Injection mould for sawing cord, method to produce sawing cord and the sawing cord resulting therefrom

The invention claimed is: 1. A mould for coating a sawing cord with a polymer by injection moulding comprising a first half-mould and a second half-mould, said first half-mould and said second half-mould forming an elongated injection cavity when united, said injection cavity having a central axis, said first half-mould and said second half-mould being provided with injection channels for injecting polymer into said injection cavity, said injection channels being situated at opposite sides of said central axis, wherein said injection cavity further comprises bead recesses configured to receive sawing beads during injection moulding, each of said bead recesses, including a first bead recess and a last bead recess of said bead recesses, having injection channels at both axial ends thereof. 2. The mould of claim 1 , wherein said injection channels are situated in a plane comprising said central axis. 3. The mould of claim 2 , wherein a number of injection channels at either of said opposite sides of said central axis is equal. 4. The mould of claim 3 , wherein said injection channels are situated diametrically opposite to one another. 5. The mould according to claim 1 , wherein said injection channels are fed by at least one feed channel through branch channels, said feed channel, branch channels and injection channels comprising a tree structure, said at least one feed channel and part of said branch channels are heatable channels, and remaining branch channels and said injection channels being non-heatable channels, a volume of said heatable channels is less than four times a volume of said non-heatable channels, and said volume of heatable channels is more than 1.5 times said volume of said non-heatable channels. 6. The mould according to claim 5 , wherein said tree structure is a binary tree structure. 7. The mould according to claim 6 , wherein said binary tree structure is a balanced binary tree structure. 8. The mould according to claim 1 , wherein said first half-mould and said second half-mould have a first face and a second face, respectively, said first face and said second face facing one another when united, and said first face or said second face has channels embossed therein such that one or more of said injection channels form when said mould is united. 9. The mould according to claim 8 , wherein said first face and said second face have semi-channels embossed therein such that one or more of said infection channels are formed by said semi-channels when said mould is united. 10. The mould of claim 5 , wherein said injection channels and all or part of said branch channels form when said mould is closed. 11. The mould according to claim 1 , wherein said infection cavity and one or more of said injection channels are formed by one or more mould inserts, said mould inserts being insertable in said first half-mould or said second half-mould. 12. A process to coat a sawing cord by injection moulding using the mould according to claim 1 , said process comprising the steps of: providing a steel cord with sawing beads connected thereon; opening said mould; heating said steel cord; positioning said steel cord and said sawing beads along said central axis; tensioning said steel cord; enclosing said steel cord and sawing beads in said injection cavity of said mould by closure of said mould; injecting polymer into said injection cavity from opposite sides toward said central axis; and opening said mould, wherein each of said beads, including said first bead recess and said last bead recess, is injected with polymer from both axial ends thereof. 13. The mould according to claim 8 , wherein said opposite sides define a first side and a second side opposite to said first side, and said first face and said second face having channels embossed therein such that at said first side, said channels are formed by a flat face of said first half-mould and said channels embossed in said second half-mould, and at said second side, said channels are formed by said flat face of said second half-mould and said channels embossed in said first half-mould. 14. The mould of claim 1 , wherein said injection channels form when said mould is closed. 15. The mould according to claim 1 , wherein said injection cavity is formed by one or more mould inserts, said mould inserts being insertable in said first half-mould or said second half-mould. 16. A process to coat a sawing cord by injection moulding using the mould according to claim 1 , said process comprising the steps of: providing a steel cord with sawing beads connected thereon; opening said mould; positioning said steel cord and said sawing beads along said central axis; enclosing said steel cord and sawing beads in said injection cavity of said mould by closure of said mould; injecting polymer into said injection cavity from opposite sides toward said central axis; and opening said mould, wherein each of said beads, including said first bead recess and said last bead recess, is injected with polymer from both axial ends thereof. 17. The mould according to claim 1 , wherein said injection channels are fed by at least one feed channel through branch channels, said feed channel, branch channels and injection channels comprising a tree structure, and said at least one feed channel and part of said branch channels are heatable channels, and remaining branch channels and said injection channels being non-heatable channels.