CN213717097U - Connector kit and connector - Google Patents

Abstract

The utility model provides a connector external member and connector can prevent that connector housing and closing cap from producing casing deformation or soldering tin crack when the backward flow. The connector kit includes: a plurality of connectors (1) and a cover (100) assembled to the plurality of connectors (1) when the plurality of connectors (1) are reflow-mounted on a substrate are provided, wherein one end portion of each of the connectors (1) and the cover (100) is provided with a long hole (33) as a fitted portion and a positioning long pin (138) as a fitting portion fitted to the long hole (33), and the long hole (33) is provided with an opening portion for absorbing thermal expansion from one end portion side to the other end side due to reflow temperature change to move the positioning long pin (138).

Description

Connector kit and connector

Technical Field

The present invention relates to a high-speed transmission connector to be mounted on a circuit board, and more particularly, to an intermediate layer (mezzanine) connector for electrically connecting different circuit boards to each other.

Background

Some connectors that relay high-speed signal transmission between a circuit board and an extension board use a socket type connector as a connector mounted on the circuit board side, use a plug type connector as a connector mounted on the extension board side, and mate the plug type connector in the lateral range of the connector to connect terminals of both connectors. Such connectors are referred to as "interlayer connectors".

As an example of a document disclosing a technique related to such a connector, there is patent document 1. The connector described in this document has a box-shaped housing and contacts arranged side by side on the wall surface thereof. The bottom surface of the housing of the connector is provided with a protrusion to be inserted into a positioning hole in the circuit board, and the housing is provided with a contact in a lateral range opposite to the side where the protrusion is present. This reflow mounting of the connector on the substrate is performed by placing the connector on a predetermined position of the substrate with the cover attached to the connector kept, raising the temperature from the normal temperature to about 260 degrees, melting the solder, and returning the temperature to the normal temperature.

[ patent document 1 ] Japanese patent laid-open publication No. 2018-113146

However, although the housing and the cover of the connector are both formed of resin, if the housing and the cover are molded in different resin molding directions, a large difference may occur in thermal expansion coefficient between the housing and the cover during reflow. In this case, there is a problem that the connector housing is pushed open by excessive expansion of the cap, and the connector housing is deformed or solder cracks occur.

SUMMERY OF THE UTILITY MODEL

The present invention has been made in view of the above problems, and an object of the present invention is to provide a technique capable of preventing a housing and a cover of a connector from being deformed or cracked by solder during reflow.

In order to solve the above-described problems, a connector kit according to a preferred aspect of the present invention includes a plurality of connectors and a cover attached to the plurality of connectors when the plurality of connectors are reflow-mounted on a substrate, and is characterized in that a fitting receiving portion and a fitting portion to be fitted to the fitting receiving portion are provided at each of one end portions of the connectors and the cover, and the fitting receiving portion is provided with an open portion for absorbing thermal expansion from one end portion side to the other end portion side due to a change in reflow temperature to move the fitting portion.

In this aspect, the fitting portion may be a long hole provided in the connector, the fitting portion may be a positioning long pin provided in the cover, a round hole may be provided in the connector on a side opposite to a side where the long hole is provided, and a positioning pin that is fitted in the round hole may be provided in the cover on a side opposite to a side where the positioning long pin is provided.

Further, the connector may include: a housing having a plurality of slots separated by partitions; and a plurality of contacts arranged in the socket.

The plurality of connectors may be arranged in a direction orthogonal to a direction in which the insertion grooves extend, and may be held by the cover.

In addition, the number of the slots may be 2 in one connector.

The housing may have a bottom portion and two 1 st wall portions and two 2 nd wall portions facing each other with the insertion slot interposed therebetween, the 1 st wall portion may extend in a direction orthogonal to the insertion slot, and the cover may be provided with a pull-up spring, and when the cover is attached to the connector by inserting the positioning pin into the circular hole, inserting the positioning long pin into the long hole, and fitting the pull-up spring into the inside of the 1 st wall portion, the connector may be supported from the inside by the pull-up spring of the cover.

The housing may have a rotationally asymmetrical shape when viewed from a direction in which the connector of the communication partner is fitted.

In addition, some of the plurality of connectors and the other connectors may be mounted in parallel on the board so as to face opposite directions.

