KR200444323Y1 - Check-up apparatus for safety diagnosis of crack length of pier bridge - Google Patents

Abstract

The present invention is a semi-circular ring body surrounding the outer periphery of the piers on the upper surface of the well of the bridge. The upper surface is formed in the upper semi-circular groove is formed in the lower half, the inner surface of the bottom is formed in the lower semi-circular groove, the outer periphery of the rotating rack gears are inclined inwardly, the rack gear is continuously formed; A semicircular ring of rubber material formed at both ends of the rotary rack gear, respectively, inserted into both left and right insertion grooves of the pivot rack to form a circular shape. Fastening and fastening in multiple stages in accordance with the diameter of the piers in the fixing hole by the nut and nut, the upper semi-circular groove is formed on the lower surface, the lower semi-circular groove is formed on the bottom surface to fix the rotation rack gear to the pier outer periphery Connection fixing ring; One end is vertically bent downward to have an insertion protrusion which is slidably inserted into the upper semicircular groove of the upper surface of the pivoting rack gear, and has an axial groove on the bottom and an upper support plate having a through hole on an outer side thereof, so as to face the upper support plate. One end is formed with a lower support plate having an insertion protrusion which is bent upwardly and slidably inserted into the lower semicircular groove, and has a lower through hole on a through-hole extension line and a fixed shaft hole on an inner bottom thereof. A forward and reverse rotation frame having a pinion gear gear-coupled therein and a forward / reverse motor having a drive shaft fixed to the shaft groove by axially coupling the pinion gear to rotate left and right at the outer circumference of the rotation rack gear ring; A vertical fastening part is formed in the shape of a bar through which the lower end penetrates the through hole and the lower hole of the upper and lower support plates of the forward and rear swing frame, and is fastened and fixed by a nut. A ultrasonic support frame having a horizontal support portion configured to fix the ultrasonic generator, the control portion configured to receive a signal transmitted by the ultrasonic transmission method and read it out and send it to an administrator terminal for diagnosing the bridge crack length; A vertically divided plate body having insertion protrusions slidably inserted into upper and lower side semicircular grooves of the connection fixing ring, and having an axial hole penetrating through the outer side thereof, and a coupling hole formed at a lower end thereof; A vertical fastening part is formed through the shaft hole of the companion pivot frame located on the opposite side of the piers in the bar shape and fastened by a nut. An ultrasonic receiving frame in which a horizontal support portion for fixing the vertically standing ultrasonic receiver is formed; The semi-circular ring body is positioned below the pivot rack gear and the connection fixing ring to be seated on the top surface of the well by a plurality of rollers, and the upper end of the ring body is vertically extended to the lower support plate fixed shaft hole of the forward pivot frame. One side vertical bar having a fastening screw part to be fastened is formed, and the other end vertical bar having a fastening screw part fastened to the fastening hole of the companion frame is vertically extended upwardly at the other end of the ring body to form a forward pivot frame and a companion pivot frame. The present invention relates to a check device for safety diagnosis of a bridge crack length of a bridge having a spacing hole located opposite to each other.

The present invention can stabilize the inspection work by measuring the crack length by using an ultrasonic generator when the crack (or crack) of the bridge, which is the lower structure of the bridge, and can facilitate the maintenance work. It has an effect.

Rotating rack gearing, connection fixing ring, forward rotating frame, ultrasonic generating frame, accompanying rotating frame, ultrasonic receiving frame, spacing

Description

Check-up apparatus for safety diagnosis of crack length of pier bridge}

The present invention relates to the inspection device for the bridge crack length safety diagnosis of the bridge, more specifically, in the case of a crack (or crack) of the bridge pier, the lower structure of the bridge by using an ultrasonic generator to measure the crack length of the inspection work The present invention relates to a check device for safety diagnosis of bridge crack lengths in bridges, which can achieve stabilization and facilitate maintenance work.

