KR101848238B1 - Horizontal holding device of Schmidt hammer - Google Patents

Abstract

The present invention relates to an apparatus to assist the hitting and to maintain the level of a Schmidt hammer, which is applied to the Schmidt hammer for a concrete non-destructive test and which is able to, while the Schmidt hammer hits a point on a concrete wall for the test, make the hit point of the Schmidt hammer maintain parallel. To this end, according to the present invention, the apparatus to assist the hitting and to maintain level of the Schmidt hammer for a concrete non-destructive test comprises: a support body (100) having an accommodation space (111), into which the Schmidt hammer (10) is inserted and fixated, which is able to make a hitting unit (11) of the Schmidt hammer (10) supported as parallel to a random position of a concrete wall surface (20) by making a first support point (112) placed on a front side of the accommodation space (111) come in contact with the concrete wall surface (20) as a surface contact; a fixture (200) fixated on a floor on an adjacent side to the concrete wall surface (20) to allow the support force to be displayed; and a joint arm unit (300) connected to the part between the support body (100) and the fixture (200) to be able to make a hinge operation by a link (320) combined by a hinge, to control a gradient of the support body (100) by using the hinge operation, and to make the first support point (112) come in contact with the concrete wall surface (20), thereby making the hitting unit (11) of the Schmidt hammer (10) maintain parallel corresponding to a gradient of the concrete wall surface (20).

Description

Technical Field [0001] The present invention relates to a horizontal holding device of a Schmidt hammer,

The present invention is applied to a Schmidt hammer for non-destructive testing of concrete, and is used for striking and leveling of a Schmidt hammer, which enables the point of impact of a Schmidt hammer to be maintained in parallel during a Schmidt hammer striking a point on a concrete wall for testing ≪ / RTI >

Generally, a Schmidt hammer is referred to as a rebound hammer or a concrete test hammer and is intended for nondestructive testing of concrete.

The strength of the concrete is estimated from the difference between the strength of the rebound and the compressive strength of the concrete. The strength of the concrete is estimated based on the correlation between the rebound strength and the compressive strength of the concrete. The Schmidt hammer was first developed as a concrete testing machine because it can estimate the strength in a short time and it is easy to test. However, it is widely used in concrete or rock.

For example, in the conventional registered utility model publication No. 20-0201924, a shrunken hammer non-destructive testing machine provided with a striking recorder is provided with a blanger projecting from the inner end of the housing, The hammer is supported by a guide bar, a fixing plate and a compression spring, and guide rods of a guide and a guide are installed on the upper part of the housing where the fixing plate is located. A Schmidt hammer, which is a non-destructive testing machine based on a repulsive strength method in which measurement graduations are provided so as to be exposed to the outside, wherein a contact sensor is attached to the O-ring part, which is an impact point generated in each striking, Is displayed on the housing so that the number of hits can be recorded and displayed.

However, technological problems to be improved have been exposed in the past.

In the conventional case, the non-destructive test of the concrete structure has a structure in which the strength of the concrete structure is measured by manually hitting the wall of the concrete structure with the operator directly grasping the Schmidt hammer. Therefore, depending on the shape of the concrete wall and the capability of the operator, If the wall and the point of impact of the Schmidt hammer are not parallel to each other, the impact force of the Schmidt hammer is damped, so that the non-destructive test of the concrete structure can not be performed smoothly and the strength of the concrete structure can not be accurately measured.

Also, in the conventional case, the non-destructive test of the concrete structure is carried out in such a manner that four horizontal straight lines are arranged parallel to each other at intervals of 3 cm in the lateral direction on the surface of the concrete structure so as to obtain accurate measurement by the impact of the Schmidt hammer, 5 lines are formed at intervals of 3cm, and the strength is measured by striking the Schmidt hammer at the intersection of the horizontal straight line and the vertical straight line. Therefore, the line work of the measurement position is necessary in the concrete structure. There was another problem that the workability of the nondestructive test was remarkably deteriorated with time.

Registration Practical Utility Model No. 20-0201924 is presented.

The present invention has been made to solve the conventional problems, and it is an object of the present invention to support the Schmidt hammer so that it can keep its own parallel to the concrete wall and the impact point of the Schmidt hammer, It is possible to smoothly perform the non-destructive test of the concrete structure by preventing the hitting force of the hammer from being damped by making the concrete wall surface and the shot point of the Schmidt hammer parallel to each other regardless of the ability, The present invention provides a striking assisting apparatus and a horizontal striking apparatus.

