CN212556741U - Marine propeller - Google Patents

Abstract

A marine propeller comprises a power source, a transmission mechanism and a propeller, wherein the transmission mechanism comprises an input shaft, an output shaft, a first tooth part and a second tooth part which are meshed with each other and are respectively arranged on the input shaft and the output shaft, and the marine propeller is characterized in that the first tooth part is a screw rod, and the second tooth part is a face gear. Adopt the utility model discloses it is low to have the processing requirement afterwards, simple to operate, advantage that transmission efficiency is high to under not adjusting other parts, as long as change the planar gear of different numbers of teeth, just can change the rotational speed of screw. Especially, set up the output shaft into first, second propeller shaft, when screw rod both sides set up first, the second planar gear that two number of teeth are unequal for first, second propeller obtain different direction of rotation and unequal rotational speed, so partial vortex of a propeller loss can be absorbed by another propeller, rivers have the acceleration rate effect step by step promptly, so use this propeller under the same condition, the power that enables the hull to go forward is bigger and is worth popularizing and applying.

Description

Marine propeller

Technical Field

The utility model relates to a propeller, concretely relates to marine propeller.

Background

The marine propeller is a power device for driving a ship body to advance, and the structure of the marine propeller is diversified at present, for example, the structure disclosed in the document with the Chinese patent publication No. CN205396502U, the propeller comprises a motor, a transmission mechanism and propellers, wherein the transmission mechanism comprises a vertically arranged gear shaft, a horizontally arranged propeller shaft, a first bevel gear sleeved on the propeller shaft, and a second bevel gear meshed with the first bevel gear, the two propellers are arranged at two end parts of the propeller shaft, and during operation, the motor drives the gear shaft and the second bevel gear to rotate through a coupler, and then drives the propeller shaft and the two propellers to rotate through the second bevel gear.

In addition, a document with chinese patent publication No. CN209938914U discloses a similar structure, in which two coaxially distributed propeller shafts are provided, two propellers are respectively mounted on the respective propeller shafts, respective first bevel gears are mounted on the respective propeller shafts, and the two first bevel gears are located on two sides of the second bevel gear and are respectively engaged with the second bevel gear.

Adopt this kind of bevel gear group engaged with's mode, though also can realize the transmission to set up two screws, under equal power, thrust is shared by two screws, and it is little relatively to make the screw, does benefit to the hull and traveles in shallow water river course, and the twin-screw is changeed the commentaries on classics, and the partial vortex through first screw loss can be absorbed by the second screw, can improve the efficiency of screw to a certain extent.

However, analysis of the transmission mechanisms in the two documents shows that, due to the adoption of the meshing mode of the two bevel gears, in order to ensure flexible and impact-free meshing operation of the two bevel gears, the meshing clearance between the two bevel gears cannot be too large or too small, otherwise, the gears are abraded, and in severe cases, the gear teeth can be broken. However, the requirement can increase the processing difficulty and the assembly requirement, and particularly, the defect can be more obvious under the condition that two bevel gears are meshed with one bevel gear at the same time; and the transmission efficiency of the bevel gear is low. Secondly, more important defect is that this kind of transmission mode leads to two screw to be the same speed rotation, and rivers are after the acceleration rate of first screw, and during the rethread second screw, this strand of pressure boost rivers are not utilized well to the second screw, but discharge rivers with the same rotational speed, have wasted the acceleration rate effect that first screw gave promptly.

Therefore, the existing marine propeller still needs to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first technical problem that will solve is to prior art's current situation, provides a marine propeller convenient to processing and assembly.

The utility model discloses the second technical problem that will solve is the current situation to prior art, provides a marine propeller convenient to processing and assembly and can effectively improve screw efficiency.

