KR101086868B1 - Apparatus for measuring amount of deformation of elasticity support for bridge - Google Patents

Abstract

PURPOSE: An apparatus for measuring and inspecting the deformed amount of an elastic support for a bridge is provided to accurately measure the deformed amount of an elastic support when the elastic support is deformed due to the expansion and contraction of a bridge. CONSTITUTION: An apparatus for measuring and inspecting the deformed amount of an elastic support for a bridge comprises a first horizontal member(10), a second horizontal member(20), and link members(30). One end of the first horizontal member is touched with the top end of one surface of an elastic bearing(3). One end of the second horizontal member is touched with the bottom end of one surface of the elastic bearing. The top and bottom ends of the link members are rotatably coupled to the first and second horizontal members. The link members support the first and second horizontal members.

Description

Apparatus for measuring amount of deformation of elasticity support for bridge}

The present invention relates to an apparatus for measuring and checking a deformation amount of an elastic bearing for a bridge, and more particularly, to an apparatus for easily and accurately measuring a deformation amount when an elastic bearing provided in a lower portion of a bridge is deformed according to the expansion and contraction of a bridge.

In general, a bridge is composed of an upper structure that directly supports a load by a vehicle or the like that moves the upper portion thereof, and a lower structure such as an alternating or pier to support the upper structure.

And the bridge support is installed between the shift or the bridge and the superstructure, the bridge support receives the load acting on the superstructure, the relative displacement caused by the temperature change, wind, earthquake, etc., and the shear displacement acting horizontally It is installed to accommodate and extend the durability life of the bridge.

Figure 1 shows a state in which the bridge support is installed on the bridge. As shown, the bridge support (3) is inserted between the plurality of plate materials 2 provided above and below, forming an approximately rectangular parallelepiped, and the elastic support mainly made of an elastic material is applied.

The elastic support for the bridge is deformed according to the expansion and contraction of the bridge (1) according to the temperature. For example, as shown in FIG. 2, when the bridge 1 contracts, the plate 2 laminated on the upper portion of the elastic support 3 moves in the direction in which the bridge 1 contracts, and as a result, the elastic support ( 3) the upper end is deformed in the direction that the bridge contracts.

In this case, when the elastic support deforms within the range of the elastic limit, there is no particular problem, but when the elastic support deforms to the extent exceeding the elastic limit, problems arise. That is, when the elastic bearing is deformed to the extent exceeding the elastic limit, the restoring force is lost, and in the severe case, the elastic bearing is torn, so that the bridge cannot be properly supported, resulting in structural problems in the bridge.

Therefore, the elastic bearings for bridges should be measured periodically, and if it is determined that the elastic bearings have reached the elastic limit, the elastic bearings should be replaced or repaired. The deformation amount to be measured for this purpose is the distance (L) the upper end of the elastic bearing is deformed, the inclination (α) of the elastic bearing and the like.

In order to measure the amount of deformation of the elastic bearing conventionally, the operator uses a measuring tape measure under the bridge, and the measuring tape measure is not only difficult to measure accurately but also difficult to work. There was a problem that it takes a lot, moreover, there was a problem that it is very difficult to measure the degree of inclination of the elastic support.

Although a system for measuring deformation by installing a sensor in the base of a bridge is applied, this requires excessive installation cost and management cost, and it is difficult to manage in consideration of the fact that it must be installed in each pier. There is this.

The present invention has been made in view of the above-described problems, and an object thereof is to provide an apparatus for measuring and checking a deformation amount of a bridge elastic support for enabling easy and accurate measurement of a deformation amount of a bridge elastic support.

An object of the present invention described above, in the device for measuring the amount of deformation of the elastic support is installed in the bridge is deformed according to the expansion and contraction of the bridge, it is formed long in the longitudinal direction and one end is in contact with the upper end of the circumferential surface of the elastic support A first horizontal member, a second horizontal member formed in a lengthwise direction and having one end contacting a lower end of a circumferential surface of the elastic support, and the first and second horizontal members connected to each other so as to maintain a predetermined distance, respectively; Deformation amount measuring and inspection device of the elastic support for the bridge comprising at least one link member rotatably coupled to the first and second horizontal members, respectively, to allow relative horizontal movement of the first and second horizontal members. By providing a.