Further, in the non-destructive test of a concrete structure, an orthogonal line indicating a striking position of a Schmidt hammer is automatically displayed on the surface of a concrete structure during a hitting operation of a hammer, thereby providing a working time for displaying a strength measurement position of the concrete structure It is a further object to improve the workability of the concrete nondestructive test.

According to an aspect of the present invention,

As striking and leveling devices for Schmidt hammer for concrete non-destructive testing,

The hitting portion of the Schmidt hammer is parallel to an arbitrary position of the concrete wall surface through the action that the Schmitt hammer is inserted and fixed to the inside and the first supporting point provided in front of the accommodation space is in close contact with the concrete wall surface in a surface contact manner. A support member for supporting the support member;

A fixing body fixed to a side floor adjacent to the concrete wall surface so as to exert a supporting force;

The hinge mechanism is hinge-connected by the link between the support body and the fixture body. The hinge operation is used to adjust the inclination of the support body to closely contact the first support point to the concrete wall surface. And a joint arm portion for supporting the striking portion of the Schmidt hammer in a parallel state corresponding to the inclination of the hammer.

According to the present invention, the Schmidt hammer for the concrete non-destructive test is installed on the support body, and the concrete wall surface and the impact point of the Schmidt hammer are closely contacted by the support body provided with the Schmidt hammer in a parallel state, The hammer can be moved to the non-destructive testing position while supporting the concrete wall and the striking point of the Schmidt hammer in a parallel state. Therefore, regardless of the shape of the concrete wall and the ability of the operator, So that the hammering force of the hammer is prevented from being damped, so that the non-destructive test can be smoothly performed, and the strength measurement of the concrete structure has an accurate effect.

In addition, in order to obtain an accurate measurement value of the strength measurement in the concrete non-destructive test, an orthogonal line indicating the striking position of the Schmidt hammer is automatically formed at a predetermined distance using a display mechanism in the course of the striking process of the Schmidt hammer The work of forming the orthogonal line on the concrete surface is omitted, and the working time can be remarkably reduced, thereby further improving the workability of the concrete non-destructive test.

FIG. 1 is a perspective view of a hammering assist device of a Schmidt hammer according to a first embodiment of the present invention; FIG.
3 is an operational view of a striking assistance and leveling device of a Schmidt hammer according to the present invention.
FIG. 4 is a structural view of a striking assistance and a horizontal holding device of a Schmidt hammer according to a second embodiment of the present invention; FIG.

The striking assist and the horizontal holding device of the Schmidt hammer according to the present invention will be understood from the following detailed description with reference to the accompanying drawings.

In the following description of the exemplary embodiments of the present invention, a detailed description of components that are widely known and used in the art to which the present invention belongs is omitted, and unnecessary explanations thereof are omitted. It is to communicate the point more clearly.

FIGS. 1 to 4 are views illustrating a striking assistance and a horizontal holding device of a Schmidt hammer according to each embodiment of the present invention.

A supporting body 100 for supporting the striking portion 11 of the Schmidt hammer 10 at an arbitrary position of the concrete wall 20; A fixture (200) for exerting a supporting force; And an articulated arm part (300) for keeping the striking part (11) in a parallel state corresponding to the inclination of the concrete wall surface (20).

Hereinafter, as a basic constitution of the present invention, the constitution of each part of the striking assistance and the horizontal holding device of the Schmidt hammer according to the first embodiment will be described in detail with reference to FIG. 1 to FIG. Fig. 1 is a front view of the striking assistance and horizontal holding device, and Fig. 2 is a side view and enlarged view of the striking assistance and horizontal holding device.

First, the support 100 comprises:

The first support point 112 provided in front of the accommodation space 111 is in close contact with the concrete wall surface 20 in the form of surface contact with the Schmidt hammer 10, So that the striking portion 11 of the Schmidt hammer 10 is supported in parallel with the concrete wall surface 20 at any position.

The support 100 according to the basic embodiment of the present invention comprises: A body 110, a first bracket 120, and a first guide unit 130.

For example, the support 100 may comprise: And a body 110 having a receiving space 111 into which the Schmidt hammer 10 is inserted and fixed and having a first supporting point 112 at the front thereof.

The body 110 has a structure in which a receiving space 111 for allowing the Schmidt hammer 10 to be inserted into the inside is formed as a through hole having a certain amount of clearance space corresponding to the size of the Schmidt hammer 10, to be.

