JP4491008B2 - Camera module socket - Google Patents

Description

  The present invention relates to a camera module socket for mounting a camera module used in an electronic device in advance on a printed circuit board and attaching the camera module to the printed circuit board when the camera module is attached to the electronic device.

A camera module incorporating an image sensor is required to be downsized as an electronic device such as a mobile phone is downsized. Naturally, a small camera module has been developed while having a high imaging function.
However, the camera module must be provided with functions such as a macro function by taking up as much volume as possible in order to achieve higher functionality.
Therefore, in developing a camera module socket for attaching the camera module to an electronic device or the like, it has been desired to reduce the volume of the socket as much as possible.

Conventional camera module sockets include a surface mount type that is attached to a mounting surface of an electronic circuit board such as an electronic device, and a camera module socket that is inserted through the mounting surface of an electronic circuit board such as an electronic device. There is a through-hole attachment type in which a camera module socket is inserted into an open through hole and the peripheral portion of the socket is fixed to the electronic circuit board. In any type of camera module socket, when the camera module is installed, the contact with the spring force provided on the inner bottom surface of the camera module socket is kept in contact with the contact provided on the bottom surface of the camera module. For this purpose, the camera module has a locking means for fixing the camera module to the camera module socket.
For example, the conventional camera module and camera module socket are fixed as shown in Japanese Patent Laid-Open No. 2006-0667445.
Japanese Patent Laid-Open No. 2006-067445 will be described below as Conventional Example 1.
FIG. 8 is an explanatory perspective view of a conventional camera module socket 112 and camera module 111 as viewed obliquely from above.

The camera module 111 has a substantially cubic shape and a module main body 113 that includes a light receiving element and the like, and a lens that is provided on the upper surface side of the module main body 113 and takes in imaging light so that light is imaged on the light receiving element. Part 114. A plurality of contact pads 121 are provided on the periphery of the bottom surface of the module body 113 opposite to the lens portion 114 so that information as an electrical signal can be transmitted and received. Therefore, the contact pad 121 is provided as an electrical contact that can be electrically connected.
Further, the pair of opposing side surfaces of the module main body 113 are provided with cutout portions 115 on both sides so that the central portion protrudes from the lens portion 114 side toward the bottom surface side, and on the lens portion 114 side of the cutout portion 115. Is formed by projecting a projecting portion 120 so as to project further from the side surface. The protrusions 120 are locking protrusions for locking the camera module socket 112.

The camera module socket 112 includes a hollow connector body 122 having a bowl shape with an upper surface opened. A plurality of contact pins 124 are arranged at the four ends of the bottom surface of the connector main body 122. The contact pins 124 are arranged so that one ends of the contact pins 124 can be contacted and connected to the contact pads 121 of the camera module 111 that are inserted into the camera module socket 112 and locked. The other end of the connector body 122 protrudes to the outside of the connector body 122 from holes formed in the four ends of the bottom surface of the connector body 122.
Further, a shield case 127 made of a thin metal plate and having a substantially rectangular tube shape is provided so as to cover the outer periphery of the side surface of the connector body 122. The shield case 127 has a spring force and is integrated with the connector body 122. Formed as follows.

  In the shield case 127, spring hooks 118 are provided at the upper ends of the side surfaces 127a and 127b facing the side surfaces of the module 111 where the protrusions 120 and 120 are provided, respectively, so as to protrude further upward. At the center of the spring hook 118, a locking hole 117 that is locked to the locking projection 120 of the module body 113 is formed. The spring hook 118 has a spring force, and when a force is applied to the outside so as to oppose the spring force, the spring hooks 118 are moved in a direction in which both spring hooks 118 open.

When the camera module 111 is inserted through the opening on the upper surface side of the camera module socket 112 formed in this way, the locking projection 120 pushes the spring hook 118 outward, and further the insertion proceeds, whereby the locking projection 120. Enters the locking hole 117 of the spring hook 118. The spring hook 118 returns to its original position by the urging force when the locking projection 120 enters the locking hole 117, and the locking projection 120 and the spring hook 118 are locked.
At this time, the contact pad 121 and the contact pin 124 of the camera module 111 are in contact with each other and are in an electrically connected state.

