KR100367519B1 - measuring type Jack support - Google Patents

Abstract

The present invention relates to a support hole for supporting a structure such as a beam or slab or a heavy object in a construction or civil engineering, and in particular, for a construction capable of measuring a structure that can detect a deformation, such as deflection or lifting due to a change in load. It is about the support.

Conventionally, when building new buildings such as apartments or office buildings, the basement is built in the underground space to prevent the deformation of the structure, but it is not possible to detect the deformation of the supporting structure, but the deformation of the structure could not be confirmed. In the case, when the indicator rod pressed by the spring is inserted inside the upper elastic plate of the support hole, the structure supported by the elastic plate, that is, when the beam is raised or sag occurs, the indicator bar is released when the elastic plate is released or the pressure is increased. It is related to the measuring building support that can be operated and attached to the bottom of the indicator rod and the scale plate on the surface of the support pillar to check the deflection or lifting of the beam.

Description

Metrological building support {measuring type Jack support}

The present invention relates to a building support for supporting a structure or heavy weight, such as beams or slabs in construction or civil engineering, and more particularly, to a building support that can measure the load change of the support structure.

In general, high-rise apartments and office buildings usually take 1-3 years to build, and the basement of the building can be seen as well as the underground parking lot.

Under construction period of office building or apartment building, heavy construction equipment and heavy materials move on the ground, impacting and loading the underground structures, and because the structure's own load also exerts force on the structures, cracking, deformation and severe collapse of underground structures In order to prevent the structure, cracks, etc. are prevented by supporting the underground structures, ie, beams or slabs in the underground space, with building support holes during the construction period. This will prevent accidents leading to collapse.

In the case of the conventional construction support that stands in the basement space or supports the slab, the base supports the floor and ceiling, that is, the beam or slab, which can be adjusted up and down by screw screws. By suppressing will reinforce the underground structure.

Thus, in order to prevent the deflection by reinforcing the beam or slab by installing a plurality of constant intervals between the floor and the ceiling by tightening the screw screws, the conventional support sphere could not detect deformation due to the load of the structure acting above. I was satisfied with only tightening the bases.

Underground structures and slabs of large structures such as apartments and office buildings are subjected to self-healing and external loads and impacts, and are subjected to shrinkage stress in winter and expansion stress in summer. The slab will bend flexibly.

Therefore, if a positive bending occurs to protrude out of the beam or slab, the supporting support is pressed strongly and at the same time, the opposite load is applied by the supporting support, which exerts a force on the beam. When negative bending occurs, a gap occurs with the support hole, and the support hole slips or falls and occurs.

However, in the conventional underground space, it was not satisfied that the supporting holes were erected, whether the supporting beam or the slab protruded outward convexly, or whether the negative deformation of the beam or slab concave inwardly occurred. Neither was found.

In view of this, the present invention has been devised. For construction purposes, it is possible to measure loads to detect positive and negative deformations in the beams or slabs of the ceiling supported by the support, and to establish countermeasures in the future. It is about the support.

Conventional support for supporting a building or a heavy object is a heavy object, but only a pillar for preventing the structure from sagging. However, when a deformation such as a sag or a lift occurs in the heavy object or the structure, it cannot be visually detected.

Concrete buildings can be seen to be deformed by self-weight or external load, in particular, shrinkage is caused by the temperature drop in the winter, and when the expansion is caused by the temperature rise in the summer, the structure is sagging or lifted However, the present invention was conceived in view of the fact that it was not possible to detect the deflection or lifting of the structure such as stress change in the conventional building support, and the present invention caused the deflection or lifting due to the stress change of the supporting structure. When it is detected by the naked eye or other alarm device such as light or sound.

1-Schematic front view of the present invention.

2-an enlarged partial view of the present invention;

3-an enlarged view of a part of another embodiment of the present invention;

Figure 4-Enlarged perspective view of another embodiment of the present invention.

Fig. 5-A partial sectional view just before installing the present invention in a beam.

6-partial sectional view immediately after installation of the present invention in a beam;

Fig. 7-A partial cross-sectional view of the state in which the invention is pressed by force.

8-Front view of another embodiment of the present invention.

