CN111276854A

CN111276854A - Connector module for camera

Info

Publication number: CN111276854A
Application number: CN201910354327.1A
Authority: CN
Inventors: 徳桥大辅; 笹木仁人; 国枝宏则
Original assignee: SMK Corp
Current assignee: SMK Corp
Priority date: 2018-12-04
Filing date: 2019-04-29
Publication date: 2020-06-12
Anticipated expiration: 2039-04-29
Also published as: TW202023358A; CN111276854B; JP2020092313A; TWI734986B; JP6703313B1

Abstract

The invention aims to provide a camera connector module which improves shielding performance and realizes miniaturization and lightweight at low cost. The connector module for camera is provided with a coaxial connector (23) assembled on a camera accommodating resin case (26), a coaxial cable (24) for connecting a camera module (29) accommodated in the camera accommodating resin case (26) and the coaxial connector (23), wherein a vapor deposition layer (27) for shielding the camera module (29) from electromagnetic waves is formed in a camera module housing section (61) of the camera housing resin case (26), a part of the conductive outer peripheral shell (40) of the coaxial connector (23) is disposed in the camera module housing (61) in a protruding manner, a locking step part (40a) is formed on the protruding part, and a shielding plate (52) is connected between the locking step part (40a) and the vapor deposition layer (27) of the camera module accommodating part (61) in a manner of being sandwiched therebetween.

Description

Connector module for camera

Technical Field

The present invention relates generally to a connector module for a camera for connecting a coaxial cable to a camera module mounted on a vehicle.

Background

As such a camera connector module, a known connector module is shown in fig. 5 (patent document 1).

In fig. 5, the camera unit 21 has a camera module 10 and a connector module 12 for connecting a coaxial cable 11 to the camera module 10. The camera module 10 includes a lens 13 for condensing an external image on an imaging device 14, and an electronic circuit 15 for controlling processing and driving of an image signal of the imaging device 14. In the connector block 12, a center conductor 17 connected to the coaxial cable 11 and a conductive shell 18 surrounding the center conductor 17 via an insulator are provided at the center in a connector housing 16. Further, a shield shell 19 for shielding the electronic circuit 15 from electromagnetic waves such as electromagnetic noise is provided in the case interior 16a of the connector case 16 that opens downward and is electrically connected to the protruding portion 18a of the conductive shell 18. The camera module 10 is received in a main body case 20 to be assembled to the connector module 12.

Patent document 2 describes an example of a camera connector module in which an electronic circuit is housed in an aluminum housing formed by aluminum die casting, and electromagnetic rays are prevented from flowing in from the outside or flowing out from the inside to the outside by the aluminum housing.

In patent document 1, the shield shell 19 is provided in the housing interior 16a of the connector housing 16 so as to be electrically connected to the protruding portion 18a of the conductive shell layer 18, and therefore, there is a problem as follows: the shield case 19 is formed as a separate member, and there is a step of electrically connecting the shield case 19 to the protruding portion 18a of the conductive shell layer 18, and the number of components increases, and the assembly process becomes more time-consuming.

In patent document 2, since the electronic circuit is housed in the aluminum case formed by aluminum die casting, it is not necessary to separately form the shield case, but there is a problem that aluminum die casting is expensive and is disadvantageous in terms of size and weight reduction.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2018-6162

Patent document 2: japanese Kokai publication No. 2018-500733

Disclosure of Invention

Problems to be solved by the invention

The invention aims to provide a camera connector module which improves shielding performance and realizes miniaturization and lightweight at low cost.

Means for solving the problems

The connector module for camera of the present invention is characterized in that a coaxial connector 23 assembled to a camera housing resin case 26 is interposed between the connector module for camera and a coaxial cable 24 for connecting a camera module 29 housed in the camera housing resin case 26 and the coaxial connector 23,

a vapor deposition layer 27 for reliably shielding the camera module 29 from electromagnetic waves is formed in the camera module housing section 61 of the camera housing resin case 26.

