초록 ▼

A feeding bottle preparation assembly includes a housing. The housing has a fluid reservoir and a formula reservoir. A platform is movably coupled to the housing. The platform may support a plurality of bottles. A processor is coupled to the housing. An actuator is coupled to the housing and the pro

A feeding bottle preparation assembly includes a housing. The housing has a fluid reservoir and a formula reservoir. A platform is movably coupled to the housing. The platform may support a plurality of bottles. A processor is coupled to the housing. An actuator is coupled to the housing and the processor. The actuator may actuate the processor. A control panel is coupled to the housing and the processor. The control panel may define operational parameters of the processor. A nozzle is coupled to the housing and the processor. The nozzle is in communication with the fluid and formula reservoirs. The nozzle may dispense the fluid and baby formula into the plurality of bottles. A motor is coupled to the housing and the processor. The motor is coupled to the platform. The platform may sequentially position each of the plurality of bottles under the nozzle.

대표청구항 ▼

1. A feeding bottle preparation assembly comprising: a housing structured such that a bottle area is defined in said housing, said housing being further structured such that a fluid reservoir and a formula reservoir are defined in said housing wherein said fluid and formula reservoirs are each confi

1. A feeding bottle preparation assembly comprising: a housing structured such that a bottle area is defined in said housing, said housing being further structured such that a fluid reservoir and a formula reservoir are defined in said housing wherein said fluid and formula reservoirs are each configured to contain an associated one of a fluid and a baby formula, said formula reservoir being one of a pair of formula reservoirs, a first one of said reservoirs being configured for containing a liquid baby formula, a second one of said formula reservoirs being configured for holding a powder baby formula;a refrigeration unit coupled to said housing, said refrigeration unit cooling said first one of said formula reservoirs;a platform movably coupled to said housing such that said platform is configured to support a plurality of bottles in said bottle area;a processor coupled to said housing;an actuator coupled to said housing, said actuator being operationally coupled to said processor such that said actuator is configured to actuate said processor;a control panel coupled to said housing, said control panel being operationally coupled to said processor such that said control panel is configured to define operational parameters of said processor;a nozzle coupled to said housing, said nozzle being operationally coupled to said processor, said nozzle being in communication with said fluid and formula reservoirs such that said nozzle is configured to dispense the fluid and baby formula into the plurality of bottles according to the defined operational parameters of said processor; anda motor coupled to said housing, said motor being operationally coupled to said processor, said motor being coupled to said platform such that said platform is configured to sequentially position each of the plurality of bottles under said nozzle according to the defined operational parameters of said processor. 2. The feeding bottle preparation assembly assembly according to claim 1, further comprising said housing having an outer wall, each of a top side and a bottom side of said outer wall of said housing extending forwardly from a front side of said outer wall of said housing such that said bottle area is defined between said top and bottom sides of said outer wall of said housing. 3. The feeding bottle preparation assembly according to claim 2, further comprising said platform being rotatably coupled to an upper surface of said bottom side of said outer wall of said housing such that said platform is positioned within said bottle area. 4. The feeding bottle preparation assembly according to claim 2, further comprising an uppermost surface of said top side of said outer wall of said housing having said fluid reservoir extending downwardly therein. 5. The feeding bottle preparation assembly according to claim 2, further comprising an uppermost surface of said top side of said outer wall of said housing having said formula reservoir extending downwardly therein. 6. The feeding bottle preparation assembly according to claim 2, further comprising said actuator being coupled to a leading edge of said top side of said outer wall of said housing, said actuator being electrically coupled to said processor. 7. The feeding bottle preparation assembly according to claim 2, further comprising said control panel being coupled to an uppermost surface of said top side of said outer wall of said housing, said control panel being electrically coupled to said processor. 8. The feeding bottle preparation assembly according to claim 2, further comprising said nozzle being coupled to a lower surface of said top side of said outer wall of said housing such that said nozzle is positioned within said bottle area, said nozzle being electrically coupled to said processor, said nozzle being in fluid communication with said fluid and formula reservoirs. 9. The feeding bottle preparation assembly according to claim 1, further comprising said motor being electrically coupled to said processor, said motor being mechanically coupled to said platform. 10. The feeding bottle preparation assembly according to claim 1, further comprising a power supply coupled to said housing. 11. The feeding bottle preparation assembly according to claim 10, further comprising said power supply being electrically coupled to said processor. 12. The feeding bottle preparation assembly according to claim 11, further comprising said power supply comprising a power cord extending outwardly from an outer wall of said housing, said power cord being electrically coupled to a power source. 13. A feeding bottle preparation assembly comprising: a housing having an outer wall, each of a top side and a bottom side of said outer wall of said housing extending forwardly from a front side of said outer wall of said housing such that a bottle area is defined between said top and bottom sides of said outer wall of said housing, said housing being further structured such that a fluid reservoir and a formula reservoir are defined in said housing wherein said fluid and formula reservoirs are each configured to contain an associated one of a fluid and a baby formula;an uppermost surface of said top side of said outer wall of said housing having said fluid reservoir extending downwardly therein such that said fluid reservoir is configured to contain the fluid;said uppermost surface of said top side of said outer wall of said housing having said formula reservoir extending downwardly therein such that said formula reservoir is configured to contain the baby formula;said formula reservoir being one of a pair of formula reservoirs, a first one of said reservoirs being configured for containing a liquid baby formula, a second one of said formula reservoirs being configured for holding a powder baby formula;a refrigeration unit coupled to said housing, said refrigeration unit cooling said first one of said formula reservoirs;a platform movably coupled to said housing such that said platform is configured to support a plurality of bottles in said bottle area;a processor coupled to said housing;an actuator coupled to a leading edge of said top side of said outer wall of said housing, said actuator being electrically coupled to said processor such that said actuator is configured to actuate said processor;a control panel coupled to said uppermost surface of said top side of said outer wall of said housing, said control panel being electrically coupled to said processor such that said control panel is configured to define operational parameters of said processor;a nozzle coupled to a lower surface of said top side of said outer wall of said housing such that said nozzle is positioned within said bottle area, said nozzle being electrically coupled to said processor, said nozzle being in fluid communication with said fluid and formula reservoirs such that said nozzle is configured to dispense the fluid and baby formula into the plurality of bottles according to the defined operational parameters of said processor;a motor coupled to said housing, said motor being electrically coupled to said processor, said motor being mechanically coupled to said platform such that said platform is configured to sequentially position each of the plurality of bottles under said nozzle according to the defined operational parameters of said processor; anda power supply coupled to said housing, said power supply being electrically coupled to said processor, said power supply comprising a power cord extending outwardly from said outer wall of said housing, said power cord being electrically coupled to a power source.