JP3018332U - Inspection gauge for pressure contact of reinforcing bars - Google Patents

Abstract

(57) [Summary] [Purpose] Stepless numerical confirmation of the measurement of the outer diameter of the bulge at the press contact part, the length of the bulge at the press contact part, and the amount of eccentricity of the center axis of the reinforcing bar. [Structure] One end edge of the long side of the gauge plate 1 is cut out in a rectangular shape to form a bulge length measuring portion 2 of a press contact portion, and the other end edge of the long side of the gauge plate 1 is cut out in a wedge shape. To form the outer diameter measuring portion 4 of the bulge of the pressure contact portion, and to adjoin the bulge length measuring portion 2 of the pressure contact portion, which is a slide plate which can move in and out with the end face 1a of the gauge plate 1 as a reference surface The eccentricity amount measuring unit 6 of the central axis of the reinforcing bar in the section,
A scale 3 for reading the bulge length measurement value, a scale 5, 5 for reading the bulge outer diameter measurement value, and a scale 7, 7 for reading the eccentricity measurement value are provided.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a gauge for inspecting a pressure contact portion of a reinforcing bar.

[0002]

[Prior art]

 BACKGROUND ART Conventionally, as a gauge for inspecting a pressure contact portion of a reinforcing bar, for example, a gauge described in Japanese Utility Model Laid-Open No. 61-60101 is known. As shown in FIG. 5, this type of gauge for inspecting a reinforcing bar pressure contact portion has a rectangular plate 10 provided with an outer diameter measuring portion 11 of the bulge of the pressure contact portion by cutting out the central portion of the short side. An arcuate notch 12 is formed on the long side of the, and a slide plate 13 is provided adjacent to the notch 12 so that the end face of the long side can be used as a reference plane, and the slide plate 13 can be moved in and out. It is configured to function as an eccentricity measurement unit for the central axis.

However, in the above-mentioned conventional gauge for inspecting the reinforcing bar pressure contact portion, the outer diameter of the bulge of the pressure contact portion is measured in multiple stages corresponding to the outer diameter of the bulge of the pressure contact portion of each reinforcing bar of each size. It is provided in a shape. Therefore, although it has a function as a limit gauge, more specifically, as a gauge for limit shaft, the outer diameter of the bulge of the press contact portion changes infinitely, though it changes infinitely. Numerical confirmation of all outer diameters has the drawback of being difficult. Moreover, there is a drawback in that it is impossible to measure the length of the bulge at the press contact portion.

On the other hand, a gauge for inspecting a pressure contact portion of a reinforcing bar described in Japanese Utility Model Laid-Open No. 61-91101 is known. As shown in FIG. 6, this type of inspection gauge has a plurality of notch recesses 15, 15 ... A plurality of notch recesses 16, 16 for measuring the bulge length are formed in the remaining portions of the notch recesses 15, 15, which fit together, and notch recesses 15, 15 for measuring the bulge diameter are used for measuring the bulge length. The projections between the notched recesses 16, 16 ... Are made to function as the eccentricity amount measuring units 17, 17.

In this type of gauge for inspecting a rebar pressure contact portion, the outer diameter of the bulge of the pressure contact portion, the eccentricity of the core axis of the rebar, and the pressure gauge that is impossible with the former gauge for inspecting the rebar pressure contact portion. The bulge length of the part can be measured. Therefore, it has the functional superiority to the former inspection gauge of the pressure contact portion of the reinforcing bar.

However, in the latter gauge for inspecting the pressure contact portion of the reinforcing bar, the notch recesses 15, 15 ... For measuring the bulge diameter of the pressure contact portion are different from each other corresponding to the outer diameter of the bulge of the pressure contact portion of each reinforcing bar of each size. A plurality of them are provided with a radius of curvature. Therefore, although it has a function as a limit axis gauge, like the former gauge for inspecting the rebar pressure contact area, it is difficult to numerically confirm all the steplessly changing outer diameters. is there. Further, since the notch recesses 16, 16 ... For measuring the bulge length are also provided with a plurality of measuring lengths different from each other, they have a function as a gauge for the limit length, but none. It is difficult to confirm numerically all lengths that change in stages. Further, the eccentricity amount measuring section 17, 17 ... for the center axis of the reinforcing bar is used to measure the eccentricity amount of the center axis of the reinforcing bar, one eccentricity measuring section selected from a plurality of eccentricity measuring sections 17, 17 .... One end of 17 is positioned on the center axis of one rebar, and the eccentricity is confirmed by the relationship between the other end and the center axis of the other rebar at this time. However, the work of properly positioning one end of the eccentricity measurement unit 17 with respect to the center axis of one rebar and the work of reading the relationship between the other end of the eccentricity measurement unit 17 and the center axis of the other rebar are extremely important. Have difficulty. For this reason, it has the drawback that it is not possible to expect highly accurate measurement, and although it has the function of a limit eccentricity gauge, it can calculate all eccentricity values that fluctuate infinitely. It is difficult to confirm it.

