Applicants claim priority under 35 U.S.C. ยง119 of Japanese Patent Application No. JP2012-014148 filed Jan. 26, 2012.
This invention relates to a connector configured to be fixed to an object such as a printed circuit board, a Flexible Printed Circuit (FPC) or a Flexible Flat Cable (FFC).
For example, a connector configured to be fixed to a circuit board is disclosed in JP-A 2000-357550 (Patent Document 1) and JP-A 2004-14350 (Patent Document 2), contents of which are incorporated herein by reference.
The connector of Patent Document 1 has a shell which is formed by bending a metal plate. The shell has a bottom portion, a fold-back portion and a shell terminal. The fold-back portion is formed by folding back the metal plate at a front end of the bottom portion so that the fold-back portion extends in a plane in parallel to the circuit board. The shell terminal is configured to be inserted in and fixed to a hole of the circuit board. More specifically, the shell terminal is formed at an end of the fold-back portion so as to extend in a plane perpendicular to the circuit board.
The connector of Patent Document 2 has a shell which is formed by bending a metal plate similar to the connector of Patent Document 1. The shell has a mating portion configured to be mated with a mating connector, and a shell terminal. The shell terminal is formed by folding back the metal plate at a front end of the mating portion so that the shell terminal extends in a plane perpendicular to the circuit board.
The fold-back portion of the connector of Patent Document 1 extends in the plane in parallel to the circuit board. Accordingly, when such a force that detaches the connector from the circuit board is applied to the connector, the shell might be easily deformed and damaged.
The mating portion and the shell terminal of the connector of Patent Document 2 are coupled with each other at a boundary portion which extends in a direction perpendicular to the circuit board. As the connector has lower profile, a size of the boundary portion in the direction perpendicular to the circuit board becomes smaller. Accordingly, when a size of the connector is small, strength of the boundary portion might be insufficient.
It is therefore an object of the present invention to provide a connector having a structure which is preventable a shell of the connector from being deformed even when the connector receives such a force that detach the connector from an object such as a circuit board.
One aspect (first aspect) of the present invention provides a connector fixable to an object. The connector comprises a contact, a holding member and a shell. The holding member holds the contact. The shell is attached to the holding member. The shell has a body portion at least partially covering the holding member, and two fixed portions for fixing the body portion to the object. The body portion has two side portions and an upper portion. The upper portion has a plate-like shape which is in parallel to a predetermined plane. The upper portion is located at an upper side of the shell in an upper-to-lower direction perpendicular to the predetermined plane. The upper portion couples the side portions with each other in a lateral direction in parallel to the predetermined plane. The side portion is connected to the fixed portion so that the shell is provided with a boundary portion located between the side portion and the fixed portion. The boundary portion extends in a direction crossing the predetermined plane. The fixed portion has a base portion and a strengthener. The base portion is located outward of the side portion in the lateral direction. The strengthener extends inward in the lateral direction from the base portion beyond the side portion.
Another aspect (second aspect) of the present invention provides the connector, wherein the side portion is formed with an opening. The opening pierces the side portion in the lateral direction. The strengthener extends inward in the lateral direction while passing through the opening.
Yet another aspect (third aspect) of the present invention provides a mating connector mateable with the connector according to the second aspect. The mating connector comprises an engaging channel into which the strengthener is inserted when the connector and the mating connector are mated with each other.
An appreciation of the objectives of the present invention and a more complete understanding of its structure may be had by studying the following description of the preferred embodiment and by referring to the accompanying drawings.
While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the drawings and detailed description thereto are not intended to limit the invention to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents and alternatives falling within the spirit and scope of the present invention as defined by the appended claims.
In the following embodiments, it is described about connectors configured to be mounted on and fixed to respective printed circuit boards (i.e. objects). In other words, the object according to the embodiment described below is a printed circuit board. However, the object according to the present invention may not be a printed circuit board. In other words, the connector according to the present invention is fixable to various circuit boards (i.e. objects) including a printed circuit board, an FPC and an FFC.
