KR20140080247A - Variable-pitch propeller for testing - Google Patents

Abstract

A variable-pitch propeller for testing is disclosed. The variable-pitch propeller for testing comprises multiple blades which are connected to a hub and a wing unit and which includes an insertion unit inserted in the hub; a blade fixing module which is provided on the hub and which fixes the blades on the hub; and a pitch changing module which is provided on the hub and which changes the pitch angles of the blades.

Description

[0001] Variable-pitch propeller for testing [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable pitch propeller for testing, and more particularly, to a variable pitch propeller for testing that can be used for research and experimentation of a variable pitch propeller.

Generally, direct reversing method and variable pitch method are mainly used to reverse the propulsion direction of the ship forward or backward.

The direct reversible system is a system that directly or indirectly controls the direction of rotation of the engine propulsion shaft to change the propulsion direction of the ship forward or backward.

This direct reversal method is that the rotation speed of the propeller shafts is sufficiently lowered below the stall speed and then the propulsion is reversed. It takes a long time to reverse the propulsion direction, and it is troublesome to turn the engine off , There is a problem that the amount of starting air consumed due to repetition of such engine start-up is large.

The Pitch Variable is a method using a CONTROLABLE PITCH PROPELLER (CPP). Here, the variable pitch propeller is a propeller capable of varying the pitch angle of the blades of the propeller.

Such a variable pitch propeller is advantageous in that the ship can be easily bumped and easily operated, and the propulsion direction can be reversed without stopping the engine. Therefore, research and development on such a variable pitch propeller is continuously being carried out.

For the research and development of such a variable pitch propeller, a model test for the load received by the blade at each pitch angle is necessary.

However, since these variable pitch propellers are difficult to manufacture and expensive to manufacture, a plurality of integrated propellers having generally different pitch angles are being tested.

In addition, the integral propeller manufactured at these different pitch angles also requires a large number of propellers to be manufactured, resulting in a considerable manufacturing cost.

Therefore, it is necessary to develop a variable pitch propeller for test which can vary the pitch angle of the blade at various angles and is easy to manufacture.

Korean Patent Laid-Open Publication No. 10-2011-0132648 (Korea Institute of Machinery & Materials), December 12, 2011

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a variable pitch propeller for testing which can vary the pitch angles of the blades at various angles and is easy to manufacture.

According to an aspect of the present invention, A plurality of blades including a wing portion and an insertion portion connected to the wing portion and inserted into the hub; A blade securing module provided at the hub, the blade securing module securing the plurality of blades to the hub; And a variable pitch pitch propeller provided on the hub and including a pitch varying module for varying a pitch angle of the plurality of blades.

Wherein the inserting portion is connected to the wing portion and has a center axis which becomes a rotation axis of the blade when the pitch angle of the blade is varied; A fixed module connection part provided on the central axis and connected to the blade fixing module; And a variable module connector provided on the central axis and connected to the pitch varying module.

The variable module connection part may include a pair of protruding members arranged symmetrically with respect to the central axis.

The fixing module connecting portion may be formed by recessing the locking groove in at least a part of the outer circumferential surface in the circumferential direction.

The pitch varying module may include a blade pivoting pressing portion that is engaged with a pitch angle adjusting hole formed in the hub and presses the protruding member.

The blade rotating pressurizing portion may include a pair of first pressing bolts that are independently engaged with a pair of pitch angle adjusting holes spaced apart from each other.

The blade fixing module includes: a locking part disposed in the hub and supported by the hub, the locking part being inserted into the locking groove; And a blade fixing pressure portion that is engaged with the blade fixing hole formed in the hub and presses the locking portion.

The latching portion may include a pair of fixing pins provided in an arc shape.

Embodiments of the present invention include a pitch-varying module that varies the pitch angle of the blades, so that the pitch angle of the blades can be varied at various angles.

Further, in the embodiments of the present invention, since the pitch variable module is provided in the hub, it is easy to manufacture.

