JP2022029613A - connector - Google Patents

Abstract

To provide a connector whose frame is provided with a bent part while ensuring the performance and so forth of the frame.SOLUTION: A connector comprises: a housing to which a contact is fitted; and a frame whose end in a first direction is fixed to a substrate, and which surrounds the housing. An end portion, of the frame, on the substrate side in the first direction is provided with: a bent part which is bent in a second direction intersecting the first direction; and a pair of adjacent surfaces which are adjacent to both end surfaces of the bent part in a third direction intersecting the first direction and the second direction.SELECTED DRAWING: Figure 17

Description

The present invention relates to a connector, in particular a connector that is matable to a mating connector in a first direction and whose housing holding a contact is surrounded by a frame.

As an example of a connector that fits with the mating connector, the connector described in Patent Document 1 (hereinafter referred to as connector 1) can be mentioned. The connector 1 is a receptacle connector and fits vertically with a mating connector (not shown) which is a plug connector.

As shown in FIG. 20, the connector 1 is configured by surrounding a housing 3 (insulating member) holding a contact 2 (connection terminal) with a substantially rectangular frame 4 (fixed terminal). The frame 4 is fixed to a substrate (not shown) and is arranged at a position facing the side wall surface of the housing 3.

Further, as shown in FIG. 21, protrusions 5 and 6 are provided on the lower portion of the frame 4. The protrusions 5 and 6 are bent toward the side (that is, the inside) where the housing 3 is located when the frame 4 is viewed from above. Then, the housing 3 is held by the frame 4, specifically, the protrusions 5 and 6 by inserting the tip portions of the protrusions 5 and 6 into a predetermined portion of the housing 3.

Japanese Unexamined Patent Publication No. 2016-12553

As shown in FIG. 21, the frame 4 is notched at positions on both sides of the protrusions 5 and 6, and more specifically, a punched hole 7 is formed. The punching hole 7 is provided for providing the protrusions 5 and 6, that is, is provided for the purpose of cutting and bending the sheet metal constituting the frame 4 to form the protrusions 5 and 6. It is a hole. By providing the punched holes 7, the protrusions 5 and 6 are formed on the frame 4, that is, the cutting and bending process becomes relatively easy, while the through holes are formed in the frame 4, so that the frame has a shielding property. There is a risk that the performance of 4 and the strength of the frame 4 will deteriorate.

The present invention has been made in view of the above circumstances, and an object of the present invention is to solve the following object. An object of the present invention is to solve the above-mentioned problems of the prior art and to provide a connector in which a bent portion is provided in the frame while ensuring the performance of the frame and the like.

In order to achieve the above object, the connector of the present invention is a connector that can be fitted to the mating connector in the first direction, and the housing to which the contact is attached and the end in the first direction are fixed to the substrate. Further, a frame surrounding the housing is provided, and the end portion of the frame on the substrate side in the first direction has a bent portion bent in the second direction intersecting the first direction, and the first direction and the second. It is characterized in that a pair of adjacent surfaces adjacent to both end surfaces of the bent portion are provided in a third direction intersecting each of the directions.

According to the connector of the present invention configured as described above, the end portion of the frame on the substrate side in the first direction is provided with a bent portion, and both end faces of the bent portion are both of the bent portion. It is adjacent to the surface (adjacent surface) located on the side. That is, since there are no notches such as punched holes at the positions on both sides of the bent portion, it is possible to suppress deterioration of the performance of the frame due to the formation of the notches.

Further, in the connector of the present invention, the frame may be a frame for electromagnetic shielding set to the ground potential. In this case, the effect of the present invention becomes more meaningful. That is, since there are no notches at the positions on both sides of the bent portion in the frame, the electromagnetic shielding property of the frame is improved. As a result, the operation of the circuit including the connector becomes stable.

Further, in the connector of the present invention, the end of the frame on the substrate side in the first direction may be fixed to the substrate by solder provided along the outer circumference of the frame over the entire outer circumference. In this case, since the solder is provided over the entire outer circumference of the frame, it is possible to fill the minute gaps and the like existing in the vicinity of the bent portion of the frame with the solder. As a result, the electromagnetic shielding property of the frame is further improved.