In the camera connector module according to the present invention, a part of the conductive outer peripheral shell layer 40 of the coaxial connector 23 is provided in a projecting manner in the camera module housing 61, a locking step portion 40a is formed in the projecting portion, and a shield plate 52 is connected to the camera module housing 61 so as to be sandwiched between the locking step portion 40a and the vapor deposition layer 27.

In the camera connector module according to the present invention, the shield plate 52 is formed in an annular shape having a flat surface portion 53 having a central hole portion 55 and a peripheral edge portion 54 of an outer periphery of the flat surface portion 53, outer shell layer pressure-contact pieces 56 pressure-contacted to the locking step portion 40a of the outer shell layer 40 are formed at a plurality of positions of the inner peripheral portion of the flat surface portion 53, and vapor-deposited pressure-contact pieces 57 pressure-contacted to the vapor-deposited layer 27 of the camera module housing portion 61 are formed at a plurality of positions of the peripheral edge portion 54.

In the camera connector module according to the present invention, the shielding plate 52 is fitted between the outer peripheral shell 40 and the vapor deposition layer 27 with a gap 59 left therebetween, except for the contact portion of the outer peripheral shell crimping piece 56 with the locking step portion 40a and the contact portion of the vapor deposition laminated tab 57 with the vapor deposition layer 27.

In the camera connector module according to the present invention, the vapor-deposited layer 27 applied to the camera module housing portion 61 of the camera housing resin case 26 is made of Cu + Ni.

Effects of the invention

In the invention according to claim 1, the connector module for camera includes a coaxial connector attached to a camera housing resin case and a coaxial cable for connecting the camera module housed in the camera housing resin case and the coaxial connector,

since the vapor deposition layer for shielding the camera module from electromagnetic waves is formed in the camera module housing section of the camera housing resin case, the camera module housing section in the camera housing resin case can function as a shield case for reliably shielding the camera module from electromagnetic waves. Further, the camera housing resin case can be reduced in size and weight with high dimensional accuracy.

In the invention according to claim 2, since a part of the conductive outer peripheral shell of the coaxial connector is provided in the camera module accommodating section in a protruding manner, the protruding portion is formed with the locking step portion, and the shield plate is connected to the camera module accommodating section so as to be sandwiched between the locking step portion and the vapor deposition layer, the camera module accommodating section and the conductive outer peripheral shell of the coaxial connector can be electrically connected to each other with a simple process by simply fitting the shield plate.

In the invention according to claim 3, the shield plate is formed in an annular shape having a flat surface portion having a hole at a center thereof and a peripheral edge portion of an outer periphery of the flat surface portion, the outer shell layer crimping pieces that are in press contact with the locking step portions of the outer shell layer are formed at a plurality of positions of an inner periphery of the flat surface portion, and the vapor deposition laminated pieces that are in press contact with the vapor deposition layer of the camera module accommodating portion are formed at a plurality of positions of the peripheral edge portion, so that the outer shell layer crimping pieces can be reliably connected to the outer shell layer at a plurality of positions, and the vapor deposition laminated pieces can be reliably connected to the vapor deposition layer at a plurality of.

In the invention according to claim 4, since the shielding plate is fitted with a gap between the outer peripheral shell and the vapor deposition layer in addition to the contact portion of the outer peripheral shell crimping piece with the locking step portion and the contact portion of the vapor deposition laminated tab with the vapor deposition layer, the contact of each portion of the crimping piece can be more reliably connected only by the outer peripheral shell crimping piece and the vapor deposition laminated tab of the shielding plate functioning as a connection.

In the invention according to claim 5, since the vapor deposition layer is made of Cu + Ni, the function of shielding electromagnetic waves is more reliably exhibited.

Drawings

Fig. 1 is a sectional view showing an embodiment 1 of a camera connector module according to the present invention.

