JP2000009402A - Inside measure measuring apparatus for post and beam unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the measuring accuracy of the inside measure of a post and beam unit by providing a position grasping means for specifying a Bessel point of a lever, supporting it at its position by hangers, and measuring the inside measure. SOLUTION: The inside measure measuring apparatus 1 comprises a regulating bolt 5 provided at one end of a lever, a depth gage 7 provided at the other end, and a Bessel point display mark 9 attached to a Bessel point of the lever. The apparatus 1 is supported at the point by a pair of hangers 11 hangable at a ceiling beam 15a. Thus, the apparatus 1 is used in the state that a deflection amount is always minimum and constant. As a result, a measuring accuracy of the inside measure of a post and beam unit 15 can be improved, Whether an error or a parallelism of a post in the vertical direction is adapted to a standard with a display numerical value of each measuring point in terms of a designed standard measure or not can be judged.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for measuring the inner dimension of a column / beam unit which is suitable for measuring the inner dimension of a column.

[0002]

2. Description of the Related Art In a construction site of an industrially-produced house, a sub-assembly member that has been factory-produced in advance is often used in order to easily and accurately install a building in a short period of time. This type of sub-assembly member includes a frame-shaped column / beam unit in which a ceiling beam and a floor beam are attached to left and right columns. The column / beam unit is assembled in a factory, carried into a construction site, and built as a part of a building. The internal dimensions of the column / beam unit are set as design standards in accordance with the standards of the building to be built. Therefore, the column / beam unit after the factory production is measured to determine whether the internal dimension conforms to a predetermined standard. This measurement is performed by providing measurement points at the upper, middle, and lower portions of the column, and measuring the distance between opposing measurement points of the left and right columns. Conventionally, in order to perform such a measurement, a long ruler or the like was simply applied to the space between the left and right pillars to determine the distance between the measurement points.

[0003]

However, in the above-described conventional measuring method, a long ruler is simply applied between the left and right pillars, and the distance between the respective measuring points is actually measured. There was a problem that it took time to determine whether or not to conform to the standard. The column and beam unit has a space between columns of 5
Since some units exceed m, when a long ruler is used, if the distance between the left and right columns is long, the ruler is largely bent by its own weight. If the horizontally supported ruler flexes, the length of the central axis of the ruler will shrink. This shrinkage is
It also varies variously depending on the position where the ruler is supported. Due to such factors, when measuring the distance between the left and right columns using a long ruler, there is a problem that the measurement accuracy is reduced. The present invention has been made in view of the above circumstances, it is possible to quickly determine whether the internal dimension between the columns conforms to the standard, and, moreover,
It is an object of the present invention to provide an apparatus for measuring the inner dimension of a column / beam unit capable of obtaining high measurement accuracy.

[0004]

According to the first and second aspects of the present invention, there is provided an apparatus for measuring the inner dimension of a column / beam unit, comprising a rod made of a long metal material. An adjusting bolt that is screwed to one end of the rod in the axial direction of the rod and is rotated so that a protruding length of the rod from the one end is variable, and is movable in the axial direction of the rod from the other end of the rod. It is characterized by comprising distance measuring means for projecting the needle and measuring the amount of movement of the movable needle in the axial direction, and position grasping means for specifying the vessel point of the rod.

In this inner dimension measuring device, the Bessel point of the rod can be easily supported. The inner dimension measuring device has a deflection amount by supporting the vessel point of the rod,
It will always be used in a minimal and constant state. As a result, the measurement accuracy of the inner dimension of the column / beam unit is improved. In addition, since the distance measuring means is provided at the other end of the rod, an error with the design standard between the pillars is confirmed, and in addition, one measuring point in the vertical direction of the pillar is used as a reference, and the other measuring points with respect to this reference point Variations can be easily grasped.

According to a third aspect of the present invention, there is provided an apparatus for measuring the inner dimension of a column / beam unit, comprising: a suspension rod having a total length substantially equal to a distance between a ceiling beam and a floor beam; and a suspension rod provided at one end of the suspension rod. A hanger comprising hook means for hooking the hanging beam to the ceiling beam, and hooks provided at equally dividing positions that divide the entire length of the hanging bar into a plurality of parts, and which detachably support the rod body. And

In this inner dimension measuring apparatus, the support of the vessel point on the rod can be performed easily and with high precision by using a hanger having a relatively simple structure.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the inner dimension measuring apparatus for a column / beam unit according to the present invention will be described below in detail with reference to the drawings. FIG. 1 is a perspective view of an inner dimension measuring apparatus according to the present invention, and FIG. 2 is a perspective view of a hanger used in the inner dimension measuring apparatus of FIG.