Further, in the connector of the present invention, the bent portion is bent toward the side where the housing is located in the second direction, and the end of the bent portion on the side where the housing is located in the second direction is a housing. The housing holding portion for holding the above may be connected. In this case, a bent portion is required to integrate the housing holding portion into the frame, and the present invention in which the bent portion is provided on the frame without providing a notch becomes more effective.

Further, in the connector of the present invention, the contact may include a contact for high frequency signal transmission. In this case, since the frame is used as an electromagnetic shield in the high frequency band, the effect of improving the electromagnetic shielding property of the frame becomes more conspicuous.

Further, in the present invention, the frame is divided into two fragments having the same shape, and each of the two fragments is between a pair of walls extending in the second direction and a pair of walls extending in the third direction. The two pieces may be placed facing each other so as to surround the housing, comprising a contact wall connecting the two pieces.

Further, in the present invention, a plurality of bent portions and a pair of adjacent surfaces having the same number as the bent portions may be provided at the end portion of the frame on the substrate side in the first direction. In this case, in the third direction, both end faces of each of the plurality of bent portions may be adjacent to the corresponding pair of adjacent faces. As a result, even when a plurality of bent portions are provided on the frame, deterioration of the performance of the frame and the like can be suppressed.

Further, in the present invention, each of the pair of adjacent surfaces may be a cut surface formed to provide a bent portion at an end portion of the frame on the substrate side in the first direction.

Further, in the present invention, a plurality of non-bent portions are provided at the end portion of the frame on the substrate side in the first direction, and the bent portions are arranged so as to be sandwiched between the non-bent portions in the third direction. It is preferable that the pair of adjacent surfaces are facing surfaces of the two non-bent portions that sandwich the bent portion with the bent portions.

According to the present invention, when the frame is provided with the bent portion (that is, at the time of cutting and bending), it is not necessary to provide notches such as punching holes at the positions on both sides of the bent portion. It is possible to suppress deterioration of performance and the like.

It is a perspective view of the connector which concerns on one Embodiment of this invention. It is a top view of the connector which concerns on one Embodiment of this invention. It is a bottom view of the connector which concerns on one Embodiment of this invention. It is a front view of the connector which concerns on one Embodiment of this invention. It is a side view of the connector which concerns on one Embodiment of this invention. FIG. 5 is a cross section taken along the line II of FIG. It is a perspective view of the connector mounted on a board. It is a perspective view of the other side connector. It is a perspective view of the connector fitted with the mating side connector. It is a perspective view of the frame of the connector which concerns on one Embodiment of this invention. It is a top view of the frame of the connector which concerns on one Embodiment of this invention. It is a bottom view of the frame of the connector which concerns on one Embodiment of this invention. It is a front view of the frame of the connector which concerns on one Embodiment of this invention. It is a side view of the frame of the connector which concerns on one Embodiment of this invention. It is a perspective view which shows the fragment which constitutes the half of the frame of the connector which concerns on one Embodiment of this invention. FIG. 1 is an enlarged view of the housing holding portion and its surroundings. It is an enlarged perspective view of a bent part. 14 is an enlarged view of the bent portion and its surroundings in FIG. 14. It is a developed view of a frame, and is an enlarged view of the part which becomes a bent part about the sheet metal material which constitutes a frame. It is a perspective view which shows the connector of the conventional example. It is a perspective view which shows only the frame of the connector of the conventional example.

Hereinafter, the connector according to a specific embodiment of the present invention (hereinafter referred to as the present embodiment) will be described with reference to the attached drawings.
It should be noted that the embodiments described below are merely examples for facilitating the understanding of the present invention, and do not limit the present invention. That is, the present invention may be modified or improved from the embodiments described below as long as it does not deviate from the gist thereof. Further, the material, design dimensions, etc. of each component used in the present invention can be freely set according to the intended use of the present invention, the technical level at the time of implementation of the present invention, and the like. Further, the present invention includes an equivalent thereof.

