阅读说明：本技术 遮阳板连接器 (Connector for sunshade board ) 是由 清水智彦 波田野要 于 2019-07-29 设计创作，主要内容包括：一种遮阳板连接器,包括：支架,该支架装接于装接部件；臂部,该臂部可旋转地支撑遮阳板主体,并且具有插通支架以被可旋转地布置的端部；壳体,该壳体固定于支架,并且布置在插通支架的臂部的端部的附近；连接器端子,该连接器端子容纳在壳体中,并且连接于配对端子；臂连接部,该臂连接部以可弹性变形的方式设置于连接器端子,并且通过偏置力连接于臂部的端部；接合部,该接合部包括设置在壳体中的凸部和设置在支架中且与凸部接合的凹部；和第一限制部,该第一限制部设置在凸部中,并且在臂连接部的变形方向上挤压和抵接凹部。(A sunshade board connector comprising: a bracket attached to the attachment member; an arm portion rotatably supporting the sun visor body and having an end portion inserted through the bracket to be rotatably disposed; a housing fixed to the holder and disposed in the vicinity of an end of the arm portion inserted through the holder; a connector terminal accommodated in the housing and connected to the counterpart terminal; an arm connecting portion that is provided to the connector terminal in an elastically deformable manner, and that is connected to an end of the arm portion by a biasing force; an engaging portion including a convex portion provided in the housing and a concave portion provided in the holder and engaged with the convex portion; and a first restriction portion that is provided in the convex portion and presses and abuts the concave portion in a deformation direction of the arm connection portion.)

1. A sunshade board connector comprising:

a bracket attached to the attachment member;

an arm portion that is disposed on one surface side of the attaching member of the bracket, that is configured to rotatably support a sun visor body, and that has an end portion that is inserted through the bracket to be rotatably disposed;

a housing fixed on the other surface side of the attaching member of the bracket and arranged in the vicinity of the end portion of the arm portion inserted through the bracket;

a connector terminal that is accommodated in the housing and is connected to a counterpart terminal arranged on the other surface of the attaching part;

an arm connecting portion that is provided to the connector terminal in an elastically deformable manner, and that is connected to the end portion of the arm portion by a biasing force;

an engaging portion including a convex portion provided in any one of the bracket and the housing and a concave portion provided in the other one of the bracket and the housing and engaged with the convex portion; and

a first restriction portion that is provided in either one of the convex portion and the concave portion and presses and abuts the other one of the convex portion and the concave portion in a deformation direction of the arm connecting portion.

2. The visor connector of claim 1, wherein,

the first restriction portion presses the housing in the biasing direction of the arm connection portion.

3. The visor connector of claim 1, wherein,

a fulcrum portion serving as a fulcrum when the housing is rotated and assembled to the bracket is provided between the bracket and the housing, and

the convex portion is provided with an insertion guide portion that is inclined along a rotation locus of the housing and guides insertion of the convex portion into the concave portion.

4. The visor connector of claim 1, wherein,

either one of the convex portion and the concave portion is provided with a second regulating portion that presses and abuts the other one of the convex portion and the concave portion in a direction orthogonal to a deformation direction of the arm connecting portion.

Technical Field

The present disclosure relates to a sun visor board connector, and more particularly, to a sun visor board connector applied to a sun visor rotatably attached to an attaching member.

Background

As a sunshade board connector according to a conventional example, there is known a sunshade board connector including: a bracket attached to a ceiling of a vehicle compartment as an attaching member; a support shaft as an arm portion, which is disposed inside the vehicle compartment of the bracket, rotatably supports the sun visor body, and has an end portion inserted through the bracket so as to be rotatably disposed; a housing fixed to a vehicle compartment outer side of the bracket and disposed in the vicinity of an end of the support shaft inserted through the bracket; a pair of connector terminals accommodated in the housing and connected to a counterpart terminal disposed outside the vehicle compartment; and a pair of arm connecting portions that are provided to the pair of connector terminals in an elastically deformable manner and are connected by sandwiching an end portion of the support shaft with a biasing force (see JP 2011-.

