KR100926883B1 - Tape measure for architectural modular unit - Google Patents

Abstract

PURPOSE: A tape-measure for measuring an architecture modular unit is provided to enable a worker to accurately measure the architecture modular unit having very long length by using an adjusting tool. CONSTITUTION: A tape-measure for measuring an architecture modular unit comprises an adjusting tool(30), a permanent magnet, a bolt insertion groove, a transparent goniometer, and a rotating pin. The adjusting tool consists of a straight-line portion and an orthogonal portion. The permanent magnet is installed in a surface in which the straight-line portion and orthogonal portion face each other. A bolt installed in the modular unit is inserted into the bolt insertion groove. The transparent goniometer is installed in an upper surface of a point in which the straight-line portion and orthogonal portion meet.

Description

Tape measure for measuring construction modular unit {TAPE MEASURE FOR ARCHITECTURAL MODULAR UNIT}

The present invention relates to a tape measure for measuring a building modular unit, which is used to measure an error or a dimension of a building modular unit manufactured in a factory and assembled in the field during a factory manufacturing or an inspection of the manufactured unit.

The modular building unit is a structural system for constructing a building through lamination and assembly.

In such a structural system, four steel pillars arranged in a rectangular shape, a plurality of steel channel ceiling beams connecting the upper portions of the pillars, the horizontal ceiling portion, the ceiling vertical portion, and the horizontal ceiling portion, and each pillar It is composed of a plurality of steel channel beams that connect the lower part and consist of the upper horizontal part, the vertical floor part, and the lower horizontal part.

Since the modular modular unit is manufactured at the factory and then assembled in the field, it is very important to maintain accuracy when manufacturing at the factory.

In addition, the site requires a procedure to verify the accuracy of the transported modular unit prior to assembly.

However, in order to confirm the accuracy of such a building modular unit, a general general tape measure is known.

When using a tape measure like this, the length is measured from the top of one side of the modular unit to the bottom of the other side and, on the contrary, the accuracy is checked by comparing the measured values by measuring the length from the top of the other side to the bottom of the other side. In order to measure the length thereof is very long, there was a problem that it is very difficult for the worker to do this measurement alone.

In addition, each operator has a problem that it is very difficult to compare the exact measuring point with each other when measuring the lower edge of the other side from one upper corner.

In other words, each worker has a different measurement standard, and there are people measuring based on the point where the edges meet, while there are people measuring based on a column or beam, and thus it is difficult to generalize the measurement.

Tape measure for measuring the building modular unit of the present invention is to solve the problems caused in the prior art as described above, by using a control unit having a "├" form, one operator adjusts the control unit on one side of the modular unit The length of the member is extended to the other edge to allow the user to make a visual measurement at the measuring point so that one operator can accurately measure the long and long building modular unit.

In addition, by installing a permanent magnet on the surface of the control mechanism to fix the control unit to the modular unit to prevent the control unit from leaving during the measurement operation.

At this time, the permanent magnet is to be recessed from the control surface so that the metal residue on the surface of the modular unit is buried in the permanent magnet so as not to open a gap between the control surface and the modular unit to improve measurement accuracy.

In addition, by forming a bolt insertion groove having a diameter enough to insert the bolt installed in the modular unit on the bottom surface of the adjuster, it is easy to measure the distance between the bolts installed in the modular unit or the distance centered on the bolt, I want to be able to.

In addition, by installing a transparent goniometer on the surface of the adjusting device to be able to accurately measure the angle between the column or beam and the length member of the modular unit between measurements.

In addition, when the modular unit is assembled with metal residues on the columns or beams, the surface of the columns or beams is rugged, which makes accurate measurement difficult. By forming a balancing groove on the surface of the control unit, the contact area between the control unit and the columns or beams is reduced. To minimize inaccurate measurements by metal residues.

In addition, in order to maintain the accuracy of the other side in addition to the accuracy improved by the control knob, the measuring aid having a cross mark formed at the center of the surface can be detachably mounted on the control knob to accurately measure not only one side but also the other side of the modular unit. I want to be able to.

In order to solve the above problems, the building modular unit measuring tape of the present invention is a tape measure for measuring the building modular unit of the present invention so that one end is wound inside and outside of the tape case. In the tape measure for the building modular unit, which is composed of a length member whose dimensions are described on the surface, and is intended to measure the building modular unit 1, the straight portion and one side are integrally connected to the center of the straight portion. The other side is a control unit having a "├" form consisting of a orthogonal portion formed in a direction perpendicular to the straight portion; A permanent magnet provided on a surface of the straight portion and the orthogonal portion facing each other, the surface of which is recessed inward from the surface of the straight portion and the orthogonal portion of the control mechanism; A bolt insertion groove formed at a bottom surface of a point where the straight portion and the orthogonal portion of the control unit meet and having a diameter such that a bolt installed in the modular unit is insertable; A transparent goniometer installed on an upper surface of the point where the straight portion and the orthogonal portion of the control unit meet; It is installed on the upper surface of the point corresponding to the center of the goniometer of the adjusting device, one end of the length member connected to the tape measure case is rotatably fastened so as to be configured.