Further, in the following, the three directions orthogonal to each other are defined as the X, Y, and Z directions, and the direction penetrating the substrate CB, which will be described later, in other words, the vertical direction of the connector is defined as the Z direction. Further, the surface of the board CB on which the connector is mounted is the XY surface, the width direction (horizontal direction) of the connector is the X direction, and the front-back direction of the connector is the Y direction.

Further, in the following, for convenience of explanation, the side on which the substrate CB is located when viewed from the connector in the Z direction is referred to as “lower side”, and the opposite side thereof is referred to as “upper side”. The upper side of the connector is the "+ Z side", and the lower side of the connector is the "-Z side".

It should be noted that in the present specification, "orthogonal" and "parallel" include a range of errors generally allowed in the field of connectors, and are less than a few degrees (for example, 2 to 3 °) with respect to exact orthogonality and parallelism. It shall include the state of deviation within the range of.

<< About the connector configuration according to this embodiment >>
The configuration of the connector (hereinafter referred to as the connector 10) according to the present embodiment will be described with reference to FIGS. 1 to 19. FIG. 6 shows the I-I cross section of FIG. 5, and the I-I cross section is a cross section (XZ plane) that passes through the formation position of the bent portion 50 described later.

The connectors 10 are the receptacle connectors shown in FIGS. 1 to 6, and as shown in FIG. 7, they are fixed to the surface of the substrate CB by the solder 11 and mounted on the substrate CB. The connector 10 can be fitted with the mating side connector 100 as the plug connector shown in FIG. 8, and more specifically, as shown in FIG. 9, fits with the mating side connector 100 in the Z direction. The Z direction is the mating direction between the connector 10 and the mating connector 100, and corresponds to the "first direction" of the present invention.

As shown in FIGS. 1 to 5, the connector 10 includes a frame 12 having a substantially rectangular shape in a plan view, a housing 20 arranged inside the frame 12 and surrounded by the frame 12, and a contact 31 attached to the housing 20. , 32 and. The frame 12 and the housing 20 will be described in detail later.

The contact 31 is a contact for low frequency signal transmission or power supply, and a plurality of (four in the configuration shown in FIG. 1) contacts 31 are fitted in the central portion (housing central portion 21) of the housing 20 in the Y direction. ing.
The contact 32 is a contact for high frequency signal transmission, that is, a terminal for RF (Radio Frequency), and is press-fitted one by one to both ends (housing end 22) of the housing 20 in the Y direction. The high frequency corresponds to, for example, a frequency band of 6 GHz or higher, and is a frequency band including a 28 GHz band used for, for example, 5G (5th Generation).

Further, a recessed space H is provided inside the frame 12 as shown in FIGS. 1 and 7, and when the connector 10 is fitted with the mating connector 100, the mating connector 100 is provided as shown in FIG. Is housed in the recessed space H.

As shown in FIG. 8, the mating side connector 100 has a substantially rectangular mating side frame 102 in a plan view, a bottom wall 104 arranged inside the mating side frame 102, and a contact holding portion protruding from the bottom wall 104. It has 106 and 108. The contact holding portion 106 is arranged at the center of the mating side connector 100 in the Y direction, and the contact holding portion 106 is attached with the same number of mating side contacts 110 as the number of contacts 31. The contact holding portions 108 are arranged at both ends of the mating side connector 100 in the Y direction, and one mating side contact 112 is attached to each contact holding portion 108.

The mating contact 110 corresponds to the contact 31 of the connector 10, and the mating contact 112 corresponds to the contact 32 of the connector 10. Then, in the state where the connector 10 is fitted with the mating connector 100, each of the contacts 31 and 32 is electrically connected to the corresponding mating contacts 110 and 112, and signal transmission between the connectors becomes possible.

(housing)
The housing 20 is an insulator made of an insulating resin, and is held in a frame 12 (specifically, a housing holding portion 46 described later) in a state of being arranged in the recess space H as shown in FIG. As shown in FIGS. 1 to 3, the housing 20 forms a housing central portion 21 forming a central portion in the Y direction, a housing end portion 22 forming a + Y side end portion and an −Y side end portion, and an −Z side end portion. It has a housing bottom 23.

