KR101736145B1 - The tensile strength of the steel wire inspection apparatus - Google Patents

Abstract

The present invention relates to an apparatus for inspecting the tensile strength of a steel wire, and more particularly, to an apparatus for inspecting a tensile strength of a steel wire while holding the steel wire in a state of applying a tensile force to the steel wire, And a strength inspection apparatus.
To this end, an apparatus for inspecting a tensile strength of a steel wire according to the present invention comprises a frame, a load supporting part provided on one side of the frame and measuring tensile strength while supporting one end of the test object, And a load holding portion provided between the pressing portion and the DUT for holding the DUT in a state in which the DUT is pulled and a DUT are fixedly installed , One end portion is fixed to the support portion and the other end portion is fixed to the press portion.

Description

TECHNICAL FIELD [0001] The present invention relates to a tensile strength test apparatus for a steel wire,

The present invention relates to an apparatus for inspecting the tensile strength of a steel wire, and more particularly, to an apparatus for inspecting a tensile strength of a steel wire while holding the steel wire in a state of applying a tensile force to the steel wire, And a strength inspection apparatus.

Generally, in the construction of buildings, buildings are constructed mainly by using reinforced concrete.

These reinforced concrete are produced by arranging the reinforcing bars in the form of a structure, connecting them with a wire, and pouring the cement mixture on the reinforcing bars.

In recent years, with the development of building technology, the cement mixture is poured and cured with tensile force applied to the steel wire, and the structure is manufactured and used.

Such a method is intended to compensate for and compensate tensile stress because the concrete is resistant to compressive stress and weak in tensile stress.

Accordingly, the concrete structure is subjected to compressive stress due to the contraction action of the steel wire or strand to eliminate the tensile force applied during the manufacturing process.

As described above, in the structure repeatedly receiving the tensile force, the durability of the structure is directly affected by the holding ability of the tensile stress of the steel wire or the strand.

That is, if the steel wire or the stranded wire is stretched without being able to withstand the tensile force applied thereto, the compressive stress applied to the structure is also extinguished and the durability of the structure is also reduced.

Therefore, how much the tensile stress applied to the steel wire or strand can be maintained over time greatly affects the durability of the structure. To confirm this in advance, tensile stress and elapsed time of the steel wire or strand before the structure is manufactured It is necessary to manufacture and select a steel wire or a stranded wire in accordance with the use of the structure and the use condition of the structure.

In order to solve the above problems, in the prior art 1 (Korean Patent No. 10-0324297, stress relaxation tester for laminating steel sheet steel), a tester capable of inspecting stress relaxation by applying a tensile force to both sides of the test material Lt; / RTI >

However, in testing the stress relaxation of the test material, it is necessary to continuously apply the pressure, and accordingly, the continuous load is applied to the motor and the gear which provide the pressure, the durability of the testing machine is lowered, .

Prior Art Document 1 (Korean Patent No. 10-0324297)

The present invention has been devised to solve the problems described above, and it is an object of the present invention to provide a method of inspecting a tensile strength of a steel wire with a tensile stress applied thereto, The present invention also provides a tensile strength test apparatus for a steel wire having a tensile strength.

According to an aspect of the present invention, there is provided an apparatus for inspecting a tensile strength of a steel wire, the apparatus comprising: a frame; a load supporting unit provided on an upper side of the frame, A pressing part provided on the upper side of the frame to apply a tensile force to the other end of the test object, and a pressing part provided between the pressing part and the test object, A load holding unit for holding and supporting the load; And a test piece in which a test object is fixed in the middle, one end portion is fixedly supported on the support portion, and the other end portion is fixedly supported on the pressurizing portion.

Here, the load supporting portion may include a first support member to which one end portion of the test piece is fitted and fixed, and a load applied to the test piece is measured at the other end portion of the first support member on which the test piece is fixed And a load sensor.

The pressing portion includes a second supporting member which is fixed to the other end of the test piece fixed to the load supporting portion and is fixed to the other end portion of the second supporting member to which the test piece is fixed, And a pressing shaft which is provided between the load generating part and the test piece and transmits power to the second supporting member by the power of the load generating part.