According to a preferred feature of the invention, the upper end is hinged to one side of the first horizontal member and the lower end further comprises a measuring member extending to be located on one side of the second horizontal member, the second horizontal member of the On one side may be formed a measurement scale in the longitudinal direction.

According to another preferred feature of the invention, the link member may include first and second link members spaced apart at predetermined intervals to enable parallel support of the first and second horizontal members.

According to another preferred feature of the invention, the first and the second horizontal member may be formed in the longitudinal direction in the longitudinal direction so that the upper end or the lower end of the first and second link member can be coupled to each other. .

According to another preferred feature of the invention, the first link member is hinged to the groove is formed in the upper end is hinged to the side of the first horizontal member and the lower end is formed on the side of the second horizontal member, The second link member may have an upper end hinged to a groove formed on a side of the first horizontal member, and a lower end thereof may be hinged to a side of the second horizontal member.

According to another preferred feature of the invention, the upper end or lower end of the groove formed in the first horizontal member and the upper end or lower end of the groove formed in the second horizontal member may form a plurality of irregularities.

According to another preferred feature of the present invention, the scale is fixed to the hinge axis of the first link member, the scale is formed so that the angle can be measured by the first link member that is rotated during the relative horizontal movement of the first and second horizontal members It may further include a protractor.

According to the strain measuring and checking device of the elastic support for the bridge according to the present invention, it is possible to easily and simply measure the deformation amount of the elastic support for the bridge, to obtain an accurate measurement value, not only shorten the working time but also reduce manpower Can be.

1 is a side view showing a state in which the elastic support for the bridge is installed on the bridge.
Figure 2 is a side view showing a state in which the elastic support for the bridge is deformed.
Figure 3 is a side view showing a strain measuring and checking device of the elastic support for the bridge according to an embodiment of the present invention.
Figure 4 is a side view showing a state of use of the strain measuring and checking device of the elastic support for the bridge shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments described below are merely to describe in detail enough to be able to easily carry out the invention by those skilled in the art to which the present invention pertains, thereby limiting the protection scope of the present invention It does not mean.

With reference to Figures 3 and 4 will be described with respect to the deformation amount measurement and inspection device of the elastic support for the bridge according to an embodiment of the present invention. As shown, the deformation measuring and checking device of the elastic support for the bridge is to measure the deformation amount when the elastic support 3 installed in the lower portion of the bridge is deformed according to the expansion and contraction of the bridge, the first horizontal member 10 , The second horizontal member 20 and the link member 30 may further include a measuring member 40 and a protractor 50.

For reference, the elastic bearing to be measured in the measuring and checking device according to an embodiment of the present invention may be made of a pillar having a variety of shapes, in the context of the present invention will be described with respect to the elastic bearing consisting of a substantially rectangular parallelepiped shape. Do it.

The first horizontal member 10 is made of a plate formed long in the longitudinal direction. And one end of the first horizontal member 10 is in contact with the upper end of the circumferential surface of the elastic support (3). Hereinafter, for convenience, one surface of the elastic base 3 is defined as a front surface of the elastic base 3. Therefore, the surface of the elastic support shown in the drawing is a side, the one located on the right side of the side on the front side, the one located on the left side is the back.

Although not shown, the width of the first horizontal member 10 is not particularly limited. For example, the first horizontal member 10 may have a width of a size corresponding to the width of the front surface of the elastic support 3, but may have a width smaller than that because the weight may be difficult to measure.

The first horizontal member 10 is preferably inclined downward in contact with the upper surface of the front surface of the elastic support (3) is formed in a sharp point of contact with the elastic support (3). This is to ensure accurate measurement when the elastic support 3 is deformed.

At least one link member 30 is rotatably coupled to the first horizontal member 10, and the first horizontal member 10 is connected to the second horizontal member 20 by the link member 30.