The housing bottom portion 23 extends continuously in the Y direction, and the housing center portion 21 and the two housing end portions 22 each project from the housing bottom portion 23 toward the + Z side.

As shown in FIGS. 1 and 2, the housing central portion 21 has a convex portion (central convex portion 24) in the central portion in the X direction and convex portions (sideways) arranged on both sides of the central convex portion 24 in the X direction. It has a convex portion 25). The central convex portion 24 and the two lateral convex portions 25 extend in the Y direction, respectively, and a concave portion is provided between the central convex portion 24 and the lateral convex portion 25, and a contact 31 is provided in the concave portion. A groove for fitting is provided (see FIG. 1).

The housing end portions 22 on the + Y side and the −Y side have symmetrical structures, and the structure will be described by taking the housing end portion 22 on the −Y side as an example.
As shown in FIGS. 1 and 2, the housing end portion 22 has a symmetrical structure with respect to the center position in the X direction of the connector 10. The + X side portion and the −X side portion of the housing end portion 22 have an inner convex portion 26 and an outer convex portion 27, respectively, as shown in FIG. The inner convex portion 26 is arranged at a position connected to the lateral convex portion 25 of the housing central portion 21 in the Y direction, and the outer convex portion 27 is an inner convex portion at a position outside the inner convex portion 26 in the Y direction. It is arranged side by side with 26.

In the housing end portion 22, the contact 32 is press-fitted inward in the X direction into the gap between the outer convex portion 27 on the + X side and the outer convex portion 27 on the −X side (see FIG. 2). Further, in the housing end portion 22, the housing holding portion 46 is inserted into the concave portion provided between the inner convex portion 26 and the outer convex portion 27 (see FIG. 16).

(flame)
As shown in FIGS. 10 to 12, the frame 12 is a substantially rectangular frame in a plan view, and surrounds the housing 20 in the X and Y directions. The frame 12 is made of a metal plate, and is made of a copper alloy such as brass and bronze or a stainless steel plate material. The thickness of the metal plate constituting the frame 12 is set to, for example, 0.06 mm to 0.15 mm.

The lower end of the frame 12 (the end on the −Z side) is fixed to the substrate CB by the solder 11. As shown in FIG. 7, the solder 11 is provided along the outer circumference of the frame 12 over the entire outer circumference. That is, the lower end of the frame 12 (the end on the substrate CB side in the Z direction) is fixed to the substrate CB with solder 11 over the entire outer circumference of the frame 12.

Further, the frame 12 of the present embodiment is a frame (shell) for electromagnetic shielding set to the ground potential. Specifically, a conductive pattern (not shown) for grounding formed according to the outer shape of the frame 12 is provided on the upper surface (the surface on the + Z side) of the substrate CB, and the frame 12 is provided with this conductive pattern (not shown). It is fixed to the substrate CB in a state of being placed on the conductive pattern.

As described above, the lower end of the frame 12 and the substrate CB are fixed by solder over the entire outer circumference of the frame 12, and the gap between the frame 12 and the substrate CB is fixed over the entire outer circumference of the frame 12. Is filled with solder 11. Further, in the frame 12, a small gap between the portion bent to form the bent portion 50 described later (specifically, the portion between the pair of adjacent surfaces 52 described later) and the substrate CB is also soldered. It is filled with 11. As a result, the intrusion and emission of electromagnetic waves from the gap between the frame 12 and the substrate CB are suppressed, and the electromagnetic shielding property of the frame 12 is improved.

As shown in FIGS. 10 to 14, the frame 12 has a pair of long side walls 13 and 14 arranged in the X direction and a pair of short side walls 15 and 16 arranged in the Y direction. The long side walls 13 and 14 and the short side walls 15 and 16 intersect each other and are strictly orthogonal to each other. The frame 12 has a plurality of (specifically, four) corner portions 19, and the long side walls 13 and 14 and the short side walls 15 and 16 are connected by the corner portions 19. Each corner portion 19 may be curved in an R shape as shown in FIGS. 3 and 4, or may be bent in an L shape at a substantially right angle.

