WO2017217061A1 - コネクタの防水構造及びコネクタハウジングの製造方法 - Google Patents
コネクタの防水構造及びコネクタハウジングの製造方法 Download PDFInfo
- Publication number
- WO2017217061A1 WO2017217061A1 PCT/JP2017/011887 JP2017011887W WO2017217061A1 WO 2017217061 A1 WO2017217061 A1 WO 2017217061A1 JP 2017011887 W JP2017011887 W JP 2017011887W WO 2017217061 A1 WO2017217061 A1 WO 2017217061A1
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- WIPO (PCT)
- Prior art keywords
- cylindrical body
- connector
- female
- housing
- male
- 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
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/52—Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
- H01R13/5219—Sealing means between coupling parts, e.g. interfacial seal
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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
- H01R13/46—Bases; Cases
- H01R13/52—Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
- H01R13/5216—Dustproof, splashproof, drip-proof, waterproof, or flameproof cases characterised by the sealing material, e.g. gels or resins
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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
- H01R13/629—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances
- H01R13/631—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances for engagement only
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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
- H01R13/64—Means for preventing incorrect coupling
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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
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/005—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for making dustproof, splashproof, drip-proof, waterproof, or flameproof connection, coupling, or casing
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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
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/18—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for manufacturing bases or cases for contact members
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2103/00—Two poles
Definitions
- the present invention relates to a waterproof structure for a connector and a method for manufacturing a connector housing.
- waterproof connector a connector having excellent waterproof properties
- a female connector having a cylindrical inner housing in which a cavity (terminal accommodating chamber) capable of accommodating a female terminal is formed and a cylindrical outer housing surrounding the inner housing, and a cavity (terminal) capable of accommodating a male terminal
- a male connector having a cylindrical housing in which a housing chamber is formed, and a connector for fitting both the connectors so that the male connector housing is inserted into the gap between the inner housing and the outer housing of the female connector. Waterproof structure is known.
- An annular rubber packing is mounted on the outer peripheral surface of the inner housing of this female connector, and when both connectors are fitted, the male connector housing is inserted into the gap of the female connector.
- the packing closely adheres to the outer peripheral surface of the inner housing of the female connector and the inner peripheral surface of the housing of the male connector, thereby closing the gap and preventing water from entering the cavities of both housings.
- this waterproof structure requires an annular space for mounting the packing inside the female connector, the female connector (and thus the waterproof structure) becomes larger than a connector that does not require such a space.
- Patent Document 1 provides an annular seal plate having elasticity inside the female housing, and when the female housing and the male housing are fitted, the cylinder tip of the male housing is attached to this. It is described that it is pressed against a seal plate. This prevents water from entering between the female housing and the male housing (see, for example, Patent Document 1).
- the present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a waterproof connector that can reduce the insertion force when inserting one of the housings into the other and ensure high waterproof performance. It is an object of the present invention to provide a structure and a method of manufacturing a housing used for such a waterproof structure.
- the “waterproof structure for a connector” is characterized by the following (1) and (2).
- a pair of connector housings that can be fitted to each other are provided, and when the pair of connector housings are fitted, water enters the terminal accommodating chamber through an opening on the front side in the fitting direction of the terminal accommodating chamber of the connector housing.
- Each of the pair of connector housings includes: A cylindrical body that surrounds the opening and is open on the front side in the fitting direction, and when the pair of connector housings are fitted, an opening end portion of one of the cylindrical bodies is an opening of the other cylindrical body.
- the one cylindrical body configured to be inserted inside the end portion,
- the one cylindrical body is A projecting portion provided over the entire circumferential direction so as to protrude radially outward from the opening end portion of the one cylindrical body so as to be in contact with the opening end portion of the other cylindrical body,
- One protrusion is provided on the front side in the fitting direction from the opening of the terminal accommodating chamber surrounded by one cylindrical body,
- the connector must be waterproof.
- the protrusion is In the cross section orthogonal to the fitting direction, it has a semicircular arc-shaped cross section or a trapezoidal cross section, The connector must be waterproof.
- the waterproof structure having the above configuration (1) when the connector housings are engaged with each other, one (inner side) cylindrical body and the other (outer side) cylindrical body are fitted to each other, so Is made.
- the protrusion provided on the fitting surface (outer peripheral surface) of one (inner side) cylindrical body and the fitting surface (inner peripheral surface) of the other (outer side) cylindrical body come into contact with each other. Since the objects can be brought into close contact with each other within the elastic limit, high waterproof performance can be ensured.
- the dimensional error can be absorbed as long as it is within the range of elastic deformation of the cylindrical body. Therefore, the waterproof performance can be kept high.
