KR102585885B1 - A pattern irradiating device for marking locations for Ultrasonic Testers - Google Patents

Abstract

The present invention relates to a pattern irradiation device for indicating the position of an ultrasonic tester, which enables convenient safety diagnosis by easily forming a pattern for indicating the position of an ultrasonic tester without physically attaching or depositing it on the wall of a structure to be diagnosed. It's about invention.
The present invention for achieving this purpose includes a light source unit that irradiates light; a filter unit in which a fine pattern is formed corresponding to a pattern for indicating the position of an ultrasonic tester for concrete safety diagnosis; a fixing part for fixing the filter part; It includes a housing part on which the light source part, the filter part, and the fixing part are mounted, and the fine pattern corresponding to the pattern for indicating the position of the ultrasonic tester is comprised of six circular patterns spaced apart from each other in the left and right directions. Provides a pattern investigation device for use.

Description

{A pattern irradiating device for marking locations for Ultrasonic Testers}

The present invention relates to a pattern irradiation device for indicating the position of an ultrasonic tester, which enables convenient safety diagnosis by easily forming a pattern for indicating the position of an ultrasonic tester without physically attaching or depositing it on the wall of a structure to be diagnosed. It's about invention.

Architectural and civil structures such as large buildings, bridges, and natural structures must undergo regular safety inspections to prevent risks such as collapse. Among the methods for diagnosing the safety of such structures, non-destructive testing methods that measure the strength of the structure without destroying the structure include methods such as ultrasonic flaw detection.

Ultrasonic flaw detection is a method of estimating the strength of concrete by using the fact that the ultrasonic velocity within the material is influenced by the elastic modulus. In general, the faster the speed of ultrasonic waves, the stronger the concrete tends to be, so it can be used for comparative evaluation of the relative quality of concrete. Also, if there are cracks on the surface of the concrete, the arrival time of ultrasonic waves is delayed, so if cracks exist, The depth of the crack can also be estimated based on the arrival time of ultrasonic waves in the area and the normal arrival time.

In order to use the ultrasonic flaw detection method, first, about 6 measurement points are marked with chalk, etc. at intervals of 10 cm using a tape measure, etc., on the measurement surface of the concrete structure.

However, each time the hardness of a concrete structure is measured, marking about 6 measurement points at 10cm intervals has the disadvantage of being very cumbersome, relying on the manual work of workers, and taking a long time to measure. In order to solve the shortcomings, a sticker-type measuring point display device using adhesive so that it can be attached to the surface of the structure has been previously applied for as Utility Model Registration No. 20-0224542 and Registration Patent No. 10-2059934.

However, in the case of this conventional sticker-type measuring point display device, there was a problem that the sticker could be easily torn during transportation or storage, and because the opposite side of the adhesive side of the sticker was exposed to the outside, it could be easily contaminated or damaged. There was. In particular, the sticker has holes drilled to indicate measurement points, and since these holes are adjacent to the ultrasonic probes (probes) of the ultrasonic inspection equipment, there is a risk of damage by contacting or being scratched by the probe. In addition, the part located between the holes of the measuring point display device is very weak, so there is a problem that it is easy to tear.

Republic of Korea Patent Publication No. 10-1410338 Republic of Korea Patent Publication No. 10-2059934

The present invention was designed to solve this problem, and is an ultrasonic tester position indicator that allows convenient safety diagnosis by easily forming a pattern for indicating the position of an ultrasonic tester without physically attaching or depositing it on the wall of the structure being diagnosed. The purpose is to provide a pattern investigation device for use.

The present invention for achieving this purpose includes a light source unit that irradiates light; a filter unit in which a fine pattern is formed corresponding to a pattern for indicating the position of an ultrasonic tester for concrete safety diagnosis; a fixing part for fixing the filter part; It includes a housing part on which the light source part, the filter part, and the fixing part are mounted, and the fine pattern corresponding to the pattern for indicating the position of the ultrasonic tester is comprised of six circular patterns spaced apart from each other in the left and right directions. Provides a pattern investigation device for use.