As another preferred aspect of the present invention, a connector is attached to a substrate by being closed and reflowed, the connector including: a plurality of slots extending in one direction and partitioned by partitions; a bottom portion which becomes a bottom portion of the connector; two 1 st wall portions facing in a direction orthogonal to the slot so as to surround the slot; and two 2 nd wall portions facing each other in a direction parallel to the insertion groove so as to surround the insertion groove, wherein one 1 st wall portion of the two 1 st wall portions is provided with a circular hole into which a positioning pin of the cover is fitted, and the other 1 st wall portion of the two 1 st wall portions is provided with a long hole into which a positioning long pin of the cover is fitted, the long hole being open to the other side, and when the cover expands together with the connector, the positioning long pin fitted into the long hole moves toward the other side in the long hole.

In a connector kit according to another preferred embodiment of the present invention, the connector is provided with a plurality of connectors and a cap which is attached to the connectors when the connectors are mounted on a substrate by reflow, wherein the cap has a box shape having an opening for housing and holding the connectors, and a plurality of the caps are each provided with an adsorption piece adsorbed on a surface opposite to the opening.

In this aspect, a dividing slit may be formed between adjacent connectors.

The present invention provides a connector which is provided with a plurality of connectors and a cover which is assembled to the plurality of connectors when reflow mounting is performed to the plurality of connectors on a substrate, wherein each of the connectors and the cover is provided with a fitting portion which is fitted to the fitting portion and a fitting portion which is fitted to the fitting portion, the fitting portion is provided with an open portion which is used for absorbing thermal expansion from one end side to the other end side due to reflow temperature change to move the fitting portion. This prevents the housing and the cover of the connector from being deformed or cracked by solder during reflow.

Drawings

Fig. 1 is a perspective view of a connector 1 and a cap 100 attached to the connector 1 according to an embodiment of the present invention.

In fig. 2, (a) is a view of the closure 100 of fig. 1 viewed from the-Z side, and (B) is an enlarged view of (a) within the C frame.

In fig. 3, (a) is a perspective view of the connector 1 of fig. 1, and (B) is a perspective view of (a) viewed from the opposite side.

In fig. 4, (a) is an enlarged view of the inside of the a frame of fig. 3 (a), and (B) is an enlarged view of the inside of the B frame of fig. 3 (a).

Fig. 5 is an exploded view of the connector 1 of fig. 1.

Fig. 6 is a perspective view of the solder terminal 7 of the connector 1 of fig. 5.

Fig. 7 is a perspective view of the contact 8 of the connector 1 of fig. 5.

In fig. 8, (a) is a cross-sectional view of a cross-section parallel to the XZ plane of the component after the cap 100 is fitted to the connector 1, and (B) is an enlarged view of a portion on the + X side of (a).

Fig. 9 shows a perspective view of a closure 100 according to a modification of the present invention, and (B) shows an exploded view of (a).

Description of the reference numerals

1, a connector; 7 soldering the solder joint terminal; 8, contact points; 10 a shell; 11 a wall portion; 12 wall portions; 13 bottom part; 17 a partition wall; 18 gaps; 19 slot(s); 31 a circular hole; 33 long holes; 34 a bonding tab; 35 corner grooves; 36 grooves; 71 a substrate portion; 72 a tab portion; a 81 straight line portion; 82 terminal portions; 83 a fork part; 100, sealing the cover; a 100A cover; 111 a wall portion; 112 wall portions; 113 a top plate portion; 130 opening; 134 lower end portion; 135 springs; 136 spring receiving portions; 138 locating pins; 139 positioning the long pin; 191 a 1 st absorbent sheet; 192, 2 nd absorbent sheet; 197 split the slit.

Detailed Description

Hereinafter, a connector 1 and a cap 100, which are a connector kit according to an embodiment of the present invention, will be described with reference to the drawings. The connector 1 is a so-called socket type connector. The connector 1 is used by being fitted to a connector called a plug type. When the connector 1 and the plug-type connector 1 are mounted on two electronic boards, respectively, and the header of the communication-partner connector is fitted into the slot 19 of the connector 1, the contacts 8 of the two connectors 1 are electrically connected, and high-speed differential transmission by pam (pulse Amplitude modulation) can be realized. When reflow mounting of the connector 1 on the substrate is performed, the cap 100 is fitted to the connector 1.

