WO2018221094A1 - Connector - Google Patents
Connector Download PDFInfo
- Publication number
- WO2018221094A1 WO2018221094A1 PCT/JP2018/016857 JP2018016857W WO2018221094A1 WO 2018221094 A1 WO2018221094 A1 WO 2018221094A1 JP 2018016857 W JP2018016857 W JP 2018016857W WO 2018221094 A1 WO2018221094 A1 WO 2018221094A1
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- WIPO (PCT)
- Prior art keywords
- connector
- insulator
- lock
- contact
- mounting
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/71—Coupling devices for rigid printing circuits or like structures
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/639—Additional means for holding or locking coupling parts together, after engagement, e.g. separate keylock, retainer strap
Definitions
- This disclosure relates to a connector.
- the connector described in Patent Document 1 obtains a fitting holding force when the contact arm portion of the first reinforcing bracket attached to the first connector contacts the contact side plate portion of the second reinforcing bracket attached to the second connector. ing.
- the connector described in Patent Document 1 is designed in view of obtaining a sufficient fitting holding force in a low-profile and miniaturized state.
- contacts, metal fittings and other components held by the connector are also reduced in height and size, and the fitting holding force between the connectors tends to decrease. It is in. Therefore, it is not possible to obtain a sufficient fitting holding force that can maintain the fitting state even when an inadvertent force is applied to the connector during the assembly process of the device on which the connector is mounted and when the device is dropped. It has become difficult. Therefore, although the operation
- An object of the present disclosure is to provide a connector that can obtain a sufficient fitting holding force and is excellent in insertion and removal workability even in a low-profile and miniaturized state.
- the connector according to the first aspect is A first insulator, and a first lock member held by the first insulator;
- a first connector comprising: A second insulator fitted to the first insulator, and a second lock member held by the second insulator and having a second engaging portion,
- a second connector fitted to the first connector comprising:
- the first lock member includes a lock portion that is elastically deformable toward the outside of the first insulator,
- the lock part is An elastically deformable continuous portion extending from a bottom plate portion supported by the bottom wall of the first insulator; A first engagement portion provided along the fitting direction from the continuous portion, and engaged with the second engagement portion; An operating portion extending outward from the first engaging portion; It is characterized by having.
- the lock portion may include a guide portion that is provided continuously with the first engagement portion.
- the bottom plate portion may be integrally formed with the first insulator.
- the first lock member may include a first mounting portion provided at an end portion of the bottom plate portion in a direction substantially orthogonal to the outer side.
- the first mounting portion may protrude from the bottom plate portion toward the circuit board on which the first connector is mounted.
- the first locking member is A side plate portion formed continuously with the first mounting portion and substantially orthogonal to the bottom plate portion; A second mounting portion provided on the side of the circuit board on which the first connector of the side plate portion is mounted, and adjacent to the first mounting portion; May be provided.
- a sufficient fitting and holding force can be obtained even in a low profile and miniaturized state, and the workability of insertion and removal is excellent.
- FIG. 4 is an enlarged view of a portion IV in FIG. 3. It is a bottom view corresponding to the enlarged part of FIG. It is sectional drawing which follows the VI-VI arrow line of FIG. It is the perspective view which showed a pair of 1st lock member by the top view. It is the perspective view which showed the 2nd connector single-piece
- FIG. 4 is an enlarged cross-sectional view showing a middle stage of fitting between the first connector and the second connector along the line XI-XI in FIG. 1.
- FIG. 4 is an enlarged cross-sectional view showing a state in which the fitting between the first connector and the second connector is completed along the line XI-XI in FIG. 1.
- It is the figure which showed the mode at the time of extracting a 1st connector and a 2nd connector.
- first connector 20 will be described as a receptacle connector
- second connector 60 will be described as a plug connector
- the present invention is not limited to this, and the first connector 20 may serve as a plug connector, and the second connector 60 may serve as a receptacle connector.
- first connector 20 and the second connector 60 are fitted to the circuit boards CB1 and CB2 in the vertical direction, respectively.
- the first connector 20 and the second connector 60 are fitted along the vertical direction.
- the present invention is not limited to this, and the first connector 20 and the second connector 60 may be fitted in the parallel direction with respect to the circuit boards CB1 and CB2, respectively, one being in the vertical direction and the other in the parallel direction. It may be fitted in combination.
- the first connector 20 or the second connector 60 may be connected to a circuit board other than the rigid board, for example, a flexible printed circuit board (FPC).
- FPC flexible printed circuit board
- FIG. 1 is a perspective view of a connector 10 according to an embodiment as viewed from above with a first connector 20 and a second connector 60 fitted together.
- FIG. 2 is a perspective view showing the connector 10 of FIG. 1 in a top view with the first connector 20 and the second connector 60 separated.
- the connector 10 includes a first connector 20 and a second connector 60 as large components.
- FIG. 3 is a perspective view showing the first connector 20 alone in a top view.
- FIG. 4 is an enlarged view of a portion IV in FIG.
- FIG. 5 is a bottom view corresponding to the enlarged portion of FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG.
- FIG. 7 is a perspective view showing the pair of first lock members 50 in a top view.
- the circuit board CB1 is not shown.
- the detailed structure of the first connector 20 will be described with reference mainly to FIGS.
- the first connector 20 includes a first insulator 30, a plurality of first contacts 40, and a pair of first locking members 50 as large components.
- the first insulator 30 is molded from an insulating and heat-resistant synthetic resin material and extends in the left-right direction.
- the first insulator 30 includes a bottom wall 31 that constitutes a lower portion, and a front wall 32a and a rear wall 32b that protrude upward from both front and rear edges of the upper surface of the bottom wall 31 and extend in the left-right direction.
- the first insulator 30 includes a connecting wall 32c that connects the front wall 32a and the rear wall 32b at the left and right ends.
- the first insulator 30 includes a notch portion 32d in which both end portions in the left-right direction are notched into a substantially concave shape up to the upper surface of the connecting wall 32c.
- the first insulator 30 includes a fitting convex portion 33 that protrudes upward from the upper surface of the central portion of the bottom wall 31 and is formed so as to be sandwiched between the front wall 32a and the rear wall 32b.
- the fitting convex portion 33 spaced inward from the front wall 32a and the rear wall 32b extends linearly in the left-right direction.
- the space formed between the front wall 32a and the rear wall 32b and the fitting convex portion 33 and the space at the left and right ends of the first insulator 30 sandwiched between the front wall 32a and the rear wall 32b are annular fitting concave portions. 34 is configured.
- a plurality of first contact mounting grooves 35 for mounting the plurality of first contacts 40 are recessed in the left-right direction in a portion straddling the rear surface of the front wall 32a, the bottom wall 31 and the front surface of the fitting convex portion 33. Is done.
- a plurality of first contact mounting grooves 35 for mounting the plurality of first contacts 40 are arranged in the left-right direction on a portion straddling the front surface of the rear wall 32b, the bottom wall 31 and the rear surface of the fitting convex portion 33. Is recessed.
- the number of first contact mounting grooves 35 is the same as the number of first contacts 40.
- the first contact mounting groove 35 penetrates the bottom wall 31 from the upper surface to the lower surface.
- the first contact mounting groove 35 allows elastic deformation to the inside of the first contact 40 on both front and rear surfaces of the fitting convex portion 33.
- the first contact 40 is obtained by forming a thin plate of a copper alloy (for example, phosphor bronze, beryllium copper, titanium copper, etc.) or a Corson copper alloy having spring elasticity using a progressive die (stamping) ( (See FIG. 3).
- the surface of the first contact 40 is plated with gold, tin or the like after nickel plating is formed as a base.
- the first contact 40 includes a signal contact 40a and a power contact 40b.
- the signal contact 40a includes a mounting portion 41a extending outward in a substantially L shape, an elastically deformable elastic contact piece 42a, a contact portion 43a formed inwardly at the tip of the elastic contact piece 42a, It comprises.
- the power contact 40b includes a mounting portion 41b that extends outward in a substantially L shape, an elastic contact piece 42b that can be elastically deformed, and a contact portion that is formed inwardly at the tip of the elastic contact piece 42b. 43b.
- the power contact 40b is formed wider than the signal contact 40a.
- the first contact 40 is press-fitted from below the first insulator 30 as an example. As a result, the first contact 40 is held against the first contact mounting groove 35. More specifically, the four power contacts 40b are respectively held with respect to the four first contact mounting grooves 35 at the left and right ends. A plurality of signal contacts 40a are attached to the remaining first contact attachment grooves 35, respectively.
- the elastic contact piece 42 a When the signal contact 40 a is held in the first contact mounting groove 35, the elastic contact piece 42 a is arranged in a state of facing the fitting convex portion 33.
- the elastic contact piece 42 a can be elastically deformed in the front-rear direction toward the inside of the fitting convex portion 33.
- the mounting portion 41a of the signal contact 40a is positioned slightly on the side of the circuit board CB1, that is, below the bottom wall 31. The same applies to the power contact 40b, and the mounting portion 41b and the elastic contact piece 42b are also arranged in the same manner as described above.
- the first lock member 50 is formed by press-molding a conductive material such as a metal plate (for example, stainless steel or phosphor bronze) (see FIG. 7).
- the first locking member 50 includes a bottom plate portion 51 that forms a bottom surface, and a substantially circular through hole 51a that penetrates the bottom plate portion 51 along the vertical direction.
- the first lock member 50 includes an elastically deformable lock portion 52 that is formed continuously with the bottom plate portion 51 and extends outward from the first insulator 30.
- the first lock member 50 includes first mounting portions 53 provided at both end portions of the bottom plate portion 51 in the front-rear direction substantially orthogonal to the extending direction of the lock portion 52.
- the first lock member 50 includes a side plate portion 54 that is formed continuously with the first mounting portion 53 and is substantially orthogonal to the bottom plate portion 51.
- the bottom plate portion 51 and the lock portion 52 are formed so as to be substantially S-shaped as a whole.
- the bottom plate portion 51, the first mounting portion 53, and the side plate portion 54 are formed so as to be substantially U-shaped as a whole.
- the lock portion 52 extends from the outer edge portion of the bottom plate portion 51 in the left-right direction toward the outside of the first insulator 30 along the left-right direction.
- the lock portion 52 includes a movable portion 52a provided along the fitting direction of the first connector 20 and the second connector 60, that is, the vertical direction.
- the lock portion 52 includes an R-shaped continuous portion 52b that connects a bottom plate portion 51 positioned horizontally and a movable portion 52a arranged along the vertical direction.
- the continuous portion 52b extends from the bottom plate portion 51 and can be elastically deformed.
- the lock part 52 includes a first engagement part 52c provided along the vertical direction.
- the first engagement portion 52c is located at the approximate center of the movable portion 52a.
- the first engaging portion 52c is configured by a substantially rectangular through hole that penetrates the movable portion 52a.
- the lock part 52 includes an R-shaped guide part 52d provided continuously with the movable part 52a and the first engagement part 52c.
- the lock part 52 includes an operation part 52e extending from the guiding part 52d toward the outside of the first insulator 30 along the left-right direction.
- the first mounting portion 53 is formed so as to protrude outward from a part of the front and rear edges of the bottom plate portion 51 along the front-rear direction.
- the first mounting portion 53 is formed so as to connect the bottom plate portion 51 and the side plate portion 54 and protrude downward by one step from the bottom plate portion 51.
- the first mounting portion 53 is formed in a substantially rectangular shape, and has a relatively wide mounting area with respect to the circuit pattern formed on the mounting surface of the circuit board CB1.
- the side plate portion 54 is continuously formed from the outer edge portion of the first mounting portion 53 in the front-rear direction, and extends toward the lock portion 52 along the left-right direction.
- a second mounting portion 54a adjacent to the first mounting portion 53 is formed on the circuit board CB1 side of the extending portion of the side plate portion 54 extending along the left-right direction.
- the second mounting portion 54a is disposed outside the first mounting portion 53 along the left-right direction.
- the second mounting portion 54a protrudes linearly from the lower edge portion of the side plate portion 54 downward.
- a bent portion 54b protruding obliquely upward is formed on the upper edge portion of the side plate portion 54 facing the second mounting portion 54a.
- the bent portion 54b is formed at a part of the upper edge portion of the side plate portion 54, and is disposed on the lock portion 52 side. Without being limited to this, the bent portion 54 b may extend to the first mounting portion 53 side, or may be formed on the entire upper edge portion of the side plate portion 54.
- the two first lock members 50 are integrally molded with the first insulator 30 by an appropriate molding method such as insert molding (see FIG. 3).
- the two first lock members 50 held by the first insulator 30 are arranged along the outer surfaces of the left and right ends of the front wall 32a and the rear wall 32b of the first insulator 30 and the outer surfaces of the left and right ends of the bottom wall 31, respectively. Be placed.
- the two first lock members 50 are symmetrically disposed at the left and right ends of the first insulator 30.
- the bottom plate portion 51 is integrally formed with the bottom wall 31 of the first insulator 30 (see FIG. 5). The outer surface of the bottom plate portion 51 is exposed to the outside from the bottom wall 31. Inside the through hole 51a of the bottom plate portion 51, the first insulator 30 is formed over substantially the whole. The inner end surface of the bottom plate portion 51 in the left-right direction and the inner surface of the through hole 51 a are embedded in the bottom wall 31 of the first insulator 30.
- the first insulator 30 is formed on the upper surface side of the bottom plate portion 51 to the vicinity of the continuous portion 52 b and covers substantially the entire upper surface of the bottom plate portion 51.
- the first mounting portion 53 protrudes closer to the circuit board CB1 than the bottom plate portion 51.
- the side plate portion 54 is integrally formed with the front wall 32a and the rear wall 32b of the first insulator 30 (see FIG. 4).
- the bent portion 54b is formed integrally with the upper edge portions of the front wall 32a and the rear wall 32b of the first insulator 30.
- the outer surfaces of the side plate portion 54 and the bent portion 54b are exposed to the outside from the front wall 32a and the rear wall 32b.
- the outer surfaces of the side plate portion 54 and the bent portion 54b are flush with the outer surfaces of the end portions of the front wall 32a and the rear wall 32b.