The pair of long side walls 13 and 14 are arranged in parallel with each other, extend long in the Y direction, and have a symmetrical structure with the central position of the connector 10 in the X direction as a boundary. Here, the direction penetrating the long side walls 13 and 14, that is, the X direction corresponds to the second direction of the present invention, intersects the Z direction which is the first direction, and is a direction orthogonal to each other in detail. Further, the extending direction of the long side walls 13 and 14, that is, the Y direction corresponds to the third direction of the present invention, intersects each of the X direction and the Z direction, and is a direction orthogonal to each other in detail.

The pair of short side walls 15 and 16 are arranged in parallel with each other, extend in the X direction, and have a symmetrical structure with the center position in the Y direction of the connector 10 as a boundary. As shown in FIGS. 2 and 4, each of the short side walls 15 and 16 is divided into two walls 17 and 18 at the center position in the X direction of the connector 10. The two walls 17 and 18 extend in the X direction and have a symmetrical structure with the central position of the connector 10 in the X direction as a boundary.

As shown in FIG. 13, the two walls 17 and 18 are arranged in a linearly aligned state slightly separated from each other in the X direction. In other words, the frame 12 is divided into two fragments 12A and 12B having the same shape in the X direction as shown in FIGS. 10 to 12. The two fragments 12A and 12B have symmetrical shapes with respect to the center position in the X direction of the connector 10, and are in a mirror image relationship in detail. Then, as shown in FIGS. 1 and 2, the two fragments 12A and 12B are arranged so as to surround the housing 20 so as to face each other.

Hereinafter, the configurations of the two fragments 12A and 12B that are in a mirror image relationship with each other will be described by taking as an example the fragment 12A on the + X side (hereinafter, simply referred to as fragment 12A) shown in FIG. The fragment 12A is made of one metal plate and has a long side wall 13 on the + X side and a pair of walls 17 arranged at both ends thereof as shown in FIG. The pair of walls 17 are + X-side walls 17 of the + Y-side short side wall 15 and the −Y-side short side wall 16, respectively, and extend in the X direction (second direction). The long side wall 13 extends in the Y direction (third direction), and connects the outer ends of each of the pair of walls 17 in the X direction. That is, the long side wall 13 corresponds to a connecting wall connecting between the pair of walls 17.

Each of the long side wall 13 and the pair of walls 17 has a wall body portion 41 as shown in FIGS. 10 to 15. The wall main body 41 of the long side wall 13 rises from the substrate CB to the + Z side and extends along the Y direction. Each wall main body 41 of the pair of walls 17 rises from the substrate CB to the + Z side and extends along the X direction. As shown in FIGS. 13 to 15, each wall main body 41 has a lower portion 42 located on the substrate CB side (-Z side) and an upper portion 43 extending further from the lower portion 42 to the + Z side.

The lower portion 42 corresponds to the end portion of the frame 12 on the substrate CB side in the Z direction, extends continuously in the Y direction, and the lower end of the lower portion 42 is in contact with the substrate CB.
As shown in FIGS. 13 to 15, the upper portion 43 is bent in a substantially V shape so that the upper end portion faces the outside (the side opposite to the side where the housing 20 is located). In other words, the upper portion 43 has a substantially V-shaped bent portion 43A at an intermediate position in the Z direction.

As shown in FIG. 14, the upper portion 43 of the wall main body portion 41 constituting the long side wall 13 is divided into a plurality of portions in the Y direction, and specifically, from the central portion 44 and the central portion 44. Is divided into a side portion 45 located on the + Y side and the −Y side. Of these, the lateral portion 45 is provided with the above-mentioned bent portion 43A.

Since the bent portion 43A is provided in the upper portion 43 of the wall main body portion 41, it becomes easy to guide the mating side connector 100 into the recessed space H of the connector 10 when the connector is fitted. Further, by providing the bent portion 43A, the contact state between the frame 12 of the connector 10 and the frame of the mating connector 100 (the mating frame 102) is stable in the connector fitting state.

