Display element, display instrument, display method, use of an optical waveguide and vehicle

The invention claimed is: 1. A display element comprising: a plurality of light chambers arranged alongside one another, each comprising: a light barrier to a respectively adjacent light chamber; and an optical waveguide provided for each light chamber so as to be spaced apart from the optical waveguide of the respectively adjacent light chamber, wherein each optical waveguide has a side which is light-nontransmissive or only partly light-transmissive, to thereby form the light barrier to the respectively adjacent light chamber. wherein the display element further comprises: a printed circuit board; and a dial plate arranged substantially parallel to the printed circuit board, each optical waveguide extends from the printed circuit board to the dial plate, each optical waveguide having a lower edged flush with the printed circuit board and an upper edge flush with the dial plate. 2. The display element as claimed in claim 1 , wherein a reflective coating or a partly reflective coating is used to respectively form the side of each optical waveguide which is light-nontransmissive or only partly light-transmissive side. 3. The display element as claimed in claim 1 , wherein a first side of each optical waveguide is light-nontransmissive or only partly light-transmissive, and a second side of each optical waveguide diametrically opposite the first side of the optical waveguide, is light-transmissive. 4. The display element as claimed in claim 1 , wherein the light chambers are arranged in an ordered manner alongside one another. 5. The display element as claimed in claim 1 , wherein the light chambers each comprise at least one electrical light source. 6. The display element as claimed in claim 5 , wherein each electrical light source comprises a light emitting diode (LED). 7. The display element as claimed in claim 1 , wherein the display element further comprises: a plurality of individually controlled light sources arranged on the printed circuit board, between the printed circuit board and the dial plate, and each optical waveguide separates a pair of adjacent light sources. 8. The display element as claimed in claim 7 , wherein each optical waveguide extends substantially perpendicular to the printed circuit board and the dial plate. 9. The display element as claimed in claim 7 , wherein all optical waveguides extend substantially in parallel from the printed circuit board to the dial plate. 10. A display instrument comprising the display element as claimed in claim 1 . 11. A vehicle comprising the display instrument as claimed in claim 10 . 12. The vehicle as claimed in claim 11 , wherein the display instrument is selected from the group consisting of a fuel indicator, a speedometer and a tachometer. 13. A display method, comprising: providing a display element having plurality of light chambers arranged alongside one another, each light chamber comprising: a light barrier to a respectively adjacent light chamber; and an optical waveguide provided for each light chamber so as to be spaced apart from the optical waveguide of the respectively adjacent light chamber, wherein each optical waveguide has a side which is light-nontransmissive or only partly light-transmissive, to thereby form the light barrier to the respectively adjacent light chamber; and illuminating a plurality of immediately adjacent light chambers such that between currently illuminated light chambers no light chamber is left unilluminated and an uninterrupted bar is represented by the currently illuminated light chambers of the display element, wherein the display element further comprises: a printed circuit board; and a dial plate arranged substantially parallel to the printed circuit board, and each optical waveguide extends from the printed circuit board to the dial plate, each optical waveguide having a lower edge flush with the printed circuit board and an upper edge flush with the dial plate. 14. A method comprising: partitioning a display element into light chambers using a plurality of optical waveguides, each optical waveguide having a light-nontransmissive or only partly light-transmissive side to form a light barrier between a pair of respectively adjacent light chambers; and wherein each optical waveguide is spaced apart from the optical waveguide of a respectively adjacent light chamber, wherein the display element further comprises: a printed circuit board; and a dial plate arranged substantially parallel to the printed circuit board, and each optical waveguide extends from the printed circuit board to the dial plate, each optical waveguide having a lower edge flush with the printed circuit board and an upper edge flush with the dial plate.