KR102476249B1 - Towing carriage apparatus for cleaning water surface using wind power - Google Patents

Abstract

The present invention relates to a tow train device for cleaning the surface of a water tank for a model ship test: a tow train 20 movably installed on the tank using a travel machine 25; a wind power means (30) having a plurality of blowers (35) provided on one side of the towing vehicle (20) through a duct (31); and a controller 40 controlling the tow train 20 and the wind power means 30 with a set algorithm.
Accordingly, the tow truck installed in the model test tank generates airflow by wind power to collect and remove floating objects on the water surface without disturbance, thereby preventing delay in model test and increasing reliability of model test data.

Description

Towing carriage apparatus for cleaning water surface using wind power {Towing carriage apparatus for cleaning water surface using wind power}

The present invention relates to a tow train device, and more particularly, to a tow train device for cleaning a water surface using wind power that removes floating matters on a water surface using a tow train installed in a water tank for testing a model ship.

Since the test in the model test tank assumes fresh water, which is clean fresh water, the error of the test must be minimized by removing floating matters on the water surface. In a large model test tank, it is impossible to replace the tank water due to structural changes in the tank retaining wall and twisted rails, so a device that can purify fresh water tank water well and clean the water surface is essential. In addition, surface cleaning is performed in the test preparation stage, so it is possible to proceed smoothly with the model test only when it is performed in the shortest time.

Conventionally, by using manpower, an oil fence or the like is pulled in the longitudinal direction of the tank to collect the floating matter, and then the floating matter is collected with a floating skimmer. However, it takes a lot of manpower and time, and also entails the risk of safety accidents when pulling the fence by manpower. In addition, due to interference with the side sofa installed along the longitudinal retaining wall of the tank, it is difficult to collect the floating matter perfectly, such as safety accidents and the floating matter escaping from the bottom of the side sofa.

In another method, a water spray device installed in a towing tank collects floating matter while moving the tank, and collects the floating matter with a floating skimmer.

In this regard, prior art documents such as Korean Patent Publication No. 2011-0115227 below are known.

However, in the case of the water spraying method, when collecting floating matter on the surface of the water, it is difficult to completely collect the floating matter, such that the floating matter sinks due to the disturbance of the water surface during water spraying and then floats again or flows behind the water spraying device without being collected. In addition, it is necessary to raise the tank water with a water pump for water injection, but if the pump line is submerged in water, it affects the test data, so it is inconvenient to lower and raise the pipe only during cleaning.

As a result, it takes a lot of manpower and time in the conventional oil fence or water spray method, and it is difficult to collect the perfect floating matter.

Korean Patent Laid-open Publication No. 2011-0115227 "A device for cleaning the water surface of a towing tank" (Publication date: 2011.10.21.)

An object of the present invention to improve the above conventional problems is to generate an air current by wind power from the front or rear of a towing tank installed in a model test tank to collect floating matters on the water surface without disturbing the water surface by using wind power. It is to provide a tow truck device for cleaning.

In order to achieve the above object, the present invention provides a tow train device for cleaning the surface of a water tank for model ship testing: a tow train movably installed on the tank using a travel machine; a wind power means provided with a plurality of blowers through a duct on one side of the towing vehicle; And a controller for controlling the tow train and the wind power means by a set algorithm.

According to the detailed configuration of the present invention, the wind power unit is characterized in that it is configured to cause a change in wind direction by connecting a rotary actuator to the vane of the duct.

According to the detailed configuration of the present invention, the wind power unit is characterized in that it is configured to induce a change in height by connecting the lift table and the lift actuator to the duct.

According to the detailed configuration of the present invention, the controller is characterized in that it inputs signals from a camera that acquires an image of the surface of the water, a floating sensor that detects a foreign object in the water, and a posture sensor that detects the position of the blower.

According to the detailed configuration of the present invention, the controller is characterized in that it adjusts the moving speed of the towing train, the air volume and the wind direction of the blower in response to the disturbance of the water surface and the degree of dispersion of the floating matter.

As described above, according to the present invention, the towing tank installed in the model test tank generates airflow by wind power to collect and remove floating matters on the water surface without disturbance, thereby preventing delay in model test and increasing the reliability of model test data. .

1 is a block diagram schematically showing a device according to the present invention;
Figure 2 is a schematic diagram showing the wind power means of the device according to the present invention
Figure 3 is a block diagram showing the control circuit of the device according to the present invention
Figure 4 is a schematic diagram showing the operating state of the device according to the present invention

Hereinafter, embodiments of the present invention will be described in detail based on the accompanying drawings.

The present invention proposes a tow train device for cleaning the water surface of a model ship test tank. A configuration for cleaning the floating matter in the tank 10 containing fresh water, which is clean fresh water, is intended, but is not necessarily limited thereto.

According to the present invention, the towing vehicle 20 has a structure in which it is movably installed on the water tank using the travel machine 25.

Referring to FIG. 1, it shows a state in which a towing tank 20 is installed on a rail 15 installed in the longitudinal direction of the water tank 10. The tow train 20 performs a forward and backward reciprocating movement on the rail 15 using the wheel set 22 connected to the travel machine 25 . The travel machine 25 also performs the function of adjusting the moving speed of the tow train 20 and braking by forward and reverse rotation of the wheel set 22 . A model ship is mounted in the center of the towing vehicle 20.

In addition, according to the present invention, the wind power unit 30 has a structure including a plurality of blowers 35 through a duct 31 on one side of the tow train 20.