In a known sunshade connector, a pair of connector terminals are accommodated inside a housing, and a pair of arm connecting portions are connected so as to sandwich a pair of conductive portions provided at an end portion of a support shaft.

Then, the sun visor body is rotated so as to switch the contact state and the non-contact state between the pair of arm connecting portions and the pair of conductive portions of the support shaft, and the lighting device provided in the sun visor body is turned on and off.

Disclosure of Invention

In a known sunshade connector, a housing is fixed to a bracket, and a convex lower region provided in the housing is engaged with a concave engaged portion provided in the bracket.

However, in a fixing structure between a bracket and a housing such as a known sunshade connector, there is a gap between a lower region of the convex shape and an engaged portion of the concave shape, and the housing has play with respect to the bracket.

Such play of the housing affects elastic deformation of each arm connecting portion of the pair of connector terminals housed in the housing, and there is a possibility that connection reliability is lowered due to fluctuation of contact load between the end portions of the arm portions and each arm connecting portion, an increase in generated resistance, and the like.

In view of the above, an object of the present application is to provide a sunshade board connector capable of maintaining connection reliability.

A visor connector according to an aspect of the present application includes: a bracket attached to the attachment member; an arm portion that is disposed on one surface side of the attaching member of the bracket, that is configured to rotatably support a sun visor body, and that has an end portion that is inserted through the bracket to be rotatably disposed; a housing fixed on the other surface side of the attaching member of the bracket and arranged in the vicinity of an end of the arm portion inserted through the bracket; a connector terminal that is accommodated in the housing and is connected to a counterpart terminal arranged on the other surface of the attaching part; an arm connecting portion that is provided to the connector terminal in an elastically deformable manner, and that is connected to an end of the arm portion by a biasing force; an engaging portion including a convex portion provided in any one of the bracket and the housing and a concave portion provided in the other one of the bracket and the housing and engaged with the convex portion; and a first restriction portion that is provided in any one of the convex portion and the concave portion and presses and abuts the other one of the convex portion and the concave portion in a deformation direction of the arm connecting portion.

In such a sunshade board connector, either one of the convex portion and the concave portion is provided with a first restriction portion that presses and abuts the other one of the convex portion and the concave portion in a deformation direction of the arm connecting portion. Therefore, in a state where the housing is assembled to the bracket, the housing can be prevented from having a play in the direction of deformation of the arm connecting portion.

For this reason, the arm connecting portion of the connector terminal accommodated in the housing can be prevented from fluctuating in the deformation direction due to the play of the housing and from coming into contact with the end portion of the arm portion, and the contact load between the end portion of the arm portion and the arm connecting portion can be prevented from fluctuating.

Therefore, in such a sun visor board connector, the contact load between the end portion of the arm portion and the arm connecting portion does not fluctuate due to the clearance of the housing, and the connection reliability can be maintained.

The first restriction portion may press the housing in a biasing direction of the arm connection portion.

Since the housing is pressed by the first restricting portion in the biasing direction of the arm connecting portion, the housing has no play in the direction in which the arm connecting portion separates from the end portion of the arm portion, and the contact load between the end portion of the arm portion and the arm connecting portion can be maintained.

A fulcrum portion serving as a fulcrum when the housing is rotated and assembled to the holder may be provided between the holder and the housing, and the convex portion may be provided with an insertion guide portion that is inclined along a rotation locus of the housing and guides insertion of the convex portion into the concave portion.

In such a sunshade board connector, the convex portion is provided with an insertion guide portion that is inclined along a rotation locus of the housing and guides insertion of the convex portion into the concave portion. Therefore, when the housing is assembled to the bracket, the convex portion can be smoothly inserted into the concave portion, and the assemblability can be improved.

