JP2018073744A - Floating connector and electric connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce occurrence of a failure.SOLUTION: A floating connector 101 includes a fixed insulator 103 fixed to an object, a movable insulator 104 provided inside the fixed insulator, and a contact 105 that is a conductive member that connects both of the insulators 103 and 104. The contact 105 includes a first fixed part 121 fixed to the fixed insulator 103, a second fixed part 122 fixed to the movable insulator 104, and an elastic part 123 that connects the first fixed part 121 and the second fixed part 122. The fixed insulator 103 includes a protection part 114 that projects from an inner wall 110 and covers at least a part of the upper part of the elastic part 123.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a floating connector and an electrical connector.

  There has been proposed an electrical connector composed of a floating connector attached to a substrate and a mating connector with which the connector is fitted. The floating connector typically includes a fixed insulator fixed to a substrate or the like, a movable insulator disposed in the fixed insulator, and a contact connecting the movable insulator and the fixed insulator. The contact is usually a conductive member and connects both insulators so that the movable insulator moves relative to the fixed insulator.

  For example, Patent Document 1 discloses an electrical connector in which a plug connector and a receptacle connector are detachably fitted. The receptacle connector includes a plurality of receptacle contacts having a first contact portion that contacts a mating contact, a first fixing portion that is fixed to a block, and a first connection portion that is connected to a substrate, and the receptacle contacts hold and And arranged blocks.

  Further, the plug connector includes a plurality of plug contacts having a second contact portion that contacts the receptacle contact, second and third fixing portions that are fixed to the housing and the insulator, and a second connection portion that is connected to the substrate, It has a housing and an insulator in which these plug contacts are held and arranged. The plug connector corresponds to a floating connector, the housing corresponds to a fixed insulator, and the insulator corresponds to a movable insulator.

  An elastic portion that meanders at least once is provided between the second fixing portion and the third fixing portion of the plug contact, and the insulator is held only by the plug contact, so that it floats in the housing. Floating is enabled by setting the state. The shape of the second contact part of the plug contact is a substantially plate-shaped piece, and the contact between the second contact part of the plug contact and the first contact part of the receptacle contact is made into one line contact, and the position of the elastic part is It arrange | positions below a 2nd contact part (2nd connection part direction side) and below an insulator (2nd connection part direction side).

JP 2009-230944 A

  However, in the plug connector described in Patent Document 1, foreign matter such as dust may enter the housing. Further, the foreign matter in the housing may cause a failure such as hindering the floating operation of the insulator and the third fixing portion, or shorting a plurality of plug contacts.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a floating connector or the like that can reduce the occurrence of a failure.

In order to achieve the above object, the floating connector according to the first aspect of the present invention provides:
A floating connector that mates with a mating connector,
A hollow insulator having an opening at one end passing through when the mating connector is fitted, and a fixed insulator fixed to the object,
A movable insulator disposed in the fixed insulator;
A contact that is a conductive member that connects the fixed insulator and the movable insulator so that the movable insulator moves relative to the fixed insulator;
The fixed insulator has a first fixing portion to which the contact is fixed,
The movable insulator has a second fixing portion to which the contact is fixed,
The contact is
A first fixed part fixed to the first fixing part;
A second fixed part fixed to the second fixing part;
An elastic portion connecting between the first fixed portion and the second fixed portion;
The fixed insulator further has a protection part that protrudes from the inner wall and covers at least a part of the elastic part in the height direction from the other end part toward the one end part.

In order to achieve the above object, an electrical connector according to the second aspect of the present invention includes:
The floating connector;
With the mating connector,
The mating connector is
A mating contact that contacts the contact of the floating connector;
A protective wall extending downward from the counterpart contact.

  According to the present invention, it is possible to reduce the occurrence of failures.

