Hardness tester

What is claimed is: 1. A hardness tester for measuring hardness of a sample by forming an indentation in a surface of a sample by applying a predetermined test force with an indenter, then measuring dimensions of the indentation, the hardness tester comprising: a plurality of weights stacked on top of each other in a vertical direction, the plurality of weights configured to apply the predetermined test force to the sample through the indenter and comprising: hollow portions running through a horizontal-direction center in the vertical direction; and accommodation portions formed so as to be capable of accommodating the weight located directly below, wherein: an exterior surface of the weights is provided with an outside tapered portion, an interior surface of the accommodation portion is provided with an inside tapered portion engaging with the outside tapered portion of the accommodated weight to regulate horizontal-direction displacement of the weight; a transmission configured to transmit to the indenter, as the test force, a force of gravity acting on the plurality of weights, the transmission comprising: a shaft running through the hollow portions, wherein a predetermined gap is present between the hollow portions and the shaft; and a weight engagement portion provided at a bottom end of the shaft and capable of being accommodated by the accommodation portion of the bottom-most weight to engage the weight, the weight engagement portion comprising a tapered portion configured to engage the inside tapered portion of the bottom-most weight to regulate the horizontal-direction displacement of the bottom-most weight; and a test force switch configured to switch a magnitude of the test force by switching between the weights applying the test force, wherein the test force switch comprises: a cam positioned below the plurality of weights and configured for rotation concentric with the plurality of weights, and formed such that a horizontal-direction width changes according to a rotation angle; and a weight support configured to support the weights and formed by a pair of members positioned so as to be mutually point-symmetrical in the horizontal direction with the cam therebetween, and a first end being rotatable around a vertical axis, wherein the weight support is configured to be continuously biased such that a second end closes toward the cam, and a distance between the second ends changes due to rotating the first ends, caused by rotation of the cam, such that the switching between which of the plurality of weights is to be supported can be performed. 2. The hardness tester according to claim 1 , wherein the inside tapered portion of the bottom-most weight contacts an entire surface of the tapered portion of the weight engagement portion that is accommodated within the bottom-most weight. 3. A hardness tester for measuring hardness of a sample by forming an indentation in a surface of a sample by applying a predetermined test force with an indenter, then measuring dimensions of the indentation, the hardness tester comprising: a plurality of weights stacked on top of each other in a vertical direction, wherein the plurality of weights have a truncated cone shape when the plurality of weights is stacked on top of each other, and the plurality of weights configured to apply the predetermined test force to the sample through the indenter and comprising: hollow portions running through a horizontal-direction center in the vertical direction; and accommodation portions formed so as to be capable of accommodating the weight located directly below, wherein: an exterior surface of the weights is provided with an outside tapered portion, an interior surface of the accommodation portion is provided with an inside tapered portion engaging with the outside tapered portion of the accommodated weight to regulate horizontal-direction displacement of the weight; a transmission configured to transmit to the indenter, as the test force, a force of gravity acting on the plurality of weights, the transmission comprising: a shaft running through the hollow portions, wherein a predetermined gap is present between the hollow portions and the shaft; and a weight engagement portion provided at a bottom end of the shaft and capable of being accommodated by the accommodation portion of the bottom-most weight to engage the weight, the weight engagement portion comprising a tapered portion configured to engage the inside tapered portion of the bottom-most weight to regulate the horizontal-direction displacement of the bottom-most weight; and a test force switch configured to switch a magnitude of the test force by switching between the weights applying the test force, wherein the test force switch comprises: a cam positioned below the plurality of weights and configured for rotation concentric with the plurality of weights, and formed such that a horizontal-direction width changes according to a rotation angle; and a weight support configured to support the weights and formed by a pair of members positioned so as to be mutually point-symmetrical in the horizontal direction with the cam therebetween, and a first end being rotatable around a vertical axis, wherein the weight support is configured to be continuously biased such that a second end closes toward the cam, and a distance between the second ends changes due to rotating the first ends, caused by rotation of the cam, such that the switching between which of the plurality of weights is to be supported can be performed. 4. A hardness tester for measuring hardness of a sample by forming an indentation in a surface of a sample by applying a predetermined test force with an indenter, then measuring dimensions of the indentation, the hardness tester comprising: a plurality of weights stacked on top of each other in a vertical direction, the plurality of weights configured to apply the predetermined test force to the sample through the indenter and comprising: hollow portions running through a horizontal-direction center in the vertical direction; and accommodation portions formed so as to be capable of accommodating the weight located directly below, wherein: an exterior surface of the weights is provided with an outside tapered portion, an interior surface of the accommodation portion is provided with an inside tapered portion engaging with the outside tapered portion of the accommodated weight to regulate horizontal-direction displacement of the weight; a transmission configured to transmit to the indenter, as the test force, a force of gravity acting on the plurality of weights, the transmission comprising: a shaft running through the hollow portions, wherein a predetermined gap is present between the hollow portions and the shaft; and a weight engagement portion provided at a bottom end of the shaft and capable of being accommodated by the accommodation portion of the bottom-most weight to engage the weight, the weight engagement portion comprising a tapered portion configured to engage the inside tapered portion of the bottom-most weight to regulate the horizontal-direction displacement of the bottom-most weight; and a test force switch configured to switch a magnitude of the test force by switching between the weights applying the test force, wherein the test force switch comprises a notch configured to support bottom ends of the plurality of weights, the notch widening toward an open end, the test force switch further configured to advance and retreat in a direction in which the open end of the notch is formed such that switching between which of the plurality of weights is to be supported is performed by advancing and retreating the test force switcher in the direction in which the open end of the notch is formed. 5. A hardness test