KR20190088362A - Safety diagnostics apparatus for measuring deformation degree of elastic abutment which is inserted between upper structure and lower structure - Google Patents

Abstract

The present invention relates to a device for safety diagnosis, which is to measure the deformation degree of an elastic support (10) installed between upper and lower structures (1, 3). According to the embodiment of the present invention, the device for safety diagnosis includes: a hexagonal housing (110) including a front side unit (111), a rear side unit (112), a left side unit, an upper side unit (113), and a bottom side unit (114), wherein the left side unit faces a side (11) of the elastic support (10); an inclined angle measuring member (120) installed in the housing (110) to rotate around an upper side corner (118) of the left side unit and elastically supported by an elastic member in an outward direction (A1); an inclined angle indicating gradation (123) installed in the front side unit (111) of the housing (10); and an inclined angle directing member (125) installed to direct the inclined angle indicating gradation (123) and rotating with the inclined angle measuring member (120) on a same axis while being at a predetermined angle of the inclined angle measuring member (120).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a safety diagnostic apparatus for measuring a deformation amount of an elastic support interposed between upper and lower structures,

The present invention relates to an apparatus for safety diagnosis for measuring the amount of deformation of an elastic support interposed between upper and lower structures. More specifically, it is possible to measure both inclination angles, horizontal displacements and heights And more particularly, to a strain measuring device for safety diagnosis that is easy to use.

Fig. 1 schematically shows a bridge support device of the type including a bridge superstructure 1 and a bridge substructure 3 for supporting it.

This type of bridge is generally provided with an elastic support 10 of an elastic material (for example, a rubber material) between the bridge superstructure 1 and the bridge substructure 3 for the purpose of increasing structural safety and preventing earthquakes . The lower surface of the bridge upper structure 1 may be provided with an upper plate 2 which is in close contact with the upper surface of the elastic support 10. The upper surface of the bridge lower structure 3 A lower plate 4 may be provided.

Fig. 2 schematically shows a deformed state of the elastic support 10.

As shown, the elastic support 10 described above may be deformed due to factors such as thermal expansion / contraction of the bridge upper and lower structures 1 and 3. If the amount of deformation is excessive, the elastic support 10 can not function, so that the amount of deformation of the elastic support 10 should be checked from time to time for safety diagnosis of the bridge.

It is ideal to measure all three indices of inclination angle (θ), horizontal displacement (L), and elastic bearing height (H) of the elastic support (10) at the time of safety diagnosis. One indicator is generally estimated from other measured indicators. For example, the inclination angle (θ) and the horizontal displacement (L) are measured and the elastic support height (H) is mostly estimated.

However, it is desirable to measure all three indicators (θ, L, H) for accurate safety diagnosis.

The present invention can measure all three inclination angles (?), Horizontal displacements (L), and elastic support heights (H) of an elastic support interposed between upper and lower structures of a bridge, Measuring device.

The present invention relates to an apparatus for safety diagnosis for measuring the amount of deformation of an elastic support 10 interposed between upper and lower bridges 1 and 3 and includes a front portion 111, a rear portion 112, a left side portion, a top portion 113, And a bottom surface portion (114), the left side surface portion of which faces the side surface (11) of the elastic support (10); An inclination angle measuring member 120 mounted on the housing 110 so as to be rotatable about an upper end corner of the left side surface (upper end edge 118) and elastically supported in an outward direction A1 by an elastic member; An inclination angle indicating scale 123 provided on the front portion 111 of the housing 110; And a tilt angle indicating member 125 disposed to point to the tilt angle indicating scale 123 and rotating coaxially with the tilt angle measuring member 120 at a predetermined angle with the tilt angle measuring member 120 .

The inclination angle measuring member 120 may have a plate shape and the inclination angle measuring member 120 may be formed on the upper surface of the elastic receiving member 10 when the upper end edge (upper end corner 118) Can be brought into close contact with the side surface (11) of the elastic support (10).

The apparatus may further include a height measuring member 130 installed on the housing 110 so as to be vertically movable up and down and having a height indication scale 133.