Referring to FIGS. 1 and 2 , a state in which the duct 31 and the blower 35 constituting the wind power means 30 are installed on the front of the towing vehicle 20 is shown. The wind power unit 30 may be installed in the same way on the rear side opposite to the front side of the towing vehicle 20. It is preferable to install the duct 31 so as to substantially coincide with the width direction of the towing vehicle 20, and to add a vane 32 capable of changing the wind direction of the blower 35 on the front side. The blower 35 is preferably a variable voltage variable frequency (VVVF) method using an inverter for variable air volume control, but is not limited thereto.

According to the detailed configuration of the present invention, the wind power means 30 is characterized in that it is configured to cause a change in wind direction by connecting the rotary actuator 37 to the vane 32 of the duct 31.

Referring to FIGS. 2 and 3 , a rotary actuator 37 is shown in addition to the duct 31 and the vane 32 constituting the wind power unit 30 . The vane 32 may be integrally formed with respect to the entire width (length) of the duct 31, but it is preferable to divide the vane 32 into widths corresponding to each blower 35. The vane 32 connects a plurality of blades regularly arranged vertically to the rotary actuator 37 to cause simultaneous rotation of all blades. When the blade moves downward, the wind direction of the blower 35 also changes so as to approach the surface of the water.

According to the detailed configuration of the present invention, the wind power means 30 is characterized in that it is configured to cause a change in height by connecting the lift table 33 and the lift actuator 38 to the duct 31.

Referring to FIGS. 2 and 4 , a state in which a lift table 33 and a lift actuator 38 are connected to the duct 31 constituting the wind power means 30 is shown. The platform 33 is mounted on the towing vehicle 20 so as to be able to move up and down, and is connected to the lift actuator 38 mounted on the towing vehicle 20 in a rack-and-pinion manner. It is preferable to connect at least two lift tables 33 with the duct 31, and a motion guide may be added for the stable lift of the duct 31.

As described above, the present invention uses the wind power means 30 as the main body, and can efficiently collect floating matter only with the wind power of the blower 35 without the need for a heavy water pump or fine adjustment of the water spray nozzle by the conventional water spray device. do.

In addition, according to the present invention, the controller 40 has a structure in which the towing vehicle 20 and the wind power means 30 are controlled by a set algorithm.

In FIGS. 1 and 3 , a state in which the controller 40 is connected to the towing vehicle 20 and the wind power means 30 is shown. The controller 40 is composed of a microprocessor, memory, and a microcomputer circuit equipped with an input/output interface. An output interface of the controller 40 is connected to a blower 35, a rotary actuator 37, a lift actuator 38, and the like. Algorithms of the controller 40 are stored in memory in the form of programs and data and executed.

According to the detailed configuration of the present invention, the controller 40 includes a camera 42 that acquires an image of the surface of the water, a floating sensor 44 that detects a foreign object in the water, and a posture sensor 46 that detects the posture of the blower 35. ) characterized in that for inputting a signal.

3 shows a state in which a camera 42, a floating sensor 44, a posture sensor 46, and the like are connected to the input interface of the controller 40. The camera 42 is installed on the towing vehicle 20 and generates image data photographing the surface of the water tank 10. The floating detector 44 generates data on the presence or absence of floating objects by applying laser or ultrasonic waves to the water and surface of the water tank 10 . The posture sensor 46 is installed in the rotation actuator 37 and the lift actuator 38 to generate data about the driving state of the vane 32 and the lift platform 33.

According to the detailed configuration of the present invention, the controller 40 adjusts the moving speed of the tow train 20, the air volume and the wind direction of the blower 35 in response to the disturbance of the water surface and the degree of dispersion of floating objects.

In the cleaning operation of the water tank 10, the controller 40 moves the tug 20 at a constant speed and operates the blower 35 while moving the camera 42, the floating sensor 44, and the attitude sensor 46. input signals in real time. According to the data of the camera 42 and the float sensor 44, if the water surface disturbance is out of the set range or the underwater dispersion of the float is out of the set range, the tow truck 20 is braked to slow down, and the air volume of the blower 35 is reduced. The vane 32 changes the wind direction. Of course, control values corresponding to the degree of surface disturbance and dispersion of floating matter are updated based on the learning information accumulated in the memory.

It is possible to collect the floating matter floating on the water surface without significant disturbance of the water surface while collecting the floating matter on the water surface like a conventional water spray device or oil fence.

Cleaning time is shortened by removing floating objects on the surface of the water, so test time can be shortened, and error of the test can be minimized due to less disturbance of the water surface.

The present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such variations or modifications should fall within the scope of the claims of the present invention.

10: water tank 15: rail
20: towing vehicle 22: wheel set
25: traveling machine 30: wind power means
31: duct 32: vane
33: lift platform 35: blower
37: rotary actuator 38: lift actuator
40: controller 42: camera
44: floating sensor 46: posture sensor

Claims (5)

In the towing tank device for cleaning the surface of the water tank for model ship testing:
A tow train 20 movably installed on the water tank using a travel machine 25;
a wind power means (30) having a plurality of blowers (35) provided on one side of the towing vehicle (20) through a duct (31); and
A controller 40 for controlling the tow train 20 and the wind power means 30 with a set algorithm; including,
The wind power means 30 is configured to cause a change in wind direction by connecting a rotary actuator 37 to the vane 32 of the duct 31,
The wind power means 30 is configured to cause a change in height by connecting a lift table 33 and a lift actuator 38 to a duct 31,
The controller 40 inputs signals from the camera 42 that acquires images of the surface of the water, the floating sensor 44 that detects foreign substances in the water, and the attitude sensor 46 that detects the attitude of the blower 35. A tow truck device that cleans the surface of the water using wind power. delete delete delete The method of claim 1,
The controller 40 controls the moving speed of the tow train 20 and the air volume and wind direction of the blower 35 in response to the disturbance of the water surface and the degree of dispersion of floating objects. chariot device.

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