KR100930504B1 - A safety diagnostic institution on a section of a slab on a bridge - Google Patents

Abstract

PURPOSE: A safety diagnosis structure in a slab section of a bridge deck is provided to enable a management department to rapidly deal with problems by fixing a stopper at a scale corresponding to a danger level and pushing a switch. CONSTITUTION: A safety diagnosis structure in a slab section of a bridge deck comprises a pair of posts(10), a rod fixing part(20), a transverse rod(30), a fixed disc(40) and a fixing plate(50). The safety diagnosis structure more comprises a micro angle adjusting cap(60), and a detecting unit, and a safety net(80). Each vertical rod(12) is fixed on the upper side of the fixing plate. The body(21) of the rod fixing part is fixed on the upper end of the vertical rod. A rod hole(23) passing through the front and the rear parts of the body is formed in the body. A projection part(22) consisting of a plurality of protrusions is formed along the upper circumference of the outside of the body. A rod hole(42) is formed on the center of a disk body(41) of the fixed disc. A plurality of plate grooves(44) are formed at one side of the circumference of the disk body.

Description

A safety diagnostic institution on a section of a slab on a bridge}

The present invention relates to a safety diagnosis facility of the slab section of the bridge deck, and more particularly, by installing the sensing devices on both sides of the lower edge of the slab of the bridge deck slab to continuously measure the deflection or deformation of the bridge deck slab, It is related to the safety diagnosis facility of the slab section of the bridge top plate that can be contacted to the management department when the stopper is installed in the deformation part of and the safety department or lamp plate can be selectively fixed.

The purpose of the safety inspection and precision safety diagnosis is to find the physical and functional defects and inherent risk factors of the facility by on-site surveys and various tests, and present prompt and appropriate repairs, reinforcement methods and measures for the facilities. It is to secure safety.

On the other hand, the types of safety checks and precision safety checks include periodic checks, precision checks, emergency checks, and precision safety checks.

Periodic inspection is an inspection of the level of meticulous visual inspection by experienced and skilled persons, and it is an observation to judge the functional condition of the facility and to confirm whether the facility continues to meet the current use requirements. Or, it should be carried out at least once in June from the date of approval (including temporary use) and may be omitted during the semi-annual period overlapping with the on-site inspection period of precision inspection, emergency inspection and precision safety diagnosis.

Close-up inspections are necessary to perform precise visual inspections, simple measurements, and test equipment to accurately determine the current state of the installation, to verify changes from the initial or previously recorded state, and to ensure that the structure continues to meet the current use requirements. And inspections to conduct tests, visual inspection and measurement, test results and previous inspections, to identify the progress and new occurrence of defects found in the diagnosis to evaluate the status of each major member of the facility, and the status during the previous inspection, diagnosis The condition evaluation grade for the whole facility should be determined by comparing and reviewing with the evaluation result, and the results of the survey including the appearance inspection network drawing on the main parts such as defects should be recorded in the drawing. These inspections should be completed at least once every two years based on the completion date of the facility or approval date for use (including temporary use) .The next inspection will be based on the date of completion of the previous inspection or safety diagnosis. . Facilities that have been announced for bidding before July 30, 2001 and those whose structural form has been changed must complete the initial overhaul (hereinafter referred to as initial inspection) within six months of completion or approval of use (including temporary use).

Emergency inspection is a safety inspection at the level of precision inspection conducted when deemed necessary by the management authority or when requested by the head of the relevant administrative agency and requested by the management authority, and classified into damage inspection and special inspection according to the purpose of implementation.

Precise safety diagnosis is to secure data necessary for the condition evaluation and safety evaluation of facilities by conducting precise visual inspection, various measurement, measurement and test to find defects that cannot be easily found by safety inspection. The first type of facilities (excluding apartments and landfills) should be completed within one year from the point of completion of 10 years after the completion or approval date (including temporary use). Should be completed on a regular basis at least once every five years based on the date of completion of the previous precise safety diagnosis.

In addition, as a result of the safety inspection, precise safety diagnosis should be carried out when necessary to prevent disasters and disasters of facilities and to ensure safety.

On the other hand, as part of the safety diagnosis, the bridges and bridges should also be periodically inspected, where a bridge is a river, lake, strait, bay, canal, lowland or It is an expensive structure that allows you to cross over other traffic routes or structures, and there are various bridges depending on the type of facilities to be supported and the types of things to be crossed.

