JP4068384B2 - Combination connector - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a kind of combination connector, and more particularly, to a configuration of an abutting plate that is located on a kind of combination connector and used to localize terminals.
[0002]
[Prior art]
The conventional combination connector according to the present invention generally includes a plurality of connectors in which the upper and lower layers are integrally stacked, and the plurality of terminals accommodated in the corresponding connectors respectively extend backward by the respective connectors, and It is bent downward and can be electrically connected to the circuit board. The uppermost connector terminal is formed with longer legs due to the connector position. However, how to ensure the localization of these long terminal legs is an important research question for the vendor. However, when used at the end, only the channel installed in the rear part of the insulating body of the connector is not expected to have a localization effect of interfering and fixing these terminal legs, especially in the contact direction. It has been found that it does not have a corresponding structure for fixing the parts. By designing the contact plate structure assembled at the rear part of the one-type combination connector, the corresponding contact plate brings the terminal leg part into pressure contact with the inner surface thereof, so that the terminal leg part has a localization effect in the contact direction. Can be improved. However, when the upper and lower row terminals are provided in the uppermost electrical connector and the corresponding terminal leg portions are arranged in both the inner and outer rows, for example, as in the case of an IEEE1394 type connector, the contact is made. It is clear that the contact plate cannot localize the inner row terminals, and the terminal legs of the inner row are subject to a transition phenomenon in the contact direction. There is also a possibility of short circuiting due to contact.
[0003]
Therefore, in order to overcome the above-mentioned drawbacks of the prior art, it is considered that the structure of the contact plate must be improved.
[0004]
[Problems to be solved by the invention]
An object of the present invention is to provide a kind-combination-type electrical connector, and to fix a terminal leg portion of an electrical connector positioned above at a constant position.
[0005]
Another object of the present invention is to provide an abutment plate for a one-type combination electrical connector, and to smoothly and smoothly localize both front and rear row terminal legs.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a combination type electrical connector of the present invention is used for installing a plurality of abutting connectors installed on an electric circuit board, and a first connector installed in a stacked manner, and A second connector is included, and the first connector is positioned on the combination connector and includes a first insulating body and a first terminal. The second connector is positioned below the combination connector and includes a second insulating body and a second terminal. First and second receiving cavities are formed at the front ends of the first and second insulating bodies to accommodate corresponding contact connectors, respectively, and the rear ends penetrating the first and second insulating bodies along the horizontal direction are A plurality of receiving passages are formed, and the first terminal and the second terminal are both fixed portions accommodated in the receiving passage, and a contact portion extending forward from the fixing portion into the receiving cavity. A contact portion, and a leg portion extending backward from the fixing portion and at least partially exposed to the outside of the insulating body. A plurality of receiving channels arranged in parallel in the upright direction are recessed in the rear portion of the first insulating body, and the leg portions of the first terminals are installed in both front and rear columns, and correspond to the inside of the receiving channel. The contact plate includes a rectangular substrate, and at the same time, a plurality of parallel protrusions extend on the inner surface of the substrate, and the protrusions extend into the receiving channel at the rear of the insulating body. And by abutting the front row terminal legs of the first terminals, these front row terminal legs can be localized, and the back row terminal legs of the first terminals are further brought into contact with the inner surface of the substrate, A structure for positioning these rear row terminal legs is formed.
[0007]
【Example】
Please refer to FIGS. 1 to 3 at the same time. The combination type connector 1 of the present invention is installed on a circuit board and is used to insert a plurality of contact connectors. The insulating body includes members such as a conductive terminal, a contact plate 7, a front shielding frame 4 and a rear shielding frame 5. The insulating body includes a first insulating body 2 and a second insulating body 30, and the conductive terminal includes a plurality of first terminals. 1 terminal 8 and 2nd terminal 32 are included. As shown in FIGS. 2, 4, and 5, the support 28 extends forward from the center of the first insulating body 2, and the first insulating body 2 is positioned above the support 28. The first connector 8 of the combination system connector 1 of the present invention is composed of the portion thus formed, the first terminal 8 and the first shielding frame body 6 accommodated in the portion. The shielding frame 6 is formed by tightly affixing to the inner wall of the first insulating body 2 installed above the support 28, and the frame opening is formed in a continuously inverted trumpet shape. A first accommodating cavity 20 for accommodating the corresponding abutting connector is formed in the interior. A storage passage 24 is installed at the upper end of the first insulating body 2, and a plurality of partition walls 22 installed in parallel in an upright direction are extended from the rear portion of the first insulating body 2 in the rearward direction. The ridges 220 are formed by extending further outward from one side of the outer surface, and the accommodation channels 23 are formed between the adjacent ridges 220, respectively. An inner receiving channel 231 formed between the side walls and positioned inside, and an outer receiving channel 232 positioned between the ribs 22 and the protruding ribs 220 of the other dividing wall 22. A recessed tank 230 aligned with the outer surface of the partition wall 22 is opened.