Fig. 2 is an enlarged sectional view of the coaxial connector in fig. 1.

Fig. 3 is a perspective view of the shield plate 52.

Fig. 4 is a cross-sectional view of the outer peripheral shell layer 40 and the vapor deposition layer 27 of the camera housing resin case 26 in a state of being pressure-bonded through the shield plate 52.

Fig. 5 is an exploded explanatory view of a conventional connector module for cameras.

Description of the reference numerals

10: a camera module; 11: a coaxial cable; 12: a connector module; 13: a lens; 14: an image pickup element; 15: an electronic circuit; 16: a connector housing; 17: a center conductor; 18: a conductive shell layer; 19: a shield case; 20: a main body housing; 21: a camera unit; 22: a vehicle body; 23: a coaxial connector; 24: a coaxial cable; 25: a relay socket; 26: a camera accommodating resin case; 27: evaporating the plating layer; 28: a wiring substrate; 29: a camera module; 30: a lens; 31: a substrate-side connector; 32: an upper contact; 33: a lower contact; 34: an upper insulator; 35: a lower insulator; 36: an O-ring; 37: an adhesive; 38: an upper shell layer; 39: a lower shell layer; 40: a peripheral shell layer; 41: an adhesive; 42: a coaxial connector mounting portion; 43: a fitting cylinder portion; 44: a connecting pin; 45: an insulating section; 46: a shell portion; 47: a coaxial side contact; 48: a coaxial core wire; 49: an insulator; 50: a coaxial side shell layer; 51: embedding the cylinder body; 52: a shielding plate; 53: a planar portion; 54: a peripheral edge portion; 55: a hole portion; 56: a peripheral shell layer crimping piece; 57: evaporating and laminating the connecting sheet; 58: a protrusion portion; 59: a gap; 60: cutting; 61: a camera module accommodating portion.

Detailed Description

The invention is a connector module for camera, which assembles a coaxial connector 23 on a camera housing resin case 26, inserts a relay socket 25 connected with a coaxial cable 24 into one end of the coaxial connector 23, and joins a substrate side connector 31 of a camera module 29 housed in the camera housing resin case 26 to the other end of the coaxial connector 23,

in the camera module housing section 61 of the camera housing resin case 26, a vapor deposition layer 27 for shielding the wiring substrate 28 of the camera module 29 from electromagnetic waves is formed.

In order to connect the conductive outer peripheral shell layer 40 of the coaxial connector 23 and the vapor deposition layer 27 in the camera module housing 61, a part of the conductive outer peripheral shell layer 40 of the coaxial connector 23 is provided in the camera module housing 61 in a protruding manner, a locking step portion 40a is formed in the protruding portion, and a shield plate 52 is connected between the locking step portion 40a and the vapor deposition layer 27 in the camera module housing 61 so as to be sandwiched therebetween.

The shield plate 52 is formed in an annular shape having a flat surface portion 53 having a central hole 55 and a peripheral edge portion 54 on the outer periphery of the flat surface portion 53, and outer shell layer pressure-bonding pieces 56 that are pressure-bonded to the locking step portions 40a of the outer shell layer 40 are formed at a plurality of positions on the inner periphery of the flat surface portion 53, and vapor-deposition pressure-bonding pieces 57 that are pressure-bonded to the vapor-deposition layers 27 of the camera module housing portion 61 are formed at a plurality of positions on the peripheral edge portion 54.

In order to more reliably connect the conductive outer peripheral shell 40 of the coaxial connector 23 and the vapor deposition layer 27 in the camera module accommodating section 61, the shield plate 52 is fitted between the outer peripheral shell 40 and the vapor deposition layer 27 with a gap 59 left therebetween, except for a contact portion of the outer peripheral shell crimping piece 56 with the locking stepped portion 40a and a contact portion of the vapor deposition lamination tab 57 with the vapor deposition layer 27.