In addition, the first horizontal member 10 may have a groove 12 that is formed to be elongated in the longitudinal direction, and the upper end of the link member 30 is coupled to be positioned on the groove 12, and thus, the link member 30. ) Is movable along the groove 12 of the first horizontal member (10). The reason why the upper end of the link member 30 is movable is to adjust the gap between the first horizontal member 10 and the second horizontal member 20, which will be described later.

In this case, the upper end portion or the lower end portion of the groove 12 formed in the first horizontal member 10 preferably forms a plurality of unevennesses for the support of the link member 30, and the unevenness is formed at intervals of about 2 to 3 mm. It is also desirable to.

In addition, the first horizontal member 10 is rotatably coupled to the measuring member 40 for measuring the deformed distance (L) of the elastic support (3), moreover, the degree to which the elastic support (3) is deformed and tilted Protractor 50 for measuring the can be mounted.

The second horizontal member 20 is formed of a plate formed long in the longitudinal direction, one end is in contact with the circumferential surface of the elastic support 3, that is, the lower end of the front surface.

In addition, the width of the second horizontal member 20, like the first horizontal member 10, is not particularly limited, and may be substantially the same as that of the first horizontal member 10. In addition, it is preferable that the second horizontal member 20 has a surface in contact with the lower end of the front surface of the elastic support 3 to be inclined upward, and a portion of the second horizontal member 20 in contact with the elastic support 3 is sharply formed.

In addition, at least one link member 30 is rotatably coupled to the second horizontal member 20, and the second horizontal member 20 is connected to the first horizontal member 10 by the link member 30. .

In addition, the second horizontal member 20 has a groove 22 formed to be elongated in the longitudinal direction, and the lower end of the link member 30 is coupled to be positioned on the groove 22, and thus, the link member 30. The lower end of the second movable member 20 is movable along the groove 22 of the second horizontal member 20. Here, it is preferable that the upper end or the lower end of the groove 22 formed in the second horizontal member 20 forms a plurality of irregularities for supporting the link member 30.

In addition, the second horizontal member 20 is formed with a measurement scale (not shown, same as below), and through the measurement scale and the measurement member 40 to determine the deformation distance (L) of the elastic support (3) Can be measured g. In this case, the measurement scale of the second horizontal member 20 is preferably formed in units of 1 mm within a range of approximately −10 mm to +10 mm. To get accurate readings up to millimeters.

The link member 30 serves to connect and support the first horizontal member 10 and the second horizontal member 20 to maintain a predetermined interval. At least one of the link members 30 may be provided. Preferably, the link member 30 includes a first link member 30a and a second link member 30b spaced apart from each other at predetermined intervals. Accordingly, parallel support of the first horizontal member 10 and the second horizontal member 20 is possible.

In addition, the link member 30 has upper and lower ends on the first horizontal member 10 and the second horizontal member 20 so as to allow relative horizontal movement of the first horizontal member 10 and the second horizontal member 20. Rotatably coupled. Accordingly, the first horizontal member 10 and the second horizontal member 20 can be relatively horizontal moved, the amount of movement becomes the deformation distance of the elastic support (3).

In this case, the link member 30 may have an upper end and a lower end coupled to the lower surface of the first horizontal member 10 and the upper surface of the second horizontal member 20, respectively, as shown in FIGS. 3 and 4. It is preferable that the upper end of the member 30 is hinged to the side of the first horizontal member 10 and the lower end of the link member 30 is hinged to the side of the second horizontal member 20. Although not shown, the link member 30 is more preferably provided on both sides of the first horizontal member 10 and the second horizontal member 20. This is to ensure that the first horizontal member 10 and the second horizontal member 20 are stably connected.

On the other hand, when the first horizontal member 10 and the second horizontal member 20 has a relatively horizontal movement, the interval between them becomes narrower than the initial state. This is because the link member 30 is hinged to the first horizontal member 10 and the second horizontal member 20.

Although the gap between the first horizontal member 10 and the second horizontal member 20 is narrowed, there is no particular difficulty in the measurement, but the first horizontal member 10 and the second horizontal member for easier and accurate measurement. It is preferable that the gap between the horizontal members 20 is adjustable.

