KR102410208B1 - Rail chair of 2-point support using a spring clamp - Google Patents

Abstract

The present invention relates to a rail support of a two-point support method using a spring clamp used when precisely aligning rails to become a reference in a test water tank (Towing Tank, Wave basin) experiment. A rail support body and the rail support body It is a technical gist to include a rail support block in which a curved seating portion is formed so as to form a convexly curved surface as the upper surface of the rail to contact the lower surface of the rail, and to maintain line contact in a direction orthogonal to the longitudinal direction of the rail. This makes it possible to precisely align the precision rail on which the tow vehicle runs on a plane parallel to the water surface, and to align easily when the straightness of the rail is damaged due to the operation of the tow vehicle or deformation of the towing tank (Wave Basin). has the effect of correcting it.

Description

Rail chair of 2-point support using a spring clamp}

The present invention relates to a rail support of a two-point support method using a spring clamp, and more particularly, the upper surface of the rail that is precisely machined so that the towed train can travel at a constant speed along a reference plane parallel to the water surface on the water surface of the test tank. By precisely adjusting the distance from the water surface, torsion or bending of the rail, and the distance between the rails, it can be precisely aligned to become the baseline of the experiment. It is related to a two-point support type rail support using a spring clamp that can control deflection or vibration, absorb the inertia force caused by deceleration and emergency braking of a tow truck, and is easy to align.

When building a conventional ship, a model test is performed to estimate various hydrodynamic performance including resistance, motion, and steering performance of the ship prior to building the ship. It is economically impossible to test a real-sized ship, so it is much more economical to use a model test, and it has the advantage of being able to confirm complex phenomena that cannot be confirmed with a mathematical model. In particular, since the problem of resistance propulsion of ships is very complex, model tests using scaled models are mainly used. The model test is performed by measuring and analyzing the motion of the model ship and the force acting on the model when the towing tank is towing the model ship along the precision rails installed on two parallel walls of the test tank such as a towing tank or wave tank having a rectangular shape. Check the hydrodynamic properties of the ship.

The towing tank is a test device that measures the hydrodynamic force acting on the ship model while towing the ship model into the tank, or observes or measures the flow phenomenon around the ship model. In addition, the Wave Basin can perform a model test using a ship model like the towing tank, and is a test device additionally equipped with a wave maker so that it can be tested in a state that generates waves like the sea state.

On the other hand, when estimating the performance of a ship through a model test, the effect of geometrical dimensional error appears in proportion to the third power of the scale ratio, so the error of the test equipment should be reduced to a minimum. Therefore, in order to minimize the scale effect and various errors due to the test equipment, the straightness and parallelism of the rail must be precisely maintained. In particular, to install the rail for a tow vehicle in the towing tank, a number of rail supports supporting the precision rail are aligned in the longitudinal direction. It is necessary to precisely align the rail so that it rests on the top.

In addition, the towing tank or wave tank is usually used for more than 20 years when construction is completed, and during this period, deformation of the rail-installed water tank structure may occur due to water pressure, earth pressure, ground subsidence, etc. In addition to this, when the tow truck is operated on the rails, the alignment of the rails may be disturbed due to the deformation and vibrations occurring on the rails, and the inertial force accompanying the operation. For this reason, in order to maintain the precise state, which is the standard for various experiments, it is necessary to periodically measure and realign the rail to a precise state.

When you want to align the rails in the conventional way, to adjust the height of the rail, the height is adjusted by fastening and releasing the height adjustment nut filled in the anchor bolts at the top and bottom of the rail support, and in the longitudinal and width directions of the rail. The slope is also adjusted in the same way. When the rail is aligned on the plane, the straightness is adjusted by pushing the rail from the side with the adjusting bolt. At this time, if the rail is tightened with a mechanical clamp, the alignment cannot be adjusted in the lateral direction, so the mechanical clamp must be released.