- the lock portion 52 is disposed at both left and right end portions of the first insulator 30 so as to be sandwiched between the front wall 32a and the rear wall 32b. As shown in FIG. 6, the lock portion 52 does not protrude from the first insulator 30 to the outside.
- the lock part 52 fits within the outer shape of the first connector 20.
- the lock part 52 is in a free state when held by the first insulator 30.
- the free state means a state where no external force is acting on the lock portion 52. In the free state, the lock portion 52 is not elastically deformed at all.
- the operation part 52e is disposed in the cutout part 32d of the first insulator 30.
- a gap S is formed between the lock portion 52 and the first insulator 30, more specifically, the connecting wall 32c.
- the mounting portion 41a of the signal contact 40a is soldered to the circuit pattern formed on the mounting surface of the circuit board CB1 (see FIG. 3).
- the mounting portion 41b of the power contact 40b is soldered to the power supply pattern formed on the mounting surface.
- the first mounting portion 53 and the second mounting portion 54a of the first lock member 50 are soldered to a ground pattern formed individually on the mounting surface.
- the first connector 20 is mounted on the circuit board CB1.
- Electronic components for example, a camera module, a sensor, etc.
- FIG. 8 is a perspective view showing the second connector 60 alone in a top view.
- FIG. 9 is an enlarged view of a part IX in FIG.
- FIG. 10 is a perspective view showing the pair of second lock members 90 in a top view.
- the circuit board CB2 is not shown.
- the second connector 60 includes a second insulator 70, a plurality of second contacts 80, and a second lock member 90 as large components.
- the second insulator 70 is a plate-like member that is formed of an insulating and heat-resistant synthetic resin material and extends in the left-right direction.
- the 2nd insulator 70 comprises the bottom wall 71 which comprises a lower part, and the cyclic
- a space formed by the bottom wall 71 and the annular wall 72 constitutes a fitting recess 73.
- a plurality of second contact holding grooves 74 that are substantially U-shaped in cross-section across the front and rear surfaces and the upper surface are provided side by side in the left-right direction.
- the plurality of second contacts 80 are respectively held in the plurality of second contact holding grooves 74.
- the number of second contact holding grooves 74 is the same as the number of second contacts 80.
- the second contact 80 is formed by forming a thin plate of a copper alloy (for example, phosphor bronze, beryllium copper, titanium copper, etc.) or a Corson copper alloy using a progressive die (stamping) (see FIG. 8).
- the surface of the second contact 80 is plated with gold, tin or the like after nickel plating is formed as a base.
- the second contact 80 includes a signal contact 80a and a power contact 80b.
- the signal contact 80a includes a mounting portion 81a extending outward in a substantially L shape.
- the signal contact 80a is continuous from above the inner end portion of the mounting portion 81a and is formed inwardly, and an extending portion 83a extending in a substantially U shape from the contact portion 82a toward the outside.
- the signal contact 80a further includes a guiding portion 84a formed on the upper surface of the extending portion 83a.
- the power contact 80b includes a mounting portion 81b extending outward in a substantially L shape.
- the power contact 80b is continuous from the upper side of the inner end of the mounting portion 81b and extends in a substantially U shape toward the inner side.
- the power contact 80b is continuous with the extending portion 83b and is formed inward.
- the power contact 80b further includes a guide portion 84b formed on the upper surface of the extension portion 83b.
- the signal contact 80a is integrally formed with the second insulator 70 by an appropriate forming method such as insert molding. As a result, the signal contact 80 a is held with respect to the second contact holding groove 74.
- the power contact 80b is press-fitted from above the second insulator 70, for example. As a result, the four power contacts 80b are respectively held in the four second contact holding grooves 74 at the left and right ends.
- the mounting portion 81a of the signal contact 80a is positioned slightly on the circuit board CB2 side, that is, below the bottom wall 71.
- the tip of the mounting portion 81 a of the signal contact 80 a is located outside the annular wall 72.
- the power contact 80b and the mounting portion 81b is arranged in the same manner as described above.
- the second lock member 90 is formed by press-molding a conductive material such as a metal plate (for example, stainless steel or phosphor bronze) (see FIG. 10).
- the second lock member 90 includes a top plate portion 91 that forms an upper surface.
- the second lock member 90 is formed continuously with the top plate portion 91 in three directions and includes a guide portion 92 having an R shape.
- the second locking member 90 includes a mounting portion 93 that is continuous with the guiding portion 92 and extends downward.
- the second lock member 90 includes a second engagement portion 94 provided at a substantially central portion of the outer surface in the left-right direction.
- the second engaging portion 94 is provided along the fitting direction of the first connector 20 and the second connector 60, that is, the vertical direction.
- the second engagement portion 94 is configured as an engagement claw corresponding to a substantially rectangular through hole that constitutes the first engagement portion 52 c of the first lock member 50.
- the two second lock members 90 are integrally formed with the second insulator 70 by an appropriate molding method such as insert molding (see FIG. 8).
- the two second lock members 90 held by the second insulator 70 are respectively arranged so as to cover the outer surface and the upper surface in the three directions of the left and right ends of the annular wall 72.
- the two second lock members 90 are symmetrically disposed at the left and right ends of the second insulator 70.
- the top plate portion 91 is integrally formed on the same surface as the upper surface of the second insulator 70 (see FIG. 9). The outer surface of the top plate portion 91 is exposed to the outside from the upper surface of the second insulator 70. Similarly, the lead-in portion 92 and the mounting portion 93 that are continuously formed in three directions from the top plate portion 91 have the outer surfaces exposed, the end portions of the front wall 72a and the rear wall 72b, and the short portion of the annular wall 72. It is formed so as to cover three sides of the hand part.
- the lead-in portion 92 and the mounting portion 93 are connected to the second insulator 70 so that the outer surfaces thereof are flush with the end portions of the front wall 72a and the rear wall 72b and the outer surface of the short portion of the annular wall 72, respectively. It is integrally molded.
- the second connector 60 having the above structure is mounted on a mounting surface formed on one surface of a circuit board CB2 (see FIG. 8) which is a plate material parallel to the circuit board CB1.
- the mounting portion 81a of the signal contact 80a is soldered to the circuit pattern formed on the mounting surface of the circuit board CB2.
- the mounting portion 81b of the power contact 80b is soldered to the power pattern formed on the mounting surface.
- the mounting portion 93 of the second lock member 90 is soldered to the ground pattern formed on the mounting surface.
- FIG. 11A and FIG. 11B are enlarged cross-sectional views showing the state when the first connector 20 and the second connector 60 are fitted along the line XI-XI in FIG.
- FIG. 11A is an enlarged cross-sectional view showing an intermediate stage of fitting between the first connector 20 and the second connector 60 along the line XI-XI in FIG.
- FIG. 11B is an enlarged cross-sectional view showing a state in which the fitting of the first connector 20 and the second connector 60 is completed along the line XI-XI in FIG.
- illustration of the circuit board CB1 and the circuit board CB2 is omitted.
- the front-rear position and the left-right position of the first connector 20 and the second connector 60 are made to substantially coincide with each other in a state where the vertical direction of the second connector 60 is reversed. Make each other face up and down. Thereafter, the second connector 60 is moved downward.
- the lower end surfaces of the front wall 72a and the rear wall 72b including the guiding portions 84a and 84b of the second contact 80 are shifted even if the positions of the second connector 60 are slightly shifted in the front-rear direction, for example. It contacts the inner edges of the front wall 32a and the rear wall 32b. Similarly, the lead-in portion 92 of the second lock member 90 comes into contact with the lead-in portion 52 d of the first lock member 50. Accordingly, the annular wall 72 enters the fitting recess 34.
- the contact portions 82a and 82b of the second contact 80 and the contact portions 43a and 43b of the first contact 40 are in contact with each other.
- the contact portions 82a and 82b elastically deform the elastic contact pieces 42a and 42b inward in the fitting convex portion 33, respectively.
- the circuit board CB2 and the circuit board CB1 are electrically connected to each other through the second contact 80 and the first contact 40.
- the fitting recess 73 is fitted into the fitting projection 33, and the annular wall 72 is fitted into the fitting recess 34, respectively. Even after the fitting, the locking part 52 does not protrude from the first insulator 30 to the outside as before the fitting.
- the lock portion 52 Before the first connector 20 and the second connector 60 are fitted, the lock portion 52 is in a free state. When the first connector 20 and the second connector 60 are opposed to each other in the vertical direction and then the second connector 60 is moved downward, the lock portion 52 comes into contact with the second lock member 90 as shown in FIG. 11A. Elastically deforms. The lock portion 52 comes into contact with the guide portion 92 or the second engagement portion 94 and elastically deforms along the left-right direction. More specifically, the movable portion 52 a and the continuous portion 52 b of the lock portion 52 are elastically deformed toward the outside of the first insulator 30.
- the second connector 60 When the second connector 60 is further moved downward, the guide portion 92 or the second engagement portion 94 of the second lock member 90 slides relative to the guide portion 52d, and the lock portion 52 is elastically deformed outward. Thereafter, when the second connector 60 is inserted to a predetermined fitting position (see FIG. 11B), the second engagement portion 94 engages with the first engagement portion 52c. The engaging claws constituting the second engaging portion 94 are located inside the through holes constituting the first engaging portion 52c. At this time, the lock unit 52 restores. Finally, the first connector 20 and the second connector 60 are in a locked state by the engagement between the lock portion 52 and the second engagement portion 94. The upward movement of the second connector 60 is restricted, and the removal of the first connector 20 and the second connector 60 is restricted.
- FIG. 12A and 12B are views showing a state when the first connector 20 and the second connector 60 are removed.
- FIG. 12A is an overall view showing a state when the second connector 60 connected to the circuit board CB2 is removed by, for example, the removal jig 100.
- FIG. 12B is a cross-sectional view taken along the line XII-XII in FIG. 12A.
- 13 is a cross-sectional view taken along the line XIII-XIII in FIG. 12B.
- 12A, FIG. 12B, and FIG. 13 show how the engagement between the lock portion 52 and the second engagement portion 94 is released when the first connector 20 and the second connector 60 are removed.
- FIG. 12A, FIG. 12B, and FIG. 13 show how the engagement between the lock portion 52 and the second engagement portion 94 is released when the first connector 20 and the second connector 60 are removed.
- the removal jig 100 is pressed against the operation portion 52e of the first lock member 50 from above. More specifically, the pair of pushing portions 110 provided at the distal end portion of the removal jig 100 are pressed against the operation portion 52e from above.
- the distance in the left-right direction of the pair of pushing parts 110 is substantially the same as the distance in the left-right direction of the operation part 52 e of the pair of lock parts 52.
- the lock portion 52 Before the first connector 20 and the second connector 60 are removed, the lock portion 52 is engaged with the second engagement portion 94. In this state, when the operating portion 52e is pushed downward by the pushing portion 110 of the removal jig 100 (see (1) in FIG. 13), the lock portion 52 is elastically deformed along the left-right direction ((( 2)). The lock portion 52 is elastically deformed outward from the connector 10. Thereby, the 1st engagement part 52c displaces to the outer side of the 1st insulator 30, and engagement with the lock part 52 and the 2nd engagement part 94 is cancelled
- the connector 10 as described above can obtain a sufficient fitting and holding force even in a low-profile and miniaturized state, and is excellent in insertion and removal workability. Due to the engagement between the lock portion 52 and the second engagement portion 94, the connector 10 can achieve a high fitting holding force.
- the connector 10 can provide a lock structure that cannot be removed unless an operation for intentionally unlocking the first connector 20 and the second connector 60 is performed. Even when the connector 10 is reduced in height and size, the connector 10 can provide a sufficient fitting holding force to maintain the fitting state with respect to careless work.
- the connector 10 can be locked by a normal fitting operation in which one is inserted into the other. There is no need for a locking operation or the like separate from the normal mating operation.
- the locked state is realized by only one operation for fitting the first connector 20 and the second connector 60 together.
- the connector 10 can realize an unlocked state by an easy removal operation of pressing downward on the operation portion 52e. From these points, the connector 10 is excellent in workability when the first connector 20 and the second connector 60 are fitted and when they are removed. The connector 10 is excellent in workability when the first connector 20 and the second connector 60 are locked and unlocked.
- the guiding portion 52d of the first locking member 50, the guiding portions 84a and 84b of the second contact 80, and the guiding portion 92 of the second locking member 90 can be easily guided. Even when the relative positions of the first connector 20 and the second connector 60 are slightly shifted in the front-rear and left-right directions during fitting, the connector 10 can guide each connector to an appropriate relative position by each guide portion. Thus, in the connector 10, the insertion of the first connector 20 and the second connector 60 is easy, and the mutual fitting is easy.
- the connector 10 can be reduced in height by the bottom plate portion 51 being integrally formed with the first insulator 30.
- the connector 10 can reduce the height of the entire first connector 20 by the thickness of the bottom plate portion 51 in the vertical direction.
- the bottom plate portion 51 continuous with the lock portion 52 is integrated with the first insulator 30, the vicinity of the root of the lock portion 52 is firmly fixed. Therefore, the bottom plate portion 51 integrated with the first insulator 30 firmly supports the entire first lock member 50 when the lock portion 52 is elastically deformed, and enables stable elastic deformation.
- the connector 10 can suppress a decrease in the elastic force and a decrease in the holding force of the first lock member 50 caused by the movement of the base of the lock portion 52 during elastic deformation.
- the connector 10 can further improve the holding force of the first lock member 50 with respect to the first insulator 30 because the resin constituting the first insulator 30 enters the entire through hole 51a by integral molding.
- the pair of side plate portions 54 are integrally formed with the front wall 32a and the rear wall 32b, so that the above-described effect can be further remarkably exhibited.
- the connector 10 can reinforce both end portions of the front wall 32 a and the rear wall 32 b of the first insulator 30 by the side plate portion 54.
- the connector 10 can reinforce the fitting side portions at both ends of the front wall 32a and the rear wall 32b by the bent portion 54b. Thereby, the connector 10 can suppress damage to the front wall 32a and the rear wall 32b during and after the fitting.
- the connector 10 can suppress deformation of the side plate portion 54 in the front-rear direction compared to the case where the side plate portion 54 is formed as a simple flat plate.
- the connector 10 can suppress a decrease in the fitting holding force due to the displacement of the second connector 60 due to the deformation of the first insulator 30.