3, the upper surface of the first horizontal member 10 is in contact with the lower surface of the plate provided on the upper portion of the elastic support 3, and the lower surface of the second horizontal member 20 is elastic support (3). If the contact with the upper surface of the plate provided in the lower portion is easy and accurate measurement, when the elastic support (3) is deformed so that the first horizontal member 10 and the second horizontal member 20 relative horizontal movement This is because the gap between both becomes narrow.

Therefore, as described above, the first horizontal member 10 and the second horizontal member 20 are formed with grooves 12 and 22 extending in the longitudinal direction, and the top or the bottom of the link members 30a and 30b are grooves 12. It is desirable to be hinged to 22, to be rotatable and to move along the grooves 12, 22.

For example, the first link member 30a has an upper end hinged to the first horizontal member 10 and the lower end hinged to a groove 22 of the second horizontal member 20, and the second link member 30b. ) May have an upper end hinged to the groove 12 of the first horizontal member 10 and a lower end thereof hinged to the second horizontal member 20.

Therefore, even when the first horizontal member 10 and the second horizontal member 20 are moved relative to each other, the lower end of the first link member 30a and the upper end of the second link member 30b are provided with grooves 12 and 22. Since it is movable along, the distance between the first horizontal member 10 and the second horizontal member 20 can be maintained in the same state as the initial state.

The measuring member 40 is for measuring the deformed distance (L) of the elastic support (3). The measuring member 40 is the upper end is hinged to one side of the first horizontal member 10 is rotatable around the hinge axis (not shown, the same as below).

The lower end of the measuring member 40 extends to be located at one side of the second horizontal member 20 as a free end, and the lower end of the measuring member 40 is at one side of the second horizontal member 20. The measurement scale is formed at the location. Therefore, when the first horizontal member 10 and the second horizontal member 20 is moved relative to each other, the measuring member 40 is rotated about the hinge axis, and the measuring member 40 measures the amount of movement through the scale indicated by the measuring member 40. It becomes possible.

The measuring member 40 is made of a transparent material so that the measurement scale can be easily read, and the center portion of the measuring member 40 is preferably formed with a vertical line (not shown). However, the present invention is not limited thereto, but the tip may be protruded to be positioned at the measurement scale of the second horizontal member 20 at the lower end of the measurement member.

The protractor 50 is for measuring the degree of inclination of the elastic support 3 is deformed. That is, for measuring the inclination α of the front surface of the elastic support (3). This protractor 50 is mounted to protrude downward to the first horizontal member (10).

Preferably, the protractor 50 is fixed to the hinge axis (not shown, same as below) of the first link member 30a, and one of the first link member 30a and the first horizontal member 10. It is located between the sides. Therefore, since the first link member 30a and the protractor 50 are in close contact with each other, the scale of the protractor 50 may be accurately read through the first link member 30a. For reference, it is preferable that a vertical line (not shown) is formed on the first link member 30a similarly to the measuring member 40, and a scale is formed on the protractor 50 in units of 1 °.

Referring to the process of measuring the amount of deformation of the elastic support through the deformation measurement and inspection device of the elastic support for the bridge according to the present invention as follows.

First, as shown in FIG. 3, when there is no deformation of the elastic support, the plate 2 so that the first horizontal member 10 and the second horizontal member 20 are in contact with the front top and bottom of the elastic support 3, respectively. Insert it in between to score zero. At this time, the vertical line of the measuring member 40 indicates a scale 0 formed in the second horizontal member 20.

Subsequently, when the elastic support is deformed as shown in FIG. 4, the first horizontal member 10 and the second horizontal member 20 are inserted between the plate 2 to measure the elastic support. Since the first horizontal member 10 and the second horizontal member are relatively horizontally movable, the first horizontal member 10 and the second horizontal member are in contact with the top and bottom of the front surface of the elastic support 3, respectively.

In this case, the lower end of the first link member 30a is movable along the groove 22 of the second horizontal member 20, and the upper end of the second link member 30b is the groove of the first horizontal member 10. Since it is movable along 12), the distance between the first horizontal member 10 and the second horizontal member 20 can be kept the same in the initial state, and thus can be supported by the plate 2 Easy and accurate measurement is possible.

