КЛАРК Питер (GB),МАРШАЛЛ Сара (GB),НОРТОН Клайв Р Т (GB)
申请号:
RU2013138565/13
公开号:
RU2013138565A
申请日:
2012.01.19
申请国别(地区):
RU
年份:
2015
代理人:
摘要:
1. An apparatus for producing an edible product, comprising an extrusion die defining a flow path leading to an outlet head for extruding an edible core material to form an extruded body, a plurality of nozzles in the flow path for introducing a flowable edible material into the extruded body to form a plurality of filled capillaries in extruded body, and a control system for selectively connecting at least one nozzle with any one of the at steps e two different sources of edible material or flowable material to selectively connect the at least two different nozzles with at least one source of flowable edible materiala.2. The apparatus of Claim. 1, wherein the control system is capable of independently connecting each nozzle or at least one of the two or more nozzle groups, with any one of at least two different sources of flowable edible materiala.3. The apparatus of Claim. 1, wherein the control system is operable to selectively connect each of the nozzles independently and / or collectively, with any one of the at least two fluid sredy.4 sources. The apparatus of Claim. 1, wherein at least a portion of the nozzles in fluid communication, and the control system is operable to selectively connect the or each group of interconnected fluid nozzle with either one of the at least two fluid sredy.5 sources. An apparatus according to any one of claims. 1-4, wherein the control system comprises an electronic unit upravleniya.6. An apparatus according to any one of claims. 1-4, wherein the control system comprises a valve stem1. Устройство для изготовления съедобного продукта, содержащее экструзионную головку, образующую путь потока, ведущий к выпускному отверстию головки для экструдирования основного съедобного материала для образования экструдированного корпуса, множество сопел внутри пути потока для введения съедобного текучего материала в экструдированный корпус для образования множества заполненных капилляров в экструдированном корпусе, и систему управления для селект
