KR20140012472A - Automatic hit point mark and vertical ancillary equipment for schmidt concrete test hammer - Google Patents

Abstract

The present invention relates to an automatic hitting point marking and vertical auxiliary apparatus for a Schmidt hammer, wherein the apparatus comprises: a Schmidt hammer including a body, a housing installed at the body, and a hitting rod installed to reciprocate in the housing and hitting a wall; a spacer coupled around the housing of the Schmidt hammer; an operating part coupled around the spacer and supporting the Schmidt hammer to move toward the hitting rod; a fixing part fixed to the operating part and the spacer and fixing the operating part around the spacer; a supported plate coupled to the end of the operating part and supported on the wall; and a marking part installed at the operating part and marking the next hitting point when the hitting rod of the Schmidt hammer hits the wall. Therefore, the marking part automatically marks the next hitting point by being linked with the hitting rod of the Schmidt hammer when the hitting rod of the Schmidt hammer hits one point on the wall in order to measure the strength of the wall so that a worker needs not to mark a point using chalk separately; the impact of the hitting rod is accurately transmitted to the wall so that the accurate rebound hardness test value of the wall can be obtained; and the apparatus can be simply installed at the housings of various Schmidt hammers.

Description

Automatic hit point mark and vertical ancillary equipment for Schmidt concrete test hammer}

The present invention relates to an automatic striking point display and a vertical auxiliary device for the Schmidt hammer, more specifically, the next striking point is automatically marked when one point of the wall is hit for strength measurement, the striking rod and the wall of the Schmitt hammer is right angle The present invention relates to an automatic strike point display and a vertical assist device for the Schmidt hammer, which maintains a high accuracy and improves compatibility.

In general, the rebound hardness method, which is a type of non-destructive testing of concrete, is to hit the surface of the concrete with a hammer to measure the degree of return of the surface or the rebound hardness. Rebound hardness method is based on experimental experience that there is a specific correlation between rebound hardness and concrete compressive strength when hit hard concrete surface. Schmitthammer, a non-destructive test that uses a point of change in resilience depending on the strength of concrete, has been widely used because it is simple and internationally standardized. Among the various non-destructive testing methods for compressive strength of concrete, Schmidthammer is the most effective, simple and most widely applicable method for examining the strength of laboratory and reinforced concrete buildings. Schmidt hammers are spring-type hammers, and instead of taking and measuring the core of a concrete structure (a specimen for measuring concrete strength using a rotary motor with a diamond bit), the spring's repulsive force is known directly from the scale of the hammer. It is a simple way to measure the strength inside a concrete structure.

These Schmidt hammers have four parallel straight lines at intervals of 3 cm in the transverse direction and 5 straight lines with a distance of 3 cm in the vertical direction to be orthogonal to each other so that accurate measurements can be obtained when hitting the concrete surface. After the dog is drawn, the Schmidt hammer is placed at its orthogonal point to measure the strength inside the concrete structure.

However, it is cumbersome to draw 5 x 4 orthogonal straight lines 3 cm apart each time the strength of the concrete structure is measured. In other words, when the concrete structure to be measured strength is drawn at regular intervals of 5 × 4 orthogonal straight lines of 3cm intervals and then the Schmidthammer at the intersection point to measure the strength of the concrete has a problem that the efficiency of the work is reduced .

In addition, when marking a hitting point with chalk on the wall, more chalk powder is buried at the intersection to hit than other parts. Therefore, while hitting the chalk powder of the part where the striking rod is marked in this state, there is a problem that the inherent rebound hardness of the wall surface cannot be obtained.

In addition, in order to accurately measure the strength of the Schmidt hammer, the striking rod of the Schmidt hammer and the wall to be hit should be exactly right angled. Failure to establish a right angle between them prevents accurate rebound hardness testing of the wall, and therefore, inaccurate measurement of wall strength.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide an automatic strike point display and a vertical auxiliary device for a Schmidt hammer to automatically mark the next hitting point when a point on the wall is hit for strength measurement.

Another object of the present invention is to provide an automatic strike point display and a vertical assisting device for a Schmidt hammer such that the striking rod and the wall surface of the Schmidt hammer are perpendicular to each other.

It is still another object of the present invention to provide an automatic strike point display and a vertical assist device for a Schmidt hammer to improve compatibility that can be mounted on various Schmidt hammers.