As the first horizontal member 10 and the second horizontal member 20 are moved relative to each other, the measuring member 40 is rotated around the hinge axis because the lower end is a free end, thereby maintaining the vertical state. The deformed distance (L) of the elastic support 3 can be obtained through the distance that the vertical line of) moves from the initial zero point.

And the inclination α of the front to know the degree of inclination of the elastic bearing 3 can be obtained by reading the scale of the protractor 50 indicated by the vertical line of the first link member 30a.

10: first horizontal member
12, 22: home
20: second horizontal member
30, 30a, 30b: link member
40: measuring member
50: protractor

Claims (7)

In the device for measuring the amount of deformation of the elastic support is installed in the bridge and deformed according to the expansion and contraction of the bridge,
A first horizontal member formed to extend in the longitudinal direction and having one end contacting the upper end of the circumferential surface of the elastic support;
A second horizontal member which is formed long in the longitudinal direction, one end of which is in contact with the lower end of the circumferential surface of the elastic support, and a measurement scale is formed in the longitudinal direction on one side thereof;
The first and second horizontal members are connected to maintain a predetermined interval, and the top and bottom are rotatably coupled to the first and second horizontal members, respectively, to allow relative horizontal movement of the first and second horizontal members. At least one or more link members; And
Measurement that the upper end is hinged rotatably to one side of the first horizontal member and the lower end is formed on one side of the second horizontal member so as to measure the relative horizontal moving distance of the first and second horizontal member Deformation measurement and inspection device of the elastic support for bridges including; measuring member extending to be positioned on the scale. The method according to claim 1,
The link member includes first and second link members spaced apart at predetermined intervals to enable parallel support of the first and second horizontal members.
Measuring the deformation amount of the elastic support for the bridge, characterized in that the groove is formed long in the longitudinal direction so that the upper end or the lower end of the first and the second link member is movable so as to be coupled to the first and second horizontal members, respectively. Inspection device. The method according to claim 2,
The first link member has an upper end hinged to a side of the first horizontal member and a lower end thereof hinged to a groove formed on a side of the second horizontal member, and the second link member has an upper end of the first link member. 1, the deformation amount measurement and inspection device of the elastic support for the bridge, characterized in that the hinge is coupled to the groove formed on the side of the horizontal member and the lower end is hinged to the side of the second horizontal member. The method according to claim 3,
Deformation measuring and checking device of the elastic support for the bridge, characterized in that the upper end or the lower end of the groove formed in the first horizontal member and the upper end or the lower end of the groove formed in the second horizontal member. In the device for measuring the amount of deformation of the elastic support is installed in the bridge and deformed according to the expansion and contraction of the bridge,
A first horizontal member formed to extend in the longitudinal direction and having one end contacting the upper end of the circumferential surface of the elastic support;
A second horizontal member which is formed long in the longitudinal direction and whose one end is in contact with the lower end of the circumferential surface of the elastic support;
The first and second horizontal members are connected to maintain a predetermined interval, and the top and bottom are rotatably coupled to the first and second horizontal members, respectively, to allow relative horizontal movement of the first and second horizontal members. Link member to make; And
A protractor fixed to the hinge axis of the link member and having a scale formed to measure an angle with the link member that is rotated during the relative horizontal movement of the first and second horizontal members.
The link member includes first and second link members spaced apart at predetermined intervals to enable parallel support of the first and second horizontal members.
Grooves are formed in the first and second horizontal members in the longitudinal direction so that the upper end or the lower end of the first and second link members can be movable.
The first link member has an upper end hinged to a side of the first horizontal member and a lower end thereof hinged to a groove formed on a side of the second horizontal member, and the second link member has an upper end of the first link member. 1, the deformation amount measurement and inspection device of the elastic support for the bridge, characterized in that the hinge is coupled to the groove formed on the side of the horizontal member and the lower end is hinged to the side of the second horizontal member. The method according to claim 5,
Deformation measuring and checking device of the elastic support for the bridge, characterized in that the upper end or the lower end of the groove formed in the first horizontal member and the upper end or the lower end of the groove formed in the second horizontal member. delete

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