KR102602852B1 - Crack measurement jig for safety diagnosis of building - Google Patents

Abstract

The present invention relates to a crack measuring jig. Specifically, when attaching a crack tip with epoxy, it is attached using a dish-shaped fixing plate so that a gap is formed between the epoxy adhesive surface and the fixing plate, so that when removed, a gap such as a Hera is formed in the gap. This relates to a crack measuring jig for building safety diagnosis that allows the epoxy adhesive surface to be easily removed by inserting a tool and further prevents paint from peeling off or damage to the building structure.

Description

Crack measurement jig for building safety diagnosis {CRACK MEASUREMENT JIG FOR SAFETY DIAGNOSIS OF BUILDING}

The present invention relates to a crack measuring jig. Specifically, when attaching a crack tip with epoxy, it is attached using a dish-shaped fixing plate so that a gap is formed between the epoxy adhesive surface and the fixing plate, so that when removed, a gap such as a Hera is formed in the gap. This relates to a crack measuring jig for building safety diagnosis that allows the epoxy adhesive surface to be easily removed by inserting a tool and further prevents paint from peeling off or damage to the building structure.

In general buildings, cracks may occur due to errors in the design process or external environments. These cracks have a negative impact on the overall durability of the building and shorten its lifespan, and cause secondary pollution due to water leakage due to cracks. Damage may also occur. In particular, there is a risk of the facility collapsing depending on whether the crack grows.

Accordingly, the law stipulates that safety inspections of buildings be performed regularly, and one of the essential inspection items when conducting building safety inspections is whether cracks occur. In other words, when inspecting the safety of a building, the occurrence of cracks must be investigated. In particular, for cracks in progress, the crack occurrence point must be marked and then continuously managed and observed.

Examples of such crack investigation methods include domestically registered patent No. 10-0244072, a crack width monitor for safety inspection of buildings, and progressive concrete crack measuring device, No. 10-2253275.

The crack width monitor for safety inspection of the building attaches a fixer so that the concave part of the first fixing member 10 and the protrusion of the second fixing member 20 overlap at the crack occurrence point as shown in FIG. 1, On the simple ruler, draw an extension line of the crack (1) using a marker pen.

Then, the width of the crack 1 is measured by placing the measuring point of the vernier caliper 2 in the central part of the depression of the measurement blocks 10a and 20a.

As shown in FIG. 2, the progressive concrete crack measuring device includes an annular base (31) each attached to the concrete structures (20, 21) on both sides with the crack portion (22) formed in the concrete structures (20, 21) in between. Includes a reference base (41).

However, a device that measures cracks using a conventional vernier caliper attaches crack tips (crack gauges) bonded with epoxy to the concrete building on both sides across the crack formed in the concrete building, and vernier calipers are measured based on this. Measure cracks using .

However, these crack tips are usually attached with epoxy, and when attempting to remove the crack tip after completing the measurement, it is not easy to separate the epoxy and the crack tip, so in most cases, it is not removed at the measurement site, or even if removed, the paint may peel off or damage the building structure. There is a problem with damage occurring.

In addition, in order to measure cracks, it is desirable to attach the crack direction and crack tip at right angles to measure them. However, since workers usually set the crack direction and crack tip position through the naked eye and attach it, the reliability of crack measurement values is lowered. There is.

Domestic Registered Patent No. 10-0244072 Domestic Registered Patent No. 10-2253275 Domestic Registered Patent No. 10-2507167

The present invention is intended to solve the above problems. When attaching a crack tip with epoxy, it is attached using a dish-shaped fixing plate so that a gap is formed between the epoxy adhesive surface and the fixing plate, so that when removed, a gap such as a spatula is formed in the gap. The purpose is to provide a crack measuring jig for building safety diagnosis that allows the epoxy adhesive surface to be easily removed by inserting a tool and further prevents paint from peeling off or damage to the building structure.

In addition, in the present invention, when installing the crack tip, the position adjustment unit is attached using a magnet attached to the crack tip and magnetic force, and the crack line and the indicator rod are positioned on the same line using an indicator bar installed in the center of the position adjustment unit. Another purpose is to provide a crack measurement jig for building safety diagnosis that increases reliability of crack measurement values by maintaining the position of the crack tab at a right angle to the crack line by attaching the crack tip to the building structure.

The features of the present invention for achieving the above object are:

A fixing plate filled with epoxy inside, bonded across cracks formed in the concrete building by epoxy, and formed in the shape of a dish with an open bottom to form a gap on the epoxy adhesive surface; Crack tips attached to the inside of each fixing plate with epoxy; and a position adjustment unit that is attached to each crack tip by magnetic force and adjusts the position of the crack tip so that the crack tip is attached perpendicular to the crack area. The position adjustment unit is a main unit formed in the shape of a square pipe. Cancer; a sliding arm that is inserted into both ends of the main arm and slides left and right and whose length is adjusted; A magnet fixed to the rear end of the sliding arm and attached to the crack tip; and an antenna pointing rod that is fixed at a right angle to the front center of the main arm and extends in length.