[0006]

[Problems to be solved by the device]

 The problem to be solved is that the outer diameter of the bulge of the pressure contact part, the length of the bulge of the pressure contact part and the function as a limit gauge for measuring the eccentricity of the center axis of the reinforcing bar are It is difficult to numerically confirm all outer diameters, lengths, and eccentricities that fluctuate.

[0007]

[Means for Solving the Problems]

 The present invention is to measure the bulge length of the pressure contact part formed by cutting out the edge of the gauge plate and the outer diameter of the bulge of the pressure contact part formed by cutting out the edge of the gauge plate in a wedge shape. Section, and an eccentricity amount measuring section of the center axis of the reinforcing bar in the press contact section that is provided adjacent to either the length measuring section or the outer diameter measuring section with the end surface of the gauge plate as a reference surface, Each of the bulge length measuring portion, the bulge outer diameter measuring portion, and the eccentricity amount measuring portion of the reinforcing rod center axis is provided with a scale for reading a measured value. The objective of stepless numerical confirmation of the outside diameter, the bulge length of the press contact part, and the amount of eccentricity of the rebar central axis was achieved.

[0008]

[Action]

 According to the invention of claim 1, the cut length of the bulge of the press contact portion is larger than the expected maximum length of the bulge of the press contact portion to form the constant length portion of the bulge of the press contact portion. The outer diameter measurement part of the bulge of the press contact part is formed by notching in a wedge shape with an opposing dimension that is equal to or larger than the maximum outer diameter of the rod. In addition, by providing an eccentricity measuring part for the center axis of the reinforcing bar in the pressure contact part, it is possible to measure the continuously changing outer diameter, length and eccentricity. It can be confirmed numerically by reading the scale.

[0009]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a front view of the present invention, in which a gauge plate 1 is formed of a stainless steel plate in a rectangular shape. One end of the long side of the gauge plate 1 is cut out in a rectangular shape to form a bulge length measuring portion 2 of the pressure contact portion, and a graduation 3 for reading the measured value of the bulge length of the pressure contact portion is formed. Is provided. The other end of the long side of the gauge plate 1 is notched in a wedge shape to form the outer diameter measuring portion 4 of the bulge of the pressure contact portion. The bulge of the pressure contact portion corresponds to one slope 4A. A scale 5A for reading the outer diameter measurement value is provided, and a scale 5B for reading the outer diameter measurement value of the reinforcing bar described later is provided corresponding to the other slope 4B. The value of the opening angle θ of the slopes 4A and 4B is preferably set within 90 degrees. Further, adjacent to the bulge length measuring portion 2 of the pressure contact portion, there is provided an eccentricity amount measuring portion 6 of the core axis of the reinforcing bar in the pressure contact portion which is a slide plate which can be moved in and out with the end surface 1a of the gauge plate 1 as a reference surface. Scales 7 for reading the measured value of the eccentricity are provided at the corresponding positions of the slide plate and the gauge plate 1, respectively.

The cutout dimension L1 of the bulge length measuring portion 2 of the press contact portion is set to be equal to or more than the assumed maximum axial length of the bulge of the press contact portion, and the cutout dimension L3 is set to the estimated press contact portion. It is set to be equal to or larger than the maximum protrusion amount of the bulge in the radial direction (see r in FIG. 2). Further, the maximum separation dimension L2 of both slopes 4A, 4B of the outer diameter measuring portion 4 of the bulge of the pressure contact portion is set to be equal to or more than the assumed maximum outer diameter of the bulge of the pressure contact portion, and The stroke amount L4 of the slide plate that constitutes the eccentricity measuring unit 6 is set to be equal to or larger than the maximum eccentricity amount of the assumed reinforcing bar central axis of the plate.