[0008]
The first terminal 8 includes an abutting portion 80, an adhering portion 81, and a leg portion 82. The adhering portion 81 is accommodated in the accommodating passage 24, and the abutting portion 80 moves forward from the adhering portion 81. The first terminal 8 extends in the first receiving cavity 20 and is closely attached to the tongue plate 60, and the first terminals 8 are installed in both rows. The leg portions 82 are also arranged in both the front and rear rows. To do. The front row terminal leg portions 82 are accommodated in the inner receiving channel 231, the rear row terminal leg portions 82 are accommodated in the outer accommodation channel 232, and the both row terminals are arranged at appropriate positions of the leg portions 82. A convex portion 84 accommodated in the concave tank 230 is provided, and a soldering portion 83 electrically connected to a circuit board (not shown) is formed at the end of each terminal leg portion 82. The
[0009]
As shown in FIG. 6, the contact plate 7 includes a rectangular substrate 70, and a plurality of parallel protrusions 72 extend on the inner surface of the substrate 70. Stoppers 71 perpendicular to the ridges 72 are provided above the ridges 72, and both side edges of the partition plate 7 have side walls 74 extending in the direction in which the ridges 72 extend. An intermediate portion and a top end portion are provided with an opening 75 and a notch 73, respectively. When assembled, the ridge 72 extends into the inner receiving channel 231, contacts the front row terminal leg 82 of the first terminal 8, and the inner surface of the partition plate substrate 70 and the first terminal 8. By abutting the rear row terminal leg portions 82, the front and rear row terminal leg portions 82 can be well positioned simultaneously. Since the opening 75 and the notch 73 of the partition plate 7 engage with the convex portions 26 and 25 provided at the rear portion of the first insulating body 2, the partition plate 7 is stably attached to the rear portion of the insulating body. (See FIG. 7) Assemble. Since the outer receiving channel 232 is formed deep, an appropriate protrusion is formed on the inner side surface so that the inner side surface of the contact plate 7 and the terminal leg portion 82 in the rear row are in close pressure contact. Think also possible.
[0010]
Further, referring to FIG. 3 as well, the first insulating body 2 has a second connector 3 accommodated in a space 21 located below the support 28, and the second connector 3 is connected to the second insulating body 2. A main body 30, an intermediate shield 31, a shielding frame 33 covering the periphery of the second insulating body 30, a shielding cover 34, and a second terminal 32 are included. The second insulating body 30 includes a base portion 306, from which a middle spacing plate 300 installed in parallel in the forward direction and two contact plates 301 respectively located above and below the middle spacing plate 300 extend. A second receiving cavity 302 is formed between the abutting plate 301 and the partition plate 300, and a plurality of receiving channels (not shown) penetrating the base 306 horizontally are formed. The body 31 covers the surface of the intermediate spacing plate 300. The second terminal 32 includes a contact portion 320, a fixing portion 321, and a leg portion 322. The fixing portion 321 is received in the receiving channel of the base portion 306, and the corresponding contact portion 320 is located in front of the fixing portion 321. It extends in the direction and is accommodated in the second accommodating cavity 302. The leg portion 322 is bent and extended backward from the fixing portion 321, and partially extends out of the bottom of the second insulating body 30 to electrically connect with a circuit board (not shown). Can be connected.
[0011]
2, 3, and 8, both elastic pieces 330 installed on the top and bottom walls of the shielding frame 33 and both elastic pieces provided on the upper and lower surfaces of the intermediate shielding body 31, respectively. Due to the joint action with 310, the corresponding contact connector (not shown) can be well positioned when contacting. At the front ends on both sides of the shielding frame 33, rectangular openings 331 for accommodating the both-side claw legs 311 of the shielding frame 33 are opened and fixed to each other. At the same time, a convex portion 332 that protrudes inward to the rear portion of the upper surface of the shielding frame 33 is accommodated in a slit 303 provided at the rear end portion of the upper surface of the second insulating body 30, and The upper portions on both sides of the frame 33 are provided with slits 333 for receiving the convex portions 304 installed on the upper portions on both sides of the second insulating body 30, and inwardly on the lower portions on both sides of the shielding frame 33. The projecting protrusions 334 are accommodated in slits 305 formed at lower portions on both sides of the second insulating body 30 so that the intermediate shielding body 31, the shielding frame body 33, and the second insulating body 30 are assembled. Can be completed. A rear opening 336 is formed in the rear surface of the upper surface of the shielding frame 33 so as to accommodate the stereotaxic legs 341 at the top end of the cover 34. Each elastic piece is formed by bending in a direction perpendicular to the surface, and a convex portion 340 accommodated in a rectangular opening 337 provided at the lower ends on both sides of the shielding frame 33 is provided on the elastic piece. The second connector 3 has both claws extending from the lower end portions on both sides of the shielding frame 33 in which the first insulating body 2 of the combination connector 1 is housed in a space 21 located below the support 28. By assembling the leg 335 and the circuit board, the assembly position of the second connector 3 can be achieved.