- one (inner side) cylindrical body and the other (outer side) cylindrical body are brought into contact with each other via the protrusions, rather than bringing the fitting surfaces of the cylindrical bodies into surface contact with each other. Since the frictional resistance force at the time can be reduced, the insertion force when one of the two connector housings is inserted into the other can be reduced.
- the protrusion is disposed on the base side of the cylindrical body (that is, closer to the opening of the terminal accommodating chamber), and the contact point between the other (outer) cylindrical body and the protrusion is the other (outer). It will be located in the front end side of a cylindrical body. In other words, the distance between the water stop position and the opening surface of one (inner side) cylindrical body becomes longer (water that has entered from the outside can be stopped at a position away from the opening surface) The waterproofness is improved by the amount.
- the protruding portion of one (inner) cylindrical body is arranged on the root side, the following points need to be taken into account when extracting from the mold during resin molding.
- a mold for resin-molding one (inner) tubular body (housing) is usually a mold part (nesting) that forms the inner wall of the tubular body and a mold that surrounds the tubular body and forms the outer wall.
- the nest forming the outer wall is formed with an annular recess for forming the protrusion. In this case, if the molded body is pushed out from the mold in a state where the protrusion is accommodated in the recess, the protrusion may be caught in the recess and the shape of the protrusion may be deformed.
- the mold insert that forms the inner wall of the cylindrical body is pulled out of the cylindrical body to form a cavity inside the cylindrical body, and in this state, the cylindrical body is pushed out,
- a method of bending the shape body inward and extracting the protrusion from the concave portion of the mold is conceivable.
- the amount of bending inward becomes smaller. Therefore, if the protrusion is positioned near the root of the cylindrical body, the protrusion can be completely extracted from the recess of the mold. There is a possibility of disappearing.
- the protrusion is provided on the front side in the mating direction with respect to the opening of the terminal accommodating chamber surrounded by one (inner) cylindrical body.
- the member that prevents the cylindrical body from bending inward in the mold from the position where the protrusion is provided to the tip (opening end) of the cylindrical body Since there is no concrete (specifically, the wall surface provided with the opening of the terminal accommodating chamber), the amount of deflection to the inside of the cylindrical body can be increased.
- the protruding portion can be extracted from the concave portion of the mold, and the protruding portion can be prevented from being crushed when the molded body is extracted from the mold. Thereby, waterproof performance when a pair of cylindrical bodies are fitted can be improved more.
- the set dimension means a mold that forms the outer wall of the cylindrical body in a state in which the insert of the mold that forms the inner wall of the cylindrical body is pulled out from the cylindrical body while the connector housing is held in the mold.
- the cylindrical body is deflected inward so that the protrusion can be removed from the recess that forms the protrusion of the mold.
- the set dimension can be determined based on at least one selected from the height of the protrusion, the contraction amount of the protrusion, the thickness of the cylindrical body, the diameter of the cylindrical body, and the like. .
- the protrusion has a semicircular arc shape or a trapezoidal shape in a cross section orthogonal to the fitting direction. According to this, since a projection part becomes easy to remove
- the “method for manufacturing a connector housing” according to the present invention is characterized by the following (3).
- the connector housing is A cylindrical body surrounding the opening of the terminal accommodating chamber;
- the cylindrical body is A protrusion provided over the entire circumferential direction so as to protrude radially outward from the opening end portion of the cylindrical body, the protrusion provided on the opening end side of the opening of the terminal accommodating chamber.
- the production method is as follows: A first step of filling the mold with resin and curing the molded body of the connector housing; A second step of extracting a first mold part that forms an inner wall of the tubular body of the molded body from the molded body while holding the molded body in the mold; A third step of extracting from the molded body a second mold part that forms an outer wall including the protruding portion of the cylindrical body of the molded body while holding the molded body in the mold; A fourth step of releasing the molded body from the mold. Manufacturing method of connector housing.
- the connector housing can be manufactured without causing deformation in the shape of the protrusion.
- the waterproof structure of the connector which can reduce the insertion force at the time of inserting one of both housings in the other, and can ensure high waterproof performance, and the connector housing used for such a waterproof structure Manufacturing method.
- FIG. 1 is an exploded perspective view of a connector to which a waterproof structure for a connector according to the present invention is applied.
- FIG. 2 is a rear view of the connector of FIG. 1 as seen from the rear of the female connector.
- FIG. 3 is an external perspective view of the male connector.
- FIG. 4 is a front view of the male housing of the male connector as viewed from the front.
- FIG. 5 is an external perspective view of the female connector.
- FIG. 6 is a cross-sectional view in the direction of arrows AA in FIG. 2, and shows a fitted state of the male connector and the female connector.
- FIG. 7 is an enlarged view in the frame of FIG.
- FIG. 8 is a diagram illustrating a state before the male connector and the female connector of FIG. 6 are fitted together.
