KR101018529B1 - Bolt's Elongation measuring device - Google Patents

Abstract

The present invention relates to a device for measuring elongation of a bolt.

Elongation of the bolt measuring apparatus according to an embodiment of the present invention, the jig body 110, the rod 210, which is installed on one side of the jig body 110 to move linearly toward the object to be measured, the end of the rod 210 A sensor 220 installed in the measuring tip 200 and a jig body 110 installed in the jig body 110 to detect a displacement value of the rod 210 and a sensor 220 embedded in the jig body 110. Magnetically installed on one side of the control unit 230, the jig body 110 and the magnetic force is applied to the fixed body in a direction orthogonal to the linear movement direction of the rod 210 to calculate and process the displacement value detected in the And a terminal 300 displaying the result value transmitted from the body 130 and the controller 230.

Volt, Elongation, Measurement, Jig, Terminal

Description

Elongation measuring device for bolts {Bolt's Elongation measuring device}

The present invention relates to an apparatus for measuring elongation of a bolt, and more particularly, to an apparatus for measuring elongation of a bolt fastened to a mechanical mechanism or the like.

In general, the bolt is used as a fastening element in a structure such as a mechanical mechanism, the tensile stress may be applied depending on the purpose of fastening, in particular may be a variable stress in which the strength of the tensile stress changes frequently.

As described above, the variable stress applied to the bolts may cause the bolts to deform, further degrading the performance of the mechanism in which the bolts are installed or even risking a safety accident.

Therefore, in order to maintain the normal performance of the mechanical mechanism, it is necessary to understand how much stress the bolt is able to withstand, and the durability of the mechanical mechanism can be estimated based on the resultant value, thereby securing the stability of the mechanical mechanism. It can be used as important data.

The above-described mechanical mechanism may have various forms, and as an example, there is a marine engine 10 as shown in the accompanying drawings.

The marine engine 10 is provided with a connecting member 12 on the crankshaft and a piston is installed above the connecting member 12.

The above-described connecting member 12 may be composed of a plurality of parts and the plurality of parts may be bound by the bolt 16 and the nut 14.

The above-mentioned connecting member 12 is raised and lowered violently when the engine is driven, and a variable tensile stress may be applied to the bolt 16.

Therefore, in order to operate the senbak engine 10 as described above stably, it is necessary to know the allowable tensile stress that the bolt 16 can withstand, thereby measuring the elongation of the bolt 16.

In general, in order to measure the elongation of the bolt 16, the hydraulic jack 20 is used as a mechanism for artificially applying tensile stress to the bolt 16 to measure the degree of deformation and apply tensile stress.

As shown in FIG. 1, the hydraulic jack 20 has a pedestal 32 disposed on the lower side, a housing 22 disposed above the pedestal 32, and a piston 24 disposed inside the upper portion of the housing 22. Is placed.

In addition, the internal thread 26 is formed in the inner diameter part of the piston 24 mentioned above.

In addition, the hydraulic line 28 is installed on one side of the piston 24 described above, and the chamber 30 is formed between the housing 22 and the piston 24. The hydraulic pressure of the hydraulic line 28 described above It may be applied to the above-described chamber 30, the piston 24 is pushed out when the pressure is increased in the chamber 30.

The pedestal 32 described above is fitted in such a manner as to surround the outer diameter portion of the nut 14 so as to contact the connecting member 12 as a structure, and the housing 22 is disposed above the pedestal 32.

That is, when the hydraulic jack 20 is installed in the bolt 16, the piston 24 is fastened to the bolt 16, and then, when a high pressure hydraulic pressure is applied to the hydraulic jack 20, a tension force is applied to the bolt 16 while the bolt ( 16) is increased.

At this time, knowing the force applied to the bolt 16, by measuring the amount of change in the length of the bolt 16 it is possible to obtain the elongation of the bolt 16.

Here, in order to measure the change in the length of the bolt 16, a dial gauge 40 is conventionally used as shown in FIG.

