JP2001525979A - Shroud holding wafer - Google Patents

Abstract

(57) [Summary] An insulating shroud holding wafer having a flat base member. Furthermore, there are provided first, second, third and fourth cylindrical members each having an axial pin receiving hole and an axial center line extending through the pin receiving hole. The cylindrical members extend from a first side of the flat base member such that the cylindrical members extend such that a first longitudinal centerline extends through an axial centerline of the first and second cylindrical members. Be placed. The second longitudinal centerline is parallel spaced apart from the first longitudinal centerline and extends through the axial centerlines of the third and fourth cylindrical members. The first lateral centerline extends through the centerlines of the first and third cylindrical members. The second lateral centerline extends through the centerlines of the second and fourth cylindrical members. The protrusion is at least partially disposed on the periphery of the first cylindrical member at a position between the first longitudinal center line and the first lateral center line. The wafer can be mounted on the header before it is shipped to the user, thus reducing the user's time and effort during this manufacturing operation.

Description

DETAILED DESCRIPTION OF THE INVENTION Shroud holding wafer Background of the Invention 1. FIELD OF THE INVENTION The present invention relates to electrical connectors, and more particularly to securing pins to electrical connectors. Related to the arrangement. 2. Brief description of the prior art   A typical conventional shroud is formed to interfere with a counterpart pin. In the installation process, the shroud is placed at the tip of the pin and a suitable toe Alternatively, the pin is pressed down toward the rear side of the back panel by pressing.   The difficulty in such a process is that the shroud is properly aligned with the pins Is to know if. In other words, is it guessed that it is shifted from 1 position Is to know. Another disadvantage is holding the shroud on the tip of the pin During this time, place the tool inside it, and place it in the press It is to be. Furthermore, when pressure is applied to the shroud, a load is applied to the elongated strut. It is known that the pins tend to bend because of their action.   As described in European Patent Application No. 578 487 A, there is a shroud. Or lock plate between housing and circuit board or back panel It is known to provide a structure, also known as a holding wafer. arm The parts fit into passages provided in the base of the housing, and these passages A cam surface is provided for pressing the lip arm to contact the pin. This European patent A disadvantage of the device described in application 578 487 A is that the interacting protrusions and And gripping surfaces, where the cam surfaces should move over a relatively long distance from each other Or a cylindrical member is required. Summary of the Invention   It is an object of the present invention to provide a shroud that is easier to install than a typical shroud. To provide a wafer holding wafer.   Another object of the present invention is to provide a pin with less damage than a typical shroud. And to provide a shroud-retaining wafer.   Yet another object of the present invention is to provide a shroud that holds better than a typical shroud. It is to provide a loud holding wafer.   The insulating shroud holding wafer of the present invention comprises a flat base having first and second sides. A member. Furthermore, each extends in an axial pin receiving hole and this pin receiving hole First, second, third, and fourth cylindrical members having an axial centerline are provided. this These cylindrical members extend from a first side of the flat base member, and Has a first longitudinal centerline extending through an axial centerline of the first and second cylindrical members Are positioned in an arrangement. The second longitudinal centerline is the first Separate in parallel to the longitudinal center line and align the axial center lines of the third and fourth cylindrical members. Extend through. A first lateral centerline extends through the centerlines of the first and third cylindrical members. You. A second lateral centerline extends through the centerlines of the second and fourth cylindrical members. Protrusion Has at least a portion disposed between the first longitudinal centerline and the first lateral centerline. , Arranged on the periphery of the first cylindrical member. BRIEF DESCRIPTION OF THE FIGURES   The present invention will be further described with reference to the accompanying drawings. here,   FIG. 1 is a plan view of a preferred embodiment of the shroud holding wafer of the present invention,   FIG. 2 is a side elevation view of the shroud holding wafer shown in FIG. 1;   FIG. 3 is a front elevation view of the shroud holding wafer shown in FIG. 1,   FIG. 4 is a rear view along the line 4-4 in FIG. 1,   FIG. 5 is an enlarged view of a circle 5 shown in FIG.   