KR20210048687A - a solar-powered cell phone - Google Patents

Abstract

The present invention is a descending aid for a side scan sonar to be coupled with a towing cable to tow a side scan sonar located underwater: a cylinder in which a towing cable through hole through which the towing cable passes is formed in the longitudinal direction Shaped body, vertical tail blades fixed to the rear of the body, a pair of horizontal tail blades rotatably provided around an imaginary axis perpendicular to the length direction of the body on both sides of the rear portion of the body, the horizontal tail It characterized in that it comprises a horizontal tail wing fixing device provided on the body to adjust and fix the rotation angle of the wing, whereby the horizontal tail wing of the descending aid according to the depth of the sea floor to be photographed underwater acoustic image After adjusting the rotation angle of the towfish and putting it into the water, it is possible to adjust the position (height) of the towfish and the accompanying side scan sonar, and the body of the descending aid forms a cylinder shape, and the towing cable passes through the center of the towing aid. It can prevent twisting of the cable.

Description

Solar-powered cell phone {a solar-powered cell phone}

The present invention relates to a descending aid for positioning a side scan sonar located underwater at a predetermined depth underwater when taking an underwater acoustic image using a side scan sonar.

The Side Scan Sonar is very effective at imaging large submarine surfaces, so it is commonly used when trying to find a specific target underwater. The operation of the side scan sonar is briefly described.

Among the side scan sonars, an underwater sensing device that is located in the water and includes a transducer and a signal control circuit is called a towfish, and the towfish has a metallic torpedo or cylinder shape. The transducer attached to both sides of the towfish emits a pulse signal into the water and receives the reflected signal. The towfish is usually towed at the aft of the ship by means of a towing cable, and is also connected to a recorder on board by means of a signal cable.

On the other hand, when towing the towfish underwater, if the towing speed increases with respect to the weight of the towfish, the towfish rises.

However, in order to obtain more accurate underwater acoustic images, it is desirable for the towfish to approach the sea floor as much as possible.

In addition, it is desirable for the towfish to maintain its posture as stable as possible in order to obtain an accurate underwater acoustic image.

Therefore, in order to bring the towfish to the sea floor without changing the structure of the towfish itself, there is a case where a descending aid is coupled to a towing cable for towing a side scan sonar (ie, towfish) located underwater.

The descending aid is attached to the towing cable 10-20m from the towfish.

However, the descent aid can only maintain a certain depth underwater due to its own load or specific shape.

In addition, when a descending aid is used, the towing cable portions that are gathered together as the towing cable are bound at one point of the descending aid are often twisted with each other.

The present invention is to solve the problem of the conventional descending aid for side scan sonar as described above.

That is, according to the present invention, not only can the depth of the towfish be adjusted according to the depth of the sea floor to be photographed, but also when the towing cable is bound with the descending aid, it is not bound to a specific point, but the descending aid itself penetrates for a long time. We would like to propose a new type of lowering aid for side scan sonar that can prevent twisting.

In order to solve the above problems, the present invention is a descending aid for a side scan sonar to be combined with a towing cable to tow a side scan sonar located underwater: a towing cable through hole through which the towing cable passes is formed in the longitudinal direction A cylinder-shaped body, vertical tail blades fixed to the rear of the body, a pair of horizontal tail blades rotatably provided around a virtual axis perpendicular to the length direction of the body on both sides of the rear of the body, the It characterized in that it comprises a horizontal tail wing fixing device provided on the body to adjust and fix the rotation angle of the horizontal tail wing.

In the above, it is preferable that a cable auxiliary binding band, which is an example, in which a plurality of cable binding holes, which are examples, are formed along the length direction of the body, is provided in the body.

In the above, the horizontal tail blade fixing device, a connecting rod for connecting the pair of horizontal tail blades to each other, a guide rod insertion rod provided to be rotatable with respect to the connecting rod in the center of the connecting rod, one end is rotatable on the body It is preferably made of a guide rod inserted into the guide rod insertion table and a fixing bolt provided on the guide rod insertion table and fixing the guide rod inserted into the guide rod insertion table.

As described above, the present invention adjusts the rotation angle of the horizontal tail blades of the descending aid according to the depth of the seabed to capture underwater acoustic images, and then puts them into the water. In addition to being able to adjust the position (altitude) of the lowering aid, a new type of side scan sonar lowering aid that can prevent twisting of the towing cable is provided by allowing the body of the lowering aid to form a cylinder and the central part of the towing cable to pass through. It is done.

