Method and microtome for producing thin sections with a section profile recording mode

The invention claimed is: 1. A method of producing thin sections by means of a microtome comprising: manually driving a hand wheel ( 32 ) for producing a first thin section, and detecting rotational movement of the hand wheel ( 32 ) during production of the first thin section with an encoder ( 38 ), determining a profile of the rotational movement, wherein the profile includes a position profile, a speed profile, an acceleration profile, a lower limit of a cutting window and/or an upper limit of a cutting window, storing the profile in a storage element ( 42 ), determining a plurality of the profiles with the encoder ( 38 ), said profiles being stored as a database in the storage element ( 42 ), storing at least one characteristic feature that is uniquely assigned to each of the profiles, selecting one of the stored profiles for producing at least a second thin section, wherein the characteristic feature of a sample is automatically determined for a sample to be microtomed, the determined characteristic feature is compared with the stored characteristic features, and one of the stored profiles is selected in dependence of the result of the comparison, and driving a motor ( 24 ) for producing the second thin section in accordance with the stored profile that is selected, wherein the motor ( 24 ) generates a cutting movement between a cutting unit ( 16 ) and a sample holder ( 12 ). 2. The method according to claim 1 , wherein the motor ( 24 ) is driven in real-time in accordance with the profile detected by the encoder ( 38 ) for producing the first thin section. 3. The method according to claim 1 , wherein the profile is recorded during production of the first thin section of a sample, and in that said stored profile is subsequently used for production of all further thin sections of the respective sample. 4. The method according to claim 1 , wherein a type of the sample to be microtomed and/or a person operating the microtome ( 10 ) is stored as the characteristic feature. 5. The method according to claim 4 , wherein the characteristic feature is determined via a barcode of the sample. 6. The method according to claim 1 , wherein selection of one of the stored profiles for producing a thin section is manually accomplished. 7. The method according to claim 1 , wherein, in a recording mode, a profile detected during rotation of the hand wheel ( 32 ) is stored, and wherein in an automatic mode, the motor ( 24 ) is driven in accordance with a prior stored, selected profile. 8. The method according to claim 1 , wherein during production of the at least second thin section, the motor ( 24 ) is driven independently of the rotation of the hand wheel. 9. The method according to claim 1 , wherein, during a revolution of the hand wheel ( 32 ), the encoder ( 38 ) outputs positional data including information on the respective position of the hand wheel ( 32 ), and wherein the profile of the cutting movement is detected in accordance with said positional data. 10. A microtome for producing thin sections, comprising: a sample holder ( 12 ) for receiving a sample to be microtomed, a cutting unit ( 16 ) for cutting the sample, a motor ( 24 ) for generating a relative movement between the sample holder ( 12 ) and the cutting unit ( 16 ) for cutting the sample, a manually operable hand wheel ( 32 ), an encoder ( 38 ) for detecting a rotational movement of the hand wheel ( 32 ), and a control unit ( 40 ) for driving the motor ( 24 ), characterized in that, in a recording mode, the control unit ( 40 ), using the encoder ( 38 ), determines a plurality of profiles of rotational movements ( 32 ) performed for cutting thin sections, wherein each of the profiles includes a position profile, a speed profile, an acceleration profile, a lower limit of a cutting window and/or an upper limit of a cutting window, the control unit ( 40 ) stores the profiles in a storage element ( 42 ), the control unit ( 40 ) stores for each profile at least one characteristic feature uniquely assigned thereto, and wherein the control unit ( 40 ), when producing at least one further thin section, automatically selects one of the stored profiles such that the control unit ( 40 ) determines a characteristic feature of the sample, compares the characteristic feature of the sample with the characteristic features of the profiles, automatically selects one of the profiles based on the comparison of the characteristic feature of the sample and the characteristic features of the profiles, and drives the motor ( 24 ) in accordance with the profile that is selected.