Either one of the convex portion and the concave portion may be provided with a second restriction portion that presses and abuts the other one of the convex portion and the concave portion in a direction orthogonal to a deformation direction of the arm connecting portion.

In such a sunshade board connector, either one of the convex portion and the concave portion is provided with a second restriction portion that presses and abuts the other one of the convex portion and the concave portion in a direction orthogonal to a deformation direction of the arm connection portion. Therefore, the housing has no play in the direction orthogonal to the deformation direction of the arm connecting portion, and the contact load between the end portion of the arm portion and the arm connecting portion can be further maintained.

According to the aspect of the present application, the advantageous effect of being able to provide the sunshade board connector capable of maintaining the connection reliability is achieved.

Drawings

Fig. 1 is a perspective view of a sun visor to which a sun visor connector according to an embodiment is applied.

Fig. 2 is a side view when the sun visor to which the sun visor connector according to the embodiment is applied is attached to the attaching member.

Fig. 3 is a perspective view of a visor connector according to an embodiment.

Fig. 4 is a side view of a visor connector according to an embodiment.

Fig. 5 is a sectional view taken along line X-X in fig. 4.

Fig. 6 is an enlarged view of a main portion of fig. 5.

Fig. 7 is a sectional view taken along line Y-Y in fig. 4.

Fig. 8 is an enlarged view of a main portion of fig. 7.

Fig. 9 is a partial cross-sectional perspective view of the visor connector according to the embodiment when the housing is assembled to the bracket.

Fig. 10 is an enlarged view of a main portion of fig. 9.

Fig. 11 is a partial cross-sectional perspective view of the visor connector according to the embodiment when the housing is assembled to the bracket.

Fig. 12 is an enlarged view of a main portion of fig. 11.

Fig. 13 is a sectional view taken along line Z-Z in fig. 4.

Fig. 14 is a perspective view of a bracket of the visor connector according to an embodiment.

Fig. 15 is an enlarged view of a main portion of fig. 14.

Fig. 16 is a perspective view of an arm portion of the visor connector according to an embodiment.

Fig. 17 is a perspective view of a housing of a visor connector according to an embodiment.

Fig. 18 is a perspective view of a housing of a visor connector according to an embodiment.

Fig. 19 is an enlarged view of a main portion of fig. 18.

Fig. 20 is a perspective view of a connector terminal of a visor connector according to an embodiment.

Detailed Description

A sunshade board connector according to an embodiment will be described with reference to fig. 1 to 20.

The sunshade board connector 1 according to the embodiment comprises: a bracket 5, the bracket 5 being attached to the attaching member (ceiling of the vehicle compartment) 3; an arm 9, the arm 9 being disposed on one surface side (hereinafter referred to as "vehicle interior side") of the attaching member 3 of the bracket 5, rotatably supporting the sun visor body 7, and having an end portion inserted through the bracket 5 to be rotatably disposed; a housing 11 that is fixed to the other surface side (hereinafter referred to as "vehicle compartment outside") of the attaching member 3 of the bracket 5 and is arranged in the vicinity of the end of the arm portion 9 inserted through the bracket 5; a pair of connector terminals 13, the pair of connector terminals 13 being accommodated in the housing 11 and connected to a counterpart terminal (not shown) disposed outside the vehicle compartment; and a pair of arm connecting portions 15, the pair of arm connecting portions 15 being provided to the pair of connector terminals 13 in an elastically deformable manner, and being connected to end portions of the arm portions 9 by biasing forces.

An engagement portion 21 is provided between the holder 5 and the housing 11, and in this engagement portion 21, a pair of convex portions 17 provided to the housing 11 are inserted into and engaged with a pair of concave portions 19 provided to the holder 5.

Each convex portion 17 is provided with a first restriction portion 23, which first restriction portion 23 presses and abuts the corresponding concave portion 19 in the deformation direction of the corresponding arm connecting portion 15.