However, the role of the bridge is almost the same, it is to keep the function of the passages and facilities supported by the bridge, and to do so, it must have sufficient strength and durability. Next, almost all bridges have a public character, so it is required to make them as economically as possible. To this end, the most reasonable safety is obtained by gathering the essence of structural engineering and comparing and reviewing the materials used and structural forms. And usability and economics should be ensured. It must also be beautiful to suit the environment in which it is made.

These bridges are usually divided into upper and lower structures. The upper structure is a portion directly supporting a vehicle load and is composed of a top plate frame and a mold, and the lower structure is a structure that transmits the load from the upper structure to the ground. It is composed of shifts, piers and foundations (pile foundations, well foundations, etc.).

Bridge slab constructed in the upper part of steel bridge box of the bridge is deflected by the load of the upper structure, so this deflection or deformation should be checked well before the accident occurs.

However, there is no safety diagnosis facility in the slab section of the bridge, and there is an ultrasonic diagnostic apparatus using ultrasonic waves, but there is a problem that the safety diagnosis of the bridge has little effect.

The present invention has been made in order to solve the problems as described above, to detect the deflection and deformation of the bridge top plate to be installed on the top of the bridge to measure the deformation and deflection, various kinds of functional plate on the fixed disk The purpose is to provide a safety diagnosis facility for the slab section of the bridge deck to be fixed and available.

The functional plate is to be fixed to the stationary disk by forming a fixed end bent at the end of the plate body having various kinds of functions such as a sensing device, safety net, lamp plate, and fixed to the upper part of the pier with a fixed plate .

In the state of rotating the horizontal bar to fix the fixed disk to the fine angle control cap to enable fine control.

The stopper should be installed on the scale at the position where the dangerous water level deformation occurs. When the head of the scale pin bolt touches the stopper, the switch will be pressed to contact the management department.

The present invention is a pair of poles are fixed to the two fixed plates on both ends of the upper surface of the upper portion of the pier to achieve the above object, a vertical rod is fixed to each of the upper surface of the fixing plate; Bongo government is fixed to the upper end of the vertical rod, the rod hole is formed through the front and rear of the body, the projection is formed with a plurality of protrusions along the outer periphery of the upper surface of the body; A horizontal bar protruding from one side of the circular rod body in a longitudinal direction, and a circular rotary part without a key formed in a portion inserted into the rod hole of the bongo part; A rod hole is formed in the center of the disc, and a key groove is formed in the rod hole so as to be engaged with the key of the horizontal rod. A plurality of plate grooves are formed on one side of the disc body, and a plurality of bent grooves on the other side of the disc body. Is formed is fixed number of the plurality is inserted into the horizontal bar so as to be movable left and right; A plurality of grooves are formed at regular intervals at an upper end of the plate body having a cross-section having a N-shape to be engaged with the plate groove of the fixed disk, and a lower end of the plate body is fixed to the pier; A rod groove is formed in the center of the body, and a groove portion having a shallow depth is formed around the rod groove on one side of the body, and a plurality of protrusion grooves are formed on the inner wall of the groove portion, and the protrusions of the bongo part are fitted and fixed to the inner diameter of the rod groove. Fine angle control cap is formed key groove; A fixed end is formed at one end of the support plate to be slid into the fixed groove of the fixed disk, and a hinge is formed at the other end of the support plate so that the center of both sides of the sensing plate is rotatably fixed, and the scale plate is fixed to the hinge adjacent to the support plate, and the scale plate Is formed in arc shape and arc slit hole is formed in the longitudinal direction at the center, and through the arc slit hole, the scale pin bolt is fixed to the end of the sensing plate, the stopper is fixed to the scale plate, and the switch is formed on the stopper. When the scale pin bolt is connected to the control box, the dangerous signal is sent to the management department by the signal transmitted when the scale pin bolt touches the switch, and the sensing plate is fixed to one side of the support plate and the spring so that it always touches the lower end of the upper plate of the bridge. A force sensing device; The fixed end is bent at the end of the plate is formed is inserted into one side of the fixed groove of the fixed disc, the safety net is formed on the plate; characterized in that consisting of, and configured to selectively fit the lamp plate to the fixed disc , The lamp plate is a plurality of lamps are formed on the upper surface of the plate, the lamp is connected to the power supply module is connected to the solar panel, the slab section of the bridge top plate, characterized in that the fixed end is formed at the end of the plate body is formed Provide safety diagnosis facilities.

