KR20120043423A - Bearing plate for plate bearing test and tester having such bearing plate - Google Patents

Abstract

PURPOSE: A loading plate for a plate loading test for matching a loading position and a displacement measuring position and a plate loading tester therewith are provided to accurately measure ground displacement by locating a displacement meter at the center of the loading plate. CONSTITUTION: A loading plate for a plate loading test for matching a loading position and a displacement measuring position comprises a pressure plate(11) and a load transfer member(12). The pressure plate is arranged to touch the ground. The load transfer member is located at the center of the pressure plate and transfers pressing force applied from a jack device(20) to the pressure plate. The load transfer member has an inner space where a displacement meter(30) is located.

Description

Bearing plate for plate bearing test and tester having such bearing plate, where load loading position and displacement measurement position coincide

The present invention relates to a load loading plate used in a plate loading test for the compaction quality test of the ground, and a plate loading tester having the same. Specifically, the load loading position and displacement measurement position applied to the ground are coincident with each other. The present invention relates to a plate loading test plate and a plate loading tester having the same, which can further improve the reliability of the displacement measurement results of the ground measured in the loading test.

The plate loading test is easily used as an on-site compaction quality test for soil during earthworking because it can easily indirectly evaluate the bearing capacity of the ground. 1 is a schematic view showing a state of performing a plate loading test using a conventional plate loading tester, a circular loading plate 10 of about 30 cm, or 60 cm diameter is disposed on the ground, and the circular loading plate ( 10) Put the hydraulic jack device 20 in the center, and install a reaction table 50, such as a vehicle that can apply a reaction force on the jack device 20.

The displacement meter 30 is installed around the position of the jack device 20, that is, the edge of the circular loading plate 10, which is disposed across the loading plate 10 around the displacement meter mounting beam 31. One end of the displacement gauge 30 is fixed to the displacement gauge mounting beam 31.

When the jack device 20 is extended by applying hydraulic pressure to the jack device 20, since the upper portion of the jack device 20 is supported by the reaction table 50, a pressing force perpendicular to the base plate 10 acts. Vertical loads will be applied to the ground. When settlement occurs on the ground due to such loading, the displacement meter 30 installed at the periphery of the jack device 20 in the loading plate 10 and fixed to the support beam 31 is loaded on the loading plate 10. ) Displacement, that is, the settlement of the ground.

However, in the prior art, the jack device 20 is placed at the center of the loading plate 10, and the displacement meter 30 that measures the displacement of the loading plate 10, that is, the ground settlement, is the loading plate 10. It is located at the periphery of the lower plate 10 rather than the center of the. That is, the position where the load is applied to the ground by the jack device 20 is the center of the loading plate 10, even though the position where the direct displacement caused by the load is also the center of the loading plate 10, The position at which the displacement is measured by 30 is not at the center where the load is applied, but at the edge of the loading plate 10 around the jack device 20 deviated by a certain distance from the center.

Therefore, the ground displacement measured by the displacement meter 30, that is, the ground subsidence, is measured in the surrounding area instead of the load point, and thus, the reliability of the measurement result is limited.

In order to solve such a problem, conventionally, displacement meters 30 are installed at a plurality of points (usually three points) at the edges away from the center of the lower plate, and the average values are measured using the values measured from the plurality of displacement meters 30. have. However, in order to install a plurality of displacement meters 30 as described above, not only a lot of equipment is required, but also an increase in installation time and more installation work, which has a disadvantage in that test efficiency is lowered. And most of all, it is still measuring the displacement at the periphery, not the point where the load is applied, and there is still a disadvantage in that the accuracy deterioration still exists.

The present invention was developed to solve the problems of the prior art as described above, specifically, in performing a flat load test, the position of the load applied to the ground by the jack device and the displacement of the ground by the displacement gauge The objective is to improve the reliability of the measurement results by matching the positions as closely as possible.

In addition, in the present invention, it is possible to measure more accurate and reliable ground displacement with only one displacement meter without installing a plurality of displacement meters, thereby increasing the cost, installation time and installation cost of using a plurality of equipments derived from the use of the plurality of displacement meters. The purpose is to eliminate problems such as increased work.

In order to achieve the above object, in the present invention, in the plate loading test, a load plate for the plate loading test which directly loads the load applied from the upper part to the ground, is placed in contact with the ground so that the load is applied directly to the ground. Acupressure plate; The inner space is formed in the center of the pressure plate to transmit the pressing force applied by the jack device to be placed on the upper plate, the displacement gauge enters through the outside and can be disposed at a position perpendicular to the center point of the pressure plate There is provided a loading plate for a flat load test, characterized in that it comprises a load transfer member.