The utility model discloses a solve the technical scheme that above-mentioned first technical problem adopted and be: the utility model provides a marine propeller, includes power supply, drive mechanism and screw, and wherein drive mechanism contains the input shaft that links with the power supply again, supplies the output shaft of screw installation and intermeshing and install respectively on the input shaft first tooth portion and install the second tooth portion on the output shaft, its characterized in that: the first tooth part is a screw rod, and the second tooth part is a plane gear.

In the above solution, preferably, the output shaft includes a first propeller shaft and a second propeller shaft which are coaxially distributed and are sleeved inside and outside, and correspondingly, there are two propellers and two plane gears, which are a first propeller and a first plane gear mounted on the first propeller shaft, and a second propeller and a second plane gear mounted on the second propeller shaft, and the first plane gear and the second plane gear are respectively located at two sides of the screw rod. At this time, the driving force is shared by the two propellers at the same power, so that the propellers can be made relatively small.

It is further improved that the number of teeth of the first face gear is not equal to the number of teeth of the second face gear to form a small-tooth-number face gear and a large-tooth-number face gear, and at this time, the second technical problem can be better solved.

In order to further improve the efficiency of the propeller, it is preferable that the first and second propellers have different diameters to form large and small propellers, the large propeller is coaxially installed with the large-tooth-count face gear, the small propeller is coaxially installed with the small-tooth-count face gear, and the large propeller is positioned in front of the small propeller in the advancing direction of the ship body.

In each of the above solutions, the first propeller and the second propeller are respectively located on the first propeller shaft and the second propeller shaft on one side of the screw rod to form the same side installation;

or the first propeller and the second propeller are respectively positioned on the first propeller shaft and the second propeller shaft at two sides of the screw rod to form different side installation. So as to meet the use requirements of different occasions.

In each of the above solutions, the first propeller shaft is further sleeved with a limiting sleeve which is located between the first planar gear and the second planar gear to keep the first planar gear and the second planar gear axially spaced, so as to ensure that the first planar gear and the second planar gear can be well meshed with the rack bar.

In order to better ensure the meshing performance of the two plane gears and the rack bar, the first propeller shaft is also sleeved with an elastic washer which axially presses the first plane gear on the end surface of the limiting sleeve.

Preferably, the first propeller shaft is supported in the output shaft hole of the motor casing through a first bearing; the second propeller shaft is supported on the first propeller shaft through second bearings and third bearings which are axially distributed at intervals, and is installed in an output shaft hole of the motor shell through fourth bearings and fifth bearings, so that the assembling is convenient, the whole structure is compact, and the meshing performance is good.

To further facilitate assembly, the second face gear is made in one piece with the second propeller shaft.

In order to reduce the cost and ensure the coaxiality after assembly, the lower end part of the input shaft is provided with an external thread to form the screw.

Compared with the prior art, because the utility model discloses replace the bevel gear pair among the prior art with screw rod and plane gear pair, consequently have the processing requirement and hang down, simple to operate, advantage that transmission efficiency is high to adopt this kind of transmission mode, under not adjusting other parts, as long as change the plane gear of different numbers of teeth, just can change the rotational speed of screw. Especially when setting up two unequal planar gear of number of teeth in screw rod both sides for first, second propeller shaft and first, second screw obtain different rotation direction and unequal rotational speed, so, make partial vortex of a screw loss can be absorbed by another screw, thereby can improve the efficiency of screw, that is, two differences that rivers pass through turn to, can accelerate step by step after the drive of the screw of different rotational speeds, so under the same condition, the utility model discloses can obviously improve the output efficiency of propeller, thereby make the power that the hull gos forward bigger and be worth popularizing and applying.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged partial schematic view of FIG. 1;

fig. 3 is a schematic structural diagram of a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of a third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