It is a perspective view in the fitting state of the electrical connector which concerns on one embodiment of this invention. It is sectional drawing in the fitting state of the electrical connector which concerns on one Embodiment. 1 is a perspective view of a floating connector according to an embodiment. It is a disassembled perspective view of the floating connector which concerns on one Embodiment. It is sectional drawing of the floating connector which concerns on one embodiment. It is a perspective view of the other party connector concerning one embodiment. It is sectional drawing of the other party connector which concerns on one Embodiment. In the assembly process 2, it is a figure which shows the state which assembled | attached the movable insulator to the fixed insulator. In the fitting process 2, it is a figure which shows the state which the upper end of the pillar part was guided by the other party connector and the movable insulator moved to the limit of the movement range. In the fitting process 2, it is a figure which shows the state which the movable insulator moved to the limit of the movement range, and the rotating connector and the other party connector were fitted. 14 is an external perspective view of a floating connector according to Modification 3. FIG.

  Hereinafter, an electrical connector according to an embodiment of the present invention will be described with reference to the drawings. The same elements are denoted by the same reference symbols throughout the drawings. In the description of the embodiments of the present invention and the drawings, the terms “up”, “down”, “front”, “rear”, “right”, and “left” are used, but these are used to describe directions and limit the present invention. Not the purpose.

<< Configuration >>
As shown in FIG. 1 which is a perspective view and FIG. 2 which is a cross-sectional view, an electrical connector 100 according to an embodiment includes a floating connector 101 and a mating connector 102 which are fitted to each other.

  Typically, each of the floating connector 101 and the mating connector 102 is attached to an object (not shown) such as a board provided with an electric circuit, wiring connected to the electric circuit, or the like. When the floating connector 101 and the mating connector 102 are fitted to each other, separate electric circuits are electrically connected.

  Note that each of the floating connector 101 and the mating connector 102 may be attached to an appropriate object, and the substrates and wirings mentioned here are examples of the object.

  The floating connector 101 is a connector that fits with the mating connector 102. As shown in FIG. 3 which is a perspective view, FIG. 4 which is an exploded perspective view, and FIG. 5 which is a cross-sectional view, the floating connector 101 includes a fixed insulator 103, a movable insulator 104, a plurality of contacts 105, and a plurality of contacts. And a fixture 106.

  The fixed insulator 103 and the movable insulator 104 are made of, for example, resin. Each of the contacts 105 and each of the fixtures 106 is made of, for example, metal. These materials may be changed as appropriate.

  The fixed insulator 103 is a hollow columnar member fixed to the object. The fixed insulator 103 according to the present embodiment has a hollow column shape extending in the height direction from the lower end 107 to the upper end 108. The fixed insulator 103 according to the present embodiment has an outer wall 109 and an inner wall 110 that are generally rectangular in shape when viewed from above.

  The fixed insulator 103 according to the present embodiment is open at the top and bottom, and has an upper opening 111 and a lower opening 112 at each of the upper end portion 108 and the lower end portion 107. The upper opening 111 is an opening through which the mating connector is fitted to the floating connector 101. The lower opening 112 is an opening through which the movable insulator 104 passes when the movable insulator 104 is assembled to the fixed insulator 103.

  Here, the upper end 108 and the lower end 107 of the fixed insulator 103 according to the present embodiment correspond to one end and the other end, respectively.

  Specifically, the fixed insulator 103 includes a first fixed portion 113 provided on the lower inner wall 110, a protective portion 114 protruding from the inner wall 110, and a pair of concave portions 115 provided on the lower end portion 107.

  The first fixing part 113 is a part to which the contact 105 is fixed. The first fixing portion 113 according to the present embodiment has a plurality of grooves in the front and rear inner walls 110 where the contacts 105 are fixed. Each of the plurality of grooves included in the first fixing portion 113 extends in the height direction, and the lower end is open. The groove | channel which the 1st fixing | fixed part 113 has is located in a line with right and left in each inner wall 110 before and behind.

  The front-rear direction is a direction perpendicular to the up-down direction and the left-right direction. In the present embodiment, the short side direction of the cylindrical portion (the portion having the outer wall 109 and the inner wall 110) when the fixed insulator 103 is viewed from above is the front-rear direction. The front may be defined as one of the front and rear directions, and the rear is the opposite direction. Further, the left side and the right side are defined in the direction seen from the front.

  The protection part 114 is a part that covers at least a part of the elastic part 123 described later.