In addition, the conventional example 1 further includes a description of a camera module socket as shown in FIG. 9 as a conventional example.
This will be described below as Conventional Example 2.
Conventional example 2 includes a camera module 201 and a module connector 202 for inserting and fixing the camera module 201, as shown in FIG.
The module 201 is a camera module mounted on a mobile phone or the like. The module 201 includes a module main body 203 formed in a substantially square shape, and a lens unit 204 provided on the module main body 203. Further, on the side surface of the module main body 203, an engaging portion 207 is provided by cutting out from the upper surface on the lens portion 204 side of the module main body 203 to the middle and slightly below. Further, a substrate 205 is attached to the bottom surface of the module body 203 with an adhesive 206, and a plurality of contact pads (not shown) serving as contacts are formed on the side surfaces of the substrate 205 in the vertical direction.

The module connector 202 includes a connector main body 210 having a bowl shape with one end open, and the camera module 201 can be inserted from the open end. The hollow portion 209 of the connector main body 210 is provided with a contact piece (not shown) that can be electrically connected to the contact pad of the substrate 205 on the inner surface thereof.
Further, a shield case 211 is provided outside the connector main body 210 as in the first conventional example, and is integrated with the connector main body 210. The shield case 211 is bent into the hollow portion 209 from the open upper surface side of the module connector 202 with one end as a free end 208a side, and a portion corresponding to the engaging portion 207 of the module 201 has a spring force as a spring hook 208. It is formed. Therefore, the spring hook 208 is cut out from the other part of one end of the shield case 127 to the upper surface of the connector main body 210 and is provided in a section shape. Further, the spring hook 208 protrudes toward the center side with the free tip end extended into the hollow portion 209 inclined so as to gradually approach the center of the hollow portion 209 as it approaches the bottom portion 202a of the connector body 210. Has been.
Therefore, each free tip 208 a of the spring hook 208 is engaged with the upper surface of the substrate 205 when the module 201 is inserted into the hollow portion 209 to a predetermined position so that the module 201 does not come off from the module connector 202. I can do it.

In the second conventional example formed as described above, the module 201 is inserted and attached from the upper surface opening of the module connector 202. That is, when the module 201 is assembled so as to drop into the hollow portion 209 from the upper side of the connector 202, the lower surface of the substrate 205 abuts against the spring hook 208 in the middle. However, when the module 201 is pushed in as it is, the spring hook 208 is released to the outside with elastic deformation, and the module 201 can be pushed in. When the module 201 is further inserted, the lower surface of the substrate 205 comes into contact with the bottom 202a in the hollow portion 209, and the contact pad and the contact piece come into contact (contact). At this time, since the spring hook 208 reaches the notched engaging portion 207, the spring hook 208 enters the engaging portion 207 by its own spring force, and the tip 208a of the spring hook 208 is engaged with the locking surface 207a of the engaging portion 207. Engage with. This engagement is performed by a plurality of spring hooks 208, and the module 201 with respect to the connector 202 is locked and fixed.
Japanese Patent Laid-Open No. 2006-067445

In the above conventional example 1, when the camera module 111 is inserted, the spring hook 118 protruding upward from the side surface of the camera module socket 112 is locked with the protrusion 120 of the module body 113 when the camera module 111 is inserted. Therefore, there is a problem that the overall shape of the camera module socket 112 becomes large.
Further, in the conventional example 1, when the camera module 111 and the camera module socket 112 are locked, the locking mechanism is formed by the protrusion 120 and the spring hook 118. However, in order to maintain an effective locking state, the protrusion 120 is not provided. The camera module 111 has side surfaces 127a and 127b formed in a convex shape that protrudes in the vertical direction, and both ends of the convex shape are recessed, so that it is desired to increase the volume of the camera module socket 112 as much as possible. The volume of the module 111 is reduced, and the volume inside the camera module 111 cannot be increased.

Further, in order to give the spring hook 118 an urging force capable of restoring the position even when moved outward, the shield case 127 provided with the spring hook 118 is not only firmly locked to the connector main body 122 but also the case. Since the strength cannot be obtained unless the shield case 127 is formed in a quadrangular cylindrical shape so as not to be displaced or deformed with respect to the load in the lateral side outward direction, not only the manufacturing is restricted but also the manufacturing cost is reduced. It had the problem of increasing.
Therefore, the conventional example 1 has a problem that the mounting volume for configuring the camera module 111 inside the camera module 111 is smaller than the total volume in which the camera module 111 is mounted in the camera module socket 112. did.