The structure of the wall main body portion 41 of the long side wall 13 will be described in more detail. As shown in FIGS. In the case, two) bent portions 50 are provided. The bent portion 50 is a portion that is bent inward on the side where the housing 20 is located in the X direction, and the shape of the cross section (cross section orthogonal to the Y direction) is substantially L-shaped as shown in FIG. It is a shape. As shown in FIGS. 11 and 12, the bent portion 50 has a slight width in the Y direction and extends straight in the X direction. The bent portion 50 may be bent at a substantially right angle in an L shape as shown in FIG. 6, or may be bent in an R shape (arc shape).

The bent portion 50 is provided to integrate the housing holding portion 46 that holds the housing 20 with the frame 12. Specifically, as shown in FIGS. 10 to 11, the housing holding portion 46 is connected to the inner end portion in the X direction (that is, the end portion on the side where the housing 20 is located) of the bent portions 50. There is.

The housing holding portion 46 rises from the inner end portion of the bent portion 50 in the X direction to the + Z side, and both ends of the housing holding portion 46 in the Y direction are tapered toward the Y direction end. In the present embodiment, the housing holding portion 46 is continuous with the bent portion 50, that is, integrated with the frame 12, and is composed of a part of a metal plate forming the frame 12.

To outline the procedure for assembling the housing 20 to the frame 12, the frame 12 before assembly is brought close to the housing 20 from above the housing 20, and the housing 20 enters the frame 12, that is, the recessed space H. In the process, the housing holding portion 46 is inserted into the concave portion provided between the inner convex portion 26 and the outer convex portion 27 at the housing end portion 22. Then, both ends of the housing holding portion 46 in the Y direction bite into the outer wall surface in the Y direction of the inner convex portion 26 and the inner wall surface in the Y direction of the outer convex portion 27, so that the housing holding portion 46 bites into the inner convex portion 26 and the outer convex portion 27. Can be assembled (engaged) in.

Further, in the present embodiment, the bent portion 50 is provided with a shielding portion 47 for crosstalk countermeasures together with the housing holding portion 46. The shielding portion 47 constitutes a crosstalk shielding wall (not shown) together with the mating side shielding portion 114 provided on the mating side connector 100 in a state where the connector 10 is fitted with the mating side connector 100. With this shielding wall, crosstalk of a signal (specifically, a high frequency signal) between the contact 32 on the + Y side and the contact 32 on the −Y side can be suppressed. As shown in FIG. 15, the shielding portion 47 is connected to the housing holding portion 46 by a connecting portion 48 extending from the upper end (+ Z side end) of the housing holding portion 46, and is connected to the housing holding portion 46 via the housing holding portion 46 and the connecting portion 48. It is attached to the bent portion 50.

By the way, when the above-mentioned bent portion 50 is provided at the lower end portion of the frame 12 (that is, the lower portion 42 of the wall main body portion 41), it is usually at a position corresponding to both sides of the bent portion 50 as shown in FIG. A notch such as a punched hole is provided in the base material of the frame 12. Then, the base material of the frame 12 is cut and bent with respect to the portion located between the notches. However, if a notch such as a punched hole is formed in the lower part of the frame 12, electromagnetic waves may enter or be emitted from the notch, so that the electromagnetic shielding property of the frame 12 may be impaired. In addition, the strength of the frame 12 may decrease due to the formation of the notch.

On the other hand, in the present embodiment, as shown in FIGS. 17 and 18, notches are not provided at both side positions of the bent portion 50, that is, a pair of both end faces 51 of the bent portion 50 in the Y direction. It is adjacent to the adjacent surface 52 of.

Specifically, as shown in FIG. 18, a plurality of non-bent portions 53 are provided in the lower portion 42 of the wall main body portion 41 constituting the long side wall 13. The non-bent portion 53 is a portion of the lower portion 42 of the wall main body portion 41 adjacent to the bent portion 50 in the Y direction. Then, in the Y direction, the bent portion 50 (strictly speaking, the root portion of the bent portion 50) is sandwiched and arranged between the two non-bent portions 53. The pair of adjacent surfaces 52 are facing surfaces to the bent portion 50, and are provided on each of the two non-bent portions 53 that sandwich the bent portion 50.