FIG. 6 is an enlarged view of a region 6 shown in FIG.   FIG. 7 is an enlarged view of the area 7 shown in FIG. Detailed Description of the Preferred Embodiment   The shroud-holding wafer of the present invention was published on October 10, 1996. Reference numerals 57 and 56 are respectively shown in International Publication WO96 / 31922 of the international application. An improved insulating plate having an integral insulating sleeve is provided. The contents of this patent application are incorporated herein by reference. .   The wafer has a thin molded base with a cylindrical member on top Have been. In the illustrated embodiment, thirty cylindrical members are shown, however, Other numbers of these cylindrical members may be used depending on various circumstances. is there. The central coring of the 20 central cores is an odd shaped hole.  hole) and two additional material sections on both sides of the tower. Both sides of the wafer The five outer cores located at the edges are not relevant to the function of the wafer. Core is pin When it does not act to keep the preferable. When pressure acts on the opposing region of the additional material portion (hereinafter referred to as a protrusion), The cylindrical member begins to collapse. This is because the part of the cylindrical part 90 degrees from the projection is , Approximately 8 mils (approximately 0.20 mm).   This wafer is used together with a die-cast housing. The jing is provided with corresponding grid-like holes similar to the wafer. Real In such a case, the wafer is manually placed on the bottom of the casting and pressed to a predetermined depth. Pressed. Thereafter, the member thus formed is provided to the user as a shroud. Supplied and placed by hand behind the back panel. Shroud on the back panel It is located above the pins that protrude from the rear, and this base is used until the wafer contacts the substrate. It is pushed down on a board. At this time, the casting member does not contact the back panel. One The tool is placed inside the casting, the back panel is supported and the casting is completely On the wafer. The wafer is pressed against the back panel and the casting Cannot be moved because it is pressed on it. Now the bump or The ridge is pressed towards the center of the core, pressing the plastic core itself against the pin I do. With this operation, the shroud is firmly fixed to the back panel.   Referring to the figures, the insulating shroud holding wafer of the present invention includes a flat base 10. The base has a first upper part 12 and a second lower part 14. From top to bottom A first row of cylindrical members, generally designated 16, is arranged towards Materials 18, 20, 22, 24, 26 are arranged. In addition, the side of the opposed cylindrical member The directional rows are also formed from members 30, 32, 34, 36, 38. Next to these Between the direction rows, there are provided four intermediate rows, generally designated by reference numerals 40, 42, 44, 46. Have been. The rows of cylindrical members are generally designated by reference numerals 48, 50, 52, 54, 56. Are formed in a number of horizontal rows. Each of the intermediate rows is, for example, It has a center line as shown by the center line 58 and the center line 60 of the middle row 42. Likewise , Each of the horizontal rows also includes, for example, the center line 62 of the horizontal row 48 and the horizontal row 50. Center line 64 as shown in FIG. The intermediate row is, for example, the first of the intermediate rows 40. The cylinder 66 and the second cylinder 68, and the third cylinder 70 and It has a fourth cylinder 72 in the middle row 42. Each of the cylindrical members in the middle row For example, the first axial centerline 74 of the cylindrical member 66, the second axial direction of the second cylindrical member 68 Center line 76, the third center line 78 of the third cylindrical member 70, and the third center line 78 of the fourth cylindrical member 74. It has a four-axis centerline 80. Each cylindrical member in a lateral row such as cylindrical member 30 The member has a peripheral base 82, a central body 84, and a central pin receiving hole 86. this These horizontal row pin receiving holes can insulate the pins, but do not provide grip. I don't know. For example, each of the cylindrical members in the intermediate row such as the cylindrical member 66 has a peripheral base portion. 