- FIG. 9 is a diagram showing an operation of extracting the molded body from the mold, (a) shows an example to which the present embodiment is applied, and (b) shows a comparative example.
- FIGS. 1-10 an embodiment of a waterproof structure of a connector according to the present invention will be described with reference to FIGS.
- a waterproof connector mounted on an automobile or the like will be described as an example.
- the waterproof structure of the connector of the present invention can be applied to connectors for various uses.
- the connector 11 of this embodiment is comprised from the male connector 13 and the female connector 15 as shown in FIG.1 and FIG.2, and the male housing 17 of the male connector 13 and the female housing 19 of the female connector 15 are mutually fitted. (Engagement), and the male terminal 21 accommodated in the male housing 17 and the female terminal 23 accommodated in the female housing 19 are electrically connected. An electric wire 25 is connected to the male terminal 21, and an electric wire 27 is connected to the female terminal 23.
- the female housing 19 is fitted and locked inside the male housing 17.
- FIG. 1 shows an example in which two terminals are accommodated in each of the male connector 13 and the female connector 15, the number of terminals accommodated is not limited to two.
- the X direction in FIG. 1 is defined as the front-rear direction
- the Y direction is defined as the width direction
- the Z direction is defined as the height direction
- the fitting direction of each connector is defined as the front, and the upper side in FIG. To do.
- the male connector 13 has a male housing 17 formed in a cylindrical shape with an insulating synthetic resin, and a male terminal 21 accommodated in the male housing 17 from behind.
- the male housing 17 includes a cylindrical base 31 in which a male terminal accommodating chamber 29 (cavity) in which the male terminal 21 is accommodated, and a wire holding member that protrudes backward from the base 31.
- the part 33 and the hood part 35 protruding forward from the base part 31 are integrally formed.
- the hood part 35 has a peripheral wall continuous with the peripheral wall of the base part 31, and a cross section orthogonal to the axial direction is formed in an oval cylindrical shape whose longitudinal direction is the width direction.
- a guide groove 37 extending in the axial direction is formed on the inner wall of the hood portion 35.
- a pair of first cutouts 41 and a second cutout 43 formed inside the first cutouts 41 are formed on the wall 39 that rises flush with the front end surface of the hood 35. Is done.
- the male terminal accommodating chamber 29 accommodates two male terminals 21 separated from each other by a partition wall (not shown), and a lance (not shown) extending inside the male terminal accommodating chamber 29 is associated with each male terminal 21. These are held together at the set position.
- the male terminal accommodating chamber 29 has an opening 47 that opens in the front end surface 45 of the base portion 31 surrounded by the hood portion 35 and a through hole 49 that penetrates the electric wire holding portion 33 in the axial direction. Are formed in communication with each other.
- a cylindrical male side tubular body 51 (outer tubular body) that protrudes forward from the periphery of the opening 47 of the base portion 31 so as to surround the opening 47 is integrally formed inside the hood portion 35.
- the male housing 17 has a lock arm 53 that is extended in a cantilevered front in the axial direction.
- the lock arm 53 includes two leg portions 57 respectively supported by a pair of wall portions 55 erected from both side surfaces of the base portion 31 in the width direction, a base end portion 59 connecting these leg portions 57 in the width direction, And an arm portion 61 extending forward from the center portion of the end portion 59 in the width direction.
- the lock arm 53 is configured such that the front end portion of the arm portion 61 can be displaced upward with respect to the horizontal direction with the base end portion 59 as a fulcrum. As shown in FIG. 6, a lock portion 63 that protrudes downward is provided at the lower front end of the arm portion 61. As shown in FIG. 3, the pair of wall portions 55 surround the lock arm 53 and are provided from the base portion 31 of the male housing 17 to the wall portion 39 of the hood portion 35. The upper end surface of the lock arm 53 is set to the same height as the upper end surfaces of the wall portions 39 and 55 or lower than that.
- the male terminal 21 is formed of a conductive metal plate or the like, and an electric wire connection portion 65 that crimps and connects the core wire of the electric wire 25 and a male tab 67 that is connected to the female terminal 23 are integrally formed.
- the male tab 67 is formed in a rod shape extending in the front-rear direction, and protrudes from the front end face 45 of the base 31 in a state where the male terminal 21 is held at the set position of the male terminal accommodating chamber 29, and the front end of the male side tubular body 51. Extends forward.
- the female connector 15 has a female housing 19 formed in a cylindrical shape with an insulating synthetic resin, and female terminals 23 accommodated in the female housing 19 from the rear.
- the female housing 19 has two cross sections orthogonal to the axial direction that are substantially similar to the inner peripheral surface of the hood portion 35 of the male housing 17 and into which the female terminal 23 is inserted.