With such a configuration, as shown in FIG. 2, the bulge length measuring portion 2 of the pressure contact portion of the gauge plate 1 is brought into contact with the bulge 9 of the pressure contact portion of the reinforcing bars 8A and 8B. By reading the scale 3 for reading the measured value of the bulge length of the pressure contact portion, the length L of the bulge 9 of the pressure contact portion can be measured and confirmed numerically. Further, as shown by the solid line in FIG. 3, both slopes 4A, 4B of the outer diameter measuring portion 4 of the bulge of the pressure contact portion of the gage plate 1 are brought into contact with the bulge 9 of the pressure contact portion of the reinforcing bars 8A, 8B. By reading the scale 5A for reading the outer diameter measurement value of the bulge of the pressure contact portion, the outer diameter D of the bulge 9 of the pressure contact portion can be measured and numerically confirmed. On the other hand, as shown by the phantom line in FIG. 3, the outer diameters of the reinforcing bars 8A and 8B are brought into contact with both slopes 4A and 4B of the outer diameter measuring portion 4 of the bulge of the pressure contact portion of the gauge plate 1 so as to contact with each other. By reading the scale 5B for reading the measured value, the outer diameter D1 of the reinforcing bars 8A and 8B can be measured and numerically confirmed.

On the other hand, as shown in FIG. 4, the end surface 1a of the gauge plate 1 is brought into contact with the outer surface of the reinforcing bar 8A as a reference surface, and the bulge length measuring portion 2 of the press contact portion is made to correspond to the bulge 9 of the press contact portion. After sliding the eccentricity amount measuring unit 6 of the center axis of the rebar made of slide plates, and reading the scales 7 for reading the measured value of the eccentricity, the center axis C1 of the rebar 8A and the rebar 8B at the press contact portion are read. The amount of eccentricity e of the central axis C2 can be measured and confirmed numerically.

As described above, the notch dimension L1 of the bulge length measuring portion 2 of the press contact portion is set to be equal to or more than the expected maximum length of the bulge of the press contact portion, and the outer diameter measuring portion 4 of the bulge of the press contact portion is set. The maximum separation dimension L2 between the two slopes 4A and 4B is set to a value larger than the maximum outer diameter of the bulge of the pressure contact portion, and the stroke amount L3 of the slide plate that constitutes the eccentricity amount measuring portion 6 of the reinforcing bar central axis is set. Set the maximum eccentricity of the assumed reinforcing bar center axes C1 and C2, and specify the measurement of the length L of the bulge 9 in one length measurement unit 2 to determine the outer diameter D of the bulge 9. Of the eccentricity e of the central axis C1 of the reinforcing bar 8A and the central axis C2 of the reinforcing bar 8B in the pressure contact portion is specified in one eccentricity measuring section 6 Since it is configured, the length L of the bulge 9 of the bulge 9 Even when the outer diameter D and the eccentricity e of the central axis C1 of the reinforcing bar 8A and the central axis C2 of the reinforcing bar 8B each change steplessly, the stepless fluctuations are followed to measure easily and accurately, These measured values can be numerically confirmed by reading the reading scales 3, 5A, 7, 7.

[0014]

[Effect of device]

 As described above, according to the present invention, the length of the bulge of the press contact portion, the outer diameter of the bulge of the press contact portion, and the eccentricity of the center axis of one rebar and the center axis of the other rebar vary continuously. Even so, it is possible to easily and accurately measure by following this stepless fluctuation and to numerically confirm these measured values by reading the scale for reading.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention.

FIG. 2 is an explanatory diagram of measuring the length of a bulge of a press contact portion.

FIG. 3 is an explanatory diagram of measuring an outer diameter of a bulge of a press contact portion.

FIG. 4 is an explanatory diagram of measuring the amount of eccentricity of the center axis of a reinforcing bar.

FIG. 5 is a front view of a conventional example.

FIG. 6 is a front view of another conventional example.

[Explanation of symbols]

 1 Gauge plate 1a End face of gauge plate 2 Length of pressure contact bulge stepless measurement section 3 Scale for reading measured value 4 Stepless outer diameter measurement of bulge at pressure contact section 5A Scale for reading measurement value 5B Reading measurement value Scale 6 for measuring the eccentricity of the center axis of the reinforcing bar 7 Scale for reading measured values

Claims (1)

[Scope of utility model registration request] 1. A bulge length measuring portion of a pressure contact portion formed by cutting out an edge portion of a gauge plate, and an outer diameter of a bulge of a pressure contact portion formed by cutting out an edge portion of the gauge plate in a wedge shape. A measuring part, and an eccentricity measuring part for measuring the center axis of the reinforcing bar in the press-contact part, which is provided adjacent to either the length measuring part or the outer diameter measuring part so that the end surface of the gauge plate can be used as a reference surface. The bulge length measuring unit, the bulge outer diameter measuring unit and the eccentricity amount measuring unit of the rebar central axis, each of which is provided with a scale for reading the measured value Inspection gauge.