The filter unit; A transparent substrate portion; It includes a film portion disposed on a transparent substrate and forming a fine pattern corresponding to a pattern for indicating the position of an ultrasonic tester, wherein the film portion includes a background area that prevents light from being transmitted, and a plurality of spaced elements provided in the background area that transmit light. A pattern irradiation device for indicating the position of an ultrasonic tester is provided, comprising a transmission area and a border area provided on the border of the transmission area to transmit and project light in color.

In addition, when the distance from the end of the irradiation device to the wall is 1.3 m, the center of the transmission area projected on the wall and the center of the adjacent transmission area are 10 cm, and the diameter of the transmission area projected on the wall is 5.5 cm. , The thickness of the border area projected on the wall is 3 mm. A pattern irradiation device for indicating the position of an ultrasonic tester, characterized in that .

It further includes a support member provided at a lower portion of the housing, wherein the support member includes an upper support member supporting the lower portion of the housing; a space provided at a lower portion of the upper support member, the edge of which is spaced apart from the edge of the upper support member. It is characterized in that it includes a lower support member constituting the part.

It further includes a support module on which the support member is mounted, wherein the support module includes a mounting module on which the support member is mounted, and a leg module provided at a lower portion of the mounting module, and the mounting module is capable of rotating on the mounting plate and the mounting plate. It is disposed so as to include an insertion member rotatably fitted into the space of the support member.

The mounting plate includes an upper mounting plate provided with a mounting groove, a lower mounting plate provided at a lower portion of the lower mounting plate, and a hinge portion rotatably connecting the upper mounting plate and the lower mounting plate, and the mounting module is mounted upward. Alternatively, it is provided to be operable downward, so that the direction toward which the irradiation device faces can be vertically upward or vertically downward.

According to the present invention, a pattern for indicating the position of an ultrasonic tester can be easily and quickly formed on the wall, ceiling, or floor using an irradiation device without the need to attach stickers or display colors on the wall subject to safety diagnosis. There is an advantage.

Figure 1 is a perspective view showing an irradiation device that forms a pattern for indicating the position of an ultrasonic tester according to the present invention.
Figure 2 shows a pattern for indicating the position of an ultrasonic tester formed on a wall according to the present invention.
Figure 3 is a perspective view of the housing and support member of the irradiation device according to the present invention and a side cross-sectional view of the filter portion.
Figure 4 is a combined perspective view of the irradiation device according to the present invention viewed from the front.
Figure 5 is an exploded perspective view of the irradiation device according to the present invention.
Figure 6 is a combined perspective view of the irradiation device according to the present invention looking at the ceiling.
Figure 7 is a combined perspective view of the irradiation device according to the present invention looking at the floor.

Since the present invention can be subject to various changes and can have various embodiments, specific embodiments will be illustrated and described in the drawings.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Terms containing ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by the terms.

The above terms are used only for the purpose of distinguishing one component from another.

For example, the second component may be referred to as the first component without departing from the scope of the present invention, and similarly, the first component may also be referred to as the second component.

The term and/or includes any of a plurality of related stated items or a combination of a plurality of related stated items.

When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be.

On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention.

Singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, embodiments will be described in detail with reference to the attached drawings, but identical or corresponding components will be assigned the same reference numbers regardless of reference numerals, and duplicate descriptions thereof will be omitted.

As shown in Figure 1, the pattern irradiation device (hereinafter referred to as 'irradiation device') for indicating the position of an ultrasonic tester according to the present invention (1) includes a housing portion 100 and a support member 200 provided at the lower portion. and a support module 300 supporting the support member 200.

A switch unit 110 that can turn on/off the light source unit 120 is provided at the rear of the housing unit 100. The light source unit 120 is accommodated inside the housing unit 100, and in front of the light source unit 120. A filter unit 130 in which a fine pattern corresponding to a pattern P2 for indicating the position of an ultrasonic tester for measuring concrete rebound hardness is formed, and a fixing unit 140 for fixing the filter unit 130 are provided.

Therefore, the light irradiated from the light source unit 120 is emitted to the outside through the filter unit 130, and the emitted light is patterned and projected onto the wall that is the subject of a safety diagnosis test using an ultrasonic tester.

The purpose of the ultrasonic flaw detection method is to estimate the compressive strength of concrete by deriving the correlation between the ultrasonic transmission speed transmitted along the hardened concrete surface and the concrete compressive strength.