At this time, the straight portion and the orthogonal portion of the control is characterized in that the equilibrium holding groove is formed on the surface facing each other.

In addition, a cylindrical auxiliary tool insertion groove is formed in either the straight portion or the orthogonal portion of the adjusting tool, a cross mark is formed in the center of the surface, and a diameter such that a bolt installed in the modular unit can be inserted into the bottom surface. It is characterized in that the measuring aid is formed in the auxiliary tool insertion groove is formed with an auxiliary bolt insertion groove having a.

At this time, the thread is formed on the outer peripheral surface of the measuring aid is characterized in that the screw is inserted into the auxiliary tool insertion groove.

Alternatively, the point where the straight portion and the orthogonal portion of the control unit meet is characterized in that the circular groove formed in the inner groove is formed.

According to the present invention, by using a control device having a "├" form, one operator can measure the eye at the measuring point by extending the length member to the other corner while fixing the control device to one corner of the modular unit This allows one operator to accurately measure long, lengthy building modular units.

In addition, by installing a permanent magnet on the surface of the control device can be fixed to the modular unit to prevent the control device from falling off during the measurement operation.

In this case, the permanent magnets are configured to be recessed from the control surface so that metal residues on the surface of the modular unit are buried in the permanent magnet so that no gap is formed between the control surface and the modular unit, thereby improving measurement accuracy.

In addition, by forming a bolt insertion groove having a diameter enough to insert the bolt installed in the modular unit on the bottom surface of the adjustment sphere, it is easy to measure the distance between the bolts installed in the modular unit or the center of the bolt, and accurate.

In addition, by providing a transparent goniometer on the surface of the adjustment sphere, it is possible to accurately measure the angle between the column or beam and the length member of the modular unit between measurements.

In addition, when the modular unit is assembled with metal residues on the columns or beams, the surface of the columns or beams is rugged, which makes accurate measurement difficult. By forming a balancing groove on the surface of the control unit, the contact area between the control unit and the columns or beams is reduced. Inaccurate measurements by metal residues are minimized.

In addition, in order to maintain the accuracy of the other side in addition to the accuracy improved by the control knob, the measuring aid having a cross mark formed at the center of the surface can be detachably mounted on the control knob to accurately measure not only one side but also the other side of the modular unit. You can do it.

Tape measure for measuring the building modular unit of the present invention, four steel pillars (2) arranged in a rectangular shape as shown in Figure 1, and a plurality of steel ceiling beams (3) connecting the upper portion of each pillar (2) and , The rectangular building modular unit (1) consisting of a plurality of steel floor beams (4) connecting the lower portion of each pillar (2) is used when assembling at the factory, or inspected at the construction site after assembly.

2 shows a schematic configuration of a tape measure for measuring a building modular unit of the present invention.

As can be seen from the drawings, the tape measure of the present invention is largely composed of a tape measure case 10, a length member 20, and an adjusting device 30.

The length member 20 has dimensions for measurement on the surface and is composed of a thin iron plate.

Tape measure case 10 is wound while being fixed to the inside of one side of the length member 20, the other end is configured to enter and exit the tape measure case (10).

Tape measure case 10 and the length member 20 used in the present invention may be applied to a variety of known tape measure case 10 and the length member 20.

In the case of a general tape measure, it is common that a bent metal plate is attached to an end of an object to be measured at an end of the length member 20.

However, in the present invention, it is characterized in that the adjusting device 30 having a shape as shown in FIG.

Hereinafter, the adjusting device 30, which is the main component of the present invention, will be described in more detail with reference to FIGS. 3 and 4.

As shown in FIG. 3, the control mechanism 30, which is a main component of the present invention, is connected to the straight portion 31 in one direction, and one side is integrally connected to the center of the straight portion 31, and the other side is a straight portion ( It consists of the orthogonal part 32 formed in the direction orthogonal to 31, and has a "├" shape.

In addition, the rotation pin 70 is installed at the intersection of the straight portion 31 and the orthogonal portion 32, one end of the length member 20 connected to the tape measure case 10 is the axis of the rotation pin 70 It is fastened so that it can rotate.

In this way, the "├" type control device 30, and the length member 20 is fastened so as to be rotatable to the control device 30, one operator adjusts the control device 30 to one corner of the modular unit (1) In the state in which the sphere 30 is fixed, the length member 20 is extended to the other edge to measure the eye at the measurement point.