  The protection part 114 according to the present embodiment is between the first fixing part 113 and the upper end part 108 and below the contact part 125 in the height direction of the inner wall 110 of the fixed insulator 103. Projects from the inner wall 110. That is, the protection part 114 according to the present embodiment protrudes from the inner wall 110 between the first fixing part 113 and the contact part 125. Details of the contact portion 125 will be described later.

  The protection unit 114 according to the present embodiment has a plate shape that continuously protrudes toward all of the plurality of contacts 105. Note that the shape of the protective portion 114 is not limited to a plate shape, and may be changed as appropriate. For example, the shape may be a comb shape protruding intermittently toward each of the plurality of contacts 105.

  The pair of recesses 115 is provided in a portion facing the left and right axial directions. Each of the recesses 115 forms a notch that is recessed upward. Each of the recesses 115 according to the present embodiment has a substantially rectangular shape when viewed from the right side.

  The movable insulator 104 is a member that is movably disposed in the fixed insulator. As shown in FIGS. 3 to 5, the movable insulator 104 includes a pair of a second fixed portion 116, a tongue portion 117, a shoulder portion 118, left and right pillar portions 119, and a protruding portion 120.

  The second fixing portion 116 has a flat plate shape extending substantially vertically and horizontally and is a portion to which the contact is fixed. The second fixing portion 116 according to the present embodiment is elongated to the left and right when viewed from the front, and has a plurality of grooves to which the contact 105 is fixed on each surface of the front surface and the rear surface. The plurality of grooves provided in the second fixing part 116 each extend in the height direction similarly to the groove of the first fixing part 113, and are arranged side by side on the front and rear surfaces of the second fixing part 116. Yes.

  The above-mentioned fixed insulator 103 has a height higher than that of the second fixed portion 116. Therefore, the sides of the plurality of contacts 105 fixed to the second fixing portion 116 are surrounded by the fixed insulator 103.

  The tongue portion 117 is a portion extending downward from the second fixing portion 116 and has a flat plate shape extending substantially vertically and horizontally.

  The tongue 117 according to the present embodiment extends to the same height as the lower end of the first fixed portion 113 in the height direction.

  Further, the tongue 117 according to the present embodiment is elongated to the left and right when viewed from the front, and has a plurality of grooves communicating with the plurality of grooves of the second fixing portion 116 on each surface of the front surface and the rear surface. Each of the plurality of grooves provided in the tongue portion 117 extends in the height direction similarly to the grooves of the first fixing portion 113 and the second fixing portion 116.

  The plurality of grooves provided in the tongue 117 are arranged side by side on the front and rear surfaces of the tongue 117. The series of grooves provided in the tongue 117 and the second fixing part 116 and the grooves provided in the first fixing part 113 are associated with each other so as to face each other in the front-rear direction.

  The shoulder portion 118 is a portion protruding from the tongue portion 117 toward the inner wall 110 of the fixed insulator 103 and covers at least a part above the elastic portion 123 described later. Specifically, the shoulder 118 protrudes toward the inner wall of the fixed insulator 103 at the upper end of the tongue 117.

  The left and right column portions 119 are columnar members connected to the second fixed portion 116 and the end portions of the left end portion and the right end portion of the tongue portion 117, and extend in the vertical direction.

  Each of the pillar portions 119 has a front-rear length that is different from a portion connected to the second fixing portion 116 and a portion connected to the tongue portion 117 as viewed from above, and the second fixing portion 116 in the height direction. A step is formed at a position corresponding to the boundary between the tongue portion 117 and the tongue portion 117. Specifically, the portion connected to the second fixing portion 116 has a shorter length in the front-rear direction than the portion connected to the tongue portion 117. This makes it possible to move the movable insulator 104 without increasing the length of the fixed insulator 103 in the front-rear direction, that is, while preventing the floating connector from becoming large, and without contacting the protection portion 114.

  The pair of protrusions 120 is a portion protruding from the left and right column portions 119 along the left and right axial directions. The left and right protrusions 120 protrude from the left and right axial end faces along the left and right axial directions, respectively, and are accommodated in the left and right recesses 115. Specifically, the left protrusion 120 protrudes leftward from the left end surface of the left pillar 119 and is accommodated in a recess 115 provided on the left. The right protrusion 120 protrudes rightward from the right end surface of the right column 119 and is accommodated in a recess 115 provided on the right.