- the connector 10 can further stabilize the elastic deformation of the lock portion 52 because the first lock member 50 includes the first mounting portion 53.
- the connector 10 firmly fixes the bottom plate part 51 to the circuit board CB1 via the first mounting part 53 soldered to the circuit board CB1, so that the first lock member is formed when the lock part 52 is elastically deformed.
- the entire 50 is firmly supported to enable stable elastic deformation.
- the soldered first mounting portion 53 extends from the end portion of the bottom plate portion 51 in the front-rear direction in a direction substantially perpendicular to the elastic deformation direction of the lock portion 52.
- the movement in the rotation direction of the first lock member 50 about the vertical direction can be firmly restricted.
- the connector 10 enables stable elastic deformation of the lock portion 52 during fitting and removal.
- the connector 10 is stable by regulating the movement of the lock portion 52 even when an external force in the rotational direction is applied due to inadvertent contact between the extraction jig 100 and the first lock member 50 during extraction. Allows elastic deformation.
- the connector 10 can stably mount the first mounting part 53 on the circuit board CB1 by the first mounting part 53 protruding from the bottom plate part 51 to the circuit board CB1 side. Since the first mounting portion 53 has a relatively wide mounting area, the connector 10 can more significantly exhibit the effects related to the high retention of the bottom plate portion 51 and the stability of elastic deformation of the lock portion 52. .
- the connector 10 can appropriately protect the front wall 32a and the rear wall 32b of the first insulator 30 by having the second mounting portion 54a adjacent to the first mounting portion 53. By holding the first locking member 50, the corresponding both ends of the front wall 32a and the rear wall 32b are formed thin. Thereby, the front wall 32a and the rear wall 32b may be damaged by receiving a twisting action or the like during or after the fitting.
- the connector 10 can suppress breakage due to such a cause by firmly fixing both ends of the front wall 32a and the rear wall 32b to the circuit board CB1 via the second mounting portion 54a.
- the connector 10 can also exhibit the effect regarding the high holding property of the said baseplate part 51 and the stability of the elastic deformation of the lock part 52 more notably.
- the soldered second mounting portion 54 a is provided on the side plate portion 54 continuous with the bottom plate portion 51 through the first mounting portion 53, so that the bottom plate portion 51 can be firmly fixed. As described above, the connector 10 can firmly hold the first lock member 50 by soldering at four positions on the two first mounting portions 53 and the two second mounting portions 54a.
- the connector 10 exposes the outer surface of the bottom plate portion 51 to the outside, so that it is not necessary to form the first insulator 30 in the portion, and the first connector 20 can be further reduced in height. Thereby, the connector 10 can be reduced in height as a whole.
- the connector 10 enables the removal work of pushing the operation part 52e downward. Therefore, the connector 10 facilitates work with a jig or the like.
- the connector 10 is excellent in workability.
- the lock portion 52 can be elastically deformed along the left-right direction without being obstructed by the first insulator 30.
- the second lock member 90 is disposed along each of the two sides so as to cover the three sides and the upper surface of the second insulator 70, thereby protecting the corresponding portion of the second insulator 70, and the second lock member 90 at the time of fitting. Damage to the insulator 70 can be suppressed.
- the lock portion 52 can be stably restored to the normal position even if the lock and unlock are repeated.
- the lock portion 52 is plastically deformed by repeated operations of locking and unlocking, the first connector 20 and the second connector 60 are not locked to each other, the engagement of the lock portion 52 is reduced, and the locking force is reduced. , Etc. can be suppressed.
- each lock member may be interchanged between the first connector 20 and the second connector 60.
- the lock portion 52 of the first lock member 50 is not limited to a configuration in which the lock portion 52 is held at the end of the first insulator 30 in the longitudinal direction of the connector 10, that is, in the left-right direction and elastically deforms in the same direction.
- the lock part 52 may be configured to be held at the end of the connector 10 in the short direction, that is, the front-rear direction and elastically deform in the same direction.
- the first engagement portion 52c is not limited to a configuration that penetrates the central portion of the movable portion 52a in a substantially rectangular shape.
- the first engaging part 52c may penetrate the central part of the movable part 52a in an arbitrary shape.
- the first engaging portion 52c may be recessed on the surface without penetrating the movable portion 52a.
- the first locking member 50 is not limited to a structure integrally formed with the first insulator 30, and can be attached to the first insulator 30 by an appropriate method such as press-fitting as long as high retention and stability of elastic deformation can be secured. It may be held.
- the first lock member 50 is not limited to a configuration having both the first mounting portion 53 and the second mounting portion 54a. If the first lock member 50 can appropriately protect the front wall 32a and the rear wall 32b and can ensure high retention of the bottom plate portion 51 and stability of elastic deformation of the lock portion 52, only one of them can be used. You may have.
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- Details Of Connecting Devices For Male And Female Coupling (AREA)
- Coupling Device And Connection With Printed Circuit (AREA)
Abstract
This connector (10) is characterized by being provided with: a first connector (20) provided with a first insulator and a first locking member (50) held by the first insulator; and a second connector (60) which is fitted to the first connector (20) and is provided with a second insulator fitted to the first insulator and a second locking member (90) held by the second insulator and having a second engagement section (94), wherein: the first locking member (50) is provided with a locking section which can be elastically deformed toward the outside of the first insulator; and the locking section has an elastically deformable continuous section (52b) extending from a bottom plate section supported on a bottom wall of the first insulator, a first engagement section (52c) provided along a fitting direction from the continuous section and engaged with the second engagement section (94), and an operation section (52e) extending further toward the outside than the first engagement section (52c).
Description
本出願は、2017年6月2日に日本国に特許出願された特願2017-110430の優先権を主張するものであり、この出願の開示全体をここに参照のために取り込む。
This application claims the priority of Japanese Patent Application No. 2017-110430 filed in Japan on June 2, 2017, the entire disclosure of which is incorporated herein by reference.
本開示は、コネクタに関する。
This disclosure relates to a connector.
近年、電子機器の薄型化及び小型化の進展に伴い、電子機器内に実装されるコネクタ自体にも軽薄短小化が要求される。一方で、例えば通信端末、ウェアラブル端末などの電子機器の落下などによる衝撃が加わった場合であっても、嵌合したコネクタ同士が不用意に外れないように、高い嵌合保持力を有するコネクタが要求される。
In recent years, with the progress of thinning and miniaturization of electronic devices, connectors mounted in electronic devices themselves are required to be light and thin. On the other hand, there is a connector having a high fitting retention force so that the fitted connectors are not inadvertently disconnected even when an impact due to dropping of an electronic device such as a communication terminal or a wearable terminal is applied. Required.
特許文献1に記載のコネクタは、第1コネクタに取り付けた第1補強金具の接触腕部が第2コネクタに取り付けた第2補強金具の接触側板部と接触することによって、嵌合保持力を得ている。
The connector described in Patent Document 1 obtains a fitting holding force when the contact arm portion of the first reinforcing bracket attached to the first connector contacts the contact side plate portion of the second reinforcing bracket attached to the second connector. ing.
特許文献1に記載のコネクタは、低背化及び小型化した状態で十分な嵌合保持力を得る点に鑑みて設計されている。しかしながら、一般的に、コネクタ自体の低背化及び小型化が進展すると、当該コネクタに保持されるコンタクト、金具などの部品も低背化及び小型化し、コネクタ同士の嵌合保持力が低下する傾向にある。したがって、コネクタが搭載される機器の組立工程及び機器の落下衝撃時などにコネクタに不用意な力が印加された場合においても嵌合状態を維持できる程度の十分な嵌合保持力を得ることは困難となってきている。よって、コネクタ同士を意図的に外す作業は必要となるが、外す作業を行わない限り抜去できないようなロック構造が必要とされる。一方で、コネクタが嵌合する際の挿入の容易性も確保しつつ、単純な嵌合操作でコネクタ同士を容易に嵌合できることが望ましい。
The connector described in Patent Document 1 is designed in view of obtaining a sufficient fitting holding force in a low-profile and miniaturized state. However, in general, when the connector itself is reduced in height and size, contacts, metal fittings and other components held by the connector are also reduced in height and size, and the fitting holding force between the connectors tends to decrease. It is in. Therefore, it is not possible to obtain a sufficient fitting holding force that can maintain the fitting state even when an inadvertent force is applied to the connector during the assembly process of the device on which the connector is mounted and when the device is dropped. It has become difficult. Therefore, although the operation | work which removes connectors intentionally is required, the lock | rock structure which cannot be removed unless the operation | work which removes is performed is required. On the other hand, it is desirable that the connectors can be easily fitted together by a simple fitting operation while ensuring the ease of insertion when the connectors are fitted.
本開示の目的は、低背化及び小型化した状態であっても、十分な嵌合保持力を得ることができ、かつ、挿入及び抜去の作業性に優れるコネクタを提供することにある。
An object of the present disclosure is to provide a connector that can obtain a sufficient fitting holding force and is excellent in insertion and removal workability even in a low-profile and miniaturized state.
上記課題を解決するために、第1の観点に係るコネクタは、
第1インシュレータ、及び
前記第1インシュレータに保持された第1ロック部材、
を具備する第1コネクタと、
前記第1インシュレータと嵌合する第2インシュレータ、及び
前記第2インシュレータに保持され、第2係合部を有する第2ロック部材、
を具備する前記1コネクタと嵌合する第2コネクタと、
を備え、
前記第1ロック部材は、前記第1インシュレータの外方に向けて弾性変形可能なロック部を具備し、
前記ロック部は、
前記第1インシュレータの底壁に支持された底板部から延出する弾性変形可能な連続部と、
前記連続部から嵌合方向に沿って設けられ、前記第2係合部と係合する第1係合部と、
前記第1係合部よりも前記外方に向けて延出する操作部と、
を有することを特徴とする。 In order to solve the above problem, the connector according to the first aspect is
A first insulator, and a first lock member held by the first insulator;
A first connector comprising:
A second insulator fitted to the first insulator, and a second lock member held by the second insulator and having a second engaging portion,
A second connector fitted to the first connector comprising:
With
The first lock member includes a lock portion that is elastically deformable toward the outside of the first insulator,
The lock part is
An elastically deformable continuous portion extending from a bottom plate portion supported by the bottom wall of the first insulator;
A first engagement portion provided along the fitting direction from the continuous portion, and engaged with the second engagement portion;
An operating portion extending outward from the first engaging portion;
It is characterized by having.
第1インシュレータ、及び
前記第1インシュレータに保持された第1ロック部材、
を具備する第1コネクタと、
前記第1インシュレータと嵌合する第2インシュレータ、及び
前記第2インシュレータに保持され、第2係合部を有する第2ロック部材、
を具備する前記1コネクタと嵌合する第2コネクタと、
を備え、
前記第1ロック部材は、前記第1インシュレータの外方に向けて弾性変形可能なロック部を具備し、
前記ロック部は、
前記第1インシュレータの底壁に支持された底板部から延出する弾性変形可能な連続部と、
前記連続部から嵌合方向に沿って設けられ、前記第2係合部と係合する第1係合部と、
前記第1係合部よりも前記外方に向けて延出する操作部と、
を有することを特徴とする。 In order to solve the above problem, the connector according to the first aspect is
A first insulator, and a first lock member held by the first insulator;
A first connector comprising:
A second insulator fitted to the first insulator, and a second lock member held by the second insulator and having a second engaging portion,
A second connector fitted to the first connector comprising:
With
The first lock member includes a lock portion that is elastically deformable toward the outside of the first insulator,
The lock part is
An elastically deformable continuous portion extending from a bottom plate portion supported by the bottom wall of the first insulator;
A first engagement portion provided along the fitting direction from the continuous portion, and engaged with the second engagement portion;
An operating portion extending outward from the first engaging portion;
It is characterized by having.
第2の観点に係るコネクタでは、
前記ロック部は、前記第1係合部と連続して設けられる誘い込み部を備えてもよい。 In the connector according to the second aspect,
The lock portion may include a guide portion that is provided continuously with the first engagement portion.
前記ロック部は、前記第1係合部と連続して設けられる誘い込み部を備えてもよい。 In the connector according to the second aspect,
The lock portion may include a guide portion that is provided continuously with the first engagement portion.
第3の観点に係るコネクタでは、
前記底板部は、前記第1インシュレータと一体成形されてもよい。 In the connector according to the third aspect,
The bottom plate portion may be integrally formed with the first insulator.
前記底板部は、前記第1インシュレータと一体成形されてもよい。 In the connector according to the third aspect,
The bottom plate portion may be integrally formed with the first insulator.
第4の観点に係るコネクタでは、
前記第1ロック部材は、前記外方に対して略直交する方向の前記底板部の端部に設けられる第1実装部を備えてもよい。 In the connector according to the fourth aspect,
The first lock member may include a first mounting portion provided at an end portion of the bottom plate portion in a direction substantially orthogonal to the outer side.
前記第1ロック部材は、前記外方に対して略直交する方向の前記底板部の端部に設けられる第1実装部を備えてもよい。 In the connector according to the fourth aspect,
The first lock member may include a first mounting portion provided at an end portion of the bottom plate portion in a direction substantially orthogonal to the outer side.
第5の観点に係るコネクタでは、
前記第1実装部は、前記底板部よりも前記第1コネクタが実装される回路基板側に突出してもよい。 In the connector according to the fifth aspect,
The first mounting portion may protrude from the bottom plate portion toward the circuit board on which the first connector is mounted.
前記第1実装部は、前記底板部よりも前記第1コネクタが実装される回路基板側に突出してもよい。 In the connector according to the fifth aspect,
The first mounting portion may protrude from the bottom plate portion toward the circuit board on which the first connector is mounted.
第6の観点に係るコネクタでは、
前記第1ロック部材は、
前記第1実装部と連続して形成され、前記底板部に略直交する側板部と、
前記側板部の前記第1コネクタが実装される回路基板側に設けられ、前記第1実装部と隣接する第2実装部と、
を備えてもよい。 In the connector according to the sixth aspect,
The first locking member is
A side plate portion formed continuously with the first mounting portion and substantially orthogonal to the bottom plate portion;
A second mounting portion provided on the side of the circuit board on which the first connector of the side plate portion is mounted, and adjacent to the first mounting portion;
May be provided.