In general, the pier constituting the lower structure of the bridge is responsible for firmly supporting the upper structure PC-BEAM or the upper slab at the bottom.

Hereinafter, for convenience, the upper plate slab will be described as an upper structure.

In particular, in Korea, when there are many rivers and bridges are constructed across rivers, bridges are often located with well basins in the water, or when bridges are built in mountainous areas, foundations of wells are buried in the ground. And piers will be built on top of the well base.

Such a pier is a vehicle passing on the upper bar, the vibration absorbing device called the name of the elastic bearing, bridge device, elastic plate, etc., which can absorb the upper vibration is installed in the upper coping of the pier to support the lower part of the upper slab elastic operation Will be

That is, the vibration absorbing device is installed in the upper center of the coping to absorb shock vibration generated in the width direction or the longitudinal direction of the upper slab.

However, the bridge has a problem in that cracks are generated in the bridge due to aging according to the passage of time even though the inspection work is performed regularly every year as described above.

As a result, the bridge has a problem of deterioration in terms of safety, and the repair and reinforcement work is also performed.

The present invention is to solve the above problems, when the crack (or crack) of the bridge, which is the lower structure of the bridge is generated by using an ultrasonic generator can measure the crack length to stabilize the inspection work, Its purpose is to provide a check system for the safety diagnosis of bridge crack lengths in bridges that can facilitate maintenance work.

In order to achieve the above object, the present invention is a semi-circular ring body that surrounds the outer periphery of the bridge on the upper surface of the well of the bridge, the left and right insertion grooves are formed in the inner periphery of both front end surfaces, the left and right insertion grooves on both side end surfaces. A fixing hole penetrating up and down is formed, the upper semi-circular groove is formed at the lower side inside the upper surface, the lower semi-circular groove is formed at the upper side inside the outer surface, and the outer periphery is inclined downward inward and the rack gear is continuously formed. Rack gearing;

A semicircular ring of rubber material formed at both ends of the rotary rack gear, respectively, inserted into both left and right insertion grooves of the pivot rack to form a circular shape. Fastening and fastening in multiple stages in accordance with the diameter of the piers in the fixing hole by the nut and nut, the upper semi-circular groove is formed on the lower surface, the lower semi-circular groove is formed on the bottom surface to fix the rotation rack gear to the pier outer periphery Connection fixing ring;

One end is vertically bent downward to have an insertion protrusion which is slidably inserted into the upper semicircular groove of the upper surface of the pivoting rack gear, and has an axial groove on the bottom and an upper support plate having a through hole on an outer side thereof, so as to face the upper support plate. One end is formed with a lower support plate having an insertion protrusion which is bent upwardly and slidably inserted into the lower semicircular groove, and has a lower through hole on a through-hole extension line and a fixed shaft hole on an inner bottom thereof. A forward and reverse rotation frame having a pinion gear gear-coupled therein and a forward / reverse motor having a drive shaft fixed to the shaft groove by axially coupling the pinion gear to rotate left and right at the outer circumference of the rotation rack gear ring;

A vertical fastening part is formed in the shape of a bar through which the lower end penetrates the through hole and the lower hole of the upper and lower support plates of the forward pivot frame, and is fastened and fixed by a nut. A ultrasonic support frame having a horizontal support portion configured to fix the ultrasonic generator, the control portion configured to receive a signal transmitted by the ultrasonic transmission method and read it out and send it to an administrator terminal for diagnosing the bridge crack length;

A vertically divided plate body having insertion protrusions slidably inserted into upper and lower side semicircular grooves of the connection fixing ring, and having an axial hole penetrating through the outer side thereof, and a coupling hole formed at a lower end thereof;

A vertical fastening part is formed through the shaft hole of the companion pivot frame located on the opposite side of the piers in the bar shape and fastened by a nut. An ultrasonic receiving frame in which a horizontal support portion for fixing the vertically standing ultrasonic receiver is formed;

The semi-circular ring body is positioned below the pivot rack gear and the connection fixing ring to be seated on the top surface of the well by a plurality of rollers, and the upper end of the ring body is vertically extended to the lower support plate fixed shaft hole of the forward pivot frame. One side vertical bar having a fastening screw part to be fastened is formed, and the other end vertical bar having a fastening screw part fastened to the fastening hole of the companion frame is vertically extended upwardly at the other end of the ring body to form a forward pivot frame and a companion pivot frame. It is characterized in that it has a spacing holder positioned opposite to each other.