In Conventional Example 2, in order to lock the camera module 201 and the module connector 202, when the camera module 201 is inserted into the module connector 202, the spring hook 208 provided on the module connector 202 is engaged with the engaging portion of the camera module 201. In order to be able to enter 207, it is necessary to form the engaging part 207 in the camera module 201 in a concave shape continuously from the upper part to the substantially central part. There is a problem that the volume of the camera module 201 cannot be effectively used because the space of the engaging portion 207 is generated in the camera module 201 to be inserted.
In the second conventional example, when the camera module 201 is inserted into the module connector 202, the spring hook 208 is deformed to the inner side surface of the module connector 202 against the spring force, and the camera module 201 is inserted. Therefore, it is necessary to design in advance an area where the spring hook 208 can be deformed between the inner side surface of the camera module 201 and the side surface of the module connector 202. Therefore, the volume that cannot be used for the entire volume when the module connector 202 and the camera module 201 are locked increases, and the volume that can be used for the camera module 201 becomes smaller than the total volume. Had. In other words, there is a problem that when the volume necessary for configuring the camera module 201 is secured, a lot of extra space necessary for locking with the module connector 202 is required.

  In view of the above problems, it is an object of the present invention to provide a camera module socket that can further reduce the extra volume required for locking when the camera module socket and the camera module are locked.

The camera module socket of the present invention includes (i) a bowl-shaped socket housing having a module housing space capable of housing a camera module provided with a locking projection on a side surface and having an opening on one side; and (ii) the socket housing. A plurality of contacts that are supported, have one end electrically connected to the camera module located in the module housing space, and the other end protruding to the outside of the housing and serving as a connecting portion for electrically connecting to another object. And (iii) a housing fixing portion for locking and fixing to the outer surface of the side wall of the socket housing, and a member extending in the module housing space and forming a free end at the bottom side edge of the opening of the socket housing The fixing portion extends from the opposite side to the bottom side edge of the locking portion and is connected to the housing fixing portion to fix the housing. And a connecting part that forms a U-shaped space together with the locking part, and a module fixing member that is formed of a metal plate having a spring force, and (a) the connecting part is provided on the socket housing. The locking projection is cut out in an insertion direction from the opening toward the bottom to form an insertion hole, and (b) the locking portion is bent toward the housing fixing portion on the connecting portion side. A guide portion that is positioned in the U-shaped space and guides the locking protrusion inserted into the insertion hole in the insertion direction; and (c) the locking portion is located on the free end side, It has a shape bent to the side away from the housing fixing part, and has a pressing part that gets over the free end and locks the locking projection located on the bottom side of the opening of the socket housing.

Therefore, according to the present invention, when the camera module starts to be inserted into the camera module socket, the locking protrusion of the camera module moves within the insertion hole without initially pressing and displacing the module fixing means, and the predetermined amount of the inside is inserted. Since the locking projection starts to press the locking portion provided on the distal end side of the connecting portion when it enters, the locking portion and the module socket necessary for the locking projection to displace the module fixing means It is possible to reduce the gap with the side surface.
This reduces the gap between the camera module and the side of the camera module socket when the camera module is installed in the camera module socket. Therefore, the total volume of the camera module unit in the state where the camera module is installed in the camera module socket is smaller than the conventional volume. Can be reduced. In other words, the volume of the camera module relative to the total volume of the camera module unit can be increased as compared with the conventional case, and the degree of freedom in designing the camera module can be increased.

  A camera module socket 1 (hereinafter simply referred to as a socket 1) is fitted with a small camera module CM incorporated in the electronic device E. The socket 1 includes a socket housing 11 having a rectangular box shape with one side opened as an upper opening 11a, a module contact 12 attached to the socket housing 11, and a metal plate as a conductive member formed in a concave housing shape. A shield member 13 that is fitted to the socket housing 11 from the outside of the bottom of the module 11, and a module fixing member that is fitted and locked to the housing side wall 11b of the socket housing 11 and contacts the camera module CM to ground the camera module CM. 14 and.

  The socket housing 11 has a housing shape having an upper surface opened by a housing side wall 11b erected from the bottom four sides of the socket housing 11 to the upper surface opening 11a, and is formed of an insulating member such as a polymer resin.

