KR101522193B1 - Upper structure displacement measurement device of bridge - Google Patents

Abstract

The present invention can measure the amount of displacement of an elastic support and a girder at the same time by a simple installation and robust structure, and provides a superstructure of the bridge displacement measuring device with low installation costs. According to a preferred embodiment of the present invention, as the device measuring the amount of displacement of the elastic support and the girder at the same time, the device includes a level plate supported on the upper surface of a pier, a plurality of level adjustment bolt screwed in the thickness direction to the level plate to adjust the horizontal position of the level plate, a plurality of lower fixed frames for width adjustment to be installed and supported by the level of the top of the pier after being supported by the level plate and disposed in the width direction of the pier, a vertical mounting frame displacement gauge located on the surface extending from the center between adjacent each side girders and installed vertically to the level of plate, an elastomeric isolator displacement unit measuring the amount of displacement of elastomeric isolator installed by selecting a different position in vertical mounting frame displacement gauge and the first and the second girder displacement measurement unit for measuring the displacement of the girder at least two locations, a hanger attached perpendicular to the top of the vertical mounting frame displacement gauge, and a plurality of tendons of which one end is connected to the end of the lower fixed frame for width adjustment and and the other end is connected to the end of the hanger, and which keep the vertical position of the vertical frame for mounting the displacement gauge with tension.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper structure displacement measurement device,

The present invention relates to an apparatus for measuring displacement of an upper structure of a bridge, and more particularly to an apparatus for measuring displacement of an upper structure of a bridge capable of simultaneously measuring displacement amounts of an elastic support and a girder by a simple and rigid installation structure.

Generally, the bridge will undergo expansion and contraction with temperature change. In addition, many bridge structures undergo external deformations due to durability and aging conditions, and earthquakes and typhoons have aggravated the deformation of old facilities. Irregular and fine incremental contouring deforms the performance of bridge and safety of bridge structure, so abnormal behavior of bridge structure should be confirmed. In particular, the elastic support supporting the upper structure of the bridge is subjected to shear deformation as a support element combined with the steel plate and the elastomer, and therefore, continuous maintenance is required. For this continuous management, it is necessary to measure the continuous displacement of the bridge superstructure, and the measurement period should be short and low cost.

As a background of the present invention, there is proposed a registered patent registration No. 10-0796636 (a device for measuring displacement displacement in the throttle direction of a prestressed concrete bridge). This is because the movement reference plate has one end fixed to the upper surface of the calibration device of the free spring concrete bridge and interlocked by the vertical axis direction and the horizontal direction displacement in the direction of the vertical axis and the linear motion induction And a horizontal displacement transmission rod having a link ball at both ends thereof, one end of which is connected to the linear motion induction device, and the other end of which is connected to an automatic displacement meter provided below the linear motion induction device; And an automatic displacement meter connected to the other end of the horizontal displacement transmission rod and capable of automatically measuring the displacement in the throttle direction, - a measuring device.

However, the measuring device, which is the background technology of the electron, can only measure displacement of the girder in the throttling direction and can not measure the displacement amount of the elastic support together.

As another technique to be a background of the present invention, Patent Registration No. 10-1443811 (a displacement measurement system of a bridge and a displacement measurement method using the same) has been proposed. A displacement measuring unit installed on a lower side of the bridge to measure a displacement generated in the bridge; An interface unit for converting the data of the displacement measured by the displacement measuring unit into a digital signal; A data collecting unit for collecting data converted into a digital signal by the interface unit; A wireless transmitter for filtering only necessary data among the data collected by the data collector and transmitting the filtered data to an administrator; A monitoring unit for allowing the manager to monitor data transmitted from the wireless transmission unit; .

However, the latter background technique is performed by sensing the electrical signal of the displacement measurement sensor by the elastic support, which requires a complicated installation structure for installing the sensor at the periphery of the calibration device and establishing a communication and monitoring system including the interface There is a cost burden.

Registered Patent Registration No. 10-0796636 (Displacement measurement device for prestressed concrete bridges) Registered Patent Registration No. 10-1443811 (displacement measurement system of a bridge and displacement measurement method using the same)

An object of the present invention is to provide an apparatus for measuring displacement of an upper structure of a bridge capable of simultaneously measuring a displacement amount of an elastic support and a girder by a simple and rigid installation structure and having a low installation cost.

