Unidirectional torque boosting propeller

Abstract

A front propeller on a main shaft communicated from one end to an engine transmission; the propeller having a hub and a plurality of blades extending radially outwardly from the hub; a rear propeller co-axially to, and spaced apart from, the front propeller rearwardly in an axial direction having a hub and a plurality of blades extending radially outwardly from the hub. An adaptor is coaxial with the main shaft and comprising a second shaft for supporting the rear propeller. A plurality of pitched-formed seating surfaces having ramps, are spaced apart from the second shaft in an axial direction. An adaptor communicates with the rear side of the front propeller in the axial direction; a plurality of locking elements are movable in the axial direction, each being in contact with the seating surfaces of the adaptor, and communicate with the rear propeller from the other end.

Claims

1. A propeller device comprising: a main shaft; a front propeller provided on the main shaft, the front propeller having a hub and a plurality of blades extending radially outwardly from the hub; a rear propeller being co-axially to and spaced apart from the front propeller backwardly in an axial direction, the rear propeller having a hub and a plurality of blades extending radially outwardly from the hub, wherein an adaptor is coaxial with the main shaft, said adaptor comprising a second shaft for supporting the rear propeller and a plurality of pitched-formed seating surfaces having ramps, the pitched-formed seating surfaces being spaced apart from the second shaft in the axial direction, and the adaptor communicating with a rear side of the front propeller in the axial direction; a plurality of locking elements resiliently movable in the axial direction, one of said locking elements being in contact with one of said pitched-formed seating surfaces and communicating with the rear propeller.

2. A device according to claim 1, wherein one of said locking elements abuts against one of said pitch-formed seating surfaces, each pitch-formed seating surface comprising a back surface extending in the axial direction.

3. A device according to claim 2, wherein the upper end of the back surface has a rounded form.

4. A device according to claim 3, wherein each pitch-formed seating surface comprises a front surface positioned on the front side of its back surface and having a rounded form.

5. A device according to claim 1, having a plurality of springs and a plurality of pins, wherein one of said springs is placed between one of said pins and one of said locking elements, said pin being insertable in an axial direction.

6. A device according to claim 5, further comprising pin housings formed on the rear propeller hub for inserting each pin.

7. A marine vessel comprising: a propeller device, said propeller device comprising; a main shaft; a front propeller provided on the main shaft, the front propeller having a hub and a plurality of blades extending radially outwardly from the hub; a rear propeller being co-axially to and spaced apart from the front propeller backwardly in an axial direction, the rear propeller having a hub and a plurality of blades extending radially outwardly from the hub, wherein an adaptor is coaxial with the main shaft, said adaptor comprising a second shaft for supporting the rear propeller and a plurality of pitched-formed seating surfaces having ramps, the pitched-formed seating surfaces being spaced apart from the second shaft in the axial direction, and the adaptor communicating with a rear side of the front propeller in the axial direction; and a plurality of locking elements resiliently movable in the axial direction, one of said locking elements being in contact with one of said pitched-formed seating surfaces and communicating with the rear propeller.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For a better understanding of the configuration and advantages of the present invention, along with its additional elements, it should be evaluated in reference to the accompanying drawings, wherein:

(2) FIG. 1 is a side view of a propeller device according to the invention.

(3) FIG. 2 is an exploded side view the propeller device according to the invention.

(4) FIG. 3 is an exploded perspective view of the propeller device according to the invention.

(5) FIG. 4 is another exploded perspective view of the propeller device according to the invention.

(6) FIG. 5 is a side cross-sectional view of the adapter and the rear propeller of the propeller device according to the invention.

(7) FIG. 6 is a perspective exploded view of the adapter and rear propeller of the propeller device according to the invention.

(8) FIG. 7 is a perspective view of a middle core part of the adapter.

(9) FIG. 8A is a perspective view of the locking element and adapter in the initial position prior to rear propeller locking.

(10) FIG. 8B shows the rotational condition of the propellers corresponding to the condition in FIG. 8A.

(11) FIG. 9A is a perspective view of the locking element and adapter in the intermediate position prior to rear propeller locking.

(12) FIG. 9B shows the rotational condition of the propellers corresponding to the condition in FIG. 9A.

(13) FIG. 10A is a perspective view of the locking element and adapter in the rear propeller locking position.

(14) FIG. 10B shows the rotational condition of the propellers corresponding to the condition in FIG. 10A.

(15) FIG. 11A is a perspective view of the locking element and adapter in the initial position prior to release of the rear propeller locking.

(16) FIG. 11B shows the rotational condition of the propellers corresponding to the condition in FIG. 11A.

(17) FIG. 12A is a perspective view of the locking element and adapter in the intermediate position prior to release of the rear propeller locking.

(18) FIG. 12B shows the rotational condition of the propellers corresponding to the condition in FIG. 12A.

(19) FIG. 13A is a perspective view of the locking element and adapter in the rear propeller locking release position.

(20) FIG. 13B shows the rotational condition of the propellers corresponding to the condition in FIG. 13A.

REFERENCE NUMBERS OF THE PARTS IN THE DRAWINGS

(21) 1 Front propeller 2 Front propeller hub 3 Front propeller blade 4 Rear propeller hub 5 Rear propeller blade 6 Second shaft 7 Adapter 8 Front propeller shaft hole 9 Front propeller bolt connecting slots 10 Adapter bolt connecting slots 11 Adapter-front propeller connecting bolts 12 Disc 13 Disc shaft hole 14 Disc bolt slots 16 Disc connecting bolts 17 Disc locking element holes 18 Locking elements 19 Spring 20 Pin 21 Stud 22 Stud holes 23 First sealing member 24 Second sealing member 25 Second shaft bearing 26 Washer Clamping nut 28 Ring 29 Pitch 30 Pitch back surface 31 Upper end of the pitch back surface 32 Seating surface 33 Locking element contact end 34 Rear propeller Rear propeller end opening 36 Pitch front surface 37 Pin housing

DETAILED DESCRIPTION OF THE INVENTION

(22) The propeller system according to the invention comprises a front propeller (1) and a rear propeller (34) arranged coaxially thereto. The front propeller (1) has a front propeller hub (2) and a plurality of front propeller blades (3) extending radially outwardly. The rear propeller (34) has a rear propeller hub (4) and a plurality of rear propeller blades (5) extending radially outwardly.