First embodiment, fig. 1 and fig. 2 show a preferred embodiment of the present invention, and the marine propeller includes a power source 1, a transmission mechanism and a propeller 2, wherein the power source 1 may be a motor installed on the existing hull, such as an electric motor, a diesel engine, etc., and the present embodiment is driven by the electric motor. The transmission mechanism further comprises an input shaft 3 linked with the power source, an output shaft 4 for mounting the propeller 2, and a first tooth part and a second tooth part which are meshed with each other and respectively mounted on the input shaft 3 and the output shaft 4, in the embodiment, the input shaft 3 is a shaft of a motor, the lower end part of the input shaft 3 is designed into an external thread to form a screw rod 31, the screw rod 31 is the first tooth part, and the second tooth part is a face gear 5. Therefore, the motor is started, the output shaft 4 can be driven to rotate through the input shaft 3, the screw rod 31 and the plane gear 5, and finally the purpose that the propeller 2 on the output shaft 4 rotates to push the ship body to move forwards or backwards is achieved.

In this embodiment, in order to improve the output efficiency of the propeller, the output shaft 4 is designed to be a double shaft, that is, the output shaft includes a first propeller shaft 41 and a second propeller shaft 42 which are coaxially distributed and sleeved inside and outside, at this time, there are two corresponding propellers 2 and two corresponding plane gears 5, that is, a first propeller 21 mounted on the first propeller shaft 41 and a second propeller 22 mounted on the second propeller shaft 42, and the first propeller 21 and the second propeller 22 are respectively located on the first propeller shaft 41 and the second propeller shaft 42 on one side of the screw 31 (e.g. on the right side of the screw in fig. 1) to form the same side mounting, the first propeller 21 and the second propeller 22 may be made into the same structure, but in order to further improve the efficiency of the propeller 2, in this embodiment, the diameters of the first propeller 21 and the second propeller 22 are different, as seen in fig. 1 and 2, the first propeller 21 is made as a small propeller and the second propeller 22 is made as a large propeller. The two plane gears are a first plane gear 51 mounted on the first propeller shaft 41 and a second plane gear 52 mounted on the second propeller shaft 42, the first plane gear 51 and the second plane gear 52 are respectively located at two sides of the screw 31, and the number of teeth of the first plane gear 51 is not equal to the number of teeth of the second plane gear 52. In the present embodiment, as shown in fig. 1, the number of teeth of the first planar gear 51 is less than that of the second planar gear 52, that is, the first planar gear 51 is a small-tooth-number planar gear, and the second planar gear 52 is a large-tooth-number planar gear, so that the large propeller and the large-tooth-number planar gear are coaxially mounted, the small screw and the small-tooth-number planar gear are coaxially mounted, and at this time, the rotating speed of the small screw is faster than that of the large propeller.

During the specific installation, the requirement is in the direction that the hull gos forward, and big screw is located before little screw, and that the screw rotational speed that passes through water earlier promptly is slow, so cooperation ingeniously for after the motor starts, through the rotation of screw rod, drive big screw slow-speed rotation and the fast rotation of little screw, make the partial vortex of big screw loss can be absorbed by little screw, and water velocity obtains improving step by step, thereby makes the hull advance the speed under equal power faster, more sensitive.

As for the installation of the input shaft 3, the first propeller shaft 41, the second propeller shaft 42, the first propeller 21 and the second propeller 22, the prior art can be adopted, but preferably, as shown in fig. 1, the input shaft 3 is vertically arranged in the input shaft hole 61 of the motor housing 6, the lower part of the input shaft 3 is supported in the input shaft hole 61 of the motor housing through a needle bearing a1, the upper part is supported on the motor base 62 through a top bearing a2, the motor base 62 is fixed with the motor housing 6, the middle part of the input shaft 3 is sleeved with a sleeve 63 for positioning the needle bearing a1, the lower end of the sleeve 63 is abutted against the needle bearing a1, the upper end is axially limited through a first retainer b1, and the first retainer c1 is additionally arranged above the first retainer and then limited through a baffle 64 positioned on the motor housing 6. The top of the input shaft 3 is also provided with a sealing assembly, and the input shaft 3 can be effectively prevented from water inlet by positioning the gland 65 fixed with the motor base 62.