The apparatus includes a first horizontal displacement measuring member (140) installed on the housing (110) so as to horizontally move left and right at a predetermined distance from the bottom surface (114); A first horizontal displacement indicating scale 143 provided on the front portion 111 of the housing 110; A first horizontal displacement indicating member (145) provided on the first horizontal displacement measuring member (140) to indicate the first horizontal displacement indicating scale (143); A second horizontal displacement measuring member (150) installed on the housing (110) so as to horizontally move left and right in a state of being in tight contact with the bottom surface portion (114); And a second horizontal displacement indicating graduation 153 provided in the second horizontal displacement measuring member 150. [

The height measuring member 130 may be installed on the housing 110 to move horizontally together with the first horizontal displacement measuring member 140. An upper left corner 137 of the height measuring member 130 The first horizontal displacement indicating member 145 is positioned at the zero point of the first horizontal displacement indicating scale 143 when the first horizontal displacement indicating member 145 is aligned with the left end edge 111c of the front portion 111. [ Can be set.

A zero point of the second horizontal displacement indicating graduation 153 may be located at a lower left end corner 157 of the second horizontal displacement measuring member 150.

According to the present invention, there is provided an apparatus for safety diagnosis which can measure all of inclination angle (?), Horizontal displacement (L) and elastic support height (H) as three indexes of deformation amount of an elastic support.

The measuring apparatus for safety diagnosis according to the present invention is compact and has a small, flat hexahedral housing with measuring members, so it is easy to carry and is convenient to install in a work space.

Further, the measuring apparatus for safety diagnosis according to the present invention provides a structure capable of measuring the tilt angle (?), The horizontal displacement (L), and the elastic support height (H) by a simple operation.

Fig. 1 is a schematic view showing a bridge as an example in which an elastic support is installed between upper and lower structures of the bridge.
Fig. 2 schematically shows a deformed state of the elastic support in the example of Fig.
3 is a perspective view showing an elastic bearing deformation measuring apparatus according to an embodiment of the present invention.
Figure 4 shows a front view and a right side view of the device of Figure 3;
Figures 5a-5c illustrate the operation of the device of Figure 1, with Figure 5a being for the tilt angle [theta] measurement, Figure 5b being about the measurement of the elastic support height (H) L) measurement.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.

1. Configuration of elastic bearing deformation measuring device (100) for safety diagnosis

Referring to FIGS. 3 and 4, an apparatus 100 for measuring elastic deformation for safety diagnosis according to an embodiment of the present invention includes a housing 110.

The housing 110 is formed in a somewhat flattened hexahedron shape. The housing 110 includes a front portion 111, a rear portion 112, a left side portion, a right side portion, a top side portion 113, and a bottom side portion 114. The left side surface portion of the housing 110 is disposed so as to face the side surface of the elastic support.

The measuring apparatus 100 of the present embodiment further includes the inclination angle measuring member 120, the inclination angle display scale 123 and the inclination angle indicating member 125. [

The inclination angle measuring member 120 is provided on the housing 110 so as to be rotatable about the upper end edge 118 of the left side surface portion of the housing. In other words, the inclination angle measuring member 120 is rotatably provided in the housing 110, and the rotation axis thereof has a position along the upper end edge 118 of the housing left side surface portion.

The inclination angle measuring member 120 is rotatable in the outward direction A1 and the inward direction A2 with respect to the housing 110 and is elastically supported in the A1 direction by an elastic member (not shown).

Although the inclination angle measuring member 120 is illustrated as a plate in the drawing, the present invention is not limited thereto and may be provided in a rod shape or the like.

The inclination angle display scale 123 is provided at the upper left portion of the housing front portion 111 and the scale of the inclination angle display scale 123 is indicated by the inclination angle display scale 123.

The inclination angle indicating member 125 rotates coaxially with the inclination angle measuring member 120 at a predetermined angle with the inclination angle measuring member 120. For example, the inclination angle indicating member 125 and the inclination angle measuring member 120 are formed as one body, and the angle therebetween may be 90 °. The inclination angle support member 125 may be provided in a needle shape.

The front face portion 111 of the housing 110 is provided with a needle exposing hole 127 so that the inclination angle indicating member 125 can be seen from the outside.

The tilting angle indicating member 125 is positioned at the inclination angle indicating member 125 by checking the scale of the tilting angle indicating graduation 123 indicated by the tilting angle indicating member 125 when the tilting angle measuring member 120 is brought into close contact with the side surface 11 of the elastic receiving member 10. [ can be measured.