- the base part 71 in which the female terminal accommodating chamber (cavity) 69 is formed and the electric wire holding part 73 protruding backward from the base part 71 are integrally formed.
- the female terminal accommodating chamber 69 is formed by partitioning the two female terminals 23 with a partition wall (not shown), and engages each female terminal 23 with a lance 74 extended into the female terminal accommodating chamber 69.
- the female terminal 23 is held at the set position.
- the female terminal accommodating chamber 69 is formed by communicating an opening 77 into which the male tab 67 is inserted and a through hole 79 that penetrates the electric wire holding portion 73 in the axial direction.
- the base 71 is integrally formed with a cylindrical female-side cylindrical body 81 (inner cylindrical body) that surrounds the opening 77 and protrudes forward from the front end surface 75 of the base 71.
- the opening 77 is located inside the female side cylindrical body 81 in front of the front end surface 75 of the base 71, but is disposed on the front end surface 75 surrounded by the female side cylindrical body 81. It may be.
- the female housing 19 is provided with a pair of protrusions 83 (FIG. 5) extending in the axial direction from the upper surface of the base 71 and a step 85 (FIG. 6) extending in the axial direction from the lower surface of the base 71.
- the pair of protrusions 83 are provided away from each other in the width direction, and can contact the inner peripheral surface of the male housing 17.
- a locking portion 87 that protrudes upward is provided inside the pair of protrusions 83.
- the locking portion 87 is provided with an inclined surface 89 that is inclined downward toward the front base 71, and pushes up the lock arm 53 of the male housing 17 along the inclined surface 89 when the two housings are fitted together. Yes.
- the female terminal 23 is formed of a conductive metal plate or the like, and is a rectangular tube shape into which the electric wire connecting portion 91 that crimps and connects the core wire of the electric wire 27 and the male tab 67 of the male terminal 21 are inserted and connected.
- the electrical contact portion 93 is integrally formed.
- the electrical contact portion 93 is provided with a tip portion at a position that is flush with the opening 77 of the base 71 or a set distance from the opening 77 in a state where the female terminal 23 is held at the set position of the female terminal accommodating chamber 69. .
- the female side tubular body 81 is fitted inside the male side tubular body 51.
- the male side tubular body 51 is a resin member that extends in a cylindrical shape from the periphery of the opening 47 of the base portion 31 of the male housing 17 to the front, and is more rigid than the female side tubular body 81. Is low and has relatively high elasticity.
- the male cylindrical body 51 is formed in a substantially oval cylindrical shape having a cross section orthogonal to the axial direction of the male housing 17 as a longitudinal direction, and extends in the axial direction of the male housing 17 (fitting).
- the wall thickness is set substantially uniform in the axial direction.
- an inclined surface 99 that is widened forward is formed on the inner peripheral surface of the distal end of the male-side cylindrical body 51.
- the inclined surface 99 has a function of guiding the female side cylindrical body 81 into the male side cylindrical body 51.
- the female side cylindrical body 81 is a resin member that extends in a cylindrical shape forward from the periphery of the opening 77 of the base 71 of the female housing 19, and has higher rigidity than the male side cylindrical body 51.
- the female side cylindrical body 81 has an inner peripheral surface 101 and an outer peripheral surface 103 (fitting surface) extending in the axial direction of the female housing 19, and a cross section orthogonal to the axis of the female housing 19 is a male side cylindrical body. It is formed in a cylindrical shape that is substantially similar to the inner peripheral surface 95 of 51.
- the protruding amount from the front end surface 75 of the female side cylindrical body 81 is set to be shorter than the protruding amount from the front end surface 45 of the male side cylindrical body 51.
- the outer peripheral surface 103 of the female side cylindrical body 81 is provided with a protrusion 105 in contact with the inner peripheral surface 95 of the male side cylindrical body 51 over the entire circumference.
- the protrusion 105 is in contact with the inner peripheral surface 95 of the male side cylindrical body 51 and can press the inner peripheral surface 95 over the entire circumference.
- the protrusion 105 is formed with a trapezoidal cross section in the axial direction of the female cylindrical body 81, and an inclined surface 107 that is inclined toward the front outer peripheral surface 103 is formed.
- the inclined surface 107 has a function of contacting the inclined surface 99 of the male cylindrical body 51 and guiding the male cylindrical body 51 to the top of the protrusion 105.
- an annular rubber stopper 105 is attached to the outer peripheral surface of the electric wire 25 connected to the male terminal 21. Then, the male terminal 21 is inserted into the male terminal accommodating chamber 29 of the male housing 17 from the rear, and the rubber plug 105 is inserted into the through hole 49 of the wire holding portion 33. Thereby, the opening of the through hole 49 is sealed by the electric wire 25 and the rubber plug 105.