Referring to
As shown in
As can be seen from
The body portion 40 according to the present embodiment has a square tube-like shape extending short in the front-to-rear direction (X-direction). As seen from the front (i.e. from the positive X-side), the body portion 40 has a rectangular shape which is long in the lateral direction (Y-direction). The body portion 40 is thus configured so that the body portion 40 is formed with a receiving portion 4 for receiving the mating connector 5 (see
In detail, the body portion 40 has two side portions 50, an upper portion 60 and a bottom portion 65. The side portion 50 extends roughly in a plane (i.e. in the XZ-plane) perpendicular to the lateral direction (Y-direction) except a curve of a bending portion which is formed when the metal plate is bent. In other words, the side portion 50 has a plate-like shape extending in an upper-to-lower direction (Z-direction). Each of the side portions 50 has an upper edge 52 and a lower edge 54 in the upper-to-lower direction (Z-direction). Each of the upper portion 60 and the bottom portion 65 has a plate-like shape extending in parallel to a predetermined plane (i.e. the XY-plane which is a horizontal plane perpendicular to the upper-to-lower direction). The upper portion 60 is located at an upper side of the shell 30 in the upper-to-lower direction (Z-direction) while the bottom portion 65 is located at a lower side of the shell 30 in the upper-to-lower direction (Z-direction). The upper portion 60 couples the upper edges 52 of the two side portions 50 with each other in the lateral direction (Y-direction) which is in parallel to the predetermined plane. Similarly, the bottom portion 65 couples the lower edges 54 of the two side portions 50 with each other in the lateral direction (Y-direction). Each of the side portions 50 is formed with a post 56 at a rear end thereof. Accordingly, the body portion 40 has the two posts 56. The posts 56 extend downward (i.e. in the negative Z-direction). The posts 56 are inserted in and fixed (for example, soldered) to respective through holes (not shown) of the circuit board (not shown) when the connector 1 is mounted on the circuit board (not shown). The bottom portion 65 according to the present embodiment is comprised of two parts. The two parts of the bottom portion 65 are swaged so as to be connected to each other in the vicinity of the middle in the lateral direction (Y-direction).
The fixed portion 70 has a base portion 75, a strengthener 80 and a flange 85. The base portion 75 is located outward of the side portion 50 in the lateral direction (Y-direction). The strengthener 80 extends inward in the lateral direction (Y-direction) from the base portion 75 beyond the side portion 50. The flange 85 extends outward in the lateral direction (Y-direction) from the base portion 75.
The base portion 75 extends in parallel to the side portion 50. In other words, the base portion 75 extends in a plane (i.e. in the XZ-plane) perpendicular to the lateral direction (Y-direction). The side portion 50 is connected to the base portion 75 (i.e. the fixed portion 70) at the front end 2 of the connector 1 so that the shell 30 is provided with a boundary portion 90 located between the side portion 50 and the fixed portion 70. The boundary portion 90 is located in the vicinity of the front end 2 of the connector 1 (i.e. located at a side where the mating end 2 is provided). The boundary portion 90 according to the present embodiment extends in the upper-to-lower direction (Z-direction). In other words, the boundary portion 90 extends in a direction perpendicular to the predetermined plane (XY-plane). The boundary portion 90 may extend in a direction crossing the upper-to-lower direction (Z-direction). However, if the boundary portion 90 extends in parallel to the predetermined plane (XY-plane), the shell 30 might be easily deformed when the connector 1 receives an upward force (i.e. a force along the positive Z-direction). Accordingly, it is preferred that the boundary portion 90 extend in a direction crossing the predetermined plane (XY-plane) in order to ensure the strength of the shell 30.
The strengthener 80 extends from an upper end of the base portion 75 along the lateral direction (Y-direction). The strengthener 80 extends inward of the connector 1 beyond the side portion 50. Accordingly, as seen from above along the upper-to-lower direction (Z-direction), the strengthener 80 intersects with the side portion 50. The strengthener 80 according to the present embodiment extends to (i.e. is located on) an upper side (i.e. the positive Z-side) of the upper portion 60 so as to at least partially overlap the upper portion 60. Moreover, the strengthener 80 according to the present embodiment extends in the lateral direction (Y-direction) so as to be partially located over the receiving portion 4. Accordingly, the strengthener 80 is partially located over the mating connector 5 under the mated state of the connector 1 with the mating connector 5. The strengthener 80 according to the present embodiment has a constant size in the front-to-rear direction (X-direction) so that the strengthener 80 has a rectangular shape. However, the strengthener 80 may have a shape other than the rectangular shape. For example, the strengthener 80 may have an L-like shape. Moreover, the strengthener 80 may extend rearward of the base portion 75. For example, the strengthener 80 may extend to the rear-end portion 24 of the holding member 20. In this case, the strengthener 80 may be bent so as to cover a rear side of the rear-end portion 24 of the holding member 20.
Each of the flanges 85 is provided with a hole 88. The holes 88 are used when the connector 1 is screwed on the circuit board (not shown). In other words, the flanges 85 are able to be screwed to the circuit board (not shown). However, the flanges 85 may be fixed by soldering.