The load holding unit may include a support plate disposed outside the pressurizing shaft at a predetermined distance from the pressurizing unit to support the pressurizing shaft, and a support plate surrounding the pressurizing shaft at the center of the support plate, And a stationary supporter fixedly supporting the pressure shaft in a state in which the pressure is applied.

The fixing support may include a nut hole formed at an outer periphery of the outer periphery and having a screw groove formed at an inner side thereof and a fixing bolt coupled to the nut hole by a bolt fastening structure to fix and support the pressing shaft so as not to move. .

The apparatus for inspecting tensile strength of a steel wire according to an embodiment of the present invention has the following effects.

First, the test piece can be separately manufactured and easily attached to and detached from the inspection apparatus.

Second, since tensile strength and stress can be checked in a state where the tensile load is applied to the test object, the test can be continuously performed for a long time.

Third, there is no need to provide any additional power after applying a certain pressure to the test object, thereby minimizing the waste of energy due to the provision of power, thereby enabling economical use.

Fourth, there is no need to continuously supply the power, so that the durability of the testing apparatus is increased.

1 is a perspective view of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.
2 is a cross-sectional view of a main portion of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.
3A is an operational state diagram showing a state before a pressure is applied to a steel wire in a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.
FIG. 3B is an operating state diagram showing a state in which pressure is applied to the steel wire side of the tensile strength testing apparatus for a steel wire according to an embodiment of the present invention. FIG.
4 is a graph showing an operating state of a test piece of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention,

The present invention relates to an apparatus for inspecting a tensile strength of a steel wire, and more particularly to a tensile strength inspecting apparatus for a steel wire capable of inspecting a tensile strength of the steel wire under a state where a constant pressure is not applied.

Hereinafter, an apparatus for inspecting tensile strength of a steel wire according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of a main part of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.

1 and 2, an apparatus for checking tensile strength of a steel wire according to an embodiment of the present invention includes a frame 100, a load supporting unit 200, a pressing unit 300, and a load holding unit 400 .

The frame 100 includes a plurality of casters 110 which are installed at the upper part thereof and which are formed in the shape of a rectangular frame and which are capable of moving and fixing the frame 100 at a lower portion thereof, 200, a pressing portion 300, and a load holding portion 400 are fixedly installed.

The caster 110 includes a wheel 111 for facilitating movement of the frame 100 and a fixing plate 112 for fixing and supporting the frame 100 on the ground so that the frame 100 is not moved when the frame 100 is completely moved do.

Therefore, when the frame 100 is moved, the fixing plate 112 can be moved with a small force by the wheels 111 while being lifted. After the movement is completed, the fixing plate 112 is lowered to the ground, So that it can be fixed.

At this time, the fixing plate 112 can be vertically adjustable by bolt rotation, can be vertically adjustable using a separate hydraulic means, and can generate a high pressure capable of supporting other devices (Not shown).

One end of the test object S is fixedly supported between the load supporting portion 200 and the pressing portion 300 and fixed to the load supporting portion 200 side, And a test piece 600 fixedly supported on the side of the substrate 300.

At this time, the test piece 600 is further provided with fixing jigs 610 to be fitted and fixed to the load supporting part 200 and the pressing part 300 on both sides of the test object S, respectively.

The fixing jig 610 has a cylindrical shape as a whole and is fixedly coupled to the center of the fixture jig 610 so as to be opposed to each other on both sides with respect to the test object S as a pair.

The load supporting part 200 measures the tensile force applied to the test piece 600 while supporting the test piece 600 while fixing one end of the test piece 600 in testing the tensile strength of the steel wire.

The load supporting part 200 includes a first supporting member 210 to which the fixing jig 610 of the test piece 600 is fitted and fixed and a test piece 600 of the first supporting member 210, And a load sensor 220 installed on the other side for measuring a load applied to the test piece 600.

The first support member 210 has a first seating portion 211 formed therein as a cylindrical space corresponding to the fixing jig 610 of the test piece 600.