The measuring apparatus 100 of the present embodiment further comprises a height measuring member 130. [

The height measuring member 130 may be provided in a substantially thin and long plate shape.

The height measuring member 130 is installed in the housing 110 so as to be vertically movable up and down. The height measuring member 130 is provided with a saw tooth structure 135 arranged in an up and down direction, thereby facilitating the height operation of the height measuring member 130.

A slit 13a for exposing the height measuring member 130 is formed on the upper surface 113 of the housing 110. [

The height measuring member 130 is also provided with a height indication scale 133 and a height operation knob 131. [

The height measurement member 130 is lifted up until it is brought into close contact with the upper structure 1 in a state where the bottom surface portion 114 of the housing is landed on the side of the lower structure 3, The height H of the elastic support 10 can be measured by checking the indication scale 133. [

The measuring apparatus 100 of the present embodiment includes a first horizontal displacement measuring member 140, a first horizontal displacement indicating scale 143, a first horizontal displacement indicating member 145, a second horizontal displacement measuring member 150, 2 horizontally displaced display scale 153 as shown in Fig.

The first horizontal displacement measuring member 140 is installed on the housing 110 so as to horizontally move horizontally at a predetermined distance and is supported by a guide rail 160 provided on the housing rear portion 112.

The first horizontal displacement measuring member 140 is provided with an operation knob 141 and the housing front portion 111 is formed with a slit 111a for exposing the distal end of the operation knob 141 to the outside.

The height measuring member 130 is installed on the first horizontal displacement measuring member 140 so as to be movable up and down. Therefore, when the first horizontal displacement measuring member 140 moves left and right, the height measuring member 130 is also moved to the left and right. As shown in FIG. 4, the first horizontal displacement measuring member 140 is provided with at least one protrusion 149 partially engaged with the teeth 135 of the height measuring member 130. The height of the height measuring member 130 can be conveniently adjusted by the interaction of the teeth 135 and the protrusion 149. [

The first horizontal displacement display graduations 143 are provided on the housing front portion 111. For example, the first horizontal displacement display scale 143 may be formed directly below the slit 111a.

The first horizontal displacement indicating member 145 is provided on the first horizontal displacement measuring member 140 so as to indicate the first horizontal displacement indicating scale 143. For example, needle-like or arrowhead-shaped.

The second horizontal displacement measuring member 150 is installed on the housing 110 so as to be horizontally movable left and right in a state of being closely attached to the housing bottom surface portion 114. The second horizontal displacement measuring member 150 is provided with an operation knob 151 for operating its horizontal movement and a slit 111b for external exposure of the operation knob 151 is formed on the housing front portion 111 have.

2. Operation of the elastic bearing deformation measuring apparatus 100 for safety diagnosis

2-1. Measurement of tilt angle (θ)

5A, the process of measuring the tilt angle? By the apparatus for measuring strain amount for safety diagnosis 100 will be described.

The upper end edge 118 of the left side surface of the housing is pressed against the side surface 11 of the elastic support 10 by pushing the measuring device 100 to the left in a state where the measuring device 100 is seated on the side of the lower plate 4 .

At this time, the inclination angle measuring member 120 is pushed toward the housing 110 and is in close contact with the side surface 11 of the elastic support 10.

In this state, the inclination angle [theta] of the elastic support 10 can be known by reading the value of the inclination angle display scale 123 to which the inclination angle indicating member 125 is pointing.

2-2. Measure height (H)

The process of measuring the height H by the deformation amount measuring apparatus 100 will be described with reference to FIG.

The height measuring member 130 is lifted up until the measuring apparatus 100 is seated on the side of the lower plate 4 until it reaches the upper plate 2. [

The height H2 between the housing 110 and the upper plate 2 is determined by confirming the value of the height indication scale 133 which is confirmed by the upper edge 111d of the housing front face 111 as a boundary. .

Since the housing height H1 is a known value, the height of the elastic support 10 can be known by adding the housing height H1 and the measurement height H2.

2-3. Horizontal displacement (L) measurement

The horizontal displacement (L) measurement process by the deformation amount measuring apparatus 100 will be described with reference to FIG.

The first horizontal displacement measuring member 140 is horizontally moved to the left so that the upper left corner 137 of the height measuring member 130 is in contact with the upper end of the elastic receiving side 11.