In addition, in the present invention, the load transfer member in the above configuration, consisting of an upper plate, a side wall and a bottom plate positioned below the side wall is composed of a separate member separated from the pressure plate; On the upper surface of the pressure plate, there is provided a flat plate loading tester having a recess having a size corresponding to the lower plate so that the position of the load transmitting member is fixed when the load transmitting member is placed.

In addition, in the present invention, a jack device which is placed on the loading plate between the reaction plate and the loading plate and applies a pressing force to the loading plate, and one side is supported by the support device and is placed on the loading plate and the pressing force of the jack device is There is provided a flat plate loading tester including a displacement meter for measuring displacement of the loading plate.

In the flat plate loading tester of the present invention, the support device includes an elastic support beam member which can be extended in length; A leg part provided at both ends of the longitudinal support beam member and positioned outside the pressure plate to allow the support device to be independently installed; It is provided at one end in the longitudinal direction of the stretchable support beam member and extends in the longitudinal direction, and a displacement meter is installed at the free end so that the displacement meter can be disposed at a position perpendicular to the center point of the pressure plate in the internal space easily through the opening. It may be configured to include an installation arm to enable.

According to the present invention, the displacement meter for measuring the displacement of the ground is located at the center point of the load transfer member, so that the displacement can be measured at the position of the center point of the pressure plate, which is the action position of the pressing force applied by the jack device. That is, according to the present invention, the position at which the load is applied to the ground by the jack device and the position at which the displacement of the ground is measured by the displacement meter are integrated, whereby the effect of obtaining a reliable displacement measurement result is exerted. will be.

Particularly, in the present invention, since the displacement meter is positioned at the center position not biased at either side, the displacement of the ground can be measured with high reliability even with only one displacement meter placed at the center position. Compared to the technology, it is possible to avoid problems such as an increase in cost, installation time, and installation work caused by using a plurality of equipments.

1 is a schematic diagram showing a state of performing a plate load test using a conventional plate load tester.
Figure 2 is a schematic perspective view of the loading plate according to an embodiment of the present invention.
FIG. 3 is a schematic perspective view of a jack apparatus installed on the upper plate of FIG. 2.
Figure 4 is a schematic exploded perspective view showing a state in which the lower plate is present and the load transfer member separated from the pressure plate is assembled with the pressure plate.
5 is a schematic view showing a state in which the plate loading tester according to the present invention is installed.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

Figure 2 is a schematic perspective view of the loading plate 10 according to an embodiment of the present invention, Figure 3 is a jack device 20 is installed on top of the loading plate 10 shown in FIG. A schematic perspective view is shown.

As shown in the figure, the loading plate 10 according to the present invention, the pressure plate 11 is disposed so as to contact the ground and the load directly applied to the ground, and the jack device is located in the center of the pressure plate 11 20 is configured to include a load transmitting member 12 which transmits the pressing force applied by the pressure plate 11 to the pressure plate 11 and the internal space 120 is formed in which the displacement meter 30 can be located.

Specifically, the pressure plate 11 is made of a steel plate and placed in contact with the ground of the ground to be tested. Ordinarily, the pressure plate 11 may be formed in a circular shape, but may be made of a polygon in addition to the circular shape.

The load transfer member 12 is a member positioned at the center point C of the pressure plate 11, and includes a top plate 123 and a sidewall 124 on which the jack device 20 is placed. The jack device 20 is placed on the upper plate 123 of the load transfer member 12, and when the pressing force is applied vertically downward by the jack device 20, the pressing force is applied to the pressure plate through the load transfer member 12. It is transmitted to (11) and is applied to the ground by the pressure plate (11).

In the present invention, an inner space 120 is formed at the center of the load transfer member 12, and an opening 121 accessible to the inner space 120 is formed at a side of the load transfer member 12. Formed.

The load transfer member 12 may be integrally coupled with the pressure plate 11, but may be configured as a separate member separated from the pressure plate 11. In particular, the lower surface of the load transfer member 12 may be open, but may be closed by a circular lower plate 122. That is, the load transfer member 12 may be composed of only the upper plate 123 and the side wall 124 on which the jack device 20 is placed, and the lower portion of the side wall 124 may have an open structure, As in the embodiment, in addition to the top plate and the side wall, a circular bottom plate 122 may be present below the side wall to have a closed structure.