According to a preferred embodiment of the present invention,

An apparatus for simultaneously measuring displacement amounts of a girder and an elastic support provided on a pier,

A level plate supported on an upper surface of the pier;

A plurality of level adjusting bolts screwed to the level plate in the thickness direction to adjust a horizontal posture of the level plate;

A plurality of width-adjustable lower fixing frames supported by the level plate and arranged in a width direction of the bridge pier and fixed to an upper end of the bridge pier;

A vertical frame installed on the level plate and disposed on a surface extending from the center of the gap between the adjacent girders;

A first and a second girder displacement measurement unit for measuring displacements of the girder at at least two points; and an elastic support displacement measurement unit for selecting a different position from the vertical frame for installing the displacement system and measuring displacement of the elastic support;

A hanger coupled perpendicularly to an upper end of the vertical frame for installing a displacement meter;

And a plurality of tension members, one end of which is connected to the end of the lower fixed frame for lower width, and the other end of which is connected to the end of the hanger to maintain the vertical posture of the vertical frame for installation of the displacement system by tension.

Further, the width-adjusting lower fixing frame may include:

A connecting square pipe having a fixing hole at both ends thereof and slidably seated in a guide groove of the level plate, and a connecting pipe having one end movably inserted into both ends of the connecting square pipe and having a length- A pair of length-adjusting rectangular pipes having a frame bent portion bent downward at the other end and contacting with a side surface of the pier, a bolt for fixing a length to be fastened to one of the fixing holes and the length adjusting holes aligned therewith, And a lower fixing frame fixing bolt screwed to the frame bending portion.

Further, in the vertical frame for installing a displacement meter,

A lower vertical square pipe having a lower end fitted into a rectangular protrusion formed at the center of the upper surface of the level plate, a coupling socket having one end fitted into the upper end of the lower vertical square pipe, And the lower vertical square pipe and the upper vertical square pipe are assembled and fixed to the coupling socket with the fixing bolts for the sockets.

Further, the elastic support displacement measuring unit may comprise:

A first elastic support displacement measurer disposed in a direction perpendicular to a lower side of the lower vertical square pipe and having one end movably inserted therein; a second elastic support displacement detector, which is inserted into the first elastic support displacement measurer, An elastic supporter fixed to the other end of each of the first elastic supporter displacement measurer and the second elastic supporter displacement supporter, an elastic supporter having one end fixed to the auxiliary supporter and the other end connected to the upper end plate of the elastic supporter And an elastic bearing displacement measurement scale is displayed on each of the first elastic support displacement measurer and the second elasticity support displacement measurer.

Further, the first and second girder displacement measurement units may include:

A first girder displacement measurer in which one end is movably inserted vertically into the lower vertical square pipe and the upper vertical square pipe, a second girder displacement measurer inserted one end into the first girder displacement measurer, The first girder displacement measurer and the second girder displacement measurer are constituted by a fixture end fixed to the other end of each of the first girder displacement measurer and the second girder displacement measurer and the other end connected to the girder, The measurement scale is displayed,

The first girder displacement measuring unit is installed at a lower portion of the lower vertical square pipe with the lower portion of the girder as a measuring point and at the same time the second girder displacement measuring unit measures the height of the upper vertical square pipe .

Further, a slab displacement measuring unit having a slab as a measurement point is further provided at an upper end of the upper vertical square pipe,

Wherein the slab displacement measuring unit includes a first slab displacement measurer positioned at a right angle to the upper end of the upper vertical square pipe and one end thereof being movably inserted and a second slab displacement measuring device having a first slab displacement detector And a displacement block having one end fixed to one end of each of the first slab displacement measurer and the second slab displacement measurer and the other end fixed to the slab side, and the first slab displacement measurer and the second slab displacement estimator And a slab displacement measurement scale is displayed.

In addition, the coupling socket is further provided with arms for connecting the lower fixing frame for width adjustment and the additional tension members to both sides of the coupling socket.