Schmitt hammer automatic strike point display and the vertical auxiliary device of the present invention for achieving the above object, Schmitt including a body, a housing installed on the body, and a striking rod that is installed to reciprocate to the housing and hit the wall hammer; A spacer coupled around the housing of the Schmidt hammer; An operating part coupled to the circumference of the spacer to support the movement of the schmidt hammer in the direction of the striking rod; A fixing part fixed to the operating part and the spacer to fix the operating part around the spacer; A support plate coupled to the end of the operating portion and supported on the wall to be hit; It is installed on the operating unit and characterized in that it comprises a marking portion for marking the next hitting point when the striking rod of the Schmitt hammer hits the wall.

Other features of the automatic strike point display and vertical auxiliary device for the Schmidt hammer of the present invention, the spacer is coupled to the housing circumference of the Schmidt hammer, the outer peripheral surface is formed with a fastening groove so that the end of the fixing portion is entered, the fastening groove Three are formed radially around the spacer.

Another characteristic of the automatic hammer point display and vertical auxiliary device for the Schmidt hammer of the present invention, the operating portion, the coupling portion is formed with a guide hole, one end is coupled to the fixed portion around the spacer and open to the other end side therein, The guide pin is coupled to the guide hole of one end of the coupling part and the other end thereof is exposed to the outside of the guide hole, and a spring is built in the guide hole of the coupling part to elastically support the guide pin in the outward direction of the guide hole.

Another feature of the automatic strike marks and vertical auxiliary devices for the Schmidt hammer of the present invention is that the fixing portion is screwed to the operating portion and the spacer to fix the operating portion around the spacer.

Another feature of the automatic strike point display and vertical auxiliary device for the Schmidt hammer of the present invention, the support plate is made of a plate shape and is supported on the wall so that the striking rod of the Schmidt hammer is perpendicular to the wall surface, so that the end of the operating part is coupled A guide pin hole is formed radially in the circumference, and a through hole is formed in the center so that the striking rod of the Schmidt hammer enters and exits, and a partition line is drawn around the through hole to divide four square figures. Marking holes are formed at two adjacent intersections of the intersections so that the ends of the marking portions enter and exit, and are made of a synthetic resin plate made of a transparent material.

Still another feature of the automatic strike point display and vertical assist device for the Schmidt hammer of the present invention, the marking portion is fixed to the operating portion and the reciprocating movement with the Schmidt hammer and the storage portion is formed so that the ink is injected therein It consists of a sponge that is stored in the storage area of the fixed part and impregnated with ink, and when the striking rod of the Schmidt hammer hits the wall, the ink comes into contact with the corresponding wall and is buried and marked.

According to the present invention as described above, when the support plate is supported on the wall surface and the Schmitt hammer is operated, the sponge of the marking portion is marked on the wall surface while the striking rod impacts the wall surface. Therefore, in order to measure the strength of the wall, when one point of the wall is hit by the striking rod of the Schmidt hammer, the marking unit is interlocked to automatically mark the next striking point. Accordingly, the marking work is omitted, so the strength measurement of the wall surface is made simple and quick.

In the present invention, a plate-like support plate is coupled to three guide pin ends. Therefore, when the support plate is supported on the wall, the striking rod of the wall and the Schmitt hammer forms a right angle. Therefore, since the striking rod is perpendicular to the wall by three radially provided guide pins around the Schmidt hammer and a support plate coupled to the bottom of the guide pin, the impact of the striking rod is accurately transmitted to the wall surface. Test values can be obtained.

In the present invention, a spacer is coupled between the engaging portion of the actuating portion and the housing of the Schmidt hammer. Therefore, by selecting a spacer suitable for the housing of the Schmitt hammer, it is possible to install the automatic strike point display and the vertical auxiliary device of the present invention. Therefore, having a plurality of spacers of different inner diameters can easily install the equipment of the present invention in the housing of various types of Schmidt hammer, thereby greatly improving the compatibility of the product.

1 is a schematic perspective view showing an automatic strike point display and a vertical auxiliary device for the Schmidt hammer of the present invention
2 is a schematic exploded perspective view of FIG.
Figure 3 is a schematic cross-sectional view showing a state before the blow test preparation
Figure 4 is a schematic cross-sectional view showing a state of the blow test

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

1 is a schematic perspective view showing the automatic strike point display and the vertical auxiliary device for the Schmidt hammer of the present invention, Figure 2 is a schematic separated perspective view of Figure 1, Figure 3 is a schematic cross-sectional view showing a state before the impact test preparation, Figure 4 Is a schematic cross-sectional view showing the state of the hit test.

