JP4219095B2 - Compression / shear test method and test apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a compression / shear test method and apparatus for a specimen, and more specifically, gives a large compression / shear deformation to a specimen such as a large rubber bearing used in a seismic isolation apparatus or the like. The present invention relates to a compression / shear test method and apparatus for performing a performance test.
[0002]
[Prior art]
Conventionally, as a rubber bearing body 1 (sample 1) used in a seismic isolation device or the like, for example, a plurality of rubber sheets 2 and metal plates 3 are alternately laminated as shown in FIG. The upper and lower plates 5a and 5b having a plurality of bolt mounting holes 4 are attached to the upper and lower surfaces of the molded product.
[0003]
When performing performance tests such as compression and shearing of the rubber bearing body 1, one of the upper and lower surface plates 5 a and 5 b is fixed horizontally and the other is connected to an actuator so that the rubber bearing body 1 is out of plane. A vertical load F is given as the direction, the rubber is compressed, and a shear deformation Fx is given in the horizontal direction until it breaks as the in-plane direction, and the performance test is performed.
[0004]
By the way, in recent years, along with the expansion of the bridge scale, the planar size of the rubber bearing body 1 is also increasing, and a high displacement and a high load are required in the horizontal direction even when performing a performance test. On the other hand, with the revision of the road bridge specifications, the rubber bearings are also shifting to the performance regulation type, but it is necessary to grasp the required ultimate shear deformation performance as part of the quality control.
[0005]
[Problems to be solved by the invention]
However, in the performance testing machine that checks the horizontal characteristics at the time of design, considering the load load, the stroke, and the impact resistance against impact at the time of failure until the confirmation of shear failure, the plane dimensions are currently 1,000 mm on a side. It can be said that the size of the rectangular shape is the limit.
[0006]
In addition, when a rubber bearing of more than this is manufactured, there is a problem that a large-sized biaxial device is required because of the large size of the device in the horizontal direction and a large space.
[0007]
An object of the present invention is to provide a compression / shear test that can test the performance test of compression deformation and / or shear deformation of a large specimen by using a vertical uniaxial compression apparatus without using a large-scale facility or apparatus. It is to provide a method and apparatus thereof.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the compression / shear test method of the present invention is a compression / shear test method in which a test is performed by applying a compressive load and / or a shear load to the specimen. One of the lower surfaces is fixed to the upper part of a vertically fixed frame, and the other surface of the specimen is fixed in a vertical direction along a parallel guide frame opposite to the fixed frame. And by applying a shearing deformation to the specimen by sliding the fixing means downward along the guide frame via an actuator, and at the same time, by a taper member attached to the lower side of the inner wall surface of the guide frame, The gist is to perform the test by bringing the fixing means closer to the fixed frame side and compressing and / or shearing the specimen .
[0009]
Further, the compression / shear test apparatus of the present invention is configured such that the fixed frame and the guide frame are set up on a horizontal base plate in parallel with each other at a predetermined interval and vertically so as to face each other. Clamp means for removably fixing one of the upper and lower surface plates of the specimen is provided on the upper surface of the wall, and the specimen is raised and lowered along the guide frame on the inner wall of the guide frame opposite to the clamp means. A compression fixing means for detachably fixing the other of the upper and lower surface plates is provided, a taper member for attaching the compression fixing means to the fixed frame side is attached to the lower side of the inner wall surface of the guide frame, and the upper part of the compression fixing means is attached. The gist of the invention is that an actuator is provided for sliding the compression fixing means to impart shear deformation to the specimen.
[0010]
Even if this invention is comprised as mentioned above and is a large-sized specimen, it can perform a performance test by giving a large shear deformation to a specimen easily by using a vertical type single axis compression device with a large stroke. In addition, the compressive load outside the surface of the specimen can be easily applied by a compression fixing means such as a jack, and the test apparatus is greatly simplified, so that the cost of the apparatus can be greatly reduced.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
[0012]
Note that the same components as those in the conventional example are denoted by the same reference numerals and description thereof is omitted.
[0013]
Figure 1 is a schematic front view of a test apparatus for carrying out the large compression and shear test method specimens according to the present invention, Figure 2 shows an enlarged perspective view of FIG. 1, the compression and shear test apparatus 10, a fixed frame 12 and a guide frame 13 are set up vertically on a horizontal base plate 11 with a predetermined distance therebetween in parallel and opposite to each other.
[0014]
Clamping means 14 for detachably fixing one of the upper and lower plates 5a and 5b of the specimen 1 such as a rubber bearing, that is, the upper plate 5a in this embodiment, is mounted on the inner wall surface of the fixed frame 12. Is provided.
[0015]
The clamp means 14 is constituted by a plurality of bolts and nuts for connecting a mounting hole (not shown) formed in the fixed frame 12 and a bolt mounting hole 4 formed in the upper surface plate 5a of the specimen 1. Is.
[0016]
Further, on the inner wall surface of the guide frame 13 opposed to the clamp means 14, a compression fixing means such as a jack for moving up and down along the guide frame 13 and detachably fixing the lower surface plate 5 b of the specimen 1. 2 are provided (the number is not particularly limited as long as it is one or more), and the compression fixing means 15 is provided along the inner wall surface of the guide frame 13 via the slide roller 16 provided on the base 15a. It is configured to move up and down and approach the fixed frame 12 side as it moves downward by a taper member 17 attached to the lower side of the inner wall surface of the guide frame 13.
[0017]
At the tip of the rod 15b of the compression fixing means 15 such as the jack, a mounting plate 18 is mounted to a bolt mounting hole 4 provided in the lower surface plate 5b of the specimen 1 via a plurality of bolts and nuts (not shown). The compression fixing means 15 and the mounting plate 18 are slid downward along the guide frame 13 on the upper portion of the mounting plate 18, and the specimen 1 is subjected to shear deformation as indicated by a two-dot chain line. An actuator 19 (for example, a hydraulic cylinder or the like) for applying is installed in a vertical direction.
[0018]
In this embodiment, the actuator 19 uses a single-axis cylinder provided with a measuring instrument.
[0019]
When performing the performance test of the specimen 1 using the vertical performance test apparatus 10 as described above, a plurality of rubber sheets 2 and metal plates 3 as shown in FIGS. The specimen 1 laminated and integrally formed is attached to the fixed frame 12 via bolt mounting holes 4 formed on the upper surface plate 5a and a plurality of bolts and nuts.
[0020]
On the other hand, the lower surface plate 5b of the specimen 1 is attached to the attachment plate 18 of the compression fixing means 15 via fastening members (not shown) such as a plurality of bolts and nuts, and the rubber support 1 is compressed by the compression fixing means 15. In the state or in the non-compressed state, the compression fixing means 15 and the mounting plate 18 are slid downward along the guide frame 13 by the actuator 19, and shear deformation as shown by a two-dot chain line is applied to the specimen 1.
[0021]
And the performance test of the specimen 1 in this shear deformation is measured by a measuring instrument provided in the actuator 19.
[0022]
As described above, since the performance test is performed by shearing and deforming the specimen 1 in the longitudinal direction, even if the specimen 1 is large, a large shear is applied to the specimen 1 by using a vertical uniaxial compression device having a large stroke. The performance test can be performed by easily applying deformation, and the compressive load outside the surface of the specimen 1 can be easily applied by the compression fixing means 15 such as a jack as described above.
[0023]
【The invention's effect】
The present invention is a compression / shear test method for performing a test by applying a compressive load and / or a shear load to a specimen as described above, and one of the upper and lower surfaces of the specimen is fixed vertically. While fixing to the upper part of the frame, the other surface of the specimen is fixed to a fixing means that can slide in a vertical direction along a parallel guide frame opposite to the fixed frame, and the fixing means is connected via an actuator. Then, the specimen is sheared by sliding downward along the guide frame, and at the same time, the taper member attached to the lower side of the inner wall surface of the guide frame causes the fixing means to approach the fixed frame side. since the perform test compressive deformation and / or by shearing, also a specimen of a large, test by utilizing a large vertical uniaxial compression device stroke To a large shearing deformation can be performed easily given performance test, also compression load outside surface of the specimens, the effect of it can give easily by compressing the fixing means of the jack or the like.
[0024]
Further, on the horizontal base plate, the fixed frame and the guide frame are set up vertically in parallel and opposite to each other with a predetermined interval, and the upper and lower surface plates of the specimen are placed on the upper inner wall surface of the fixed frame. Clamping means for detachably fixing one side is provided, and it is moved up and down along the guide frame on the inner wall surface of the guide frame opposite to the clamping means, and the other of the upper and lower surface plates of the specimen is detachably fixed. And a taper member for attaching the compression fixing means to the fixed frame side is attached to the lower side of the inner wall surface of the guide frame, and the compression fixing means is slid on the upper part of the compression fixing means. Since an actuator is provided to apply shear deformation to the specimen, even if it is a large specimen in a narrow space, it is easy to give a large shear deformation to the specimen and perform a performance test. It is possible to carry out, and because the test apparatus is significantly simplified, there is an effect that can greatly reduce the cost of the device.
[Brief description of the drawings]
FIG. 1 is a schematic front view of a test apparatus for carrying out a compression / shear test method for a large specimen according to the present invention.
FIG. 2 is an enlarged perspective view of a main part of FIG.
FIG. 3 is an explanatory diagram of a performance test method for a rubber bearing body which is a conventional specimen.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Specimen (rubber support body) 2 Rubber sheet 3 Metal plate 4 Bolt mounting holes 5a and 5b Upper and lower surface plates F Vertical load Fx Shear deformation 10 Performance test apparatus 11 Base plate 12 Fixed frame 13 Guide frame 14 Clamping means 15 Compression fixing means 15a Base Base 15b Rod 16 Slide roller 17 Tapered member 18 Mounting plate 19 Actuator