In the following description, the direction in which the cap 100 is fitted to the connector 1 is appropriately referred to as the Z direction, one direction orthogonal to the Z direction is appropriately referred to as the X direction, and a direction orthogonal to both the Z direction and the X direction is appropriately referred to as the Y direction. In addition, the + Z side is sometimes referred to as the upper side, the-Z side as the lower side, the + X side as the front side, the-X side as the rear side, the + Y side as the left side, and the-Y side as the right side.

As shown in fig. 5, the connector 1 includes a housing 10, solder terminals 7, and contacts 8. The housing 10 of the connector 1 is formed by injecting resin in the direction of arrow B in fig. 1, which is the longitudinal direction thereof. The housing 10 of the connector 1 has a rotationally asymmetric shape.

To be described in more detail, the housing 10 of the connector 1 is provided with two slots 19. The two slots 19 extend in the X direction. The housing 10 has: a bottom 13 which becomes the bottom of the housing 10; a wall portion 11 and a wall portion 12 facing each other in the X direction and the Y direction with the slot 19 therebetween; and a partition wall 17 that separates two slots 19 in a lateral range surrounded by the wall portion 11 and the wall portion 12. Wall 11 extends in the Y direction and wall 12 extends in the X direction.

As shown in fig. 4 (B), the-X side end of the partition wall 17 is connected to the-X side wall 11. As shown in fig. 4 (a), the end portion on the + X side of the partition wall 17 is not continuous with the wall portion 11 on the + X side, and a gap 18 is formed between the end portion on the + X side of the partition wall 17 and the wall portion 11 on the + X side.

A circular hole 31 is provided in the wall 11 on the-X side at the center in the Y direction. A long hole 33 is provided in the middle of the wall 11 on the + X side in the Y direction. The + X side of the long hole 33 is open. Corner grooves 35 are provided on the + Y side and the-Y side of the holes in the wall 11 on the-X side and the wall 11 on the + X side. The corner groove 35 is recessed from the upper surface of the wall portion 11 toward the bottom portion 13. A hole is formed in the bottom of the angular groove 35, and the solder joint terminal 7 is fitted and fixed in the hole. As shown in fig. 6, the solder terminal 7 includes an elongated base portion 71 and two projecting portions 72 rising from both ends of one long side of the base portion 71. The two protruding pieces 72 are fitted into the bottom holes of the corner slots 35 of the housing 10.

As shown in fig. 8 (B), the wall portion 11 on the + X side and the-X side has an engaging piece 34 protruding toward the slot 19 on the inner surface lower side on the slot 19 side.

Grooves 36 are provided on the inner surface of wall portion 12 and the side surfaces of partition wall 17. The contact 8 is housed in the groove 36. As shown in fig. 7, the contact 8 has a linear portion 81 extending in one direction, a terminal portion 82 at one end of the linear portion 81, and a fork portion 83 at the other end of the linear portion 81. The terminal portion 82 is bent into the shape of "く". The fork 83 is bifurcated. The fork 83 is fixed by caulking with solder 9. Contact 8 is held by wall 12 and groove 36 of partition wall 17, and prong 83 of contact 8 and solder 9 are exposed to the side opposite to groove 36 through the hole of bottom 13.

As shown in fig. 1 and 2, the cap 100 has a box shape having a width slightly larger in the X direction and the Y direction than a member in which eight connectors 1 are arranged. The cap 100 is molded by injecting resin along the direction of arrow a in fig. 1 as the longitudinal direction thereof.

As shown in fig. 2 (a), an opening 130 for receiving and holding the connector 1 is provided on the-Z side of the cover 100. The cap 100 has: a ceiling portion 113 which becomes a ceiling of the cover 100; and a wall 111 and a wall 112 facing each other in the X direction and the Y direction with the opening 130 therebetween. A pull-up spring 135 and a spring receiving portion 136 are provided at positions corresponding to the respective slots 19 of the eight housings 10 on the inner sides of the wall portion 112 on the-X side and the wall portion 112 on the + X side. As shown in fig. 8 (B), the lower end 134 of the pull-up spring 135 protrudes outward in a triangular shape.