According to the apparatus for measuring the displacement of the upper structure of the bridge of the present invention, since the displacement measuring instrument is installed and measured at each measuring point along the vertical frame for installing the displacement meter, the displacement of the elastic support and the girder as well as the displacement of the slab can be measured simultaneously have.

In addition, the structure of the measuring device is divided into a square pipe, which has a simple and rigid assembling structure, and can be installed at a low cost.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an apparatus for measuring displacement of an upper structure of a bridge according to the present invention. Fig.
FIG. 2 is a front view of the displacement measuring apparatus of FIG. 1; FIG.
Figure 3 is a side view of Figure 2;
Fig. 4 is an installation state in which the displacement measuring device of Fig. 1 is installed on a bridge. Fig.
Figure 5 is a side view of Figure 4;
FIG. 6 is an operational view of the apparatus for measuring displacement according to elongation of a bridge overhead structure according to temperature change in FIG.
FIG. 7 is an operational view of the displacement measuring apparatus according to the shrinkage of the bridge superstructure according to the temperature change in FIG.
8 is a front view showing a modified example of the coupling socket applied to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

5 to 7, the present invention simultaneously measures the amount of displacement of the girder 6 and the elastic support 7 provided at the bridge pier 5 of the bridge. Here, the 'displacement amount' means a measurement value occurring in the direction of the throttling direction.

A level plate 12 supported on the upper surface of the pier 5 as shown in Figs. 1 to 5 and a plurality of levels (not shown) which are screwed to the level plate 12 in the thickness direction to adjust the horizontal posture of the level plate 12 A plurality of width-adjustable lower fixed frames (not shown) which are supported by the level plate 14 and are arranged in the width direction (tapped direction) of the bridge pier 5 and fixed to the upper end of the bridge pier 5 A vertical frame 18 for installing a displacement meter and a vertical frame 18 for installing a displacement meter, the vertical frame 18 being disposed on a plane extending from the center of distances of the adjacent two girders 6 and 6, An elastic bearing displacement measuring unit 20 installed at a different position to measure the displacement of the elastic bearing 7 and a first and a second girder displacement measuring unit 20 for measuring the displacement of the girder 6 at at least two places, (22A, 22B), a vertical frame (18) for displacement system installation The hanger 26 is connected at one end to the end of the width adjusting lower fixed frame 16 and at the other end to the end of the hanger 26 so that the vertical frame 18 And a plurality of tension members 28 for maintaining the vertical posture.

The level plate 12 is a plate-like plate having a predetermined thickness and has a guide groove 121 formed on an upper surface thereof for coupling the lower fixing frame 16 to the width adjusting guide groove 121, Or the longitudinal direction of the girder). The level plate 12 is provided with a rectangular protrusion 122 for vertically mounting the vertical frame 18 for mounting the displacement system in the upper center thereof.

The width-adjusting lower fixing frame 16 serves to securely fix the level plate 12 to the upper surface of the pier 5. The lower fixing frame 16 for adjusting the width is also provided to be connected to the hanger 26 via the tension member 28. [

The lower fixing frame 16 for width adjustment includes a connecting square pipe 161 having fixing holes 161a at both ends thereof and slidably seated in the guide grooves 121 of the level plate 12, And a pair of frame bends 162b which are inserted into both ends of the pipe 161 such that one end thereof is movably inserted and the upper surface thereof has a length adjusting hole 162a at regular intervals and is bent downward at the other end to contact the side surface of the bridge bridge 5. [ A length adjusting bolt 163 which is fastened to one of the fixing holes 161a and the length adjusting holes 162a corresponding to the fixing holes 161a and 162a and the length adjusting rectangular pipes 162 and 162, And a lower fixing frame fixing bolt 165 screwed to the frame bending portion 162b.

Therefore, the pair of length-adjusting rectangular pipes 162 and 162 are moved by the connecting square pipe 161 according to the width of the bridge pier 5 and fixed by the bolt fastening means 163 for long fixing, The square pipes 162 and 162 for adjusting the length are fixed to the pier 5 to complete the installation of the lower fixed frame 16 for controlling the width.