The first propeller shaft 41 is horizontally supported in the output shaft hole 66 of the motor case 6 by a first bearing e1, as shown in fig. 1, the first bearing e1 is located at the left end portion of the first propeller shaft 41, the outer ring left end surface of the first bearing e1 is retained on a first inner shoulder 661 of the output shaft hole, the inner ring right end surface of the first bearing e1 abuts against a second retainer b2 fitted on the left end portion of the first propeller shaft 41, then the second retainer b2 is covered by a retaining cover 67, and the retaining cover 67 is screwed to the left end surface of the first propeller shaft 41. The first plane gear 51 is mounted on the first propeller shaft 41 through a key groove structure, a third retainer b3 and an elastic washer 7 positioned between the third retainer b3 and the first plane gear 51 are further sleeved on the first propeller shaft between the first plane gear 51 and the first bearing e1, that is, the right end surface of the inner ring of the first bearing e1 is abutted against the third retainer b3, and the elastic washer 7 can push the first plane gear 51 to always have a tendency of moving to the right side, so that the first plane gear 51 is well meshed with the screw 31. In order to prevent the first plane gear 51 from moving rightwards excessively, the first propeller shaft 41 is further sleeved with a limiting sleeve 8 which is positioned between the first plane gear 51 and the second plane gear 52 to keep the first plane gear and the second plane gear axially spaced, and the left surface of the limiting sleeve 8 is abutted against the first plane gear 51 under the action of the elastic washer 7. The right end of the first propeller shaft 41 axially passes through the second propeller shaft 42 and then is exposed out of the motor housing 6, the first propeller 21 (i.e., a small propeller) is mounted on the right end of the first propeller shaft 41, and the first propeller 21 is axially limited by a first nut d 1.

The second plane gear 52 and the second propeller shaft 42 are formed as a single body (or may be formed as separate bodies and fixed by a key groove). The second propeller shaft 42 is supported on the first propeller shaft 41 through a second bearing e2 and a third bearing e3 which are axially distributed at intervals, and then is installed in an output shaft hole of the motor casing 6 through a fourth bearing e4 and a fifth bearing e5, wherein the second bearing e2 is limited between the limiting sleeve 8 and the first blocking part 421 on the second propeller shaft 42. The third bearing e3 is a needle bearing, and the left end of the third bearing e3 is limited on the second retaining part 422 on the second propeller shaft 42, and then is axially limited by a fourth retaining ring b4 embedded on the second propeller shaft after passing through the first oil seal f 1. The left end of the fourth bearing e4 abuts against the right end face of the second planar gear 52, the right end of the fourth bearing e4 abuts against the rear cover 68 inserted in the output shaft hole 66, the outer edge of the rear cover 68 is fixed on the motor casing 6 through screws, and a second sealing ring c2 is arranged between the rear cover 68 and the inner wall of the output shaft hole. The fifth bearing e5 is also a needle bearing, and is located between the outer surface of the second propeller shaft 42 and the inner wall of the rear cover 68, the left end of the fifth bearing e5 is abutted against the limit part on the rear cover 68, the right end of the fifth bearing e is fixed by the rear end cover 69 after passing through the second oil seal f2 sleeved on the second propeller shaft, a labyrinth seal structure is arranged on the rear end cover 69, and the rear end cover 69 is fixed on the rear cover by screws. The second propeller 22 is mounted on the second propeller shaft 42 on the right side of the rear end cover 69 and then axially fastened with a second nut d 2. A labyrinth seal structure is also arranged between the second nut d2 and the first propeller, so that the whole has better sealing performance.

The second embodiment is different from the first embodiment in that: the first propeller 21 and the second propeller 22 are respectively positioned on the first propeller shaft 41 and the second propeller shaft 42 on both sides of the screw 31, and are installed on different sides. As shown in fig. 3, the left end of the first propeller shaft 41 protrudes to the left outside the motor case 6, and the first propeller 21 is mounted on the left end of the first propeller shaft 41, in which case the traveling direction of the hull is to the right. Of course, the number of teeth of the first and second plane teeth can be changed according to the requirement, so that the positions of the large and small propellers are interchanged to meet different use requirements.