Each of the first restrictions 23 presses the housing 11 in the biasing direction of the corresponding arm connecting portion 15.

Between the holder 5 and the housing 11, a fulcrum portion 25 is provided as a fulcrum when the housing 11 is rotated and assembled to the holder 5.

Each convex portion 17 is provided with an insertion guide portion 27, and the insertion guide portion 27 is inclined along the rotation locus of the housing 11 and guides the insertion of the corresponding convex portion 17 into the corresponding concave portion 19.

Each concave portion 19 is provided with a second restriction portion 29, and the second restriction portion 29 presses and abuts the corresponding convex portion 17 in a direction orthogonal to the deformation direction of the corresponding arm connecting portion 15.

As shown in fig. 1 to 20, the sun visor connector 1 is applied to a sun visor 31, and the sun visor 31 is attached to a ceiling of a vehicle cabin as an attaching member 3.

The sun visor 31 includes a visor body 7 and a visor board connector 1.

The sun visor body 17 is formed in a rectangular shape, and is disposed inside a vehicle compartment of a ceiling as the attaching member 3, has a mirror (not shown) disposed on a surface and a lamp (not shown) for illuminating the mirror, and a lighting device (not shown) for turning on and off the lamp is housed inside.

The sun visor body 7 is arranged with an arm 9, and the arm 9 is inserted through a long side portion of the sun visor body 7 and exposed from an end of the sun visor body 7 toward the ceiling (attachment member 3). A power supply (not shown) for supplying power arranged outside the vehicle compartment of the ceiling (attaching member 3) and a lighting device (not shown) accommodated in the sun visor body 7 are electrically connected via the sun visor board connector 1.

The sunshade board connector 1 includes: a bracket 5, an arm 9, a housing 11, and a pair of connector terminals 13.

The bracket 5 is formed in a rectangular plate shape, and at the attachment part 33 provided on both sides of the bracket 5 in the length direction, the bracket 5 is fixed to the attachment part 3 by a fixing member (not shown) such as a bolt.

A support 35 formed in a cylindrical shape is provided at the center of the holder 5 to rotatably support the arm 9, and the end of the arm 9 is inserted through the support 35.

Inside the arm 9, two conductors (not shown) are insert-molded, which are electrically connected to a lighting device (not shown) accommodated in the sun visor body 7. Arm portion 9 includes a long shaft portion 37 and a short shaft portion 39, as shown in fig. 16.

The long shaft portion 37 is inserted into the inside near the long side portion of the sun visor body 7, and rotatably supports the sun visor body 7 about the axis of the long shaft portion 37 between a storage position (a position where the sun visor body 7 is rotated toward the attachment member 3) and a light shielding position (a position where the sun visor body 7 is rotated toward the windshield or the side glass).

At an end of the long shaft portion 37 located inside the sun visor body 7, a pair of contact portions (not shown) are provided, on which two conductors insert-molded in the arm portion 9 are exposed. A pair of contact portions (not shown) is provided to be able to contact a pair of terminals (not shown) provided to the lighting device (not shown).

For example, a pair of contact portions (not shown) and a pair of terminals (not shown) are not in contact at the storage position of the sun visor body 7 so that the lamp is turned off, and are in contact at the light shielding position of the sun visor body 7 so that the lamp is turned on.

At an end of the long shaft portion 37 exposed to the outside of the sun visor body 7, a short shaft portion 39 is provided as one continuous member.

The short shaft portion 39 extends from the end of the long shaft portion 37 exposed to the sun visor body 7 toward the attachment member 3 so that the arm portion 9 is formed in an L-shape.

On the attachment member 3 side of the short shaft portion 39, a rotation portion 41 rotatable about the axis of the short shaft portion 39 is provided. As the rotating portion 41 is inserted through the support portion 35 of the bracket 5, the arm portion 9 is supported by the bracket 5 so as to be rotatable about the axis of the stub shaft portion 39, and is press-fitted and fixed.