Therefore, the fixing jig 610 can be stably inserted without flowing and supported in a fixed state, so that accurate tensile strength can be measured.

The pressing part 300 is provided on the other end of the load supporting part 200 on the basis of the test piece 600 to apply a load to the test piece 600 and pull it.

The pressing part 300 includes a second supporting member 310 provided at the other end of the test piece 600 fixed to the first supporting member 210 and fixedly supporting the test piece 600, A load generating unit 320 for providing a pressure to the second support member 310 and a second power generating unit 320 provided between the second support member 310 and the load generating unit 320, And a pressing shaft 330 that transmits the pressing force to the second supporting member 310.

Here, the load generating unit 320 may be a hydraulic cylinder, a hydraulic motor, an electric motor, or the like, and may be selectively applied with means capable of generating a load of a predetermined strength or higher.

The second support member 310 has a second seating portion 311 formed therein as a cylindrical space corresponding to the fixing jig 610 of the test piece 600.

Therefore, the fixing jig 610 can be stably fitted without any flow and supported in a fixed state, so that a uniform load can be applied to the test object S side.

The load supporting portion 200 is a means capable of holding and supporting the load S without applying a continuous load in a state where a load is applied to the test object S under a load.

The load supporting part 200 is fixed to the upper part of the frame 100 and has a support plate 410 through which the pressing shaft 330 can be reciprocated at the center thereof. And a stationary supporter 420 which surrounds the outer side of the pressurization shaft 330.

The fixing support portion 420 is provided with a nut hole 421 formed in a plurality of through holes formed along the outer periphery of the fixing support portion 420 and is fixed by the bolt structure in a state of being fitted in the nut hole 421, And a fixing bolt 422 capable of supporting or releasing it.

While the load is applied to the test object S, the fixing bolt 422 releases the pressing shaft 330 so that the pressing shaft 330 can be freely reciprocated while being separated to the outside while the load is applied to the test object S. When the fixed bolt 422 reaches a predetermined load, The pressing shaft 330 is adjusted to the side of the pressing shaft 330 so as to be held for a long time and fixedly supported so that the pressing shaft 330 does not move.

The cover C is further provided on the outer side of the load supporting part 200 and the pressing part 300 to entirely cover the load supporting part 200 and the pressing part 300.

As a result, it is possible to protect the load supporting part 200 and the pressing part 300 from external factors (such as dust and other foreign matter), thereby preventing a measurement error or a failure of the device due to external factors.

A load is applied between the load supporting portion 200 and the pressing portion 300 so that the load can be accurately applied to the center of the test object S without being deviated in a predetermined direction And a support shaft (500) supporting the support shaft (500).

Four support shafts 500 are provided at the corners of the load supporting portion 200 and the pressing portion 300 to support the load supporting portion 200 and the pressing portion 300 so as not to be distorted as a whole.

Hereinafter, an operation state of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention will be described with reference to the accompanying drawings.

3A is an operational state diagram showing a state before a pressure is applied to a steel wire side in a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.

3A, the fixing jig 610 provided at one end of the test piece 600 in a state in which a load is not applied is disposed on a first seating part (not shown) formed on the first supporting member 210 of the supporting part And the fixing jig 610 provided at the other end of the test piece 600 is fixed to the second seating part 311 formed on the second supporting member 310 of the pressing part 300. [ As shown in FIG.

FIG. 3B is an operational state diagram showing a state in which pressure is applied to the steel wire side of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention.

3B, the present invention is characterized in that a tensile load is applied to the pressing portion 300 while the test piece 600 is fixedly supported between the load supporting portion 200 and the pressing portion 300, The tensile strength of the test piece is checked.

When the load generating unit 320 generates a load, the pressing unit 300 transmits the load to the second supporting member 310 and presses the fixing jig 610 coupled to the second supporting member 310. [ The tensile load is applied to the test object S side.

As a result, the tensile strength can be measured by the load sensor 220 provided on the supporting part 200 while the test object S is pulled.

FIG. 4 is an operational state diagram illustrating a state where a test piece of a tensile strength testing apparatus for a steel wire according to an embodiment of the present invention is fixed under pressure.