- an annular rubber plug 107 is attached to the outer peripheral surface of the electric wire 27 connected to the female terminal 23, the female terminal 23 is inserted into the female terminal accommodating chamber 69 of the female housing 19 from the rear, and the rubber plug 107 is held by the electric wire.
- the pair of protrusions 83 (FIG. 5) of the female housing 19 pass through the first notches 41 (FIG. 3) of the male housing 17, and the female housing 19.
- the locking portion 87 (FIG. 5) passes through the second cutout portion 43 (FIG. 3) of the male housing 17.
- the stepped portion 85 (FIG. 6) of the female housing 19 is guided along the guide groove 37 (FIG. 3) of the male housing 17.
- the male side cylindrical body 51 and the female side cylindrical body 81 are elastically contacted over the entire circumference via the protrusion 105, and a gap between the opening 47 of the male connector 13 and the opening 77 of the female connector 15. Is sealed in a watertight manner, it is possible to prevent water from entering the male terminal accommodating chamber 29 and the female terminal accommodating chamber 69 through the openings 47 and 77, respectively.
- the protrusion 105 on the outer peripheral surface 103 of the female cylindrical body 81 and the inner peripheral surface 95 of the male cylindrical body 51 are in contact with each other. Since the cylindrical bodies can be brought into close contact with each other within the elastic limit, high waterproof performance can be ensured. In addition, even when a dimensional error occurs in the cylindrical bodies 51 and 81 by bringing the cylindrical bodies into close contact with each other within the elastic limit, the cylindrical bodies 51 and 81 are within the range of elastic deformation. In this case, since a dimensional error can be absorbed, high waterproof performance can be maintained.
- the female-side cylindrical body 81 is in close contact with the inner peripheral surface 95 of the male-side cylindrical body 51 via the protrusion 105, so that the female-side cylindrical body 51 and the female-side cylindrical body 81 are in between. Since a gap is formed in the region excluding the protrusion 105, even if foreign matter or the like adheres to the gap, the cylindrical bodies 51 and 81 are not plastically deformed or damaged. Furthermore, even if the distance between the male connector 13 and the female connector 15 fluctuates due to the vibration propagated to the connector 11, the male cylindrical body 51 and the female cylindrical body 81 can absorb the vibration, Deterioration with time of the connector 11 due to vibration can be suppressed.
- the contact area is small, and friction can be reduced. Therefore, when the male housing 17 and the female housing 19 are fitted, the insertion load when the female housing 19 is inserted into the male housing 17 can be reduced.
- the male side cylindrical body 51 is integrally formed with the male housing 17 and the female side cylindrical body 81 is integrally formed with the female housing 19, a rubber packing or the like for stopping water is separately provided. There is no need to provide it. As a result, a housing space such as a rubber packing is not required, so that the connector 11 can be reduced in size and the number of parts can be reduced, thereby reducing the manufacturing cost.
- the pair of protrusions 83 are brought into contact with the inner peripheral surface of the male housing 17 and the stepped portion 85 is formed on the male housing 17. Guided along the guide groove 37.
- the female side cylindrical body 81 can be brought into contact with the set position of the male side cylindrical body 51.
- both The adhesiveness of the cylindrical bodies 51 and 81 can be improved, and a desired waterproof performance can be surely exhibited.
- the position of the protrusion 105 protruding from the outer peripheral surface 103 of the female side cylindrical body 81 is set to the female side cylindrical body 81. If the projection 105 is in contact with the distal end side of the male side tubular body 51, the distance between the water stop position and each of the openings 47 and 77 becomes longer, and the waterproofness is improved accordingly. To do.
- the protrusion 105 of the female side cylindrical body 81 is positioned on the root side, when the female side cylindrical body 81 is extracted from the mold during resin molding of the female side cylindrical body 81, the female side cylindrical shape There is a concern that the body 81 is difficult to release from the mold.
- the protrusion 105 is supported by the inner wall of the female side tubular body 81 to form a structural member (member) 109 that forms the opening 77 of the female terminal accommodating chamber 69. Is also provided on the front end (tip) side of the female side cylindrical body 81.
- the structural member 109 has a frame body 111 that divides two openings 77 arranged apart in the width direction, and is supported by the inner wall of the female side tubular body 81. Specifically, it is provided between the inner wall surfaces that are continuous with the upper surface of the inner wall of the female side cylindrical body 81 and that face each other in the width direction of the female side cylindrical body 81.
- the frame body 111 has guide surfaces 113 that extend obliquely forward from the inner surface that defines the rectangular opening 77 in the vertical and horizontal directions, and each guide surface 113 is connected to the foremost end 115 of the structural member 109. .
- the guide surface 113 has a function of guiding the male tab 67 into the opening 77.