In a state where the short shaft portion 39 is supported by the bracket 5 in this way, the sun visor body 7 is able to turn about the axis of the short shaft portion 39 between the forward position (the position where the sun visor body 7 is moved to the windshield) and the side position (the position where the sun visor body 7 is moved to the side glass).

As shown in fig. 16, at the end of the short shaft portion 39 of the insertion bracket 5, a pair of contact portions 43 are provided in which two conductors (not shown) insert-molded inside the arm portion 9 are exposed.

The housing 11 is arranged to cover the pair of contact portions 43 on the holder 5 on which the pair of contact portions 43 are arranged.

The housing 11 is made of an insulating material such as synthetic resin. The housing 11 is provided with a pair of fitting portions 45, and the pair of fitting portions 45 is arranged outside the vehicle compartment of the attaching member 3. A counterpart housing (not shown) connected to a power source for supplying power is fitted to the pair of fitting portions 45.

The housing 11 is arranged to cover the support 35 of the stand 5. The housing 11 is fixed to the bracket 5, and the engaging portion 21 is interposed between the housing 11 and the bracket 5.

The joint portion 21 includes: a pair of projections 17 extending from a surface of the housing 11 facing the holder 5 toward the holder 5, wherein a pair of fitting portions 45 are located on the surface; and a pair of recesses 19, the pair of recesses 19 being provided on both sides of the support portion 35 of the bracket 5 so that the pair of protrusions 17 can be inserted.

At one end side of the pair of joining portions 21, a fulcrum portion 25 is provided, and the fulcrum portion 25 includes: a pair of fulcrum projections 47, the pair of fulcrum projections 47 projecting outward from the side surface of the housing 11 on one end side of the pair of projections 17; and a pair of fulcrum recesses 49, the pair of fulcrum recesses 49 being provided so as to be able to accommodate the pair of fulcrum protrusions 47 by leaving the upper surface of the holder 5 on one end sides of the pair of recesses 19.

When the housing 11 is assembled to the bracket 5, the pair of fulcrum protrusions 47 and the pair of fulcrum recesses 49 are engaged, and the fulcrum portions 25 serve as fulcrums for rotating the housing 11 with respect to the bracket 5.

By rotating the housing 11 relative to the bracket 5 using the fulcrum portion 25, the pair of convex portions 17 are inserted and engaged into the pair of concave portions 19 at the engaging portion 21, and the housing 11 is fixed to the bracket 5.

The pair of connector terminals 13 is accommodated inside the housing 11, and the mating housing is fitted to the pair of fitting portions 45. In this way, power supply to the illumination device housed inside the sun visor body 7 can be performed via the arm 9.

Each connector terminal 13 includes a main body portion 51, a mating connection portion 53, an arm connection portion 15, and a fixing portion 55.

Since the pair of connector terminals 13 are formed to be symmetrical to each other, one connector terminal 13 will be described below, and description of the other connector terminal 13 will be omitted.

The main body portion 51 is made of a conductive material, formed in a flat plate shape, and bent. In this way, the mating connection portion 53 is provided on one end side of the main body portion 51, and the arm connection portion 15 is provided on the other end side of the main body portion 51.

The mating connecting portion 53 is formed into a box shape in which an elastically deformable elastic piece having a contact point inside is arranged by being bent toward one end side of the main body portion 51.

In a state of being accommodated in the housing 11, the mating connecting portion 53 is arranged in the fitting portion 45. When the mating housing is fitted to the mating portion 45, the mating connection portion 53 is in contact with a mating terminal (not shown) accommodated in the mating housing, and the connector terminal 13 is electrically connected with the mating terminal.

The arm connecting portion 15 is provided to be elastically deformable at the bent portion 57 by being bent toward the other end side of the main body portion 51. The arm connecting portion 15 is provided with a contact 15a protruding toward the contact portion 43 of the arm portion 9.