Korean Intellectual Property Office Registered Patent No. 10-1931301

The present invention has been devised to solve the above problems, and it is possible to align the rail on which the tow truck travels on a plane parallel to the stationary water surface, and to adjust the rail without loosening or tightening the clamp when aligning the rail in a straight line. It is to provide a two-point support type rail support using a spring clamp to which a spring-type clamp is applied.

The above object is to form a convexly curved surface with the rail support body and the upper surface of the rail support body so as to be in contact with the lower surface of the rail, and to maintain line contact in a direction orthogonal to the longitudinal direction of the rail. It is achieved by a rail support of a two-point support method using a spring clamp, characterized in that it includes a rail support block.

Here, the rail support, a pair of spring clamps disposed to face each other on the left and right sides of the curved seating part; a pair of spring pressure adjusting members for regulating the pressure of each of the spring clamps to restrain the rail and the rail support block with the elastic force of the spring clamps, and aligning the straightness of the rails through the pressure adjustment of the spring clamps; It is preferable to further include

In addition, the rail support block is provided with a pair of fixed wedge portions disposed on both left and right sides of the curved seating portion, and is fitted between the rail and the fixed wedge portion to push the rail in the lateral direction by positional movement Further comprising a pair of moving wedges, the rail support is a pair of moving wedge positions capable of aligning and constraining the straightness of the rail by adjusting the position of each of the moving wedges to push the flange portion of the rail. It is preferable to further include an adjustment member.

As described above, according to the present invention, it is possible to precisely align the rails on which the tow vehicle travels on a plane parallel to the water surface, and the straightness of the rails due to the operation of the tow vehicle or the deformation of the towing tank (Wave Basin). It has the effect of being able to easily correct the alignment when it is damaged.

1 is a perspective view of a rail support according to an embodiment of the present invention;
2 is an exploded perspective view of the rail support.

Hereinafter, the technical idea of the present invention will be described in more detail with reference to the accompanying drawings. Since the accompanying drawings are merely examples shown in order to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

Figure 1 is a perspective view of a rail support according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the rail support.

The rail support 10 of the two-point support method using the spring clamp according to the present invention is for fixing the rail 1 to the towing tank for ship testing as shown in FIGS. 1 and 2, and the rail support block ( 100), including a moving wedge position adjusting member 200, a spring clamp 300, a spring pressure adjusting member 400, a rail support mounting plate 500, and an anchor bolt coupling member 600.

The rail support block 100 includes a rail support body 110 , a curved seating part 120 , a fixed wedge part 130 and a moving wedge part 140 .

The rail support body 110 is a metal product manufactured by casting or forging, and the rail 1 is placed on the upper surface in line contact, and is fixed to an anchor bolt coupling member 600 to be described later.

The curved seating part 120 forms a convexly curved surface with the upper surface of the rail support body 110 to make contact with the lower surface of the rail 1 , and maintain line contact in a direction perpendicular to the longitudinal direction of the rail 1 . do. That is, when the rail 1 is placed after aligning the rail support 10 , the rail 1 and the rail support 10 are in line contact in the orthogonal direction to the rail 1 by the curved seating part 120 . .

The conventional rail support is designed to have a sufficient contact area with the rail 1, but when the towing vehicle moves, the rail 1 causes deflection and deformation, and the surface contact is changed to line contact. On the other hand, in the rail support 10 according to the present invention, since the rail 1 is supported by the curved seating part 120 curved upwards convexly, even if the rail 1 causes deflection deformation under the load of the tow truck, the line contact is It has the advantage of being maintained.

The fixed wedge portion 130 is made of a pair disposed on the left and right sides of the curved seating portion 120 of the rail support block 100 . The fixed wedge portion 130 has a side adjacent to the curved seating portion 120 formed of an inclined surface along the longitudinal direction of the rail. A pair of moving wedge portions 140 are in contact with the pair of fixed wedge portions 130 having an inclined surface, and the moving wedge portion 140 has an inclined surface to engage the inclined surface of each fixed wedge portion 130 .