More specifically, in the state where the wall main body 41 is expanded (for easy understanding, the state before the portion to be the bent portion 50 is cut and bent), the portion to be the bent portion 50 and the non-bent portion are as shown in FIG. The portion that becomes 53 and the portion that becomes 53 are continuously arranged in the Y direction. Further, at the boundary position between the portion that becomes the bent portion 50 and the portion that becomes the non-bent portion 53, the lower portion 42 of the wall main body portion 41 is cut in the X direction.

Then, a bent portion 50 is formed in the lower portion 42 by cutting and bending a portion of the lower portion 42 of the wall main body portion 41 located between the cut portions, and both end faces 51 of the bent portion 50 are formed at both side positions thereof. A pair of adjacent adjacent surfaces 52 are provided. In other words, it can be said that each of the pair of adjacent surfaces 52 is a cut surface formed to provide the bent portion 50 on the lower portion 42.

Further, in the present embodiment, as shown in FIGS. 10 to 12 and 14, a plurality of bent portions 50 are provided at the lower portion 42 of the wall main body portion 41 constituting the long side wall 13 with the center position of the connector 10 in the Y direction as a boundary. It is provided so as to be arranged symmetrically. Further, the lower portion 42 is provided with a pair of adjacent surfaces 52 having the same number as the bent portions 50. Then, in the Y direction, both end faces 51 of each of the plurality of bent portions 50 are adjacent to the corresponding pair of adjacent faces 52. The pair of adjacent surfaces 52 corresponding to the bent portion 50 are provided on each of the two non-bent portions 53 sandwiching the bent portion 50, that is, the surfaces facing the bent portion 50.

As described above, in the present embodiment, there is no gap (notch) between the bent portion 50 and the two non-bent portions 53 that sandwich the bent portion 50. In other words, in the Y direction, the distance between the two non-bent portions 53 substantially coincides with the width (length in the Y direction) of the bent portion 50. As described above, the above-mentioned problems are solved by the absence of notches at the positions on both sides of the bent portion 50 in the frame 12. That is, since it is possible to avoid the intrusion and emission of electromagnetic waves from the notch, the electromagnetic shielding property of the frame 12 is improved, and as a result, the operation of the entire circuit including the connector 10 is stabilized.

In the present embodiment, the contact 32 for high frequency signal transmission is included in the contacts included in the connector 10. Therefore, the effect of improving the electromagnetic shielding property of the frame 12 is exhibited in the high frequency band because there are no notches at the positions on both sides of the bent portion 50 in the frame 12.

Although both end faces 51 of the bent portion 50 and the pair of adjacent surfaces 52 are adjacent to each other as described above, strictly speaking, both end faces 51 of the root portion of the bent portion 50 and the pair of adjacent surfaces 52 are adjacent to each other. is doing. Regarding the portion of the bent portion 50 other than the root portion (for example, a portion extending inward in the X direction), both end faces thereof may be separated from the pair of adjacent surfaces 52 in the X direction (second direction).

<< Other Embodiments >>
Although the connector of the present invention has been described above with specific examples, the above-described embodiment is merely an example given for facilitating the understanding of the present invention, and embodiments other than the above are also conceivable. obtain. For example, in the above-described embodiment, the number of the bent portions 50 provided on the long side walls 13 and 14 of the frame 12 is a plurality (two in the case shown in the figure), but the number of the bent portions 50 is particularly limited. However, at least one or more may be provided.

Further, the structure is not limited to the configuration in which the bent portion 50 is provided on the long side walls 13 and 14, and the bent portion 50 may be provided on the short side walls 15 and 16. In this case, the direction penetrating the short side walls 15 and 16 (that is, the Y direction) is the second direction, and the direction in which the short side walls 15 and 16 extend (that is, the X direction) is the third direction.