Referring to
For example, the mating connector 5 is a cable connector connected to a cable. In this case, when the cable is swayed, such a force that detaches the connector 1 from the circuit board (not shown) may be applied to the connector 1 from the mating connector 5. According to the present embodiment, the boundary portion 90 is perpendicular to the predetermined plane (XY-plane) so that the side portion 50 is not easily away from the fixed portion 70 even when the aforementioned force is applied. Moreover, even if the aforementioned force is large, the strengthener 80 is brought into contact with the upper portion 60 so that the force is distributed on the strengthener 80. Accordingly, it is possible to prevent the boundary portion 90 from being damaged by receiving a stress concentration.
Referring to
As can be seen from
The body portion 40A according to the present embodiment has a square tube-like shape extending short in the front-to-rear direction (X-direction). As seen from the front (i.e. from the positive X-side), the body portion 40A has a rectangular shape which is long in the lateral direction (Y-direction). The body portion 40A is thus configured so that the body portion 40A is formed with the receiving portion 4 for receiving the mating connector 5 (see
In detail, the body portion 40A has the two plate-like side portions 50, a plate-like upper portion 60A and the plate-like bottom portion 65. The side portion 50 extends roughly in a plane (i.e. in the XZ-plane) perpendicular to the lateral direction (Y-direction) except the curve of the bending portion which is formed when the metal plate is bent. Each of the upper portion 60A and the bottom portion 65 extends in parallel to the predetermined plane (i.e. the XY-plane which is a horizontal plane). The upper portion 60A is located at an upper side of the shell 30A in the upper-to-lower direction (Z-direction) while the bottom portion 65 is located at a lower side of the shell 30A in the upper-to-lower direction (Z-direction). The upper portion 60A couples the upper edges 52 of the two side portions 50 with each other in the lateral direction (Y-direction). Similarly, the bottom portion 65 couples the lower edges 54 of the two side portions 50 with each other in the lateral direction (Y-direction). Each of the side portions 50 is formed with the post 56 at the rear end thereof. Accordingly, the body portion 40A has the two posts 56. The posts 56 extend downward (i.e. in the negative Z-direction). The bottom portion 65 according to the present embodiment is comprised of the two parts. The two parts of the bottom portion 65 are swaged so as to be connected to each other in the vicinity of the middle in the lateral direction (Y-direction).
The upper portion 60A according to the present embodiment is formed with a notch 62A. The notch 62A is recessed inward in the lateral direction (Y-direction) from the upper edge 52 of the side portion 50 so as to be partially located over the receiving portion 4. The notch 62A is partially located over the mating connector 5 under the mated state of the connector 1A with the mating connector 5.
The fixed portion 70A has a base portion 75A, a strengthener 80A and a flange 85A. The base portion 75A is located outward of the side portion 50 in the lateral direction (Y-direction). The strengthener 80A extends inward in the lateral direction (Y-direction) from the base portion 75A beyond the side portion 50. The flange 85A extends outward in the lateral direction (Y-direction) from the base portion 75A.
Similar to the base portion 75 (see
The strengthener 80A is located in the vicinity of the upper portion 60A in the upper-to-lower direction (Z-direction). The strengthener 80A extends inward in the lateral direction (Y-direction) from the base portion 75A. In detail, the strengthener 80A extends in the notch 62A from an upper end of the base portion 75A along the lateral direction (Y-direction) over the upper edge 52 of the side portion 50. The strengthener 80A according to the present embodiment extends in the lateral direction (Y-direction) so as to be partially located over the receiving portion 4. Accordingly, the strengthener 80A is partially located over the mating connector 5 under the mated state of the connector 1A with the mating connector 5. The strengthener 80A according to the present embodiment has a constant size in the front-to-rear direction (X-direction) so that the strengthener 80A has a rectangular shape. However, the strengthener 80A may have a shape other than the rectangular shape. For example, the strengthener 80A may have an L-like shape. Moreover, the strengthener 80A may extend rearward of the base portion 75. In this case, the strengthener 80A may be bent so as to cover the rear side of the rear-end portion 24 of the holding member 20.
Each of the flanges 85A is provided with the hole 88. The holes 88 are used when the connector 1A is screwed on the circuit board (not shown). However, the flanges 85A may be fixed by soldering. As can be seen from
Similar to the first embodiment, the boundary portion 90 according to the present embodiment is perpendicular to the predetermined plane (i.e. the XY-plane which is a horizontal plane). Accordingly, the side portion 50 is not easily away from the fixed portion 70A even if such a force that detaches the connector 1A from the circuit board (not shown) is applied to the connector 1A. Moreover, even if the aforementioned force is large, the strengthener 80A is brought into contact with the upper edge 52 of the side portion 50 and the mating connector 5 so that the force is distributed on the strengthener 80A. Accordingly, it is possible to prevent the boundary portion 90 from being damaged by receiving a stress concentration.