88 and a central body 90. Its central pin path through which the first axial centerline 74 passes. The cavity has an elongated slot 92 and side recesses 94, 96 which are paired. Extending from the elongated slot 92 at an intermediate position in the opposite direction. Side recess 94 , 96 are triangular in shape and are intended to accommodate pins of square cross section. These concave The semicircular shape of the part is used for a round pin. Each cylindrical member in the middle row Also has a pair of opposed projections 98,100. Each of these projections It has centerlines 102 and 104. These projections 102 and 104 are located in the pin receiving holes. Radially aligned with the opposing side recesses 94, 96. In the protrusion The core wires 102 and 104 are also connected to the first longitudinal center line 58 and the first lateral center line 62. Has moved by 45 degrees. The projections 98 and 100 are respectively provided on the cylindrical member 6. 6 has vertical wall portions 106 and 108 overlapping the outer peripheral portion. These walls are cylindrical Cover the periphery of material 66 over approximately 90 degrees. These walls have an arc-shaped upper part 110, 112, whose tops curve inward toward the cylindrical member to form a cam surface I do. The wall further has upper edges 114, 116, each of which is its own. From the center line toward the base and sideward and downward. All circles in the middle row Tubular part The material is the same as the cylindrical member 66, and the projections in these rows are likewise attached to this cylindrical member. Are located and have the same relative position to the longitudinal and lateral center lines respectively You.   The shroud holding wafer described above can be fixed to the header before shipping, Time and effort when placing the header on the back panel or circuit board Can be saved considerably. In addition, the positioning and protrusion described above on the cylindrical member Ki-Max maximizes the number of available cylindrical members and efficiently uses space on the wafer can do.   Although the present invention has been described in relation to the preferred embodiments illustrated in the various figures, Other similar embodiments may perform the same functions as the present invention without departing from the present invention. It is clear that the embodiments described above can be modified or added to the embodiments described above. It is. Therefore, the present invention should not be limited to any single embodiment. Rather than according to the breadth and scope of the claims It is.

Claims (1)

[Claims] 1. (A) a flat base member having first and second side portions;   (B) first, second, third and fourth cylindrical portions extending from the first side of the flat base member; Each cylindrical member penetrates the axial pin receiving hole and this pin receiving hole The cylindrical member has a first longitudinal center line having a first and a second center line. 2 penetrates the axial center line of the cylindrical member, and the second longitudinal center line Pass through the axial center lines of the third and fourth cylindrical members in parallel with the core line at intervals. And a first lateral centerline extends through the centerlines of the first and third cylindrical members, A lateral centerline extends through the centerlines of the second and fourth cylindrical members;   (C) disposed at the periphery of the first developing member, at least a part of which is located at the center in the first longitudinal direction; A projection disposed between the line and the first lateral centerline;   An insulating shroud holding wafer comprising: 2. A second peripheral projection provided on the first cylindrical member is provided. At least a portion is located between the first longitudinal centerline and the first lateral centerline. 3. The insulating shroud holding wafer according to 1. 3. The second projection according to claim 1, wherein the second projection is disposed on an opposite side of the peripheral portion with respect to the first projection. Insulating shroud holding wafer. 4. Each of the first and second projections has a projection centerline, and these projection centerlines are The first longitudinal centerline and the first lateral centerline are shifted about 45 degrees. 4. The insulating shroud holding wafer according to 3. 5. 5. The insulating shroud retainer of claim 4, wherein the axial bore has an elongated slot. Wafer. 6. A pair of opposed pin receiving recesses extend from the elongated slots in the pin receiving holes. An insulating shroud wafer according to claim 5. 7. The elongated slot defines a longitudinal axis that intersects the first longitudinal centerline at an acute angle. The insulating shroud holding wafer according to claim 6, comprising: 8. The acute angle at which the longitudinal centerline of the elongated slot intersects the first longitudinal centerline is The insulating shroud holding wafer of claim 7, wherein the angle is about 45 degrees. 9. The recess extending from the longitudinal slot is located at the longitudinal centerline of the elongated slot. 9. The insulating shroud holding wafer of claim 8, wherein the wafer extends substantially perpendicularly therefrom. 10. 10. The insulating shroud holding wafer according to claim 9, wherein the recess has a triangular shape. . 