The moving wedge 140 is fitted between the rail 1 and the fixed wedge 130 and serves to push the rail in the lateral direction by positional movement. That is, the moving wedge unit 140 is fitted between the fixed wedge unit 130 and the flange of the rail 1 to adjust the position of the moving wedge unit 140 to the wedge adjustment bolt hole 111 to adjust the first wedge. If the main surface is adjusted by the part 210 and the second wedge adjustment part 220, the rail 1 can be aligned in a straight line by pushing it sideways in a state where the rail 1 maintains line contact with the curved seating part 120. have.

The main rail 1 moves in a direction perpendicular to the longitudinal direction by adjusting the positions of the pair of moving wedge units 140 in contact with the fixed wedge unit 130 integrally formed on the rail support body 110 . . Using this method, the position of the moving wedge unit 140 can be adjusted with a small force, and there is an advantage that the rail 1 can be pushed and fixed with a large force through the position adjustment of the moving wedge unit 140 .

If the position of the moving wedge 140 is changed while the inclined surface of the fixed wedge 130 and the inclined surface of the moving wedge 140 are in contact, the moving wedge 140 crosses the flange portion of the rail 1 . will be pushed in the direction Since the moving wedge 140 also serves to hold the flange portion of the rail 1 , it not only aligns the rail 1 in a straight line but also serves to fix it.

The moving wedge position adjusting member 200 is fastened to the wedge adjusting bolt hole 111 and adjusts the position of each moving wedge 140 to push the flange portion of the rail 1 in the transverse direction to It is made in pairs to align and constrain straightness.

The first wedge adjusting unit 210 and the second wedge adjusting unit 220 are disposed in opposite directions, so to move the rail 1 forward, backward, left and right, it must be adjusted to move in a desired direction. In addition, when the alignment of the rail 1 is finished, if the two first wedge adjustment nuts 211 and the two second wedge adjustment nuts 221 are fixed, the alignment of the rail 1 can be fixed so as not to be disturbed. .

The first wedge adjustment unit 210 and the second wedge adjustment unit 220 are disposed to face each other, so when the position needs to be moved, the wedge adjustment bolts 212 and 222 and the wedge adjustment nut 211, 221) is first released. Then, by tightening the opposite wedge adjustment bolts (212, 222) and the wedge adjustment nuts (211, 221), the movable wedge unit 140 can be moved, and the wedge adjustment bolts (212, 222) and the wedge adjustment at a desired position By tightening the nuts 211 and 221, they can be fixed in the aligned state.

A pair of spring clamps 300 are configured to face each other on the left and right sides of the curved seating part 120 . The spring clamp 300 is a clamp for fixing the rail 1 by pressing the rail 1 with the elastic force of the spring, and a spring pressure adjusting member 400 installed on the fixed wedge portion 130 of the rail support body 110 . Press the flange portion of the rail (1) with an appropriate elastic force to fix the rail (1). In this way, when the rail 1 is fixed with the spring clamp 300, the rail 1 is constrained by elastic force, so that the rail 1 is straight can be precisely aligned.

The spring pressure regulating member 400 is a pair of tightening means for regulating the pressure of each of the pair of spring clamps 300, and the spring clamp 300 is installed in the fixing wedge part 130 with a pressure regulating bolt hole ( 131) and tightened, the elastic force of the spring clamp 300 that presses the rail 1 can be adjusted. The spring pressure adjusting member 400 is divided into a pressure adjusting bolt 410 and a pressure adjusting washer 420 .

When each spring pressure adjusting member 400 is fastened to the pressure adjusting bolt hole 131 and tightened, elastic deformation is induced in the spring clamp 300, and the flange of the rail 1 is pressed with a corresponding pressure to press the rail (1) is fixed. The pressure of the spring clamp 300 that presses the rail 1 causes frictional force to be generated between the rail 1 and the rail support block 100 to absorb the inertial force generated when the towed train accelerates, decelerates, or emergency brakes. .

The rail support 10 according to the present invention is designed to maintain line contact by pressing the rail 1 with the pressure of the spring clamp 300, thereby narrowing the gap between the rail support 10, so that the As it can reduce deflection deformation, it reduces the vertical vibration amplitude that occurs when the tow truck is traveling and increases the vibration frequency.