That is, not only the direction parallel or orthogonal to the pillar 2 or the beam, but also easily measured from one top edge to the other bottom edge.

At this time, a transparent goniometer 60 is installed between the length member 20 and the upper surface of the adjustment opening 30, so that the center of the transparent goniometer 60 is a rotation axis.

Therefore, the angle can be measured at the same time as measuring the diagonal length, it is possible to measure the assembly accuracy of the opposite side as well as the two corners intersecting each other.

On the other hand, in the present invention, the permanent magnet 40 is provided on the surface that the straight portion 31 and the orthogonal portion 32 of the adjuster 30 face each other.

The permanent magnet 40 is fixed to the steel pole (2) or beam of the modular unit (1) to adjust the control device 30 to prevent the departure of the control device 30 to fix the control device 30 position This increases the accuracy of the measurement.

This may be more usefully applied when measuring from one side to the other side in addition to the measurement starting from the edge.

However, when the permanent magnet 40 is installed in this way, when the surface of the permanent magnet 40 is located in the same line as the control opening 30, the metal residues buried in the modular unit 1 are magnetic and thus the permanent magnet ( 40).

When the metal residue is attached to the permanent magnet 40 in this way, the surface of the permanent magnet 40 is protruding than the surface of the control opening 30, in this case, it becomes difficult to accurately measure.

The permanent magnet 40 is configured so that the surface is recessed from the surface of the control port 30, the metal residue on the surface of the modular unit 1 buried in the permanent magnet 40, the surface of the control port 30 and the modular unit (1). There is no gap between) to improve the measurement accuracy.

The adjustment mechanism 30 configured as described above is formed with a bolt insertion groove 50 at the bottom of the point where the straight portion 31 and the orthogonal portion 32 meet.

The bolt insertion groove 50 is configured to have a diameter such that the bolt 100 installed in the modular unit 1 is insertable.

When the bolt insertion groove 50 is formed such that the center thereof corresponds to the center of the rotation pin 70, the distance between the bolts 100 installed in the modular unit 1 may be measured or the distance about the bolts 100 may be measured. Not only is this easy, but the measured values are more precise.

However, in the case of assembling the modular unit 1, when metal residues are accumulated on the pillars 2 or beams, the surface of the pillars 2 or beams becomes rugged, and the angles of the pillars 2 and beams are in contact with the surface of the adjusting device 30. It becomes difficult to maintain parallel or right angles.

In order to solve this problem, it is preferable to form one or a plurality of equilibrium retaining grooves 80 on the surface of the control unit 30 that the straight portion 31 and the orthogonal portion 32 face each other.

That is, by forming the balance maintaining groove 80 on the surface of the control sphere 30, the contact area between the control sphere 30 and the column 2 or the beam is reduced to minimize the inaccurate measurement by the metal residue.

On the other hand, the configuration as described above is one side of the building modular unit (1) in the state fixed to the position using the control opening 30 on the other side of the dimension of the surface directly in contact with the length member 20 and the column (2) or beam Read the measurement.

At this time, if the surface of the pillar 2 or the beam is not smooth, if the metal residue is buried may be inaccurate when measuring one side and the other side in order.

The measuring aid 90 may be used as a method for solving this problem.

As shown in FIG. 4, the measuring aid 90 has a cross mark 91 formed at the center of the surface thereof, and has a diameter such that a bolt 100 installed at the modular unit 1 can be inserted into the bottom surface thereof. The form in which the bolt insertion groove 92 is formed is preferable.

That is, in the case of measuring the diagonal of the modular unit (1) after installing the adjusting device 30 in one upper corner, the measuring assistant 90 at the intersection of the other lower corner, that is, the column (2) and the floor beam (4) When the circular portion of the () to face the front to arrange the dimension line of the length member 20 to reach the center of the cross mark (91) can be obtained an accurate measurement value.

At this time, the role of the measurement aid 90 is to compare the length of the diagonal cross each other.

By the way, when the measurement aid 90 is carried separately from the tape measure of the present invention, there is a risk of loss.

In order to solve this problem, as shown in FIG. 4, a cylindrical auxiliary tool insertion groove 34 is formed in one of the straight portion 31 or the orthogonal portion 32 of the adjusting tool 30, thereby inserting the auxiliary tool. It is preferable to insert the measuring aid 90 into the groove 34 so as to carry it together with the adjusting device 30.

At this time, a thread 93 is formed on the outer circumferential surface of the measuring aid 90, and a screw thread is also formed on the auxiliary tool insertion groove 34 to screw the measuring aid 90 to the auxiliary tool insertion groove 34. It is good to make it possible to detach and fix.

In addition, in the above configuration, when the edges of the pillars 2 and the beams are protruded while being welded, accurate measurement may be difficult.

