What is claimed is:
1. A seat fitting structure for a vehicle comprising:
a storage portion;
an openable seat for closing an opening of said storage portion;
a plurality of seat hooks attached to a lower surface of said openable seat;
a first lock mechanism including a locking member provided on the vehicle;
at least one second lock mechanism including a locking member provided on the vehicle, said first lock mechanism and at least one second lock mechanism is engagable with said seat hooks so that said openable seat can be locked; and
said locking member of said first lock mechanism is connected to said locking member of said at least one second lock mechanism through a connecting member, so that when said first lock mechanism is locked by an external force, said at least one second lock mechanism is locked in conjunction with said first lock mechanism.
2. The seat fitting structure according to claim 1, wherein said connecting member is a wire.
3. The seat fitting structure according to claim 2, wherein said connecting member further comprises a rod, chain, rope, string or a belt-like member.
4. The seat fitting structure according to claim 2, wherein said connecting member further comprises:
a first wire; and
a second wire.
5. The seat fitting structure according to claim 1, wherein said locking member of said first and second lock mechanism further comprises:
an upper claw; and
a lower claw.
6. The seat fitting structure according to claim 1, wherein said locking member of said first and second lock mechanism further comprises a connecting member fixture portion.
7. The seat fitting structure according to claim 6, wherein said first connecting member fixture portion is connected to said second connecting member fixture portion by said connecting member wherein when said first connecting member fixture portion exerts a force, said second connecting member fixture portion exerts a complimentary force.
8. The seat fitting structure according to claim 1, wherein said first and second locking mechanism is connected with a relay member which retains a pulled condition, so that rotation of said locking member is restricted through said relay member.
9. The seat fitting structure according to claim 1, wherein said first lock mechanism further comprises:
a housing for providing a U-shaped groove;
a relay member rotatably fitted to said housing through a pin member for holding said locking member in a locking position; and
a tension coil spring disposed between said locking member and said relay member so as to pull said locking member to an unlocking position and pull said relay member in a counterclockwise rotational direction.
10. The seat fitting structure according to claim 9, wherein said second lock mechanism further comprises:
a housing for providing a U-shaped groove;
a relay member rotatably fitted to said housing through a pin member for rotating said locking member; and
a tension coil spring disposed between said locking member and said relay member for pulling said locking member to an unlocking position and pulling said relay member in a clockwise rotational direction.
11. The seat fitting structure according to claim 1, wherein the connecting member further comprises a first wire, said first wire disengages said first lock mechanism in order to provide an unlocked condition.
12. The seat fitting structure according to claim 1, wherein said plurality of seat hooks further comprises a U-shaped fixture.
13. The seat fitting structure according to claim 1, wherein said plurality of seat hooks further comprises:
a first U-shaped fixture; and
a second U-shaped fixture, whereby said first and second U-shaped fixture are perpendicular to each other.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A processor comprising:
a first core;
a second core;
the first core and the second core each comprising an instruction fetch unit, an instruction decoder, a level 1 (L1) cache, and execution units;
the first core and the second core to concurrently operate at different performance levels defined, at least in part, by different operating frequencies and voltages set for each of the first and second cores;
each of the first core and the second core to further operate in one of a plurality of idle states in which the first and second cores do not actively execute instructions; and
power management logic to permit the first core to run at a first performance level based on the second core operating at a second performance level which is lower than the first performance level or enter an idle state,
the power management logic to set the first and second performance levels in accordance with specified thermal constraints.
2. The processor of claim 1, wherein a maximum allowable operating frequency and voltage are based on a power budget.
3. The processor of claim 2, wherein the power budget is based on the specified thermal constraints.
4. The processor of claim 1, wherein an idle state of the first core is different than an idle state of the second core.
5. The processor of claim 1, wherein an idle state of the first core is independent of an idle state of the second core.