KR200444090Y1 - Safety diagnosis apparatus perceived transformation of bridge cantilever section - Google Patents

Abstract

The present invention is a box body having a fixed plate fixed to the side of the bridge girder through the fixing bracket on the left and right sides, the front end has a front and rear side support bar projecting from the front to the top, respectively, the front and rear side of the support bar has a shaft hole, respectively A reference scale is formed on the periphery, and the bending measurement limit switches are fixedly installed on the left and right sides thereof, and a cylindrical working space is formed on the lower side, a spring is seated on the inside, and a long hole is formed on the right side, A reference scale is formed, and a side deformation limit switch is fixedly installed at a side thereof, and a lower end of the working space is vertically diagnosed to be slidably closed by a stopper; The top of the vertical rod is formed in the operating space through the stopper of the vertical diagnostic frame is formed in the elastic indicator plate to be elastically lowered by the spring, one end of the elastic indicator plate protruding outward through the long hole A vertical support bar which protrudes to the outside through the reference scale side, and a lower end of which is formed with a rubber scaffold which is a rectangular plate body seated on the bridge goping; The left end is positioned between the front and rear support bars of the vertical diaphragm, and the shaft pin having a variable hand for pointing the reference scale at one end and operating the bending measurement limit switch is pivotally fixed, and the right end is cylindrically operated inwardly. A horizontal diaphragm having a space formed therein and having a spring seated therein so as to be slidably closed by a stopper, and having a long hole formed at a lower side thereof, and having a width change limit switch fixedly installed at an outer side thereof; The horizontal bar is positioned at the operating space of the horizontal diagnostic frame at the left end and the elastic indicator plate is fixed to the right by the spring is fixed to the bolt coupling, one end of the elastic indicator plate protrudes out through the long hole A horizontal support rod having a fastening hole in which an additional portion is formed, and the right end portion is vertically bent upwardly and the front end portion is fastened and fixed to the side surface of the cantilever; And a manager computer programmed with a data acquisition system that is connected to the bending measurement limit switch, the vertical deformation limit switch of the vertical diagnosis frame, and the width change limit switch of the horizontal diagnosis frame to inform the administrator during operation and recognize the fact of deformation. The present invention relates to a safety diagnosis device capable of detecting deformation of a bridge cantilever section.

The present invention is fixed to the fixed bracket installed on the lower side of the cantilever section and the bridge girder so as to reinforce the cantilever section can measure the deformation of the cantilever section and send it to the administrator terminal in real time, and the deformation of the cantilever section with the naked eye It can be detected by this, thereby preventing the safety accident of the bridge due to deformation of the cantilever section in advance.

Vertical diagnosis frame, vertical support rod, horizontal diagnosis frame, horizontal support rod, administrator computer

Description

Safety diagnosis apparatus perceived transformation of bridge cantilever section

The present invention relates to a safety diagnosis device that can achieve the deformation detection of the bridge cantilever section, and more specifically, it is fixed to the fixed bracket installed on the lower side of the cantilever section and the side of the bridge girder so as to reinforce the cantilever section. The deformation can be measured and transmitted to the administrator terminal in real time, and the deformation of the cantilever section can be detected with the naked eye. As a result, the deformation of the bridge cantilever section can prevent the safety accident of the bridge due to the deformation of the cantilever section. The present invention relates to a safety diagnosis device capable of sensing.

In general, bridges are expensive structures made to cross rivers, lakes, straits, bays, canals, lowlands, or other traffic routes or structures, and bridge overhead facilities with bridge devices installed on the top of the bridge foundations. A bridge deck and the like are installed on the upper portion of the bridge upper facility.

At this time, the bridge top plate is formed with a cantilever (Cantilever) of one end is fixed and the other end is free.

Looking at the bridge of this structure, the bridge slab and cantilever is installed on top of the pier. At this time, one end of the cantilever is fixed to the bridge slab, the other end forms a free beam shape. At this time, even if one end of the cantilever forms a free end that is not fixed, it should be possible to maintain the shape in the state originally designed and constructed.