The automatic strike point display and the vertical auxiliary device for the Schmidt hammer of the present invention, the Schmitt hammer 10, the spacer 20, the operating portion 30, the fixing portion 40, the support plate 50, the marking portion 60 It is made, including.

The Schmidt hammer 10 includes a body 11, a housing 12 installed in the body 11, and a striking rod 13 installed to reciprocate in the housing 12 and striking the wall 1. It is done by

The spacer 20 is coupled around the housing 12 of the Schmidt hammer 10 and coupled to the coupling portion 31 of the operation portion 30 to be described later.

The spacer 20 is coupled to the circumference of the housing 12 of the Schmidt hammer 10, and a fastening groove 21 is formed on the outer circumferential surface of the spacer 20 so that the end of the fixing part 40 enters and is fastened. ) Are three radially formed around the spacer (20).

The operation part 30 is coupled to the circumference of the spacer 20 to support the movement of the schmidt hammer 10 in the direction of the striking rod. This operation part 30 consists of the coupling part 31, the guide pin 33, and the spring 34. As shown in FIG.

The coupling part 31 has a guide hole 32 having one end coupled to the fixing part 40 around the spacer 20 and open to the other end side thereof. One end of the guide pin 33 is coupled to the guide hole 32 of the engaging portion 31, and the other end thereof is exposed to the outside of the guide hole 32. The spring 34 is embedded in the guide hole 32 of the engaging portion 31 to elastically support the guide pin 33 in the outward direction of the guide hole 32.

The fixed part 40 is fixed to the operation part 30 and the spacer 20, and fixes the operation part 30 to the circumference | surroundings of the spacer 20. As shown in FIG.

The fixing part 40 is composed of a fixing screw 41 which is screwed into the operating part 30 and the spacer 20 to fix the operating part 30 to the circumference of the spacer 20.

The support plate 50 is joined to the end of the actuating part 30 and supported on the wall surface 1 to be hit.

The support plate 50 is formed in a plate shape and is supported by the wall surface 1 so that the striking rod 13 of the Schmidt hammer 10 is perpendicular to the wall surface 1. Guide pin holes 52 are formed radially around the support plate 50 so that the ends of the guide pins 33 are engaged.

The through-hole 51 is formed in the center of the support plate 50 so that the striking rod 13 of the Schmidt hammer 10 may go in and out. A partition line 53 is drawn around the through hole 51 of the support plate 50 so that four square figures are partitioned, and two adjacent points of the four intersections around the partition line 53 are provided with the marking portion 60. The marking hole 54 is formed so that an end part may go in and out.

Since the support plate 50 is made of a synthetic resin plate made of a transparent material, the center of the through hole 51 of the support plate 50 is viewed by looking at the partition line 53 projected on the wall surface 1 when moving to the next marking point after hitting a point. You can place the next hit point in the.

The marking part 60 is installed in the operation part 30 and marks the next hitting point when the hitting rod 13 of the Schmidt hammer 10 hits the wall surface 1.

This marking part 60 consists of the fixing part 61 and the sponge 62. As shown in FIG. The fixing part 61 has a storage space 63 formed such that one end thereof is fixed to the operating part 30 so as to reciprocate with the schmidt hammer 10 and ink is injected therein. The sponge 62 is stored in the storage space 63 of the fixing portion 61 and impregnated with the ink, and is applied to the corresponding wall surface 1 when the striking rod 13 of the Schmidt hammer 10 strikes the wall surface 1. Mark the ink as it comes in contact with it.

The automatic strike point display and vertical assist device for the Schmidt hammer of the present invention having such a configuration is operated as follows.

First, the support plate 50 is brought into close contact with the wall surface 1 to be hit. When the striking hammer 13 hits the corresponding portion of the wall surface 1 by operating the Schmidt hammer 10, the coupling part 31 and the marking part 60 are moved along the guide pin 33. The sponge 62 at the end of 60 passes through the marking hole 54 of the support plate 50 and then contacts the wall 1 with marking.

In this way, while the striking rod 13 strikes the wall surface 1 positioned in the center of the through hole 51 of the support plate 50, the marking portion 60 is formed at two portions of the wall surface 1 corresponding to the marking hole 54. Ink).

Therefore, after hitting a point on the wall 1, the partition line 53 is moved so that one of the two marking points is positioned at one of four corners around the partition line 53, and the other marking point is The center of the through hole 51 of the support plate 50 is positioned. In this way, two marking points are formed around the hitting point while hitting another point of the wall surface 1. Therefore, the present invention does not have to draw a separate hitting point on the wall (1), so that marking points are taken at the same time the hitting.