As such, the present invention can stabilize the inspection work by measuring the crack length by using an ultrasonic generator when a crack (or crack) of the bridge, which is a lower structure of the bridge, can be achieved, and the maintenance reinforcement work can be smoothed. It can work.

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 a state of the bridge crack length safety diagnosis device for an embodiment of the present invention, Figure 2 is an exploded perspective view showing the fastening of the bridge crack length safety diagnosis device of an embodiment of the present invention, Figure 3 is a side cross-sectional view showing the construction of the bridge crack length safety diagnosis device for an embodiment of the present invention, Figure 4 is a plan view showing the operation of the bridge crack length safety diagnosis device for an embodiment of the present invention to be.

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.

The bridge crack length safety diagnosis check device of the present invention, the rotating rack gear 10, which is fixed to the lower bridge bridge 80 by the connection fixing ring 20, and the rotating rack gear ring 10 to the bridge (80) Connection fixing ring 20 to be fixed in accordance with the diameter, and the rotation rack gear ring 10 is geared and rotated to the left and right rotation frame 30, and the ultrasonic rotation frame fixed to the upper rotation frame 30, the ultrasonic wave Generation frame (40), the space between the normal and reverse pivot frame 30 by the space maintenance zone (70) and the companion pivot frame (50, 50a) to be accompanied by the forward and reverse pivot frame (30), the companion pivot frame ( 50, 50a) to the ultrasonic receiving frame 60 for receiving the ultrasonic wave is fixed to the upper side, and the interval holding means 70 for maintaining the ultrasonic receiving frame 60 and the ultrasonic generating frame 40 to be located opposite to each other It is composed.

The rotation rack gear 10 is a semi-circular ring body surrounding the outer circumference of the piers 80 on the upper surface of the well barrel 90 of the bridge, the left and right insertion grooves 13, 13a are formed in the inner circumferential edges of both sides. Fixing holes 14 and 14a penetrating the left and right insertion grooves 13 and 13a up and down are formed at both front end faces, and upper semicircular grooves 12 are formed at the bottom of the upper surface, and lower semicircles at the top of the bottom surface. The groove 12a is formed, and the outer circumference is inclined inward, but the rack gear 110 is continuously formed.

The connection fixing ring 20 is a semi-circular ring of rubber material formed at both ends of the rotary rack gear ring 10 at both ends of the left and right insertion grooves 13 and 13a, respectively, to form a circular shape. 13 and 13a, respectively, and a plurality of through holes 22 and 22a are formed on the extension lines of the fixing holes 14 and 14a, respectively, so that the fixing holes 14 and 14a are formed by the bolts 23 and the nuts 23a. Fastening and fastening in multiple stages according to the diameter of the pier 80, the upper semi-circular groove 21 is formed on the lower side, the lower semi-circular groove 21a is formed on the bottom surface to the rotation rack gear 10 The pier 80 is fixed to the outer circumference.

The orbital pivot frame 30 has one end vertically bent downwardly and has an insertion protrusion 34a slidably inserted into the upper semicircular groove 12 of the upper surface of the pivot rack gear 10 so as to have a shaft groove 34b at the bottom thereof. The upper support plate 34 having a through hole (34c) on the outer side is formed, one end is bent to the upper side facing the upper support plate 34 is inserted into the lower semi-circular groove (12a) slidably inserted A lower support plate 33 having a lower hole 33b on the extension line of the through hole 34c and a fixed shaft hole 33c on the inner bottom thereof, and penetrating the lower support plate 33 to form the rack gear ( 11 has a pinion gear 32 geared with the pinion gear 32 and the pinion gear 32 is coupled to the lower support plate 33 to the forward and reverse motor 31 having a drive shaft 31a fixed to the shaft groove 34b. It is formed is rotated left and right on the outer circumference of the rotary rack gear ring (10).