That is, conventionally, the magnetic which is a fixed part of the dial gauge 40 was provided in one side of the frame 10a, and the measurement bar 42 of the dial gauge 40 was installed so that the outer surface of the piston 24 might be contacted.

Displacement occurs as the piston 24 moves up and down by the hydraulic action of the hydraulic jack 20. The displacement amount generated at this time is read and recorded on the scale indicated by the needle on the dial gauge 40, so that the bolt 16 Elongation was calculated manually.

However, the conventional elongation measurement method as described above is very inaccurate and the measurement operator should read the scale of the dial gauge 40 directly with the naked eye, but an error may occur in the visual judgment.

In addition, it is very inconvenient to judge the scale of the dial gauge 40 when the structure is complicated and the measurement place is narrow like the ship engine 10.

In addition, as shown in Figure 2, the measurement bar 42 of the dial gauge 40 due to the uncomfortable conditions of the measurement site is not very wide and the measurement operator should install the dial gauge 40 in the visible direction. There is a problem that is very difficult to install in the direction parallel to the axial direction of the bolt 16.

In addition, there is a problem that a large amount of deviation occurs by accurately measuring the lifting displacement of the piston 24 due to the failure to install the measurement bar 42 in the straight direction as described above.

That is, in the related art, the length displacement was measured by using a measuring device such as the dial gauge 40. At this time, it is very inconvenient to install the dial gauge 40, and the measurement bar 42 is installed in an incorrect posture. It may be generated, there is a problem that inaccurate measurement can be made by visually judging the scale of the dial gauge (40).

Thereby, the elongation measurement of the bolt 16 becomes inaccurate and there is a problem of inferior reliability.

In addition, a number of bolts 16 can be installed in the mechanical mechanism, which requires a lot of time and labor to install the dial gauge 40 for each bolt 16 and measure the amount of displacement.

Accordingly, an object of the present invention is to provide a device for measuring elongation of a bolt to more accurately and quickly measure the amount of longitudinal displacement of the bolt to more accurately measure the elongation of the bolt.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, another technical problem that is not mentioned can be clearly understood by those skilled in the art from the following description. There will be.

Elongation measuring device of the bolt according to an embodiment of the present invention for achieving the above technical problem, jig body; A rod installed at one side of the jig body and linearly moving toward an object to be measured; A measurement tip installed at an end of the rod and in contact with the object to be measured; A sensor embedded in the jig body to detect a displacement value of the rod; A control unit which is embedded in the jig body and calculates a displacement value detected by the sensor and transmits a result value; A magnetic body installed at one side of the jig body and having a magnetic force applied to the fixed body in a direction orthogonal to the linear movement direction of the rod; And a terminal for displaying a result value transmitted from the control unit.

In addition, the control unit and the terminal, the result value may be transmitted and received by wireless communication.

In addition, the slider further disposed on one side of the jig body; A bracket further disposed on one side of the magnetic body; And a guide way installed on the bracket and assembled with the slider to guide the linear movement of the slider.

In addition, a guide hole is further formed on one side of the bracket in a direction parallel to the longitudinal direction of the slider, and an adjustment bolt penetrating the guide hole and fastened to the slider is further installed, and the bracket is adjusted by adjusting the adjustment bolt. And the slider may be fixed / unlocked.

The measuring tip may be any one of a plate type in which the part contacting the object to be measured is in surface contact, or a cone type in point contact.

Specific details of other embodiments are included in the detailed description and the drawings.

Elongation measuring device of the bolt according to an embodiment of the present invention made as described above is installed directly on the side of the hydraulic jack and install the measuring tip in the longitudinal direction in which the displacement of the piston occurs, the length displacement is automatically calculated and transmitted to the terminal The elongation of the bolt can be measured more accurately and quickly.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

Like reference numerals refer to like elements throughout the specification, like reference numerals designate like elements in the related art, and detailed descriptions thereof will be omitted.

Hereinafter, a device for measuring elongation of a bolt according to an embodiment of the present invention will be described with reference to FIGS. 3 to 5.