The principle of ultrasonic flaw detection is to measure the transmission time of an ultrasonic pulse passing through concrete by an oscillator, sender, and receiver, convert it to ultrasonic speed, and estimate the intensity by deriving a correlation with the concrete strength.

For the ultrasonic flaw detection method, i) a flat area with no cracks should be selected on the structure for measurement, ii) painted or overlaid areas should be removed, iii) irregularities, voids, and gravel exposed areas should be avoided, and iv) grinders should be used. Any unevenness or powder must be removed with a brush, v) Grinding should be done at least 50cm in the longitudinal and horizontal directions of the measurement area, and vi) It is advisable to avoid cases where humidity is high and it is raining or the structure is wet.

The measurement method using the ultrasonic inspection method determines the location of the rebar through a rebar exploration test in advance at the measurement site. Make sure that rebar is not placed directly at the sender and receiver locations, and grind the measurement area in the vertical and horizontal directions. Mark the measuring position of the probe using a previously prepared position indicating device. Apply a contact agent (grease, etc.) to the surface to be measured and measure the sender and receiver in close contact. It is advisable to turn on the electric power for 10 to 20 minutes before measuring and conduct the measurement in a stable condition. Before measurement, perform zero point adjustment using the calibration bar. Measurements are performed in the vertical and horizontal directions at the measurement location. When measuring, the sender is fixed and the receiver is moved while measuring. Measure the ultrasonic transmission time when the measurement value stabilizes from 10 cm to 50 cm at 10 cm intervals in the vertical and horizontal directions.

For intensity estimation, it is desirable to determine the propagation speed by analyzing the measured data and to select and evaluate an appropriate intensity estimation formula in the field.

As shown in Figure 1, when the distance from the end of the irradiation device to the wall is 1.3 m, as shown in Figure 2, the center of the tester placement position for ultrasonic flaw detection projected on the wall (circular transmission area of light) (132) The mutual spacing between the centers is 10 cm to form one vertical row, and a total of 6 inspection positions are formed.

Also, the diameter of the transmission area 132 projected on the wall is 5.5 cm, and the thickness of the border area 133 projected on the wall is 3 mm.

And it is desirable that the total width of the pattern is 55.5cm.

Here, since the transparent area 132 is a transparent part, it is preferably displayed in white or a transparent color on the wall, the border area 133 is preferably displayed in a ring shape of a different color (e.g., red), and the remaining background area 134 ) is preferably displayed in black or dark gray. By providing the border area 133 in this way, the background area 134 and the transparent area 132 can be clearly distinguished.

As shown in Figure 3, the housing 100 is provided in a cylindrical shape, and a light source unit 120 that irradiates strong light is provided inside the housing 100, and a filter unit 130 and a filter in front of the housing 100. A fixing part 140 in the form of a ring that fixes the part 130 is provided.

The filter unit 130 includes a circular transparent substrate unit 131 and a film unit 130a attached to the surface of the transparent substrate unit 131, and the film unit 130a has a fine pattern corresponding to the tester pattern. This is formed.

The film unit 130a includes a background area 134 that prevents light from being transmitted, a plurality of spaced apart transmission areas 132 provided in the background area 134 to transmit light, and a plurality of spaced apart transmission areas 132 provided on the edge of the transmission area to transmit light. It includes a border area 133 that is transmitted and projected in color.

A support member 200 is provided at the lower part of the housing 100, and the support member 200 includes an upper support member 210 supporting the lower part of the housing 100, and a lower part of the upper support member 210. It includes a lower support member 220, the edge of which constitutes a space 230 spaced apart from the edge of the upper support member 210.

As shown in Figures 4 and 5, the housing 100 is fixed on the support module 300.

The support module 300 includes a mounting module 310 on which the support member 200 is mounted, and a leg module 320 provided at the lower part of the mounting module 310, and the mounting module 310 is a mounting plate () and an insertion member 312 rotatably fitted into the space 230 of the support member 200, that is, the space 230 formed between the upper support member 210 and the lower support member 220. do.

The mounting plate 311 of the support module 300 is provided with a mounting groove 311c into which the lower support member 220 can be mounted, and an insertion member 312a and a horizontal handle 312b are provided on the front of the mounting groove 311c. ) is connected and prepared for meetings.

