KR100844024B1 - Measurement system for safety check-up of verticality constructing - Google Patents

Abstract

A measuring system for safety diagnosis of vertical structures is provided to prevent accidents by detecting a deformation degree out of an allowable range and transmitting it to a manger terminal. A measuring system for safety diagnosis of vertical structures comprises a measuring diagnosis plate(10), a vertical diagnosis box(20) and a control unit(30). The measuring diagnosis plate is provided with a horizontal plate(11) having a horizontal fixing hole to be fixed by a fixing bolt(11b), a vertical plate(12) having a vertical fixing hole to be fixed by a fixing bolt(12b) in vertical structures, and a bolt hole for fixing an L-shaped vertical guide plate(15) by a bolt. The vertical diagnosis box has a rectangular parallelepiped shape, a horizontal part of which is tightly attached to an outer horizontal surface in the center of the outer surface of the vertical guide plate of the measuring diagnosis plate while the outer upper corner is tightly attached to the inner vertical and horizontal surfaces of the vertical guide plate, and is provided with a bottom diagnosis instrument(21) and a vertical diagnosis instrument(21a) rotating around a rotational shaft. The control unit is installed on an inclined plate of the measuring diagnosis plate to control a forward and reverse driving motor(36) having a pinion gear(36b) coupled to a rack gear row(27a) of a transfer rail(27) of the vertical diagnosis box, and is fixed to the outer surface of the vertical diagnosis box.

Description

Measurement system for safety check-up of verticality constructing

The present invention relates to a system for measuring safety diagnosis of a vertical structure, and more particularly, to accurately and quantitatively detect a deformation degree due to vertical change or partial bending of a vertical structure fixed vertically with respect to the ground. The present invention relates to a vertical structure safety diagnosis measurement system that can prevent accidents by transmitting the city information to the administrator's terminal.

In general, vertical structures fixed vertically with respect to the ground may gradually change in verticality due to various reasons over time, and may undergo deformation such as being subjected to concentrated load or partially curved by surrounding heat. do.

In order to detect the verticality and deformation of such a vertical structure, conventional optical machinery used in civil engineering is conventionally used, but this optical equipment is very expensive and can be operated only by a separate expert and needs to be measured at a long distance. Only macroscopic results were obtained, and inaccurate results were obtained by representing the overall results with only a few results.

The present invention has been made to solve the above problems, and detects the degree of deformation due to the vertical degree change or partial bending of the vertical structure fixed vertically to the ground accurately and quantitatively detects the lower end of the safety terminal when the abnormality of the manager terminal The purpose is to provide a vertical structure safety diagnosis and measurement system that can prevent accidents in advance.

In order to achieve the above object, the present invention is to form a horizontal plate having a horizontal fixing hole to be horizontal and fixed to the bottom surface by a fixed bolt, to form a vertical fixed hole fixed to the vertical structure by a fixed bolt A vertical plate having a vertical plate is formed, and an inclined plate connecting the horizontal plate and the vertical plate is formed, and a pair of measuring guide protrusions are formed at the inner center to protrude inward to form a vertical plane, a horizontal plane, and an outer vertical plane and an outer horizontal plane. A measuring diagnosing stage in which the vertical guide plate having an inner vertical surface and an inner horizontal surface is formed to be fastened and fastened by fastening bolts respectively, the length of which extends in the front and rear sides in the vertical and horizontal surfaces of the center side;

In the state where the outer upper edge is in a rectangular parallelepiped with the inner horizontal plane and the inner vertical plane of the measuring guide vertical guide plate, a horizontal rail is in close contact with the outer horizontal plane at the center of the outer surface and a welded fixed rail is formed on the outer surface. Lacquer rows are continuously formed on the bottom surface, and an open portion is formed on the lower inner side, and the rollers are projected from the front and rear sides through the opening portion to the bottom surface and the vertical structure, respectively. A roller bar is formed, and the other end of the roller bar is elastically formed by an elastic spring in the inner side of the support tube, and the center of the support tube is pivotally coupled to the pivot shaft inserted into the front and rear sides, and the outer side of the support tube is rotated according to the rotation trajectory. Fixed in arc shape and grounded to an electrode plate having a positive electrode plate and a negative electrode plate, respectively A vertical diagnostic box in which a positive and negative electrode terminals are in close contact with each other, and bottom diagnosis and vertical diagnosis holes are pivoted about an axis of rotation;

The stationary motor is fixedly installed on the inclined plate of the measuring diagnosing member to rotate the stationary motor having a pinion gear which is coupled to the feed rail rack gear train of the vertical diagnosis box through a drive shaft through the through hole, and on the outer surface of the vertical diagnosis box. It is fixed but fixed to the other end of the bottom and vertical diagnostic sphere is electrically connected to the positive electrode terminal and the V-shaped positive electrode plate is formed to seat the conductive ball is a conductor, the electricity is connected to the negative electrode terminal and the conductive ball and the positive plate and A negative electrode plate is formed to cover the positive electrode plate spaced apart from each other, and when the deviation of the safety allowable range is exceeded, a switch type inclination sensor is installed to energize the negative electrode plate and the positive electrode plate when the ball is inclined, and detects this and sends a signal to the manager terminal. There is a characteristic.