9-partial perspective view of another embodiment of the present invention;

The operating rod 12 is inserted in the middle of the height adjustment screw rod 13 composed of the right and left screws up and down, and the threads are formed on the inside to be operated up and down by the rotation of the height adjustment screw rod 13. Height support (11) consisting of the upper and lower nut members (14, 15) and the upper nut member (14) of the height adjusting device 11 support pillar lower support for inserting the support pillar (21) ( 22) is fixed, the support pillar upper prevention region 23 is inserted into the upper end of the other side of the support pillar 21, the support pillar upper prevention region 23 is a building support for inserting the shock absorbing elastic plate 24 is inserted. In the sphere, a hole 25 is formed in the elastic plate 24 inserted into the support 23 above the support column 21, and the cap 27 into which the spring 26 is inserted is inserted, and the cap Insert the upper end of the indicator rod 28 in the middle of the (27), and the indicator rod 28 is passed through the hole 23 'of the support pillar upper prevention region (23). Becomes to protrude out, jisibong 28 at bottom and ever mounting the instructions 31, the support columns 21 to the surface of a scale plate is attached to the 41 the guidance 31 is pointing.

In addition, in the above, in the attachment of the guide 31 attached to the lower end of the indicator rod 28, the ends of the indicator rod 28 and the guide 31 are flushed with the first pin 33, and the center of the guide 31 is The guide pin 31 may be supported by the second pin 34, and the guide 31 may be configured to operate up and down about the second pin 34 when the indicator rod 28 is lowered or raised.

In addition, the signal generator 42 having an alarm function that emits light or sound may be attached to one side of the scale plate 41 at the end of the guide 31 in the above.

In addition, in another embodiment of the present invention, the middle of the lower end of the indicator bar 28 to penetrate the box 51 with the scale plate 41A attached to the inside to enable the vertical movement, and inserted into the box 51 Instructions 31 to be fixed to the indicator rod 28, the box 51 may be configured to be fixed to the support column 21 by a bonding means such as a belt 52 or adhesive.

In this case, since the lower end of the indicator rod 28 penetrates into the box 51 and is inserted, there is no need for a separate support means to prevent the shaking of the lower portion of the indicator rod 28, and the guide 31 and the scale plate 41A are not in the box. There is an advantage protected by (51).

Looking at the operation of the present invention having such a configuration as follows.

The present invention adjusts the length between the beam 51 or the slab and the floor of the ceiling in the same way as to install a general support for supporting the beam or the slab of the building or to prevent the deflection by supporting the structure or heavy objects expected to sag. After setting up the base, the upper and lower nut member 14 inserted into it by rotating the height adjusting screw rod 13 of the operating rod 12 by rotating the operating rod 12 of the height adjusting mechanism 11. (15) is operated to raise the support column 21 to support the upper support pillar 23 and the elastic plate 24 inserted in the upper end of the support column 21 to the beam 51 or the slab in close contact with the beam and the bottom It will be installed in between.

In the present invention, the cap 27 inserted into the hole 25 of the elastic plate 24 immediately before installation is projected out of the elastic plate 24 by the spring 26, but the elastic plate 24 is not supported by the beam 51 or the like. Simultaneous cap 27 in close contact with the slab is inserted into the hole 25 of the elastic plate 24, and the support column 21 is continuously raised to compress the elastic plate 24 to the beam 51 or the slab. When fixing the support column 21 so that the elastic plate 24 is pressed, the cap 27 inserted into the hole 25 of the elastic plate 24 and the support rod 28 inserted into the cap 27 are also lowered. Done.

In this way, the support column 21 is operated by the height adjusting opening 11 to fix the support column 21 to the beam 51 or the slab, and then the guide of the end of the indicator rod 28 inserted into the cap 27 is fixed. The 31 is fixed to the reference point of the scale plate 41.

In the present invention, that is, when a positive load acts on the beam 51 supported by the support hole, and the beam 51 deflects downward, the elastic plate 24 is pressed and pressed, and at the same time, the elastic plate 24 is pressed. When the indicator rod 28 is pushed down by pressing the cap 27 inserted into the guide rod 28, the guide 31 at the end of the indicator rod 28 acts to descend, that is, the deflection of the beam can be visually confirmed through the scale plate 41. It is to be confirmed that the positive load is applied to the beam 51 by the alarm signal of the sound or light by the sensor 43 of the signal generator 42.