A through hole of the first fixing member 150 is inserted into the receiving space 111 while the first fixing member 150 is inserted through the side of the body 110, The supporting member 150 presses the side surface of the schmidt hammer 10 inserted into the accommodation space 111 through the member 150 so that the supporting force is exerted to fix the schmidt hammer 10 to the accommodation space 111.

The first fixing member 150 is formed in a threaded shape and a hole provided with a thread is formed on the side of the body 110 so as to penetrate the receiving space 111 for the first fixing member 150 to be inserted therethrough.

The first supporting point 112 has a straight plane so that the front surface of the body 110 is parallel to the concrete wall 20 and the first supporting point 112 has a straight plane The front surface of the body 110 may be joined to the front of the body 110 or the front surface of the body 110 may be processed into a straight plane.

Also, the support 100 may include: And a first bracket 120 coupled to the lower part of the body 110 using a first guide part 130 and coupling the link 320 of the articulated arm part 300 to the body 110.

The first bracket 120 is formed so as to have a first hinge groove 121 opened downward with a cross section of a small shape with respect to the front size of the body 110, A first shaft hole 122 is formed in the side of the first hinge groove 121 in correspondence with the number of the first connecting rods 321 of the arm arm portion 300 to be described later, The first linking part 321 is coupled with the second linking part 123 so that the hinge can be operated.

Also, the support 100 may include: The first protrusion 131 and the first groove 132 are fitted to each other at the connection part side of the articulated arm part 300 so that the first protrusion 131 and the first groove 132 can move linearly And a first guide unit 130 that allows the body 110, into which the Schmidt hammer 10 is inserted, to move left and right.

The first guide part 130 is provided at a connection part between the body 110 and the first bracket 120. A first protrusion 131 protrudes from the body 110, A first groove 132 having a size corresponding to the first protrusion 131 is formed on a side of the body 110 through a fitting structure of the first protrusion 131 and the first groove 132, Is guided to the left and right at the upper portion of the first bracket 120.

At this time, the second fixing member 160 is inserted into the rear of the first groove 132 of the first guide unit 130 and the second fixing member 160 is inserted into the through- And the side surface of the first projection 131 fitted in the first groove 132 is pressed through the second fixing member 160 so that the body 110 is supported by the first guide part 130 To a horizontal position and then fixed to that position.

The second fixing member 160 is a screw and a hole provided with a thread to allow the second fixing member 160 to be coupled to the rear of the first bracket 120 is formed on the first protrusion 131 side do.

And, the fixing body 200 includes:

And is fixed to the side floor adjacent to the concrete wall surface 20 so that the supporting force can be exerted.

The fixture 200 according to the basic embodiment of the present invention comprises: A second bracket 210, an extension 220, and a second guide 230.

For example, the fixture 200 may include: And a second bracket 210 to which the link 320 of the articulating arm 300 is hinged.

The second bracket 210 is formed to have a second hinge groove 211 opened in an upward direction with respect to the first bracket 120 in the shape of a ' A second shaft hole 212 is formed at a side of the second hinge groove 211 so as to correspond to the number of the second connecting blocks 322 of a joint arm portion 300 to be described later, And the hinge shaft 213 is coupled with the second linking part 322 so that the second linking part 322 is axially coupled to enable hinge operation.

In addition, the fixture 200 includes: A second support point 221 capable of applying a load from the upper part of the joint arm part 300 is provided on the lower side of the second bracket 210 hinged to the joint arm part 300, And an extension part 220 which is fixed to the floor to exert a supporting force when a load is applied.

The extension part 220 is formed of a plate member coupled to the second bracket 210 by using the second guide part 230. The extension part 220 is fixed to the floor by a load acting on the upper part of the plate part of the extension part 220, The second support point 221 has a second support point 221 on which the user pushes the extension part 220 to apply a load or a heavy object is placed on the extension part 220 to apply a load, And a bearing is exerted on the floor by applying a load in such a manner as to penetrate the screw from the upper part of the extension part 220 and fix it to the floor.

At this time, the second support point 221 is fixed with the first support point 112 of the body 110 so as to exert a supporting force in the form of surface contact with the fixed object. The first support point 112 and the second support point 112, The joint arm portion 300 is connected between the first support point 112 and the second support point 221 so that the joint arm portion 300 can be maintained in a state of being folded while being hinged at an arbitrary slope by using the first support point 112 and the second support point 221. [ .