3 and 4 are exemplary views for explaining an example of the elongation measuring device of the bolt according to an embodiment of the present invention, Figure 5 is an attached drawing of the elongation measuring device of the bolt according to an embodiment of the present invention It is an exemplary figure for demonstrating an installed example.

Elongation measuring apparatus 100 according to an embodiment of the present invention is a magnetic body 130 is disposed on the lower side of the jig body 110 as shown in Figure 3 and 4 and the jig body 110 to the object to be measured. The measuring tip 200 contacted is installed and the result value measured by the jig body 110 may be transmitted to the terminal 300 and displayed.

The above-described jig body 110 is provided with a rod 210 that is retracted toward the object to be measured, and in particular, the rod 210 is always forced by the restoring force of the spring and exerts an external force on the rod 210. The rod 210 may be pushed into the jig body 110.

In addition, the sensor 220 for detecting the movement of the rod 210 may be built in the inside of the jig body 110, and the sensor 220 may be linear according to the movement of the rod 210. The detection value can be output by detecting the displacement.

In addition, the controller 230 may be installed inside the above-described jig body 110, and the controller 230 receives a detection value output from the sensor 220 as described above, performs arithmetic processing, and outputs a result value. can do.

In addition, the result value output from the controller 230 may be displayed on the terminal 300.

In this case, the above-described terminal 300 may be integrally formed with the above-described jig body 110, or on the other hand, the jig body 110 and the terminal 300 may be separated into separate objects.

In addition, as described above, when the jig body 110 and the terminal 300 are separated into separate objects, data of the result value may be transmitted and received by wire communication or wireless communication.

The wired communication or the wireless communication described above uses known techniques, and further description thereof will be omitted.

The above-described magnetic body 130 may be disposed to apply a magnetic force to the fixed object in a direction orthogonal to the linear movement direction of the rod 210 described above, and apply magnetic force to one side of the magnetic body 130 or release the magnetic force. The adjustment lever 132 to adjust the may be disposed.

In addition, the above-described magnetic body 130 may be formed in a substantially V-shape in contact with the to-be-fixed object, whereby it can be fixed while maintaining a tighter and more directional when the shape of the to-be-fixed object is cylindrical.

The above-described directionality is explained in more detail as follows.

When the magnetic body 130 is mounted on the cylindrical to-be-fixed object, the V-shaped contact surface and the cylindrical surface are in contact with each other, so that the magnetic body 130 is always mounted in a direction parallel to the central axis of the to-be-fixed object. It is decided naturally.

As a result, as described above, the magnetic body 130 is mounted while having directivity to the to-be-fixed object, and is mounted in a direction parallel to the longitudinal direction of the cylindrical shape, such that the direction in which the rod 210 faces the object to be measured can be determined. In particular, the linear direction of movement of the rod 210 may act in a vertical direction with respect to the object to be measured.

In addition, the measuring tip 200 is installed at the end of the rod 210 described above, in which the measuring tip 200 is a plate type 202 or a cone type in point contact with the part contacting the object to be measured. 204 may be any one.

The plate type 202 described above may be used universally when the surface of the object is uneven and uneven, and the cone type 204 described above may be used when the surface of the object is even or measured by precisely specifying a specific point. Can be.

That is, the above-described measuring tip 200 may be replaced by the rod 210 described above, and the fastening configuration may be a known configuration such as simply fitting a shaft to a bolt and a nut or a hole.

On the other hand, the elongation measuring device 100 according to an embodiment of the present invention can vary the relative position of the magnetic body 130 and the measuring tip 200, such a variable position of the jig body 110 and the magnetic This can be enabled by adding a configuration to guide linear motion between the bodies 130.

The configuration for guiding the linear motion described above will be described in more detail.

The slider 120 may be further disposed on one side of the above-described jig body 110, the bracket 140 may be further disposed on one side of the magnetic body 130, and the guide may be disposed on the bracket 140. Way 150 may be installed.