The vertical frame 18 for installing the displacement system includes a lower vertical square pipe 181 whose lower end is fitted into a rectangular protrusion 122 on the upper side of the level plate 12 side and fixed by bolts 184, And an upper vertical square pipe 183 which is fitted to the other end of the coupling socket 182. [ At this time, the lower vertical square pipe 181 and the upper vertical square pipe 183 are assembled and fixed to the coupling socket 182 by fastening the socket fixing bolt 184 and the nut 185.

Thus, the vertical frame 18 for installing the displacement meter is assembled so that the lower vertical square pipe 181 and the upper vertical square pipe 183 are aligned on the same vertical line via the coupling socket 182.

The elastic support displacement measurement unit 20 is disposed at a right angle to the vertical frame 18 for installing the displacement meter to measure the amount of displacement of the elastic support 7.

The elastic supporter displacement measuring unit 20 includes a first elastic supporter displacement measurer 201 disposed at a right angle side to the lower side of the lower vertical square pipe 181 and having one end movably inserted therein, A second elastic support displacement measurer 202 whose one end is movably inserted into the first elastic support displacement measurer 201 and a second elastic support displacement measurer 202 whose one end is movably inserted into the first elastic support displacement measurer 201 and the second elastic support displacement measurer 202, An elastic support side fix rod 204 having one end fixed to the auxiliary support 203 and the other end connected to the upper end plate 7a of the elastic support 7 The first and second elastic support displacement meters 201 and 202 are provided with elastic support displacement measurement graduations 201a and 202a in the longitudinal direction, respectively.

At this time, the first elastic support displacement measurer 201 and the second elastic support displacement measurer 202 have the same square pipe section and are overlapped with each other to be slidably moved. 4, a hole may be formed in the upper end side plate 7a of the elastic support 7, and the fixture support side fix rod 204 may be fastened or bolted together or fixed by welding or the like. In this case, when there is no displacement of the left and right elastic supports 7 and 7, the elastic support displacement measurement scales 201a and 202a are installed so as to overlap each other in a certain section as shown in FIG. Therefore, when the displacement of the left and right elastic supports 7 and 7 occurs, the displacement of the elastic support displacement measuring scale 201a and 202a is relatively moved, and the displacement amount can be confirmed by confirming the movement scale according to the displacement deviation.

The first and second girder displacement measuring units 22A and 22B have the same configuration and are connected to the girder 6 side at different installation positions.

Each of the first and second girder displacement measuring units 22A and 22B includes a first girder displacement measurer 221 one end of which is vertically inserted into the lower vertical square pipe 181 and the upper vertical square pipe 183, A second girder displacement measurer 222 whose one end is movably inserted into the first girder displacement measurer 221 and a second girder displacement measurer 222 whose one end is inserted into the other end of each of the first girder displacement measurer 221 and the second girder displacement measurer 222, And a girder side fix rod 223 whose other end is connected to the girders 6 and 6. The first girder displacement gauge 221 and the second gauge displacement gauge 222 are each provided with a girder displacement And measurement graduations 221a and 222a are displayed.

At this time, the girder displacement measuring graduations 221a and 222a are installed so as to overlap each other in a certain section when the girder is not displaced. Therefore, when the displacement of the girders 6 and 6 occurs, the girder displacement measuring scales 221a and 222a move relative to each other, and the displacement of the girder can be confirmed at the corresponding installation position by confirming the movement scale according to the displacement deviation.

The first girder displacement measurer 221 and the second girder displacement measurer 222 have the same square pipe cross section and are overlapped with each other for sliding movement. At this time, the fixing rod 223 of the girder side can be fixed to the girder side in an anchor bolt manner so as to move in correspondence with the displacement of the girder 6, or to form a hole in the girder side so as to be forcedly fitted.

The first girder displacement measurement unit 22A is installed at one place in the lower vertical square pipe 181 with the lower portion of the girder 6 as a measurement point and the second girder displacement measurement unit 22B is installed at the lower portion of the girder 6 As a measurement point, at one location in the upper vertical square pipe 183.

Therefore, the position of each of the girder displacement measuring graduations 221a and 222a provided in the first and second girder displacement measuring units 22A and 22B can be confirmed, so that the displacement amount of the girder 6 can be detected at two places simultaneously .