The ultrasonic generator frame 40 has a long bar shape, the lower end of which penetrates through the through hole 34c and the lower through hole 33b of the upper and lower support plates 34 and 33 of the forward rotation frame 30 and is fastened by a nut 44a. The vertical fastening portion 44 is formed to be fixed and extends from the upper end of the vertical fastening portion 44 to the outer peripheral side of the pier 80 to fix and support the ultrasonic generator 41 vertically erected close to the outer peripheral edge of the pier 80. The horizontal support part 43 is formed, and the control part 42 which receives the signal transmitted by the ultrasonic transmission method and sends it to the manager terminal (not shown) which diagnoses the length of the crack 81 of the pier 80 is provided. Is formed.

The companion pivot frame (50, 50a) is a plate divided into two vertically, the insertion protrusions (51, 51a) are respectively slidably inserted into the upper and lower semicircular grooves (21, 21a) of the connection fixing ring 20, respectively Shaft holes 52 and 52a are formed through the outside thereof, and fastening holes 53 are formed at the bottom thereof.

The ultrasonic receiver 60 has an elongated bar shape, and passes through the shaft holes 52 and 25a of the companion pivot frames 50 and 50a positioned opposite to the pier 80 of the ultrasonic generator frame 40, thereby providing a nut 63a. The vertical fastening portion 63 is fastened and secured by (), and extends from the upper end of the vertical fastening portion 63 to the outer peripheral side of the piers 80 to vertically stand up close to the outer peripheral edge of the piers 80. The horizontal support portion 62 for fixing the is formed.

The spacing holder 70 is located below the pivot rack gear 10 and the connection fixing ring 20 and is semicircular ring body 71 seated on the upper surface of the well 90 by a plurality of rollers 72. One side of the vertical bar having a fastening screw portion (73a) is formed, the ring body 71 is vertically extended to the upper end and fastened to the lower support plate 33, the fixed shaft hole (33c) of the stationary pivot frame (30) 73 is formed, the other end of the ring body (71) is vertically extended to the other side vertical bar 74 having a fastening screw portion 74a which is fastened and fastened to the fastening hole 53 of the companion pivot frame (50, 50a) Is formed to position the stationary pivot frame 30 and the companion pivot frame (50, 50a) on the opposite side.

The present invention as described above, in the state in which the ultrasonic generator frame 40 and the ultrasonic receiving frame 60 are located opposite to each other pier 80 by the interval holding hole 70 located on the upper surface of the bridge well 90 Ultrasonic waves generated by the ultrasonic generator 41 are rotated by rotating the pinion gear 32 from side to side on the rack gear 11 of the rotating rack gear 10 by the stationary motor 31 of the stationary rotating frame 30. When received by the ultrasonic receiver 61 through the crack 81 of the 80, it sends a signal to the manager terminal by the controller 42, the terminal of the manager reads it by the length of the crack 81 of the piers (80) Measure and prepare countermeasures.

1 is a perspective view showing a state of the inspection device for the bridge crack length safety diagnosis of an embodiment of the present invention,

Figure 2 is an exploded perspective view showing the fastening of the bridge crack length safety diagnosis device for an embodiment of the present invention,

Figure 3 is a side cross-sectional view showing the construction of the bridge crack length safety diagnosis device for an embodiment of the present invention,

Figure 4 is a plan view showing the operation of the inspection device for the bridge crack length safety diagnosis of an embodiment of the present invention.

