A large transfusion filling and corking machine includes a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit. The bottle-in unit, the following and filling unit, the nitrogen-charging and c
A large transfusion filling and corking machine includes a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit. The bottle-in unit, the following and filling unit, the nitrogen-charging and corking unit, and the bottle-out transfer wheel unit are mounted on the frame unit and connected by turns. The nitrogen-charging and corking unit is connected with a cork-delivering unit. A nitrogen-precharging unit is arranged between the bottle-in unit and the following and filling unit, which is connected with the bottle-in unit through a bottle-in transfer wheel unit, and connected with the following and filling unit through a transitional transfer wheel unit.
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1. A large transfusion filling and corking machine, comprising a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit, wherein said bottle-in unit, said following and filling unit, said nitrog
1. A large transfusion filling and corking machine, comprising a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit, wherein said bottle-in unit, said following and filling unit, said nitrogen-charging and corking unit, and said bottle-out transfer wheel unit are orderly supported by said frame unit, wherein said nitrogen-charging and corking unit is operatively linked to a cork-delivering unit, wherein a nitrogen-precharging unit is operatively linked between said bottle-in unit and said following and filling unit, wherein said nitrogen-precharging unit is operatively linked to said bottle-in unit through a bottle-in transfer wheel unit thereof, wherein said nitrogen-precharging unit is operatively linked to said following and filling unit through a transitional transfer wheel unit, wherein said nitrogen-precharging unit comprises a transmitting shaft, wherein said transmitting shaft has a bottom end portion coupling with a transmitting gear and an upper end portion coupling with a bottle supporting panel, wherein a precharging feed-wheel is coupled with said bottle supporting panel, wherein a precharging fencing member is supported adjacent to said precharging feed-wheel, wherein a directional guide shaft is coaxially coupled within said transmitting shaft, wherein a height adjusting shaft is coaxially coupled within said directional guide shaft, wherein a bottom end portion of said directional guide shaft is coupled at an elevation assembly while an upper end portion of said directional guide shaft is coupled at an elevation cam, wherein said elevation cam has a cam groove that a bearing is coupled therewithin via a connection panel, wherein a bottle stopper seat is coupled with said connection panel, wherein a vacuum adapter and a nitrogen gas adapter are provided at said bottle stopper seat, wherein said vacuum adapter and said nitrogen gas adapter are operatively connected to a vacuum distribution box and a nitrogen gas distribution box respectively. 2. The large transfusion filling and corking machine, as recited in claim 1, wherein said vacuum distribution box and said nitrogen gas distribution box are supported by a distribution shaft, wherein a carbon brush is provided at an upper end portion of said distribution shaft, wherein a main vacuum regulator and a main nitrogen gas regulator are coupled at a top end of the distribution shaft to operatively link with said vacuum distribution box and said nitrogen gas distribution box respectively, wherein said vacuum adapter and the nitrogen gas adapter are operatively connected to said vacuum distribution box and said nitrogen gas distribution box through flexible tubes via a vacuum electromagnetic regulator and a nitrogen gas electromagnetic regulator respectively. 3. The large transfusion filling and corking machine, as in claim 2, wherein said following and filling unit comprises a swing arm shaft retained at a base panel, wherein a swing arm is operatively coupled with said swing arm shaft and is operatively coupled with a following cam, wherein a cam shaft is coupled at said following cam, wherein one end of a connection arm is coupled with said swing arm via a swing shaft while another end of said connection arm is coupled with a directional guiding shaft to drive said directional guiding shaft to move at a swinging manner, wherein said directional guiding shaft is supported within a hollow shaft, wherein said hollow shaft has a bottom portion coupling with a gear wheel and an upper portion coupling with a following and filling feed-wheel, wherein a filling frame is coupled at an upper portion of said directional guiding shaft, wherein a filling head and a gas distributing box are coupled at said filling frame, wherein said filling head is operatively linked to said gas distributing box via a flexible tube. 4. The large transfusion filling and corking machine, as recited in claim 3, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 5. The large transfusion filling and corking machine, as in claim 2, wherein said nitrogen-charging and corking unit comprises a transmission shaft, wherein a bottom end portion of said transmission shaft is coupled with a transmission gear, while an upper end portion of said transmission shaft is coupled with a bottle supporting panel, wherein a nitrogen-charging and corking fence is supported and retained adjacent to said nitrogen-charging and corking feeding wheel, wherein a directional shaft is coaxially coupled within said transmission shaft, wherein a height adjustment shaft is coaxially coupled within said directional shaft, wherein a bottom end portion of said height adjustment shaft is coupled with an elevator assembly, while an upper end portion of said height