In a state of being accommodated in the housing 11, the arm connecting portion 15 of one connector terminal 13 is arranged to face the arm connecting portion 15 of the other connector terminal 13, and in the protection portion 59 which is provided in the housing 11 and is exposed toward the pair of contact portions 43 of the arm portion 9, the pair of contact portions 43 (the ends of the stub shaft portion 39) is sandwiched between the arm connecting portion 15 of the one connector terminal 13 and the arm connecting portion 15 of the other connector terminal 13.

The pair of arm connection portions 15 sandwich the pair of contact portions 43 by the biasing force of the pair of arm connection portions 15, and the pair of connector terminals 13 are electrically connected to the pair of contact portions 43.

The arm portion 9 is rotatable about the axis of the short shaft portion 39 with respect to the bracket 5, so that the sun visor body 7 can be turned between the front position and the side position.

With such movement of the sun visor body 7, for example, the pair of arm connecting portions 15 and the pair of contact portions 43 contact at a front position of the sun visor body 7 to turn on the lamp, and do not contact at a side position of the sun visor body 7 to turn off the lamp.

A fixing portion 55 for fixing the connector terminal 13 to the housing 11 is provided in the main body portion 51 positioned between the arm connecting portion 15 and the mating connecting portion 53.

The fixing portion 55 protrudes from a side surface between the mating connection portion 53 of the main body portion 51 and the arm connection portion 15 toward an inner wall surface of the housing 11.

The fixing portion 55 is provided with a pair of press-fit portions 61, the pair of press-fit portions 63 projecting outward in an inclined shape on both sides in the width direction.

The pair of press-fit portions 61 fix the connector terminal 13 to the housing 11 by being press-fitted to press-fitted portions (not shown) provided in the housing 11.

In a state before the housing 11 is assembled to the bracket 5, the fixing portion 55 is press-fitted to the press-fitted portion of the housing 11, and the connector terminal 13 is fixed to the housing 11 in advance.

The body portion 51 between the fixing portion 55 and the mating connecting portion 53 is provided with a bent portion 63, and the bent portion 63 is bent in a planar direction orthogonal to the fitting direction between the mating terminal and the mating connecting portion 53 and a planar direction parallel to the fitting direction between the mating terminal and the mating connecting portion 53.

The bent portion 63 attenuates vibration generated on the mating connection portion 53 side, such as free movement generated between the mating connection portion 53 and the mating terminal, and suppresses occurrence of contact failure on the arm connection portion 15 side.

In addition, by providing the bent portion 63, the mating connection portion 53 and the arm connection portion 15 can be arranged close to each other, and the size of the housing 11 accommodating the connector terminal 13 can be reduced.

Since the connector terminal 13 is fixed to the housing 11 by the fixing portion 55, if a clearance is formed in the joint portion 21 between the bracket 5 and the housing 11, a play is generated in the housing 11 and transmitted to the connector terminal 13.

When the play of the housing 11 is transmitted to the connector terminal 13, the contact load of the arm connecting portion 15 that is in contact with the contact portion 43 of the arm portion 9 fluctuates due to elastic deformation, which may cause an increase in electrical resistance or the like.

In particular, if play is generated in the housing 11 in the deformation direction of the arm connecting portion 15, the arm connecting portion 15 has play in the deformation direction, and the contact load of the arm portion 9 with respect to the contact portion 43 easily fluctuates.

In view of the above, the first and second restrictions 23, 29 are provided in the convex portion 17 and the concave portion 19 that constitute the engagement portion 21.

The first regulating portion 23 is a rib provided at the bottom of the convex side frame portion 65 in the convex portion 17 projecting toward the inner wall surface of the concave portion 19, and projects from the bottom of the convex side frame portion 65 toward the inner wall surface of the concave portion 19 and extends toward the height direction of the convex portion 17.

The protruding direction of the first restriction portion 23 is the same as the deformation direction of the arm connection portion 15 (here, the width direction of the bracket 5).