前記第1ロック部材は、
前記第1実装部と連続して形成され、前記底板部に略直交する側板部と、
前記側板部の前記第1コネクタが実装される回路基板側に設けられ、前記第1実装部と隣接する第2実装部と、
を備えてもよい。 In the connector according to the sixth aspect,
The first locking member is
A side plate portion formed continuously with the first mounting portion and substantially orthogonal to the bottom plate portion;
A second mounting portion provided on the side of the circuit board on which the first connector of the side plate portion is mounted, and adjacent to the first mounting portion;
May be provided.
本開示の一実施形態に係るコネクタによれば、低背化及び小型化した状態であっても、十分な嵌合保持力を得ることができ、かつ、挿入及び抜去の作業性に優れる。
According to the connector according to an embodiment of the present disclosure, a sufficient fitting and holding force can be obtained even in a low profile and miniaturized state, and the workability of insertion and removal is excellent.
以下、添付図面を参照しながら一実施形態について説明する。以下の説明中の前後、左右及び上下の方向は、図中の矢印の方向を基準とする。以下の説明では、第1コネクタ20は、リセプタクルコネクタであり、第2コネクタ60は、プラグコネクタであるとして説明する。しかしながら、これに限定されず、第1コネクタ20がプラグコネクタの役割を果たし、第2コネクタ60がリセプタクルコネクタの役割を果たしてもよい。
Hereinafter, an embodiment will be described with reference to the accompanying drawings. In the following description, front and rear, left and right, and up and down directions are based on the directions of arrows in the drawing. In the following description, the first connector 20 will be described as a receptacle connector, and the second connector 60 will be described as a plug connector. However, the present invention is not limited to this, and the first connector 20 may serve as a plug connector, and the second connector 60 may serve as a receptacle connector.
以下の説明では、第1コネクタ20及び第2コネクタ60は、回路基板CB1及びCB2に対して、それぞれ垂直方向に嵌合されるとして説明する。第1コネクタ20及び第2コネクタ60は、上下方向に沿って嵌合する。しかしながら、これに限定されず、第1コネクタ20及び第2コネクタ60は、回路基板CB1及びCB2に対して、それぞれ平行方向に嵌合されてもよいし、一方が垂直方向、他方が平行方向による組み合わせで嵌合されてもよい。第1コネクタ20又は第2コネクタ60は、リジッド基板以外の回路基板、例えば、フレキシブルプリント回路基板(FPC)に接続されてもよい。
In the following description, it is assumed that the first connector 20 and the second connector 60 are fitted to the circuit boards CB1 and CB2 in the vertical direction, respectively. The first connector 20 and the second connector 60 are fitted along the vertical direction. However, the present invention is not limited to this, and the first connector 20 and the second connector 60 may be fitted in the parallel direction with respect to the circuit boards CB1 and CB2, respectively, one being in the vertical direction and the other in the parallel direction. It may be fitted in combination. The first connector 20 or the second connector 60 may be connected to a circuit board other than the rigid board, for example, a flexible printed circuit board (FPC).
図1は、一実施形態に係るコネクタ10を、第1コネクタ20と第2コネクタ60とが嵌合した状態で上面視により示した斜視図である。図2は、図1のコネクタ10を、第1コネクタ20と第2コネクタ60とが分離した状態で上面視により示した斜視図である。
FIG. 1 is a perspective view of a connector 10 according to an embodiment as viewed from above with a first connector 20 and a second connector 60 fitted together. FIG. 2 is a perspective view showing the connector 10 of FIG. 1 in a top view with the first connector 20 and the second connector 60 separated.
一実施形態に係るコネクタ10は、大きな構成要素として、第1コネクタ20と、第2コネクタ60と、を具備する。
The connector 10 according to an embodiment includes a first connector 20 and a second connector 60 as large components.
図3は、第1コネクタ20単体を上面視により示した斜視図である。図4は、図3のIV部の拡大図である。図5は、図4の拡大部分に対応する底面図である。図6は、図4のVI-VI矢線に沿う断面図である。図7は、一対の第1ロック部材50を上面視により示した斜視図である。図3以外の上記の図において、回路基板CB1の図示は省略されている。
FIG. 3 is a perspective view showing the first connector 20 alone in a top view. FIG. 4 is an enlarged view of a portion IV in FIG. FIG. 5 is a bottom view corresponding to the enlarged portion of FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG. FIG. 7 is a perspective view showing the pair of first lock members 50 in a top view. In the above figures other than FIG. 3, the circuit board CB1 is not shown.
第1コネクタ20の詳しい構造について主に図3乃至図7を参照しながら説明する。
The detailed structure of the first connector 20 will be described with reference mainly to FIGS.
図3に示すとおり、第1コネクタ20は、大きな構成要素として第1インシュレータ30と、複数の第1コンタクト40と、一対の第1ロック部材50と、を具備する。
As shown in FIG. 3, the first connector 20 includes a first insulator 30, a plurality of first contacts 40, and a pair of first locking members 50 as large components.
第1インシュレータ30は、絶縁性かつ耐熱性の合成樹脂料によって成形され、左右方向に延在する。第1インシュレータ30は、下部を構成する底壁31と、底壁31の上面の前後両縁部から上方に突出し、左右方向に延在する前壁32a及び後壁32bと、を具備する。第1インシュレータ30は、左右両端部において前壁32a及び後壁32bを連結する連結壁32cを具備する。第1インシュレータ30は、左右方向の両端部を連結壁32cの上面まで略凹形状に切欠いた切欠部32dを具備する。第1インシュレータ30は、底壁31の中央部の上面から上方に突出し、前壁32a及び後壁32bに挟まれるように形成される嵌合凸部33を具備する。前壁32a及び後壁32bから内側に離間する嵌合凸部33は、左右方向に直線的に延びている。前壁32a及び後壁32bと嵌合凸部33との間に形成された空間並びに前壁32a及び後壁32bによって挟まれた第1インシュレータ30の左右両端部の空間は、環状の嵌合凹部34を構成する。
The first insulator 30 is molded from an insulating and heat-resistant synthetic resin material and extends in the left-right direction. The first insulator 30 includes a bottom wall 31 that constitutes a lower portion, and a front wall 32a and a rear wall 32b that protrude upward from both front and rear edges of the upper surface of the bottom wall 31 and extend in the left-right direction. The first insulator 30 includes a connecting wall 32c that connects the front wall 32a and the rear wall 32b at the left and right ends. The first insulator 30 includes a notch portion 32d in which both end portions in the left-right direction are notched into a substantially concave shape up to the upper surface of the connecting wall 32c. The first insulator 30 includes a fitting convex portion 33 that protrudes upward from the upper surface of the central portion of the bottom wall 31 and is formed so as to be sandwiched between the front wall 32a and the rear wall 32b. The fitting convex portion 33 spaced inward from the front wall 32a and the rear wall 32b extends linearly in the left-right direction. The space formed between the front wall 32a and the rear wall 32b and the fitting convex portion 33 and the space at the left and right ends of the first insulator 30 sandwiched between the front wall 32a and the rear wall 32b are annular fitting concave portions. 34 is configured.
前壁32aの後面、底壁31及び嵌合凸部33の前面に跨る部分には、複数の第1コンタクト40を取り付けるための複数の第1コンタクト取付溝35が、左右方向に並んで凹設される。同様に、後壁32bの前面、底壁31及び嵌合凸部33の後面に跨る部分には、複数の第1コンタクト40を取り付けるための複数の第1コンタクト取付溝35が、左右方向に並んで凹設される。第1コンタクト取付溝35の数は、第1コンタクト40の数と同一である。第1コンタクト取付溝35は、上面から下面にかけて底壁31を貫通する。第1コンタクト取付溝35は、嵌合凸部33の前後両面において、第1コンタクト40の内側への弾性変形を許容する。
A plurality of first contact mounting grooves 35 for mounting the plurality of first contacts 40 are recessed in the left-right direction in a portion straddling the rear surface of the front wall 32a, the bottom wall 31 and the front surface of the fitting convex portion 33. Is done. Similarly, a plurality of first contact mounting grooves 35 for mounting the plurality of first contacts 40 are arranged in the left-right direction on a portion straddling the front surface of the rear wall 32b, the bottom wall 31 and the rear surface of the fitting convex portion 33. Is recessed. The number of first contact mounting grooves 35 is the same as the number of first contacts 40. The first contact mounting groove 35 penetrates the bottom wall 31 from the upper surface to the lower surface. The first contact mounting groove 35 allows elastic deformation to the inside of the first contact 40 on both front and rear surfaces of the fitting convex portion 33.
第1コンタクト40は、ばね弾性を備えた銅合金(例えば、リン青銅、ベリリウム銅、チタン銅など)又はコルソン系銅合金の薄板を順送金型(スタンピング)を用いて成形加工したものである(図3参照)。第1コンタクト40の表面には、ニッケルめっきが下地として形成された後に、金、錫などによるめっきが施される。
The first contact 40 is obtained by forming a thin plate of a copper alloy (for example, phosphor bronze, beryllium copper, titanium copper, etc.) or a Corson copper alloy having spring elasticity using a progressive die (stamping) ( (See FIG. 3). The surface of the first contact 40 is plated with gold, tin or the like after nickel plating is formed as a base.
第1コンタクト40は、一例として、シグナルコンタクト40a及び電源コンタクト40bを有する。
As an example, the first contact 40 includes a signal contact 40a and a power contact 40b.
シグナルコンタクト40aは、略L字状に外側に延出する実装部41aと、弾性変形可能な弾性接触片42aと、弾性接触片42aの先端部に内側に向いて形成される接触部43aと、を具備する。同様に、電源コンタクト40bは、略L字状に外側に延出する実装部41bと、弾性変形可能な弾性接触片42bと、弾性接触片42bの先端部に内側に向いて形成される接触部43bと、を具備する。電源コンタクト40bは、シグナルコンタクト40aよりも幅広に形成される。
The signal contact 40a includes a mounting portion 41a extending outward in a substantially L shape, an elastically deformable elastic contact piece 42a, a contact portion 43a formed inwardly at the tip of the elastic contact piece 42a, It comprises. Similarly, the power contact 40b includes a mounting portion 41b that extends outward in a substantially L shape, an elastic contact piece 42b that can be elastically deformed, and a contact portion that is formed inwardly at the tip of the elastic contact piece 42b. 43b. The power contact 40b is formed wider than the signal contact 40a.
第1コンタクト40は、一例として、第1インシュレータ30の下方から圧入される。これにより、第1コンタクト40は、第1コンタクト取付溝35に対して保持される。より具体的には、4つの電源コンタクト40bは、左右両端部の4つの第1コンタクト取付溝35に対してそれぞれ保持される。残りの第1コンタクト取付溝35には、複数のシグナルコンタクト40aがそれぞれ取り付けられる。
The first contact 40 is press-fitted from below the first insulator 30 as an example. As a result, the first contact 40 is held against the first contact mounting groove 35. More specifically, the four power contacts 40b are respectively held with respect to the four first contact mounting grooves 35 at the left and right ends. A plurality of signal contacts 40a are attached to the remaining first contact attachment grooves 35, respectively.
シグナルコンタクト40aが第1コンタクト取付溝35に保持されると、弾性接触片42aが嵌合凸部33と対向した状態で配置される。弾性接触片42aは、嵌合凸部33の内側に向けて前後方向に弾性変形可能である。シグナルコンタクト40aの実装部41aは、底壁31よりもわずかに回路基板CB1側、すなわち下方に位置する。電源コンタクト40bについても同様であり、実装部41b及び弾性接触片42bも上記と同様に配置される。
When the signal contact 40 a is held in the first contact mounting groove 35, the elastic contact piece 42 a is arranged in a state of facing the fitting convex portion 33. The elastic contact piece 42 a can be elastically deformed in the front-rear direction toward the inside of the fitting convex portion 33. The mounting portion 41a of the signal contact 40a is positioned slightly on the side of the circuit board CB1, that is, below the bottom wall 31. The same applies to the power contact 40b, and the mounting portion 41b and the elastic contact piece 42b are also arranged in the same manner as described above.
第1ロック部材50は、金属板(例えばステンレス又はリン青銅)などの導電性材料をプレス成形したものである(図7参照)。第1ロック部材50は、底面をなす底板部51と、上下方向に沿って底板部51を貫通する略円形状の貫通孔51aと、を具備する。第1ロック部材50は、底板部51と連続して形成され、第1インシュレータ30の外方に向けて延出する弾性変形可能なロック部52を具備する。第1ロック部材50は、ロック部52の延出方向に対して略直交する前後方向の底板部51の両端部に設けられる第1実装部53を具備する。第1ロック部材50は、第1実装部53と連続して形成され、底板部51に略直交する側板部54を具備する。底板部51とロック部52とは、全体として略S字状となるように形成される。底板部51、第1実装部53及び側板部54とは、全体として略コ字状となるように形成される。
The first lock member 50 is formed by press-molding a conductive material such as a metal plate (for example, stainless steel or phosphor bronze) (see FIG. 7). The first locking member 50 includes a bottom plate portion 51 that forms a bottom surface, and a substantially circular through hole 51a that penetrates the bottom plate portion 51 along the vertical direction. The first lock member 50 includes an elastically deformable lock portion 52 that is formed continuously with the bottom plate portion 51 and extends outward from the first insulator 30. The first lock member 50 includes first mounting portions 53 provided at both end portions of the bottom plate portion 51 in the front-rear direction substantially orthogonal to the extending direction of the lock portion 52. The first lock member 50 includes a side plate portion 54 that is formed continuously with the first mounting portion 53 and is substantially orthogonal to the bottom plate portion 51. The bottom plate portion 51 and the lock portion 52 are formed so as to be substantially S-shaped as a whole. The bottom plate portion 51, the first mounting portion 53, and the side plate portion 54 are formed so as to be substantially U-shaped as a whole.
