KR102506058B1 - Schmidt hammer strike point indicator for safety inspection and diagnosis - Google Patents

Abstract

The present invention relates to a Schmidt hammer strike point indicator for safety inspection and diagnosis, which can clearly show a strike point by cleaning dust from the surface of a structure, cleanly removing dust by brushing away or scratching the dust with physical impacts, and separately performing dust removal work and marking work. The Schmidt hammer strike point indicator for safety inspection and diagnosis provided by the present invention comprises: a support frame (10) which is supported on the surface of the structure; a marking tool (20) in which a plurality of marking members (21) are accommodated and which is connected to the support frame to be movable forward and backward to enable the marking members to mark the strike point on the surface of the structure through the forward movement; and a dust removal member (30) which is mounted under the support frame and removes dust from the surface of the structure while moving along the surface of the structure. The dust removal member comprises: a rotation rod (31) which is connected to a hub formed in the support frame to be rotatable; and a dust removal rod (32) which is formed on an end of the rotation rod and removes dust from the surface of the structure.

Description

Schmidt hammer strike point indicator for safety inspection and diagnosis}

The present invention relates to a technology for safety inspection and diagnosis using non-destructive testing (Schmidt hammer) of a concrete structure, and more particularly, to a Schmidt hammer impact point indicator for safety inspection and diagnosis of marking impact points after cleaning the surface of a structure. It is about.

This section provides background information related to the subject matter of this application and is not necessarily prior art.

In general, as the number of aging social infrastructures increases, it has become a current issue that non-destructive testing of structures is emerging as an important task to secure the safety of existing structures along with safe maintenance of these infrastructures. In addition, cases of remodeling structures in consideration of economic feasibility, usability, and efficiency are increasing. Even in these cases, non-destructive testing is emerging as very important in relation to safety evaluation of structures and recyclability evaluation of demolition facilities. In particular, in the case of existing social infrastructure, steel and concrete are used as the main materials, and concrete accounts for a larger portion of these two representative construction materials, so non-destructive testing of concrete is important.

There is a Schmidt Hammer Test widely used as a non-destructive inspection method for existing concrete facilities.

The Schmidt hammer method draws 4 parallel horizontal lines using chalk and a ruler at intervals of 3 cm each in the horizontal direction on the concrete surface of the measurement target, and then leaves them at intervals of 3 cm along the vertical direction so that they are orthogonal to the horizontal line. After drawing 5 vertical lines, the hardness inside the concrete structure is measured by hitting the Schmidt hammer at the orthogonal points (20 points) of each horizontal and vertical line.

On the other hand, the preparation work for marking the impact point on the structure also includes surface cleaning work (grinding, cleaning), for example, removing dust (foreign matter) after polishing the surface of the structure with a grinder, or removing dust without polishing Remove

As a patent document that can confirm the background art of the present invention, Registration Patent No. 10-2285816 is a support plate formed of a rectangular plate body; Support units each mounted vertically to a corner portion of the lower portion of the support plate; a pressing plate formed to the same size as the supporting plate 110 at a position spaced apart from a predetermined height above the supporting plate; A corrugated pipe made of flexible material attached to an edge between the support plate and the pressure plate to close the circumference; a recovery spring mounted inside between the support plate and the pressing plate; a marking unit fixed to the lower portion of the pressing plate at regular intervals and simultaneously displaying the impact point of the Schmidt hammer when the pressing plate is pressed; Marking for marking the impact point of the Schmidt hammer, which is formed through the support plate at regular intervals and consists of an air injection hole that removes foreign substances and dust by instantaneously spraying air between the support plate and the pressure plate around the impact point when the pressure plate is pressed. It is a device, and since it sprays air around the impact point when pressurizing the platen, it is impossible to clean the surface of the structure without marking the impact point. Because it is impossible.

In addition, although the marking unit penetrates the supporting plate, the corrugated tube does not stably support the pressurizing plate, causing shaking, and consequently, it is difficult to make clear marking in a dot shape.

In addition, since the air injection hole is located around the marking part and air is injected toward the front of the air injection hole, the part cleaned by the air is not the part where the hitting point is marked, but the area around it, and foreign substances may be marked by the marking part. There is a problem in that the hitting point is marked with foreign substances by scattering to a place, and these foreign substances are scattered, so that the striking point cannot be clearly marked on the structure.