As described above, the present invention can cope with the problem by detecting the degree of deformation due to the change in the verticality or the partial curvature of the vertical structure fixed vertically with respect to the ground accurately and sending it to the manager terminal when the safety tolerance is exceeded. By doing this, there is an effect that can prevent the accident in advance.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

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

1 is a perspective view showing the construction of the vertical structure safety diagnosis measurement system according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a fastening of the vertical structure safety diagnosis measurement system according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention The enlarged front sectional view showing the main part enlargement of the vertical structure safety diagnosis measurement system, Figure 4 is an enlarged front sectional view showing the operation of the inclination sensor of the bottom diagnostic sphere of the vertical structure safety diagnosis measurement system according to an embodiment of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

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

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

The vertical structure safety diagnosis measuring system of the present invention includes a measuring diagnosing apparatus 10 fixed to the bottom surface 40 and the vertical structure 50 diagonally to support the vertical diagnosis box 20 reciprocating, and to the control unit 30. Vertical diagnosis box 20 for detecting the verticality or deformation of the bottom surface 40 and the vertical structure 50 and the vertical diagnosis box 20 at a suitable speed while reciprocating the measurement diagnostic table 10 by the vertical diagnosis It is comprised by the control part 30 which transmits the information obtained by the box 20 to an administrator terminal (not shown).

The measuring diagnostic table 10 is horizontal and has a horizontal plate 11 having a horizontal fixing hole (11a) is fixed to the bottom surface 40 by a fixing bolt (11b), vertical and vertical structure (50) ) Is formed with a vertical plate 12 having a vertical fixing hole 12a fixed by a fixing bolt 12b, the inclined plate 13 connecting the horizontal plate 11 and the vertical plate 12 is formed, the inner center A pair of measurement guide protrusions 14 and 14a are formed to protrude inward to form a vertical plane 14c, a horizontal plane 14b, and an outer vertical plane 14e and an outer horizontal plane 14d, and the measurement guide protrusion 14 14a) The vertical guide plate 15 having the inner vertical surface 15b and the inner horizontal surface 15a extending in the front and rear sides at the center-side vertical surface 14c and the horizontal surface 14b has an inner vertical surface 15b and the inner horizontal surface 15a, and fastening bolts 15c and 15d. Fastening holes 14f and 14g are fastened by fastening, respectively.

The vertical diagnosing box 20 is a rectangular parallelepiped, the outer top edge of which the outer upper edge is in contact with the inner horizontal surface 15a and the inner vertical surface 15b of the measuring guide 10 vertical guide plate 15. The transfer rail 27 welded and fixed to the outer side is formed having a horizontal portion 27b in close contact with 14d, and the rack gear train 27a is continuously formed at the bottom of the horizontal rail 27b. Opening portion 26 is formed in the lower inner side, and protrudes from the front and rear side through the opening portion 26 to the bottom surface 40 and the vertical structure 50, respectively, at one end of the bottom surface 40 and the vertical structure 50 Roller bar 25 having a rotating roller (25a) in close contact with each of the) is formed, the other end of the roller bar 25 is elastic by an elastic spring (25b) inside the support tube 24, the support tube ( 24) The center side is pivotally coupled to the pivot shaft 24a inserted into the front and rear sides, and the pivot shaft is provided on one side of the outer circumference of the support tube 24. Is fixed in an arc shape and grounded to the electrode plate 23 having the positive electrode plate 23b and the negative electrode plate 23a, respectively, and is in close contact with the elasticity of the spring 22b. Terminals 22 are formed, respectively, and bottom diaphragm 21 and vertical diaphragm 21a are axially rotated about shaft 24a, respectively.

The control unit 30 is fixed to the inclined plate 13 of the measuring diagnostic table 10, the drive shaft (36a) is penetrated through the through hole (36c) under the transfer rail (27) of the vertical diagnostic box 20 The stationary motor 36 having the pinion gear 36b coupled to the size array 27a is rotated and fixed to the outer surface of the vertical diagnosis box 20, and the bottom diagnosis port 21 is vertically diagnosed. It is fixed to the other end of the sphere (21a) is electrically connected to the positive electrode terminal 22a is formed with a V-shaped positive electrode plate 33 is seated on the conductive ball 32 which is a conductor, and the negative electrode terminal 22 and The electricity is connected to the electricity ball 32 and the positive electrode plate 33 is spaced apart from the positive electrode plate 33, the negative electrode plate 34 is formed to surround each other, and the deviation of the safety allowable range when the ball is inclined to the negative electrode plate ( 34) and the switch type inclination sensors 31 and 31a for energizing the positive electrode plate 33 are respectively installed and sensed by the manager terminal. Thereby transmitting a signal.