ロック部52は、底板部51の左右方向の外縁部から、左右方向に沿った第1インシュレータ30の外側に向けて延出する。ロック部52は、第1コネクタ20と第2コネクタ60との嵌合方向、すなわち上下方向に沿って設けられる可動部52aを具備する。ロック部52は、水平に位置する底板部51と上下方向に沿って配置される可動部52aとを接続するR形状の連続部52bを具備する。連続部52bは、底板部51から延出し、弾性変形可能である。ロック部52は、上下方向に沿って設けられる第1係合部52cを具備する。第1係合部52cは、可動部52aの略中央に位置する。第1係合部52cは、可動部52aを貫通する略矩形状の貫通孔によって構成される。ロック部52は、可動部52a及び第1係合部52cと連続して設けられるR形状の誘い込み部52dを具備する。ロック部52は、誘い込み部52dから左右方向に沿った第1インシュレータ30の外側に向けて延出する操作部52eを具備する。
The lock portion 52 extends from the outer edge portion of the bottom plate portion 51 in the left-right direction toward the outside of the first insulator 30 along the left-right direction. The lock portion 52 includes a movable portion 52a provided along the fitting direction of the first connector 20 and the second connector 60, that is, the vertical direction. The lock portion 52 includes an R-shaped continuous portion 52b that connects a bottom plate portion 51 positioned horizontally and a movable portion 52a arranged along the vertical direction. The continuous portion 52b extends from the bottom plate portion 51 and can be elastically deformed. The lock part 52 includes a first engagement part 52c provided along the vertical direction. The first engagement portion 52c is located at the approximate center of the movable portion 52a. The first engaging portion 52c is configured by a substantially rectangular through hole that penetrates the movable portion 52a. The lock part 52 includes an R-shaped guide part 52d provided continuously with the movable part 52a and the first engagement part 52c. The lock part 52 includes an operation part 52e extending from the guiding part 52d toward the outside of the first insulator 30 along the left-right direction.
第1実装部53は、底板部51の前後両縁部の一部から、前後方向に沿って外側に突出するように形成される。第1実装部53は、底板部51と側板部54とを接続し、底板部51よりも一段下方に突出するように形成される。第1実装部53は、略矩形状に形成され、回路基板CB1の実装面に形成された回路パターンに対して比較的広範な実装面積を有する。
The first mounting portion 53 is formed so as to protrude outward from a part of the front and rear edges of the bottom plate portion 51 along the front-rear direction. The first mounting portion 53 is formed so as to connect the bottom plate portion 51 and the side plate portion 54 and protrude downward by one step from the bottom plate portion 51. The first mounting portion 53 is formed in a substantially rectangular shape, and has a relatively wide mounting area with respect to the circuit pattern formed on the mounting surface of the circuit board CB1.
側板部54は、第1実装部53の前後方向の外縁部から連続して形成され、左右方向に沿ってロック部52側に延出する。左右方向に沿って延出した側板部54の延出部分の回路基板CB1側には、第1実装部53と隣接する第2実装部54aが形成される。第2実装部54aは、左右方向に沿って第1実装部53の外側に配置される。第2実装部54aは、側板部54の下縁部から下方に向けて直線状に突出する。第2実装部54aと対向する側板部54の上縁部には、斜め上方に向けて突出する屈曲部54bが形成される。屈曲部54bは、側板部54の上縁部の一部に形成され、ロック部52側に配置される。これに限定されず、屈曲部54bは、第1実装部53側まで延在してもよいし、側板部54の上縁部全体に形成されてもよい。
The side plate portion 54 is continuously formed from the outer edge portion of the first mounting portion 53 in the front-rear direction, and extends toward the lock portion 52 along the left-right direction. A second mounting portion 54a adjacent to the first mounting portion 53 is formed on the circuit board CB1 side of the extending portion of the side plate portion 54 extending along the left-right direction. The second mounting portion 54a is disposed outside the first mounting portion 53 along the left-right direction. The second mounting portion 54a protrudes linearly from the lower edge portion of the side plate portion 54 downward. A bent portion 54b protruding obliquely upward is formed on the upper edge portion of the side plate portion 54 facing the second mounting portion 54a. The bent portion 54b is formed at a part of the upper edge portion of the side plate portion 54, and is disposed on the lock portion 52 side. Without being limited to this, the bent portion 54 b may extend to the first mounting portion 53 side, or may be formed on the entire upper edge portion of the side plate portion 54.
2つの第1ロック部材50は、例えばインサート成形などの適宜な成形方法によって、第1インシュレータ30と一体成形される(図3参照)。第1インシュレータ30に保持された2つの第1ロック部材50は、第1インシュレータ30の前壁32a及び後壁32bの左右両端部の外面、並びに底壁31の左右両端部の外面に沿ってそれぞれ配置される。2つの第1ロック部材50は、第1インシュレータ30の左右両端部に対称的に配置される。
The two first lock members 50 are integrally molded with the first insulator 30 by an appropriate molding method such as insert molding (see FIG. 3). The two first lock members 50 held by the first insulator 30 are arranged along the outer surfaces of the left and right ends of the front wall 32a and the rear wall 32b of the first insulator 30 and the outer surfaces of the left and right ends of the bottom wall 31, respectively. Be placed. The two first lock members 50 are symmetrically disposed at the left and right ends of the first insulator 30.
底板部51は、第1インシュレータ30の底壁31と一体成形される(図5参照)。底板部51の外面は、底壁31から外部に露出している。底板部51の貫通孔51aの内部には、略全体にわたって第1インシュレータ30が形成される。底板部51の左右方向の内側の端面と貫通孔51aの内面とは、第1インシュレータ30の底壁31に埋設される。第1インシュレータ30は、連続部52bの近傍まで底板部51の上面側に形成されており、底板部51の上面の略全体を覆う。第1実装部53は、底板部51よりも回路基板CB1側に突出する。
The bottom plate portion 51 is integrally formed with the bottom wall 31 of the first insulator 30 (see FIG. 5). The outer surface of the bottom plate portion 51 is exposed to the outside from the bottom wall 31. Inside the through hole 51a of the bottom plate portion 51, the first insulator 30 is formed over substantially the whole. The inner end surface of the bottom plate portion 51 in the left-right direction and the inner surface of the through hole 51 a are embedded in the bottom wall 31 of the first insulator 30. The first insulator 30 is formed on the upper surface side of the bottom plate portion 51 to the vicinity of the continuous portion 52 b and covers substantially the entire upper surface of the bottom plate portion 51. The first mounting portion 53 protrudes closer to the circuit board CB1 than the bottom plate portion 51.
側板部54は、第1インシュレータ30の前壁32a及び後壁32bと一体成形される(図4参照)。同様に、屈曲部54bは、第1インシュレータ30の前壁32a及び後壁32bの上縁部と一体成形される。側板部54及び屈曲部54bの外面は、前壁32a及び後壁32bから外部に露出している。側板部54及び屈曲部54bの外面は、前壁32a及び後壁32bの端部の外面と同一平面をなす。
The side plate portion 54 is integrally formed with the front wall 32a and the rear wall 32b of the first insulator 30 (see FIG. 4). Similarly, the bent portion 54b is formed integrally with the upper edge portions of the front wall 32a and the rear wall 32b of the first insulator 30. The outer surfaces of the side plate portion 54 and the bent portion 54b are exposed to the outside from the front wall 32a and the rear wall 32b. The outer surfaces of the side plate portion 54 and the bent portion 54b are flush with the outer surfaces of the end portions of the front wall 32a and the rear wall 32b.
ロック部52は、第1インシュレータ30の左右両端部において、前壁32a及び後壁32bに挟まれるように配置される。図6に示すとおり、ロック部52は、第1インシュレータ30から外部に突出しない。ロック部52は、第1コネクタ20の外形内に収まる。ロック部52は、第1インシュレータ30に保持された際、自由状態にある。自由状態とは、ロック部52に対して外力が働いていない状態を意味する。自由状態では、ロック部52は、全く弾性変形していない。操作部52eは、第1インシュレータ30の切欠部32dに配置される。ロック部52と第1インシュレータ30、より具体的には連結壁32cとの間には、空隙Sが形成される。
The lock portion 52 is disposed at both left and right end portions of the first insulator 30 so as to be sandwiched between the front wall 32a and the rear wall 32b. As shown in FIG. 6, the lock portion 52 does not protrude from the first insulator 30 to the outside. The lock part 52 fits within the outer shape of the first connector 20. The lock part 52 is in a free state when held by the first insulator 30. The free state means a state where no external force is acting on the lock portion 52. In the free state, the lock portion 52 is not elastically deformed at all. The operation part 52e is disposed in the cutout part 32d of the first insulator 30. A gap S is formed between the lock portion 52 and the first insulator 30, more specifically, the connecting wall 32c.
以上構造の第1コネクタ20では、回路基板CB1(図3参照)の実装面に形成された回路パターンに対して、シグナルコンタクト40aの実装部41aがはんだ付けされる。当該実装面に形成された電源パターンに対して、電源コンタクト40bの実装部41bがはんだ付けされる。例えば当該実装面に個別に形成された接地パターンなどに対して、第1ロック部材50の第1実装部53及び第2実装部54aがそれぞれはんだ付けされる。以上により、第1コネクタ20は、回路基板CB1に対して実装される。回路基板CB1の実装面には、第1コネクタ20とは別の電子部品(例えば、カメラモジュール、センサなど)が実装される。
In the first connector 20 having the above structure, the mounting portion 41a of the signal contact 40a is soldered to the circuit pattern formed on the mounting surface of the circuit board CB1 (see FIG. 3). The mounting portion 41b of the power contact 40b is soldered to the power supply pattern formed on the mounting surface. For example, the first mounting portion 53 and the second mounting portion 54a of the first lock member 50 are soldered to a ground pattern formed individually on the mounting surface. As described above, the first connector 20 is mounted on the circuit board CB1. Electronic components (for example, a camera module, a sensor, etc.) different from the first connector 20 are mounted on the mounting surface of the circuit board CB1.
第2コネクタ60の詳しい構造について主に図8乃至図10を参照しながら説明する。
The detailed structure of the second connector 60 will be described with reference mainly to FIGS.
図8は、第2コネクタ60単体を上面視により示した斜視図である。図9は、図8のIX部の拡大図である。図10は、一対の第2ロック部材90を上面視により示した斜視図である。図8以外の上記の図において、回路基板CB2の図示は、省略されている。
FIG. 8 is a perspective view showing the second connector 60 alone in a top view. FIG. 9 is an enlarged view of a part IX in FIG. FIG. 10 is a perspective view showing the pair of second lock members 90 in a top view. In the above figures other than FIG. 8, the circuit board CB2 is not shown.
第2コネクタ60は、大きな構成要素として、第2インシュレータ70と、複数の第2コンタクト80と、第2ロック部材90と、を具備する。
The second connector 60 includes a second insulator 70, a plurality of second contacts 80, and a second lock member 90 as large components.
第2インシュレータ70は、絶縁性かつ耐熱性の合成樹脂料によって成形され、左右方向に延びる板状部材である。第2インシュレータ70は、下部を構成する底壁71と、底壁71の上面の周縁部全体から上方に突出する環状壁72と、を具備する(図8参照)。底壁71と環状壁72とによって形成された空間は嵌合凹部73を構成する。
The second insulator 70 is a plate-like member that is formed of an insulating and heat-resistant synthetic resin material and extends in the left-right direction. The 2nd insulator 70 comprises the bottom wall 71 which comprises a lower part, and the cyclic | annular wall 72 which protrudes upwards from the whole peripheral part of the upper surface of the bottom wall 71 (refer FIG. 8). A space formed by the bottom wall 71 and the annular wall 72 constitutes a fitting recess 73.
環状壁72の前壁72a及び後壁72bには、前後両面及び上面に跨る断面視略U字状の複数の第2コンタクト保持溝74が、左右方向に並んで凹設される。複数の第2コンタクト保持溝74には、複数の第2コンタクト80がそれぞれ保持される。複数の第2コンタクト保持溝74の数は、第2コンタクト80の数と同一である。
In the front wall 72a and the rear wall 72b of the annular wall 72, a plurality of second contact holding grooves 74 that are substantially U-shaped in cross-section across the front and rear surfaces and the upper surface are provided side by side in the left-right direction. The plurality of second contacts 80 are respectively held in the plurality of second contact holding grooves 74. The number of second contact holding grooves 74 is the same as the number of second contacts 80.
第2コンタクト80は、銅合金(例えば、リン青銅、ベリリウム銅、チタン銅など)又はコルソン系銅合金の薄板を順送金型(スタンピング)を用いて成形加工したものである(図8参照)。第2コンタクト80の表面には、ニッケルめっきが下地として形成された後に、金、錫などによるめっきが施される。
The second contact 80 is formed by forming a thin plate of a copper alloy (for example, phosphor bronze, beryllium copper, titanium copper, etc.) or a Corson copper alloy using a progressive die (stamping) (see FIG. 8). The surface of the second contact 80 is plated with gold, tin or the like after nickel plating is formed as a base.
第2コンタクト80は、一例として、シグナルコンタクト80a及び電源コンタクト80bを有する。
As an example, the second contact 80 includes a signal contact 80a and a power contact 80b.
シグナルコンタクト80aは、略L字状に外側に延出する実装部81aを具備する。シグナルコンタクト80aは、実装部81aの内側端部の上方から連続し、内側に向いて形成される接触部82aと、接触部82aから外側に向かって略U字状に延出する延出部83aと、を具備する。シグナルコンタクト80aは、延出部83aの上面に形成される誘い込み部84aをさらに具備する。
The signal contact 80a includes a mounting portion 81a extending outward in a substantially L shape. The signal contact 80a is continuous from above the inner end portion of the mounting portion 81a and is formed inwardly, and an extending portion 83a extending in a substantially U shape from the contact portion 82a toward the outside. And. The signal contact 80a further includes a guiding portion 84a formed on the upper surface of the extending portion 83a.
電源コンタクト80bは、略L字状に外側に延出する実装部81bを具備する。電源コンタクト80bは、実装部81bの内側端部の上方から連続し、内側に向かって略U字状に延出する延出部83bと、延出部83bと連続し、内側に向いて形成される接触部82bと、を具備する。電源コンタクト80bは、延出部83bの上面に形成される誘い込み部84bをさらに具備する。
The power contact 80b includes a mounting portion 81b extending outward in a substantially L shape. The power contact 80b is continuous from the upper side of the inner end of the mounting portion 81b and extends in a substantially U shape toward the inner side. The power contact 80b is continuous with the extending portion 83b and is formed inward. A contact portion 82b. The power contact 80b further includes a guide portion 84b formed on the upper surface of the extension portion 83b.