In order to solve this problem, it is preferable that the point where the straight portion 31 and the orthogonal portion 32 of the adjuster 30 meet is formed to form a circular corner groove 33 inwardly dug.

Examples of measuring the modular unit 1 using the tape measure for measuring the building modular unit of the present invention configured as described above are illustrated in FIGS. 5 to 7.

FIG. 5 shows an example of measuring the distance from one pillar 2 to the other pillar 2. In this case, the edge of the pillar 2 is hung on the straight portion 31 and the orthogonal portion 32. In the state in which 20 is rotated by the rotary pin 70, it is stretched in parallel with the bottom beam 4, and then the dimension is read at the corner end of the other pillar 2 to measure the measurement.

FIG. 6 shows an example of measuring from one corner to the other corner. In this case, a measurement aid 90 is installed on the other side, and the reading of the dimension of the length member 20 reaching the cross mark 91 is measured. Good to do.

On the other hand, Figure 7 shows an example of measuring based on the bolt 100 installed in the modular unit 1, as shown in the bolt 100 is inserted into the bolt insertion hole of the adjuster 30, the measurement is easy Will be done.

In the process of FIGS. 5 to 7, the accuracy of the measurement may be further improved by checking the angle using the goniometer 60.

1 is a perspective view showing a general building modular unit.

Figure 2 is a perspective view showing a tape measure for measuring the building modular unit of the present invention.

Figure 3 is a perspective view showing in detail the control in the present invention.

Figure 4 is a perspective view showing another configuration of the control in the present invention.

5 is a perspective view showing a state of measuring the length of the member parallel or perpendicular to the column or beam using a tape measure of the present invention.

Figure 6 is a perspective view showing a state of measuring the diagonal length of the modular unit using a tape measure of the present invention.

Figure 7 is a perspective view showing a state measured on the basis of the bolt using a tape measure of the present invention.

<Detailed Description of Major Symbols in Drawing>

1 unit 2 pillar

3: ceiling beam 4: floor beam

10: tape measure case 20: length member

30: control sphere 31: straight portion

32: orthogonal part 33: corner groove

34: auxiliary tool insertion groove 40: permanent magnet

50: bolt insertion groove 60: goniometer

70: rotation pin 80: equilibrium holding groove

90: measuring aid 91: mark

92: auxiliary bolt insertion groove 93: thread

100: Bolt

Claims (5)

Tape measure case 10, and one end is wound inside the tape measure case 10, the other end is composed of a length member (20) to enter and exit the tape measure case 10, the dimensions are described on the surface, In the tape measure for measuring the building modular unit, which is adapted to measure the modular unit 1, The straight portion 31 and one side is integrally connected to the center of the straight portion 31, the other side has a "├" form consisting of orthogonal portion 32 formed in a direction orthogonal to the straight portion 31. Regulator 30; The straight portion 31 and the orthogonal portion 32 are provided on the surface facing each other, the surface is permanently recessed inward from the surface of the straight portion 31 and the orthogonal portion 32 of the control opening 30 A magnet 40; It is formed on the bottom of the point where the straight portion 31 and the orthogonal portion 32 of the adjusting device 30 meets, and the bolt insertion having a diameter such that the bolt 100 installed in the modular unit 1 can be inserted Groove 50; A transparent goniometer 60 provided on an upper surface of the point where the straight portion 31 and the orthogonal portion 32 of the adjusting device 30 meet; Rotation pin 70 is installed on the upper surface of the point corresponding to the center of the goniometer 60 of the adjusting device 30, one end of the length member 20 connected to the tape measure case 10 is rotatably fastened Including; Tape measure for measuring construction modular units. The method of claim 1, Characterized in that the balance maintaining groove 80 is formed on the surface that the straight portion 31 and the orthogonal portion 32 of the adjusting device 30 face each other, Tape measure for measuring construction modular units. The method of claim 1, Cylindrical auxiliary tool insertion groove 34 is formed in any one of the straight portion 31 or the orthogonal portion 32 of the adjusting tool 30, A cross-shaped mark 91 is formed at the center of the surface, and an auxiliary bolt insertion groove 92 having a diameter such that the bolt 100 installed at the modular unit 1 can be inserted at the bottom thereof. 90 is inserted into the auxiliary tool insertion groove 34, Tape measure for measuring construction modular units. The method of claim 3, wherein A thread 93 is formed on the outer circumferential surface of the measuring aid 90 so as to be screwed into and inserted into the auxiliary tool insertion groove 34. Tape measure for measuring construction modular units. The method of claim 1, The point where the straight portion 31 and the orthogonal portion 32 of the adjusting device 30 meets is characterized in that the circular grooves 33 are formed inwardly dug, Tape measure for measuring construction modular units.

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