The present invention relates generally to an electrical connector, and more particularly to an electrical connector with the contact module assembled thereto with two steps along different directions perpendicular to each other.
China Patent No. CN 105207032 issued on Mar. 2, 2018, disclosed an electrical connector connecting two neighboring printed circuit boards located at the same level. The electrical connector includes an insulative housing retaining a plurality of resilient contacts via a discrete securing block wherein each contacts has opposite resilient contacting sections respectively electrically and mechanically connecting to the corresponding conductive pads on the printed circuit boards. Notably, the respective contacts is secured to the housing at the middle section via the securing block so as to result in potentially an unstable retention disadvantageously.
An improved electrical connector is desired.
An object of the present invention is to provide an electrical connector with an insulative housing and a contact module essentially composed of a plurality of contacts integrally formed within an insulator via an insert-molding process wherein the contact module is assembled to the housing via two steps along different directions perpendicular to each other. The housing forms a plurality of protrusions engaged with the corresponding ribs of contact module in the vertical direction so as to retain the contact module to the housing reliably. All the insulator, the contacts and the housing are arranged in a staggered manner
Referring to
The housing 1 is of an elongated structure and includes an upward surface 11 and a downward surface 12 opposite to each other in the vertical direction. Three securing holes 111 are formed to receive the corresponding securing nuts 4. A pair of receiving cavities 101 are formed among the holes 111 and above the upward surface 11 to receive the corresponding contact modules 200, respectively. Two rows of protrusions 112 are formed upon the upward surface 11 around a center region, and two rows of dividers 113 upwardly extend from the upward surface 11 along two opposite elongated side regions. The two rows of protrusion 112 are offset from each other so as to form a staggered manner along the longitudinal direction. The dividers 113 are higher than the protrusions 112 in the vertical direction perpendicular to the longitudinal direction, and respectively aligned with the neighboring protrusions 112 in the transverse direction perpendicular to the longitudinal direction and the vertical direction. Each protrusion 112 forms an engagement recess 1121 which downward faces to the upward surface 11 and horizontally faces to the neighboring protrusion 112 along the longitudinal direction. The divider 113 forms a passageway 1131 to receive a free tip of the corresponding contact 2 (illustrated later).
The contacts 2 are arranged along the longitudinal direction in a stagger manner, i.e., being offset along the transverse direction. Each contact 2 extending along the transverse direction, includes a center retaining section 21, and a pair of spring arms 22 extending therefrom opposite to each other along the transverse direction with corresponding contacting sections 23 at free end regions, respectively. In this embodiment, the heights of the contacting section 23 are essentially at the same level. Each contacting section 23 forms an upside-down U-shape or C shape. The retaining section 21 forms at least a retention hole 211 for receiving material of the insulator 3 so as to prevent relative movement with regard to the insulator 3 along the transverse direction.
The insulator 3 includes a main body 31 extending along the longitudinal direction, and first row 321 and second row 322 of partitions 32 by two sides of the main body 31. Each partition 32 extends along the transverse direction. The first row 321 of partitions 32 and the second row 322 of partition 32 are offset from each other along the longitudinal direction so that both first row 321 and second row 322 of partitions 32 are arranged in a stagger manner. Notably, when assembled, each partition 32 is located between the two corresponding adjacent protrusions 112 along the longitudinal direction. Each partition 32 forms opposite side faces 323, 324 and opposite upper face 325 and lower face 326, and a front face 327. Each partition 32 further includes a rib 33 on the side face 324, and a receiving hole 34 receiving the retention section 21 of the corresponding contact 2. A tiny post (not shown) is formed in the receiving hole 34 to be received within the retention hole 211 of the retention section 21. Understandably, such a receiving hole 34 is naturally formed when the contact 2 is insert-molded with the insulator 3. Understandably, because the partitions 32 are arranged in the staggered manner, the contacts 22 are also arranged in the staggered manner as mentioned before. After assembled, the rib 33 is received within the corresponding engagement recess 1121. A receiving space 35 is formed between every adjacent two partitions 32, and the corresponding protrusion 112 is located in the receiving space 35. As shown in
The electrical connector 100 is made by the following processes in sequence. The contacts 2 are integrally formed with the insulator 3 to form the contact module 200. The contact module 200 is downwardly assembled into the receiving cavity 101 to have the partitions 32 and the protrusions 112 are alternated with each other along the longitudinal direction. The contact module 200 is further moved along the longitudinal direction to have the ribs 33 received within the corresponding engagement recesses 1121. At the same time, in the corresponding contact 2, one contacting section 23, which is originally not precisely aligned with the corresponding passageway 1131, is precisely aligned with the corresponding passageway 1131 so as to be allowed to be downwardly deflected during mating with the corresponding printed circuit board. And, the other contacting section 23 is properly received within space 1132. Lastly, the whole connector 100 is assembled to the electronic part via the securing nuts 4.
Notably, there may be a minor gap between the housing 1 and the insulator 3 after the contact module 200 is moved to its final position, which may be filled by the stuffer. Alternately, a dimple may be formed on the upward surface 11 of the housing 1 to prevent backward movement of the insulator along the longitudinal direction once the contact module 200 is moved to its final position in the longitudinal direction. Anyhow, in this embodiment, as shown in
Another feature of the invention is to provide the insulator 3 and the corresponding contacts 2 with a staggered manner for maintaining the uniformed strength along the longitudinal direction. Therefore, the housing 1 is also required to be formed in a staggered manner for comply with the contacting sections 23 of the contacts. A further feature of the invention is to have the engagement between the insulator 3 and the housing 1 around the paired ribs 3 and protrusions 112 evenly arranged along the longitudinal direction with a plurality of engagement points. As well known, most prior arts regarding engagement between the housing and the insulator of the contact module fail to disclose this multiple positions feature but only around a boundary of the insulator disadvantageously.
Number | Date | Country | Kind |
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201810363120.6 | Apr 2018 | CN | national |