To this end, the conventional fixed bracket such as steel beam to support the lower side of the cantilever section to prevent deformation due to sag or cracking of the cantilever and the fixing bracket by its own weight.

However, the fixed bracket installed as described above is deformed due to the load of the bridge deck when a long time passes after construction, there is a problem that such a safety failure such as bridge collapse can not be detected in advance.

The present invention is to solve the above problems, it is fixed to the fixed bracket installed on the lower side of the cantilever section and the bridge girder so as to reinforce the cantilever section to measure the deformation of the cantilever section to send to the administrator terminal in real time It is possible to detect the deformation of the cantilever section with the naked eye, thereby providing a safety diagnosis device that can achieve the deformation detection of the bridge cantilever section that can prevent the safety accident of the bridge due to the deformation of the cantilever section. The purpose is.

In order to achieve the above object, the present invention is a box body having a fixed plate respectively fixed to the side of the bridge girder through the fixing bracket on the left and right sides, the upper end has a front and rear side support bar protruding from the front and rear, respectively, in the center of the front and rear side support bar Each has a shaft hole, a reference scale is formed around the front side of the shaft hole, and each of the bending measurement limit switches is fixedly installed at the left and right sides thereof, and a cylindrical working space is formed at the upper side of the shaft, and a spring is seated on the inner side of the shaft. It is formed, the reference hole is formed on the outer surface of the long hole, the side of the deformation limit switch is installed fixed to the side of the vertical diaphragm and the operating space is slidably closed by a stopper;

The top of the vertical rod is formed in the operating space through the stopper of the vertical diagnostic frame is formed in the elastic indicator plate to be elastically lowered by the spring, one end of the elastic indicator plate protruding outward through the long hole A vertical support bar which protrudes to the outside through the reference scale side, and a lower end of which is formed with a rubber scaffold which is a rectangular plate body seated on the bridge goping;

The left end is positioned between the front and rear support bars of the vertical diaphragm, and the shaft pin having a variable hand for pointing the reference scale at one end and operating the bending measurement limit switch is pivotally fixed, and the right end is cylindrically operated inwardly. A horizontal diaphragm having a space formed therein and having a spring seated therein so as to be slidably closed by a stopper, and having a long hole formed at a lower side thereof, and having a width change limit switch fixedly installed at an outer side thereof;

The horizontal bar is positioned at the operating space of the horizontal diagnostic frame at the left end and the elastic indicator plate is fixed to the right by the spring is fixed to the bolt coupling, one end of the elastic indicator plate protrudes out through the long hole A horizontal support rod having a fastening hole in which an additional portion is formed, and the right end portion is vertically bent upwardly and the front end portion is fastened and fixed to the side surface of the cantilever;

And a manager computer programmed with a data acquisition system that is connected to the bending measurement limit switch, the vertical deformation limit switch of the vertical diagnosis frame, and the width change limit switch of the horizontal diagnosis frame to inform the administrator during operation and recognize the fact of deformation. There is a characteristic.

In this way, the present invention can be fixed to the fixed brackets installed on the lower side of the cantilever section and the side of the bridge girder so as to reinforce the cantilever section can measure the deformation of the cantilever section and send it to the administrator terminal in real time, the deformation of the cantilever section It can be detected by the naked eye, which can prevent the safety accident of the bridge due to the deformation of the cantilever section in advance.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Hereinafter, the present invention in more detail by the accompanying drawings as follows.

