What is claimed is:
1. A wrench, comprising:
a shank;
a handle slidably mounted on the shank; and
at least one resistance member mounted between the shank and the handle to provide a resistance to damp movement of the handle.
2. The wrench in accordance with claim 1, wherein the shank has an end provided with a drive head.
3. The wrench in accordance with claim 2, wherein when a force is applied on the handle to rotate the shank about the drive head, the force produces an axial component force which drives the handle to move relative to the shank, so that the resistance member is compressed, and the handle is moved on the shank to a determined position.
4. The wrench in accordance with claim 1, wherein the shank is provided with an indication portion having a plurality of size indication marks to indicate safety parameters of motion of the handle during movement of the handle.
5. The wrench in accordance with claim 1, wherein the shank is formed with an elongated receiving slot to receive the resistance member.
6. The wrench in accordance with claim 5, wherein the shank is provided with an indication portion located adjacent to the receiving slot of the shank.
7. The wrench in accordance with claim 5, wherein the resistance member has a top portion and a bottom portion each protruded outward from the receiving slot of the shank and each locked in the handle.
8. The wrench in accordance with claim 7, wherein the handle is formed with two semi-circular receiving grooves to receive the top portion and the bottom portion of the resistance member respectively.
9. The wrench in accordance with claim 8, wherein each of the receiving grooves of the handle has two closed ends each provided with a resting portion to retain an end of the resistance member.
10. The wrench in accordance with claim 1, wherein the shank has two ends each provided with a protruding stop mark to limit movement of the handle.
11. The wrench in accordance with claim 10, wherein each of the two ends of the shank is formed with a positioning hole for positioning the respective stop mark.
12. The wrench in accordance with claim 1, further comprising a support member mounted in the resistance member and extended through the shank to prevent deformation the resistance member when being compressed, and a locking member mounted on a distal end of the shank to lock the support member.
13. The wrench in accordance with claim 5, wherein the receiving slot of the shank has a length smaller than that of the indication portion, thereby preventing the receiving slot from being exposed outward during movement of the handle.
14. The wrench in accordance with claim 1, wherein the shank is formed with two opposite semi-circular receiving channels, the handle is formed with two opposite semi-circular receiving grooves, and the wrench comprises two resistance members each mounted between a respective one of the two receiving channels of the shank and a respective one of the two receiving grooves of the handle.
15. The wrench in accordance with claim 1, wherein the handle is formed with two opposite semi-circular receiving grooves, the shank is formed with a protruding resting portion extending into the two receiving grooves of the handle, and the wrench comprises two resistance members each mounted in a respective one of the two receiving grooves of the handle and each urged on the resting portion of the shank.
16. The wrench in accordance with claim 1, wherein the handle is formed with two opposite semi-circular receiving grooves, the shank is formed with a protruding resting portion extending into the two receiving grooves of the handle, and the resistance members is mounted in the receiving grooves of the handle and urged on the resting portion of the shank.
17. The wrench in accordance with claim 5, wherein the receiving slot of the shank has two ends each formed with a recessed locking portion, and the wrench further comprises a support member mounted in the resistance member and having two ends each locked in the locking portion of the receiving slot of the shank by a locking member.
18. The wrench in accordance with claim 17, wherein the handle is formed with two opposite semi-circular receiving grooves each having a closed end and an opened end, and the closed end is provided with a resting portion to retain an end of the resistance member.
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 semiconductor integrated circuit having a multi-chip structure, comprising a plurality of stacked semiconductor chips, wherein at least one of the semiconductor chips comprises:
first and second metal layers separately formed inside the semiconductor chip;
a first internal circuit coupled in series between the first and second metal layers inside the semiconductor chip;
a first metal path vertically formed over the second metal layer to a first side of the semiconductor chip;
a first through silicon via formed through the semiconductor chip from a second side of the semiconductor chip to the first metal layer; and
a first bump pad formed over the semiconductor chip to couple a first through silicon via of another semiconductor chip and the first metal path of the semiconductor chip.
2. The semiconductor integrated circuit of claim 1, wherein
the first bump pad is formed at substantially the same column region as first through silicon via.
3. The semiconductor integrated circuit of claim 1, wherein the first internal circuit and the first through silicon via of the semiconductor chip are coupled in series to the first internal circuit and the first trough electrode of another semiconductor chip.
4. The semiconductor integrated circuit of claim 1, wherein the semiconductor chip further comprises:
a third metal layer formed to be separate from the first and second metal layers;
a second internal circuit coupled in parallel to the third metal layer;
a second metal path vertically formed over the third metal layer to the first side of the semiconductor chip;
a second through silicon via formed through the semiconductor chip from the second side of the semiconductor chip up to the third metal layer; and
a second bump pad formed to couple a second through silicon via of another semiconductor chip and the second metal path of the semiconductor chip.
5. The semiconductor integrated circuit of claim 4, wherein the second through silicon via of the semiconductor chip are coupled in series to the second through silicon via of another semiconductor chip.
6. The semiconductor integrated circuit of claim 4, wherein the second bump pad is formed at the same column region as the second through silicon via.
7. The semiconductor integrated circuit of claim 6, wherein the first through silicon via and the first bump pad are symmetrical with the second through silicon via and the second bump pad.
8. The semiconductor integrated circuit of claim 4, wherein each of the first and second metal paths comprises a plurality of metal lines and a plurality of metal contacts arranged between the respective metal lines.
9. The semiconductor integrated circuit of claim 4, wherein each of the first and second metal paths is formed of one via.