In addition, there is a problem in that the dust removed by air blowing cannot be prevented from scattering, thereby damaging the working environment.

In addition, the air injection hole only injects air and does not help the marking operation of the pressing plate and the marking unit.

Registered Patent No. 10-2285816

The present invention is to solve the above-mentioned problems, it is possible to clearly show the impact point by cleaning the dust on the surface of the structure, cleanly remove the dust by shaking or scraping it with physical impact, and the dust removal operation and the marking operation The purpose is to provide a Schmidt hammer hitting point indicator for safety inspection and diagnosis that can be classified.

Another object of the present invention is to freely select a structure cleaning operation and a striking point marking operation.

Another object of the present invention is to prevent scattering of dust generated during cleaning of a structure.

The Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention includes a support frame supported on the surface of the structure; A marking tool for accommodating a plurality of marking members and being connected to the support frame so as to move forward and backward so that the marking member marks an impact point on the surface of the structure through advancement; It is movably mounted under the support frame and includes a dust removal member for removing dust from the surface of the structure while moving along the surface of the structure, wherein the dust removal member is formed on the inside of the hub formed on the support frame. It is characterized in that it comprises a rotating rod rotatably connected to, a dust removal rod formed at an end of the rotating rod and removing dust from the surface of the structure.

According to the Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention, dust is removed from the surface of the structure only by rotating the dust removal member after mounting the hitting point indicator to mark the hitting point without performing a separate cleaning operation. By removing the dust, the work can be reduced, and since the dust removal rod moves along the surface of the structure to shake or scrape the dust, the removal efficiency can be increased compared to the removal by air spraying. After the cleaning operation by marking, there is no phenomenon that the hitting point disappears as the dust falls, so the striking point is kept clear, and thus, there is an effect of easily proceeding with the marking of the striking point using the Schmidt hammer.

In addition, since the dust removal member and the marking tool can be operated independently, the surface of the structure can be cleaned by multiple dust removal operations in a dusty place, or it is possible to mark the impact point without dust removal. Therefore, There is an effect of improving the effectiveness of the impact point indicator through free selection of cleaning and marking.

In addition, there is an effect of improving the working environment by preventing dust scattering and collecting dust during dust removal.

1 is an exploded perspective view of a Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention.
2 and 3 are side views of the Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention, respectively.
2 is before marking the hitting point,
3 is after marking the hitting point.
Figure 4 is a bottom view of the Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be 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 operator. Therefore, the definition should be made based on the contents throughout this specification.

As shown in FIGS. 1 to 4, the Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention includes a support frame 10 supported on the structure 1, and a plurality of marking members for marking the hitting point. (21) is accommodated and is connected to the support frame 10 so as to be able to move forward and backward, and the marking tool 20 for marking the hitting point through the marking member 21 is supported on the support frame 10 and is supported on the surface of the structure 1 It includes a dust removal member 30 that removes dust (meaning all foreign substances on the surface of the structure 1) by physical impact of shaking or scraping.

The support frame 10 includes a support frame body 11, a plurality of legs 12 formed on the circumference of the support frame body 11 and supported on the surface of the structure 1, and a circumference of the support frame body 11. It includes a guide rod 13 protruding from the opposite side of the leg 12, and a cylindrical hub 14 built in the center of the support frame body 11.

The support frame body 11 is a structure that does not interfere with the marking of the marking member 21, and for example, as shown in the drawing, it is possible to have a rectangular frame shape with a space inside or through which the marking member 21 passes. A plate with 20 holes is also available.

The legs 12 may be formed integrally with the support frame body 11, or may be in the form of bolts assembled by screwing, and are formed at four corners of the support frame body 11, respectively, to support the support frame body 12. (11) is spaced apart from the structure (1) at a predetermined interval, and dust removal of the dust removal member (30) is possible through this interval.

The guide rods 13 are formed at four corners of the support frame body 11 and guide the forward and backward movements of the marking tool 20 in a certain direction, and are circular or square rods that hold the marking tool 20 at the circumference. The coil spring 15 for elastic support is coupled, and the nut 16 is fastened on the opposite side of the marking tool 20.