Here, the fixing plate has a plurality of holes formed on its side to increase the bonding strength with the epoxy while relatively increasing the curing speed of the epoxy.

Here again, the fixing plate is made of metal and is manufactured by a punching press.

Here again, the fixing plate has an upper inner diameter larger than the diameter of the crack tip and a lower inner diameter smaller than the diameter of the crack tip so that the crack tip protrudes from the fixing plate without interfering with the position adjustment unit. .

Here again, the magnet of the position adjustment unit is provided with a protrusion to be inserted into the groove of the crack tip.

According to the present invention's crack measuring jig for building safety diagnosis constructed as described above, when attaching the crack tip with epoxy, it is attached using a dish-shaped fixing plate so that a gap is formed between the epoxy adhesive surface and the fixing plate, so that when removed, the crack tip is attached with epoxy. By inserting a tool such as Hera, you can easily remove the epoxy adhesive surface and further prevent the paint from peeling off or damage to the building structure.

In addition, according to the present invention, when installing the crack tip, the position adjustment unit is attached using a magnet attached to the crack tip and magnetic force, and the crack line and the indicator rod are positioned on the same line using an indicator bar installed in the center of the position adjustment unit. By attaching the crack tip to the building structure, the position of the crack tab can be maintained at a right angle to the crack line, increasing the reliability of crack measurement values.

Figures 1 and 2 are diagrams showing the configuration of a device for measuring cracks using a conventional vernier caliper.
Figure 3 is a perspective view showing the configuration of the crack measuring jig for safety diagnosis of buildings according to the present invention in an installed state.
Figure 4 is a cross-sectional view of part AA of Figure 3.
Figure 5 is a partial cross-sectional perspective view showing the configuration of a fixing plate among the crack measurement jig for building safety diagnosis according to the present invention.
Figure 6 is an exploded perspective view showing the configuration of the position adjustment unit among the crack measurement jig for building safety diagnosis according to the present invention.

Hereinafter, the configuration of the crack measuring jig for building safety diagnosis according to the present invention will be described in detail with reference to the attached drawings.

In describing the present invention below, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Figure 3 is a perspective view showing the configuration of the crack measuring jig for building safety diagnosis according to the present invention in an installed state, Figure 4 is a cross-sectional view of part A-A of Figure 3, and Figure 5 is a fixed crack measuring jig for building safety diagnosis according to the present invention. It is a partial cross-sectional perspective view showing the configuration of the plate, and Figure 6 is an exploded perspective view showing the configuration of the position adjustment unit among the crack measurement jig for building safety diagnosis according to the present invention.

Referring to Figures 3 to 6, the crack measuring jig 100 for building safety diagnosis according to the present invention consists of a fixing plate 110, a crack tip 120, and a position adjustment unit 130.

First, the fixing plate 110 is filled with epoxy (A) inside, and is bonded across cracks formed in the concrete building (C) by the epoxy (A), forming a gap (S) on the epoxy adhesive surface. It is formed in the shape of a dish with an open bottom.

It is preferable that the fixing plate 110 has a plurality of through holes 111 formed on its side to increase the bonding strength with the epoxy (A) while relatively increasing the curing speed of the epoxy (A).

The fixing plate 110 is made of a metal material such as stainless steel or steel plate by a punching press, and as shown in FIG. 5, the crack tip 120 is fixed to the fixing plate 110 so as not to interfere with the position adjustment unit 130. It is preferable that the upper inner diameter is larger than the diameter of the crack tip 120 and the lower inner diameter is formed smaller than the diameter of the crack tip 120 so that it protrudes from.

In addition, the crack tip 120 has a normal structure and is formed in the shape of a disk, and a groove 121 into which the digital vernier caliper jaw is inserted is formed in the center of the upper surface.

The crack tip 120 is preferably made of steel so that the magnet of the position adjustment unit 130 is attached to it.

Additionally, the position adjustment unit 130 consists of a main arm 131, a sliding arm 133, a magnet 135, and an indicator rod 137.

The main arm 131 is formed in the shape of a square pipe.

The sliding arm 133 is inserted into both ends of the main arm 131 and slides left and right to adjust its length.

The magnet 135 is fixed to the rear end of the sliding arm 133 and attached to the crack tip 120. At this time, the magnet 135 is preferably provided with a protrusion 135a to be inserted into the groove 121 of the crack tip 120.