- the inner side of the female side cylindrical body 81 is at least from the inner side of the protrusion 105 to the front end. To be hollow (cavity).
- FIG. 9A is a schematic diagram for explaining the operation when the female housing 19 (hereinafter, appropriately referred to as a molded body 19a) is extracted from the mold when the female housing 19 of the present embodiment is formed.
- reference numeral 117 denotes a mold nesting (first mold part) forming the inner wall 101 of the female side cylindrical body 81
- reference numeral 119 denotes an outer wall including the projection 105 of the female side cylindrical body 81
- 103 is a mold nesting (second mold part) forming 103.
- the nest 117 has a cylindrical shape having an outer peripheral surface corresponding to the inner wall 101
- the nest 119 has a cylindrical shape having an inner peripheral surface corresponding to the outer wall 103.
- the molded body 19a When the molded body 19a is extracted from the mold, the molded body 19 is filled with resin and the molded body 19 is cured, and then the molded body 19a (female side cylindrical shape) in which the insert 117 is held in the mold. In the direction of the arrow a from the body 81), with the molded body 19a held in the mold, the insert 119 is extracted from the molded body 19a (female side tubular body 81) in the same direction as the insert 117, and finally Then, the molded body 19a is released from the mold.
- the molded body 19a from which the insert 117 is extracted extends from the position where the projection 105 is provided to the front end of the female side tubular body 81, that is, from the front end 115 of the structural member 109 to the front end.
- a member that prevents deformation (including shrinkage during cooling) of the female side cylindrical body 81 for example, the inner wall facing the female side cylindrical body 81
- the molded body 19a is bent inwardly (in the direction of the arrow b) so that the female cylindrical body 81 is pressed inward by the insert 119.
- the protrusion 105 is inserted into the insert 119.
- the projections 105 are removed from the recesses 121 forming the projections 105. Therefore, the molded body 19a does not have a portion (shape) that is hooked in the mold extraction direction at the time of mold release, so that the protrusion 105 is released without being caught by the mold and prevents the protrusion shape from being crushed. be able to.
- the female side cylindrical body 81 bent inward returns to its original shape after releasing.
- the projection 105 is not provided on the front end side of the female cylindrical body 81 with respect to the front end 115 of the structural member 109 as in the molded body 19b of FIG. Since the structural member 109 prevents the inward bending of the female side tubular body 81 when it is taken out, the protrusion 105 is difficult to come off from the concave portion 121 of the insert 119. Therefore, when the molded body 19b is extracted from the mold, the protrusion 105 may be caught in the recess 121, and the protrusion shape may be crushed.
- the protrusion 105 is provided on the front end side of the female side cylindrical body 81 with respect to the front end 115 of the structural member 109 supported by the inner wall of the female side cylindrical body 81.
- the projection 105 can be removed from the recess 121 of the mold, and the molded body 19a can be removed from the mold without crushing the shape of the projection 105.
- the protrusion 105 can be positioned on the base side of the female side tubular body 81, and the waterproofness can be further improved.
- the protrusion 105 is set so as to be provided on the front end side of the female side tubular body 81 by a set dimension from the front end 115 of the structural member 109.
- the set dimension means that when the female housing 19 is held in the mold and the nest 117 is pulled out from the inner side of the female side cylindrical body 81, the female side cylindrical This is the distance at which the body 81 bends inward and the protrusion 105 is disengaged from the recess 121 of the mold.
- the height of the protrusion 105, the amount of contraction of the protrusion 105, the thickness of the female cylindrical body 81, and the diameter It can be determined based on at least one selected from the above.
- the structural member 109 is provided inside the female cylindrical body 81, but the structural member 109 may be supported and provided on the front end surface 75 of the base 71 of the female housing 19. Further, the structural member 109 of the present embodiment is connected to the upper surface of the inner wall of the female side cylindrical body 81 as a shape that prevents the female side cylindrical body 81 from being deformed inward, and the width of the female side cylindrical body 81 Formed between the inner wall surfaces facing each other in the direction, but at least the shape provided between the inner wall surfaces facing each other in the width direction of the female side cylindrical body 81, or of the female side cylindrical body 81 If it has the shape provided over the circumferential direction of the inner wall containing a corner part, a shape will not be specifically limited.
- the protrusion 105 of the present embodiment is not limited to the case where the axial cross section of the female cylindrical body 81 is formed in a trapezoidal shape, and may be formed in a semicircular cross section. According to this, when the female cylindrical body 81 is released from the mold, the projection 105 is easily detached from the concave portion 121 of the mold, so that the projection shape can be more reliably prevented from being crushed.