  The module contact 12 is formed by bending a metal plate of a good conductor having a spring force. The module contact 12 forms a module contact portion 12 a that is erected by bending one end from the bottom surface of the socket housing 11 toward the upper opening 11 a, and the intermediate portion 12 b is fixed to the socket housing 11. Further, the other end of the module contact 12 protrudes outward from the side of the housing side wall 11b of the socket housing 11 to form a board connection portion 12c that is connected and fixed to the electronic circuit board PWB by soldering or the like. A plurality of module contacts 12 formed in this way are arranged in parallel on the bottom surface of the socket housing 11. At this time, the parallel connection is made in two rows on the bottom surface so that the board connection portions 12c protrude from the pair of opposite housing side walls 11b. Then, when the camera module CM is inserted into the socket housing 11, the module contact 12 comes into contact with a contact portion provided at a position facing the module contact portion 12a at the bottom of the camera module CM. Therefore, a plurality of through holes for projecting the module contacts 12 to the outside of the housing are provided on the bottom side surface of the socket housing 11.

  The shield member 13 has a concave housing shape that can be fitted into the socket housing 11 from the outer bottom portion of the socket housing 11, and is formed by bending a metal member that is a good conductor. And the fitting to the socket housing 11 maintains a fitting state with the spring force which the bent metal member has. When the socket housing 11 is fitted, the shield member 13 has a height from the bottom surface side of the socket housing 11 to about 1/3 of the housing side wall 11b. At this time, the position of about 1/3 is slightly higher on the bottom side than the position where the board connecting portion 12c of the module contact 12 protrudes outward from the socket housing 11. In addition, the shield member 13 forms a hook-shaped ground terminal portion 13a by bending the periphery of the concave opening outward in a hook shape. The ground terminal portion 13a is formed by bending at a height position where the substrate connecting portion 12c of the contact 12 projects from the tip end side of the concave opening. The shield member 13 is provided with a case shield part 13b. The case shield part 13b is formed by being cut and raised outward from the bottom part 13c of the shield member that covers the bottom face of the socket housing 11 when the socket housing 11 is attached, and has a spring force. The cut and raised case shield portion 13b is bent in a “h” shape, and a corner portion of the “h” shape forms a contact portion 13e. When the electronic circuit board PWB in which the socket 1 is fixed to the through hole TH is attached and fixed to the electronic device E, the contact portion 13e comes into contact with the ground terminal GND provided on the inner surface of the electronic device with a spring force. Is directly connected to the electronic equipment.

The module fixing member 14 is fitted and locked to the housing side wall 11 b of the socket housing 11. The module fixing member 14 is made of a metal member having a good conductor so that a ground can be formed by contacting the camera module CM. The module fixing member 14 forms a housing fixing portion 14 d that is locked and fixed to the outer surface of the socket housing 11, and can be locked to the socket housing 11. That is, the housing fixing portion 14d is provided with a fixing piece 14e that can be fixed by sandwiching the socket housing 11 at the center on the upper surface side of the housing socket 11 by folding back to the housing side wall 11b side along the inner surface of the socket housing 11. . Further, on both sides of the fixed piece 14e, connecting portions 14f that connect the locking portions 14b by bending or bending from the upper surface opening 11a of the socket housing 11 are formed. The locking portion 14b connected to the connecting portion 14f extends into the module space 11d so as to face the locking protrusion CM1 provided on the accommodated camera module CM, and is formed as a free end.
The locking portion 14b of the module fixing member 14 which is a module fixing means has a spring force and can be displaced toward the housing side wall 11b by being pressed, and at the same time the pressing force is released. It is possible to return to

The connecting portion 14f is connected to both ends of the locking portion 14b, and integrally forms both ends of the locking portion 14b and the upper opening 11a side of the housing fixing portion 14d. An insertion hole 14g is formed between the connecting portions 14f at both ends.
The locking portion 14b extends by tilting the insertion hole 14g side, which is the upper opening 11a side, to the housing side wall 11b side and inclining upward to form a guide portion 14c. Further, the end portion of the locking portion 14b opposite to the guide portion 14c is bent so as to be inclined to the opposite side of the housing side wall 11b to form the holding portion 14h. The pressing portion 14h can be locked with the upper edge of the locking projection CM1 provided on the camera module CM.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing the entirety of an embodiment of the present invention, (a) is a perspective assembly diagram illustrating the entire embodiment of the present invention, and (b) is a perspective diagram illustrating the entire embodiment of the present invention. 2 is a front explanatory view showing the embodiment, FIG. 3 is a right side view showing the embodiment, FIG. 4 is a plan view showing the embodiment, and FIG. 6 is a longitudinal cross-sectional explanatory view showing a state in which the central portion of FIG. 4 is cut in the vertical direction, FIG. 6 is a vertical cross-sectional explanatory view showing a state in which the central portion of FIG. 4 is cut in the horizontal direction, and FIG. It is explanatory drawing which expanded the part.