As described above, the present invention has a horizontal bar is installed between the pillars, the horizontal plate is fixed to the horizontal plate only fixed plate is installed, there is an effect that can be easily installed because the functional plate, such as the detection device, safety net, lamp plate is fixed to the fixed plate, There is an effect that can be used to make a functional plate of various functions in the shape of a plate body and fixed to the stationary disk.

And the strain can be measured by reading the leakage of the scale plate, and the stopper is fixed to the scale corresponding to the dangerous value, and when the deformation is made up to the position, the switch is pressed, so that the management department can quickly take action.

In addition, the fixed disk can be easily replaced, so it is easy to repair in case of damage. A plurality of plate grooves and fixing grooves are formed on the periphery of the stationary disc to select the mounting position, and the angle adjustment is possible since the micro angle adjusting cap can be fixed after the horizontal rod rotation.

Referring to the configuration of the present invention in detail with reference to the accompanying drawings as follows.

The terms or words used in the present specification and claims should not be interpreted as being limited to the ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain the invention of their own. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

The present invention is to fix the horizontal bar 30 between the two pillars 10, and to position the plurality of fixed disks 40 at a predetermined interval on the horizontal bar 30 and then fixed with a fixed plate 50, fixed disk ( Selectively sliding the sensing device 70, the safety net 80, the lamp plate 90 to the fixing groove 45 formed in the 40 is the main configuration.

The pillars 10 are fixed to the two fixing plates 11 at both ends of the upper surface of the pier upper part 2, and the vertical rods 12 are fixed to the upper surface of the fixing plate 11 integrally. The pillar 10 is fixed to a pair of spaced apart from both ends of the piercing upper portion 2, and the horizontal bar 30 is fixed between the pair of pillars (10).

The body 21 of the bongo part 20 is fixed to the upper end of the vertical rod 12, the bongo part 20 is formed with a rod hole 23 penetrating the front and rear of the body 21.

The body 21 of the bongo part 20 is formed in a substantially cylindrical shape, the lower part of which is fixed to the vertical bar 12, and a protrusion 22 formed of a plurality of protrusions is formed along the upper circumference of the outer surface of the body 21. . Protruding portion 22 is only partially formed to the outside of the body (21).

The horizontal bar 30 has a key 32 protruding in the longitudinal direction on one side of the circular bar 31, the circular rotating portion 33 without the key 32 in the portion inserted into the rod hole 23 of the bongo part 20 ) Is formed. The horizontal bar 30 is formed with a key groove so that the key 32 of the horizontal bar 30 can pass when inserted into the rod hole 23 of the bongo part 20.

The fixed disc 40 has a rod hole 42 formed at the center of the circular disc body 41, and a key groove 43 is formed at one side of the inner diameter of the rod hole 42 to be engaged with the key 32 of the horizontal rod 30. It is not possible to rotate in the horizontal bar 30 is possible only horizontal movement.

And the fixed disk 40 is inserted into a plurality of fixed in advance so that the number can be selected and used. In other words, the selected number is fixed to the fixed plate 50 by moving horizontally at a predetermined interval.

A plurality of plate grooves 44 are formed at regular intervals on one side of the disc body 41, and a plurality of bent fixing grooves 45 are formed on the other side of the disc body 41. A plurality of fixed disk 40 is inserted to be movable left and right on the horizontal bar 30, the fixed disk 40 is inserted into the margin in advance, the number can be used selectively.

The fixing plate 50 has a plurality of grooves 52 formed at regular intervals at the upper end of the plate body 51 having a cross-sectional shape in a N-shape to be engaged with the plate groove 44 of the stationary disk 40, and the plate body 51. The lower end of the) is fixed to the pier upper part (2) with a bolt or the like.

Position the fixed disk 40 on the horizontal bar 30 at regular intervals, and then engage the plate groove 44 formed on the lower portion of the fixed disk 40 and the groove 52 of the upper end of the fixed plate 50 to each other and then fixed The lower part of the plate 50 is fixed to the pier upper part 2.

As shown in FIG. 8, the fine angle adjusting cap 60 has a rod groove 63 formed at the center of one side of the body 61, and the groove portion 62 is shallower than the rod groove 63 around the rod groove 63. Is formed.