1 is a schematic diagram of a state of use of an embodiment according to the present invention,
Figure 2 is a perspective view of the descending aid of Figure 1,
Figure 3 is a longitudinal cross-sectional view of the descending aid of Figure 1,
Figure 4 is a view for explaining the rotation state of the horizontal tail blades of the descending aid of Figure 1,
5 is a view for explaining a state in which the descending aid of FIG. 2 is coupled to a towing cable;
6 is a view for explaining another state in which the descending aid of FIG. 2 is coupled to a towing cable.

Hereinafter, the configuration and operation will be described in detail according to an embodiment of the present invention.

1 is a schematic diagram of a use state of an embodiment according to the present invention, FIG. 2 is a perspective view of the descending aid of FIG. 1, FIG. 3 is a longitudinal cross-sectional view of the descending aid of FIG. 1, and FIG. 4 is a descending aid of FIG. It is a view for explaining the rotational state of the horizontal tail blade of, Figure 5 is a view for explaining the state in which the descending aid of Figure 2 is coupled to the towing cable, Figure 6 is the descending aid of Figure 2 is coupled to the towing cable It is a figure for explaining another state.

The descending aid 100 is largely composed of a body 110, a vertical tail blade 120, a horizontal tail blade 130, a horizontal tail blade fixing device 140, and a towing cable auxiliary binding rod 150.

The body 110 is formed in a long cylinder shape, and a towing cable through hole 111 is formed in the center.

That is, the towed cable through hole 111 is formed to be elongated in the longitudinal direction so that the front end and the rear end of the body 110 are connected to each other.

The vertical tail wings 120 are fixed to the rear of the body 110.

The horizontal tail blades 130 are rotatably provided at the rear portion of the body 110, and are provided in pairs on both sides of the rear portion of the body 110.

Horizontal tail blades 130 are provided on both sides of the body 110 with respect to the body 110, and are also rotatably provided with respect to the body 110.

That is, the horizontal tail blade 130 is provided to be rotatable about an imaginary axis perpendicular to the length direction of the body 110.

The rotation angle of the horizontal tail wing 130 must be adjusted to a certain rotation angle before being put into the water and then fixed, and the rotation angle does not change underwater.

For this purpose, a horizontal tail wing fixing device 140 is provided.

The horizontal tail blade fixing device 140 is composed of a connecting rod 141, a guide rod insertion rod 142, a fixing bolt 143, and a guide rod 144.

The connecting rod 141 connects a pair of horizontal tail wings 130 to each other. Accordingly, the pair of horizontal tail blades 130 rotate at the same angle with each other.

In the center of the connecting rod 140, a guide rod insertion rod 142 is provided to be rotatable with respect to the connecting rod 141.

The guide rod insertion table 142 has an insertion hole 142a into which the guide rod 144 can be inserted, and a screw hole 142b connected at a right angle to the insertion hole 142a is formed.

A fixing bolt 143 is provided in the screw hole 142b.

In addition, one end of the guide rod 144 is provided on the body 110 so as to be rotatable.

The guide rod 144 is inserted into the insertion hole 142a of the guide rod insertion table 142.

At this time, the rotation angle of the horizontal tail blade 130 is adjusted according to the length of the guide rod 144 inserted into the guide rod insertion table 142 (see Fig. 4).

As described above, when the horizontal tail blade 130 is adjusted to a predetermined rotation angle, the guide rod 144 is fixed to the guide rod insertion table 142 by tightening the fixing bolt 143 provided on the guide rod insertion table 142.

Of course, if you want to adjust the rotation angle of the horizontal tail wings 130, after loosening the fixing bolt 143 again, the rotation angle of the horizontal tail wings 130 is adjusted.

In this way, the rotation angle of the horizontal tail blade 130 is adjusted, when the descending aid 100 is towed by the towing cable in the water, the horizontal tail blade 130 passes through the water while the lift (actually, it is a descending force. ), which means that the amount of lift is changed.

That is, if the speed at which the descending aid 100 is towed is the same, the altitude in the water of the descending aid 100 varies according to the rotation angle of the horizontal tail wing 130.

On the other hand, the body 110 is provided with a towing cable auxiliary binding unit 150.