  Each upper surface of the projecting portion 120 is a surface that comes into contact with the recess 115, and the shape viewed from the left and right axial directions (for example, rightward) is an arc shape.

  Each of the contacts 105 connects the fixed insulator 103 and the movable insulator 104 so that the movable insulator 104 moves relative to the fixed insulator 103. Each of the contacts 105 is made of a conductive member. For example, the contact 105 is made by bending one elongated conductor having a rectangular cross section.

  Each of the contacts 105 includes a first fixed part 121, a second fixed part 122, an elastic part 123, and a connection part 124.

  The first fixed part 121 is fixed to the first fixing part 113. The 1st to-be-fixed part 121 which concerns on this Embodiment has the substantially semicircle-shaped small protrusion protruded on each of right and left. When the first fixed portion 121 is press-fitted into the groove of the first fixing portion 113 and disposed at a predetermined position, the left and right wall portions and the small protrusions forming the groove press against each other, To be fixed to the first fixing portion 113. In addition, the 1st to-be-fixed part 121 may be fixed to the 1st fixing | fixed part 113 using an adhesive agent etc. suitably, and a small protrusion does not need to be provided in this case.

  The second fixed part 122 is fixed to the second fixing part 116. The second fixed portion 122 according to the present embodiment has substantially semicircular small protrusions protruding to the left and right, like the first fixed portion 121 described above. When the second fixed portion 122 is press-fitted into the groove of the second fixing portion 116 and disposed at a predetermined position, the left and right wall portions and the small protrusions forming the groove press each other, To be fixed to the second fixing part 116. Note that the second fixed portion 122 may be fixed to the second fixing portion 116 using an adhesive or the like as appropriate, and in this case, the small protrusion may not be provided.

  The second fixed portion 122 includes a contact portion 125 for contacting a mating contact 126 provided on the mating connector 102. Specifically, the contact portion 125 is a portion of the second fixed portion 122 exposed to the outside, and is a portion with which the mating contact 126 abuts when the mating connector 102 is fitted to the floating connector 101. In the present embodiment, the contact portion 125 is a part of a portion that forms a surface exposed to the outside facing forward or rearward.

  The elastic part 123 connects between the first fixed part 121 and the second fixed part 122. The elastic part 123 according to the present embodiment floats without contacting other members constituting the floating connector 101. By such an elastic part 123, the movable insulator 104 is held at the reference position in the fixed insulator 103, and can move when a force is applied when the mating contact 126 is fitted. When the movable insulator 104 moves from the reference position, an urging force for returning to the reference position is applied to the movable insulator 104 by the elastic portion 123.

  The connecting portion 124 is a portion extending from the first fixed portion 121 in a direction different from the elastic portion 123. The connection part 124 extends from the lower end part of the fixed insulator 103 and is connected to the object. In the present embodiment, the connection portion 124 extends from a notch provided at each of the front and rear of the lower end portion of the fixed insulator 103. A connection portion 124 of the contact 105 provided in front of the movable insulator 104 extends forward from a notch provided in a lower end portion in front of the fixed insulator 103. A connection portion 124 of the contact 105 provided at the rear of the movable insulator 104 extends rearward from a notch provided at a lower end portion at the rear of the fixed insulator 103.

  The connection unit 124 is connected to a circuit provided on a substrate as an object, for example, by soldering.

  The fixing tool 106 is a member for fixing the fixed insulator 103 to the object. In the present embodiment, the fixture 106 is a substantially L-shaped member as shown in FIG. A portion of the fixture 106 that is parallel to the vertical direction is fixed to the lower ends of approximately four corners of the front and rear, left and right of the fixed insulator 103, and a portion that is parallel to the front and rear direction is fixed to the object. As a method of fixing the fixing device 106 to the fixed insulator 103 and the object, it is preferable to employ fitting, screwing, bonding with an adhesive, soldering, or the like.

  Note that the fixed insulator 103 only needs to be fixed to the object, and may not be directly fixed to the object by the fixture 106 or the like. The fixed insulator 103 may be fixed to the object via the contact 105, for example.