The vapor-deposited layer 27 in the camera module accommodating portion 61 in the camera accommodating resin case 26 is composed of Cu + Ni.

[ example 1]

Embodiments of the connector module for camera of the present invention will be explained based on the drawings.

In fig. 1, reference numeral 23 denotes a coaxial connector, and the coaxial connector 23 is assembled to the camera accommodating resin case 26 and connects the camera module 29 and the coaxial cable 24.

The coaxial connector 23 is explained in detail by means of fig. 2. In the central portion, an upper contact 32 connected to a coaxial core wire 48 of the coaxial cable 24 and a lower contact 33 connected to a connection pin 44 of the camera module 29 are integrally formed in communication.

The upper contact 32 is surrounded on the outer periphery by an upper insulator 34, the lower contact 33 is surrounded by a lower insulator 35, and the upper insulator 34 and the lower insulator 35 are joined together by an insulating adhesive 37. The outer periphery of the upper insulator 34 is surrounded by a conductive upper shell 38, and the outer periphery of the lower insulator 35 is surrounded by a conductive lower shell 39.

An O-ring 36 is interposed between the lower insulator 35 and the upper shell 38, the entire lower shell 39 and the lower end of the upper shell 38 are embedded in a conductive outer shell 40, and a pressing portion 40b at the upper end of the outer shell 40 is fixedly pressed against the upper shell 38. A locking stepped portion 40a that is pressure-connected to a shield plate 52 described later is formed at the lower end portion of the outer peripheral shell layer 40.

In fig. 1, the camera housing resin case 26 is provided with a camera module housing 61 having a lower portion opened to house the camera module 29, and a vapor deposition layer 27 of Cu + Ni is formed on an inner surface of the camera module housing 61. On the upper surface of the camera housing resin case 26, a coaxial connector mounting portion 42 and a fitting tube portion 43 continuing further upward are integrally provided so as to communicate with the camera module housing portion 61 and to face upward. The coaxial connector 23 is inserted into the coaxial connector mounting portion 42 and the fitting cylindrical portion 43 from below, and is integrally fixed to the camera housing resin case 26 by an insulating adhesive 41. The lower end of the coaxial connector mounting portion 42 is formed as a projection 58 slightly projecting toward the inside of the camera module accommodating portion 61.

After the coaxial connector 23 is assembled to the camera accommodating resin case 26, the shield plate 52 is fitted into the protrusion 58 protruding into the camera module accommodating portion 61 at the front end of the outer peripheral shell 40.

As shown in fig. 3, the shield plate 52 is formed in an annular shape by a flat surface portion 53 and a peripheral edge portion 54 standing on the outer periphery thereof, a hole portion 55 penetrating the outer peripheral shell 40 is formed through the center of the flat surface portion 53, outer peripheral shell pressure-bonding pieces 56 in an oblique downward く shape are formed at an inner peripheral portion of the hole portion 55 at intervals of 120 degrees, and notches 60 are formed at both sides so that the outer peripheral shell pressure-bonding pieces 56 have elasticity. Further, in the peripheral edge portion 54, vapor deposition laminated tabs 57 in an oblique "へ" shape are formed at intervals of 120 degrees so as to be shifted by 60 degrees from the outer peripheral shell pressure contact pieces 56 one by one, and notches 60 are formed on both sides so that the vapor deposition laminated tabs 57 also have elasticity.

When the shield plate 52 formed in this way is pressed from below the outer shell 40, the outer shell crimping pieces 56 go over the locking step portions 40a and are locked to the locking step portions 40a, and the vapor deposition lamination pieces 57 are crimped to the vapor deposition layer 27 on the inner surface of the camera accommodating resin case 26. At this time, the distal end portion of the outer peripheral shell crimping piece 56 is crimped to the locking step portion 40a of the outer peripheral shell 40, the bent portion of the vapor deposition laminated tab 57 is crimped to the vapor deposition layer 27 of the camera accommodating resin case 26, and the flat surface portion 53 and the peripheral edge portion 54 of the shield plate 52 create a gap 59 between the side surface of the outer peripheral shell 40 and the bottom surface and the side surface of the protruding portion 58. As a result, the outer shell crimping piece 56 is more reliably crimped and electrically connected to the locking step 40a, and the vapor deposition laminated tab 57 is more reliably crimped and electrically connected to the vapor deposition layer 27.