- Each of the pair of connector housings includes: A cylindrical body (51, 81) that surrounds the opening (47, 77) and is open on the front side in the fitting direction, and when the pair of connector housings are fitted, one of the cylindrical bodies (51) A cylindrical body configured to be inserted into the inside of the open end part of the other cylindrical body (81),
- the one cylindrical body (51) is A protrusion (105) provided over the entire circumferential direction so as to protrude radially outward from the opening end portion of the one cylindrical body so as to contact the
- the protrusion (105) In a cross section perpendicular to the fitting direction, it has a semicircular arc shape or a trapezoidal shape, Waterproof structure of the connector.
- the manufacturing method is as follows: A first step of filling the mold with resin and curing the molded body of the connector housing; A second step of extracting a first mold part that forms an inner wall of the tubular body of the molded body from the molded body while holding the molded body in the mold; A third step of extracting from the molded body a second mold part that forms an outer wall including the protruding portion of the cylindrical body of the molded body while holding the molded body in the mold; A fourth step of releasing the two molded bodies from the mold. Manufacturing method of connector housing.
- the waterproof structure of the connector and the method of manufacturing the connector housing of the present invention it is possible to reduce the insertion force when inserting one of the two housings into the other and to ensure high waterproof performance.
- the present invention exhibiting this effect is useful for a waterproof structure of a connector and a method of manufacturing a connector housing.
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Dispersion Chemistry (AREA)
- Connector Housings Or Holding Contact Members (AREA)
- Manufacturing Of Electrical Connectors (AREA)
Abstract
Description
ところが、この防水構造では、メスコネクタの内部にパッキンを装着するための環状の空間が必要になるので、そのような空間を要さないコネクタに比べ、メスコネクタ(ひいては防水構造)が大きくなる。
(1)
互いに嵌合可能な一対のコネクタハウジングを備え、前記一対のコネクタハウジングの嵌合時、前記コネクタハウジングが有する端子収容室の嵌合方向正面側の開口部を通じて前記端子収容室へ水が浸入することを防止可能である、コネクタの防水構造において、
前記一対のコネクタハウジングの各々は、
前記開口部を包囲すると共に嵌合方向正面側が開口した筒状体であって、前記一対のコネクタハウジングの嵌合時、一方の該筒状体の開口端部分が他方の該筒状体の開口端部分の内側に挿入されるように構成された筒状体、を有し、
前記一方の筒状体は、
前記他方の筒状体の前記開口端部分に接するように該一方の筒状体の前記開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部であって、該一方の筒状体が包囲している前記端子収容室の前記開口部よりも嵌合方向正面側に設けられた、突起部を有する、
コネクタの防水構造であること。
(2)
上記(1)に記載のコネクタの防水構造において、
前記突起部が、
嵌合方向に直交する断面において、半円弧状の断面又は台形状の断面を有する、
コネクタの防水構造であること。
(3)
端子収容室を有するコネクタハウジングの製造方法であって、
前記コネクタハウジングは、
前記端子収容室の開口部を包囲する筒状体を有し、
前記筒状体は、
該筒状体の開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部であって、前記端子収容室の前記開口部よりも開口端側に設けられた突起部、を有し、
該製造方法は、
金型内に樹脂を充填して前記コネクタハウジングの成形体を硬化させる第1工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の内壁を形成する第1の金型部品を前記成形体から抜き出す第2工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の前記突起部を含む外壁を形成する第2の金型部品を前記成形体から抜き出す第3工程と、
前記成形体を前記金型内から離型させる第4工程と、を含む、
コネクタハウジングの製造方法。
(1)
互いに嵌合可能な一対のコネクタハウジング(17,19)を備え、前記一対のコネクタハウジングの嵌合時、前記コネクタハウジングが有する端子収容室(29,69)の嵌合方向正面側の開口部(47,77)を通じて前記端子収容室へ水が浸入することを防止可能である、コネクタの防水構造において、
前記一対のコネクタハウジングの各々は、
前記開口部(47,77)を包囲すると共に嵌合方向正面側が開口した筒状体(51,81)であって、前記一対のコネクタハウジングの嵌合時、一方の該筒状体(51)の開口端部分が他方の該筒状体(81)の開口端部分の内側に挿入されるように構成された筒状体、を有し、