[0012]
A multi-sided opening 43 and both-shaped openings 44 and 45 opened in parallel on the front surface of the front shielding frame 4 through the upper and lower sides penetrate the corresponding connectors in contact with the first connector 11 and the second connector 12. In order to align the shielding frame 6 of the first connector that can be incorporated into the first and second receiving cavities 20 and 302 and protrudes inward to the front part of the upper surface of the front shielding frame 4. At the same time, on both sides of the front shielding frame 4, there are formed both-side openings 41 for accommodating corresponding convex portions 51 installed at the front ends on both sides of the rear shielding frame 5, respectively. Provided is a double convex portion 42 that is accommodated in an opening 52 corresponding to the upper end of the rear shielding frame 5 on an elastic piece bent downward on the rear surface of the upper surface of the front shielding frame 4. Three projection planes 27 are provided on both sides of the first insulating body 2, and the localization blocks 53 and the localization projections 54 installed on both sides of the rear shielding frame 5 are accommodated between the three projection planes 27. By forming the guide groove, it is possible to achieve localization of the shielding frame bodies 4 and 5 and the first insulating body 2. Further, by extending both support legs 50 from the bottoms on both sides of the rear shielding frame 5, the entire combination connector 1 can be supported by being inserted on the circuit board.
[0013]
Although the above invention is mainly applied to a double stacked connector, as is understood, the invention is also applied to a combined connector in which three types of connectors are stacked, and the partition plate structure is a single unit. It can also be used for connectors, especially when the electrical connector is tall, and the terminal leg is long, and when it is placed in front, both rear rows, or multiple rows, the conventional bulkhead plate is a multi-row terminal leg Although it is difficult to localize the portions simultaneously, the terminal leg can be effectively localized by the partition plate structure.
[0014]
In addition, the partition plate structure of the combination connector of the present invention can also be applied to a combination connector in which the insulation main body is installed integrally, and by providing only a similar accommodation channel in the rear part of the insulation main body, In addition to being able to assemble the partition plate, the same effects as in the previous embodiment can be achieved.
[0015]
In general, the present invention is sufficiently prepared as a requirement for a patent and should be registered by law. Moreover, the above is merely a more preferred embodiment in the present application, and does not limit the scope of the present invention. Any modifications or changes that a person who is familiar with the technology of the present invention can make based on the idea of the present invention shall belong to the claims of the present invention.
[Brief description of the drawings]
FIG. 1 is a three-dimensional combination diagram of a combination type connector according to the present invention.
FIG. 2 is an exploded view of the combined connector of the present invention before the second connector is assembled.
FIG. 3 is an exploded view of a second connector of the combination connector of the present invention.
FIG. 4 is a rear three-dimensional view of the combination connector of the present invention before the partition plate and the conductive terminal are combined.
FIG. 5 is an exploded view of the combined connector of the present invention before the external shielding frame is combined.
FIG. 6 is a three-dimensional view of a partition plate of the combined connector of the present invention.
FIG. 7 is a three-dimensional view of the combination connector of the present invention after the partition plates are combined.
FIG. 8 is a cross-sectional sketch of the combination connector of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Combination type connector 2 1st insulation main body 20 1st accommodating cavity 21 Space 22 Partition 220, 72 Projection 23 Accommodating channel 230 Concave groove 231 Inner accommodating channel 232 Outer accommodating channel 24 Accommodating passage 25, 26, 304, 332, 334, 340, 42, 51, 84 Protruding portion 28 Support body 3 Second connector 30 Second insulating body 300 Intermediate spacing plate 301 Abutting plate 302 Second storage cavity 303, 305, 333 Groove 31 Intermediate shielding frame 310, 330, 40 Elastic piece 311, 335 Claw part 32 Second terminal 320, 80 Contact part 321, 81 Adhering part 322, 82 Leg part 33 Shielding frame body 331, 41, 43, 52, 75 Opening 336, 337, 44, 45 Rectangular opening 34 Cover 341 Positioning leg 4 Front shielding frame 5 Rear shielding frame 50 Support leg 53 Positioning block 54 Positioning convex part 6 Shielding frame 60 Tongue plate 7 Partition plate 70 Substrate 71 Stopper 73 Notch 74 Side wall 8 First terminal 83 Soldering portion

Claims (10)

A combination type connector for inserting and attaching a plurality of contact connectors provided on a circuit board,
A first connector positioned on top of the combination connector and including a first insulating body and a first terminal;
A second connector located at the bottom of the combination connector and including a second insulating body and a second terminal;
First and second receiving cavities are formed for receiving contact connectors respectively corresponding to front ends of the first and second insulating bodies, and a plurality of penetrating through the rear ends of the first and second insulating bodies in the horizontal direction. An accommodation passage is formed, and each of the first terminal and the second terminal is fixed to an adhering portion accommodated in the accommodation passage, an abutting portion extending from the adhering portion to the inside of the accommodating cavity in the forward direction, and an adhering portion. A plurality of receiving channels that extend rearward from the portion and that are at least partially exposed to the outside of the insulating body, and are arranged parallel to the upright direction of the rear portion of the insulating body. Legs of one terminal are installed in both front and rear columns, and are respectively accommodated in the accommodating channels correspondingly,