Since the outer peripheral shell 40 has a cylindrical shape, three outer peripheral shell pressure contact pieces 56 and three vapor deposition laminated contact pieces 57 are provided at intervals of 120 degrees, respectively, but two, four, five or more, and the like may be provided according to the shape and purpose of the outer peripheral shell 40.

The coaxial connector 23 is assembled to the camera housing resin case 26, and if the coaxial connector is pressed by the shield plate 52, the connection pin 44, the insulating portion 45, and the case layer portion 46 of the board-side connector 31 are press-fitted from the opening portion of the camera housing resin case 26. Thus, the connecting pin 44 is inserted into and connected to the lower contact 33, and the shell portion 46 is connected to the lower shell 39. The board-side connector 31 is connected to the camera module 29 via the wiring board 28, and collects an external image on the image pickup device inside through the lens 30.

The wiring board 28 is surrounded by the vapor deposition layer 27 of the camera housing resin case 26 and shielded from electromagnetic waves such as electromagnetic noise.

In this manner, the coaxial connector 23 is assembled to the camera housing resin case 26, and is connected to the camera module 29 and assembled to a predetermined position of the vehicle body 22.

A relay socket 25 to which a coaxial cable 24 is connected is inserted into a fitting cylinder portion 43 of the coaxial connector 23 that protrudes to the opposite side of the camera accommodating resin case 26. Thus, the fitting cylindrical body 51 of the relay socket 25 is fitted along the outer periphery of the fitting cylindrical portion 43, the coaxial shell 50 of the relay socket 25 is connected to the upper shell 38 of the coaxial connector 23, and the coaxial contact 47 connected to the coaxial core 48 of the coaxial cable 24 is connected to the upper contact 32 of the coaxial connector 23.

Thus completing the assembly and connection.

Claims

1. A connector module for a camera, in which a coaxial connector assembled to a camera accommodating resin case is sandwiched, and a camera module accommodated in the camera accommodating resin case and a coaxial cable of the coaxial connector are connected to each other,

a vapor deposition layer for shielding the camera module from electromagnetic waves is formed in a camera module housing portion of the camera housing resin case.

2. The connector module for camera according to claim 1,

in the camera module housing, a part of the conductive outer peripheral shell of the coaxial connector is provided in a protruding manner, an engagement step portion is formed in the protruding portion, and a shield plate is connected to the camera module housing so as to be sandwiched between the engagement step portion and the vapor deposition layer.

3. The connector module for camera according to claim 2,

the shield plate is formed in an annular shape having a flat surface portion having a hole at the center thereof and a peripheral edge portion of the outer periphery of the flat surface portion, and outer peripheral shell layer pressure-bonding pieces that are pressure-bonded to the locking step portions of the outer peripheral shell layer are formed at a plurality of positions on the inner periphery of the flat surface portion, and vapor-deposited pressure-bonding pieces that are pressure-bonded to the vapor-deposited layer of the camera module housing portion are formed at a plurality of positions on the peripheral edge portion.

4. The connector module for camera according to claim 3,

the shielding plate is fitted between the outer peripheral shell layer and the vapor deposition layer with a gap therebetween, except for a contact portion of the outer peripheral shell layer crimping piece with the locking step portion and a contact portion of the vapor deposition laminated tab with the vapor deposition layer.

5. The connector module for camera according to any one of claims 1 to 4,

the evaporation layer is made of Cu + Ni.