Positioning pins 138 are provided at positions corresponding to the circular holes 31 between the adjacent spring receiving portions 136 inside the wall portion 112 on the-X side. The positioning pin 138 has a shape received in the circular hole 31. A positioning long pin 139 is provided between the adjacent spring housing portions 136 inside the + X-side wall portion 112 at a position corresponding to the long hole 33. The positioning long pin 139 has a shape received in the long hole 33.

The fitting of the cover 100 to the connector 1 and the reflow mounting thereof are performed in the following manner. First, eight connectors 1 are arranged in parallel such that the orientation of the gaps 18 of some of the connectors 1 is opposite to the orientation of the gaps 18 of the other connectors 1 (for example, the gaps 18 of two connectors 1 in the middle are on the-X side, and the gaps 18 of two connectors 1 at both ends are on the + X side).

Next, the cap 100 is fitted to the eight connectors 1 by fitting the positioning pins 138 into the circular holes 31 on the-X side, fitting the positioning long pins 139 into the long holes 33 on the + X side, and fitting the pull-up springs 135 into the inner sides of the wall portions 11 on the + X and-X sides. As shown in fig. 8 (a) and 8 (B), when the cover 100 is fitted over eight connectors 1, the lower end portions 134 of the pull-up springs 135 of the cover 100 are engaged with the engagement pieces 34 of the connectors 1, and the connectors 1 are supported from the inside in the X direction by the pull-up springs 135 of the cover 100.

Next, eight connectors 1 gathered by the cover 100 are placed at predetermined positions on the electronic substrate, and are stored in the reflow apparatus, and the temperature in the apparatus is changed to 20 ℃→ 260 ℃→ 20 ℃. Along with the temperature rise, the cover 100 expands together with the case 10. Here, as shown in fig. 1, the injection direction of the cap 100 is orthogonal to the injection direction of the case 10. An injection-molded article is likely to thermally expand in a direction orthogonal thereto as compared with an injection direction, and the thermal expansion coefficients in the injection direction and the orthogonal direction are different by about 5 times. The amount of expansion of the cover 100 in the X direction when heated in a state where the cover 100 is fitted to the connector 1 is larger than the amount of expansion of the connector 1 in the X direction. Since the positioning pins 138 of the cover 100 are fitted into the circular holes 31 of the connector 1 and are not moved, the portions on the + X side expand toward the + X side compared to the positioning pins 138 of the cover 100. When the cap 100 expands together with the connector 1, the long hole 33 of the connector 1 exerts a "play" action, and the positioning long pin 139 fitted into the long hole 33 moves toward the opening portion on the + X side in the long hole 33.

When the temperature exceeds 217 ℃, the solder 9 located at the tip of the contact 8 of the connector 1 melts, and when the temperature returns to normal temperature, the solder 9 solidifies. The contact 8 of the connector 1 and the pad of the electronic substrate are connected by solidification of the solder 9. After the connector 1 is mounted on the electronic substrate, the cover 100 is detached from the connector 1.

The above is the details of the configuration of the present embodiment. The connector kit of the present embodiment includes: the plurality of connectors 1 and the cover 100 attached to the plurality of connectors 1 when the plurality of connectors 1 are reflow-mounted on the substrate are provided with a long hole 33 as a fitting portion and a positioning long pin 138 as a fitting portion fitted into the long hole 33 at one end portion of each of the connectors 1 and the cover 100, and an opening portion that absorbs thermal expansion from one end portion side to the other end side due to a reflow temperature change and moves the positioning long pin 138 is provided in the long hole 33. This prevents deformation of the housing 10 and solder cracks from occurring in the housing 10 and the cover 100 of the connector 1 during reflow.

In addition, in the present embodiment, the housing 10 of the connector 1 has a rotationally asymmetric shape. Thus, it is possible to provide a connector in which reverse insertion is less likely to occur by using a rotationally asymmetric connector as well as a communication-partner connector.

Although the embodiments of the present invention have been described above, the following modifications may be added to the embodiments.

(1) In the above embodiment, the number of the connectors 1 mounted on the substrate in a state where the cover 100 is gathered may be 2 to 3, or 4 or more.