The strengthener 80A according to the present embodiment is located at the almost same position as the upper portion 60A of the body portion 40A of the shell 30A in the upper-to-lower direction (Z-direction). Accordingly, a size in the upper-to-lower direction (Z-direction) of the connector 1A according to the present embodiment is smaller than a size in the upper-to-lower direction (Z-direction) of the connector 1 (see
Referring to
Referring to
As can be seen from
The body portion 40B according to the present embodiment is configured similar to the body portion 40 (see
In detail, the body portion 40B has two plate-like side portions 50B, the plate-like upper portion 60 and the plate-like bottom portion 65. The side portion 50B extends roughly in a plane (i.e. in the XZ-plane) perpendicular to the lateral direction (Y-direction) except a curve of a bending portion which is formed when the metal plate is bent. Each of the upper portion 60 and the bottom portion 65 extends in parallel to the predetermined plane (i.e. the XY-plane which is a horizontal plane). The upper portion 60 couples the upper edges 52 of the two side portions 50B with each other in the lateral direction (Y-direction). Similarly, the bottom portion 65 couples the lower edges 54 of the two side portions 50B with each other in the lateral direction (Y-direction). Each of the side portions 50B is formed with the post 56 at a rear end thereof. Accordingly, the body portion 40B has the two posts 56. The posts 56 extend downward (i.e. in the negative Z-direction). The bottom portion 65 according to the present embodiment is comprised of the two parts. The two parts of the bottom portion 65 are swaged so as to be connected to each other in the vicinity of the middle in the lateral direction (Y-direction).
Referring to
The fixed portion 70B has a base portion 75B, a strengthener 80B and the flange 85. The base portion 75B is located outward of the side portion 50B in the lateral direction (Y-direction). The strengthener 80B extends inward in the lateral direction (Y-direction) from the base portion 75B beyond the side portion 50B. The flange 85 extends outward in the lateral direction (Y-direction) from the base portion 75B.
Similar to the base portion 75 (see
The strengthener 80B extends inward in the lateral direction (Y-direction) from the base portion 75B. In detail, the strengthener 80B extends in the receiving portion 4 from an upper end of the base portion 75B while passing through the opening 58B of the side portion 50B along the lateral direction (Y-direction). In other words, the strengthener 80B pierces the side portion 50B in the lateral direction (Y-direction). The strengthener 80B is at least partially inserted in the engaging channel 8B of the mating connector 5B under the mated state of the connector 1B with the mating connector 5B.
Each of the flanges 85 is provided with the hole 88. The holes 88 are used when the connector 1B is screwed on the circuit board (not shown). However, the flanges 85 may be fixed by soldering.
Similar to the first embodiment, the boundary portion 90 according to the present embodiment is perpendicular to the predetermined plane (i.e. the XY-plane which is a horizontal plane). Accordingly, the side portion 50B is not easily away from the fixed portion 70B even if such a force (i.e. an upward force) that detaches the connector 1B from the circuit board (not shown) is applied to the connector 1B. Moreover, the strengthener 80B according to the present embodiment is held by the engaging channel 8B of the mating connector 5B. Accordingly, even if the aforementioned force is large, the strengthener 80B is brought into contact with an inner wall of the engaging channel 8B and an edge of the opening 58B of the side portion 50B so that the force is distributed on the strengthener 80B. Accordingly, it is possible to prevent the boundary portion 90 from being damaged by receiving a stress concentration.
According to the present embodiment, a holding of the strengthener 80B by the engaging channel 8B regulates a movement of the strengthener 80B in the upper-to-lower direction (Z-direction). Accordingly, it is possible to prevent the shell 30B from being deformed not only when the upward force is applied to the connector 1B but also when a downward force is applied to the connector 1B.