The rest is the same as the first embodiment, and is not described herein again.

The third embodiment, as shown in fig. 4, is different from the first embodiment in that: first plane gear 51 and first screw 21 have been cancelled for this embodiment drives with single screw, and at this moment, owing to the transmission mode who adopts plane gear and screw rod, processing and equipment are all very convenient, and transmission efficiency is high, and simultaneously under not adjusting other parts, as long as change the plane gear of different number of teeth, just can change the rotational speed of screw, consequently can match out the rotational speed of different specifications comes, with the operation requirement that satisfies different users.

Claims (10)

1. The utility model provides a marine propeller, includes power supply (1), drive mechanism and screw (2), wherein drive mechanism contains input shaft (3) with power supply (1) looks linkage again, supplies output shaft (4) and intermeshing and install the first tooth portion on input shaft (3) and install the second tooth portion on output shaft (4) respectively that screw (2) installed, its characterized in that: the first tooth part is a screw rod (31), and the second tooth part is a plane gear (5).

2. Marine propulsor according to claim 1, wherein: the output shaft (4) is including coaxial distribution and inside and outside first propeller shaft (41) and second propeller shaft (42) that the cover put, it is corresponding, screw (2) and face gear (5) also have two respectively, for installing first screw (21), first face gear (51) on first propeller shaft (41), and install second screw (22), second face gear (52) on second propeller shaft (42), and wherein first face gear (51) and second face gear (52) are located respectively the both sides of screw rod (31).

3. Marine propulsor according to claim 2, wherein: the number of teeth of the first face gear (51) is not equal to the number of teeth of the second face gear (52) to form a small-tooth-number face gear and a large-tooth-number face gear.

4. A marine propulsor according to claim 3, wherein: the diameters of the first propeller (21) and the second propeller (22) are different to form a large propeller and a small propeller, the large propeller and the large-tooth-number planar gear are coaxially arranged, the small propeller and the small-tooth-number planar gear are coaxially arranged, and in the advancing direction of the ship body, the large propeller is positioned in front of the small propeller.

5. Marine propulsor according to claim 2 or 3 or 4, characterised in that: the first propeller (21) and the second propeller (22) are respectively positioned on a first propeller shaft (41) and a second propeller shaft (42) at one side of the screw rod (31) to form same-side installation;

alternatively, the first propeller (21) and the second propeller (22) are respectively positioned on a first propeller shaft (41) and a second propeller shaft (42) on both sides of the screw (31) to be installed on different sides.

6. Marine propulsor according to claim 2 or 3 or 4, characterised in that: and the first propeller shaft (41) is also sleeved with a limiting sleeve (8) which is positioned between the first plane gear (51) and the second plane gear (52) and enables the first plane gear and the second plane gear to keep an axial distance.

7. Marine propulsor according to claim 6, characterised in that: the first propeller shaft (41) is also sleeved with an elastic washer (7) which axially presses the first plane gear (51) on the end surface of the limiting sleeve (8).

8. Marine propulsor according to claim 7, characterised in that: the first propeller shaft (41) is supported in an output shaft hole (66) of the motor casing through a first bearing (e 1); the second propeller shaft (42) is supported on the first propeller shaft (41) through a second bearing (e2) and a third bearing (e3) which are distributed at intervals in the axial direction, and is installed in an output shaft hole (66) of the motor casing through a fourth bearing (e4) and a fifth bearing (e 5).

9. Marine propulsor according to claim 2 or 3 or 4, characterised in that: the second face gear (52) is made in one piece with the second propeller shaft (42).

10. Marine propulsor according to claim 1 or 2 or 3 or 4, characterised in that: the lower end of the input shaft (3) is provided with an external thread to form the screw (31).

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