FIG. 4 is a schematic exploded perspective view illustrating a state in which a load transmitting member 12 having a lower plate 122 and separated from the pressure plate 11 is assembled with the pressure plate 11. As shown in the figure, when the load transfer member 12 is made of a separate member separated from the pressure plate 11, when the load transfer member 12 is placed on the pressure plate 11, the position of the load transfer member 12 does not change. For this purpose, it is preferable to form a stopper for fixing the position of the load transmitting member 12 on the upper surface of the pressure plate 11. In the embodiment illustrated in the figure, the concave portion 110 is formed on the upper surface of the pressure plate 11, and the load transfer member 12 is configured to be placed on the concave portion. In this case, the size of the recess 110 corresponds to the size of the load transfer member 12 (that is, the size of the side wall or the size of the lower plate 122), between the top of the recess and the other top surface of the pressure plate 11. The stepped part 111 due to the height difference of the stopper 110 corresponds to the stopper 110. Therefore, when the load transfer member 12 is placed in the recess, the position of the load transfer member 12 on the pressure plate 11 is fixed. .

In the present invention, an inner space 120 is formed at the center of the load transfer member 12, and an opening 121 accessible to the inner space 120 is formed at a side of the load transfer member 12. Formed.

In the drawing, reference numeral 113 is a handle 113 provided on the lower plate 10 as needed so that the operator can easily lift the lower plate 10.

The flat load tester according to the present invention includes a loading plate 10 having the above-described configuration, a jack device 20, and a displacement meter 30, and performs a flat load test using the flat load tester according to the present invention. When performing, the displacement meter 30 is positioned in the internal space 120 of the load transfer member 12 provided in the loading plate 10. Specifically, in the present invention, the displacement meter 30 is connected to the support device 60, the displacement meter 30, one end of which is connected to the support device 60 is an opening 121 formed on the side of the load transfer member 12 Inserted into the inner space 120 through the () is disposed at a position perpendicular to the center of the pressure plate (11).

5 is a schematic view showing a state in which a flat load tester according to the present invention is installed. In FIG. 5, a reaction table such as a vehicle positioned above the jack device 20 is omitted for convenience.

As shown in Figure 5, in order to perform a flat plate loading test using a flat plate loading tester according to the present invention, the plate 10 consisting of the pressure plate 11 and the load transfer member 12 is placed on the ground, The jack device 20 is placed on the load transfer member 12. Although not shown in the figure, a reaction table such as a vehicle is positioned above the jack device 20. That is, the jack device 20 is placed between the reaction table and the upper portion of the load transfer member 12.

Displacement meter 30 is used to measure the displacement of the ground, the displacement meter 30 is located in the interior space 120 of the load transfer member 12, specifically, the load transfer member in the interior space 120 It will be located at the center point of (12). As described above, since the load transfer member 12 is located at the center point of the pressure plate 11, the center point of the load transfer member 12 is placed at a position perpendicular to the center point of the pressure plate 11. Since the internal space 120 is formed to include the center point of the load transmission member 12, when the displacement meter 30 is positioned at the center point of the load transmission member 12 in the interior space 120, eventually, The displacement meter 30 is located at the center point of the pressure plate 11.

Accordingly, when the jack device 20 placed between the reaction table and the upper portion of the load transfer member 12 is extended, a pressing force is applied to the load transfer member 12 accordingly, and the load transfer member 12 causes the side wall to press this pressure. Alternatively, the pressure plate 11 is transferred to the pressure plate 11 through the lower plate 122, and applied to the ground as a load through the pressure plate 11. At this time, as described above, the displacement meter 30 is located at the center point of the load transmitting member 12 in the internal space 120 to measure the displacement of the lower plate 122 or the pressure plate 11, thereby measuring the displacement of the ground. Done. As described above, in the present invention, since the displacement meter 30 is positioned at the center position of the pressure bearing plate 11 to which the load is applied and the displacement is measured, the position at which the load is applied to the ground by the jack device 20 and the displacement meter 30. ), The position for measuring the displacement of the ground is integrated, whereby a reliable displacement measurement result can be obtained.

In particular, since the displacement gauge 30 is located at a center position not biased at either side, the displacement of the ground can be measured with high reliability even with only one displacement gauge 30 placed at the center position. Compared with the prior art to be used, there is an effect that the problems such as increase in cost, installation time and installation work due to the use of a plurality of equipment is not generated.

