초록 ▼

A child's automobile activity device is provided which rotatably attaches to an extension rod of the type that hooks on the garment hooks in the rear seat area. Several types of connection members are provided, that adjustably connect an activity screen to the extension rod such that the activity sc

A child's automobile activity device is provided which rotatably attaches to an extension rod of the type that hooks on the garment hooks in the rear seat area. Several types of connection members are provided, that adjustably connect an activity screen to the extension rod such that the activity screen will be optimally positioned for viewing and access by the seated child. The activity screen, in one embodiment, includes a hinged chalkboard front portion that opens to form a horizontal eating or reading surface, as well as, providing access to a storage area behind the chalkboard. The activity screen positions a display of many varied and child oriented shapes, images, numbers, letters, games and the like for the child to view or utilize. Such display can be on the interior surface of the activity screen for access when the front portion is down or on the exposed surface of the front portion when the front portion is opened to its horizontal position. The display can also replace the chalkboard on the front portion exterior surface, providing access to the display when the front portion is in the closed and vertical position. In one embodiment a slide bar is attached to the activity screen, with spinners either slidably threaded onto the bar, or looped for spinning about the bar.

대표청구항 ▼

A child's automobile activity device is provided which rotatably attaches to an extension rod of the type that hooks on the garment hooks in the rear seat area. Several types of connection members are provided, that adjustably connect an activity screen to the extension rod such that the activity sc