1 is a perspective view showing a test variable pitch propeller according to an embodiment of the present invention.
Fig. 2 is a perspective view showing a test variable pitch propeller in which the pitch angle of the blade is varied in Fig. 1. Fig.
3 is an exploded perspective view of Fig.
Figure 4 is a perspective view of the blade shown in Figure 1;
Fig. 5 is a view showing the blade fixing module of Fig. 3;
6 is a perspective view showing the fixing pin of Fig.
Figure 7 is a side view of Figure 6
Figs. 8 and 9 are operational state diagrams showing the operation of the pitch varying module of Fig.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in order to avoid unnecessary obscuration of the present invention.

FIG. 1 is a perspective view showing a test variable pitch propeller according to an embodiment of the present invention, FIG. 2 is a perspective view showing a test variable pitch propeller in which a pitch angle of the blade is variable in FIG. 1, Fig. 5 is a perspective view showing the blade fixing module of Fig. 3, Fig. 6 is a perspective view of the fixing pin of Fig. 3, and Fig. 6 and Figs. 8 and 9 are operation state diagrams showing the operation of the pitch varying module of Fig.

1 to 9, a test variable pitch propeller according to an exemplary embodiment of the present invention includes a hub 110, a wing portion 121 and a wing portion 121, A plurality of blades 120 provided on the hub 110 and fixing the plurality of blades 120 to the hub 110, a hub fixing module 130 mounted on the hub 110 And a pitch varying module 140 which is provided at the plurality of blades 120 and varies the pitch angle of the plurality of blades 120.

1 to 3, the hub 110 includes a side wall 112 on which an insertion groove (not shown) in which an insertion portion of the blade 120 is inserted is formed. A pitch angle adjusting hole 113 and a blade fixing hole 114, which will be described later, are formed on the front surface of the hub 110.

1 to 4, the blade 120 includes a wing portion 121 and an insertion portion 122 that is connected to the wing portion 121 and is inserted into the hub 110. As shown in Fig. The insertion portion 122 of the blade 120 is inserted into the insertion groove (not shown) of the hub 110.

3 or 4, the insertion portion 122 is connected to the wing portion 121 and includes a central axis 123 serving as a rotation axis of the blade 120 when the pitch angle of the blade 120 is varied, A fixed module connecting part 124 provided on the center shaft 123 and connected to the blade fixing module 130 and a variable module connecting part 125 provided on the center shaft 123 and connected to the pitch varying module 140 ).

The central axis 123 becomes the rotational axis of the blade 120 when the pitch angle of the blade 120 is varied. That is, the blade 120 is rotated about the center axis 123 to the rotation axis, and the pitch angle is variable.

The fixed module connection part 124 is provided on the center shaft 123 and is connected to the blade fixing module 130. The fixed module connecting portion 124 is formed with at least a part of the outer circumferential surface thereof with an engaging groove 124a recessed in the circumferential direction. The latching groove 131 is inserted into the latching groove 124a.

In this embodiment, the fixed module connection part 124 is provided with a diameter larger than the diameter of the center shaft 123. Since the fixing module connecting part 124 according to the present embodiment has a diameter larger than the diameter of the center shaft 123, it is easy to form the locking groove 124a, ). ≪ / RTI >

The variable module connection part 125 is provided on the central axis 123 and is connected to the pitch varying module 140. The variable module connection portion 125 includes a pair of protruding members 125a symmetrically disposed about the central axis 123.

The protruding member 125a is disposed adjacent to the distal end region of the center shaft 123 and is pressed by the blade rotating urging portions 142 and 143 to be described later.

The blade 120 further includes a support portion 126 disposed between the wing portion 121 and the insertion portion 122 and supported by the side wall 112 of the hub 110. That is, the support portion 126 of the blade 120 of this embodiment is supported on the side wall 112 of the hub 110, so that the blade 120 is stably supported on the hub 110.

On the other hand, the pitch varying module 140 is provided on the hub 110 and varies the pitch angle of the plurality of blades 120.

The pitch varying module 140 is engaged with the pitch angle adjusting hole 113 formed in the hub 110 and includes blade rotating urging portions 142 and 143 for urging the projecting member 125a.

The pitch angle adjustment hole 113 formed in the hub 110 is communicated with the insertion groove (not shown) so that the blade rotation urging portions 142 and 143 can be brought into contact with the projecting member 125a.

In this embodiment, the blade rotation urging portions 142 and 143 include a pair of first pressing bolts 142 and 143 which are independently engaged with a pair of pitch angle adjusting holes 113 that are spaced apart from each other.

The first pressing bolts 142 and 143 are engaged with the pitch angle adjusting holes 113 of the hub 110 and are moved along the pitch angle adjusting holes 113 by rotation so that the protrusions 125a of the insertion portion 122 .

As described above, the test variable pitch propeller according to the present embodiment includes a pair of first pressing bolts (not shown) that move along the pitch angle adjusting holes 113 of the hub 110 and are respectively engaged with the pitch angle adjusting holes 113 142, 143), the pitch angle of the blade 120 can be adjusted by moving each of the first pressing bolts 142, 143.

The first pressing bolts 142 and 143 have a first body B1 having threads and a second body B1 extending from the first body B1 and having an operating groove C1 formed at an upper end thereof, And a portion H1.

The first body B1 is provided with a thread engaging with the pitch angle adjusting hole 113. [

The first head portion H1 is provided extending from the first body portion B1. An operation groove C1 is formed at the upper end of the first head portion H1. The operating groove C1 is provided in a hexagonal shape.

In this embodiment, the first head portion H1 is provided with a diameter smaller than or equal to the diameter of the first body portion B1.

As described above, the first pressing bolts 142 and 143 according to the present embodiment are provided such that the diameter of the first head portion H1 is smaller than or equal to the diameter of the first body portion B1, The first head portion H1 is not interfered with.

The blade fixing module 130 is provided on the hub 110 to fix the plurality of blades 120 to the hub 110.

The blade fixing module 130 includes a locking part 131 disposed in the hub 110 and supported by the hub 110 and inserted into the locking groove 124a and a blade fixing hole And a blade fixing pressing part 132 which is engaged with the engaging part 131 and presses the engaging part 131.

The blade fixing hole 114 is communicated with an insertion groove (not shown) so that the blade fixing pressing portion 132 can be brought into contact with the engagement portion 131.

The engaging portion 131 is disposed inside the hub 110 and is supported by the hub 110 and inserted into the engaging groove 124a. The engaging portion 131 includes a pair of fixing pins 133 provided in an arc shape.

The engaging part 131 according to the present embodiment includes the pair of fixing pins 133 provided in an arc shape so that the central axis 123 of the blade 120 is changed in accordance with the variation of the pitch angle, It is possible to connect any one of the fixing pins 133 to the blade fixing pressing portion 132 even if it is rotated in any direction.

The fixing pin 133 is tapered so as to have a smaller thickness from the outer end to the inner end.

As described above, the fixing pin 133 according to this embodiment is tapered so as to have a smaller thickness from the outer end to the inner end, so that the fixing pin 133 is more easily inserted into the engaging groove 124a.

The blade fixing pressing portion 132 is engaged with the blade fixing hole 114 formed in the hub 110 and presses the engaging portion 131. In this embodiment, the blade fixing pressing portion 132 presses the fixing pin 133. [

The blade fixing pressing portion 132 includes a second body portion B2 having a threaded portion and a second body portion B2 extending from the second body portion B2 and having an operating groove C2, And a second pressing bolt 134 having a head portion H2.

The second body portion B2 is provided with a thread engaging with the blade fixing hole 114. [

The second head portion H2 extends from the second body portion B2 and is provided with an operation groove C2 at an upper end thereof. The operating groove C2 is provided in a hexagonal shape.

In the present embodiment, the second head portion H2 is provided with a diameter smaller than or equal to the diameter of the second body portion B2.

The second pressing bolt 134 according to the present embodiment has the diameter of the second head portion H2 smaller than or equal to the diameter of the second body portion B2, The second head portion H2 is not interfered with.

On the other hand, in this embodiment, the blade fixing hole 114 is disposed between the pair of pitch angle adjusting holes 113.

Hereinafter, the operation of the test variable pitch propeller according to the present embodiment will be described with reference to Figs.

The second pressing bolt 134 for pressing the fixing pin 133 is loosened so that the blade 120 can be rotated around the central axis 123 as a rotational axis. The second pressing bolt 134 is rotated through the hexagon wrench (not shown) engaged with the operating groove C1 of the second pressing bolt 134 to press-release the blade 120. [

Then, the pair of first pressing bolts 142 and 143 are moved in a direction in which the pair of first pressing bolts 142 and 143 are moved toward or away from the protruding member 125a, and the blade 120 is rotated about the central axis 123 as a rotational axis.

The movement of the first pressing bolt is performed through the operation of a hexagon wrench (not shown) engaged with the operating groove C2 of the first pressing bolts 142 and 143 in the same manner as the second pressing bolt 134 described above. That is, the first pressing bolt is rotated through the hexagon socket so that the first pressing bolt is moved in the direction in which the first pressing bolt approaches or separates from the protruding member 125a.

The pair of first pressing bolts are independently moved in a direction approaching or separating from the protruding member 125a to rotate the blade 120 and rotate the blade 120 such that the pitch angle of the blade 120 .

Thus, the test variable pitch propeller according to the present embodiment includes the pitch varying module 140 that varies the pitch angle of the blade 120, so that the pitch angle of the blade 120 can be varied at various angles.

Also, in the variable pitch propeller for testing according to the present embodiment, since the pitch varying module 140 is provided on the hub 110, the production is simple.

Although the present invention has been described in detail with reference to the above drawings, the scope of the scope of the present invention is not limited to the above-described drawings and description.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110: hub 112: side wall
113: Pitch angle adjustment hole 114: Blade fixing hole
120: blade 121: wing portion
122: insertion part 123: center axis
124: fixed module connection part 124a:
125: variable module connection part 125a:
126: Support part 130: Blade fixing module
131: fastening part 132: blade fixing pressure part
133: fixing pin 134: second pressing bolt
140: Pitch variable module 142, 143: First pressing bolt
C1, C2: Operation groove B1: First body part
B2: second body part H1: first head part

Claims (8)

Herb;
A plurality of blades including a wing portion and an insertion portion connected to the wing portion and inserted into the hub;
A blade securing module provided at the hub, the blade securing module securing the plurality of blades to the hub; And
And a pitch variable module provided on the hub for varying a pitch angle of the plurality of blades. The method according to claim 1,
The insertion portion
A central axis connected to the wing portion and serving as a rotation axis of the blade when a pitch angle of the blade is varied;
A fixed module connection part provided on the central axis and connected to the blade fixing module; And
And a variable module connector provided on the central axis and connected to the pitch varying module. 3. The method of claim 2,
The variable module connection unit includes:
And a pair of projecting members arranged symmetrically with respect to each other about the central axis. 3. The method of claim 2,
The fixed module connection part includes:
And the engaging groove is formed in at least a part of the outer circumferential surface in a circumferential direction. The method of claim 3,
The pitch varying module comprises:
And a blade rotation urging portion that is engaged with a pitch angle adjusting hole formed in the hub and urges the projecting member. 6. The method of claim 5,
Wherein the blade rotation-
And a pair of first pressing bolts that are independently engaged with a pair of pitch angle adjusting holes that are spaced apart from each other. 5. The method of claim 4,
The blade fixing module includes:
A retaining portion disposed in the hub and supported by the hub, the retaining portion being inserted into the retaining groove; And
And a blade fixing pressure portion that is engaged with a blade fixing hole formed in the hub and presses the engagement portion. 8. The method of claim 7,
[0027]
A variable pitch propeller for testing comprising a pair of fixed pins provided in an arc shape.

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