シグナルコンタクト80aは、例えばインサート成形などの適宜な成形方法によって、第2インシュレータ70と一体成形される。これにより、シグナルコンタクト80aは、第2コンタクト保持溝74に対して保持される。一方で、電源コンタクト80bは、例えば第2インシュレータ70の上方から圧入される。これにより、4つの電源コンタクト80bは、左右両端部の4つの第2コンタクト保持溝74に対してそれぞれ保持される。
The signal contact 80a is integrally formed with the second insulator 70 by an appropriate forming method such as insert molding. As a result, the signal contact 80 a is held with respect to the second contact holding groove 74. On the other hand, the power contact 80b is press-fitted from above the second insulator 70, for example. As a result, the four power contacts 80b are respectively held in the four second contact holding grooves 74 at the left and right ends.
シグナルコンタクト80aが第2コンタクト保持溝74に保持されると、シグナルコンタクト80aの実装部81aは、底壁71よりもわずかに回路基板CB2側、すなわち下方に位置する。シグナルコンタクト80aの実装部81aの先端は、環状壁72よりも外側に位置する。電源コンタクト80bについても同様であり、実装部81bも上記と同様に配置される。
When the signal contact 80a is held in the second contact holding groove 74, the mounting portion 81a of the signal contact 80a is positioned slightly on the circuit board CB2 side, that is, below the bottom wall 71. The tip of the mounting portion 81 a of the signal contact 80 a is located outside the annular wall 72. The same applies to the power contact 80b, and the mounting portion 81b is arranged in the same manner as described above.
第2ロック部材90は、金属板(例えばステンレス又はリン青銅)などの導電性材料をプレス成形したものである(図10参照)。第2ロック部材90は、上面をなす天板部91を具備する。第2ロック部材90は、天板部91と3方向に連続して形成され、R形状をなす誘い込み部92を具備する。第2ロック部材90は、誘い込み部92と連続し、下方に向けて延出する実装部93を具備する。第2ロック部材90は、左右方向の外面の略中央部に設けられる第2係合部94を具備する。第2係合部94は、第1コネクタ20と第2コネクタ60との嵌合方向、すなわち上下方向に沿って設けられる。第2係合部94は、第1ロック部材50の第1係合部52cを構成する略矩形状の貫通孔と対応する係合爪として構成される。
The second lock member 90 is formed by press-molding a conductive material such as a metal plate (for example, stainless steel or phosphor bronze) (see FIG. 10). The second lock member 90 includes a top plate portion 91 that forms an upper surface. The second lock member 90 is formed continuously with the top plate portion 91 in three directions and includes a guide portion 92 having an R shape. The second locking member 90 includes a mounting portion 93 that is continuous with the guiding portion 92 and extends downward. The second lock member 90 includes a second engagement portion 94 provided at a substantially central portion of the outer surface in the left-right direction. The second engaging portion 94 is provided along the fitting direction of the first connector 20 and the second connector 60, that is, the vertical direction. The second engagement portion 94 is configured as an engagement claw corresponding to a substantially rectangular through hole that constitutes the first engagement portion 52 c of the first lock member 50.
2つの第2ロック部材90は、例えばインサート成形などの適宜な成形方法によって、第2インシュレータ70と一体成形される(図8参照)。第2インシュレータ70に保持された2つの第2ロック部材90は、環状壁72の左右両端部の3方向の外面及び上面を覆うようにそれぞれ配置される。2つの第2ロック部材90は、第2インシュレータ70の左右両端部に対称的に配置される。
The two second lock members 90 are integrally formed with the second insulator 70 by an appropriate molding method such as insert molding (see FIG. 8). The two second lock members 90 held by the second insulator 70 are respectively arranged so as to cover the outer surface and the upper surface in the three directions of the left and right ends of the annular wall 72. The two second lock members 90 are symmetrically disposed at the left and right ends of the second insulator 70.
天板部91は、第2インシュレータ70の上面と同一面状に一体成形される(図9参照)。天板部91の外面は、第2インシュレータ70の上面から外部に露出している。同様に、天板部91から3方向に連続して形成される誘い込み部92及び実装部93は、外面が露出した状態で、前壁72a及び後壁72bの端部、並びに環状壁72の短手部の3辺を覆うように形成される。このとき、誘い込み部92及び実装部93は、その外面が前壁72a及び後壁72bの端部、並びに環状壁72の短手部の外面とそれぞれ同一平面をなすように、第2インシュレータ70と一体成形される。
The top plate portion 91 is integrally formed on the same surface as the upper surface of the second insulator 70 (see FIG. 9). The outer surface of the top plate portion 91 is exposed to the outside from the upper surface of the second insulator 70. Similarly, the lead-in portion 92 and the mounting portion 93 that are continuously formed in three directions from the top plate portion 91 have the outer surfaces exposed, the end portions of the front wall 72a and the rear wall 72b, and the short portion of the annular wall 72. It is formed so as to cover three sides of the hand part. At this time, the lead-in portion 92 and the mounting portion 93 are connected to the second insulator 70 so that the outer surfaces thereof are flush with the end portions of the front wall 72a and the rear wall 72b and the outer surface of the short portion of the annular wall 72, respectively. It is integrally molded.
以上構造の第2コネクタ60は、回路基板CB1と平行な板材である回路基板CB2(図8参照)の一方の面に形成した実装面に実装される。具体的には、シグナルコンタクト80aの実装部81aが、回路基板CB2の実装面に形成された回路パターンに対してはんだ付けされる。当該実装面に形成された電源パターンに対して、電源コンタクト80bの実装部81bがはんだ付けされる。例えば当該実装面に形成された接地パターンなどに対して、第2ロック部材90の実装部93がはんだ付けされる。
The second connector 60 having the above structure is mounted on a mounting surface formed on one surface of a circuit board CB2 (see FIG. 8) which is a plate material parallel to the circuit board CB1. Specifically, the mounting portion 81a of the signal contact 80a is soldered to the circuit pattern formed on the mounting surface of the circuit board CB2. The mounting portion 81b of the power contact 80b is soldered to the power pattern formed on the mounting surface. For example, the mounting portion 93 of the second lock member 90 is soldered to the ground pattern formed on the mounting surface.
第1コネクタ20に対して第2コネクタ60を接続する要領について説明する。
The procedure for connecting the second connector 60 to the first connector 20 will be described.
図11A及び図11Bは、第1コネクタ20と第2コネクタ60とが嵌合する際の様子を、図1のXI-XI矢線に沿って示した拡大断面図である。図11Aは、第1コネクタ20と第2コネクタ60との嵌合の途中段階を図1のXI-XI矢線に沿って示した拡大断面図である。図11Bは、第1コネクタ20と第2コネクタ60との嵌合が完了した状態を図1のXI-XI矢線に沿って示した拡大断面図である。図11A及び図11Bにおいて、回路基板CB1及び回路基板CB2の図示は、省略されている。
FIG. 11A and FIG. 11B are enlarged cross-sectional views showing the state when the first connector 20 and the second connector 60 are fitted along the line XI-XI in FIG. FIG. 11A is an enlarged cross-sectional view showing an intermediate stage of fitting between the first connector 20 and the second connector 60 along the line XI-XI in FIG. FIG. 11B is an enlarged cross-sectional view showing a state in which the fitting of the first connector 20 and the second connector 60 is completed along the line XI-XI in FIG. In FIG. 11A and FIG. 11B, illustration of the circuit board CB1 and the circuit board CB2 is omitted.
図2に示すように、第2コネクタ60の上下方向の向きを逆にした状態で、第1コネクタ20と第2コネクタ60との前後位置及び左右位置を略一致させる。互いを上下方向に対向させる。その後、第2コネクタ60を下方に移動させる。
As shown in FIG. 2, the front-rear position and the left-right position of the first connector 20 and the second connector 60 are made to substantially coincide with each other in a state where the vertical direction of the second connector 60 is reversed. Make each other face up and down. Thereafter, the second connector 60 is moved downward.
第2コネクタ60を下方へと移動させると、互いの位置が例えば前後方向に多少ずれていても、第2コンタクト80の誘い込み部84a及び84bを含む前壁72a及び後壁72bの下端面が、前壁32a及び後壁32bの内縁部と接触する。同様に、第2ロック部材90の誘い込み部92が、第1ロック部材50の誘い込み部52dと接触する。したがって、環状壁72が嵌合凹部34に侵入する。
When the second connector 60 is moved downward, the lower end surfaces of the front wall 72a and the rear wall 72b including the guiding portions 84a and 84b of the second contact 80 are shifted even if the positions of the second connector 60 are slightly shifted in the front-rear direction, for example. It contacts the inner edges of the front wall 32a and the rear wall 32b. Similarly, the lead-in portion 92 of the second lock member 90 comes into contact with the lead-in portion 52 d of the first lock member 50. Accordingly, the annular wall 72 enters the fitting recess 34.
このとき、第2コンタクト80の接触部82a及び82bと第1コンタクト40の接触部43a及び43bとがそれぞれ接触する。接触部82a及び82bは、嵌合凸部33内において、弾性接触片42a及び42bを内側へとそれぞれ弾性変形させる。以上により、第2コンタクト80及び第1コンタクト40を介して、回路基板CB2と回路基板CB1とが電気的に導通する。
At this time, the contact portions 82a and 82b of the second contact 80 and the contact portions 43a and 43b of the first contact 40 are in contact with each other. The contact portions 82a and 82b elastically deform the elastic contact pieces 42a and 42b inward in the fitting convex portion 33, respectively. As described above, the circuit board CB2 and the circuit board CB1 are electrically connected to each other through the second contact 80 and the first contact 40.
嵌合凹部73は嵌合凸部33に嵌合し、環状壁72は嵌合凹部34にそれぞれ嵌合する。ロック部52は、嵌合後においても、嵌後前と同様に第1インシュレータ30から外部に突出しない。
The fitting recess 73 is fitted into the fitting projection 33, and the annular wall 72 is fitted into the fitting recess 34, respectively. Even after the fitting, the locking part 52 does not protrude from the first insulator 30 to the outside as before the fitting.
図11A及び図11Bを用いて、第1コネクタ20と第2コネクタ60とが嵌合する際に、第1ロック部材50と第2ロック部材90とが係合する様子を詳細に説明する。
11A and 11B, a state in which the first lock member 50 and the second lock member 90 are engaged when the first connector 20 and the second connector 60 are fitted together will be described in detail.
第1コネクタ20と第2コネクタ60との嵌合前では、ロック部52は、自由状態にある。第1コネクタ20及び第2コネクタ60を互いに上下方向に対向させた後、第2コネクタ60を下方に移動させると、図11Aに示すとおり、ロック部52は、第2ロック部材90と接触して弾性変形する。ロック部52は、誘い込み部92又は第2係合部94と接触して、左右方向に沿って弾性変形する。より具体的には、ロック部52の可動部52a及び連続部52bは、第1インシュレータ30の外方に向けて弾性変形する。第2コネクタ60を下方にさらに移動させると、第2ロック部材90の誘い込み部92又は第2係合部94が誘い込み部52dに対して摺動しつつ、ロック部52を外側に弾性変形させる。その後、第2コネクタ60が所定の嵌合位置まで挿入されると(図11B参照)、第2係合部94が第1係合部52cと係合する。第2係合部94を構成する係合爪が第1係合部52cを構成する貫通孔の内部に位置する。このとき、ロック部52は、復元する。最終的に、ロック部52と第2係合部94とが係合することで、第1コネクタ20と第2コネクタ60とは、ロック状態となる。第2コネクタ60の上方への移動が規制され、第1コネクタ20と第2コネクタ60との抜去が制限される。
Before the first connector 20 and the second connector 60 are fitted, the lock portion 52 is in a free state. When the first connector 20 and the second connector 60 are opposed to each other in the vertical direction and then the second connector 60 is moved downward, the lock portion 52 comes into contact with the second lock member 90 as shown in FIG. 11A. Elastically deforms. The lock portion 52 comes into contact with the guide portion 92 or the second engagement portion 94 and elastically deforms along the left-right direction. More specifically, the movable portion 52 a and the continuous portion 52 b of the lock portion 52 are elastically deformed toward the outside of the first insulator 30. When the second connector 60 is further moved downward, the guide portion 92 or the second engagement portion 94 of the second lock member 90 slides relative to the guide portion 52d, and the lock portion 52 is elastically deformed outward. Thereafter, when the second connector 60 is inserted to a predetermined fitting position (see FIG. 11B), the second engagement portion 94 engages with the first engagement portion 52c. The engaging claws constituting the second engaging portion 94 are located inside the through holes constituting the first engaging portion 52c. At this time, the lock unit 52 restores. Finally, the first connector 20 and the second connector 60 are in a locked state by the engagement between the lock portion 52 and the second engagement portion 94. The upward movement of the second connector 60 is restricted, and the removal of the first connector 20 and the second connector 60 is restricted.
図12A及び図12Bは、第1コネクタ20と第2コネクタ60とを抜去する際の様子を示した図である。図12Aは、回路基板CB2と接続されている第2コネクタ60を例えば抜去治具100によって抜去するときの様子を示した全体図である。図12Bは、図12AのXII-XII矢線に沿う断面図である。図13は、図12BのXIII-XIII矢線に沿う断面図である。図12A、図12B、及び図13を用いて、第1コネクタ20と第2コネクタ60とを抜去する際に、ロック部52と第2係合部94との係合が解除される様子を詳細に説明する。
12A and 12B are views showing a state when the first connector 20 and the second connector 60 are removed. FIG. 12A is an overall view showing a state when the second connector 60 connected to the circuit board CB2 is removed by, for example, the removal jig 100. FIG. 12B is a cross-sectional view taken along the line XII-XII in FIG. 12A. 13 is a cross-sectional view taken along the line XIII-XIII in FIG. 12B. 12A, FIG. 12B, and FIG. 13 show how the engagement between the lock portion 52 and the second engagement portion 94 is released when the first connector 20 and the second connector 60 are removed. Explained.