The initial position of the marking tool 20 can be freely set through the structure of the guide rod 13 .

The hub 14 protrudes from the opposite side of the structure 1 at approximately the center of the support frame body 11, and the rotating rod 31 of the dust removal member 30 is rotatably inserted into the inside and the marking tool 20 is rotatably inserted therein. The hub 24 of ) is slidably coupled.

The hub 14 is connected to the support frame body 11 through two or more spokes 18 on the structure of the support frame body 11 .

The support frame 10 includes a collecting part 17 that collects the dust removed through the dust removal member 30 on the circumferential portion. The scoop 17 is formed on the upper and lower parts or one side of the entire circumference of the support frame 10 or based on the state of use, and is preferably in the form of a concave groove to contain dust.

When the collecting part 17 is present only in a part of the circumferential part, it is also possible to prevent scattering of dust by forming a curtain on the remaining part of the circumferential part.

The marking tool 20 is formed on the circumference of the marking tool body 21 equipped with a plurality of marking member holes 22 and the marking tool body 21, and the guide rod 13 of the support frame 10 is slidable. It includes a guide hole 23 that is accommodated, and a hub 24 formed in the center of the marking tool body 21 and slidably connected to the circumference of the hub 14 of the support frame 10.

The marking tool body 21 is a rectangular plate, and includes 20 marking member holes 22 according to the spacing of the striking points, and the marking member holes 22 are bolted while wrapping the hole or the circumference of the marking member 21. A cylinder containing a fastener of is possible.

As the marking member 22, various writing instruments such as chalk and water-based pens are used.

The guide hole 23 is formed to fit the guide rod 13 of the support frame 10, the guide rod 13 is coupled, and is formed with a diameter for smooth forward and backward movement of the marking tool 20.

The hub 24 is a handle for moving the marking tool 20 forward and backward.

The dust removal member 30 includes a rotating rod 31 and a dust removal rod 32.

The rotating rod 31 is rotatably inserted into the hub 14 of the support frame 10 and functions as a handle as well as a rotational center of the dust removal member 30.

The dust removal rod 32 is disposed in front of the support frame 10 and is connected to the end of the rotating rod 10, and removes dust from the surface of the structure 1 through the rotation of the rotating rod 10, and to shake off the dust. It can be in the form of a brush with multiple bristles or in the form of a rubber plate that scrapes off dust.

The dust removal rod 32 is shown as a straight line formed on both the left and right sides with respect to the rotating rod 31, but is not limited thereto, and various shapes such as a cross shape are possible.

In the case of a method in which the dust removal rod 32 rotates around the rotating rod 31, the striking point is made of a length that can clean the corner of the place to be marked, that is, in the drawing, the marking member 21 on the corner side Although shown as a length that cannot clean the place to be marked, this is just an example, and the length is a length that can clean the entire place where 20 hitting points are marked.

In addition, a dust scattering prevention plate 33 may be included behind the dust removal rod 32 .

The anti-scattering plate 33 is a plate material having a larger area than the dust removal rod 32, and may be a curved shape surrounding the dust removal rod 32, and is connected to the end of the rotating rod 31. That is, the dust removal rod 32 - the anti-scattering plate 33 - the rotating rod 31 are arranged in a line and may be assembled to each other through bolts.

The anti-scattering plate 33 can guide the forward and backward movement of the marking tool 20 together with the function of preventing scattering, and is formed with semicircular grooves on both sides, respectively, so that the marking member 21 can move forward and backward. Section 34 is included.

In addition, the dust removal member 30 may be elastically supported toward the surface of the structure 1 through the elastic member 35 to increase dust removal efficiency by bringing the dust removal rod 32 into close contact with the structure 1, The elastic member 35 is a coil spring or a plate spring that pushes the anti-scattering plate 33 toward the structure 1 between the anti-scattering plate 33 and the spokes 18 of the support frame 10.

In the dust removal member 30 having an elastic member 35, the dust removal rod 32 may be located behind the leg 12 of the support frame 10 in normal times, and by the pressing force of the operator during dust cleaning. After moving forward, the dust can be removed by rotating.

The dust removal member 30 must be configured so as not to fall off from the support frame 10, for example, integrally formed on the circumference of the rotating rod 31 protruding outward of the hub 14 of the support frame 10 or An anti-leave pin or nut to be coupled is included.