In order to align the rail (1) to the towing tank, the rail support (10) is assembled on the upper surface of the rail foundation (2) installed by building the towing tank wall. The rail support 10 maintains the basic interval and has a non-uniform deviation within a certain range so that the frequency generated due to the deflection of the rail 1 can avoid the natural vibration and resonance phenomenon appearing in the model test. The rail support mounting plate 500 is fixed by welding after aligning it on the rail foundation (2). Depending on the design of the towing tank, the rail foundation (2) can be omitted or a different type of structure can be adopted for the tank wall, and the rail support mounting plate 500 is omitted and the rail support (10) on the anchor bolt coupling member (600). It is also permissible to directly fix the

Adjust the anchor bolt 620 and the height adjustment nut 630 in the rail support 10 to adjust the rail support body 110 to a constant height from the stationary water surface, and tighten the height adjustment nut 610 to adjust the rail (1) Align and fix so that the upper surface of the test tank is parallel to the still water surface of the test tank. At this time, the lower surface of the tightening nut 610 and the upper surface of the height adjustment nut 630 are hemispherical, so that the rail support body 110 is planned to be freely stabilized along the curved surface of the anchor bolt hole 112 .

Using the rail support 10 of the present invention as described above, it is possible to precisely align the installation height, inclination, and straightness of the rail 1 so that the rail 1 on which the tow truck operates becomes a reference plane for all measurements. In addition, since the rail 1 is restrained by the elastic force of the spring clamp 300 , the position of the movable wedge 140 is adjusted even in a state in which the spring clamp 300 is not released, thereby enabling straight alignment. In addition, the rail 1 and the rail support 10 are in direct contact with each other, and the interval between the rail supports 10 is narrow. The possibility of resonance can be minimized.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1: rail
2: Rail foundation
10: rail support
100: rail support block
110: rail support body
111: wedge adjustment bolt ball
112: anchor bolt ball
120: curved seating part
130: fixed wedge portion
131: pressure control bolt hole
140: moving wedge portion
200: moving wedge position adjusting member
210: first wedge adjustment unit
211: first wedge adjustment nut
212: first wedge adjustment bolt
220: second wedge adjustment unit
221: second wedge adjustment nut
222: second wedge adjustment bolt
300: spring clamp
400: spring pressure adjusting member
410: pressure control bolt
420: pressure control washer
500: rail support mounting plate
510: anchor bolt assembler
600: anchor bolt coupling member
610: tightening nut
620: anchor bolt
630: height adjustment nut

Claims (3)

A rail support body, and a curved seat portion to form a convexly curved surface on the upper surface of the rail support body to contact the lower surface of the rail, and to maintain line contact in a direction orthogonal to the longitudinal direction of the rail; A pair of fixed wedge portions disposed on both left and right sides of the unit and adjacent to the curved seating portion is formed of an inclined surface along the longitudinal direction of the rail, and the rail is disposed between the rail and the fixed wedge portion to move the rail by positional movement a rail support block in which a pair of moving wedge portions having an inclined surface to engage with the inclined surface of each of the fixed wedge portions are formed while pushing in the transverse direction;
a pair of spring clamps disposed to face each other on the left and right sides of the curved seating part;
a pair of spring pressure adjusting members for regulating the pressure of each of the spring clamps to restrain the rail and the rail support block with the elastic force of the spring clamps, and aligning the straightness of the rails through the pressure adjustment of the spring clamps; and
A pair of moving wedge position adjusting members capable of aligning and constraining the straightness of the rail by pushing the flange portion of the rail by adjusting the position of each of the moving wedge portions; includes,
A pair of the moving wedge position adjusting member,
A two-point support method using a spring clamp, characterized in that it is disposed on the front and rear surfaces of the moving wedge in opposite directions and includes a first wedge adjusting unit and a second wedge adjusting unit for controlling the movement of the moving wedge of the rail support. delete delete

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