Dental furnace

What is claimed is: 1. Dental furnace for the firing operation of dental restorations comprising a furnace head and a firing space bottom which is suited to accommodate a dental restoration, wherein at least one optical sensor is arranged at the dental furnace or in its vicinity, the sensor comprises an output port connected to an evaluation device for evaluating at least one of the dental restoration, a muffle, a press plunger, and a firing charge carrier for at least one of dimensions, a shape and a position thereof, wherein the sensor is a thermal imaging camera having an infrared range of 3000 nm to 15,000 nm, wherein the sensor comprises a detection area which extends, at least partially, inside a firing space above the firing space bottom of the dental furnace, wherein the sensor is connected to a control device and is configured to directly detect a size and temperature of a dental restoration part or a muffle to be fired, wherein the control device determines furnace parameters depending on a size and temperature of the dental restoration part and/or muffle to be fired, and starts a program function for the firing of the dental restoration part and/or muffle based on the determined furnace parameters, and wherein there is no detection when the furnace is in a closed position. 2. Dental furnace in accordance with claim 1 , wherein the evaluation device is connected to a display device, a control device, or both a display device and a control device, wherein the display device can display at least one of the dimensions, the shape and the position, and wherein the control device controls the dental furnace. 3. Dental furnace in accordance with claim 1 , wherein a monitoring device of the dental furnace is connected to the sensor, wherein the monitoring device can detect a temporal change in the dimensions and/or the shape and/or the position. 4. Dental furnace in accordance with claim 1 , wherein the furnace head is removable from the firing space and wherein the sensor is directed towards a detection area which extends between the firing space bottom and the furnace head in an open state of the furnace. 5. Dental furnace in accordance with claim 1 , wherein the furnace head can be lifted off the firing space. 6. Dental furnace in accordance with claim 1 , wherein the sensor is mounted so that it can be swiveled. 7. Dental furnace in accordance with claim 1 , wherein the sensor is attached to the dental furnace so that it can be swiveled. 8. Dental furnace in accordance with claim 1 , wherein the sensor comprises a picture recording device wherein an image of at least one of the dental restoration, the muffle, the press plunger, and the firing charge carrier can be recorded. 9. Dental furnace in accordance with claim 1 , wherein the sensor comprises a picture recording device that evaluates a recorded image, wherein the recorded image comprises an object and a background, the picture recording device evaluates the recorded image at least line-wise, column-wise, or both, and determines the dimensions of the recorded image based on an evaluation result in a width extending in a parallel fashion to the firing space bottom or in a height extending in a vertical fashion to the firing space bottom of one or more of the dental restoration part, the muffle, the press plunger, and the firing charge carrier, by determining a number of pixels which correspond to the width or height, respectively, of the image recorded, from pixels corresponding to the object as opposed to pixels corresponding to the background, based on a pre-set criteria. 10. Dental furnace in accordance with claim 9 , wherein the criteria comprise one or more of a temperature, a brightness and a color of the object. 11. Dental furnace in accordance with claim 1 , wherein the sensor detects electromagnetic waves within a range of wavelengths of 380 nm and 18 μm and comprises a multitude of sensor elements. 12. Dental furnace in accordance with claim 1 , wherein the optical sensor comprises at least two sensor elements which are positioned at an angle to one another and have detection areas which at least partly overlap each other. 13. Dental furnace in accordance with claim 1 , wherein the optical sensor forms part of a light barrier which comprises at least two sensor elements and at least one transmitter of electromagnetic rays, and wherein a presence of the electromagnetic rays can be detected by the sensor elements. 14. Process for operating a dental furnace, which dental furnace comprises a furnace head and a firing space bottom adapted to accommodate a dental restoration, wherein at least one optical sensor is a thermal imaging camera having an infrared range of 3000 nm to 15,000 nm and is positioned at the dental furnace or in a vicinity thereof, wherein the sensor directly detects a size and temperature and records an image of at least one of the dental restoration, a muffle, a press plunger, and a firing charge carrier to be fired and forwards it to a control device, and wherein the dental furnace is controlled and/or the image is displayed by the control device, and wherein the control device starts a program function depending on the image recorded or a signal output by the sensor for the firing operation of the dental restoration, and wherein there is no detection when the furnace is in closed position. 15. Process in accordance with claim 14 , wherein the control device comprises a pre-selection of processing programs of the dental furnace after the control device has recognized an object recorded. 16. Process in accordance with claim 15 , wherein the object recorded is a size of the muffle positioned upon the firing space bottom. 17. Process in accordance with one of claim 14 , wherein the temperature of at least one of the dental restoration part, the muffle, the press plunger, and the firing charge carrier can be detected by the sensor, and wherein the control device controls the dental furnace depending on the temperature detected.