On the other hand, the present invention can be further provided with a slab displacement measuring unit 24 having the slab 8 as a measuring point. The slab displacement measuring unit 24 is installed at the upper end of the upper vertical square pipe 183 on the side of the vertical frame 18 for installing the displacement meter.

The slab displacement measuring unit 24 includes a first slab displacement gauge 241 inserted into the top of the upper vertical square pipe 183 in a direction perpendicular to the upper end of the upper vertical square pipe 183 and one end of the first slab displacement gauge 241 is movably inserted, One end of which is fixed to one end of each of the first slab displacement gauge 241 and the second slab displacement gauge 242 and the other end of which is fixed to the side of the slab 8 And a displacement block 243 having a fix rod 244 fixed to the first slab displacement measuring instrument 241 and the second slab displacement measuring instrument 242. Slab displacement measuring graduations 241a and 242a are displayed on the first slab displacement measurer 241 and the second slab displacement measurer 242 have.

The first slab displacement gauge 241 and the second slab displacement gauge 242 are overlapped and connected to each other so as to have the same square pipe cross section and to be movable with respect to each other at certain intervals. Therefore, by measuring the relative movement amounts of the slab displacement measurement graduations 241a and 242a, the amount of displacement of the slab can be ascertained.

The hanger (26) has a length smaller than the width of the bridge pier (5). The hanger 26 has a rectangular pipe cross section and a rectangular protrusion 261 is fitted to the upper end of the vertical frame 18 for installing the displacement meter on the central bottom face and is fixed to the bolt 265.

The tension member 28 may be formed of a steel wire or a stranded wire and may have a known turn buckle 281 capable of generating tension in the middle. Therefore, tension can be generated in the tension member 28 in accordance with the rotation direction of the turn buckle 281, thereby firmly holding the both ends of the hanger 26, thereby firmly holding the vertically standing posture of the vertical frame 18 have.

In the meantime, the present invention may further include an arm 189 as shown in FIG. 8 to further connect the tension fixing member 16 and the lower fixing frame 16 on both sides of the coupling socket 182.

6 and 7, when the expansion and contraction due to the temperature change occurs in the upper structure of the bridge as shown in Figs. 6 and 7, the gap between the adjacent girders 6 and 6 is increased 6, and when the temperature is lowered, it contracts as shown in Fig. 7, and the elastic bearing 7 is displaced.

Therefore, if the displacement position of the elastic support displacement measuring scale 201a, 202a of the elastic support displacement measurement unit 20 is confirmed, the displacement amount of the elastic support 7 can be easily measured.

When the displacement positions of the girder displacement measurement graduations 221a and 222a on the side of the first and second girder displacement measurement units 22A and 22B are checked, the displacement amounts of the adjacent girders 6 and 6 can be measured.

In addition, when the slab displacement measuring unit 24 is additionally provided, the amount of displacement of the slabs 8 and 8 can be measured by confirming the displacement position of the slab displacement measurement graduations 241a and 242a.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

12: Level Plate
14: Level adjusting bolt
16: Lower fixing frame for width adjustment
18: Vertical frame for displacement meter installation
22A: first girder displacement measuring unit
22B: second girder displacement measuring unit
26: Hanger
28: Tension material

Claims (7)