In this state, the value of the first horizontal displacement indicating scale 143 indicated by the first horizontal displacement indicating member 145 corresponds to the first horizontal displacement L1. Here, L1 means the distance between the upper end edge 118 of the housing front part and the upper end point of the elastic bearing side 11, and in the example of FIG. 5C, the value of L1 is 8 cm.

Next, the second horizontal displacement measuring member 150 is horizontally moved to the left so that the lower left end edge 157 of the second horizontal displacement measuring member 150 is in contact with the lower end of the elastic receiving side 11.

In this state, the value of the second horizontal displacement display graduation 153 read as the boundary of the left end edge 111c of the housing front face portion 111 is the second horizontal displacement L2. Here, L2 is the distance between the upper end edge 118 of the housing front portion and the lower end point of the elastic bearing side 11, and the example of FIG. 5C is a case where the value of L2 is 13 cm.

The horizontal displacement L of the elastic support 10 can be obtained by adding L1 and L2 obtained from the above. In the example of FIG. 5C, L = L1 + L2 = 8 cm + 13 cm = 21 cm.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

1: Bridge superstructure
2: upper plate
3: Bridge infrastructure
4: Lower plate
10: Elastic bearing
100: Elastic bearing strain gauge for safety diagnosis
110: Housing
120: inclination angle measuring member
123: inclination angle display scale
125: inclination angle indicating member
130: height measurement member
133: Height indication scale
140: first horizontal displacement measuring member
143: first horizontal displacement display scale
145: first horizontal displacement indicating member
150: second horizontal displacement measuring member
153: second horizontal displacement display scale
160: Guide rail

Claims (6)

An apparatus for safety diagnosis for measuring a deformation amount of an elastic support (10) interposed between upper and lower structures (1, 3)
And a side surface 11 of the elastic support 10 facing the side surface 11 of the elastic support 10, wherein the left side surface portion includes a front surface portion 111, a rear surface portion 112, a left side surface portion, an upper surface portion 113 and a bottom surface portion 114 A housing 110;
An inclination angle measurement member 120 mounted on the housing 110 so as to be rotatable about an upper end edge 118 of the left side surface portion and elastically supported in an outward direction A1 by an elastic member;
An inclination angle display scale 123 provided on the front portion 111 of the housing 10; And
And an inclination angle indicating member 125 disposed to point to the inclination angle indicating scale 123 and rotating coaxially with the inclination angle measuring member 120 at a predetermined angle with the inclination angle measuring member 120
Apparatus for safety diagnosis.
The method according to claim 1,
The inclination angle measuring member 120 has a plate shape,
Wherein the inclination angle measuring member 120 is in close contact with the side surface 11 of the elastic support 10 when the upper end edge 118 of the left side surface portion is in contact with the elastic support 10. [
Apparatus for safety diagnosis.
The method according to claim 1,
And a height measuring member (130) mounted on the housing (110) so as to be vertically movable up and down, and having a height indication scale (133)
Apparatus for safety diagnosis.
The method of claim 3,
A first horizontal displacement measuring member 140 installed on the housing 110 so as to horizontally move left and right at a predetermined distance from the bottom surface 114;
A first horizontal displacement indicating scale 143 provided on the front portion 111 of the housing 110;
A first horizontal displacement indicating member (145) provided on the first horizontal displacement measuring member (140) to indicate the first horizontal displacement indicating scale (143);
A second horizontal displacement measuring member (150) installed on the housing (110) so as to horizontally move left and right in a state of being in tight contact with the bottom surface portion (114); And
And a second horizontal displacement indicating graduation (153) provided on the second horizontal displacement measuring member (150)
Apparatus for safety diagnosis.
5. The method of claim 4,
The height measurement member 130 is installed in the housing 110 to move horizontally together with the first horizontal displacement measurement member 140,
When the upper left corner 137 of the height measuring member 130 is aligned with the left corner 111c of the front wall 111, the first horizontal displacement indicator 145 is positioned at the first horizontal displacement display Is set to point to the zero point of the scale 143
Apparatus for safety diagnosis.
6. The method of claim 5,
The zero point of the second horizontal displacement indicating graduation 153 is located at the lower left corner 147 of the second horizontal displacement measuring member 150,
Apparatus for safety diagnosis.

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