In the present invention as described above, the feed rail 27, the rack gear train 27a which is fixed by the measuring diagnosis table 10 by the rotational force of the stationary motor 36 and the pinion gear 36b by the control unit 30 is provided. When the vertical diagnosis box 20 is reciprocated on the bottom surface 40 and the vertical structure 50 while being moved forward and backward, the bottom diagnosis opening 21 and the vertical diagnosis opening 21a face the rotation roller 25a. According to the deformation or verticality of the bottom surface 40 and the vertical structure 50, the bottom diaphragm 21 and the vertical diaphragm 21a are axially rotated based on the rotational axis 24a so that the inclination sensor 31 of the end is rotated. If the slope is deformed out of the safety allowable range or not vertical, by 31a), the controller 30 sends a signal to the administrator terminal (not shown) to recognize it and induces a countermeasure accordingly. do.

1 is a perspective view showing the construction of the vertical structure safety diagnosis measurement system according to an embodiment of the present invention,

Figure 2 is an exploded perspective view showing the fastening of the vertical structure safety diagnosis measuring system according to an embodiment of the present invention,

3 is a front sectional enlarged front sectional view showing the construction of a vertical structure safety diagnosis measurement system according to an embodiment of the present invention;

Figure 4 is an enlarged front sectional view showing the main part of the operation of the inclination sensor of the bottom diagnostic port of the vertical structure safety diagnosis measuring system according to an embodiment of the present invention.

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

10: diagnosis stand 11: horizontal plate

11a: horizontal fixing hole 11b: fixing bolt

12: vertical plate 12a: vertical fixing hole

12b: fixing bolt 13: inclined plate

14,14a: Measurement guide protrusion 14b: horizontal plane

14c: vertical plane 14d: outer horizontal plane

14e: outside vertical surface 14f, 14g: fastening hole

15: vertical guide plate 15a: the inner horizontal plane

15b: Inner vertical surface 15c, 15d: Tightening bolt

20: Vertical Diagnosis Box 21: Floor Diagnosis

21a: vertical diagnosis port 22: cathode conduction terminal

22a: positive electrode terminal 22b: spring

23 electrode plate 23a cathode electrode plate

23b: positive electrode plate 24: support tube

24a: rotating shaft 25: roller bar

25a: Rotary roller 25b: Elastic spring

26: opening 27: transfer rail

27a: Rack gear train 27b: Horizontal part

30: control unit 31, 31a: tilt sensor

32: energized ball 33: bipolar plate

34: negative electrode plate

36: forward and reverse motor 36a: drive shaft

36b: Pinion gear 36c: Through hole

40: bottom surface 50: vertical structure`

Claims (1)

A horizontal plate having a horizontal fixing hole is formed to be horizontal and fixed to the bottom surface by a fixing bolt, a vertical plate is formed to form a vertical and has a vertical fixing hole fixed to the vertical structure by a fixed bolt, the horizontal plate and the vertical plate A pair of measuring guide protrusions are formed to protrude inward to the inner center to form a vertical plane, a horizontal plane, and an outer vertical plane and an outer horizontal plane, and the length of the measurement guide protrusion is vertically and horizontally extended on the vertical plane and the horizontal plane. A measuring guide for forming a vertically fastening hole having a vertical guide plate having an inner vertical surface and an inner horizontal surface in a-shape by fastening bolts; In the state where the outer upper edge is in a rectangular parallelepiped with the inner horizontal plane and the inner vertical plane of the measuring guide vertical guide plate, a horizontal rail is in close contact with the outer horizontal plane at the center of the outer surface and a welded fixed rail is formed on the outer surface. Lacquer rows are continuously formed on the bottom surface, and open portions are formed on the lower inner side, and projecting rollers are projected to the bottom surface and the vertical structure from the front and rear sides through the opening portion, and at one end thereof, there is a rotational roller that is in close contact with the bottom surface and the vertical structure, respectively. A roller bar is formed, and the other end of the roller bar is elastically formed by an elastic spring in the inner side of the support tube, and the center of the support tube is pivotally coupled to the pivot shaft inserted into the front and rear sides, and the outer side of the support tube is rotated according to the rotation trajectory. Fixed in arc shape and grounded to an electrode plate having a positive electrode plate and a negative electrode plate, respectively A diagnostic box which is in close contact with the vertical anode energizing terminal and the negative terminal to be energized are energized respectively per floor diagnostics rotation axis coaxial with the axis sphere and is formed perpendicular to obtain diagnosis; The stationary motor is fixedly installed on the inclined plate of the measuring diagnosing member to rotate the stationary motor having a pinion gear which is coupled to the feed rail rack gear train of the vertical diagnosis box through a drive shaft through the through hole, and on the outer surface of the vertical diagnosis box. It is fixed but fixed to the other end of the bottom and vertical diagnostic sphere is electrically connected to the positive electrode terminal and the V-shaped positive electrode plate is formed to seat the conductive ball is a conductor, the electricity is connected to the negative electrode terminal and the conductive ball and the positive plate and A negative electrode plate is formed to cover the positive electrode plate spaced apart from each other, and when the deviation of the safety allowable range is exceeded, a switch type inclination sensor is installed to energize the negative electrode plate and the positive electrode plate when the ball is inclined, and detects this and sends a signal to the manager terminal. Vertical structure safety diagnosis measurement system.

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