Reference numeral 1 denotes a camera module socket. The camera module socket 1 (hereinafter simply referred to as the socket 1) has a housing shape with an upper opening, and is attached to the electronic circuit board PWB with the camera module CM inserted through the opening and fixed inside. The socket 1 is attached to the electronic circuit board PWB through the through hole TH drilled in the electronic circuit board PWB, and a ground terminal GND provided around the through hole TH at the center of the side of the socket 1 The mounting contact part PWB1 is connected and fixed by soldering or the like.
The socket 1 forms a housing shape by the socket housing 11. The socket housing 11 is formed of a hard insulating material such as a polymer resin, and has a concave housing having an upper portion opened as an upper opening 11a and an upper portion opened by a housing side wall 11b erected from the bottom four sides to the upper opening 11a. Make a body shape. Then, contact mounting holes 11c are formed in one row at a position about 1/3 from the bottom of the pair of opposite housing side walls 11b.

  Reference numeral 12 denotes a module contact 12. The module contact 12 is formed by bending a metal plate of a good conductor. The module contact 12 is mounted such that one end is positioned on the inner bottom surface of the socket housing 11, the middle portion is inserted through the contact mounting hole 11c formed in the housing side wall 11b, and the other end is positioned outside the housing. It is done. The module contact 12 mounted in this way is formed so that the intermediate portion 12b is bent into a U shape with the lower portion opened at the position of the contact mounting hole 11c and can be locked in the mounting hole 11c. Then, one end bent from the intermediate portion 12b to the bottom surface side of the socket housing 11 is bent from the bottom surface of the socket housing 11 to the upper opening 11 side and is erected to form a module contact portion 12a. Further, the other end of the module contact 12 protrudes outward from the side of the housing side wall 11b of the socket housing 11 to form a board connection portion 12c that is connected and fixed to the electronic circuit board PWB by soldering or the like. A plurality of the module contacts 12 formed in this way are arranged in parallel on the bottom surface of the socket housing 11 in two rows. That is, the board connection portion 12c is provided so as to protrude from the pair of opposite housing side walls 11b of the socket housing 11, and the module contact portion 12a is provided opposite to the bottom surface inside the socket housing 11. When the camera module CM is inserted into the socket housing 11, the module contact 12 is brought into contact with a contact terminal portion capable of transmitting and receiving signals provided at a position facing the module contact portion 12a at the bottom of the camera module CM. The

  Reference numeral 13 denotes a shield member. The shield member 13 is formed by bending a metal plate of a good conductor into a concave housing shape. The concave portion of the shield member 13 is formed so that the concave inner surface shape is substantially the same as the bottom outer shape of the socket housing 11 so as to be fitted to the bottom surface side of the socket housing 11. At this time, the side surface forming the concave opening is bent so as to have an inward spring force, and the fitting to the socket housing 11 is performed by the spring force of the bent metal member. To maintain the fitted state. The height of the concave portion of the shield member 13 is formed to be about 1/3 of the housing side wall 11b from the bottom surface side of the socket housing 11 when the socket housing 11 is fitted. At this time, the position of the concave opening tip is below the position where the board connecting portion 12c of the module contact 12 protrudes outward from the socket housing 11.

  In addition, the shield member 13 forms a hook-shaped ground terminal portion 13a by bending the periphery of the concave opening tip outward in a hook shape. The ground terminal portion 13a bent in a bowl shape is further extended from the tip of the concave opening and is bent at the same level as the board connection portion 12c of the module contact 12, and is connected to the other pair of housing side walls. In 11b, it is bent and formed with a width of about 1/3 of the width of the housing side wall 11b which is the central portion of the housing side wall 11b. Further, a flange portion 13d is formed on the pair of side walls of the shield member 13 not provided with the ground terminal portion 13a. The flange portion 13d is bent in a bowl shape from the board connecting portion 12c of the module contact 12 on the bottom surface side of the socket housing 11. . The flange portion 13d is formed so as to cover the board connecting portion 12c of the module contact 12, thereby preventing the module contact 12 from coming into contact with other portions and short-circuiting, and also having a shielding effect on the module contact 12. I can expect.