In addition, when the beam 51 supported by the upper end of the support hole is negatively applied and the beam 51 is lifted upward, the pressing force of the elastic plate 24 is released to restore the elastic plate 24 and the cap 27 at the same time. And the indicator rod 28 is to be raised so that the guide 31 of the end of the indicator rod 28 is activated to check the raised degree of the beam through the scale plate 41.

As such, the deformation of the beam is sensed through the scale plate 41 indicated by the guide 31.

In addition, when the guide 31 is supported by the second pin 34 of the guide 31 by circulating the guide rod 28 with the first pin 33, the guide rod 28 is raised or lowered to guide the guide rod 31. When operating (31), the opposite side of the guide (31) is large for the small amount of deformation of the indicator rod (28) when the opposite side of the guide (31) is operated about the second pin (34) in the center of the guide (31). It can be easily detected even small deformations.

In addition to attaching the scale plate 41 to the end of the guide 31 to visually confirm the change of the guide 31, a signal generator 42 is installed at the end of the guide 41, and the guide 31 is a sine generator ( The present invention can be configured to generate an alarm such as light or sound when operating the sensor 43 of 42).

In this case, even in an underground space where there is little light, it is easier to check that deformation of the beam, such as deflection or lifting occurs, at any position.

Therefore, if a structure supported by the present invention supports lifting or deflection, it is possible to prevent accidents such as cracking or severe collapse of the building by performing quick measures and measures to compensate for the deformation load of the structure. will be.

In order to prevent sagging of a conventional building, the building support hole inserted into the floor and the ceiling, that is, the beam or the slab, can be adjusted up and down length by length adjusting holes made of screw screws. It is possible to see the support of the ceiling beams or slabs by erecting the bulge to build a building support on the floor and ceiling.

However, the conventional building support such as supporting the beam or slab lacks the ability to detect the deformation of the beam or slab, so that the concentrated load is not able to detect the deflection or lifting of the beam and the temperature drop in winter. The change of load due to the contraction caused by the contraction and the increase of the temperature increase in the summer was not detected.

However, in the present invention, it is possible to accurately measure and detect the load applied to the structure by detecting the deflection or lifting of the beam or slab supported by the support, so that the safety accident of the building caused by the change of the load is not known. It is a very useful invention that can be prevented and prevented.

Claims (4)

The operating rod 12 is inserted in the middle of the height adjusting screw rod 13 composed of the right and left screws, and the upper and lower threads are respectively inserted into the inside to be inserted to be operated up and down by the rotation of the height adjusting screw rod 13. A support pillar downward support for inserting and supporting the support column 21 in the height adjusting device 11 formed of the upper and lower nut members 14 and 15 to be formed and the upper nut member 14 of the height adjusting device 11. The earth 22 is fixed, the support pillar upper prevention region 23 is inserted into the other upper end of the support pillar 21, the shock absorbing elastic plate 24 is inserted into the support pillar upper prevention region 23 is inserted. In the construction support, the hole 25 is formed in the elastic plate 24 inserted above the support column 21 and the support 23, and the cap 27 into which the spring 26 is inserted is inserted. In the middle of the cap 27, the upper end portion of the indicator rod 28 is inserted and fixed, and the indicator rod 28 is a support pillar upper prevention region 23 hole. (23 ') protrudes out, the lower end of the indicator rod (28) to be attached to the guide 31, the support column (21) to the surface of the guide plate (31) pointed to the point that the guide 31 Characterized building construction support. According to claim 1, wherein the middle of the lower end of the indicator rod 28 to be penetrated vertically through the box 51 with the scale plate 41A attached to the inside so as to be movable, the box 52 is a belt 42 or adhesive Instrumentation type building support, characterized in that fixed to the support column 21 by a fixing means. According to claim 1, the instructions 31 attached to the lower end of the indicator rods (28) to the first pins to be retained at the ends of the indicator rods 28, the center of the instructions 31 to the second pins (34) 31) Measured building support, characterized in that the guide (31) to operate the other side up and down about the second pin (34) when the indicator rod 28 is lowered or raised to support. The measuring building construction support according to claim 1, wherein a signal generator (42) having a sensor (43) and thereby an alarm function to emit light or sound is attached to one side of the scale plate (41).