초록 ▼

Baby formula preparation and multiple dispensing apparatus includes a base housing having side and bottom walls, and also having an open top, and further having container assembly support members disposed therein; and also includes a container assembly including a container, and also including a hoo

Baby formula preparation and multiple dispensing apparatus includes a base housing having side and bottom walls, and also having an open top, and further having container assembly support members disposed therein; and also includes a container assembly including a container, and also including a hood being securely and conventionally attached about the container, and further including a bottle support member being securely and conventionally attached to the container, and also including bottle retaining members being securely and conventionally attached to the bottle support member; and further includes a cover being removably disposed over the open top of the container; and also includes a light-emitting assembly being securely fastened attached to the container assembly; and further includes a baby formula preparation and dispensing assembly for preparing baby formula and for dispensing the baby formula to bottles.

대표청구항 ▼

Baby formula preparation and multiple dispensing apparatus includes a base housing having side and bottom walls, and also having an open top, and further having container assembly support members disposed therein; and also includes a container assembly including a container, and also including a hoo

Baby formula preparation and multiple dispensing apparatus includes a base housing having side and bottom walls, and also having an open top, and further having container assembly support members disposed therein; and also includes a container assembly including a container, and also including a hood being securely and conventionally attached about the container, and further including a bottle support member being securely and conventionally attached to the container, and also including bottle retaining members being securely and conventionally attached to the bottle support member; and further includes a cover being removably disposed over the open top of the container; and also includes a light-emitting assembly being securely fastened attached to the container assembly; and further includes a baby formula preparation and dispensing assembly for preparing baby formula and for dispensing the baby formula to bottles. least a part of its front side, which lies opposite the rear side, to the pressure prevailing in the vacuum chamber, wherein the pressure difference then acting on the displaceable valve member to hold it in the position which is reached until pressure equalization between the front side and the rear side of the displaceable valve member takes place, and that a component which is coupled to the input member in the direction opposite to the actuating direction of the brake booster acts on the first valve sealing member and lifts it off the second valve seat after a prefixed displacement of the input member opposite to the actuating direction. 2. The vacuum brake booster according to claim 1, wherein the component which is coupled to the input member in the direction opposite to the actuating direction of the brake booster is a fifth valve seat connected to a transmission piston. 3. The vacuum brake booster according to claim 2, wherein the fifth valve seat is disposed concentrically with the first valve seat and the second valve seat. 4. The vacuum brake booster according to claim 1, wherein the displaceable valve member is resiliently preloaded opposite to the actuating direction of the brake booster. 5. The vacuum brake booster according to claim 1, wherein a third valve seat is formed at the displaceable valve member, which seat co-operates with a second valve sealing member which in turn co-operates with a fourth valve seat establishing a connection between the working chamber and the vacuum chamber in the open state, and that after the valve member has exceeded the prefixed displacement relative to the control valve housing, the third valve seat is closed and the fourth valve seat is open. 6. The vacuum brake booster according to claim 5, wherein an annular cavity is defined between the third valve seat and the fourth valve seat, the front end boundary of which cavity is constituted by one side by the displaceable valve member, and that the annular cavity is connected to the vacuum chamber when the third valve seat is closed and the fourth valve seat open and to the working chamber when the third valve seat is open and the fourth valve seat closed. 7. The vacuum brake booster according to claim 5, wherein the second valve sealing member is resiliently preloaded opposite to the actuating direction of the brake booster and can be axially displaced against this spring preload. 8. The vacuum brake booster according to claim 1, wherein the displaceable valve member is substantially sleeve-shaped, wherein the first valve seat is formed at the end of the valve member which is turned towards the input member and the third valve seat is formed at the opposite end of the valve member. 9. The vacuum brake booster according to claim 1, wherein the input member is resiliently preloaded opposite to the actuating direction. the skiving head; at least three skiving blades being arranged floating and radially movable in the skiving head in relation to the skiving head by said common body, said skiving blades being positioned on a substantially same plane. 2. A skiving head according to claim 1, wherein the skiving head has a central axis and wherein said at least three skiving blades are arranged at similar angular distances to one another in the direction of the central axis of the skiving head. 3. A skiving head according to claim 1, wherein the skiving head has a central axis and each skiving blade has at least one cutting edge, wherein at least three cutting edges of said at least three skiving blades are arranged rotationally symmetric to the central axis of the skiving head. 4. A skiving head according to claim 1, wherein said common body is formed in a substantially conical shape and wherein said common body is mounted floating in the skiving head with at least two degrees of freedom. 5. A skiving head according to claim 4, further comprising a device for the changeable determination of a first relative position of said common body relative to the skiving blades. 6. A skiving head according to claim 5, further comprising a first spring media for preliminary tensioning of said common body into the first relative position. 7. A skiving head according to claim 6, wherein said common body is movable against said spring media having preliminary tension via an external force into a second relative position. 8. A skiving head according to claim 6, further comprising a second spring media for preliminary tensioning of each skiving blade against said common body. 9. A skiving head according to claim 8, wherein said second spring media is arranged so that its direction of effect does not run through a center of the skiving head. 10. A skiving head according to claim 1, further comprising guides for guiding said at least three skiving blades, said guides having a ratio of length to breadth greater than 1.5. 11. The skiving head as in claim 1, wherein said common body is substantially pyramid shaped. 12. A process for the skiving out of a body in a form of a cylinder, comprising: introducing a skiving head into the body to be peeled out, said skiving head having a central axis and at least three skiving blades being positioned floating in and along a common body having a tapered profile along its entire length and extending out on a substantially same plane and being capable of movement radially to the central axis of the skiving head based on a corresponding axial movement of said common body. 13. A process according to claim 12, wherein each skiving blade features at least one cutting edge, and wherein a radial distance between a set of cutting edges to the central axis of the skiving head is adjusted via said common body which is a conical or pyramidal body arranged movable in the skiving head. 14. A process according to claim 13, further comprising the step of subjecting the skiving blades to preliminary tension against said common body. 15. The process according to claim 13, wherein said common body is subjected to preliminary tension in a first operating position relative to the skiving blades. 16. A process according to claim 15, further comprising the step of pressing said common body into a second relative position to displace the skiving head in a peeled-out out body without machining the body by imposing an external force against the preliminary tension, in which position the radial distance between the cutting edges and the central axis of the skiving head is smaller than in an operating position. 17. A skiving head for skiving out cylinders and cylinder tubes comprising: a common body having a substantially conical shape and which is movably disposed in said skiving head; and at least three skiving blades being arranged floating and radially movable in the skiving head in relation to the skiving head by said common body, said s kiving blades being positioned on a substantially same plane wherein said at least three skiving blade are in contact with said common body so that a movement by said common body in an axial direction causes a corresponding movement of said at least three skiving blades in a radial direction. 18. A skiving head for skiving out cylinders and cylinder tubes comprising: a common body having a substantially pyramidal shape and which is movably disposed in said skiving head; and at least three skiving blades being arranged floating and radially movable in the skiving head in relation to the skiving head by said common body, said skiving blades being positioned on a substantially same plane wherein said at least three skiving blade are in contact with said common body so that a movement by said common body in an axial direction causes a corresponding movement of said at least three skiving blades in a radial direction.