This invention has the following advantages.

First, in the present invention, the support plate 50 is supported on the wall surface 1 and the Schmitt hammer 10 is operated so that the impact rod 13 impacts the wall surface 1 while the sponge 62 of the marking part 60 is held. Mark on the wall 1.

Therefore, in order to measure the strength of the wall surface 1, when one point of the wall surface 1 is hit by the striking rod 13 of the Schmidt hammer 10, the marking portion 60 is interlocked to automatically mark the next striking point. Therefore, the operator does not need to perform a separate marking work with chalk, etc. Therefore, the marking work is omitted, so that the strength measurement work of the wall surface 1 is made simple and quick.

Second, the present invention is coupled to the plate-like support plate 50 at the end of the three guide pins (33).

Therefore, when the support plate 50 is supported on the wall surface 1, the striking rod 13 of the wall surface 1 and the Schmitt hammer 10 forms a right angle. Therefore, the striking rod 13 is provided against the wall 1 by the guide pins 33 provided radially around the Schmidt hammer 10 and the support plate 50 coupled to the lower ends of the guide pins 33. Since it makes a right angle, the impact of the striking rod 13 is accurately transmitted to the wall surface 1, so that an accurate rebound hardness test value of the wall surface 1 can be obtained.

Third, in the present invention, the spacer 20 is coupled between the coupling portion 31 of the operating portion 30 and the housing 12 of the Schmidt hammer 10.

Therefore, by selecting the spacer 20 suitable for the housing 12 of the Schmidt hammer 10, it is possible to install the automatic strike point display and the vertical auxiliary device of the present invention. Therefore, if a plurality of spacers 20 having different inner diameters are provided, the equipment of the present invention can be easily installed in the housing 12 of various kinds of Schmidt hammers 10, thereby greatly improving the compatibility of the product.

Meanwhile, a coating layer may be formed around the housing 12 of the schmidt hammer. The reason for applying the ceramic coating around the housing 12 is to prevent corrosion and increase strength. Ceramic coatings are more resistant to corrosion, scratch, abrasion, impact and durability than chromium or nickel chromium plating.

The coating layer is formed by spraying a powder made of 96 to 98% of chromium oxide (Cr ₂ O ₃ ) and ₂ to 4% of titanium dioxide (TiO ₂ ) to the circumference of the housing 12.

Chromium oxide (Cr ₂ O ₃ ) serves to prevent rust by acting as a passivity layer that blocks oxygen invading into the metal.

Titanium dioxide (TiO ₂ ) is very stable physicochemically and has a high hiding power, thus becoming a white pigment. In addition, the refractive index is high, it is widely used in high refractive index ceramics. It has photocatalytic and superhydrophilic properties. Titanium dioxide (TiO ₂ ), air purification, antibacterial, harmful substance decomposition, pollution prevention function, discoloration prevention function. The titanium dioxide (TiO ₂ ), so that the coating layer is reliably coated around the housing 12, the foreign matter attached to the housing 12 is disassembled and removed to prevent damage to the housing 12.

Here, chromium oxide (Cr ₂ O ₃₎ and when using hayeoseo mixing titanium dioxide (TiO _2), the mixing ratio of these is a chromium oxide (Cr ₂ O ₃₎ Titanium dioxide (TiO ₂₎ 2~ to 96-98% 4% are mixed.

When the mixing ratio of chromium oxide (Cr ₂ O ₃ ) is less than 96-98%, the coating of chromium oxide (Cr ₂ O ₃ ) is often broken in an environment such as high temperature, and thus the housing 12 The antirust effect of the abruptly fell.

When the mixing ratio of titanium dioxide (TiO ₂ ) is less than 2 to 4%, the effect of titanium dioxide (TiO ₂ ) is insignificant so that the purpose of mixing it with chromium oxide (Cr ₂ O ₃ ) is discolored. That is, titanium dioxide (TiO ₂ ) to decompose and remove the foreign matter attached to the circumference of the housing 12 to prevent the housing 12 from corrosion or damage, if the mixing ratio is less than 2 to 4%, adhesion There is a problem that takes a long time to decompose the foreign matter.

The coating layer made of these materials is made of 50 to 600 mu m thick around the housing 12 and is plasma coated to maintain 900 to 1000 HV in hardness.

Such a coating layer is formed by jetting the powdered powder and the gas at 1400 ° C. around the housing 12 at a speed of about Mach 2.