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

10: rotating rack gearing 11: rack gear

12,12a: Upper and lower semicircular groove 13,13a: Left and right insertion groove

14,14a: fixing hole

20: connecting ring 21,21a: upper and lower semicircular groove

22, 22a: through hole 23: bolt

23a: nuts

30: stationary rotation frame 31: stationary motor

31a: drive shaft 32: pinion gear

33: lower support plate 33a: insertion protrusion

33b: lower hole 33c: fixed shaft hole

34: upper support plate 34a: insertion protrusion

34b: shaft groove 34c: through hole

40: ultrasonic generator frame 41: ultrasonic generator

42: controller 43: horizontal support

44 vertical support 44a nut

50,50a: Companion pivot frame 51,51a: Insertion protrusion

52, 52a: shaft hole 53: fastening hole

60: ultrasonic receiver 61: ultrasonic receiver

62: horizontal support portion 63: vertical fastening portion

63a: nuts

70: spacing area 71: ring body

72: roller 73: one side vertical bar

73a: Tightening screw portion 74: Other vertical bar

74a: Tightening screw part

80: pier 81: crack

90: well

Claims (1)

Semicircular ring body surrounding the outer periphery of the piers on the upper surface of the wells of the bridge. An upper semicircular groove is formed at a lower portion thereof, a lower semicircular groove is formed at an upper portion of the bottom surface thereof, and an outer circumferential edge thereof is provided with a rotating rack gear having a lower gear inclined inwardly; A semicircular ring of rubber material formed at both ends of the rotary rack gear, respectively, inserted into both left and right insertion grooves of the pivot rack to form a circular shape. Fastening and fastening in multiple stages in accordance with the diameter of the piers in the fixing hole by the nut and nut, the upper semi-circular groove is formed on the lower surface, the lower semi-circular groove is formed on the bottom surface to fix the rotation rack gear to the pier outer periphery Connection fixing ring; One end is vertically bent downward to have an insertion protrusion which is slidably inserted into the upper semicircular groove of the upper surface of the pivoting rack gear, and has an axial groove on the bottom and an upper support plate having a through hole on an outer side thereof, so as to face the upper support plate. One end is bent upwardly and has a lower support plate having an insertion protrusion which is slidably inserted into the lower semicircular groove of the pivoting rack gear, and has a lower through hole on the through-hole extension line and a fixed shaft hole on the inner bottom thereof. A reverse rotation frame having a pinion gear gear-coupled with the rack gear and a reverse rotation motor having a drive shaft fixed to the shaft groove by axially coupling the pinion gear to rotate left and right at the outer circumference of the rotating rack gear; A vertical fastening part is formed in the shape of a bar through which the lower end penetrates the through hole and the lower hole of the upper and lower support plates of the forward pivot frame, and is fastened and fixed by a nut. A ultrasonic support frame having a horizontal support portion configured to fix the ultrasonic generator, the control portion configured to receive a signal transmitted by the ultrasonic transmission method and read it out and send it to an administrator terminal for diagnosing the bridge crack length; A vertically divided plate body having insertion protrusions slidably inserted into upper and lower side semicircular grooves of the connection fixing ring, and having an axial hole penetrating through the outer side thereof, and a coupling hole formed at a lower end thereof; A vertical fastening part is formed through the shaft hole of the companion pivot frame located on the opposite side of the piers in the bar shape and fastened by a nut. An ultrasonic receiving frame in which a horizontal support portion for fixing the vertically standing ultrasonic receiver is formed; The semi-circular ring body is positioned below the pivot rack gear and the connection fixing ring to be seated on the top surface of the well by a plurality of rollers, and the upper end of the ring body is vertically extended to the lower support plate fixed shaft hole of the forward pivot frame. One side vertical bar having a fastening screw part to be fastened is formed, and the other end vertical bar having a fastening screw part fastened to the fastening hole of the companion frame is vertically extended upwardly at the other end of the ring body to form a forward pivot frame and a companion pivot frame. Inspection device for safety diagnosis of bridge crack length of bridges having gaps located opposite to each other.

Images