The insertion member can be inserted into or removed from the space, and the horizontal handle 312b is connected to the insertion member 312a to determine the advance and retreat of the insertion member 312a.

Additionally, the support module 300 is preferably provided with a vertical handle 314 that controls the vertical movement of the support module 300.

Meanwhile, the leg module 320 is preferably composed of three legs so that it can be in the form of a tripod, but the number is not limited to this.

As shown in Figures 6 and 7, the mounting plate 311 is further divided into an upper mounting plate 311a and a lower mounting plate 311b, and the upper mounting plate 311a has the above-described mounting groove 311c and An insertion member 312a and a horizontal handle 312b are provided.

A hinge portion 311d is provided on one side of the lower mounting plate 311b and the upper mounting plate 311a, so that the upper mounting plate 311a is rotatable to one side with respect to the lower mounting plate 311b.

Therefore, when the housing 100 is held and rotated to one side while the housing 100 is fixed to the upper mounting plate 311a by the insertion member 312b, the upper mounting plate 311a is relative to the lower mounting plate 311b. It is erected vertically.

At this time, when the housing 100 is rotated, the irradiation direction of the irradiation device 1 can be placed vertically upward, as shown in Figure 6, or the irradiation direction of the irradiation device 1 is vertical, as shown in Figure 7. It can be placed in a downward direction.

Therefore, a pattern for indicating the position of the ultrasonic tester can be projected on the ceiling or floor by irradiating light on the ceiling or floor.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only for illustrating the invention, and those skilled in the art may make various modifications or equivalents from the detailed description of the invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of rights of the present invention must be determined by the technical spirit of the patent claims.

100: housing 110: switch
120: light source unit 130: filter unit
140: fixing part 200: support member
300: Support module

Claims (6)

a light source unit that irradiates light;
a filter unit in which a fine pattern is formed corresponding to a pattern for indicating the position of an ultrasonic tester for concrete safety diagnosis;
a fixing part for fixing the filter part;
It includes a housing part on which the light source part, the filter part, and the fixing part are mounted,
A plurality of fine patterns corresponding to the pattern for indicating the position of the ultrasonic tester are provided,
The filter unit; A transparent substrate portion;
It includes a film portion disposed on a transparent substrate portion and forming a fine pattern corresponding to a pattern for indicating the position of an ultrasonic tester,
The film portion is characterized in that it includes a background area that prevents the transmission of light, a plurality of spaced apart transmission areas provided in the background area to transmit light, and a border area provided on the border of the transmission area to transmit and project light in color. A pattern survey device for indicating the position of an ultrasonic tester. According to paragraph 1,
The plurality of fine patterns are
A pattern survey device for indicating the position of an ultrasonic tester, characterized in that it consists of six circular patterns spaced apart from each other in the left and right directions. According to paragraph 2,
When the distance from the tip of the irradiation device to the wall is 1.3 m,
The center of the transmission area projected on the wall and the center of the adjacent transmission area are 10cm,
The diameter of the transmission area projected on the wall is 5.5 cm,
A pattern survey device for indicating the position of an ultrasonic tester, characterized in that the thickness of the border area projected on the wall is 3 mm. According to paragraph 1,
It further includes a support member provided at the lower part of the housing,
The support member includes an upper support member supporting the lower part of the housing;
A pattern irradiation device for indicating the position of an ultrasonic tester, comprising a lower support member provided below the upper support member, the edge of which constitutes a space spaced apart from the edge of the upper support member. According to clause 4,
It further includes a support module on which the support member is mounted,
The support module includes a mounting module on which a support member is mounted, and a leg module provided at the lower part of the mounting module,
The mounting module is a pattern survey device for indicating the position of an ultrasonic tester, characterized in that it includes a mounting plate, and an insertion member rotatably disposed on the mounting plate and rotatably fitted into the space of the support member. According to clause 5,
The mounting plate includes an upper mounting plate provided with a mounting groove,
A lower mounting plate provided at the lower part of the upper mounting plate,
It includes a hinge portion that rotatably connects the upper mounting plate and the lower mounting plate,
A pattern irradiation device for indicating the position of an ultrasonic tester, characterized in that the mounting module is provided to be operable in an upward or downward direction, so that the direction in which the irradiation device faces is vertically upward or vertically downward.