosure is applicable to the ship 10 with a shallow draft and rescue ships 10.
- 2) When the propelling system 16 of the present disclosure is in operation, water is admitted to the water inlet unit
40, then conveyed from the water inlet unit 40 to the guide ring 36, and finally subjected to the commutation performed by the blade wheel 30 before being ejected from the nozzle 38. Therefore, eddies are unlikely to occur behind the stern 12, thereby enhancing propulsion efficiency and augmenting controllability of the ship
10.
1. A propelling system (16) of a powered ship (10), the powered ship (10) having a stern
(12) and a hull (14), the propelling system (16) comprising:
a support (18) disposed at the stern (12);
an outboard motor (20) disposed at the support (18) and having a blade wheel (30),
wherein an axis of the blade wheel (30) is higher than the hull (14);
a guide component (34) having a guide ring (36) and a nozzle (38), the guide ring
(36) concealing the blade wheel (30), the nozzle (38) being connected to a back of
the guide ring (36) and disposed proximate to the blade wheel (30); and
a water inlet unit (40) disposed at the stern (12) and below the support (18), having
a water inlet hole (42) formed from below, and having a water outlet hole (44) opening
toward the guide ring (36), wherein a water inlet channel (46) is formed between the
water inlet hole (42) and the water outlet hole (44).
2. The propelling system (16) of a powered ship (10) according to claim 1, wherein the
water inlet hole (42) is as high as the hull (14).
3. The propelling system (16) of a powered ship (10) according to claim 1, wherein the
outboard motor (20) further has a gear box (28) connected to the blade wheel (30)
and partially concealed by the guide ring (36).
4. The propelling system (16) of a powered ship (10) according to claim 1, wherein the
guide ring (36) is disposed at an eddy-preventing baffle (32) of the outboard motor
(20).