The first restricting portion 23 abuts to press the inner wall surface of the concave portion 19 facing in the protruding direction, thereby eliminating the play between the convex portion 17 and the concave portion 19 in the joint portion 21 in the deformation direction of the arm connecting portion 15.

The play between the convex portion 17 and the concave portion 19 in the deformation direction of the arm connecting portion 15 is eliminated by the first restricting portion 23, and the housing 11 has no play with respect to the bracket 5 in the deformation direction of the arm connecting portion 15 (here, the width direction of the bracket 5).

Therefore, the arm connecting portion 15 of the connector terminal 13 fixed to the housing 11 has no play in the deformation direction, and fluctuation of the contact load on the contact portion 43 of the arm portion 9 is suppressed, and an increase in the electric resistance and the like can be suppressed.

In the deforming direction of the arm connecting portion 15, the protruding direction of the first restriction portion 23 is opposite to the biasing direction of the arm connecting portion 15 (here, the outer side in the width direction of the bracket 5).

With the first regulating portion 23 protruding as described above, when the first regulating portion 23 abuts against the inner wall surface of the recess 19, the housing 11 is pressed in the biasing direction of the arm connecting portion 15 (here, the inner side in the width direction of the holder 5) as indicated by the arrow in fig. 5.

Since the housing 11 is pressed by the first restricting portion 23 in the biasing direction of the arm connecting portion 15, the play of the arm connecting portion 15 is eliminated in the direction in which the contact load with the contact portion 43 of the arm portion 9 increases. In this way, the contact between the contact portion 43 of the arm portion 9 and the arm connecting portion 15 can be stabilized.

The second regulating portions 29 are ribs provided on both side walls of the concave side frame portion 67, project from the side walls of the concave side frame portion 67 toward the side walls of the convex side frame portion 65, and are provided to extend in the height direction of the concave portions 19, the concave side frame portions 67 being provided to project in the concave portions 19 so as to be alternately arranged with the convex side frame portions 65 of the convex portions 17.

The protruding direction of the second restricting portion 29 is the same as the direction orthogonal to the deformation direction of the arm connecting portion 15 (here, the longitudinal direction of the bracket 5).

The second restricting portions 29 abut to press the side walls of the convex-side frame portion 65 that are opposed in the protruding direction, thereby eliminating play between the convex portions 17 and the concave portions 19 in the joint portion 21 in the direction orthogonal to the deformation direction of the arm connecting portion 15.

The play between the convex portion 17 and the concave portion 19 in the direction orthogonal to the deformation direction of the arm link portion 15 is eliminated by the second restriction portion 29, and the housing 11 has no play with respect to the bracket 5 in the direction orthogonal to the deformation direction of the arm link portion 15 (here, the longitudinal direction of the bracket 5).

Therefore, the arm connecting portion 15 of the connector terminal 13 fixed to the housing 11 has no play in the direction orthogonal to the deformation direction, and fluctuation of the contact load on the contact portion 43 of the arm portion 9 is further suppressed, and an increase in resistance and the like can be further suppressed.

Since the first restrictions 23 and the second restrictions 29 that press and abut on the convex portions 17 and the concave portions 19 are provided in the convex portions 17 and the concave portions 19 in the engagement portion 21, the convex portions 17 are press-fitted to the concave portions 19 when the convex portions 17 are inserted into the concave portions 19.

For this reason, when the insertion position of the convex portion 17 into the concave portion 19 is unstable, it is difficult to insert the convex portion 17 into the concave portion 19, and there is a possibility that the assembling property is lowered.

In view of the above, the convex portion 17 is provided with the insertion guide portion 27, and the insertion guide portion 27 guides the insertion of the convex portion 17 into the concave portion 19 when the housing 11 is assembled to the holder 5.