adjustment shaft is coupled with an elevating cam, wherein said elevating cam is coupled with a machinery arm and a sealing sleeve, wherein each of said machinery arm and said sealing sleeve has an elevating cam-groove, wherein a first bearing is coupled with an upper connecting member within said elevating cam-groove of said sealing sleeve, wherein a bottle cap seat is coupled with said upper connecting member, wherein a cam sleeve is rotatably coupled on top of said bottle cap seat, wherein said sealing sleeve is coupled with said cam sleeve via a pressuring sleeve, wherein a vacuum adapter head is coupled with said bottle cap seat to operatively link with a vacuum distributing box, wherein a nitrogen gas adapter head is coupled with said cam sleeve to operatively link with a nitrogen gas distributing box. 6. The large transfusion filling and corking machine, as recited in claim 5, wherein a second bearing is coupled with a lower connecting member within said elevating cam-groove of said machinery arm, wherein said lower connecting member is coupled with an elevation shaft, wherein said machinery arm is operatively coupled at a bottom end portion of said elevation shaft, wherein a vacuum corking adapter head is operatively coupled at an upper end portion of said elevation shaft, wherein said vacuum corking adapter head is operatively linked to a vacuum corking electromagnetic valve via a flexible tube, wherein another outlet of said vacuum corking electromagnetic valve is operatively linked to said vacuum distributing box via another flexible tube. 7. The large transfusion filling and corking machine, as recited in claim 6, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 8. The large transfusion filling and corking machine, as in claim 2, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 9. The large transfusion filling and corking machine, as in claim 1, wherein said following and filling unit comprises a swing arm shaft retained at a base panel, wherein a swing arm is operatively coupled with said swing arm shaft and is operatively coupled with a following cam, wherein a cam shaft is coupled at said following cam, wherein one end of a connection arm is coupled with said swing arm via a swing shaft while another end of said connection arm is coupled with a directional guiding shaft to drive said directional guiding shaft to move at a swinging manner, wherein said directional guiding shaft is supported within a hollow shaft, wherein said hollow shaft has a bottom portion coupling with a gear wheel and an upper portion coupling with a following and filling feed-wheel, wherein a filling frame is coupled at an upper portion of said directional guiding shaft, wherein a filling head and a gas distributing box are coupled at said filling frame, wherein said filling head is operatively linked to said gas distributing box via a flexible tube. 10. The large transfusion filling and corking machine, as recited in claim 9, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 11. The large transfusion filling and corking machine, as in claim 1, wherein said nitrogen-charging and corking unit comprises a transmission shaft, wherein a bottom end portion of said transmission shaft is coupled with a transmission gear, while an upper end portion of said transmission shaft is coupled with a bottle supporting panel, wherein a nitrogen-charging and corking fence is supported and retained adjacent to said nitrogen-charging and corking feeding wheel, wherein a directional shaft is coaxially coupled within said transmission shaft, wherein a height adjustment shaft is coaxially coupled within said directional shaft, wherein a bottom end portion of said height adjustment shaft is coupled with an elevator assembly, while an upper end portion of said height adjustment shaft is coupled with an elevating cam, wherein said elevating cam is coupled with a machinery arm and a sealing sleeve, wherein each of said machinery arm and said sealing sleeve has an elevating cam-groove, wherein a first bearing is coupled with an upper connecting member within said elevating cam-groove of said sealing sleeve, wherein a bottle cap seat is coupled with said upper connecting member, wherein a cam sleeve is rotatably coupled on top of said bottle cap seat, wherein said sealing sleeve is coupled with said cam sleeve via a pressuring sleeve, wherein a vacuum adapter head is coupled with said bottle cap seat to operatively link with a vacuum distributing box, wherein a nitrogen gas adapter head is coupled with said cam sleeve to operatively link with a nitrogen gas distributing box. 12. The large transfusion filling and corking machine, as recited in claim 11, wherein a second bearing is coupled with a lower connecting member within said elevating cam-groove of said machinery arm, wherein said lower connecting member is coupled with an elevation shaft, wherein said machinery arm is operatively coupled at a bottom end portion of said elevation shaft, wherein a vacuum corking adapter head is operatively coupled at an upper end portion of said elevation shaft, wherein said vacuum corking adapter head is operatively linked to a vacuum corking electromagnetic valve via a flexible tube, wherein another outlet of said vacuum corking electromagnetic valve is operatively linked to said vacuum distributing box via another flexible tube. 13. The large transfusion filling and corking machine, as recited in claim 12, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 14. The large transfusion filling and corking machine, as in claim 1, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 15. A large transfusion filling and corking machine, comprising a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit, wherein said bottle-in unit, said following and filling unit, said nitrogen-charging and corking