In addition, the dust removal member 30 has an initial position that is arranged along the left and right transverse directions (3 o'clock and 9 o'clock directions) at the center of the support frame 10 based on the drawing, and this initial position is stably The support frame 10 includes an alignment jaw 19 so as to be maintained. The alignment jaw 19 protrudes from the front of the spoke 18 of the support frame 10 and aligns the position of the dust removal rod 32 or the anti-scattering plate 33 to the left and right horizontal positions.

In addition, to maintain the alignment of the dust removal member 30 more stably, the alignment jaw 19 is made of iron, and the dust removal member 30 has a magnet 36 attached to the alignment jaw 19 with a magnetic force. can be included The position of the magnet 36 and the alignment jaw 19 may be reversed.

An elastic member (torsion spring) may be applied to the dust removal member 30 to return to the initial position by an elastic force after being cleaned by rotating 180 degrees from the initial position.

The present invention may be configured as a handle for marking operation or carrying. The handle is formed at the right place, such as the circumference of the support frame 10, the hub 14, or the hub 24 of the marking tool 20.

The method of displaying the hitting point using the Schmidt hammer hitting point indicator for safety inspection and diagnosis according to the present invention is as follows.

1. Cleaning the surface of the structure (Fig. 1).

When the leg 12 of the support frame 10 is mounted so as to be supported on the surface of the structure 1, and the rotating rod 31 of the dust removal member 30 is held and rotated in one direction (for example, 180 degrees clockwise) , The dust removing rod 32 removes the dust on the surface of the structure 1 by brushing or scraping the surface of the structure 1 from the surface of the structure 1.

The dust removed from the structure 1 falls downward by gravity and is collected in the collection unit 17 .

Some dust may be scattered during dust removal, and the scattering prevention plate 33 at the back of the dust removal rod 32 prevents the scattering of dust, and the scattering prevention plate 33 along the dust removal rod 32 While rotating, it prevents scattering of dust by the dust removal rod 32.

2. Hit point marking (FIG. 2).

When the marking tool 20 is pressed toward the structure 1, the marking tool 20 advances toward the structure 1 under the guidance of the guide rod 13, and the marking members 21 strike the surface of the structure 1 mark the points

When the marking tool 20 advances, the marking member 21 marks the hitting point without shaking through the support of the guide part 34 of the anti-scattering plate 33.

Since the part marked by the marking member 21 is the surface of the structure 1 without dust through the dust removal member 30, the striking point maintains a clear marking state.

10: support frame, 11: support frame body
12: leg, 13: guide rod
14: hub, 15: coil spring
16: nut, 17: collection unit
18: spokes,
20: marking tool, 21: marking tool body
22: marking member hole, 23: guide hole
24: hub,
30: dust removal member, 31: rotating bar
32: dust removal bar, 33: scattering prevention plate
34: guide part, 35: elastic member

Claims (4)

a support frame 10 supported on the surface of the structure;
A marking tool 20 in which a plurality of marking members 21 are accommodated and connected to the support frame so as to be able to move forward and backward so that the marking member marks the striking point on the surface of the structure through advancement;
It is movably mounted under the support frame and includes a dust removal member 30 for removing dust from the surface of the structure while moving along the surface of the structure,
The dust removal member includes a rotation rod 31 rotatably connected to the inside of a hub formed on the support frame, a dust removal rod 32 formed at an end of the rotation rod and removing dust from the surface of the structure, and the dust removal member. A scattering prevention plate 33 formed at the rear of the removal rod to a size surrounding the dust removal rod to prevent scattering of dust; An elastic member 35 for elastically supporting the anti-scattering plate toward the structure between the anti-scattering plate and the support frame,
The anti-scattering plate is a plate material having a larger area than the dust removal rod, and a guide part 34 formed in semicircular grooves on both sides to guide the linear reciprocating movement of the marking member Safety inspection and diagnosis, characterized in that for the Schmidthammer strike point indicator. delete delete The Schmidt hammer hitting point indicator for safety inspection and diagnosis according to claim 1, wherein the support frame includes a collection part (17) for collecting dust removed through the dust removal member at a peripheral portion.

Images