Method of producing a dispenser, dispenser, and mould therefor

The invention claimed is: 1. A perforated plate for a dispenser for dispensing liquid, wherein: the perforated plate is produced as a plastics part by injection moulding; the perforated plate has a multiplicity of dispensing openings passing therethrough, wherein each of the dispensing openings taper from a first side of the perforated plate to a second side of the perforated plate; the perforated plate has at least 25 dispensing openings, wherein said dispensing openings are arranged such that at least five dispensing openings are provided per mm 2 ; the dispensing openings are bounded by a plurality of side surfaces and the side surfaces of a plurality of dispensing openings are aligned with one another; and the dispensing openings each have between 3 and 6 side surfaces. 2. The perforated plate according to claim 1 , wherein: there is provided for the injection moulding a mould with two mould halves which, together, define a cavity which is filled with plastics material during the injection moulding, with the first mould half having a planar abutment surface directed towards the cavity, and the second mould half having a multiplicity of elevations rising up over a base surface; and in the closed state of the mould, distal contact regions at the distal ends of the elevations abut against the abutment surface, and the distal contact regions therefore keep the dispensing openings free of plastics material when the plastics material is being injected. 3. The perforated plate according to claim 1 , wherein: the dispensing openings have a minimal cross section in each case on an outside of the perforated plate, with a free cross-sectional surface area of the dispensing openings on the outside being between 25 μm 2 and 10 000 μm 2 . 4. The perforated plate according to claim 1 , wherein: said side surfaces are each formed such that all normal vectors to any desired part of the side surfaces are arranged in a common normal-vector plane or parallel to said plane. 5. The perforated plate according to claim 1 , wherein: a first normal-vector plane of one of the side surfaces of a first one of the dispensing openings is arranged parallel to a second normal-vector plane of one of the side surfaces of a second one of the dispensing openings. 6. The perforated plate according to claim 1 , wherein: the number of side surfaces is 4. 7. The perforated plate according to claim 1 , wherein: the side surfaces of the dispensing openings enclose an angle between 7.5 ° and 45° with a surface normal to a base surface of the perforated plate. 8. The perforated plate according to claim 7 , wherein: the side surfaces of the dispensing openings enclose an angle between 15° and 22.5°. 9. The perforated plate according to claim 1 , wherein: the perforated plate has a thickness between 0.1 and 1.5 mm. 10. The perforated plate according to claim 9 , wherein: the thickness is between 0.2 and 0.8 mm. 11. A Nozzle unit for a dispenser for dispensing liquids, wherein: the nozzle unit has the perforated plate according to claim 1 ; and a fastening frame, connected in one piece to the perforated plate, encloses the perforated plate and is for securing on a dispensing head of the dispenser. 12. A dispenser for dispensing liquids, having a liquid store, a nozzle unit and a connecting channel, which connects the liquid store to the nozzle unit, wherein: the nozzle unit has the perforated plate according to claim 1 ; and a fastening frame connected in one piece to the perforated plate, encloses the perforated plate and is for securing on a dispensing head of the dispenser. 13. The dispenser according to claim 12 , wherein: the dispenser: has a manual pumping mechanism, by which liquid is pressure-activated out of the liquid store, wherein the pressure activation pushes the liquid through the dispensing openings of the perforated plate; or has an outlet valve, which is arranged upstream of the perforated plate, and a pressure store, by which liquid in a liquid store of the dispenser is subjected to pressure on a permanent basis, wherein opening of the outlet valve allows the liquid to flow to the perforated plate and the liquid to be dispensed through the perforated plate. 14. A dispenser for dispensing liquids, having a liquid store, a nozzle unit and a connecting channel, which connects the liquid store to the nozzle unit, wherein: the nozzle unit has the perforated plate according to claim 1 . 15. A perforated plate for a dispenser for dispensing liquid, wherein: the perforated plate is a plastics part; the perforated plate has a multiplicity of dispensing openings passing therethrough, wherein each of the dispensing openings taper from a first side of the perforated plate to a second side of the perforated plate; the perforated plate has at least 25 dispensing openings, wherein said dispensing openings are arranged such that at least five dispensing openings are provided per mm2; and each of the dispensing openings are bounded by 3 to 6 side surfaces and the side surfaces of a plurality of the dispensing openings have at least a portion of one of the side surfaces thereof that are parallel with one another. 16. The perforated plate according to claim 15 , wherein: the dispensing openings have a minimal cross section in each case on an outside of the perforated plate, with a free cross-sectional surface area of the dispensing opening on the outside being between 25 μm 2 and 10000 μm 2 . 17. The perforated plate according to claim 15 , wherein: said side surfaces are each formed such that all normal vectors to any desired part of the side surfaces are arranged in a common normal-vector plane or parallel to said plane. 18. The perforated plate according to claim 15 , wherein: a first normal-vector plane of one of the side surfaces of a first one of the dispensing openings is arranged parallel to a second normal-vector plane of one of the side surfaces of a second one of the dispensing openings. 19. The perforated plate according to claim 15 , wherein: the number of side surfaces is 4. 20. The perforated plate according to claim 15 , wherein: the side surfaces of the dispensing openings enclose an angle between 7.5° and 45° with a surface normal to a base surface of the perforated plate.