  The mating connector 102 includes a plurality of mating contacts 126, a mating insulator 127, and a protective wall 128, as shown in FIG. 6 that is a perspective view and FIG. 7 that is a cross-sectional view.

  Each of the mating contacts 126 is a contact that contacts each of the contacts 105 of the floating connector 101 in a state where the mating connector 102 is fitted to the floating connector 101.

  The counterpart insulator 127 is a generally hollow columnar member that is open at the top and bottom. The mating insulator 127 has a mating contact 126 fixed inside, and each end of the mating contact 126 extends to the outside through upper and lower openings. A portion of the counterpart contact 126 extending upward is connected to, for example, a substrate or wiring provided with a circuit. The portion of the mating contact 126 that extends downward is in contact with the contact portion 125 of the contact 105 in a state in which the mating connector 102 is fitted to the floating connector 101, thereby connecting the contact 105 and the mating contact 126. Connect electrically.

  The protective wall 128 is a part connected to the lower end of the counterpart insulator 127. The protective wall 128 extends downward from the mating contact 126, thereby protecting the mating contact 126 extending from the lower opening.

<< Assembly Method of Floating Connector 101 >>
One method for assembling the floating connector 101 will be described.
(Assembly process 1)
A fixed insulator 103 and a movable insulator 104 are prepared.

(Assembly process 2)
As shown in FIG. 8, the movable insulator 104 is arranged inside the fixed insulator 103 so that each of the pair of left and right protrusions 120 fits into the pair of left and right recesses 115. Thereby, the movable insulator 104 is assembled to the fixed insulator 103.

(Assembly process 3)
After the contact 105 is fitted in the groove of the tongue 117 of the movable insulator 104, the contact 105 is slid upward along the fitted groove.

  In the present embodiment, as described above, the second fixing portion 116 has a groove for fixing the contact 105, and the tongue portion 117 has a groove communicating with the groove of the second fixing portion 116. Therefore, the contact 105 is guided to the second fixing portion 116 by sliding the contact 105 along a series of grooves extending from the tongue portion 117 to the second fixing portion 116. Thereby, the contact 105 can be easily disposed on the second fixing portion 116. Therefore, the contact 105 can be easily attached to the movable insulator 104.

  Then, the contact 105 is fitted into the groove of the first insulator 113 of the fixed insulator 103 facing the groove of the tongue 117 into which the contact 105 is fitted, and the contact 105 is further slid upward. Thereby, each of the first fixed portion 121 and the second fixed portion 122 is arranged at a predetermined position between the first fixed portion 113 and the second fixed portion 116.

  Here, in the sliding movement of the contact 105, the small protrusions provided in each of the first fixed portion 121 and the second fixed portion 122 abut against the side wall of the groove, so that the contact is press-fitted.

  This step 3 is repeated in order for each of the plurality of contacts 105. A plurality of contacts 105 may be attached at the same time instead of one by one.

  (Assembly process 4) The fixing tool 106 is attached to the fixed insulator 103. Thereby, the floating connector 101 is completed.

  The method of assembling the floating connector 101 is not limited to this, and may be changed as appropriate. For example, the contact 105 may be attached to the movable insulator 104, and then the fixed insulator 103 may be attached to the movable insulator 104 and the contact 105. However, in this assembly method, the contact 105 is press-fitted when the contact 105 is attached to the movable insulator 104 and when the fixed insulator 103 is attached to the contact 105. That is, when attaching the contacts 105 one by one, the process of press-fitting the contacts 105 occurs twice in order to attach one contact 105. Since the process of press-fitting the contact 105 requires labor and time, in order to improve the efficiency of assembling the floating connector 101, it is desirable that the number of press-fitting of the contact 105 is small.

  In the present embodiment, the grooves of each of the first fixing portion 113, the second fixing portion 116, and the tongue portion 117 are all parallel to each other in the vertical direction. Moreover, the groove | channel of the 1st fixing | fixed part 113 and the series of groove | channels of the 2nd fixing | fixed part 116 and the tongue part 117 are matched before and behind. Therefore, as described here, after assembling the fixed insulator 103 and the movable insulator 104, the contact 105 can be slid along the grooves facing the front and rear of the first fixed portion 113 and the tongue portion 117. . Then, the contact 105 can be easily arranged in a single step at predetermined positions of the fixed insulator 103 and the movable insulator 104. As described above, in this embodiment, the contacts can be easily assembled to both insulators in one step, so that the ease of assembly of the floating insulator can be improved.