The main components of the inner dimension measuring device 1 are roughly divided into a rod 3, an adjusting bolt 5, a distance measuring means (depth gauge) 7, and a position grasping means (Vessel point display mark) 9. Is done. The rod 3 is formed of a long metal material having the same cross-sectional shape at an arbitrary position in the longitudinal direction. The rod 3 serves as a base of a ruler of the present apparatus. In this example, a square pipe having the same cross-sectional shape such as a steel material or an aluminum material is used.

The above-mentioned adjusting bolt 5 is provided at one end serving as a reference end of the rod 3. The adjustment bolt 5 includes a rod-side fixing nut 5a, a bolt 5b, and a lock nut 5c. The rod-side fixing nut 5a is fixed to one end surface of the rod 3 by appropriate means such as caulking or welding. Bolt 5
“b” penetrates one end surface of the rod 3 and is screwed to the rod-side fixing nut 5a. That is, the bolt 5b is
The length of protrusion from one end of the rod 3 is variable by being screwed in the axial direction of the rod 3 and being rotated. Also,
The bolt 5b is fixed so as not to rotate at a predetermined position by the lock nut 5c. in this case,
A spring washer may be interposed between the lock nut 5c and the rod-side fixing nut 5a to more reliably prevent the lock nut 5c from being loosened.

The above-described depth gauge 7 is attached to the other end of the rod 3. The depth gauge 7 has a measured value display 7a and a movable needle 7b that slides on the measured value display 7a. The depth gauge 7 has a movable needle 7b
Is fixed so that the sliding direction of the rod 3 is in the axial direction of the rod 3. The depth gauge 7 can display the movement amount of the movable needle 7b in the axial direction on the measured value display section 7a. Further, the depth gauge 7 can reset the measured value display section 7a to "0" at an arbitrary projecting position of the movable needle 7b. Thereby, the displacement amount of the movable needle 7b that has moved can be displayed based on the reset value.

The rod 3 is marked with position grasping means (vessel point display mark) 9 for specifying the "vessel point".
When a long member having the same cross-sectional shape is supported at two points, the length of the central axis differs depending on the position of a fulcrum supporting the long member.
The “Vessel point” is a fulcrum where the amount of reduction in the length of the central axis is the smallest when such a long member is supported at two points. In the case of a long member having a total length L, the Bessel point is a distance D between two points D = 0.5594 × L and a distance A from both ends A =
0.2203 × L.

[0013] The inner dimension measuring apparatus 1 configured as described above.
Is supported by a hanger 11 shown in FIGS. 2A and 2B. The hanger 11 has a hanging rod 11a.
And hook means 11b and hooks 11c. The hanging bar 11a is connected to the ceiling beam 15a and the floor beam 1 of the column / beam unit 15.
It has a total length substantially equal to the distance between 5d. FIG. 2 (A)
Is attached to one end of the hanging rod 11a. The hooking means 11b shown in FIG. 2B is formed integrally with the hanging rod 11a by bending one end of the hanging rod 11a. The hooking means 11b has a hook shape so that it can be easily hooked on the ceiling beam 15a. In the example of FIG. 2 (A), a short hanging piece e provided at one end of the upper piece d, a long hanging piece f provided at the other end, and a horizontal lower piece g provided at the lower end of the hanging piece f have C It is formed in a character shape. The above-mentioned hook 11c for supporting the rod 3 is fixed to an equal line position obtained by equally dividing the entire length of the hanging rod 11a into a plurality. The hook 11c is
In the embodiment, three stages are provided, but two or four stages may be provided. However, since the height of the column / beam unit 15 of this type of house is usually about 2.5 m, it is sufficient to actually measure about three steps.

Next, a procedure for measuring the inner dimension using the inner dimension measuring apparatus 1 constructed as described above and the hanger 11 supporting the apparatus will be described. FIG. 3 is a front view showing an inner dimension measurement state of the column / beam unit. First, a pair of hangers 11 is attached to the ceiling beam 15 a of the column / beam unit 15. The hanger 11 has hooking means 11b attached to the ceiling beam 15a at predetermined intervals so as to coincide with the Bessel point of the inner dimension measuring device 1.

Next, the inner dimension measuring device 1 is hooked on the hooks 11c on the upper portions of the pair of hangers 11. The inner dimension measuring device 1 supports the hook 11c of the hanger 11 with the Bessel point display mark 9 in alignment. As a result, the inner dimension measuring device 1 is supported by the hanger 11 at two fulcrums that are Bessel points. Therefore, the amount of contraction of the central axis of the rod 3 caused by being supported at two points is minimized.