Further, the abutment plate includes a substrate, and a plurality of parallel protrusions extend on the inner side surface of the substrate, the protrusions extend into the accommodating channel at the rear of the insulating body, and are arranged in a front row. The first terminal of the rear row in order to localize these front row terminal leg portions by abutting on the leg portions of the first terminal and further to localize the terminal leg portions of the rear row on the inner surface of the substrate of the abutting plate. Forming a part that contacts the leg of the
The rear portion of the first insulating body is extended with a plurality of partition walls arranged in parallel in an upright direction in the rear direction, and one side portion of the outer surface of these partition walls is further extended with a ridge in the outer direction. The accommodating channel is formed between the two adjacent partition walls, and the accommodating channel is formed between the side walls of the both partition walls, and is disposed between the inner accommodating channel located inside, and the protrusions of the partition walls and the other partition walls. A located outer containment channel,
Legs of the first terminals in the front row are accommodated in the inner receiving channel, legs of the first terminals in the rear row are accommodated in the outer receiving channel,
The protrusions of the contact plate extend into the inner receiving channel and contact the leg portions of the front terminals of the first row, and the inner surface of the substrate of the contact plate and the first terminals of the rear row A combined connector characterized by contacting the leg of the connector.   The substrate is provided with a stopper perpendicular to the ridge at a position above the ridge, and both side edges of the abutting plate have side walls extending in the extending direction of the ridge, the middle of each side wall, The combination connector according to claim 1, wherein an opening and a cutout that are respectively engaged with the rear end of the insulating body are provided at the top end. The combination type connector according to claim 1, wherein a concave tub aligned with an outer surface of the partition wall is formed on the ridge of the partition wall.   4. The combination connector according to claim 3, wherein each of the leg portions of the first terminals is provided with a convex portion that engages with each other in the concave tank.   The combination type connector according to claim 1, wherein a shielding frame body is externally covered, and the shielding frame body includes both front and rear shielding frames.   The combined connector according to claim 1, wherein each of the first and second connectors includes a shielding frame. An insulating body having a receiving cavity formed at the front end, a plurality of receiving passages extending in the horizontal direction and penetrating the rear end; and
An adhering portion accommodated in the accommodating passage, an abutting portion extending forward from the adhering portion into the accommodating cavity, extending rearward from the adhering portion, and at least partially outside the insulating body. Exposed terminals, and the terminals of the terminals are at least electrically conductive terminals arranged in front and rear columns, and
Comprising a substrate, a plurality of parallel the ridges on the inner surface of the substrate is extended, these convex Article, by abutting the leg portions of the conductive terminals of the front row, and localization of these front row terminal leg by pressing the terminal legs was in the back row of the inner side surface of the substrate and the terminal, viewed including a contact plate, the having a structure for localizing the rear terminal legs,
The rear part of the insulating body is formed by extending a plurality of partition walls installed in parallel in an upright direction in the rear direction, and further extending a protrusion on one side of the outer surface of the partition walls. The receiving channel is formed between adjacent two partition walls, the receiving channel is formed between both partition walls, and an inner receiving channel positioned inside and an outer receiving channel positioned between the protruding ribs of the other partition walls and the other partition walls. Including
Legs of the terminals in the front row are accommodated in the inner receiving channel, and legs of the terminals in the rear row are accommodated in the outer receiving channel,
The ridges of the contact plate extend into the inner receiving channel and contact the leg portions of the front row terminals, and the inner side surface of the substrate of the contact plate and the leg portions of the rear row terminals. An electrical connector characterized by contacting .   The substrate is provided with a stopper perpendicular to the ridges at a position above the ridges, and both side edges of the contact plate extend side walls in the direction in which the ridges extend, and the middle and top end portions of the side walls. The electrical connector according to claim 7, wherein an opening and a notch that are respectively engaged with a rear portion of the insulating main body are provided.   The electrical connector according to claim 7, wherein a concave tank aligned with the outer surface of the partition wall is provided on the protruding line of the partition wall.   The electrical connector according to claim 9, wherein convex portions are provided on the leg portions of the terminals so as to be engaged with each other in the concave tub.

Images