KR19980066087U - Engine top bracing - Google Patents

Abstract

It is not easy to be damaged, it is easy to install and replace, and it adapts to the position change such as the relative height between the engine and the hull structure so that the engine and the hull do not follow, and is installed near the top of the engine and protrudes to the side A first fixing member, a second fixing member installed on the hull structure and protruding toward the engine, a rope installed between the first fixing member and the second fixing member to pull the first fixing member and the second fixing member to each other, and the first fixing member. The invention relates to an engine top bracing comprising a length adjusting means for adjusting a length of a rope between a member and a second fixing member.

Description

Engine top bracing

The present invention relates to engine top bracing, and more particularly to an engine top bracing for supporting the hull structure near the top of the engine in order to prevent the engine installed in the ship from lateral vibration.

In general, a ship generates a lot of vibration due to various factors such as engine driving and propeller shaft rotation. In particular, since the engine generates vibration in itself, it should be suppressed. Typically, the engine top bracing is installed between the top of the engine and the hull structure to prevent the engine from vibrating in the lateral direction while the engine is mounted. This will be described with reference to FIGS. 1 to 3.

1 is a view showing a general installation state of the top bracing. The engine 10 is shown in FIG. The lower end of the engine 10 is firmly fixed to the seat or the like, and in this state, the vicinity of the upper end of the engine vibrates severely in the lateral direction. In order to prevent this, as shown in FIG. 1, the engine top bracing 30 is installed between the hull structure 20 to suppress the engine 10 from vibrating in the lateral direction.

2 is a front view showing an installation state of a conventional engine top bracing, and FIG. 3 is a plan sectional view of the second engine top bracing. As shown in FIGS. 2 and 3, an engine tower bracing 30 is installed between the upper portion of the engine 10 and the hull structure 20.

As shown, the engine top bracing 30 has a first leaf 31 attached to the top of the engine 10. The second laminate 32 is provided in the hull structure 20 at the position where the first laminate 31 faces. The second plywood 32 is coupled to the protrusion 34 of the hull structure 20 via the friction plate 33 through the bolt 35 and the nut 36. Wherein the friction plate 33 is to allow the second layer 32 to be allowed to flow to the extent to some extent, the tolerance can be adjusted to the degree of tightening of the bolt (35).

As shown, a beam 37 is connected between the first and second plates 31 and 32. The beam 37 restrains the engine 10 from vibrating in the lateral direction by supporting the first leaf 31 and the second leaf 32 with a predetermined rigidity.

In the conventional engine top bracing 30 as shown in FIG. 2 and FIG. 3, the engine 10 is sufficiently suppressed from vibrating in the lateral direction. However, the vessel is subjected to deformation in various directions such as torsional stress due to blue or odd changes during sailing, the conventional engine top bracing 30 is due to the torsional stress, the relative height change between the engine 10 and the hull structure 20 It is vulnerable to stress and easily broken In particular, cracks are frequently generated at the connection portions between the first and second stacked plates 31 and 32 and the beam 37 shown in FIGS. 2 and 3. If one beam 37 or the first and second plywoods 31 and 32 are broken by a crack or the like, the other beams and the first and second plywoods 31 and 32 are also damaged in series. This causes severe vibration of the engine 10 and increases the probability of engine 10 failure. In addition, the engine top bracing (30) must be replaced again, the replacement process is very difficult and difficult.

The object of the present invention is to provide an engine top bracing that is not easily damaged, easy to install and replace, and adapts to position changes such as relative height between the engine and the hull structure so that the engine and the hull do not follow the load. .

1 is a view showing a general installation state of the top bracing,

2 is a front view showing an installation state of a conventional engine top bracing,

3 is a cross-sectional plan view of the second degree engine top bracing,

4 is a view showing an embodiment of the engine top bracing according to the present invention,

5 is a view showing another example of the engine top bracing according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: engine 20: hull structure

100: engine top bracing 110: first fixing member

112: locking jaw 120: second fixing member

122: pin 130: rope

140: moving member 142: bolt

144: nut 150: tension adjusting bolt

An object of the present invention is installed between the upper end of the engine and the hull structure in the engine top bracing to prevent the engine from oscillating in the lateral direction, the first fixing member, hull structure protruding to the side of the upper end of the engine And a second fixing member protruding toward the engine, a rope installed between the first fixing member and the second fixing member to pull the first fixing member and the second fixing member to each other, and between the first fixing member and the second fixing member. Achievement by engine top bracing, characterized in that it comprises a length adjusting means for adjusting the length of the rope.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

4 is a view showing an embodiment of the engine top bracing according to the present invention. 4 shows the engine top bracing 100 according to the present invention installed between the engine 10 and the hull structure 20. The engine top bracing 100 is installed between the upper end of the engine 10 and the hull structure 20 to prevent the engine 10 from vibrating in the lateral direction.

As shown, the engine top bracing 100 according to the present invention includes a first fixing member 110 installed near the upper end of the engine 10. The first fixing member 110 is installed to protrude to the side. The locking jaw 112 is formed at the end of the first fixing member 110.

The hull structure 20 is provided so that the second fixing member 120 protrudes toward the engine 10. The second fixing member 120 is provided with a pin 122. This pin 122 is intended to be able to hook the end of the rope 130 described later. Of course, the pin 122 may be installed in the first fixing member 110 in some cases.

As shown in FIG. 4, the first fixing member 110 is provided with a moving member 140. The movable member 140 is linearly movable along the first fixing member 110. The end of the rope 130 is fixed to the movable member 140 through the bolt 142 and the nut 144. Bolt 142 and note 146 is a kind of rope connecting means may be connected in other forms in some cases. The tension adjusting bolt 150 is coupled to the movable member 140. The moving member 140 may be installed on the second fixing member 120 side as the case may be. The tension adjusting bolt 150 is for adjusting the tension of the rope 130, the end is hanging on the locking jaw (112). That is, the tension adjusting bolt 150 and the locking jaw 112 is a kind of tension adjusting means.

The rope 130 is connected between the moving member 140 and the second fixing member 120. It is preferable to use a wire rope as this rope 130. One end of the rope 130 is hooked to the pin 122, the other end is connected to the moving member 140 when the tension adjusting bolt 150 is tightened so that the tension force of a predetermined size acts on the rope 130 To hold the engine 10.

The pin 122, the moving member 140, the locking jaw 112, the bolt 142, the nut 144, and the tension adjusting bolt 150 described above are adjusted to the rope 130 by adjusting the length of the rope 130. It can be seen as a length adjustment means of the rope to generate tension.

Installing the engine top bracing 100 according to the present invention respectively on both sides of the engine 10 in the form shown in FIG. 4 prevents the engine 10 from vibrating in the lateral direction. In this state, even if the heights of the engine 10 and the hull structure 20 are different from each other due to a change in the draft or the draft, the rope 130 is easily bent, so that the first fixing member 110 or the second fixing member 120 is not bent. No torsional stress or shear stress is applied, so it is hardly damaged. On the other hand, the replacement of the rope 130 is very easy because the tension adjusting bolt 150 or the like to loosen or lock and the other end of the rope 130 is hooked or released.

5 is a view showing another example of the engine top bracing according to the present invention. FIG. 5 is different from the shape of the movable member 140 and the connection form of the rope 130 in FIG. . That is, both ends of the rope 130 are fixed to the moving member 140 by the bolt 142 and the nut 144 to form a closed curve of the rope 130 and then the opposite end is formed in the form of a gun to the pin 122 have. In this state, the tension adjusting bolt 150 is locked to adjust the tension of the rope 130. Then, the engine 10 and the hull structure 120 maintain a state of pulling each other.

Installing the engine top bracing 100 in the state shown in FIG. 5 on both sides of the engine 10 prevents the engine 10 from vibrating in the lateral direction. The effect thereof is the same as in the fourth embodiment.

As can be seen from the above description, the engine top bracing according to the present invention has a long life and is easy to replace due to no cracks, and the structure thereof is simple to make it easy to make.

Claims (3)

In the engine top bracing is provided between the upper end of the engine and the hull structure to prevent the engine from vibrating in the lateral direction, A first fixing member installed near the upper end of the engine and protruding to the side; A second fixing member installed on the hull structure and protruding toward the engine; A rope installed between the first fixing member and the second fixing member to pull the first fixing member and the second fixing member to each other; And And length adjusting means for adjusting the length of the rope between the first fixing member and the second fixing member. According to claim 1, wherein the length adjusting means is installed on the fixing member of any one of the first fixing portion and the second fixing member and the pin to which the rope can be caught, the other side of the fixing member not installed the pin An engine tower, comprising: a moving member installed to move in a direction; a connecting means for connecting the rope to the moving member; and a tension adjusting means for adjusting the tension of the rope by adjusting a position of the moving member. Bracing. The method of claim 2, wherein the tension control means is installed on the locking jaw formed in the first fixing member or the second fixing member and the movable member is adjustable in length and the end is configured to include a bolt caught on the locking jaw Bracing engine tower.