1 is a perspective view showing the construction of the safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention, Figure 2 is a safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention Figure 3 is an exploded perspective view showing a fastening of the figure, Figure 3 is a perspective view showing the construction of the safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention, Figure 4 is a bridge cantilever section of an embodiment of the present invention This is a side sectional view showing the operation of the safety diagnosis device capable of detecting the deformation.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

Safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of the present invention, the vertical diagnosis frame 10 for the deformation of the bridge bridge 63 and the bridge girder 62 and the bending measurement of the cantilever 61, The vertical support rod 20 for supporting the vertical diagnostic frame 20 to the bridge hoop 64 and the vertical support frame 10 are fixed to the vertical diagnostic frame 10 to measure the width change of the bridge top plate 60 or the cantilever 61. The horizontal diagnostic frame 30, the horizontal support rod 40 for fixing the horizontal diagnostic frame 30 to the cantilever 61 side end, the vertical diagnostic frame 10 and the horizontal diagnostic frame 30 is connected to the deformation It consists of a manager computer 50 to recognize in real time and notify the administrator.

The vertical diagnosis frame 10 is a box body having fixing plates 13 fixed to the side of the bridge girder 62 through fixing brackets 65 on the left and right sides, and the front and rear side support bars 11 protruding from the front to the top at the upper end thereof. 11a), the center of the front and rear support bars (11, 11a) has a shaft line 12 on the extension line, respectively, a reference scale (12a) is formed around the front side of the shaft hole 12, the bending measurement limit switch on its left and right sides 12b and 12c are fixedly installed, respectively, and a cylindrical working space 14 is formed on the lower side thereof, and a spring 14a is seated on the inner side thereof, and a long hole 15 is formed on the right side thereof. A reference scale 15a is formed on the outer side, and the bridge deformation limit switch 15b is fixedly installed on the side thereof, and the lower end of the operating space 14 is slidably sealed by the stopper 16.

The vertical support rod 20 is a vertical rod body, the upper end is elastically positioned in the operating space 14 through the stopper 16 of the vertical diagnostic frame 10 is elastically lowered by the spring (14a) The indicator plate 21 is formed, but at one end of the elastic indicator plate 21, the indicator protrusion 21a protruding to the outside through the long hole 15 protrudes to the outside through the reference scale 15a side, and the lower end of the bridge A rubber scaffold 22 that is a square plate body seated on the dope 64 is formed.

The horizontal diaphragm 30 has a left end positioned between the front and rear support bars 11 and 11a of the vertical diaphragm 10 so as to point to the reference scale 12a at one end thereof and to rotate the bending measurement limit switch 12b. A shaft pin 31 having a variable hour hand 31a for operating the 12c is axially fixed, and a right side end is formed with a cylindrical working space 32 inwardly, and a spring 33 is seated on the inner side of the stopper 35. It is slidably sealed by the lower side, the long hole 34 is formed on the lower side, but the width change limit switch 34a is fixedly installed on the outer side of the long hole 34.

The horizontal support rod 40 is a horizontal rod body, the left end is located in the operating space 32 of the horizontal diagnostic frame 30, the elastic indicator plate 42 is elastic to the right by the spring 33 bolts It is fixedly formed by coupling, one end of the elastic indicator plate 42 is formed with an indicator protrusion 42a protruding to the outside through the long hole 34, the right end is vertically bent upward and the front end is the side surface of the cantilever 61 It has a fastening hole 41 fastened to.

The manager computer 50 is each of the bending measurement limit switches 12b and 12c of the vertical diagnosis frame 10, the deformation limit switch 15b of the vertical diagnosis frame 10, and the width change limit switch 34a of the horizontal diagnosis frame 30, respectively. A data acquisition system is programmed that connects and alerts the administrator during operation to recognize the modified facts.