図12A及び図12Bに示すとおり、第1コネクタ20から第2コネクタ60を抜去するとき、第1ロック部材50の操作部52eに抜去治具100を上方から押し当てる。より具体的には、抜去治具100の先端部に設けられた一対の押込部110を上方から操作部52eに押し当てる。一対の押込部110の左右方向の間隔は、一対のロック部52の操作部52eの左右方向の間隔と略同一である。
As shown in FIGS. 12A and 12B, when the second connector 60 is removed from the first connector 20, the removal jig 100 is pressed against the operation portion 52e of the first lock member 50 from above. More specifically, the pair of pushing portions 110 provided at the distal end portion of the removal jig 100 are pressed against the operation portion 52e from above. The distance in the left-right direction of the pair of pushing parts 110 is substantially the same as the distance in the left-right direction of the operation part 52 e of the pair of lock parts 52.
第1コネクタ20と第2コネクタ60との抜去前では、ロック部52は、第2係合部94と係合している。この状態で、抜去治具100の押込部110によって操作部52eを下方へと押し込むと(図13の(1)参照)、ロック部52は、左右方向に沿って弾性変形する(図13の(2)参照)。ロック部52は、コネクタ10の外方へと弾性変形する。これにより、第1係合部52cが第1インシュレータ30の外側に変位して、ロック部52と第2係合部94との係合が解除される。したがって、第1コネクタ20と第2コネクタ60とは、アンロック状態となる。第2コネクタ60を上方へと移動させることが可能となる(図13の(3)参照)。第2コネクタ60を上方へと移動させると、第1コネクタ20と第2コネクタ60との抜去が完了する。このとき、抜去治具100による押し込みを解除すると、ロック部52は、それ自体が有する弾性によって復元する。
Before the first connector 20 and the second connector 60 are removed, the lock portion 52 is engaged with the second engagement portion 94. In this state, when the operating portion 52e is pushed downward by the pushing portion 110 of the removal jig 100 (see (1) in FIG. 13), the lock portion 52 is elastically deformed along the left-right direction ((( 2)). The lock portion 52 is elastically deformed outward from the connector 10. Thereby, the 1st engagement part 52c displaces to the outer side of the 1st insulator 30, and engagement with the lock part 52 and the 2nd engagement part 94 is cancelled | released. Therefore, the first connector 20 and the second connector 60 are unlocked. The second connector 60 can be moved upward (see (3) in FIG. 13). When the second connector 60 is moved upward, the removal of the first connector 20 and the second connector 60 is completed. At this time, when the push-in by the removal jig 100 is released, the lock portion 52 is restored by its own elasticity.
図13に示すような抜去作業において、仮に抜去治具100による押し込みが強く、ロック部52が過剰に押圧されたとしても、操作部52eの下面は、連結壁32cの上面と当接する。このように、連結壁32cは、ロック部52の過剰な弾性変形を規制して、ロック部52の塑性変形を抑制する。
In the extraction work as shown in FIG. 13, even if the pressing by the extraction jig 100 is strong and the lock portion 52 is excessively pressed, the lower surface of the operation portion 52e contacts the upper surface of the connecting wall 32c. In this way, the connecting wall 32 c restricts excessive elastic deformation of the lock part 52 and suppresses plastic deformation of the lock part 52.
以上のようなコネクタ10は、低背化及び小型化した状態であっても、十分な嵌合保持力を得ることができ、かつ、挿入及び抜去の作業性に優れる。ロック部52と第2係合部94との係合により、コネクタ10は、高い嵌合保持力を実現できる。コネクタ10は、第1コネクタ20及び第2コネクタ60のロックを意図的に外す作業を行わない限り抜去できないようなロック構造を提供できる。コネクタ10は、低背化及び小型化した場合であっても、不用意な作業に対して嵌合状態を維持できる程に十分な嵌合保持力を提供できる。
The connector 10 as described above can obtain a sufficient fitting and holding force even in a low-profile and miniaturized state, and is excellent in insertion and removal workability. Due to the engagement between the lock portion 52 and the second engagement portion 94, the connector 10 can achieve a high fitting holding force. The connector 10 can provide a lock structure that cannot be removed unless an operation for intentionally unlocking the first connector 20 and the second connector 60 is performed. Even when the connector 10 is reduced in height and size, the connector 10 can provide a sufficient fitting holding force to maintain the fitting state with respect to careless work.
コネクタ10は、第1コネクタ20と第2コネクタ60とが嵌合する際においては、一方を他方に挿入する通常の嵌合作業によりロック状態を実現できる。通常の嵌合作業とは別のロック作業などが必要とされない。第1コネクタ20と第2コネクタ60とを嵌合する1つの作業のみでロック状態が実現される。コネクタ10は、第1コネクタ20と第2コネクタ60とを抜去する際においては、操作部52eに対して下方に押圧を加えるという容易な抜去操作によって、アンロック状態を実現できる。これらの点から、コネクタ10は、第1コネクタ20と第2コネクタ60とが嵌合する際及びこれらを抜去する際の作業性に優れる。コネクタ10は、第1コネクタ20と第2コネクタ60とをロックする際及びアンロックする際の作業性にも優れる。
When the first connector 20 and the second connector 60 are fitted, the connector 10 can be locked by a normal fitting operation in which one is inserted into the other. There is no need for a locking operation or the like separate from the normal mating operation. The locked state is realized by only one operation for fitting the first connector 20 and the second connector 60 together. When removing the first connector 20 and the second connector 60, the connector 10 can realize an unlocked state by an easy removal operation of pressing downward on the operation portion 52e. From these points, the connector 10 is excellent in workability when the first connector 20 and the second connector 60 are fitted and when they are removed. The connector 10 is excellent in workability when the first connector 20 and the second connector 60 are locked and unlocked.
コネクタ10では、第1ロック部材50の誘い込み部52d、第2コンタクト80の誘い込み部84a及び84b並びに第2ロック部材90の誘い込み部92によって、嵌合の際の誘い込みが容易である。コネクタ10は、嵌合の際に第1コネクタ20及び第2コネクタ60の相対位置が前後左右方向にわずかにずれていたとしても、各誘い込み部によって適切な相対位置にまで各コネクタを誘導できる。このように、コネクタ10では、第1コネクタ20及び第2コネクタ60同士の挿入が容易であり、互いの嵌合が容易である。
In the connector 10, the guiding portion 52d of the first locking member 50, the guiding portions 84a and 84b of the second contact 80, and the guiding portion 92 of the second locking member 90 can be easily guided. Even when the relative positions of the first connector 20 and the second connector 60 are slightly shifted in the front-rear and left-right directions during fitting, the connector 10 can guide each connector to an appropriate relative position by each guide portion. Thus, in the connector 10, the insertion of the first connector 20 and the second connector 60 is easy, and the mutual fitting is easy.
コネクタ10は、底板部51が第1インシュレータ30と一体成形されることで、低背化可能である。コネクタ10は、例えば図11A及び図11Bに示すとおり、底板部51の上下方向の厚み分だけ第1コネクタ20全体を低背化可能である。コネクタ10は、ロック部52と連続する底板部51が第1インシュレータ30と一体化するので、ロック部52の根元近傍が強固に固定される。したがって、第1インシュレータ30に一体化された底板部51は、ロック部52の弾性変形の際に第1ロック部材50全体を強固に支持して、安定した弾性変形を可能とする。換言すると、コネクタ10は、弾性変形の際にロック部52の根元が動くことで生じる弾性力の低下及び第1ロック部材50の保持力低下を抑制できる。コネクタ10は、第1インシュレータ30を構成する樹脂が一体成形によって貫通孔51a全体に入り込むことで、第1ロック部材50の第1インシュレータ30に対する保持力をさらに向上できる。
The connector 10 can be reduced in height by the bottom plate portion 51 being integrally formed with the first insulator 30. For example, as shown in FIGS. 11A and 11B, the connector 10 can reduce the height of the entire first connector 20 by the thickness of the bottom plate portion 51 in the vertical direction. In the connector 10, since the bottom plate portion 51 continuous with the lock portion 52 is integrated with the first insulator 30, the vicinity of the root of the lock portion 52 is firmly fixed. Therefore, the bottom plate portion 51 integrated with the first insulator 30 firmly supports the entire first lock member 50 when the lock portion 52 is elastically deformed, and enables stable elastic deformation. In other words, the connector 10 can suppress a decrease in the elastic force and a decrease in the holding force of the first lock member 50 caused by the movement of the base of the lock portion 52 during elastic deformation. The connector 10 can further improve the holding force of the first lock member 50 with respect to the first insulator 30 because the resin constituting the first insulator 30 enters the entire through hole 51a by integral molding.
同様に、コネクタ10は、一対の側板部54が前壁32a及び後壁32bと一体成形されることで、上記の効果をさらに顕著に奏することができる。コネクタ10は、側板部54により、第1インシュレータ30の前壁32a及び後壁32bの両端部を補強できる。同様に、コネクタ10は、屈曲部54bにより、前壁32a及び後壁32bの両端部において嵌合側部分を補強できる。これにより、コネクタ10は、嵌合の際及び嵌合後において、前壁32a及び後壁32bの破損を抑制できる。屈曲部54bが形成されることで、側板部54が単なる平板として形成された場合に比べて、コネクタ10は、側板部54の前後方向への変形を抑制できる。コネクタ10は、第1インシュレータ30の変形によって第2コネクタ60が位置ずれすることで、嵌合保持力が低下することを抑制できる。
Similarly, in the connector 10, the pair of side plate portions 54 are integrally formed with the front wall 32a and the rear wall 32b, so that the above-described effect can be further remarkably exhibited. The connector 10 can reinforce both end portions of the front wall 32 a and the rear wall 32 b of the first insulator 30 by the side plate portion 54. Similarly, the connector 10 can reinforce the fitting side portions at both ends of the front wall 32a and the rear wall 32b by the bent portion 54b. Thereby, the connector 10 can suppress damage to the front wall 32a and the rear wall 32b during and after the fitting. By forming the bent portion 54b, the connector 10 can suppress deformation of the side plate portion 54 in the front-rear direction compared to the case where the side plate portion 54 is formed as a simple flat plate. The connector 10 can suppress a decrease in the fitting holding force due to the displacement of the second connector 60 due to the deformation of the first insulator 30.
コネクタ10は、第1ロック部材50が第1実装部53を有することで、ロック部52の弾性変形をさらに安定化できる。コネクタ10は、回路基板CB1にはんだ付けされた第1実装部53を介して底板部51を回路基板CB1に対して強固に固定することで、ロック部52の弾性変形の際に第1ロック部材50全体を強固に支持して、安定した弾性変形を可能とする。コネクタ10は、はんだ付けされた第1実装部53が底板部51の端部から前後方向に沿ってロック部52の弾性変形方向と略直交する方向に延出することで、嵌合方向、すなわち上下方向を軸とする第1ロック部材50の回転方向の動きを強固に規制できる。これにより、コネクタ10は、嵌合の際及び抜去の際において、ロック部52の安定した弾性変形を可能とする。例えば、コネクタ10は、抜去の際に抜去治具100と第1ロック部材50との不用意な接触によって上記回転方向に対する外力が働いたとしても、ロック部52の動きを規制して、安定した弾性変形を可能とする。
The connector 10 can further stabilize the elastic deformation of the lock portion 52 because the first lock member 50 includes the first mounting portion 53. The connector 10 firmly fixes the bottom plate part 51 to the circuit board CB1 via the first mounting part 53 soldered to the circuit board CB1, so that the first lock member is formed when the lock part 52 is elastically deformed. The entire 50 is firmly supported to enable stable elastic deformation. In the connector 10, the soldered first mounting portion 53 extends from the end portion of the bottom plate portion 51 in the front-rear direction in a direction substantially perpendicular to the elastic deformation direction of the lock portion 52. The movement in the rotation direction of the first lock member 50 about the vertical direction can be firmly restricted. Thereby, the connector 10 enables stable elastic deformation of the lock portion 52 during fitting and removal. For example, the connector 10 is stable by regulating the movement of the lock portion 52 even when an external force in the rotational direction is applied due to inadvertent contact between the extraction jig 100 and the first lock member 50 during extraction. Allows elastic deformation.
コネクタ10は、第1実装部53が底板部51よりも回路基板CB1側に突出することで、回路基板CB1に対して第1実装部53を安定して実装可能である。第1実装部53が比較的広範な実装面積を有することで、コネクタ10は、上記の底板部51の高保持性及びロック部52の弾性変形の安定性に関する効果をより顕著に奏することができる。
The connector 10 can stably mount the first mounting part 53 on the circuit board CB1 by the first mounting part 53 protruding from the bottom plate part 51 to the circuit board CB1 side. Since the first mounting portion 53 has a relatively wide mounting area, the connector 10 can more significantly exhibit the effects related to the high retention of the bottom plate portion 51 and the stability of elastic deformation of the lock portion 52. .
コネクタ10は、第1実装部53と隣接する第2実装部54aを有することで、第1インシュレータ30の前壁32a及び後壁32bを適切に保護できる。第1ロック部材50の保持によって、前壁32a及び後壁32bの対応する両端部は、薄く形成される。これにより、嵌合の際又は嵌合後においてねじり作用などを受けることで、前壁32a及び後壁32bが破損する恐れがある。コネクタ10は、前壁32a及び後壁32bの対応する両端部が第2実装部54aを介して回路基板CB1に強固に固定されることで、このような原因による破損を抑制できる。コネクタ10は、上記の底板部51の高保持性及びロック部52の弾性変形の安定性に関する効果をより顕著に奏することもできる。はんだ付けされた第2実装部54aは、第1実装部53を介して底板部51と連続する側板部54に設けられることで、底板部51を強固に固定できる。このように、コネクタ10は、2つの第1実装部53及び2つの第2実装部54aにおける4カ所でのはんだ付けによって、第1ロック部材50を強固に保持できる。
The connector 10 can appropriately protect the front wall 32a and the rear wall 32b of the first insulator 30 by having the second mounting portion 54a adjacent to the first mounting portion 53. By holding the first locking member 50, the corresponding both ends of the front wall 32a and the rear wall 32b are formed thin. Thereby, the front wall 32a and the rear wall 32b may be damaged by receiving a twisting action or the like during or after the fitting. The connector 10 can suppress breakage due to such a cause by firmly fixing both ends of the front wall 32a and the rear wall 32b to the circuit board CB1 via the second mounting portion 54a. The connector 10 can also exhibit the effect regarding the high holding property of the said baseplate part 51 and the stability of the elastic deformation of the lock part 52 more notably. The soldered second mounting portion 54 a is provided on the side plate portion 54 continuous with the bottom plate portion 51 through the first mounting portion 53, so that the bottom plate portion 51 can be firmly fixed. As described above, the connector 10 can firmly hold the first lock member 50 by soldering at four positions on the two first mounting portions 53 and the two second mounting portions 54a.