Claims (3)

A compression / shear test method for performing a test by applying a compression load and / or a shear load to a specimen, and fixing one of the upper and lower surfaces of the specimen to an upper part of a vertically fixed frame, The other surface of the specimen is fixed to a fixing means that can slide in a vertical direction along a parallel guide frame opposite to the fixed frame, and the fixing means is moved downward along the guide frame via an actuator. The specimen is subjected to shear deformation by sliding, and at the same time, the taper member attached to the lower side of the inner wall surface of the guide frame causes the fixing means to approach the fixed frame and compresses and / or shears the specimen. Compression / shear test method for testing. On the horizontal base plate, the fixed frame and the guide frame are set up vertically in parallel with each other at a predetermined interval, and one of the upper and lower surface plates of the specimen is placed on the upper inner wall surface of the fixed frame. Clamping means for detachably fixing is provided, and the other of the upper and lower surface plates of the specimen is detachably fixed to the inner wall surface of the guide frame opposite to the clamping means along the guide frame. And a taper member for attaching the compression fixing means to the fixed frame side is attached to the lower side of the inner wall surface of the guide frame, and the compression fixing means is slid on the compression fixing means to the specimen. A compression / shear test apparatus provided with an actuator for imparting shear deformation.   The compression / shear test apparatus according to claim 2, wherein the actuator is a uniaxial cylinder provided with a measuring instrument.

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