Measuring device

The invention claimed is: 1. A measuring device ( 1 ) comprising a body ( 2 ), a vacuum chamber ( 3 ) in the body ( 2 ) in which a thermal contact resistance measurement is conducted, a first sample ( 4 ) and a second sample ( 5 ) which are placed in the chamber ( 3 ) and are in contact with each other in such a way that heat transfer occurs, a piston ( 6 ) which ensures a continuous contact to take place between the first sample ( 4 ) and the second sample ( 5 ) during a measurement, a cooler ( 7 ) which is located under the first sample ( 4 ) and the second sample ( 5 ), at least one damper ( 8 ), which is attached to the chamber ( 3 ), is located under the cooler ( 7 ), and enables to dampen a force applied by the piston ( 6 ) to provide the continuous contact between the first sample ( 4 ) and the second sample ( 5 ), and an insulator ( 9 ) disposed between the cooler ( 7 ) and the damper ( 8 ), providing insulation for heat transfer conducted by the cooler ( 7 ), wherein: at least one plate ( 10 ) is placed between the damper ( 8 ) and the insulator ( 9 ) to prevent deformation of the insulator ( 9 ) by homogeneously distributing a force exerted by the damper ( 8 ) on the insulator ( 9 ), at least one gap ( 11 ) is provided on the insulator ( 9 ) and of which the location is determined by a user, and the at least one plate ( 10 ) is placed in the gap ( 11 ) to homogeneously distribute the force exerted by the damper ( 8 ) on the insulator ( 9 ). 2. A measuring device ( 1 ) according to claim 1 , comprising more than one damper ( 8 ), more than one plate ( 10 ) and more than one gap ( 11 ) disposed at equal distances to each other to homogeneously distribute the force exerted by the damper ( 8 ) to the insulator ( 9 ) when the force applied by the piston ( 6 ) is dampened. 3. A measuring device ( 1 ) according to claim 1 , comprising more than one damper ( 8 ), more than one plate ( 10 ) and more than one gap ( 11 ) disposed at different distances to each other. 4. A measuring device ( 1 ) according to claim 1 , wherein the insulator ( 9 ) is produced from Teflon. 5. A measuring device ( 1 ) according to claim 1 , wherein at least one of the at least one plate ( 10 ) is made of stainless steel. 6. A measuring device ( 1 ) according to claim 1 , comprising at least one sheet ( 12 ) placed between the cooler ( 7 ) and the insulator ( 9 ) for preventing any deformation from occurring on the insulator ( 9 ) when the force applied by the piston ( 6 ) is dampened. 7. A measuring device ( 1 ) according to claim 6 , wherein the sheet ( 12 ) is disposed in the gap ( 11 ) on the insulator ( 9 ) to prevent deformation by homogeneously distributing a force exerted by the cooler ( 7 ) on the insulator ( 9 ). 8. A measuring device ( 1 ) according to claim 6 , wherein each sheet ( 12 ) is made of stainless steel.