コネクタ10は、底板部51の外面が外部に露出することで、当該部分における第1インシュレータ30の形成を不要とし、第1コネクタ20をさらに低背化できる。これにより、コネクタ10は、全体として低背化可能である。
The connector 10 exposes the outer surface of the bottom plate portion 51 to the outside, so that it is not necessary to form the first insulator 30 in the portion, and the first connector 20 can be further reduced in height. Thereby, the connector 10 can be reduced in height as a whole.
コネクタ10は、操作部52eを下方へと押込むという抜去作業を可能とする。したがって、コネクタ10は、治具などでの作業を容易とする。コネクタ10は、作業性に優れる。
The connector 10 enables the removal work of pushing the operation part 52e downward. Therefore, the connector 10 facilitates work with a jig or the like. The connector 10 is excellent in workability.
コネクタ10では、操作部52eの外側に空隙Sが形成されることで、ロック部52は、第1インシュレータ30によって阻害されることなく左右方向に沿って弾性変形可能である。
In the connector 10, since the gap S is formed outside the operation portion 52 e, the lock portion 52 can be elastically deformed along the left-right direction without being obstructed by the first insulator 30.
第2ロック部材90は、第2インシュレータ70の3辺及び上面を覆うように、それぞれに沿って配置されることで、第2インシュレータ70の対応する部分を保護し、嵌合の際の第2インシュレータ70の破損を抑制できる。
The second lock member 90 is disposed along each of the two sides so as to cover the three sides and the upper surface of the second insulator 70, thereby protecting the corresponding portion of the second insulator 70, and the second lock member 90 at the time of fitting. Damage to the insulator 70 can be suppressed.
コネクタ10は、連結壁32cによってロック部52の塑性変形を抑制するので、ロック及びアンロックを繰り返したとしても、ロック部52を正規の位置まで安定して復元させることができる。コネクタ10は、ロック及びアンロックの繰り返し作業によってロック部52が塑性変形して、第1コネクタ20及び第2コネクタ60同士がロックされない、ロック部52の係り代が減少してロック力が低減する、などの不具合を抑制できる。
Since the connector 10 suppresses the plastic deformation of the lock portion 52 by the connecting wall 32c, the lock portion 52 can be stably restored to the normal position even if the lock and unlock are repeated. In the connector 10, the lock portion 52 is plastically deformed by repeated operations of locking and unlocking, the first connector 20 and the second connector 60 are not locked to each other, the engagement of the lock portion 52 is reduced, and the locking force is reduced. , Etc. can be suppressed.
本開示は、その精神又はその本質的な特徴から離れることなく、上述した実施形態以外の他の所定の形態で実現できることは当業者にとって明白である。したがって、先の記述は例示的であり、これに限定されない。開示の範囲は、先の記述によってではなく、付加した請求項によって定義される。あらゆる変更のうちその均等の範囲内にあるいくつかの変更は、その中に包含される。
It will be apparent to those skilled in the art that the present disclosure can be realized in other predetermined forms other than the above-described embodiments without departing from the spirit or essential characteristics thereof. Accordingly, the foregoing description is illustrative and not restrictive. The scope of the disclosure is defined by the appended claims rather than by the foregoing description. Some of all changes that fall within the equivalent scope are encompassed therein.
例えば、第1コネクタ20及び第2コネクタ60との間で、各ロック部材の構造が入れ替わってもよい。
For example, the structure of each lock member may be interchanged between the first connector 20 and the second connector 60.
第1ロック部材50のロック部52は、コネクタ10の長手方向、すなわち左右方向における第1インシュレータ30の端部に保持され、同方向に弾性変形する構成に限定されない。ロック部52は、コネクタ10の短手方向、すなわち前後方向における端部に保持され、同方向に弾性変形する構成であってもよい。
The lock portion 52 of the first lock member 50 is not limited to a configuration in which the lock portion 52 is held at the end of the first insulator 30 in the longitudinal direction of the connector 10, that is, in the left-right direction and elastically deforms in the same direction. The lock part 52 may be configured to be held at the end of the connector 10 in the short direction, that is, the front-rear direction and elastically deform in the same direction.
第1係合部52cは、可動部52aの中央部を略矩形状に貫通する構成に限定されない。例えば、第1係合部52cは、可動部52aの中央部を任意の形状により貫通してもよい。第1係合部52cは、可動部52aを貫通せずに、その表面に凹設されてもよい。
The first engagement portion 52c is not limited to a configuration that penetrates the central portion of the movable portion 52a in a substantially rectangular shape. For example, the first engaging part 52c may penetrate the central part of the movable part 52a in an arbitrary shape. The first engaging portion 52c may be recessed on the surface without penetrating the movable portion 52a.
第1ロック部材50は、第1インシュレータ30と一体成形される構成に限定されず、高保持性及び弾性変形の安定性を確保できるのであれば、圧入などの適宜な方法によって第1インシュレータ30に保持されてもよい。
The first locking member 50 is not limited to a structure integrally formed with the first insulator 30, and can be attached to the first insulator 30 by an appropriate method such as press-fitting as long as high retention and stability of elastic deformation can be secured. It may be held.
第1ロック部材50は、第1実装部53及び第2実装部54aの双方を有する構成に限定されない。第1ロック部材50は、前壁32a及び後壁32bを適切に保護して、底板部51の高保持性及びロック部52の弾性変形の安定性を確保できるのであれば、いずれか一方のみを有してもよい。
The first lock member 50 is not limited to a configuration having both the first mounting portion 53 and the second mounting portion 54a. If the first lock member 50 can appropriately protect the front wall 32a and the rear wall 32b and can ensure high retention of the bottom plate portion 51 and stability of elastic deformation of the lock portion 52, only one of them can be used. You may have.
10 コネクタ
20 第1コネクタ
30 第1インシュレータ
31 底壁
32a 前壁
32b 後壁
32c 連結壁
32d 切欠部
33 嵌合凸部
34 嵌合凹部
35 第1コンタクト取付溝
40 第1コンタクト
40a シグナルコンタクト
40b 電源コンタクト
41a、41b 実装部
42a、42b 弾性接触片
43a、43b 接触部
50 第1ロック部材
51 底板部
51a 貫通孔
52 ロック部
52a 可動部
52b 連続部
52c 第1係合部
52d 誘い込み部
52e 操作部
53 第1実装部
54 側板部
54a 第2実装部
54b 屈曲部
60 第2コネクタ
70 第2インシュレータ
71 底壁
72 環状壁
72a 前壁
72b 後壁
73 嵌合凹部
74 第2コンタクト保持溝
80 第2コンタクト
80a シグナルコンタクト
80b 電源コンタクト
81a、81b 実装部
82a、82b 接触部
83a、83b 延出部
84a、84b 誘い込み部
90 第2ロック部材
91 天板部
92 誘い込み部
93 実装部
94 第2係合部
100 抜去治具
110 押込部
CB1 回路基板
CB2 回路基板
S 空隙 DESCRIPTION OFSYMBOLS 10 Connector 20 1st connector 30 1st insulator 31 Bottom wall 32a Front wall 32b Rear wall 32c Connection wall 32d Notch 33 Fitting convex part 34 Fitting concave part 35 First contact mounting groove 40 First contact 40a Signal contact 40b Power contact 41a, 41b Mounting part 42a, 42b Elastic contact piece 43a, 43b Contact part 50 First lock member 51 Bottom plate part 51a Through hole 52 Lock part 52a Movable part 52b Continuous part 52c First engagement part 52d Guide part 52e Operation part 53 First 1 mounting portion 54 side plate portion 54a second mounting portion 54b bent portion 60 second connector 70 second insulator 71 bottom wall 72 annular wall 72a front wall 72b rear wall 73 fitting recess 74 second contact holding groove 80 second contact 80a signal Contact 80b Power supply contact 81 a, 81b Mounting portion 82a, 82b Contact portion 83a, 83b Extension portion 84a, 84b Guide portion 90 Second lock member 91 Top plate portion 92 Guide portion 93 Mounting portion 94 Second engagement portion 100 Removal jig 110 Pushing portion CB1 Circuit board CB2 Circuit board S Air gap
20 第1コネクタ
30 第1インシュレータ
31 底壁
32a 前壁
32b 後壁
32c 連結壁
32d 切欠部
33 嵌合凸部
34 嵌合凹部
35 第1コンタクト取付溝
40 第1コンタクト
40a シグナルコンタクト
40b 電源コンタクト
41a、41b 実装部
42a、42b 弾性接触片
43a、43b 接触部
50 第1ロック部材
51 底板部
51a 貫通孔
52 ロック部
52a 可動部
52b 連続部
52c 第1係合部
52d 誘い込み部
52e 操作部
53 第1実装部
54 側板部
54a 第2実装部
54b 屈曲部
60 第2コネクタ
70 第2インシュレータ
71 底壁
72 環状壁
72a 前壁
72b 後壁
73 嵌合凹部
74 第2コンタクト保持溝
80 第2コンタクト
80a シグナルコンタクト
80b 電源コンタクト
81a、81b 実装部
82a、82b 接触部
83a、83b 延出部
84a、84b 誘い込み部
90 第2ロック部材
91 天板部
92 誘い込み部
93 実装部
94 第2係合部
100 抜去治具
110 押込部
CB1 回路基板
CB2 回路基板
S 空隙 DESCRIPTION OF
Claims (6)
- 第1インシュレータ、及び
前記第1インシュレータに保持された第1ロック部材、
を具備する第1コネクタと、
前記第1インシュレータと嵌合する第2インシュレータ、及び
前記第2インシュレータに保持され、第2係合部を有する第2ロック部材、
を具備する前記1コネクタと嵌合する第2コネクタと、
を備え、
前記第1ロック部材は、前記第1インシュレータの外方に向けて弾性変形可能なロック部を具備し、
前記ロック部は、
前記第1インシュレータの底壁に支持された底板部から延出する弾性変形可能な連続部と、
前記連続部から嵌合方向に沿って設けられ、前記第2係合部と係合する第1係合部と、
前記第1係合部よりも前記外方に向けて延出する操作部と、
を有する、
コネクタ。 A first insulator, and a first lock member held by the first insulator;
A first connector comprising:
A second insulator fitted to the first insulator, and a second lock member held by the second insulator and having a second engaging portion,
A second connector fitted to the first connector comprising:
With
The first lock member includes a lock portion that is elastically deformable toward the outside of the first insulator,
The lock part is
An elastically deformable continuous portion extending from a bottom plate portion supported by the bottom wall of the first insulator;
A first engagement portion provided along the fitting direction from the continuous portion, and engaged with the second engagement portion;
An operating portion extending outward from the first engaging portion;
Having
connector. - 前記ロック部は、前記第1係合部と連続して設けられる誘い込み部を備える、
請求項1に記載のコネクタ。 The lock part includes a guide part provided continuously with the first engagement part,
The connector according to claim 1. - 前記底板部は、前記第1インシュレータと一体成形される、
請求項1又は2に記載のコネクタ。 The bottom plate is integrally formed with the first insulator;
The connector according to claim 1 or 2. - 前記第1ロック部材は、前記外方に対して略直交する方向の前記底板部の端部に設けられる第1実装部を備える、
請求項1乃至3のいずれか1項に記載のコネクタ。 The first lock member includes a first mounting portion provided at an end portion of the bottom plate portion in a direction substantially orthogonal to the outer side.
The connector according to any one of claims 1 to 3. - 前記第1実装部は、前記底板部よりも前記第1コネクタが実装される回路基板側に突出する、
請求項4に記載のコネクタ。 The first mounting portion protrudes more toward the circuit board on which the first connector is mounted than the bottom plate portion.
The connector according to claim 4. - 前記第1ロック部材は、
前記第1実装部と連続して形成され、前記底板部に略直交する側板部と、
前記側板部の前記第1コネクタが実装される回路基板側に設けられ、前記第1実装部と隣接する第2実装部と、
を備える、
請求項4又は5に記載のコネクタ。 The first locking member is
A side plate portion formed continuously with the first mounting portion and substantially orthogonal to the bottom plate portion;
A second mounting portion provided on the side of the circuit board on which the first connector of the side plate portion is mounted, and adjacent to the first mounting portion;
Comprising
The connector according to claim 4 or 5.
Applications Claiming Priority (2)
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JP2017110430A JP2018206599A (en) | 2017-06-02 | 2017-06-02 | connector |
JP2017-110430 | 2017-06-02 |
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WO2018221094A1 true WO2018221094A1 (en) | 2018-12-06 |
Family
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PCT/JP2018/016857 WO2018221094A1 (en) | 2017-06-02 | 2018-04-25 | Connector |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006216446A (en) * | 2005-02-04 | 2006-08-17 | I-Pex Co Ltd | Card edge connector |
JP2016031826A (en) * | 2014-07-29 | 2016-03-07 | 第一精工株式会社 | Electrical connector |
JP6051242B2 (en) * | 2014-07-16 | 2016-12-27 | ヒロセ電機株式会社 | Circuit board electrical connector |
-
2017
- 2017-06-02 JP JP2017110430A patent/JP2018206599A/en active Pending
-
2018
- 2018-04-25 WO PCT/JP2018/016857 patent/WO2018221094A1/en active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006216446A (en) * | 2005-02-04 | 2006-08-17 | I-Pex Co Ltd | Card edge connector |
JP6051242B2 (en) * | 2014-07-16 | 2016-12-27 | ヒロセ電機株式会社 | Circuit board electrical connector |
JP2016031826A (en) * | 2014-07-29 | 2016-03-07 | 第一精工株式会社 | Electrical connector |
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