Further, in the above-described embodiment, the outer shape of the frame 12 is a rectangular shape long in the Y direction, but the present invention is not limited to this. The outer shape of the frame may be a quadrangle other than a rectangle such as a circle, a trapezoid, or a rhombus, or a polygonal shape other than the quadrangle. Further, in the above-described embodiment, the frame 12 is a frame for electromagnetic shielding, but the present invention is not limited to this. The present invention is also applicable to frames that do not have electromagnetic shielding properties (eg, frames that function as protective frames that protect housings and contacts).

Further, in the above-described embodiment, the contacts 31 and 32 include the contact 32 for high frequency signal transmission, but the present invention is not limited to this. That is, the contact may include only a contact that transmits a signal in a general frequency band or a low frequency signal.

Further, in the above-described embodiment, the frame 12 is divided into two fragments 12A and 12B having the same shape, but the present invention is not limited to this. For example, the frame may be composed of one continuum (specifically, an indivisible frame).

1 Connector 2 Contact 3 Housing 4 Frame 5, 6 Protrusion 7 Punched hole 10 Connector 11 Solder 12 Frame 12A, 12B Fragment 13, 14 Long side wall (communication wall)
15, 16 Short side wall 17, 18 Wall 19 Square 20 Housing 21 Housing center 22 Housing end 23 Housing bottom 24 Central convex 25 Side convex 26 Inner convex 27 Outer convex 31, 32 Contact 41 Wall body Part 42 Lower part 43 Upper part 43A Bending part 44 Central part 45 Side part 46 Housing holding part 47 Shielding part 48 Connecting part 50 Bending part 51 End surface 52 Adjacent surface (cut surface)
53 Non-bent part 100 Opposite side connector 102 Opposite side frame 104 Bottom wall 106, 108 Contact holding part 110, 112 Opposite side contact 114 Opposite side shielding part CB Board H Recessed space

Claims (9)

A connector that can be fitted to the mating connector in the first direction.
The housing to which the contacts are attached and
A frame, the end of which is fixed to the substrate in the first direction and which surrounds the housing, is provided.
At the end of the frame on the substrate side in the first direction,
A bent portion bent in the second direction intersecting with the first direction,
A connector provided with a pair of adjacent surfaces adjacent to both end faces of the bent portion in a third direction intersecting each of the first direction and the second direction. The connector according to claim 1, wherein the frame is a frame for electromagnetic shielding set to a ground potential. The connector according to claim 1 or 2, wherein the end of the frame on the substrate side in the first direction is fixed to the substrate by solder provided along the outer circumference of the frame over the entire outer circumference. .. The bent portion is bent toward the side where the housing is located in the second direction.
The invention according to any one of claims 1 to 3, wherein a housing holding portion for holding the housing is connected to an end portion of the bent portion on the side where the housing is located in the second direction. connector. The connector according to any one of claims 1 to 4, wherein the contact includes a contact for transmitting a high frequency signal. The frame is divided into two fragments having the same shape.
Each of the two fragments
A pair of walls extending in the second direction and a connecting wall extending in the third direction to communicate between the pair of walls are provided.
The connector according to any one of claims 1 to 5, wherein the two pieces are arranged so as to surround the housing so as to face each other. A plurality of the bent portions and the pair of adjacent surfaces having the same number as the bent portions are provided at the end portion of the frame on the substrate side in the first direction.
The connector according to any one of claims 1 to 6, wherein both end faces of each of the plurality of bent portions in the third direction are adjacent to the pair of adjacent adjacent faces. The aspect according to any one of claims 1 to 7, wherein each of the pair of adjacent surfaces is a cut surface formed for providing the bent portion at the end portion of the frame on the substrate side in the first direction. Described connector. A plurality of non-bent portions are provided at the end portion of the frame on the substrate side in the first direction.
In the third direction, the bent portion is sandwiched and arranged between the non-bent portions.
The connector according to any one of claims 1 to 8, wherein the pair of adjacent surfaces are facing surfaces of the two non-bent portions that sandwich the bent portion with the bent portions.

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