11. The method according to claim 9, wherein each of the protrusions includes a wall covering a part of the cylindrical member. Insulation shroud holding wafer. 12. Each of the protrusions overlaps the periphery over an area of about 90 degrees of the cylindrical member. The insulating shroud holding wafer according to claim 11. 13. The centerline of the projection is aligned radially with the recess from the longitudinal slot. 12. The insulating shroud holding wafer according to claim 11. 14． The first cylindrical member has a predetermined height, and the protrusion extends only to a part of this height. An insulating shroud holding wafer according to claim 11. 15. Each of the protrusions has an upper edge that curves in an arc toward the cylindrical member The insulated shroud wafer according to claim 14. 16. The upper edge of the projection is a projection centerline, a first longitudinal centerline, and a first lateral centerline. 16. The insulating shroud of claim 15, wherein the shroud curves sideways toward a flat base member between the two. Wood wafer. 17． The second cylindrical member has a pair of protrusions, and these protrusions are in the first longitudinal direction. At the position between the center line and the second lateral center line, they are arranged on the periphery of the cylindrical member so as to face each other. The insulating shroud holding wafer according to claim 1, wherein the wafer is placed. 18. The second cylindrical member has a pair of protrusions, and these protrusions are in the first longitudinal direction. At the position between the center line and the second lateral center line, they are arranged on the periphery of the cylindrical member so as to face each other. The insulating shroud holding wafer according to claim 1, wherein the wafer is placed. 19. The second cylindrical member has a pair of protrusions, and these protrusions are in the first longitudinal direction. At the position between the center line and the second lateral center line, they are arranged on the periphery of the cylindrical member so as to face each other. The insulating shroud holding wafer according to claim 1, wherein the wafer is placed. 20. The second cylindrical member has a pair of protrusions, and these protrusions are in the first longitudinal direction. At the position between the center line and the second lateral center line, they are arranged on the periphery of the cylindrical member so as to face each other. The insulating shroud holding wafer according to claim 1, wherein the wafer is placed. 21. (A) a flat base member having first and second side portions;   (B) extending from the first side of the flat base member, each being an axial pin receiving hole; First, second, third, and fourth cylindrical members having an axial centerline passing through the pin accommodation hole These cylindrical members have a first longitudinal center line, the first and second cylindrical members of which And the second longitudinal center line is parallel to the first longitudinal center line. , And passes through the axial center lines of the third and fourth cylindrical members, and the first lateral center line 1, passing through the center line of the third cylindrical member, the second center line in the lateral direction is the second, fourth cylindrical member Are located in the array so that they pass through the center line of   (C) at a position moved in the circumferential direction from the first longitudinal center line, the circumference of the first cylindrical member Protrusions located on the part,   An insulating shroud holding wafer comprising: 22. (A) a flat base member having first and second side portions;   (B) extending from a first side of the flat base member, each having an axial pin receiving hole; And a first, second, third, and fourth cylindrical shape having an axial centerline passing through the pin receiving hole. The first and second cylindrical members have a first longitudinal center line. Passing through the axial centerline of the member, and a second longitudinal centerline extending from the first longitudinal centerline. Parallel spaced apart, passing through the axial centerlines of the third and fourth cylindrical members, and a first transverse centerline Passes through the center lines of the first and third cylindrical members, and the second lateral center line extends through the second and fourth cylindrical members. The pin receiving hole passes through the center line of the member and the slot that passes through the axial center line of the first cylindrical member. A first cylindrical member having a pair of intermediate opposed recesses extending vertically therefrom. And further,   (C) a first circle at a position radially aligned with the opposite recess extending from the slot; A projection arranged on the periphery of the tubular member,   An insulating shroud holding wafer comprising: