KR100974849B1 - Towing and mooring system for model experiment of floating structures - Google Patents

Abstract

The present invention relates to a towing and mooring device for floating motion experiments, and more specifically, to a towing and mooring device for floating motion experiments, such as ships and offshore structures having an arbitrary speed among waves, the main body consisting of a frame; The support portion is vertically coupled to the upper side of the main body portion, the front fixing rod is coupled to the lower side of the main body pulley is coupled to the lower end, a plurality of pulleys are coupled to the upper side of the support portion, the support Horizontal rods are horizontally coupled in one direction of the support to the upper end of the support is hinged to the plurality of support rods in the lower diagonal direction on one side, the slider is coupled to the ends of the plurality of support rods between the support and the plurality of support rods Is slid by the slider, is coupled to the upper side of the support portion by a hinge, when rotating the plurality of support rods are slid due to the slider to form a certain angle, tow including an operating rod that is further coupled in the middle sliding Wealth; A plurality of rear fixing rods are vertically coupled to the lower end of the other end of the main body, and a mooring part including a pulley installed at the lower ends of the plurality of rear fixing rods. And a mooring device.

 Towing, mooring, float, exercise, exercise experiment

Description

Towing and mooring system for model experiment of floating structures}

The present invention relates to a towing and mooring device for floating motion experiments, and more specifically, to a towing and mooring device for floating motion experiments, such as ships and offshore structures having an arbitrary speed among waves, the main body consisting of a frame; The support portion is vertically coupled to the upper side of the main body portion, the front fixing rod is coupled to the lower side of the main body pulley is coupled to the lower end, a plurality of pulleys are coupled to the upper side of the support portion, the support Horizontal rods are horizontally coupled in one direction of the support to the upper end of the support is hinged to the plurality of support rods in the lower diagonal direction on one side, the slider is coupled to the ends of the plurality of support rods between the support and the plurality of support rods Is slid by the slider, is coupled to the upper side of the support portion by a hinge, when rotating the plurality of support rods are slid due to the slider to form a certain angle, tow including an operating rod that is further coupled in the middle sliding Wealth; A plurality of rear fixing rods are vertically coupled to the lower end of the other end of the main body, and a mooring part including a pulley installed at the lower ends of the plurality of rear fixing rods. And a mooring device.

In general, ships are designed to achieve specific propulsion speeds with the least resistance of fluid in the most stable state on the surface of the water. In order to manufacture a ship with such conditions without trial and error, in recent years, ships that are not actual ships in advance are model ships. After the fabrication, the towing device for model ship test is developed and used to test the forward speed so that various measurements such as the water resistance and the kinetic performance of the ship in the towing tank can be tested.

This model towing test towing apparatus floats a model ship to be tested in a towing tank having a length, width, and depth that can have the same effect as a real sea area, and at the same time the model is in the center of a sub towing tank supported on the left and right rails. After assembling the ship, the sub towing tank is pushed using the main towing tank so that the model ship can be driven at high speed or low speed as if it is running in the real sea area to obtain various test data values accordingly. To implement a ship with optimal conditions.

When the ship installed in the conventional towing and mooring system has forward speed or when conducting a model experiment among the large waves, a relatively strong spring should be provided to the part connected to the towing and mooring device by the towing force and average drifting force. do. However, in this case, there is a problem that unwanted results are derived by disturbing the movement of the floating structure to be actually measured by the strong mooring force.

The present invention relates to a towing and mooring device for floating motion experiments, and more specifically, to a towing and mooring device for floating motion experiments, such as ships and offshore structures having an arbitrary speed among waves, the main body consisting of a frame; The support portion is vertically coupled to the upper side of the main body portion, the front fixing rod is coupled to the lower side of the main body pulley is coupled to the lower end, a plurality of pulleys are coupled to the upper side of the support portion, the support Horizontal rods are horizontally coupled in one direction of the support to the upper end of the support is hinged to the plurality of support rods in the lower diagonal direction on one side, the slider is coupled to the ends of the plurality of support rods between the support and the plurality of support rods Is slid by the slider, is coupled to the upper side of the support portion by a hinge, when rotating the plurality of support rods are slid due to the slider to form a certain angle, tow including an operating rod that is further coupled in the middle sliding Wealth; A plurality of rear fixing rods are vertically coupled to the lower end of the other end of the main body portion, and a mooring part including a pulley is installed at the lower ends of the plurality of rear fixing rods. The object is to provide a towing and mooring device.

The present invention is to provide a uniform force corresponding to the average mooring force and towing force by connecting a plurality of cables transmitting the mooring force in multiple directions to the front and rear of the model floating body, so that the installed floating body is given in the conventional towing system Avoids spring forces to minimize interference with floating motion by mooring and towing systems.

In addition, the uniform force corresponding to the different mooring and towing forces can be controlled by the weight of the weight moving freely on the inclined rod, so that it can easily cope with the average mooring and towing forces when testing the model in various environments.

A towing and mooring apparatus for floating body motion experiments of ships and offshore structures, etc. having an arbitrary velocity in waves, comprising: a main body portion 20 formed of a frame; The support portion is vertically coupled to the upper side of one side of the main body 20, the front side fixing rod 36 is coupled to the lower side of the main body portion is coupled to the lower end, the upper side of the support 33 A plurality of pulleys are coupled, and horizontal bars 31 are horizontally coupled in one direction of the support part 33 to the upper end of the support part 33 so that a plurality of support bars 34 are hinged in a lower diagonal direction at one end thereof. Is coupled, the slider is coupled to the ends of the plurality of support rods 34 between the support portion 33 and the plurality of support rods 34 and slid by the slider, the upper side of the support portion 33 Is coupled to the hinge, when rotating the plurality of support rods 34 to achieve a certain angle by sliding due to the slider, the towing portion 30 including the operating rod 32 is coupled to the weight 35 is sliding in the middle Wow; Mooring portion 40 including a plurality of rear fixing rods 41 are vertically coupled to the lower end of the other end of the main body portion 20, the pulley is installed on the lower ends of the plurality of rear fixing rods 41; It is configured to include.

At this time, the floating body 10 is located between the lower ends of the plurality of front fixing rods 36 and the plurality of rear fixing rods 41, and a plurality of cables are connected to the front and rear directions of the floating body 10. The floating body 10 is conveyed in the front-back direction.

In addition, the floating body 10 is selectively moved in one of the forward direction, the rear direction, the front diagonal direction, or the rear diagonal direction through a cable connected to the front and rear sides.

In addition, the floating body 10 is the cable connected to the front and rear sides of the floating body 10 at the same time the floating body 10 is horizontally moved to the left and right sides.

In addition, the cable connected between the towing portion 30 and the front side of the floating body 10 is connected to the weight 35 of the operating rod 32 and the cable extended from the lower end of the front fixing rod 36. The cable connected to the front side of the float 10 through the pulley of the, and the cable connected between the mooring portion 40 and the rear side of the float 10 is a plurality of operating rods 32 of the towing portion 30 The cable extended by being connected to the weight (35) of the) is connected to the lower side of the plurality of rear fixing rods (41) through the pulley coupled to the rear side of the body portion 20 through the upper side of the body portion 20 It is connected to the rear end of the floating body 10 through a pulley coupled to the lower ends of the plurality of rear fixing rods 41.

In addition, when the support rods 34 of the towing portion 30 are moved in the front-rear direction, the weight 35 of the operating rod 32 is slid, and the connected cable is pulled so that the floating body 10 is moved in the front-rear direction. Is moved.

Then, the weight 35 having a predetermined weight is installed in the center of the operating rod 32, the weight 35 can be replaced by the user desired weight.

That is, the present invention will be described in more detail with reference to one embodiment.

The support portion is vertically coupled to the upper side of one side of the main body 20, the front side fixing rod 36 is coupled to the lower side of the main body portion is coupled to the lower end, the upper side of the support 33 A plurality of pulleys are coupled, and horizontal bars 31 are horizontally coupled in one direction of the support part 33 to the upper end of the support part 33 so that a plurality of support bars 34 are hinged in a lower diagonal direction at one end thereof. Is coupled, the slider is coupled to the ends of the plurality of support rods 34 between the support portion 33 and the plurality of support rods 34 and slid by the slider, hinged on the upper side of the support portion 33 When the plurality of support rods 34 are rotated to achieve a certain angle by sliding the slider, the weights 35 are coupled to the operating rods 32 to be slid in the middle. Towing portion 30 is formed, and the mooring portion 40 is configured to include a rear fixing rod 41 is coupled to the rear lower end of the main body portion 20 is a plurality of pulleys coupled to the lower end Lose.

In addition, the floating body 10 is connected by a cable between the lower end of the support rod 34 of the towing portion 30 and the lower end of the mooring portion 40, and the cable is moved forward and backward of the floating body 10. In a plurality of directions are installed in the cable to be moved at the same time or respectively by the movement of the support rod 34 is to move the float (10).

That is, a plurality of cables connected to the weight 35 of the operating rod 32 is connected to the front side of the floating body 10, the cable is extended to the upper side of the main body portion 20 to the rear fixing rod It is connected to the rear end of the floating body 10 through the pulley coupled to the end of the 41 to rotate the support rod 34 separately or installed below the floating body 10 is the floating body 10 The cable is pulled by the movement of the float (10) by the flow of water of the tank floated.

At this time, the pulley is installed on the upper front and rear and the upper side of the support portion 33 of the main body portion 20 is connected to the cable through the pulley.

The cable may simultaneously pull the cable connected to the front and rear direction of the floating body 10 to move the floating body 10 to the left and right sides, or to pull each cable separately. The direction of movement is moved to the front, rear, left and right diagonal lines.

When the operation state is described in detail, a cable is connected to the weight 35 which is installed at the center of the operating rod 32 and slides. When the supporting rod is rotated, the operating rod 32 is provided at the end of the supporting rod slider. Sliding to achieve a certain angle, thereby the weight 35 is slid to the operating rod 32 is lowered.

This causes the float to move forward or backward or laterally, which is controlled by weights 35 installed on the plurality of operating rods 32.

And, the weight 35 can be fixed to the operating rod 32, the slider is configured to be fixed to the operating rod (32).

1 is an overall plan view of a tow and mooring apparatus for a floating body motion experiment according to the present invention,

Figure 2 is an overall front view of the tow and mooring apparatus for floating body motion experiment according to the present invention,

Figure 3 is a front view showing the main body of the tow and mooring apparatus for floating body motion experiment according to the present invention,

Figure 4 is a plan view showing a state in which the cable is connected to the float of the tow and mooring apparatus for the float motion experiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: floating body 20: main body

30: towing 40: mooring

Claims (7)

Towing and mooring device for experiments of floating body motion of ships and offshore structures, etc. A main body portion 20 formed of a frame; The support portion is vertically coupled to the upper side of one side of the main body 20, the front side fixing rod 36 is coupled to the lower side of the main body portion is coupled to the lower end, the upper side of the support 33 A plurality of pulleys are coupled, and horizontal bars 31 are horizontally coupled in one direction of the support part 33 to the upper end of the support part 33 so that a plurality of support bars 34 are hinged in a lower diagonal direction at one end thereof. Is coupled, the slider is coupled to the ends of the plurality of support rods 34 between the support portion 33 and the plurality of support rods 34 and slid by the slider, hinged on the upper side of the support portion 33 When the plurality of support rods 34 are rotated, the tow portion 30 is slid due to the slider to achieve a predetermined angle, and the tow portion 30 including the operating rod 32 to which the weight 35 is coupled and slides in the middle. ; Mooring portion 40 including a plurality of rear fixing rods 41 are vertically coupled to the lower end of the other end of the main body portion 20, the pulley is installed on the lower ends of the plurality of rear fixing rods 41; Towing and mooring device for floating motion experiment, characterized in that is configured to include. The method of claim 1, The floating body 10 is positioned between the lower ends of the plurality of front fixing rods 36 and the plurality of rear fixing rods 41, and a plurality of cables are connected to the front and rear directions of the floating body 10 so that the floating body is located. Towing and mooring device for floating motion experiment, characterized in that the (10) is conveyed in the front-rear direction. The method of claim 1, The floating body 10 is a tow and mooring apparatus for a floating motion experiment, characterized in that is selectively moved in any one of the front direction or the rear direction or the front diagonal direction or the rear diagonal direction through a cable connected to the front and rear. . The method of claim 3, wherein The floating body 10 is a towing and mooring apparatus for a floating motion experiment, characterized in that the cable connected to the front and rear sides of the floating body 10 is simultaneously pulled so that the floating body 10 is horizontally moved to the left and right sides. The method of claim 1, The cable connected between the towing portion 30 and the front side of the floating body 10 is connected to the weight 35 of the operating rod 32 and the cable extended by the pulley of the lower end of the front fixing rod 36. Is connected to the front side of the floating body 10 through, and the cable connected between the mooring portion 40 and the rear side of the floating body 10 is a plurality of operating rods 32 of the towing portion 30 The cable extended by being connected to the weight 35 of the through the upper side of the body portion 20 is connected to the lower side of the plurality of rear fixing rods 41 through the pulley coupled to the rear side of the body portion 20 Suspension and mooring device for floating motion experiment, characterized in that connected to the rear end of the floating body through the pulley coupled to the lower ends of the plurality of rear fixed rods (41). The method of claim 1, When the supporting rods 34 of the towing unit 30 are moved in the front-rear direction, the weight 35 of the operating rod 32 is slid and the connected cable is pulled to move the floating body 10 in the front-rear direction. Towing and mooring device for a floating motion experiment, characterized in that. The method of claim 1, Weight (35) having a predetermined weight is installed in the center of the operating rod (32), the weight (35) is a floating exercise experiment towing and mooring device, characterized in that the user can replace the desired weight.

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