Referring to
As shown in
As can be seen from
Similar to the third embodiment, the body portion 40C according to the present embodiment has a square tube-like shape. As seen from the front (i.e. from the positive X-side), the body portion 40C has a rectangular shape which is long in the lateral direction (Y-direction). The body portion 40C is thus configured so that the body portion 40C is formed with the receiving portion 4 for receiving the mating connector 5B (see
In detail, the body portion 40C has two plate-like side portions 50C, the plate-like upper portion 60 and the plate-like bottom portion 65. The side portion 50C extends roughly in a plane (i.e. in the XZ-plane) perpendicular to the lateral direction (Y-direction) except a curve of a bending portion which is formed when the metal plate is bent. Each of the upper portion 60 and the bottom portion 65 extends in parallel to the predetermined plane (i.e. the XY-plane which is a horizontal plane). The upper portion 60 couples the upper edges 52 of the two side portions 50C with each other in the lateral direction (Y-direction). Similarly, the bottom portion 65 couples the lower edges 54 of the two side portions 50C with each other in the lateral direction (Y-direction). Each of the side portions 50C is formed with the post 56 at a rear end thereof. Accordingly, the body portion 40C has the two posts 56. The posts 56 extend downward (i.e. in the negative Z-direction). The bottom portion 65 according to the present embodiment is comprised of the two parts. The two parts of the bottom portion 65 are swaged so as to be connected to each other in the vicinity of the middle in the lateral direction (Y-direction).
Referring to
The fixed portion 70C has a base portion 75C, a strengthener 80C and the flange 85. The base portion 75C is located outward of the side portion 50C in the lateral direction (Y-direction). The strengthener 80C extends inward in the lateral direction (Y-direction) from the base portion 75C beyond the side portion 50C. The flange 85 extends outward in the lateral direction (Y-direction) from the base portion 75C.
Similar to the base portion 75B (see
The strengthener 80C extends inward in the lateral direction (Y-direction) from the base portion 75C. In detail, the strengthener 80C extends in the receiving portion 4 from an upper end of the base portion 75C while passing through the opening 58C of the side portion 50C along the lateral direction (Y-direction). In other words, the strengthener 80C pierces the side portion 50C in the lateral direction (Y-direction). The strengthener 80C is at least partially inserted in the ditch 28C of the holding member 20C. Moreover, the strengthener 80C is at least partially inserted in the engaging channel 8B of the mating connector 5B under the mated state of the connector 1C with the mating connector 5B.
Each of the flanges is provided with the hole 88. The holes 88 are used when the connector 1C is screwed on the circuit board (not shown). However, the flanges 85 may be fixed by soldering.
Similar to the third embodiment, the boundary portion 90 according to the present embodiment is perpendicular to the predetermined plane (i.e. the XY-plane which is a horizontal plane). Accordingly, the side portion 50C is not easily away from the fixed portion 70C even if such a force (i.e. an upward force) that detaches the connector 1C from the circuit board (not shown) is applied to the connector 1C. Moreover, the strengthener 80C according to the present embodiment is held by the ditch 28C of the holding member 20C and the engaging channel 8B of the mating connector 5B. Accordingly, even if the aforementioned force is large, the strengthener 80C is brought into contact with an inner wall of the ditch 28C, the inner wall of the engaging channel 8B and an edge of the opening 58C of the side portion 50C so that the force is distributed on the strengthener 80C. Accordingly, it is possible to prevent the boundary portion 90 from being damaged by receiving a stress concentration.
According to the present embodiment, the holding of the strengthener 80C by both the ditch 28C and the engaging channel 8B regulates a movement of the strengthener 80C in the upper-to-lower direction (Z-direction). Accordingly, it is possible to prevent the shell 30C from being deformed not only when the upward force is applied to the connector 1C but also when a downward force is applied to the connector 1C.
According to the aforementioned embodiments, the base portion of the fixed portion is connected to the side portion at the front end side (a side configured to be mated with the mating connector) of the connector. However, the base portion and the fixed portion may be connected at a position different from the front end of the connector. For example, the base portion may be formed by bending the metal plate forward at a rear side position (for example, a position where the post is formed). In this case, the base portion is connected to the side portion at a rear end side of the connector. However, as considering the strength against the swaying of the mating connector, it is preferred to connect the base portion to the side portion at the front end side of the connector.
Each of the connectors according to the aforementioned embodiments comprises the only two fixed portions. However, the connector may comprise three or more fixed portions. For example, it is possible to form the two fixed portions at each of the opposite ends in the lateral direction of the connector. In detail, the base portion of one of the two fixed portions may be connected to the front end side of the connector while the base portion of another one of the two fixed portions may be connected to the rear end side of the connector. In this case, the connector comprises the four fixed portions in all.
The present application is based on a Japanese patent application of JP2012-014148 filed before the Japan Patent Office on Jan. 26, 2012, the contents of which are incorporated herein by reference.
While there has been described what is believed to be the preferred embodiment of the invention, those skilled in the art will recognize that other and further modifications may be made thereto without departing from the spirit of the invention, and it is intended to claim all such embodiments that fall within the true scope of the invention.
Number | Date | Country | Kind |
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2012-014148 | Jan 2012 | JP | national |