<< Operation of Floating Connector 101 >>
The operation of the floating connector 101 when the mating connector 102 is fitted to the floating connector 101 will be described. The floating connector 101 and the mating connector 102 may be fitted together by a machine, or may be fitted together by an operator's manual work. In many cases, the floating connector 101 and the mating connector 102 are usually fitted together in a state of being attached to a substrate or the like as an object.

(Fitting process 1)
The mating connector 102 and the floating connector 101 are opposed to each other, for example. Specifically, for example, the mating connector 102 and the floating connector 101 are opposed to each other in a predetermined positional relationship that fits between the mating contacts 126 of the mating connector 102 by moving the movable insulator 104 downward.

(Fitting process 2)
Then, the mating connector 102 is moved downward.

  Here, it is assumed that the positional relationship between the floating connector 101 and the counterpart connector 102 deviates from the above-described predetermined positional relationship when the counterpart connector 102 and the floating connector 101 are vertically opposed.

  As shown in FIGS. 3 and 4, the upper end of the column portion 119 included in the movable insulator 104 has a tapered shape that gradually decreases upward. Therefore, even if the positional relationship between the floating connector 101 and the mating connector 102 is misaligned, if the misalignment is within a predetermined range, the upper end of the column portion 119 is connected to the mating connector 102 as shown in FIG. As a result, the movable insulator 104 moves. At this time, the movable insulator 104 moves to a position where the contact 105 enters between the counterpart contacts 126. When the mating connector 102 is further moved downward from this state, the contact 105 and the mating contact 126 come into contact with the movable insulator 104 moved from the reference position.

  Further, when the mating connector 102 is moved downward, the mating connector 102 is fitted into the floating connector 101.

  When the mating connector 102 is fitted to the floating connector 101, the movable insulator 104 can move to the limit of the moving range as shown in FIG. The limit of the range of movement of the movable insulator 104 is preferably defined by the shoulder 118 abutting against the inner wall of the fixed insulator.

  If the movable range of the movable insulator 104 is defined by the contact between the protective portion 114 of the fixed insulator 103 and the second fixed portion 122 of the contact 105 fixed to the second fixed portion 116, the contact 105 is protected. The part 114 may collide and be damaged. If the contact 105 is damaged, a failure such as poor conduction may occur.

  In addition, the movable insulator 104 is not a member that requires a high strength, as long as it can be fixed so that the plurality of contacts 105 do not come into contact with each other and are short-circuited. Therefore, in order to reduce the size of the floating connector 101, the movable insulator 104 may be thin (the front and rear lengths are short). When such a movable insulator 104 collides with the protection part 114, the movable insulator 104 such as the second fixed part 116 may be damaged. If the side wall of the groove of the second fixing portion 116 is damaged or damaged pieces of the movable insulator 104 are adhered between the contacts 105, a failure such as a short circuit of the contact 105 may occur.

  On the other hand, since the fixed insulator 103 constitutes the outer frame of the floating connector 101, a certain degree of strength is required. Therefore, even if the shoulder 118 contacts the fixed insulator 103, the possibility that the fixed insulator 103 is damaged is low. Further, since the shoulder portion 118 is a relatively small portion, even if the strength of the shoulder portion 118 is improved by increasing the thickness in the vertical direction, the overall size of the floating connector 101 is hardly affected. Therefore, by defining the movement range of the movable insulator 104 by the contact between the shoulder portion 118 and the inner wall 110 of the fixed insulator 103, it is possible to suppress an increase in size of the floating connector 101 and occurrence of a failure.

  Further, in this step, it is desirable that the protective portion 114 and the shoulder portion 118 cover the elastic portion 123 when viewed from the upper opening 111 even if the floating connector 101 moves to the limit of the moving range. That is, it is desirable that the protection part 114 and the shoulder part 118 are provided so as to cover the elastic part 123 when viewed from the upper opening 111 when the movable insulator 104 moves to any position inside the fixed insulator 103. .