In addition, the fixture 200 includes: The second projections 232 and the second grooves 231 are sandwiched between the second bracket 210 to which the articulated arm part 300 is hinge-coupled and the extended part 220 to be connected to the lower part of the second bracket 210, The second protrusion 232 and the second groove 231 may be provided with a second guide portion 230 for moving the articulated arm portion 300 to the left and right by the action of guiding the linear movement of the second protrusion 232 and the second groove 231 .

The second guide part 230 is provided between the second bracket 210 and the extension part 220. A second projection 232 protrudes from the second bracket 210 side, A second groove 231 having a size corresponding to the second protrusion 232 is formed on the side of the first protrusion 232 and the second protrusion 232 on the side of the first protrusion 232 and the second groove 231, (300) is guided to move leftward and rightward from the upper part of the extension part (220).

At this time, since the supporting body 100 is connected to the upper part of the articulated arm part 300, the supporting body 100 is also guided to the left and right at the same time through the second guiding part 230, The adjustment range of the left and right movement length of the support body 100 is finally determined by the second guide unit 230.

The third fixing member 240 is inserted into the second groove 231 of the second guide unit 230 and the second fixing member 240 is inserted into the through hole 234 of the third fixing member 240, The joint arm portion 300 is inserted into the second guide portion 231 by pressing the side surface of the second projection 232 inserted into the second groove 231 through the third fixing member 240, 230 to a horizontal position and then fixed to that position.

The third fixing member 240 is a screw and a hole having a threaded portion for passing through the third fixing member 240 is formed in the rear of the second bracket 210 through the second protrusion 232 do.

The joint arm part 300 includes:

A hinge operation is enabled by the hinge-coupled link 320 connected between the support 100 and the fixture 200, and the inclination of the support 100 is adjusted using the hinge operation, The striking portion 11 of the Schmidt hammer 10 is kept in a parallel state corresponding to the inclination of the concrete wall surface 20 by the action of closely contacting the concrete wall surface 112 with the concrete wall surface 20.

The joint arm portion 300 according to the basic embodiment of the present invention includes: A link plate 310, and a link 320.

For example, the articulated arm portion 300 may include: And a link plate 310 connecting the first linking part 321 and the second linking part 322 to each other to support the hinge operation of the first and second linking parts 321 and 322.

The link plate 310 is a plate member having a size enough to connect one of the first linking part 321 and the second linking part 322. The linking plate 310 has a third shaft hole 311 are formed so as to correspond to the number of connection of the first connecting rod 321 and the second connecting rod 322 and the third hinge shaft 312 is coupled to the third shaft hole 311, And the second link 322 are axially coupled to each other to enable a hinge operation.

At this time, the link plate 310 connects the first linking part 321 and the second linking part 322, and supports the joint arm part 300 together with the first support point 112 and the second support point 221 .

Further, the articulated arm portion 300 includes: A first linking part 321 formed between the link plate 310 and the supporter 100 so as to be hinged to each other at both ends and connected to each other in parallel with each other, And a second link 322 having a pair of ends connected to each other by being hinged and connected to each other in parallel. The link 320, which enables the folding operation by the hinge operation using the first and second links 321 and 322, .

One end of the first linking part 321 and the second linking part 322 of the link 320 are connected to the first bracket 120 and the second bracket 210 of the support body 100 and the fixing body 200, The first linking part 321 and the second linking part 322 are connected to each other while the link plate 310 is hinged to the other part of the first linking part 321 and the second linking part 322, The first bracket 120 and the second bracket 210 are connected to the first and second connecting rods 321 and 322 by the first bracket 120, So that the inclination of the supporting body 100 can be autonomously and variably supported.

At this time, the first linking bar 321 and the second linking bar 322 are arranged such that a pair of bars are arranged at equal intervals in parallel, and both sides of the bar are connected to the first bracket 120 and the second bracket 210, A through hole for hinge coupling is formed on both sides of the first linking part 321 and the second linking part 322. The first hinge shaft 123 and the second linking part 322 are hinge- The hinge axis 213, and the third hinge axis 312, respectively.

Hereinafter, an operating state according to an embodiment of a striking assisting and horizontal holding apparatus for a schmidt hammer according to the present invention will be described with reference to FIG.

According to this, the striking assisting and horizontal holding device 1 of the above-mentioned structure comprises: When the Schmidt hammer 10 is inserted into the accommodation space 111 provided in the body 110 of the initial support body 100 and the Schmitt hammer 10 is inserted into the accommodation space 111 by using the first fixing member 150, . At this time, the striking portion 11 of the Schmidt hammer 10 is positioned parallel to the first supporting point 112.

