Instant tube heater with homogenous temperature control

The invention claimed is: 1. An instant tube heater for heating liquid comprising: a hollow heating tube comprising a tubular flow passage extending along a central axis for heating the liquid as the liquid flows through the hollow heating tube, an inlet connector sealingly connected to an inlet end of the hollow heating tube, an outlet connector sealingly connected to an outlet end of the hollow heating tube, a temperature sensor connected to the outlet connector configured to sense the temperature of the liquid leaving the hollow heating tube, wherein an inlet flow deviating member is positioned locally at the inlet end of the hollow heating tube and is configured for forcing the flow of the liquid entering the tubular flow passage of the hollow heating tube in at least one direction away from the direction of the central axis of the tubular flow passage, the inlet flow deviating member comprises an entry surface positioned for the liquid from the inlet connector to enter the inlet flow deviating member, the entry surface extends inward from sidewalls of the inlet flow deviating member towards the central axis of the hollow heating tube, and the inlet flow deviating member further comprises an exit surface at an opposite end of the inlet flow deviating member from the entry surface, the exit surface positioned for the liquid to enter the tubular flow passage from the inlet flow deviating member, the inlet flow deviating member comprising entry hole areas, the entry hole areas extending from inlet holes distributed on the entry surface along a first circle of a first diameter to exit holes distributed on the exit surface along a second circle of a second diameter larger than the first diameter, at least one of the entry surface or the exit surface is perpendicular to the sidewalls; the instant tube heater further comprises: (i) a mixing member between the hollow heating tube and the temperature sensor, wherein the mixing member comprises an outlet flow perturbing member positioned at the outlet end of the hollow heating tube, (ii) a mixing chamber positioned between the outlet flow perturbing member and the outlet connector, and (iii) the temperature sensor, which is positioned to extend at least partially inside the mixing chamber. 2. The instant tube heater according to claim 1 , wherein the inlet flow deviating member comprises a wall which extends transversally relative to the central axis of the hollow heating tube and which comprises a plurality of inlet flow through-openings. 3. The instant tube heater according to claim 2 , wherein the plurality of inlet flow through-openings are directed in a plurality of different directions diverging from the direction of the central axis towards an inner surface of the hollow heating tube and/or converging with the central axis. 4. The instant tube heater according to claim 2 , wherein most of the plurality of inlet flow through-openings are off-centered and further oriented in directions which are inclined relative to the central axis which is axially extending, and relative to radial planes of the hollow heating tube. 5. The instant tube heater according to claim 2 , wherein the number of the plurality of inlet flow through-openings is between 3 and 10. 6. The instant tube heater according to claim 1 wherein the outlet flow perturbing member comprises a wall which extends transversally relative to the central axis of the hollow heating tube and which comprises a plurality of outlet flow through- openings. 7. The instant tube heater according to claim 6 , wherein most of the plurality of outlet flow through-openings are directed in a plurality of different directions converging with the temperature sensor and/or with a centre of the mixing chamber. 8. The instant tube heater according to claim 1 , wherein the outlet flow perturbing member is comprised of a solid heat resistant plastic. 9. The instant tube heater according to claim 1 , wherein the outlet flow perturbing member extends transversally, relative to the direction of the central axis of the hollow heating tube. 10. The instant tube heater according to claim 1 , wherein the mixing member comprises a rotating blade. 11. The instant tube heater according to claim 1 , wherein the outlet flow perturbing member is a relatively flat disc-shaped insert. 12. The instant tube heater according to claim 1 , wherein the temperature sensor is an NTC probe. 13. The instant tube heater according to claim 1 , wherein the hollow heating tube is selected amongst: a glass tube coated with material(s) having resistance heating properties such as an electro-thermal film, or a thick film. 14. The instant tube heater according to claim 1 , wherein the instant tube heater comprises an outer casing connected respectively to the inlet and outlet connectors and separated from the hollow heating tube by an annular gap. 15. The instant tube heater according to claim 1 , wherein the outlet flow perturbing member extends conically relative to the direction of the central axis of the hollow heating tube. 16. The instant tube heater according to claim 1 , wherein the length of the inlet flow deviating member. is less than 5% of a total axial length of the tubular flow passage. 17. A beverage preparation machine comprising: an ambient liquid supply line comprising a liquid supply pump connected to a reservoir of liquid; a heated liquid supply line connected to a beverage preparation chamber; and an instant tube heater for heating flowing liquid comprising a hollow heating tube comprising a tubular flow passage extending along a central axis for heating the liquid as the liquid flows through the hollow heating tube, an inlet connector sealingly connected to the ambient liquid supply line and an inlet end of the hollow heating tube, an outlet connector sealingly connected to the heated liquid supply line and an outlet end of the hollow heating tube, a temperature sensor connected to the outlet connector configured to sense the temperature of the liquid leaving the hollow heating tube, wherein an inlet flow deviating member is positioned locally at the inlet end of the hollow heating tube and is configured for forcing the flow of the liquid entering the tubular flow passage of the hollow heating tube in at least one direction away from the direction of the central axis of the tubular flow passage the inlet flow deviating member comprises an entry surface positioned for the liquid from the inlet connector to enter the inlet flow deviating member, the entry surface extends inward from sidewalls of the inlet flow deviating member towards the central axis of the hollow heating tube, and the inlet flow deviating member further comprises an exit surface at an opposite end of the inlet flow deviating member from the entry surface, the exit surface positioned for the liquid to enter the tubular flow passage from the inlet flow deviating member, the inlet flow deviating member comprising entry hole areas, the entry hole areas extending from inlet holes distributed on the entry surface along a first circle of a first diameter to exit holes distributed on the exit surface along a second circle of a second diameter larger than the first diameter, at least one of the entry surface or the exit surface is perpendicular to the sidewalls; the instant tube heater further comprises: (i) a mixing member between the hollow heating tube and the temperature sensor, wherein the mixing member comprises an outlet flow perturbing member positioned at the outlet end of the hollow heating tube, (ii) a mixing chamber positioned b