The pointer 137 is an antenna pointer whose length extends, and is fixedly installed at a right angle to the front center of the main arm 131.

Hereinafter, the installation process of the crack measurement jig for building safety diagnosis according to the present invention will be described in detail with reference to the attached drawings.

First, solid epoxy (A) is mixed with fingers and then filled into each fixing plate 110. At this time, it is desirable to allow a portion of the epoxy (A) to protrude through the open portion on the bottom of the fixing plate 110.

In this state, the crack tip 120 is inserted into the epoxy (A) filled inside the fixing plate 110.

Next, a crack tip 120 is attached to each magnet 135 of the position adjustment unit 130, and the crack tip 120 and the fixing plate 110 are fixed together at both ends of the position adjustment unit 130.

Then, position the position adjustment unit 130 at the crack formed in the concrete building (C), and then move the position adjustment unit 130 using the pointer 137 to align it with the crack line as much as possible. At this time, if the crack area is wide or it is difficult to attach near the crack area, the sliding arm 133 is ejected from the main arm 131 and the position is adjusted.

When the magnet 135 coupled to the end of the slide arm 133 is pressed while aligning the indicator rod 137 with the crack line as much as possible, the inside of the fixing plate 110 is filled and some of it is discharged through the bottom. Epoxy (A) is closely adhered to the concrete building (C). At this time, the worker prevents the magnet 135 from falling off by pressing it until the epoxy (A) is partially cured.

When the epoxy (A) is hardened, the operator separates the magnet 135 from the crack tip 120 and separates the entire position adjustment unit 130.

When separation is completed, the operator inserts each jaw (JAW) of the digital vernier caliper into the groove 121 of the crack tip 120 to measure the initial gap, and checks the crack value by measuring the gap at a certain time unit. .

Meanwhile, when all measurements are completed, the worker inserts a tool such as a Hera into the gap (S) formed by the fixing plate 110 and then lifts it, so that the epoxy adhesive surface easily falls off the concrete building (C).

Therefore, according to the present inventor's crack measuring jig for building safety diagnosis, when attaching the crack tip with epoxy, it is attached using a dish-shaped fixing plate so that a gap is formed between the epoxy adhesive surface and the fixing plate, so that when removed, a gap such as Hera is formed in the gap. By inserting a tool, you can easily remove the epoxy adhesive surface and further prevent the paint from peeling off or damage to the building structure.

In addition, according to the present invention, when installing the crack tip, a bar magnet that is attached to the crack tip by magnetic force is attached, an antenna pointer is installed in the center of the bar magnet, the length of the antenna pointer is increased, and the crack line and the antenna pointer are aligned on the same line. By attaching the crack tip to the building structure in the positioned state, the position of the crack tab can be maintained at right angles to the crack direction, increasing the reliability of crack measurement values.

The present invention can be modified in various ways and can take various forms, and in the detailed description of the invention, only special embodiments thereof have been described. However, it should be understood that the present invention is not limited to the particular form mentioned in the detailed description, but rather is understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It has to be.

110: fixing plate 111: through hole
120: Crack tip 121: Home
130: Position adjustment unit 131: Main arm
133: sliding arm 135: magnet
137: Pointer A: Epoxy
C: Concrete building S: Gap

Claims (5)

The inside is filled with epoxy and bonded across the cracks formed in the concrete building by epoxy, and is formed in the form of a dish with an open bottom to form a gap on the epoxy adhesive surface, while relatively increasing the curing speed of the epoxy. A fixing plate having a plurality of through holes formed on the side to increase bonding strength with epoxy and made of metal using a punching press;
A crack tip is attached to the inside of each of the fixing plates with epoxy, has a disc-shaped groove in the center of the upper surface into which the jaw of the digital vernier caliper is inserted, and is made of steel. and
It consists of a position adjustment unit that is attached to each crack tip by magnetic force and adjusts the position of the crack tip so that the crack tip is attached perpendicular to the crack area,
The position adjustment unit,
A main arm formed in the shape of a square pipe;
a sliding arm that is inserted into both ends of the main arm and slides left and right and whose length is adjusted;
A magnet fixed to the rear end of the sliding arm and attached to the crack tip; and
An antenna pointing rod that extends in length, including a pointing rod fixed at a right angle to the front center of the main arm,
The fixing plate is,
A crack for building safety diagnosis, characterized in that the upper inner diameter is larger than the diameter of the crack tip and the lower inner diameter is formed smaller than the diameter of the crack tip so that the crack tip protrudes from the fixing plate without interfering with the position adjustment unit. Measuring jig. delete delete delete According to claim 1,
The magnet of the position adjustment unit is,
A crack measuring jig for building safety diagnosis, characterized in that it is provided with a protrusion to be inserted into the groove of the crack tip.