An apparatus for simultaneously measuring displacement amounts of a girder (6) and an elastic bearing (7) provided on a bridge pier (5)
A level plate (12) supported on an upper surface of the bridge pier (5);
A plurality of level adjusting bolts (14) screwed to the level plate (12) in the thickness direction to adjust the horizontal posture of the level plate (12);
A plurality of width-adjustable lower fixing frames 16 supported by the level plate 14 and arranged in the width direction of the bridge piers 5 and fixedly installed at the upper ends of the bridge piers 5;
A vertical frame 18 installed on the level plate 12 in a vertical direction and positioned on a surface extending from the center of the distances of the adjacent two girders 6,6;
An elastic support displacement measurement unit 20 for selecting a different position from the vertical frame 18 for installing the displacement system and measuring the displacement of the elastic support 7 and a first support member 20 for measuring the displacement of the girder 6 at at least two places Second girder displacement measurement units 22A, 22B;
A hanger (26) coupled at a right angle to the upper end of the vertical frame (18) for installing the displacement meter;
A plurality of tension members 28, one end of which is connected to the end of the width-adjusting lower fixed frame 16 and the other end is connected to the end of the hanger 26 to maintain the vertical posture of the vertical frame 18 for tension- And an upper structure displacement measuring device for measuring an upper structure displacement of the bridge. The method according to claim 1,
The lower fixing frame 16 for width-
A connecting square pipe 161 having fixing holes 161a at both ends thereof and slidably seated in the guide grooves 121 of the level plate 12 and one end A pair of length-adjusting rectangular pipes 162 and 162 having a length-adjusting hole 162a at an interval on the upper surface thereof and a frame bend 162b bent downward at the other end and contacting the side of the bridge 5, A fixing bolt 163 fixed to one of the fixing hole 161a and the length adjusting hole 162a corresponding thereto and a tension member connecting bracket 164 provided on the end side of the length adjusting rectangular pipes 162, And a lower fixing frame fixing bolt (165) screwed to the frame bending portion (162b). The method according to claim 1,
The vertical frame (18) for installing the displacement meter
A lower vertical square pipe 181 whose lower end is fitted in a rectangular protrusion 122 formed at the center of the upper surface of the level plate 12 and a coupling socket having one end fitted into the upper end of the lower vertical square pipe 181 And the upper vertical square pipe 181 and the upper vertical square pipe 183 are divided into a coupling socket 182 and an upper vertical square pipe 183, And fixed to the socket fixing bolt (184). The method of claim 3,
The elastic support displacement measurement unit 20,
A first elastic support displacement measurer 201 disposed at a lower side of the lower vertical square pipe 181 in a direction perpendicular to the lower vertical square pipe 181 and having one end movably inserted therein, A second elastic support displacement measurer 202 which is inserted into the second elastic support displacement gauge 202 and a second support base 203 which is fixed to the other end of each of the first elasticity displacement gauge 201 and the second elasticity displacement gauge 202, And an elastic support side fix rod 204 which is fixed to the auxiliary support 203 and whose other end is connected to the upper end plate 7a of the elastic support 7. The first elastic support displacement measurer 201, And an elastic bearing displacement measuring scale (201a, 202a) is displayed on the second elasticity displacement measuring instrument (202). The method of claim 3,
The first and second girder displacement measurement units 22A,
A first girder displacement measurer 221 one end of which is vertically inserted into the lower vertical square pipe 181 and the upper vertical square pipe 183 so as to be movable, A first girder displacement measurer 221 and a second girder displacement measurer 222 are fixed at one end to the other end and the other end is connected to the girders 6 and 6. The second girder displacement measurer 222, And the girder displacement gauges 221a and 222a are displayed on the first and second girder displacement gauges 221 and 222, respectively,
The first girder displacement measuring unit 22A is installed at one place in the lower vertical square pipe 181 with the lower part of the girder 6 as a measurement point while the second girder displacement measuring unit 22B is installed at the lower part of the girder 6, Is installed at the upper vertical square pipe (183) with a middle height of the upper vertical square pipe (183) as a measurement point. The method of claim 3,
At the upper end of the upper vertical square pipe 183, there is further provided a slab displacement measuring unit 24 having a slab 8 as a measurement point,
The slab displacement measurement unit 24 includes a first slab displacement measurer 241 positioned at a right angle to the upper end of the upper vertical square pipe 183 and having one end movably inserted therein, One end is fixed to each end of the first slab displacement measurer 241 and the second slab displacement measurer 242 and the other end is fixed to each end of the slab 8 by the second slab displacement measurer 242, And a displacement block 243 fixed to the first slab displacement measuring instrument 241 and the second slab displacement measuring instrument 242. The first slab displacement measuring instrument 241 and the second slab displacement measuring instrument 242 are each provided with slab displacement measurement graduations 241a and 242a The upper structure displacement measuring device of a bridge. The method of claim 3,
Wherein the coupling socket (182) further comprises an arm (189) for connecting the lower fixing frame (16) for width adjustment to the tension member (28) on both sides.

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