前記一方の筒状体(51)は、
前記他方の筒状体(81)の前記開口端部分に接するように該一方の筒状体の前記開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部(105)であって、該一方の筒状体(51)が包囲している前記端子収容室(69)の前記開口部(77)よりも嵌合方向正面側に設けられた、突起部(105)を有する、
コネクタの防水構造。
(2)
上記(1)に記載のコネクタの防水構造において、
前記突起部(105)が、
嵌合方向に直交する断面において、半円弧状の形状又は台形状の形状を有する、
コネクタの防水構造。
(3)
端子収容室(69)を有するコネクタハウジングの製造方法であって、
前記コネクタハウジング(19)は、
前記端子収容室の開口部(77)を包囲する筒状体(81)を有し、
前記筒状体は、
該筒状体の開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部(105)であって、前記端子収容室の前記開口部(77)よりも開口端側に設けられた突起部、を有し、
該製造方法は、
金型内に樹脂を充填して前記コネクタハウジングの成形体を硬化させる第1工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の内壁を形成する第1の金型部品を前記成形体から抜き出す第2工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の前記突起部を含む外壁を形成する第2の金型部品を前記成形体から抜き出す第3工程と、
前記2成形体を前記金型内から離型させる第4工程と、を含む、
コネクタハウジングの製造方法。
13 オスコネクタ
15 メスコネクタ
17 オスハウジング
19 メスハウジング
21 オス端子
23 メス端子
29 オス端子収容室(キャビティ)
51 オス側筒状体(外側の筒状体)
69 メス端子収容室(キャビティ)
77 開口
81 メス側筒状体(内側の筒状体)
95 内周面(嵌合面)
103 外周面(嵌合面)
105 突起
109 構造部材
115 最前端
117 入れ子(第1の金型部品)
119 入れ子(第2の金型部品)
Claims (3)
- 互いに嵌合可能な一対のコネクタハウジングを備え、前記一対のコネクタハウジングの嵌合時、前記コネクタハウジングが有する端子収容室の嵌合方向正面側の開口部を通じて前記端子収容室へ水が浸入することを防止可能である、コネクタの防水構造において、
前記一対のコネクタハウジングの各々は、
前記開口部を包囲すると共に嵌合方向正面側が開口した筒状体であって、前記一対のコネクタハウジングの嵌合時、一方の該筒状体の開口端部分が他方の該筒状体の開口端部分の内側に挿入されるように構成された筒状体、を有し、
前記一方の筒状体は、
前記他方の筒状体の前記開口端部分に接するように該一方の筒状体の前記開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部であって、該一方の筒状体が包囲している前記端子収容室の前記開口部よりも嵌合方向正面側に設けられた、突起部を有する、
コネクタの防水構造。 - 請求項1に記載のコネクタの防水構造において、
前記突起部が、
嵌合方向に直交する断面において、半円弧状の形状又は台形状の形状を有する、
コネクタの防水構造。 - 端子収容室を有するコネクタハウジングの製造方法であって、
前記コネクタハウジングは、
前記端子収容室の開口部を包囲する筒状体を有し、
前記筒状体は、
該筒状体の開口端部分から径方向外側に突出するように周方向の全体にわたって設けられた突起部であって、前記端子収容室の前記開口部よりも開口端側に設けられた突起部、を有し、
該製造方法は、
金型内に樹脂を充填して前記コネクタハウジングの成形体を硬化させる第1工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の内壁を形成する第1の金型部品を前記成形体から抜き出す第2工程と、
前記成形体を前記金型内に保持したまま、前記成形体の前記筒状体の前記突起部を含む外壁を形成する第2の金型部品を前記成形体から抜き出す第3工程と、
前記成形体を前記金型内から離型させる第4工程と、を含む、
コネクタハウジングの製造方法。
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CN201780036207.6A CN109478740B (zh) | 2016-06-15 | 2017-03-23 | 防水连接器结构和连接器壳体的制造方法 |
BR112018076093-5A BR112018076093A2 (pt) | 2016-06-15 | 2017-03-23 | estrutura de conector impermeável e método para produzir alojamento de conector |
EP17812967.2A EP3457500B1 (en) | 2016-06-15 | 2017-03-23 | Waterproof connector structure and method for producing connector housing |
US16/219,869 US10566732B2 (en) | 2016-06-15 | 2018-12-13 | Waterproof connector structure and method for producing connector housing |
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JP2016118789A JP6738660B2 (ja) | 2016-06-15 | 2016-06-15 | コネクタの防水構造 |
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US16/219,869 Continuation US10566732B2 (en) | 2016-06-15 | 2018-12-13 | Waterproof connector structure and method for producing connector housing |
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USD874402S1 (en) * | 2018-06-08 | 2020-02-04 | J.S.T. Corporation | Electrical connector |
JP6936269B2 (ja) * | 2019-03-26 | 2021-09-15 | 矢崎総業株式会社 | コネクタ嵌合体の製造システム |
JP7363703B2 (ja) * | 2020-07-28 | 2023-10-18 | 住友電装株式会社 | コネクタ構造体 |
CN112787162A (zh) * | 2021-01-27 | 2021-05-11 | 东莞市华阳灯饰有限公司 | 一种新型连接器及安装方法 |
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JP2017224479A (ja) | 2017-12-21 |
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