Material testing machine that properly performs a tensile test on a test piece

The invention claimed is: 1. A material testing machine comprising: a pair of first moving members capable of moving in mutually approaching and separating directions along a first axis by being guided along a guide member; chucks correspondingly connected to the first moving members; a pair of second moving members capable of moving in mutually approaching and separating directions along a second axis intersecting with the first axis by being guided along a guide member; chucks correspondingly connected to the second moving members: a load member to be applied with a load by a load mechanism; four link members that are disposed in states of being swingable with respect to the load member correspondingly around swing shafts disposed in the load member; and connecting mechanisms adapted to connect end parts of the link members on sides opposite to the swing shafts to the first moving members and the second moving members correspondingly, the material testing machine transmitting the load applied to the load member to the pair of first moving members and the pair of second moving members through the four link members correspondingly, and thereby synchronously moving the pair of first moving members in the mutually separating directions along the first axis, as well as moving the pair of second moving members in the mutually separating directions along the second axis, the material testing machine comprising pretension mechanisms adapted to apply pretensions to a test piece by in a state where no load is applied to the load member by the load mechanism, moving the pair of chucks correspondingly connected to the pair of first moving member in the mutually separating directions along the first axis as well as moving the pair of chucks correspondingly connected to the pair of second moving members in the mutually separating directions along the second axis. 2. The material testing machine according to claim 1 , wherein the pretension mechanisms change distances between the end parts of the link members on the sides opposite to the swing shafts and the chucks, and thereby apply the pretensions to the test piece correspondingly. 3. The material testing machine according to claim 2 , wherein: the connecting mechanisms include pins and seating surfaces touching the pins correspondingly; and the pretension mechanisms apply the pretensions to the test piece by changing distances between the pins and the chucks correspondingly. 4. The material testing machine according to claim 3 , wherein: the first moving members and the second moving members are configured to include seat members formed with the seating surfaces and slide members holding the seat members correspondingly; and the pretension mechanisms have pressing members that move the seat members with respect to the slide members correspondingly. 5. The material testing machine according to claim 1 , wherein the pretension mechanisms apply the pretensions to the test piece by changing positions of the swing shafts correspondingly. 6. The material testing machine according to claim 5 , wherein: the swing shafts are pivotally supported by bearing members movable in directions intersecting with longer directions of the link members correspondingly; and the pretension mechanisms comprise pressing members for pressing the bearing members, and apply the pretensions to the test piece by making the pressing members move the bearing members in the directions intersecting with the longer directions of the link members correspondingly. 7. The material testing machine according to claim 1 , wherein the pretension mechanisms apply the pretensions to the test piece by changing lengths of the link members correspondingly. 8. The material testing machine according to claim 7 , wherein: the link members correspondingly comprise pairs of link pieces connected through compound screw members each having both ends that are formed with screw parts facing in mutually opposite directions; and the pretension mechanisms apply the pretensions to the test piece by rotating the compound screw members to change distances between the pairs of link pieces correspondingly.