4, when the constant tensile strength is reached, the tensile strength is maintained for a long period of time in order to check the tensile strength. In this case, the pressing shaft 330 is fixed through the load holding part 400 It is possible to continuously hold the state in which the tensile force is applied to the test object S by cutting off the power of the load generating part 320 in a supported state.

A support plate 410 provided on the outer side of the pressurizing shaft 330 and a fixed supporter 420 surrounding the pressurization shaft 330 are provided at the center of the support plate 410, Thereby making it possible to fix the support member 330 fixedly.

At this time, the outer side of the pressing shaft 330 is held by the operation of rotating the fixing bolts 422 respectively coupled to the nut holes 421 formed on the outer side of the fixed supporting part 420, So that even if the power of the load generator 320 is removed, a change in the tensile strength can be inspected for a long time with the tensile force applied to the test object S side.

The present invention as described above enables precise inspection in examining the tensile strength of a steel wire, and in examining the change of tensile strength in a state where a tensile force is applied for a long time, it is possible to maintain the tensile strength applied to the EUT without providing continuous power It is possible to save energy, economically use, and to maximize durability.

100: frame 110: castor
111: wheel 112: fixed plate
200: support part 210: first support member
211: first seat portion 220: load sensor
300: pressing portion 310: second supporting member
311: second seat part 320: load generating part
330: pressurizing shaft 400: load holding portion
410: support plate 420: fixed support
421: Nut hole 422: Fixing bolt
500: support shaft 600: test piece
610: Fixing jig S: Test object
C: cover

Claims (5)

A frame 100;
A supporting part 200 provided on one side of the upper part of the frame 100 to measure tensile strength while supporting one end of the test object S;
A pressing part 300 provided on the upper side of the frame 100 to apply a tensile force to the other end of the test object S;
A load holding part 400 provided between the pressing part 300 and the test object S and fixedly supporting the test object S in a state in which the test object S is drawn; And
And a test piece 600 fixedly supported on the supporting part 200 and fixed to the pressing part 300 at the other end thereof, As a result,
The test piece 600 further includes a fixing jig 610 which is fitted and fixed to both the support part 200 and the pressing part 300 on both sides of the test object S,
A first seating part 211 is formed in the support part 200 and has a space corresponding to the fixing jig 610 on the inner side so that a fixing jig 610 provided on one side of the test object S is fitted and fixed. A first support member 210 is further provided,
The pressing part 300 is provided with a space corresponding to the fixing jig 610 provided on the other side of the test object S and a fixing jig 610 provided on the other side of the test object S is fitted, And a second support member 310 having a second seating portion 311 formed thereon,
The support part 200 includes a first support member 210 to which one end of the test piece 600 is fitted and fixed and a second support member 210 to which the test piece 600 of the first support member 210 is fixed at the other end And a load sensor (220) provided on the test piece (600) for measuring a load applied to the test piece (600)
The pressing part 300 includes a second supporting member 310 to which the other end of the test piece 600 fixed to the supporting part 200 is fitted and fixed, A load generating unit 320 provided at the other end of the test piece 600 to generate a tensile force applied to the test piece 600 and a load generating unit 320 provided between the load generating unit 320 and the test piece 600, And a pressurizing shaft (330) for transmitting power to the second support member (310) by the power of the load generator (320)
The load holding part 400 includes a support plate 410 which is spaced apart from the pressing part 300 by a predetermined distance from the pressing shaft 330 and supports the pressing shaft 330, And a stationary supporter 420 which surrounds the pressurization shaft 330 at the center of the pressurization shaft 410 and fixes and supports the pressurization shaft 330 in a state in which pressure is applied to the pressurization shaft 330 The fixing support portion 420 has a nut hole 421 formed at an outer circumferential portion thereof and formed with a screw groove at its inner side and a nut hole 421 formed at an inner side thereof to be coupled with the nut hole 421 by a bolt fastening structure to prevent the pressing shaft 330 from moving And a fixing bolt (422) for fixing and supporting the tensile strength of the steel wire.
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