In the present invention, the support device 60 to which the displacement meter 30 is fixed is not particularly limited, and a support beam 31 installed across the loading plate 10 as in the prior art may be used as the support device 60. However, if the support device 60 having the configuration as shown in the figure is used, the displacement meter 30 more easily through the opening 121 of the load transfer member 12, the internal space 120 It can be located inside.

The supporting device 60 illustrated in the drawing includes a stretchable support beam member 61 having an extended length, a leg portion 62 provided at both ends of the stretchable support beam member 61 in the longitudinal direction, It is configured to include an installation arm (63) extending in the longitudinal direction at one end in the longitudinal direction of the stretchable support beam member (61). A displacement meter 30 is provided at the free end of the mounting arm 63. The stretchable support beam member 61 may include two support beam members having different diameters such that the support beam member having a small diameter is variable by being inserted into or withdrawn from the support beam member having a relatively large diameter. .

When using the support device 60 having such a configuration, the leg portion 62 is located outside the pressure plate 11, and the support arm 60 is installed by itself while the installation arm 63 transmits the load. Extending in the direction of the member 12, the displacement meter 30 provided at the end of the mounting arm 63 is easily located at the center point of the load transfer member 12 in the internal space 120 through the opening 121. Can be deployed.

On the other hand, the displacement meter 30 may be any one of a dial-type analog displacement meter or an electronic type digital displacement meter as in the prior art. The use of a digital displacement meter not only facilitates measurement of displacement but also provides a measurement result. It is more preferable than analog displacement meter in that it can be used quickly. However, as mentioned above, there is no limitation on the type and type of the displacement meter 30 in the present invention.

10: Resignation 11: Acupressure Plate
12: load transfer member 20: jack device
30: displacement meter 122: bottom plate
123: top plate 124: side wall

Claims (5)

As a plate loading test plate 10 for placing a load on the ground in the plate loading test directly on the ground,
A pressure plate 11 disposed in contact with the ground to directly apply the load to the ground;
The pressing force applied by the jack device 20 to be placed at the center of the pressure plate 11 is applied to the pressure plate 11, the displacement meter 30 enters through the outside to the center point of the pressure plate 11. Plate loading test plate, characterized in that it comprises a load transfer member 12 is formed an internal space 120 that can be disposed at a position perpendicular to the.
The method of claim 1,
The load transfer member 12 includes an upper plate 123, a side wall 124, and a lower plate 122 positioned below the side wall 123, and is formed of a separate member separated from the pressure plate 11. And;
On the top surface of the pressure plate 11, a recess 110 having a size corresponding to the bottom plate 122 is formed so that the position of the load transfer member 12 is fixed when the load transfer member 12 is placed. Reload plate for flat plate test, characterized in that there is. On the loading plate 10 placed on the ground, the jack device 20 to apply a pressing force to the loading plate 10 placed on the loading plate 10 between the reaction table and the loading plate 10, to the support device 60 It is supported by one side by a flat plate loading tester including a displacement meter 30 is positioned on the loading plate 10 to measure the displacement of the loading plate 10 by the pressing force of the jack device (20);
The loading plate 10 is placed in contact with the ground, the pressure plate 11 to apply a pressing force directly to the ground, and is located in the center of the pressure plate 11 and the pressing force by the jack device 20 to the pressure plate ( 11) and a load transfer member (12) having an inner space (120) formed therein for transmission to the displacement gauge (30) entering through the outside;
Plate loading tester, characterized in that the displacement meter entered into the internal space 120 has a structure that can be placed at a position perpendicular to the center point of the pressure plate (11).
The method of claim 3,
The load transfer member 12 includes an upper plate 123, a side wall 124, and a lower plate 122 positioned below the side wall 123, and is formed of a separate member separated from the pressure plate 11. And;
On the top surface of the pressure plate 11, a recess 110 having a size corresponding to the bottom plate 122 is formed so that the position of the load transfer member 12 is fixed when the load transfer member 12 is placed. Flat load tester, characterized in that.
The method according to claim 3 or 4,
The support device 60,
Stretch support beam member 61 which can be changed in length extending,
Leg portions 62 which are provided at both ends in the longitudinal direction of the stretchable support beam member 61 and positioned outside the pressure plate 11 to allow the support device 60 to be installed independently,
It is provided at one end in the longitudinal direction of the stretchable support beam member 61 and extends in the longitudinal direction, and the displacement meter 30 is installed at the free end so that the displacement meter 30 is easily opened through the opening 121. 120) The flat load tester, characterized in that it comprises an installation arm (63) to be arranged in a position perpendicular to the center point of the pressure plate (11).

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