Thereafter, the fixture 200 is fixed to the floor adjacent to the concrete wall 20 so that a load is exerted on the second fulcrum 221 to exert a supporting force, and the first fulcrum 112 of the support 100, To the arbitrary non-destructive test position of the concrete wall surface 20 in the form of surface contact so that the bearing force is exerted. In this process, the articulated arm part 300 allows the support body 100 to move to the position of the corresponding nondestructive test through the folding operation.

If there is a tilt in the concrete wall surface 20 during the surface contact of the support 100 with the concrete wall 20, the support 100 may be connected to the first connection block 321 of the joint arm 300, The concrete wall 20 and the striking portion 11 of the schmid hammer 10 are parallel to each other with the same inclination corresponding to the inclination of the concrete wall 20 by using the hinge operation of the connecting block 322 And the striking portion 11 of the schmid hammer 10 is parallel to the concrete wall surface 20 by using the supporting force of the first supporting point 112, the second supporting point 221 and the articulating arm portion 300 So that the Schmidt hammer 10 can be freely moved to the non-destructive testing position by the folding operation of the articulated arm part 300. [

Accordingly, the present invention prevents the hitting force of the hammer from being attenuated by making the concrete wall 20 and the striking portion 11 of the schmid hammer 10 parallel to each other regardless of the shape of the concrete wall 20 and the ability of the operator The non-destructive test can be performed smoothly, and the strength measurement of the concrete structure becomes accurate.

As another constitution of the present invention, the constitution of each part of the striking assistance and the horizontal holding device of the Schmidt hammer according to the second embodiment will be described in detail with reference to FIG. 4 is a side view and an enlarged view of the main part of the striking assistance and horizontal holding device.

According to this, among the striking assisting and leveling apparatus 1 having the above-described structure, the supporting body 100 comprises: A display mechanism 143 provided at one or more of the upper surface, the left surface, and the right surface of the body 110 for indicating the striking position of the Schmidt hammer 10 is removably provided, The display unit 143 may further include a hitting display unit 140 for automatically forming the next hitting point of the schmid hammer 10 at a predetermined set distance in the process of supporting the hitting unit 11 on the wall surface 20 do.

The impact indicator 140 may include an assembly bar 141 fixedly coupled to the body 110 in the form of a bar at one or more of the upper surface, the left surface, and the right surface. And a display mechanism 143 is inserted and fixed in the second coupling hole 142b on the other side of the first coupling hole 142a using a first coupling hole 142a at one side of the assembly bar 141, And a fixing block 142 detachably coupled to the fixing block 142.

The assembly bar 141 is formed in a shape of a round or square rod so as to be insertable into the first engagement hole 142a and has an upper surface of the body 110 to which the assembly bar 141 is fixedly coupled, And a groove is formed on the right side of the assembly bar 141 so that the assembly bar 141 can be coupled in an interference fit.

The assembling bar 141 includes a scale 141a having a numerical length so that the engaging position of the fixing block 142 can be precisely adjusted corresponding to the set distance of the next hit point of the Schmidt hammer 10, And the scale 141a is displayed on the basis of the metric method, but any one of the metrological unit methods widely used internationally can be used.

The fixing block 142 is formed in the shape of a short bar having a rectangular or circular shape and has a first coupling hole 142a through which the assembly bar 141 is inserted while being inserted, And a second engaging hole 142b through which a separate indicator mechanism 143 is detachably inserted is inserted into the other side of the first engaging hole 142a.

At this time, the fourth fixing member 144 and the fifth fixing member 145 are inserted into the rear portion and the upper portion of the fixing block 142, respectively, and the first and second fitting holes 142a and 142b, The fourth fixing member 144 and the fifth fixing member 145 are inserted into the through holes of the first fixing member 144 and the fifth fixing member 145 and the first fitting hole 142a is inserted through the fourth fixing member 144 and the fifth fixing member 145, The holding block 142 is pressed against the side surface of the display mechanism 143 inserted into the assembly bar 141 and the second engagement hole 142b fitted in the assembly bar 141 so that the fixing block 142 is adjusted And the display mechanism 143 is adjusted and fixed to the fixing block 142 at a position where the concrete wall surface 20 can be displayed.

In the fourth fixing member 144, the fifth fixing member 145 is a screw, and a hole provided with a corresponding thread is formed through the fixing block 142.