A child's automobile activity device is provided which rotatably attaches to an extension rod of the type that hooks on the garment hooks in the rear seat area. Several types of connection members are provided, that adjustably connect an activity screen to the extension rod such that the activity screen will be optimally positioned for viewing and access by the seated child. The activity screen, in one embodiment, includes a hinged chalkboard front portion that opens to form a horizontal eating or reading surface, as well as, providing access to a storage area behind the chalkboard. The activity screen positions a display of many varied and child oriented shapes, images, numbers, letters, games and the like for the child to view or utilize. Such display can be on the interior surface of the activity screen for access when the front portion is down or on the exposed surface of the front portion when the front portion is opened to its horizontal position. The display can also replace the chalkboard on the front portion exterior surface, providing access to the display when the front portion is in the closed and vertical position. In one embodiment a slide bar is attached to the activity screen, with spinners either slidably threaded onto the bar, or looped for spinning about the bar. planar surface, an inner chamber surface on an outer portion of the second housing; the chamber being fitted with abutments which seal and subdivide the chamber between the two housings into sub-chambers; the rotor face having projections which extend axially into the chamber, which do not seal but which are fitted to engage and drive the abutments around the chamber at rotor velocity; the abutments having a shape so as to pivot with respect to the rotor drive projections and to the chamber while always maintaining sealing perpendicular surfaces with walls of the chamber; the second housing having inlet and discharge ports through any chamber surface, inner, outer or planar; such that the inlet and discharge ports do not communicate; the first housing also having two arcuate recessed ports located at the outer periphery of the rotor face, such that the arcuate ports communicate with the second housing ports in order that at no position of the axis shift is fluid trapped inside the sub-chambers of changing volume. 2. The device as in claim 1 as a pump or motor, in which a low pressure port is through the radially inner hub chamber surface and a high pressure port is through the radially outside chamber surface and that the inner surface always communicates with the outside surface within a sub-chamber. 3. The device as in claim 1 as a pump or motor, in which both inlet and discharge ports are through the chamber planar end surface. 4. Device as in claim 1 as a pump or motor in which a low-pressure port is through the planar end surface and a high-pressure port is through the radially outer chamber surface. 5. The device as in claim 1 as a pump or motor in which there are two pumping zones as a pressure balanced double pump, having two low-pressure ports through the chamber inner hub and having two high-pressure ports through the radially outer chamber surface and, where the inner hub surface communicates with the outer chamber's inner surface. 6. The device as in claim 1 as a pump in which the inlet port is through the chamber planar surface; a discharge port through the inner hub surface and also having a second discharge port through the outer chamber surface constituting a pump which can separate matter having differing specific gravity. 7. The device as in claim 1 as a pump or motor, in which the abutments have parallel sealing surfaces with the chamber walls and which pivot relative to the rotor drive projections. 8. The device as in claim 1 as a pump or motor in which the abutments pivot with respect to the chamber inner and outer surfaces. 9. The device as in claim 1 as a pump or motor, in which the abutments are hinged for rotation about the inner hub. 10. The device as in claim 1 as a pump or motor in which the displacement is varied by fluid pressure action against a spring by having one housing joined to a cylinder type cavity and the other housing joined to a piston projection in a sealing sliding manner, and a fluid duct from the pressure side of the pumping chamber. 11. The device as in claim 1 as a pump or motor, in which the two housings are shifted manually for variable displacement. 12. The device as in claim 1 as a pump or motor, in which the inner hub is an idler shaft fixed for rotation in the chamber which has hinged abutments attached to the idler shaft. 13. The device as in claim 1 as a pump or motor, in which the inner hub is the shaft fixed for rotation in the chamber housing and, the shaft also has a planar face with the chamber end wall and, the shaft has pins extending from the planar face across the chamber and, the abutments are attached by flexible diaphragm type material sandwiched between rigid abutment radial surfaces such that the abutments are pivoted at the axial center by the diaphragm material which provides both pivot and sealing of the chamber and, the ports may be provided through either the radially outward chamber surface or the chamber planar end wall surface. 14. A device as in cla im 1 as a variable displacement pump, in which the inlet port is through the inner hub and the discharge port is through the outside chamber surface and where the fluid adjacent to the inner hub surface always communicates with fluid adjacent to the outside surface, providing two distinct pumping actions; one being variable positive displacement and the second being a velocity pumping function dependent on centrifugal force; such that the two pumping disciplines are joined and form a new pumping curve where flow is a function of the variable positive displacement which is a function of the two housing axes offset and of rotational speed; and where the velocity part of the pressure-flow performance curve is proportional to the square of the rpm and where for a given rotational speed, the displacement can be varied to choose a value in order to generate a flow-pressure curve which is hyperbolic in shape and which curve describes a condition where the flow times the pressure is nearly a constant for most of the curve regardless of the head pressure; and to choose a curve which provides nearly constant torque to the drive motor. 15. The device as in claim 1 as a pneumatic pump or motor, in which a low pressure port is near the position of maximum sub-chamber displacement and a high pressure port is near the minimum sub-chamber position allowing a high compression ratio and that the axes of the housings are shifted by pressure such that the torque remains relatively constant. 16. The device as in claim 1 as a pneumatic pump or motor having abutments pivoting from the inner hub and having a low pressure port near the position of maximum sub-chamber volume and a high pressure port being smaller and located near the position of minimum sub-chamber volume, and having abutments such that at the minimum volume position, the minimum volume approaches zero which means the adjacent abutments nearly touch each other at the minimum volume and, the variable displacement feature is activated such that the drive or driven torque remains essentially constant. 17. The device as in claim 1 as a pneumatic pump, in which the rotor is extended across the chamber dividing the chamber, and having pivoted hinged abutments and sealing pivoting slots in the rotor through which the abutments pass, and the chamber having a dished-out portion in which the abutment tips do not seal but the rotor seals against a housing, the seal tolerance regulated by the sliding of the two housings, the rotor housing not being ported for variable displacement, the second housing being ported for maximum intake sub-chamber volume and with a rotary port discharge through the dished-out housing portion, with the rotor having a peripheral recess as a duct into the discharge port. 18. The device as in claim 1 as an engine having hinged abutments and not having an arcuate recess in the first housing, having a combustion means near the position of maximum compression and both inlet and discharge ports. 19. The device as in claim 1 in which the rotor projections extend and divide the chamber and the rotor projections have pivot slots through which hinged abutments pass in a sealing, sliding manner so the abutments divide both the sub-chambers into inner and outer sub-chambers; such that the outer sub-chambers between rotor and outer chamber surface provide a pneumatic pump; while the inner sub-chambers pump a cooling and lubrication fluid; and the outer sub-chambers having inlet and discharge ports; and the inner pumping sub-chambers also having separate inlet and discharge ports. 20. A device as in claim 1, wherein the rotor projections extend, seal and divide the chamber and which has one or more abutments pivoting off the inner hub and in which the chamber has a dished out portion where the rotor seals against the outer dished out portion of the chamber and where the movement of the two housing axes is for tolerance purposes rather that to vary the displacement, and the first hous