1. An apparatus for connecting a longitudinal member with a bone portion, comprising:
a fastener having a longitudinal axis and engageable with the bone portion to connect said longitudinal member to the bone portion;
a housing having a first passage configured to receive said longitudinal member and a second passage with a longitudinal axis transverse to said first passage, said fastener extending through an opening in said housing into said second passage, the housing having a first engaging surface extending transverse to the longitudinal axis of the second passage, the first engaging surface positioned such that when the fastener is seated in the housing, the first engaging surface is proximal of a proximal end of the fastener;
a spacer received in said second passage of said housing and engageable with said fastener and said longitudinal member, said spacer having a second engaging surface extending transverse to the longitudinal axis of the second passage; and
a biasing element contacting the first engaging surface of the housing thereby limiting proximal movement of the spacer and fastener, the biasing element contacting the second engaging surface of the spacer thereby limiting distal movement of the spacer and fastener, the biasing element applying a force biasing the spacer towards the fastener, thereby holding said longitudinal axis of said fastener in any one of a plurality of desired angular positions relative to said longitudinal axis of said second passage when said longitudinal member is disengaged from said spacer and said spacer engages said fastener, said fastener and said housing being manually movable relative to each other against said force when said longitudinal member is disengaged from said spacer and said biasing element applies said force.
2. The apparatus of claim 1, wherein said biasing element is an axially compressible member.
3. The apparatus of claim 1, wherein said biasing element is a spring member.
4. The apparatus of claim 1, wherein the housing includes a substantially U-shaped opening sized to accept said longitudinal member, wherein said spacer includes a concave upper surface configured to receive said longitudinal member, said concave upper surface extending into said U-shaped opening.
5. The apparatus of claim 1, wherein said housing includes an internal thread, and said apparatus further includes a threaded compression element engageable with said internal thread.
6. An apparatus for connecting a longitudinal member with a bone portion, comprising:
a fastener having a longitudinal axis and engageable with the bone portion to connect said longitudinal member to the bone portion;
a housing having a first passage configured to receive said longitudinal member and a second passage configured to receive said fastener, said fastener extending through an opening in said housing into said second passage, the housing having a pocket in an inner wall, the pocket having an upper surface, the pocket positioned such that when the fastener is seated in the housing, at least the upper surface of the pocket is proximal of a proximal end of the fastener;
a spacer received in said second passage of said housing and engageable with said fastener and said longitudinal member, said spacer having a pocket with a height extending in a direction along the second passage of the housing; and
a biasing element contacting the upper surface of the housing pocket and the pocket of the spacer, the biasing element having a height extending in the direction of the second passage, the biasing element height being less than the height of the spacer pocket such that the biasing element may move proximally and distally within the spacer pocket, the biasing element applying a force biasing the spacer towards the fastener, thereby holding said longitudinal axis of said fastener in any one of a plurality of desired angular positions relative to a longitudinal axis of said second passage when said longitudinal member is disengaged from said spacer and said spacer engages said fastener, said fastener and said housing being manually movable relative to each other against said force when said longitudinal member is disengaged from said spacer and said biasing element applies said force.
7. The apparatus of claim 6, wherein said biasing element is an axially compressible member.
8. The apparatus of claim 6, wherein said biasing element is a spring member.
9. The apparatus of claim 6, wherein the housing includes a substantially U-shaped opening sized to accept said longitudinal member, wherein said spacer includes a concave upper surface configured to receive said longitudinal member, said concave upper surface extending into said U-shaped opening.
10. The apparatus of claim 6, wherein said housing includes an internal thread, and said apparatus further includes a threaded compression element engageable with said internal thread.
11. The apparatus of claim 6, wherein the biasing element contacting the upper surface of the housing pocket limits proximal movement of the spacer and fastener, and the biasing element contacting a lower surface of the spacer pocket limits distal movement of the spacer and fastener.
12. An apparatus for connecting a longitudinal member with a bone portion, comprising:
a fastener having a longitudinal axis and engageable with the bone portion to connect said longitudinal member to the bone portion;
a housing having a first passage configured to receive said longitudinal member and a second passage configured to receive said fastener, said fastener extending through an opening in said housing into said second passage, the housing having a pocket in an inner wall, the pocket having proximal and distal surfaces and a height measured therebetween, the pocket positioned such that when the fastener is seated in the housing, at least the proximal surface of the pocket is proximal of a proximal end of the fastener;
a spacer received in said second passage of said housing and engageable with said fastener and said longitudinal member, said spacer having a pocket in an outer wall, the pocket having proximal and distal surfaces and a height measured therebetween; and
a biasing element received in the housing and spacer pockets, the biasing element having a height measured in the same direction as the heights of the housing and spacer pockets, wherein the biasing element height is less than the height of the housing pocket and the spacer pocket respectively, wherein the biasing element applies a force biasing the spacer towards the fastener, thereby holding said longitudinal axis of said fastener in any one of a plurality of desired angular positions relative to a longitudinal axis of said second passage when said longitudinal member is disengaged from said spacer and said spacer engages said fastener, said fastener and said housing being manually movable relative to each other against said force when said longitudinal member is disengaged from said spacer and said biasing element applies said force and wherein the biasing element contacts the proximal surface of the housing pocket to prevent proximal movement of the spacer and fastener, and the biasing element contacts the distal surface of the spacer pocket to limit distal movement of the spacer and fastener.
13. The apparatus of claim 12, wherein said biasing element is an axially compressible member.
14. The apparatus of claim 12, wherein said biasing element is a spring member.
15. The apparatus of claim 12, wherein the housing includes a substantially U-shaped opening sized to accept said longitudinal member, wherein said spacer includes a concave upper surface configured to receive said longitudinal member, said concave upper surface extending into said U-shaped opening.
16. The apparatus of claim 12, wherein said housing includes an internal thread, and said apparatus further includes a threaded compression element engageable with said internal thread.
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 method for manufacturing an electronic component module, comprising:
batch-sealing, with a resin, a collective substrate including a plurality of electronic component modules including a plurality of components;
forming a cut section from a top surface of the sealed resin to a position that reaches a grounding electrode arranged in the collective substrate at a boundary section of the plurality of electronic component modules so as to expose the grounding electrode; and
applying a conductive paste on side surfaces and a top surface of the plurality of electronic component modules, and then cutting the electronic component modules along the cut section; wherein
a conductive thin film is formed by spin coating after applying the conductive paste.
2. The method for manufacturing an electronic component module according to claim 1, wherein a cross-sectional shape in a direction substantially perpendicular to the cut section at a bottom of the cut section is a curved shape or a shape having a predetermined slope.
3. The method for manufacturing an electronic component module according to claim 1, wherein the grounding electrode of the collective substrate exposed in the step of forming a cut is formed on each of four side surfaces of the electronic component module.