The insertion guide portion 27 is provided between the fulcrum portion 25 of the convex portion 17 and the convex side frame portion 65, and is formed to be inclined from the fulcrum portion 25 to the convex side frame portion 65 along the rotation locus of the housing 11 when the housing 11 is rotated with respect to the stand 5 with the fulcrum portion 25 as a fulcrum.

When the housing 11 is rotated with respect to the bracket 5 with the fulcrum portion 25 as a fulcrum, the insertion guide portion 27 is inserted into the recess 19, and the rotation of the housing 11 is guided so as to position the arrangement position of the male side frame portion 65 with respect to the female side frame portion 67.

By providing the insertion guide portion 27 in this way, the convex portion 17 can be easily inserted into the concave portion 19 in accordance with the rotational movement of the housing 11, and the assemblability can be improved.

Tapered surfaces are provided on the surfaces of the first and second restrictions 23, 29 that face the holder 5 and the housing 11, thereby facilitating insertion of the convex portion 17 into the concave portion 19.

In the sunshade board connector 1 according to the embodiment, the first restriction portion 23 that presses and abuts the concave portion 19 in the deformation direction of the arm connection portion 15 is provided to the convex portion 17. Therefore, in a state where the housing 11 is assembled to the bracket 5, the housing 11 can be prevented from having a play in the direction of deformation of the arm connecting portion 15.

For this reason, it is possible to prevent the arm connecting portion 15 of the connector terminal 13 accommodated in the housing 11 from fluctuating in the deformation direction due to the play of the housing 11 and from coming into contact with the end portion of the arm portion 9, and it is possible to prevent the contact load between the end portion of the arm portion 9 and the arm connecting portion 15 from fluctuating.

Therefore, in the sunshade board connector 1 according to the embodiment, the contact load between the end portion of the arm portion 9 and the arm connecting portion 15 is not fluctuated by the play of the housing 11, and the connection reliability can be maintained.

Since the housing 11 is pressed by the first restricting portion 23 in the biasing direction of the arm connecting portion 15, the housing 11 has no play in the direction in which the arm connecting portion 15 separates from the end portion of the arm portion 9, and the contact load between the end portion of the arm portion 9 and the arm connecting portion 15 can be maintained.

The convex portion 17 is provided with an insertion guide portion 27, and the insertion guide portion 27 is inclined along the rotation locus of the housing 11 and guides the insertion of the convex portion 17 into the concave portion 19. Therefore, when the housing 11 is assembled to the bracket 5, the convex portion 17 can be smoothly inserted into the concave portion 19, and the assembling property can be improved.

The concave portion 19 is provided with a second regulating portion 29, and the second regulating portion 29 presses and abuts the convex portion 17 in a direction orthogonal to the deformation direction of the arm connecting portion 15. Therefore, the housing 11 has no play in the direction orthogonal to the deformation direction of the arm connecting portion 15, and the contact load between the end portion of the arm portion 9 and the arm connecting portion 15 can be further maintained.

In the sunshade board connector 1 according to the embodiment, the convex portion 17 is provided in the housing 11 and the concave portion 19 is provided in the bracket 5. However, the embodiment is not limited to the above configuration, and the convex portion may be provided in the holder 5 and the concave portion may be provided in the housing 11.

The first restriction portion 23 is provided in the convex portion 17. However, the embodiment is not limited to this configuration, and the first restriction portion may be provided in the concave portion 19, or the first restriction portion may be provided in the convex portion 17 and the concave portion 19.

The second restriction portion 29 is provided in the recess 19. However, the embodiment is not limited to this configuration, and the second restriction portion may be provided in the convex portion 17, or the second restriction portion may be provided in the convex portion 17 and the concave portion 19.

The first and second restrictions 23, 29 are ribs provided in the convex portion 17 and the concave portion 19. However, the embodiment is not limited to this configuration, and the first and second restrictions 23, 29 may be protrusions that protrude in a hemispherical shape, and may have any shape as long as the convex portion 17 and the concave portion 19 can be pressed and abutted.