A plurality of protrusion grooves 65 are formed on the inner wall surface of the groove part 62 so that the protrusions 22 of the bongo part 20 are fitted and fixed, and a key groove 64 is formed in the inner diameter of the rod groove 63.

The sensing device 70 includes a support plate 71, a detection plate 72, a graduation plate 73, and a stopper 75, and a fixed end 71-1 is formed at one end of the support plate 71 to fix the disc. It is inserted into the fixed groove 45 of the 40. The fixed end 71-1 is bent to slide in the fixing groove 45 of the fixed disk 40 from the side, but does not fall out in the outer diameter direction of the fixed disk 40.

Hinge 71-2 is formed at the other end of the support plate 71 so that the center of both ends of the sensing plate 72 is rotatably fixed, and the scale plate 73 is fixed near the hinge 71-2 of the support plate 71. do.

The shape of the support plate 71 may be bent in consideration of the installation position and the position and spacing of the piers. The figure is bent by the letter C, but may be formed in various shapes.

The scale plate 73 is formed in an arc shape, and an arc slit hole 73-1 is formed in the center in the longitudinal direction, and the scale pin bolt 74 is formed at the end of the sensing plate 72 through the arc slit hole 73-1. Is fixed to. A sharp pin is formed on the head of the scale pin bolt 74, and the head portion is formed larger than the width of the arc slit hole 73-1 so as not to fall out, and scales to both sides of the arc slit hole 73-1. 73-2).

The stopper 75 is fixed to the scale plate 73, but the stopper 75 is fixed to the dangerous position when the bridge top plate is deformed. Stopper 75 is a body consisting of a square border (75-1) is inserted into the scale plate 73 and moved to the calculated position, and then tighten the bolt (75-3) to the bottom of the square border (75-1) scale plate ( 73) to crimp and secure. A switch 75-2 is formed at one side of the rectangular border 75-1 to be electrically connected to the control box 76. The control box 76 is fixed to one side of the support plate 71 and has a communication module, a signal generator, and a power supply therein, and transmits a signal to a management department during operation of the switch 75-2. That is, when the scale pin bolt 74 touches the switch 75-2, a danger signal is sent to the management department by the signal transmitted.

The sensing plate 72 is fixed to one side of the support plate 71 and the spring 77 so that a force acts in a direction that always touches the lower end of the end of the upper plate 6 of the bridge.

One of the functional plates fitted to the fixed disk 40 is a safety net 80, the safety net 80 is fixed to the end of the plate 81 is formed with a fixed end 83 is fixed to one side of the fixed disk 40 It is inserted into the groove 45 and the net 82 is formed in the plate body 81.

11 shows a lamp plate 90, which is configured to selectively insert the lamp plate 90 into the stationary disc 40, and the lamp plate 90 has a plurality of lamps 93 on the upper surface of the plate body 91. ) Is formed. The lamp 93 is installed to be connected to the power supply module 95 connected to the solar panel 94 fixed to one side of the plate body 91, and a fixed end 92 bent at the end of the plate body 91 is formed. It is fixed to the fixed disk 40.

1 is a perspective view showing a state in which the safety diagnosis facility of the slab section of the bridge deck of the present invention is installed.

Figure 2 is a side view showing a state in which the safety diagnosis facility of the slab section of the bridge deck of the present invention is installed.

Figure 3 is a plan view showing a state in which the safety diagnosis facility of the slab section of the bridge deck of the present invention is installed.

Figure 4 is a perspective view showing a safety diagnosis facility of the slab section of the bridge deck of the present invention.

5 is a perspective view showing the safety diagnosis facility of the slab section of the bridge deck of the present invention from another direction.

Figure 6 is an exploded perspective view showing a safety diagnosis facility of the slab section of the bridge deck of the present invention.

Figure 7 is a perspective view showing a horizontal bar used in the safety diagnosis facility of the slab section of the bridge deck of the present invention.

Figure 8 is a perspective view showing a fine angle control cap used in the safety diagnosis facility of the slab section of the bridge deck of the present invention.

9 is an exploded perspective view showing a part of the safety diagnosis facility of the slab section of the bridge deck of the present invention.

10 is an enlarged perspective view showing a part of the safety diagnosis facility of the slab section of the bridge deck of the present invention.

11 is a perspective view showing a lamp plate used in the safety diagnosis facility of the slab section of the bridge top plate of the present invention.

12 is an enlarged view of part B of FIG. 2 showing a safety diagnosis facility of a slab section of a bridge deck of the present invention.