When the thickness of the coating layer is less than 50 탆, the effect of the above-described ceramic coating layer can not be guaranteed. When the thickness of the coating layer exceeds 600 탆, the above-mentioned effect is insignificant. On the other hand, Is wasted.

While the coating layer is coated on the housing 12, the temperature of the housing 12 is raised. The housing 12 is cooled by a cooling device (not shown) so as to prevent deformation of the heated housing 12. To maintain the temperature.

Therefore, since a coating layer having excellent oxidation resistance and abrasion resistance is formed around the housing 12, which is frequently exposed to the outside and the spacer 20 is fitted, oxidation and abrasion of the housing 12 is prevented, thereby extending the life of the Schmidt hammer. Is extended.

1: wall surface 10: Schmidt hammer
11 body 12 housing
13: batting rod 20: spacer
21: fastening groove 30: operating part
31: coupling portion 32: guide hole
33: guide pin 34: spring
40: fixing part 41: fixing screw
50: support plate 51: through hole
52: guide pin hole 53: partition line
54: marking hole 60: marking part
61: fixing part 62: sponge
63: storage space

Claims (6)

A Schmidt hammer (10) comprising a body (11), a housing (12) installed on the body (11), and a striking rod (13) installed on the housing (12) for reciprocating transfer and striking the wall surface (1);
A spacer 20 coupled around the housing 12 of the Schmidt hammer 10;
An operation part 30 coupled to the circumference of the spacer 20 to support the movement of the schmidt hammer 10 in the direction of the striking rod;
A fixing part 40 fixed to the operating part 30 and the spacer 20 to fix the operating part 30 to the circumference of the spacer 20;
A support plate 50 coupled to the end of the operation unit 30 and supported on the wall to be hit;
Schmidt hammer, characterized in that consisting of; and the operating unit 30 and the marking unit 60 for marking the next striking point when the striking rod 13 of the Schmidt hammer 10 hit the wall surface (1) Automatic striking point display and vertical auxiliary device.
The method of claim 1, wherein the spacer 20,
It is coupled around the housing 12 of the Schmidt hammer 10, the fastening groove 21 is formed on the outer peripheral surface so that the end of the fixing portion 40 enters and is fastened, the fastening groove 21 of the spacer 20 Automatic strike point display and vertical auxiliary device for Schmidt hammer, characterized in that three radially formed around.
The method according to claim 1, the operation unit 30,
A coupling part 31 having one end coupled to the fixing part 40 around the spacer 20 and having a guide hole 32 open to the other end side thereof;
A guide pin 33 having one end coupled to the guide hole 32 of the coupling part 31 and the other end exposed to the outside of the guide hole 32;
Automatic strike point for Schmidt hammer, characterized in that the spring 34 is built in the guide hole 32 of the coupling portion 31 to elastically support the guide pin 33 in the outward direction of the guide hole 32 Marking and Vertical Assist.
The method of claim 1, wherein the fixing portion 40,
Automatic strike marks and vertical assistants for Schmidt hammers, characterized in that the screw 30 is screwed to the operating unit 30 and the spacer 20 to fix the operating unit 30 to the circumference of the spacer 20. Device.
The method according to claim 1, The support plate 50,
Since it is formed in a plate shape and is supported on the wall surface 1, the striking rod 13 of the Schmidt hammer 10 is perpendicular to the wall surface 1, and the guide pin is radially circumferentially so that the end of the operation part 30 is coupled. A hole 52 is formed, and a through hole 51 is formed in the center so that the striking rod 13 of the Schmidt hammer 10 enters out, and four square figures are partitioned around the through hole 51. The partition line 53 is drawn, and marking holes 54 are formed at two adjacent intersection points of the four intersection points around the partition line 53 so that the ends of the marking portion 60 enter and exit, and are made of a transparent resin plate. Automatic strike point display and vertical auxiliary device for Schmidt hammer.
The method according to claim 1, The marking unit 60,
A fixing part 61 having one end fixed to the operating part 30 and reciprocating with the Schmidt hammer 10 and having a storage space 63 formed therein to inject ink therein;
It is stored in the storage space 63 of the fixing part 61, and the ink is impregnated, and when the striking rod 13 of the Schmidt hammer 10 hits the wall surface 1, the ink is buried while marking the corresponding wall surface 1. Automatic strike point display and vertical auxiliary device for Schmidt hammer, characterized in that consisting of a sponge (62).

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