  Further, the shield member 13 is provided with a case shield part 13b. The case shield part 13b is formed by being cut and raised outward from the bottom part 13c of the shield member that covers the bottom face of the socket housing 11 when the socket housing 11 is attached, and has a spring force. The cut and raised case shield portion 13b is bent in a “h” shape, and a corner portion of the “h” shape forms a contact portion 13e. When the electronic circuit board PWB in which the socket 1 is fixed to the through hole TH is attached and fixed to the electronic device E, the contact portion 13e comes into contact with the ground terminal GND provided on the inner surface of the electronic device with a spring force. Is directly connected to the electronic equipment. Although the position on the bottom surface where the contact portion 13e is provided is not particularly specified, in this embodiment, the contact mounting holes 11c are cut and raised at two locations on the bottom surface on the side of the housing side wall 11b.

Reference numeral 14 denotes a module fixing member. The module fixing member 14 is made of a metal plate of a good conductor, forms a plate-like housing fixing portion 14d capable of forming the side surface of the socket housing 11, and extends from the central portion on the upper surface side of the housing fixing portion 14d. Is bent into a U-shape to form a fixed piece 14e, and a U-shaped opening is inserted from the side of the upper opening 11a of the housing side wall 11b of the socket housing 11 to be fitted and locked to the housing side wall 11b. Further, the side edge of the housing fixing portion 14d is provided with a side edge locking portion 14i that can be locked with the adjacent module fixing member 14 so that the adjacent module fixing members 14 can be locked with each other.
Further, on both sides of the fixed piece 14e, connecting portions 14f that connect the locking portions 14b by bending or bending from the upper surface opening 11a of the socket housing 11 are formed. The locking portion 14b connected to the connecting portion 14f extends into the module space 11d so as to face the locking protrusion CM1 provided on the accommodated camera module CM, and is formed as a free end.

The locking portion 14b of the module fixing member 14 which is a module fixing means has a spring force and can be displaced toward the housing side wall 11b by being pressed, and at the same time the pressing force is released. It is possible to return to
The connecting portion 14f is connected to both ends of the locking portion 14b, and integrally forms both ends of the locking portion 14b and the upper opening 11a side of the housing fixing portion 14d. An insertion hole 14g is formed between the connecting portions 14f at both ends. The insertion hole 14g is provided so as to face the locking projection CM1 when the camera module CM is inserted into the socket 1.
The locking portion 14b extends by tilting the insertion hole 14g side, which is the upper opening 11a side, to the housing side wall 11b side and inclining upward to form a guide portion 14c. Further, the end portion of the locking portion 14b opposite to the guide portion 14c is bent so as to be inclined to the opposite side of the housing side wall 11b to form the holding portion 14h. The pressing portion 14h can be locked with the upper edge of the locking projection CM1 provided on the camera module CM. The module fixing member 14 is integrally formed by performing die cutting and bending from a single metal plate.

In the module fixing member 14 formed in this way, when the camera module CM is inserted from the upper opening 11a side, the locking projection CM1 enters the insertion hole 14g located at the opposite position, so that it is obstructed by the connecting portion 14f. Without entering the module space 11d. When the insertion further proceeds, the locking projection CM1 eventually comes into contact with the guide portion 14c. Then, the locking projection CM1 is guided by the guide portion 14c while pushing the guide portion 14c toward the housing side wall 11b, and further advances into the module space 11d.
When the camera module CM is further inserted, the locking projection CM1 eventually moves over the pressing portion 14h of the locking portion 14b and moves to the inner side of the module space 11d, so that the locking portion 14b is connected to the connecting portion 14f and the locking portion. Due to the spring force of the portion 14b, the housing side wall 11b, which has been displaced, moves again to the center side of the module space 11d, returns to its original position, and rides on the upper edge of the locking projection CM1. As a result, the camera module CM is fixed to the socket 1 so that it cannot be detached from the module space 11d.