FIG. 13 is an enlarged view of a portion A of FIG. 2 showing the safety diagnosis facility of the slab section of the bridge deck of the present invention. FIG.

 <Brief description of symbols for the main parts of the drawings>

1: pier 2: upper part of the pier

3: Foundation 4: Steel Bridge Box

5: chair 6: the top plate

10: pillar 11: fixed plate

12: vertical rod 20: bongo government

21: body 22: protrusion

23: bar hole 30: horizontal bar

31: round rod 32: key

33: circular rotating part 40: fixed disk

41: disk 42: rod hole

43: key groove 44: plate groove

45: fixing groove 50: fixing plate

51: Plate 52: Groove

60: fine angle control cap 61: body

62: groove portion 63: rod groove

64: key groove 65: projection groove

70: detection device 71: support plate

71-1: Fixed end 71-2: Hinge

72: detection plate 73: scale plate

73-1: arc slit hole 73-2: scale

74: graduation pin bolt 75: stopper

75-1: Square border 75-2: Switch

75-3: Bolt 76: Control Box

77: spring 80: safety net

81: plate 82: net

83: fixed end 90: lamp plate

91: plate 92: fixed end

93: lamp 94: solar panel

95: power supply module

Claims (2)

A pair of pillars 10 having two fixing plates 11 fixed to both ends of the upper surface of the pier upper part 2, and vertical bars 12 fixed to the upper surfaces of the fixing plates 11; The body 21 is fixed to the upper end of the vertical rod 12, a rod hole 23 penetrating the front and rear of the body 21 is formed, a projection consisting of a plurality of protrusions along the upper periphery of the outer surface of the body 21 Bongo part 20 is formed 22; The horizontal bar in which the key 32 protrudes in the longitudinal direction on one side of the circular rod body 31, and the circular rotary part 33 without the key 32 is formed in the portion inserted into the rod hole 23 of the bongo part 20. 30; A rod hole 42 is formed in the center of the disc body 41, and a key groove 43 is formed in the rod hole 42 so as to be engaged with the key 32 of the horizontal bar 30 and inserted into one side of the disc body 41. A plurality of plate grooves 44 are formed in the plate, and a plurality of bent fixing grooves 45 are formed on the other side of the disc body 41 so that the plurality of fixed disks 40 are inserted into the horizontal bar 30 so as to be movable left and right. ); A plurality of grooves 52 are formed at predetermined intervals on the upper end of the plate body 51 having a cross-sectional shape in a N-shape to engage with the plate groove 44 of the stationary disk 40, and the lower end of the plate body 51 is the upper portion of the pier. Fixed plate 50 fixed to the (2); A rod groove 63 is formed at the center of one side of the body 61, and a groove portion 62 having a depth smaller than that of the rod groove 63 is formed around the rod groove 63, and formed on the inner circumferential wall surface forming the groove portion 62. A plurality of protrusion grooves 65 are formed, and the protrusions 22 of the bongo part 20 are fitted into and fixed, and the key angle adjusting cap 60 having the key grooves 64 formed on the inner diameter of the rod grooves 63; A fixed end 71-1 is formed at one end of the support plate 71 to be slid into the fixed groove 45 of the fixed disk 40, and a hinge 71-2 is formed at the other end of the support plate 71 to sense the same. The center of both ends of the plate 72 is rotatably fixed, and the scale plate 73 is fixed near the hinge 71-2 of the support plate 71, and the scale plate 73 is formed in an arc shape, and is arc-shaped in the longitudinal direction at the center. The slit hole 73-1 is formed, the pin pin bolt 74 is fixed to the end of the sensing plate 72 through the arc-shaped slit hole 73-1, the stopper 75 is fixed to the scale plate 73 The switch 75-2 is formed on the stopper 75, and the switch 75-2 is connected to the control box 76 to be transferred when the scale pin bolt 74 touches the switch 75-2. The dangerous signal is sent to the management department by the received signal, and the detection plate 72 is fixed to one side of the support plate 71 and the spring 77 so that a force acts in a direction that always touches the lower end of the upper plate 6 of the bridge. Being detected device 70; A safety net (80) having a fixed end (83) formed at an end of the plate body (81) and inserted into one fixing groove (45) of the stationary disc (40), and having a net (82) formed on the plate body (81); Safety diagnosis facility of the slab section of the bridge deck, characterized in that consisting of. delete

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