(23) The front propeller (1) has a shaft hole (8) at the center and a main shaft (38) (shown in phantom line) which is, at one end, attached to the vessel engine (not shown) is passed through the shaft hole (8) and fixed rigidly. An adapter (7) is attached from the hub to the back side (that side without engine) of front propeller (1). The adapter (7) has a cylindrical form, the lateral surfaces of which are tapered in the flow direction of water in order to decrease water resistance. A plurality of front propeller bolt connecting slots (9) are made on the back face surface of the front propeller hub (2) for connecting the front propeller (1) and the adapter (7). Similarly, the adapter (7) has bolt connecting slots (10) formed circumferentially and extending in the axial direction, which are tightened and joined by means of the adapter-front propeller connecting bolts (11) after they are aligned with the front propeller connecting bolt slots (9). In this aspect, the propeller device according to the invention may be easily adapted to a conventional propeller.

(24) The adapter (7) comprises a second shaft (6) on its back side, i.e. the side facing toward the rear propeller (34). Said second shaft (6) is preferably integral with the adapter (7), but optionally it may be arranged independently. The rear propeller (34) is supported rotationally on the second shaft (6) by means of a second shaft bearing (25). A first sealing member (23) is provided on the front side of the shaft bearing (25) and a second sealing member (24) is provided on the back side thereof. The tip of the second shaft (6) is threaded and a clamping nut (27) is passed through the rear propeller end opening (35) and is engaged and tightened to said threads. The second shaft (6) and the rear propeller (34) are therefore connected. In fact, the lower part of the clamping nut (27) rests on the base of the rear propeller end opening (35) when this nut is tightened. Due to its construction, a washer (26) may be placed between the second sealing member (24) and the clamping nut (27), and a ring (28) may be placed on the back side of the clamping nut (27).

(25) As shown in FIG. 7, in the middle core part of the adapter (7), there are configured structures in the form of pitches (29) spaced apart from the second shaft (6) in the axial direction. These pitches (29) are provided in circular shape around the axis and each pitch has a ramped/inclined seating surface (32). Each pitch (29) has a back surface (30) extending in axial direction. The pitch has a form such that the upper end of the back surface (31) is rounded. That section starting from the upper end of the pitch back surface (31) and moving downward from the inclined seating surface (32) toward the back surface of the next pitch is front surface of the pitch (36), which also has a rounded form.

(26) The device according to the invention comprises a plurality of locking elements (18), one end of which is in communication with the rear propeller (34) and the other end of which is in communication with adapter seating surfaces (32). The locking elements (18) have a form similar to human finger and those parts that are in communication with seating surfaces (32), i.e. contact ends (33), have a rounded form. The locking elements (18) are through holes in an axial direction, each of which is provided with a pin (20). A spring (19) is placed between the head of each pin (20) and the upper end of the locking element (18). The pins (20) are placed in the pin housings (37) formed on the rear propeller hub (4) surface facing to the adapter. A stud (21) exerts pressure on the upper part of each pin (20) head. These studs (21) are inserted through the stud holes (22) formed in an axial direction on the rear propeller (34) end and are screwed and fixed to the threads formed within the holes.

(27) As shown in FIG. 5, the upper end of the locking elements (18) is located in the pin housings (37). The locking elements (18) are formed such that axial movement of each locking element within a pin housing (37) is possible. A disc (12) is connected to the surface of the rear propeller hub (4) facing to the adapter (7). For this purpose, a disc shaft hole (13) is provided on the center of the disc (6) for the passage of the second shaft (12), as well as a plurality of disc bolt connecting holes (14) formed circularly at that part close to the outer diameter of the disc. A plurality of disc connecting bolts (16) are passed through said holes, which are similarly passed through the aligned holes formed at the rear propeller hub (4) and tightened, providing a connection therebetween. The disc (12) also comprises disc locking element holes (17) that are formed circularly and allow the locking elements to pass therethrough.

(28) In FIG. 8A and FIG. 10B, in forward movement of the vessel, the front propeller (1) and the rear propeller (34) rotate in the same direction. For this purpose, several positions before the locking elements (18) become operational are shown in these figures. In FIG. 8A, a representative locking element is positioned on the uppermost part of a respective seating surface. The front propeller (1) follows the locking element seating surface due to the spring (19) as it rotates clockwise according to the figure (FIG. 9A) and abuts against the back surface (30) of the next pitch and since it cannot move further, locking is achieved (FIG. 10A). Thus, the front propeller (1) and the rear propeller (34) rotate in the same direction.

(29) In FIG. 11A and FIG. 13B, in rearward movement of the vessel, the front propeller (1) and the rear propeller (34) rotate in the opposite direction. For this purpose, several positions are shown in these figures before the locking elements (18) are released. In FIG. 11A, a representative locking element is released from the back surface of the next pitch. The front propeller (1) follows the locking element seating surface due to the spring (19) as it rotates counter-clockwise according to the figure (FIG. 12A) and goes up and reaches to the uppermost part of seating surface and since there is no barrier at this point, it skips to the next pitch seating surface (FIG. 13A). In other words, the rear propeller (34) is free to rotate relative to the front propeller.