Since the inner dimension between pillars is predetermined as a design standard dimension, when hooking on the hanger 11, it is used as a measuring device from the tip of the adjusting bolt 5b to the tip of the movable needle 7b of the depth gauge. Is also adjusted in advance to the design standard dimensions. First, the movable needle 7b of the depth gauge 7 is made to protrude, and fixed at an intermediate point that is well-divided within a range of the movement amount of the movable needle, for example, a display position of 100.00 mm. Next, the tip of the movable needle 7b and the bolt 5b of the adjustment bolt 5 are adjusted using an appropriate dimensional standard (for example, a steel tape measure).
The bolt 5b of the adjustment bolt 5 is rotated and adjusted so that the distance between the tips becomes the design standard dimension between the columns.
Then, the lock nut 5c is tightened to fix the bolt 5b. If the fixing position is marked on the side surface of the bolt at the time of the fixing, it is convenient that the bolt can be confirmed to rotate due to unexpected slack.

After the length of the measuring device 1 is set by the above adjustment, the measuring device 1 is hooked on the hanger 11. And bolt 5
b and the tip of the column 15b on the left side in the figure,
The tip of the movable needle 7b of the depth gauge 7 is positioned on the right column 1 in the figure.
5c, and read the numerical value displayed on the measured value display section 7a of the depth gauge 7 at this time. If this value is not the value of 100.00 mm described above but a value on the plus side or the minus side, the difference is an error (deviation) from the design standard dimension. Expressed this formula, L: L ₀ (clear width measured dimensions of columns and beams units) measured dimension between columns: (inner size standard dimensions of columns and beams unit) set length of the measuring device x _0: measured value display display value L = L parts ₀ + a x ₀ -100.00. It is read whether or not the value of this numerical value x ₀ -100.00 is within the range of the allowable error value. Alternatively, the measurement value display section 7a may be reset to "0" instead of "100.00 mm" for measurement. In that case, the displayed value represents the deviation from the design standard dimension as it is, and also represents the so-called actually measured dimension between the columns. It expressed this formula, L: measuring the dimension between the pillars (columns and beams unit clear width measured dimensions) L _0: x ₁ (inner size standard dimensions of columns and beams unit) setting length of the measurement device: measuring value display Displayed value of part (deviation from standard size) L = L ₀ + x ₁

When the measurement of the upper part between the columns is completed by the above operation, the inner dimension measuring device 1 is then moved to the upper hook 11.
c and hooked on the intermediate hook 11c. At this time, similarly, the inner dimension measuring device 1 supports the Bessel point display mark 9 in alignment with the hook 11c. And
The dimensions are read by the depth gauge 7 in the same manner as described above. Hereinafter, the lower part between the columns may be measured in the same manner.

According to the above-described measurement, the error of each part from the design standard dimension and the actually measured dimension of each part can be measured, but the parallelism between the columns can also be measured. In this case, it is necessary to add or subtract each measured value, but it is also possible to directly read the value displayed on the measured value display section 7a of the depth gauge 7 as the parallelism displacement amount. In this case, first, the adjustment bolt 5 provided at one end of the rod 3 is fixed, and then the inner dimension measuring device 1 is hooked on the hook 11c on the upper part of the hanger 11, and then,
The tip of the bolt 5b is brought into contact with the column 15b on the left side in the figure.
Further, the tip of the movable needle 7b of the depth gauge 7 is brought into contact with the column 15c on the right side in the figure, and the measured value display section 7a of the depth gauge 7 is reset to "0".

Next, the inner dimension measuring device 1 is detached from the upper hook 11c and is hooked on the intermediate hook 11c. At this time, similarly, the inner dimension measuring device 1 supports the Bessel point display mark 9 in alignment with the hook 11c.

The inner dimension measuring device 1 which has been moved to the intermediate measurement position, the bolt tip of the adjustment bolt 5 is moved to the left column 15b.
, And the movable needle tip of the depth gauge 7 is again brought into contact with the right pillar 15c. Thereby, the measured value display section 7
In a, the displacement amount based on the distance between the above-described upper measurement points is displayed. That is, if the inner dimensions of the upper part and the middle part are equal, the “0” value of the measured value display part 7a does not change. on the other hand,
If a numerical value other than “0” is displayed, the numerical value is the displacement amount of the inner dimension generated in the upper portion and the intermediate portion.

Next, the inner dimension measuring device 1 hooked on the intermediate portion is hooked on the lower hook 11c, and the displacement between the lower measurement points is obtained in the same manner as in the measurement of the intermediate portion.

In this way, the deviation (parallelism) of the inner dimension between the measurement points in the vertical direction of the columns 15b and 15c is measured.

As described above, the inner dimension measuring apparatus 1 described above
Has an adjusting bolt 5 at one end of the rod 3, a depth gauge 7 at the other end of the rod 3, and a Bessel point display mark 9 at the vessel point of the rod 3. Further, a pair of hangers 1 capable of hanging the inner dimension measuring device 1 on the ceiling beam 15a.
1 at the Bessel point.

