Feed unit

The invention claimed is: 1. A feed unit, comprising a stationary guide member and a dispensing unit being configured to dispense components into the stationary guide member, the dispensing unit comprising one or more channels to receive a stack components one on top of the other, and wherein each channel has a control gate to control output of components from the channel for onward conveyance through the stationary guide member, the control gate being configured to apply suction/gaseous flow to retain said stack of components in the channel and to individually release components from said stack of components into the stationary guide member. 2. The feed unit of claim 1 , wherein each control gate comprises a first hole, extending into the channel, to which suction/gaseous flow is applied to retain a first component in position within the channel until released. 3. The feed unit of claim 2 , wherein each control gate further comprises a second hole, extending into the channel, to which suction/gaseous flow is applied to retain a second component in the channel until released, wherein the second component is adjacent to the first component. 4. The feed unit of claim 3 , wherein the feed unit is configured to selectively apply suction/gaseous flow to the first hole and the second hole such that said second component is retained in the channel while the first component is released from the channel for onward conveyance through the stationary guide member. 5. The feed unit of claim 1 , wherein the dispensing unit is configured to rotate relative to the stationary guide member. 6. The feed unit of claim 1 , wherein the dispensing unit comprises a plurality of channels disposed around a circumference of the dispensing unit such that components are dispensed from the channels into the stationary guide member. 7. The feed unit of claim 3 , comprising a manifold arranged to apply suction/gaseous flow through each hole, wherein the dispensing unit is configured to rotate relative to the manifold to successively provide suction/gaseous flow to each hole as the dispensing unit rotates. 8. The feed unit of claim 7 , wherein the manifold comprises one or more passages that sequentially align with the first hole and the second hole as the dispensing unit rotates relative to said manifold. 9. The feed unit of claim 1 , wherein each channel further comprises an ejection port to provide gaseous flow to push said first component out of the channel for onward conveyance. 10. A method of feeding components to assembly apparatus, comprising stacking components one on top of another in one or more channels and controlling output of components from the channel into a stationary guide member for onward conveyance through the stationary guide member, wherein controlling output of components from the channel comprising applying suction/gaseous flow to retain components in the channel and to individually release composing from said stack of components into the stationary guide member. 11. A method of assembling an article comprising the method of claim 10 and further comprising combining each component with one or more further components to form an article. 12. An article assembled using the method of claim 11 . 13. The feed unit of claim 1 , wherein the stationary guide member comprises a track arranged to guide said components along a path. 14. The feed unit of claim 13 , wherein the dispensing unit further comprises one or more pushers arranged to push said components along the track after said components have been dispensed into the track. 15. The feed unit of claim 1 , wherein the stationary guide member is arranged to guide said components to a transfer drum arranged to transfer said components to further apparatus.