The present invention as described above, when the bridge girder 62 or the bridge bridge 63 is deformed, the elastic indicator plate 21 indicating protrusion of the upper end of the vertical support rod 20 located in the operating space 14 of the vertical diagnostic frame 10 As the 21a moves upward on the long hole 15, the bridge deformation limit switch 15b is operated, or the cantilever 61 of the bridge top plate 60 is bent and the shaft is fixed by deformation of the horizontal diagnosis frame 30. The shaft pin 31 having the variable hour hand 31a is pivoted on the shaft hole 12 to operate the bending measurement limit switches 12b and 12c by the variable hour hand 31a, or the bridge top plate 60 or the cantilever ( When the left and right deformation of the 61, the elastic indicator plate 42 of the left end of the horizontal support rod 40 located in the operating space 32 of the horizontal diagnostic frame 30 is moved to the left on the long hole 34, When the width change limit switch 34a is activated, the manager computer 50 connected to the width change limit switch 34a detects this and notifies the manager of the fact. As a result, measures to cope with this problem are induced to prevent safety accidents.

1 is a perspective view showing the construction of the safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention,

Figure 2 is an exploded perspective view showing the fastening of the safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention,

Figure 3 is a perspective view showing the construction of the safety diagnosis device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention,

Figure 4 is a side cross-sectional view showing the operation of the safety diagnostic device that can achieve the deformation detection of the bridge cantilever section of an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: vertical diagnosis frame 11,11a: front and rear side support bar

12: shaft 12a: reference scale

12b, 12c: bending measurement limit switch

13: fixed plate 14: operating space

14a: spring 15: long hole

15a: reference scale 15b: stabilization limit switch

16: stopper

20: vertical support rod 21: elastic indicator board

21a: indicating protrusion 22: rubber footrest

30: horizontal diagnosis frame 31: shaft pin

31a: Variable hand 32: Operating space

33: spring 34: long hole

34a: width change limit switch 35: plug

40: horizontal support rod 41: fastening hole

42: elastic indication plate 42a: indicator protrusion

50: administrator computer

60: bridge deck 61: cantilever

62: bridge girder 63: bridge bridge

64: bridge goping 65: fixed bracket

Claims (1)

On the left and right sides is a box body having a fixed plate fixed to the side of the bridge girder through a fixing bracket, the upper end has a front and rear support bars projecting from the front to the top, respectively, each of the front and rear support bar has a shaft hole, the reference around the shaft hole front side Graduation is formed, and the bending measurement limit switch is fixedly installed on the left and right sides, and a cylindrical working space is formed on the lower side, the spring is seated on the inner side, a long hole is formed on the right side, and the reference scale is on the outer side of the long hole. It is formed, the side of the deformation limit switch is installed fixed to the vertical diaphragm and the lower end of the operating space is slidably closed by a stopper; The top of the vertical rod is formed in the operating space through the stopper of the vertical diagnostic frame is formed in the elastic indicator plate to be elastically lowered by the spring, one end of the elastic indicator plate protruding outward through the long hole A vertical support bar which protrudes to the outside through the reference scale side, and a lower end of which is formed with a rubber scaffold which is a rectangular plate body seated on the bridge goping; The left end is positioned between the front and rear support bars of the vertical diaphragm, and the shaft pin having a variable hand for pointing the reference scale at one end and operating the bending measurement limit switch is pivotally fixed, and the right end is cylindrically operated inwardly. A horizontal diaphragm having a space formed therein and having a spring seated therein so as to be slidably closed by a stopper, and having a long hole formed at a lower side thereof, and having a width change limit switch fixedly installed at an outer side thereof; The horizontal bar is positioned at the operating space of the horizontal diagnostic frame at the left end and the elastic indicator plate is fixed to the right by the spring is fixed to the bolt coupling, one end of the elastic indicator plate protrudes out through the long hole A horizontal support rod having a fastening hole in which an additional portion is formed, and the right end portion is vertically bent upwardly and the front end portion is fastened and fixed to the side surface of the cantilever; And a manager computer programmed with a data acquisition system that is connected to the bending measurement limit switch, the vertical deformation limit switch of the vertical diagnosis frame, and the width change limit switch of the horizontal diagnosis frame to inform the administrator during operation and recognize the fact of deformation. Safety diagnosis device that can detect deformation of bridge cantilever section.

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