At this time, the display device 143 is one of various writing instruments such as a pencil, a ballpoint pen, and a felt-tip pen.

In order to obtain an accurate measurement value of the strength measurement in the concrete non-destructive test, the present invention is characterized in that an orthogonal line indicating the position of the striking part 11 of the Schmidt hammer 10 is formed in the striking display part 140 in the striking process of the Schmidt hammer 10, The next blowing point can be automatically formed at an arbitrary set distance, so that the work for forming the orthogonal line on the concrete wall 20 can be omitted, and the work time can be remarkably reduced, thereby improving workability.

As described above. While the present invention has been particularly shown and described with reference to certain preferred embodiments thereof, it is to be understood that the terminology used herein is for the purpose of describing the present invention only and is not intended to limit the scope of the claims. But is not intended to,

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be easy for anyone to know.

One; Striking assisting and leveling device 100; Support
110; A body 120; The first bracket
130; A first guide part 200; Fixed body
210; A second bracket 220; Extension portion
230; A second guide part 300; Joint arm part
310; Link plate 320; link

Claims (5)

As striking and leveling devices for Schmidt hammer for concrete non-destructive testing,
The first support point 112 provided in front of the accommodation space 111 is in close contact with the concrete wall surface 20 in the form of surface contact with the Schmidt hammer 10, A support 100 for supporting the striking portion 11 of the Schmidt hammer 10 in a parallel state at an arbitrary position on the concrete wall surface 20;
A fixing body (200) fixed to a side floor adjacent to the concrete wall surface (20) to exert a supporting force;
A hinge operation is enabled by the hinge-coupled link 320 connected between the support 100 and the fixture 200, and the inclination of the support 100 is adjusted using the hinge operation, (300) for keeping the striking portion (11) of the Schmidt hammer (10) in a parallel state corresponding to the inclination of the concrete wall surface (20) by the action of bringing the striking member (112) into close contact with the concrete wall surface Respectively,
The supporting body 100 is provided with a first projection 131 and a first groove 132 fitted to each other on the side of a joint part of the articulated arm part 300. The first projection 131 and the first groove 132 Further comprising a first guide part (130) for moving the body (110) into which the Schmidt hammer (10) is inserted so as to guide the linear movement,
The fixture 200 includes a second protrusion 232 and a second protrusion 232 between the second bracket 210 to which the articulated arm portion 300 is hinge-coupled and the extension portion 220 to be connected to the lower portion of the second bracket 210, The second protrusion 232 and the second groove 231 may be formed in the second guide part 231 to move the articulated arm part 300 in the left and right direction by the action of guiding the linear movement of the second protrusion 232 and the second groove 231. [ (230), < / RTI >
The first guide portion 130 includes a second fixing member 160 (not shown) that is inserted through the first groove 132 and is pierced rearward of the first groove 132 to press the side surface of the first protrusion 131 fitted in the first groove 132, Further comprising:
The second fixing member 160 may be fixed to the end of the second fixing member 160 in the process of guiding the body 110 to the left and right from above the first bracket 120 through the first guide unit 130. [ Further comprising pressing the side surface of the first projection (131) to fix the position of the body (110) moved to an arbitrary horizontal position,
The second guide portion 230 includes a third fixing member 240 which is inserted through the second groove 231 so as to press the side surface of the second protrusion 232 fitted in the second groove 231, ),
The third fixing member 240 is configured such that the end portion of the third fixing member 240 moves in a direction in which the joint arm portion 300 is guided in the horizontal direction on the extension portion 220 through the second guide portion 230 Further comprising pressing the side surface of the second projection (232) to fix the position of the joint arm part (300) moved to an arbitrary horizontal position,
The support 100 is provided at one or more positions on the upper surface, the left side, and the right side of the body 110, and a display mechanism 143 for indicating the hitting position of the Schmidt hammer 10 is detachably provided And the display mechanism 143 automatically forms the next hit point of the Schmid hammer 10 at a predetermined set distance in the process of supporting the striker 11 of the Schmidt hammer 10 on the wall 20, (140), < / RTI >
The impact indicator 140 may include an assembly bar 141 fixedly coupled to the body 110 in the form of a bar at one or more of the upper surface, the left surface, and the right surface. And a display mechanism 143 is inserted into the second coupling hole 142b on the other side of the first coupling hole 142a by using a first coupling hole 142a at one side of the assembly bar 141, And a securing block (142) detachably coupled to the striking member (142). delete delete delete delete

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