A plurality of tow cable binding holes 151 are provided in the tow cable auxiliary binding table 150 along the length direction of the body 110.

The towing cable is usually bound to the descending aid 100 while passing through the towing cable through hole 111, but in some cases, it is more preferable to use the present towing cable auxiliary binding band 150. This will be explained later.

Meanwhile, an auxiliary connecting rod 160 is provided below the horizontal tail blade 130 to connect the horizontal tail blades 130. The auxiliary connecting rod 160 has an effect that the rotation angle of the horizontal tail blade 130 is limited because the moving range thereof is limited by the body 110.

As shown in FIG. 4, the depth at which the descending assistor 100 is positioned when it is put into the water varies depending on how much the rotation angle of the horizontal tail blade 130 is rotated.

Therefore, by adjusting the rotation angle of the horizontal tail wing 130 according to the depth of the sea floor to be photographed and putting it into the water, it is possible to position the Side Scan Sonar as close to the sea floor as possible.

This embodiment is installed on the cable 20, which is a tow in front of the side scan sonar 30 towed by the ship 10 as shown in FIG. 1.

At this time, the method of installing the descending aid 100 on the towing cable 20 can be divided into two methods as shown in FIGS. 5 and 6.

5 is a case of typical use.

In order to prevent the towing cable 20 from passing through the towing cable through hole 111 and to prevent the descending aid 100 from moving with respect to the towing cable 20, the fastener 40 is placed in front of the descending aid 100 and It is provided in the cable 20 which is a tow at the rear, respectively.

If the descending aid 100 is fixed to the towing cable 20 in this way, it is possible to prevent the towing cable 20 from being twisted.

6 is another installation example.

In this embodiment, after connecting the binding ring 50 to the tow cable 20, the binding ring 50 is coupled to the towing cable binding hole 151, and a fixture 40 is provided on the tow cable 20 to bind. The movement of the ring 50 was prohibited.

Such a state is a common method of coupling the descending aid to the towing cable, which increases the risk of twisting the towing cable.

However, in this embodiment, since a plurality of towing cable binding holes 151 are formed, the position of the point of action of the force varies depending on which hole of the towing cable 20 is coupled to one of the plurality of holes, so the posture of the descending aid 100 Is changed, and as a result, the magnitude of the descending force generated in the horizontal tail wing 130 of the descending aid 100 may be changed. That is, this embodiment is required in order to further adjust the lowering force of the horizontal tail blade 130 by the cable binding hole 151 which is a tow.

The above embodiments are only preferred embodiments of the present invention, and the technical idea of the present invention can be variously modified or adjusted by those skilled in the art. If such modifications and adjustments use the technical idea of the present invention, it is within the scope of the present invention.

In the present invention, when taking an underwater sound image using a side scan sonar, the side scan sonar located underwater may be positioned at a predetermined depth in the water using the descending aid of the present invention.

<Explanation of symbols for major parts of drawings>
100: descending aid 110: body
111: towing cable through hole
120: vertical tail wing
130: horizontal tail wing
140: horizontal tail wing fixing device
150: towing cable auxiliary binding

Claims (3)

In the descending aid for the Side Scan Sonar to be combined with the towing cable towing the Side Scan Sonar located underwater:
A cylinder-shaped body in which the tow cable through hole through which the tow cable passes is formed in the longitudinal direction
Vertical tail blades fixedly provided at the rear of the body
A pair of horizontal tail blades rotatably provided on both sides of the rear portion of the body around an imaginary axis perpendicular to the length direction of the body
A descending aid for side scan sonar, characterized in that it comprises a horizontal tail blade fixing device provided on the body to adjust and fix the rotation angle of the horizontal tail blade.
The method of claim 1,
A descending aid for a side scan sonar, characterized in that a cable auxiliary binding band having a plurality of towing cable binding holes formed along the length direction of the body is provided in the body.
The method of claim 1,
The horizontal tail blade fixing device includes a connecting rod for connecting the pair of horizontal tail blades to each other, a guide rod insertion rod provided rotatably with respect to the connecting rod in the center of the connecting rod, and one end rotatably provided on the body A descending aid for a side scan sonar, characterized in that comprising a guide rod inserted into a guide rod insertion table, and a fixing bolt provided on the guide rod insertion table and fixing the guide rod inserted into the guide rod insertion table.

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