The above-described guide way 150 is assembled with the slider 120 to guide the linear motion of the slider 120.

Since the slider 120 may be linearly moved in the guide way 150 described above, the relative positions of the magnetic body 130 and the jig body 110 may be changed.

As described above, varying the relative position of the jig body 110 may be closely related to the shape of the object to be measured. For example, when the relative position (distance) of the fixed object and the object to be measured is far from such a position (distance). Adjust it to suit.

As described above, when no external force is applied immediately after the relative movement between the guide way 150 and the slider 120 is made, the changed position may be maintained, and then the artificial way may be applied to restore the initial state. .

On the other hand, when the place where the elongation measuring device 100 is installed is severely vibrated or inclined, the slider 120 may be artificially fixed to the bracket 140, and the configuration thereof will be described in detail.

The guide hole 142 may be further formed at one side of the above-described bracket 140 in a direction parallel to the longitudinal direction of the slider 120, and the guide hole 142 may be further penetrated through the above-described slider ( The adjustment bolt 122 fastened to the 120 may be further installed.

That is, the bracket 140 and the slider 120 are fixedly set / released by the adjustment of the adjustment bolt 122 described above.

In addition, the above-described adjustment bolt 122 may be disposed on both sides of the bracket 140 described above.

Hereinafter, the operation of the elongation measuring device 100 according to an embodiment of the present invention will be described with reference to FIGS. 5 to 8.

5 is an exemplary view showing an example in which the elongation measuring device 100 is installed in the hydraulic jack 20.

5 illustrates an example in which the plate type 202 is applied to the measurement tip 200.

The above-described hydraulic jack 20 is formed in a substantially cylindrical shape of the housing 22, in particular the size of the hydraulic jack 20 may vary, wherein the contact surface of the magnetic body 130 is approximately V As a shape, it can be mounted on cylinders of various sizes while maintaining directionality.

As shown in FIG. 5, the magnetic body 130 is placed on the housing 22 and the adjustment lever 132 is adjusted to install the magnetic body 130 on the housing of the hydraulic jack 20 by magnetic force.

In addition, the measuring tip 200 is in contact with the piston 24 of the hydraulic jack 20, but when the stable contact with the upper surface of the piston 24 of the measuring tip 200, the jig body in the magnetic body 130 By moving the relative to 110, the measuring tip 200 can be adjusted so as to stably contact the upper surface of the piston (24).

In addition, the adjustment bolt 122 may be adjusted to stabilize the jig body 110.

On the other hand, as described above, since the magnetic body 130 is installed in a directional state, the rod 210 may be brought into contact with the upper surface of the piston 24 to be relatively perpendicular to each other, thereby improving reliability.

As described above, after the elongation measuring device 100 is installed in the hydraulic jack 20, the elongation is measured substantially, which will be described with reference to FIGS. 6 to 8.

6 to 8 are exemplary views for explaining an example of measuring the elongation of the bolt by the device for measuring the elongation of the bolt according to an embodiment of the present invention.

First, as shown in FIG. 6, the position of the measuring tip 200 may be detected in the initial state without applying hydraulic pressure to the hydraulic jack 20, and on the other hand, the position of the measuring tip 200 in this initial state may be zeroed. have.

In more detail, since the purpose is to detect the change in the position of the measuring tip 200 described above, it does not matter whether the initial position is detected or the zero point is set.

Subsequently, when the hydraulic jack 20 is operated at a predetermined hydraulic pressure as shown in FIG. 7, the piston 24 is raised while applying pressure to the chamber 30, thereby applying a tensile force to the bolt 16.

In addition, the bolt 16 extends in the longitudinal direction and the piston 24 is displaced as much as the displacement of the bolt 16 is extended, and this displacement displaces the measuring tip 200.

In particular, since the rod 210 is linearly moved in a direction parallel to the linear deformation direction in which the piston 24 causes a displacement, even if the displacement is transmitted through the measuring tip 200, the displacement transmitted to the rod 210 is accurate. It can be delivered.