Further, the module fixing member 14 is formed with a shield portion 14a by bending the outer side surface of the attached housing side wall 11b outward. The shield part 14a protrudes outward in the same manner as the board connection part 12c on the outside of the board connection part 12c of the contacts 12 arranged in parallel on the pair of housing side walls 11b to which the module contacts 12 are attached. Form with. The shield part 14a is fixed to the electronic circuit board PWB by soldering or the like, similarly to the board connecting part 12c of the module contact 12.
Further, the module fixing member 14 attached to the pair of housing side walls 11b to which the module contact 12 is not attached has a shield which is also bent outward in a bowl shape on the surface located outside the housing side walls 11b. Part 14a is formed. In the module fixing member 14 attached to the case side wall 11b to which the joule contact 12 is not attached, the shield portions 14a are provided so as to be located on both sides of the ground terminal portion 13a of the shield member 13 located on the case side wall 11b. . The shield part 14a can be provided wider than the shield part 14a of the module fixing member 14 provided on the housing side wall 11b to which the module contact 12 is attached.

In the above-described embodiment, the socket 1 is described as a through-hole mounting type that can be mounted on the through-hole. However, a surface mounting type that is mounted on the surface of the electronic circuit board PWB may be used, and the mounting form of the socket 1 is limited. It is not a thing.
In the above embodiment, the locking projection CM1 is provided on the pair of opposing side surfaces of the camera module CM, and the locking projection CM1 can be locked on the pair of opposite housing side walls 11b of the socket 1 according to this. In the case of the camera module CM in which the locking projections CM1 are provided on all four side surfaces, the locking portions 14b are provided on all four side surfaces of the socket 1 in accordance with the locking projections CM1. May be provided and may be selected as appropriate.

  The present invention can be used for a camera module socket for mounting a camera module used in an electronic apparatus.

(a) Perspective assembly explanatory view showing the whole of the embodiment of the present invention (b) Perspective explanatory view showing the whole of the embodiment of the present invention Front explanatory view showing an embodiment of the present invention Right side explanatory view showing an embodiment of the present invention Plane explanatory drawing showing the embodiment of this invention Vertical section explanatory drawing showing the state which cut | disconnected the center part of FIG. 4 to the vertical direction Vertical section explanatory drawing showing the state which cut | disconnected the center part of FIG. 4 to the horizontal direction Explanatory drawing which expanded a part of FIG. Perspective explanatory view showing Conventional Example 1 Center longitudinal cross-sectional explanatory drawing showing the prior art example 2

Explanation of symbols

E Electronic equipment E1 Equipment shield member B1 Housing PWB Electronic circuit board PWB1 Mounting contact section GND Ground terminal TH Through hole CM Camera module CM1 Locking protrusion 1 Camera module socket (socket)
11 Socket housing 11a Upper opening 11b Housing side wall 11c Contact mounting hole 11d Module space 12 Module contact 12a Module contact part 12b Intermediate part 12c Board connection part 13 Shield member 13a Earth terminal part 13b Case shield part 13c Shield member bottom part 13d Flange part 13e contact portion 14 module fixing member 14a shield portion 14b locking portion 14c guide portion 14d housing fixing portion 14e fixing piece 14f connecting portion 14g insertion hole 14h pressing portion 14i side edge locking portion

Claims (1)

Has can accommodate module accommodating space a camera module provided with a locking projection on the side surface, and Masugata shaped socket housing with one side opened,
It is supported on the socket housing, and a connecting portion for one end of the camera module electrically connected to the positioned in the module housing space and the other end connected to the other object and electrically protrude out of the housing a plurality of contacts made,
A housing fixing portion for being locked and fixed to the side wall outer surface of the socket housing, and the locking portion forming a free end on the bottom side of the edge of the opening of which extends into the module housing space the socket housing, wherein A locking portion that extends from a side opposite to the bottom side edge of the locking portion and is connected to the housing fixing portion and forms a U-shaped space together with the housing fixing portion and the locking portion , and has a spring force A module fixing member formed of a metal plate having
With
The connecting portion, the locking projection in the insertion direction toward the bottom from the opening of the socket housing to form a through hole and allow the notch on insertion,
The locking unit, the connecting portion side, the housing song wants to approach the fixed portion located in the U-space, the insertion direction into the Kakaritome突force which is inserted into the insertion hole toward It has a guide portion for guiding the,
The engaging portion, said free end forms a bent shape to the side away from the housing fixing portion, engaging said engaging projections ride over the free end situated at the bottom side of the opening of the socket housing having a pressing portion that abolish
The camera module socket, wherein a call.

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