(2) In the above embodiment, the row of the slots 19 in one connector 1 may be 1 row, or 3 rows or more.

(3) In the above embodiment, the positioning pins 138 and 139 may be provided on the connector 1, and the circular hole 31 and the long hole 33 may be provided on the cover 100.

(4) In the above embodiment, instead of holding the plurality of connectors 1 by one cover 100 being gathered, one cover 100 may be attached to one connector 1 and the plurality of covers 100 may be gathered by a string-like member. As shown in fig. 9 (a) and 9 (B), in this modification, the plurality of caps 100A are gathered by 21 st absorbing pieces 191 in a linear shape, and a dividing slit 197 is formed between the adjacent caps 100A. Each cover 100A has a box shape. Each cover 100A is provided with an opening for receiving and holding the connector 1. The 1 st adsorption piece 191 is adsorbed on the surface of the cover 100A opposite to the opening side. Further, a 2 nd suction piece 192 is sucked between the two 1 st suction pieces 191 in the cover 100A. The 2 nd suction piece 192 is used to hold the cap 100A when reflowing. According to this modification, the expansion of the cap 100A in the longitudinal direction can be stabilized.

Claims (11)

1. A connector kit is provided with: a plurality of connectors and a cover fitted to the plurality of connectors when reflow-mounting the plurality of connectors on a substrate,

the connector and the cover each have a fitting portion and a fitting portion fitted to the fitting portion at one end, and the fitting portion has an opening portion for absorbing thermal expansion from one end side to the other end side due to a change in a return temperature to move the fitting portion.

2. The connector kit of claim 1,

the fitted portion is a long hole provided in the connector,

the embedding part is a positioning long pin arranged on the sealing cover,

a circular hole is provided in the connector on the side opposite to the side where the long hole is provided,

and a positioning pin which is embedded with the round hole is arranged on the opposite side of the sealing cover to the side provided with the positioning long pin.

3. The connector kit of claim 2,

the connector is provided with:

a housing having a plurality of slots separated by partitions; and

a plurality of contacts arranged in the socket.

4. The connector kit of claim 3,

the plurality of connectors are arranged in a direction orthogonal to a direction in which the insertion grooves extend, and are held by the cover.

5. The connector kit according to claim 4,

in one of the connectors, the number of the slots is 2.

6. The connector kit of claim 5,

the housing has a bottom and two 1 st wall parts and 2 nd wall parts respectively opposed to each other with the insertion groove therebetween,

the 1 st wall portion extends in a direction orthogonal to the insertion groove,

a pull-hanging spring is arranged on the sealing cover,

when the cover is fitted to the connector by inserting the positioning pin into the circular hole, inserting the positioning long pin into the long hole, and fitting the pull-hanging spring into the inside of the 1 st wall portion, the connector is supported from the inside by the pull-hanging spring of the cover.

7. The connector kit of claim 6,

the housing has a rotationally asymmetric shape as viewed from the direction in which the connector of the communication object is fitted.

8. The connector kit of claim 7,

some of the plurality of connectors and the other connectors are mounted in parallel on the board in an orientation opposite to each other.

9. A connector which is gathered by a cover and is mounted on a substrate by reflow, the connector comprising:

a plurality of slots extending in one direction and partitioned by partitions;

a bottom portion which becomes a bottom portion of the connector;

two 1 st wall portions facing in a direction orthogonal to the slot so as to surround the slot; and

two 2 nd wall portions facing in a direction parallel to the insertion groove so as to surround the insertion groove,

one 1 st wall part of the two 1 st wall parts is provided with a round hole which is embedded with the positioning pin of the cover,

a long hole which is fitted to a positioning long pin of the cover is provided in the other 1 st wall portion of the two 1 st wall portions, the long hole being a long hole which is open to the other side,

when the cover expands together with the connector, the long positioning pin fitted into the long hole moves toward the other side in the long hole.

10. A connector kit comprising a plurality of connectors and a cover attached to the connectors when the connectors are reflow-mounted on a substrate,

the cover is in the shape of a box provided with an opening for receiving and holding the connector,

an adsorption piece is adsorbed on a surface of the plurality of covers on the opposite side of the opening side.

11. The connector kit of claim 10,

a dividing slit is formed between adjacent ones of the connectors.

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