As a result, the linear displacement of the measurement tip 200 is generated by the above-described displacement of the bolt 16. The displacement is detected by the sensor 220, and the detection value is input to the controller 230.

Subsequently, as shown in FIG. 8, when the hydraulic pressure is released from the hydraulic jack 20, the bolt 16 contracts, and a contraction displacement ΔL occurs even when the bolt 16 is contracted, and such a contraction displacement ΔL. Is input to the controller 230 described above.

The controller 230 receives an initial detection position, a position at which the bolt 16 is extended, and a contraction displacement ΔL at which the bolt 16 is contracted to perform arithmetic processing.

The result value calculated by the controller 230 is displayed on the terminal 300 to know how much the elongation of the bolt 16 is.

On the other hand, the above-described terminal 300 may receive data from a plurality of elongation measuring device 100, wherein the plurality of elongation measuring device 100 may have a unique channel.

Therefore, if the number of bolts 16 is an example of six, by installing the elongation measuring device 100 in six places can measure the six bolts 16 at the same time, the six result values are collected in the terminal 300 This makes it possible to measure the elongation of more bolts more quickly.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. will be.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is represented by the following detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

Elongation measuring device of the bolt according to an embodiment of the present invention can be used to measure the elongation of the bolt fastened to various machine tools, such as marine engines, machine tools, heavy equipment.

1 is an exemplary view for explaining an example in which a bolt is fastened to a machine mechanism.

2 is an exemplary view for explaining an example of measuring the elongation of a conventional bolt.

3 and 4 are exemplary views for explaining an example of the device for measuring the elongation of the bolt according to an embodiment of the present invention.

5 is an exemplary view for explaining an example of the installation of the device for measuring the elongation of the bolt according to an embodiment of the present invention.

6 to 8 are exemplary views for explaining an example of measuring the elongation of the bolt by the device for measuring the elongation of the bolt according to an embodiment of the present invention.

(Explanation of symbols for the main parts of the drawing)

10: ship engine 10a: frame

12: connecting member 14: nut

16: bolt

20: hydraulic jack 22: housing

24: piston 26: female thread

28: hydraulic line 30: chamber

32: support member

40: dial gauge 42: measuring bar

100: elongation measuring device 110: jig body

120: slider 122: adjustment bolt

130: magnetic body 132: adjustment lever

140: bracket 142: guide hole

150: guideway 200: measurement tip

202 and 204 first and second measurement tips 210 rod

220: sensor 230: control unit

300: terminal

Claims (5)

Jig body 110; A slider 120 disposed on one side of the jig body 110; A rod 210 installed at one side of the jig body 110 to linearly move toward an object to be measured; A magnetic body 130 installed at one side of the jig body 110 and having a magnetic force applied to the fixed body in a direction orthogonal to the linear movement direction of the rod 210; A bracket 140 disposed on one side of the magnetic body 130; A guide way (150) installed on the bracket (140) and assembled with the slider (120) to guide the linear movement of the slider (120); A measurement tip 200 installed at an end of the rod 210 and in contact with the object to be measured; A sensor (220) embedded in the jig body (110) for detecting a displacement value of the rod (210); A controller (230) embedded in the jig body (110) for calculating a displacement value detected by the sensor (220) and wirelessly transmitting a result value; And A terminal 300 for receiving and displaying a result value wirelessly transmitted from the controller 230; Elongation measuring device of the bolt comprising a. delete delete The method of claim 1, A guide hole 142 is further formed on one side of the bracket 140 in a direction parallel to the longitudinal direction of the slider 120, An adjustment bolt 122 penetrates the guide hole 142 and is fastened to the slider 120. Fixation / release of the bracket 140 and the slider 120 by adjustment of the adjustment bolt 122; Elongation measuring device of the bolt, characterized in that. The method of claim 1, The measuring tip 200 is, The part in contact with the object to be measured is either a plate type 202 in surface contact or a cone type 204 in point contact; Elongation measuring device of the bolt, characterized in that.

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