unit, and said bottle-out transfer wheel unit are orderly supported by said frame unit, wherein said nitrogen-charging and corking unit is operatively linked to a cork-delivering unit, wherein a nitrogen-precharging unit is operatively linked between said bottle-in unit and said following and filling unit, wherein said nitrogen-precharging unit is operatively linked to said bottle-in unit through a bottle-in transfer wheel unit thereof, wherein said nitrogen-precharging unit is operatively linked to said following and filling unit through a transitional transfer wheel unit, wherein said following and filling unit comprises a swing arm shaft retained at a base panel, wherein a swing arm is operatively coupled with said swing arm shaft and is operatively coupled with a following cam, wherein a cam shaft is coupled at said following cam, wherein one end of a connection arm is coupled with said swing arm via a, swing shaft while another end of said connection arm is coupled with a directional guiding shaft to drive said directional guiding shaft to move at a swinging manner, wherein said directional guiding shaft is supported within a hollow shaft, wherein said hollow shaft has a bottom portion coupling with a gear wheel and an upper portion coupling with a following and filling feed-wheel, wherein a filling frame is coupled at an upper portion of said directional guiding shaft, wherein a filling head and a gas distributing box are coupled at said filling frame, wherein said filling head is operatively linked to said gas distributing box via a flexible tube. 16. The large transfusion filling and corking machine, as recited in claim 15, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit. 17. A large transfusion filling and corking machine, comprising a frame unit, an electric control unit, a bottle-in unit, a following and filling unit, a nitrogen-charging and corking unit, and a bottle-out transfer wheel unit, wherein said bottle-in unit, said following and filling unit, said nitrogen-charging and corking unit, and said bottle-out transfer wheel unit are orderly supported by said frame unit, wherein said nitrogen-charging and corking unit is operatively linked to a cork-delivering unit, wherein a nitrogen-precharging unit is operatively linked between said bottle-in unit and said following and filling unit, wherein said nitrogen-precharging unit is operatively linked to said bottle-in unit through a bottle-in transfer wheel unit thereof, wherein said nitrogen-precharging unit is operatively linked to said following and filling unit through a transitional transfer wheel unit, wherein said nitrogen-charging and corking unit comprises a transmission shaft, wherein a bottom end portion of said transmission shaft is coupled with a transmission gear, while an upper end portion of said transmission shaft is coupled with a bottle supporting panel, wherein a nitrogen-charging and corking fence is supported and retained adjacent to said nitrogen-charging and corking feeding wheel, wherein a directional shaft is coaxially coupled within said transmission shaft, wherein a height adjustment shaft is coaxially coupled within said directional shaft, wherein a bottom end portion of said height adjustment shaft is coupled with an elevator assembly, while an upper end portion of said height adjustment shaft is coupled with an elevating cam, wherein said elevating cam is coupled with a machinery arm and a sealing sleeve, wherein each of said machinery arm and said sealing sleeve has an elevating cam-groove, wherein a first bearing is coupled with an upper connecting member within said elevating cam-groove of said sealing sleeve, wherein a bottle cap seat is coupled with said upper connecting member, wherein a cam sleeve is rotatably coupled on top of said bottle cap seat, wherein said sealing sleeve is coupled with said cam sleeve via a pressuring sleeve, wherein a vacuum adapter head is coupled with said bottle cap seat to operatively link with a vacuum distributing box, wherein a nitrogen gas adapter head is coupled with said cam sleeve to operatively link with a nitrogen gas distributing box. 18. The large transfusion filling and corking machine, as recited in claim 17, wherein a second bearing is coupled with a lower connecting member within said elevating cam-groove of said machinery arm, wherein said lower connecting member is coupled with an elevation shaft, wherein said machinery arm is operatively coupled at a bottom end portion of said elevation shaft, wherein a vacuum corking adapter head is operatively coupled at an upper end portion of said elevation shaft, wherein said vacuum corking adapter head is operatively linked to a vacuum corking electromagnetic valve via a flexible tube, wherein another outlet of said vacuum corking electromagnetic valve is operatively linked to said vacuum distributing box via another flexible tube. 19. The large transfusion filling and corking machine, as recited in claim 18, wherein said bottle-in unit, which is operatively linked to a bottle transferring unit, comprises a bottle-in gear unit, wherein said bottle transferring unit comprises an endless conveying belt and two fencing elements supported at two sides of said endless conveying belt, wherein an outlet end of said bottle transferring unit is connected to an inlet end of said bottle-in gear unit, wherein said bottle-in gear unit comprises a worm gear having an outer spiral threaded portion and defining a plurality of feeding indentions thereat for orderly guiding outer surfaces of bottles at said feeding indentions in a sequent manner when said worm gear is driven to rotate, wherein an outlet end of said bottle-in transfer gear unit is operatively linked with an inlet end of said bottle-in transfer wheel unit.
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