As a result, the inner dimension measuring apparatus 1 is used with the amount of deflection always being minimum and constant. As a result, the measurement accuracy of the inner dimension of the column / beam unit 15 can be improved. In addition, the error and parallelism in the vertical direction of the column can be determined based on the numerical values displayed at each measurement point with respect to the design standard dimensions to determine whether or not they conform to the standard. As a result,
It is possible to quickly determine whether or not to conform to the standard, as compared with the case where the actual dimensions are measured by a conventional procedure.

Further, the hanging rod 11a of the hanger 11 can be easily hooked on the ceiling beam 15a by using the hooking means 11b. By using the hanger 11 that can be hooked in this way, the inner dimension measuring apparatus 1 can be easily and accurately supported.

In the above-described embodiment, a square pipe is used as the rod 3.
May use a pipe having another cross section or a rod as the rod 3. In the above-described embodiment, the adjustment bolt 5 is provided at one end of the rod 3. However, the inner dimension measuring apparatus 1 according to the present invention omits the adjustment bolt 5 and directly connects the one end of the rod 3 to a pillar with the reference end. It may be in contact. If the adjustment bolt 5 is omitted, the movable needle 7b of the depth gauge 7 is adjusted by appropriately protruding until the measured value matches the set value when a reference dimension (design standard dimension) as a measuring device is set. Then, the numerical value displayed on the measured value display unit at the time of this match tends to be an intermediate numerical value with a poor separation, and if it is left as it is, the direct reading determination becomes complicated and a calculation error easily occurs. In addition, rod 3
There is also a concern that the reference end of the device may be distorted. Although the omission of the adjusting bolt has the above-described inconvenience, the configuration is simplified, so that it is sufficiently practical if attention is paid to the inconvenience and the like. However, if the adjustment bolt 5 is provided, the display value of the depth gauge 7 can be easily read, and the bolt 5
By replacing b, it is possible to prevent distortion of the reference end. Further, a hanger 11 supporting the inner dimension measuring device 1
Is not limited to the above configuration as long as it can support the Bessel point display mark portion of the rod 3.

[0028]

As described in detail above, the inner dimension measuring apparatus according to the first and second aspects of the present invention has a position grasping means attached to the vessel point of the rod, and the position is supported by the hanger at that position. I did it. As a result, the inner dimension measuring apparatus is used in a state where the amount of deflection is always minimum and constant. As a result, the measurement accuracy of the inner dimension of the column / beam unit can be improved. Further, distance measuring means is provided at the other end of the rod with one end of the rod as a reference end. Thus, it is possible to determine whether the error in the vertical direction of the column and the degree of parallelism conform to the standard based on the numerical values displayed at the respective measurement points with respect to the design standard dimensions. As a result, it is possible to quickly determine whether or not to comply with the standard, as compared with the related art.

According to a third aspect of the present invention, a hanging means is provided at one end of the hanging rod so as to be able to be hung on a ceiling beam. In addition, a hook for detachably supporting the rod is provided at a dividing line position where the entire length of the hanging bar is equally divided into a plurality. This makes it possible to easily support the vessel point of the rod with a high dimension.

[Brief description of the drawings]

FIG. 1 is a perspective view of an inner dimension measuring apparatus according to the present invention.

FIG. 2 is a perspective view of a hanger used in the inner dimension measuring device of FIG.

FIG. 3 is a front view showing an inner dimension measurement state of a column / beam unit.

[Explanation of symbols]

1 ... Internal dimension measuring device for column / beam unit 3 ... Rod 5
... adjustment bolt, 7 ... depth gauge (distance measuring means),
7b: movable needle, 9: position grasping means, 11: hanger, 1
1a: hanging rod, 11b: hooking means, 11c: hook, 15
… Post and beam units, 15a… ceiling beams

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2E174 BA03 DA12 DA13 DA40 DA41 2F061 AA26 CC07 DD22 DD29 GG05 GG36 JJ04 LL13 LL15 LL22 LL25 LL39 LL55 VV08 VV48

Claims (3)

[Claims] 1. A rod made of a long metal material, a distance measuring means for projecting a movable needle from one end of the rod in an axial direction of the rod, and measuring an amount of movement of the movable needle in an axial direction; An inner dimension measuring device for a column / beam unit, comprising: a position grasping means for specifying a Bessel point of a rod. 2. A rod provided with a distance measuring means, which is screwed in an axial direction of an end of the rod opposite to the distance measuring means and is rotated, whereby a distance from the end of the rod is increased. 2. An apparatus according to claim 1, further comprising an adjusting bolt having a variable projection length. 3. A hanging bar having a total length substantially equal to a distance between a ceiling beam and a floor beam, a hooking means provided at one end of the hanging bar and hooking the hanging bar to the ceiling beam, 2. The inner method according to claim 1, further comprising a hanger comprising a hook provided at an equal dividing position obtained by equally dividing the entire length of the hanging rod into a plurality of parts, and a hook for detachably supporting the rod. Dimension measuring device.