  As a result, the protection part 114 and the shoulder part 118 always cover the elastic part 123 when viewed from the upper opening 111, and more reliably prevent foreign matter from entering the fixed insulator 103 from the upper opening 111. Can do. Therefore, it is possible to reliably reduce the occurrence of troubles such as the hindering of the floating operation and the short-circuiting of the plurality of plug contacts 105 due to the foreign matter that has entered the fixed insulator 103.

  When the movable insulator 104 is moved from the reference position, the mating connector 102 moves from the floating connector 101 in the front-rear and left-right directions, such as the urging force of the elastic portion 123 and the force due to contact with the fixed insulator 103 via the movable insulator 104. Receive the power of Therefore, by detecting the front / rear / left / right force received by the mating connector 102 from the floating connector 101, the mating connector 102 is adjusted while adjusting the front / rear / left / right positions of the mating connector 102 so that the movable insulator 104 is close to the reference position. It may be moved downward.

(Fitting process 3)
The mating connector 102 is pressed against the floating connector 101 until the downward force reaches a predetermined magnitude. As a result, the contact portion 125 of the contact 105 comes into contact with the mating contact 126, and the floating connector 101 and the mating connector 102 are firmly fitted.

  Here, as described above, the tongue portion 117 extends to the same height as the lower end portion of the first fixing portion 113 in the height direction. For example, when the tongue 117 is at the reference position, the lower end of the tongue 117 is disposed at a position about 0.1 mm away from the object.

  If the lower end of the tongue 117 and the object are largely separated from each other, when the mating connector 102 is pressed against the floating connector 101, the elastic portion 123 of the contact 105 receives all the force from the mating connector 102. There is a risk of damage such as plastic deformation.

  As described above, the tongue 117 extends to the same height as the lower end of the first fixing portion 113 in the height direction, so that when the mating connector 102 is pressed against the floating connector 101, the tongue 117 is It is possible to easily contact the object through the lower opening 112. Thereby, the force from the mating connector 102 can be received by the tongue 117 and the object, and the elastic portion 123 of the contact 105 can be prevented from being damaged.

  The embodiment of the present invention has been described above.

  In the present embodiment, the fixed insulator 103 has a protection portion 114 that protrudes from the inner wall 110 above the first fixing portion 113 and covers at least a part above the elastic portion 123. Such a protective portion 114 can prevent foreign matter from entering the fixed insulator 103 from the upper opening 111. Therefore, it is possible to reduce the occurrence of troubles such as the hindrance of the floating operation and the short circuit of the plurality of contacts 105 due to the foreign matter that has entered the fixed insulator 103.

  In the present embodiment, the protective portion 114 projects from the inner wall 110 between the first fixed portion 113 and the upper end portion 108 in the height direction, of the inner wall 110 of the fixed insulator 103. Thereby, even if the protection part 114 is flat form extended in front and rear, right and left, it can cover at least one part above the elastic part 123. FIG. Thus, since the protection part 114 may be flat, the protection part 114 can be provided more easily than the protection part 114 is curved.

  In the present embodiment, protection portion 114 projects from inner wall 110 below contact portion 125 in the height direction, of inner wall 110 of fixed insulator 103.

  If the protection part 114 is provided at the same height as the contact part 125 or above it, the contact 105 and the mating contact 126 can be brought into contact with each other by using a through hole through which the mating connector 102 can pass. It is necessary to provide in. Protruding such a protective part from the inner wall 110 of the fixed insulator 103 usually leads to an increase in the size of the fixed insulator 103 and consequently an increase in the size of the floating connector.

  On the other hand, when the protection part 114 is provided below the contact part 125 as in the present embodiment, the contact 105 and the counterpart contact 126 are brought into contact with each other without passing the protection part through the counterpart connector 102. be able to. Therefore, it is not necessary to provide the protective part 114 with a through-hole that is large enough to allow the mating connector 102 to pass through. As a result, by providing the protective portion 114 below the contact portion 125 in the height direction, the fixed insulator 103 can be made smaller than when the protective portion 114 is provided at the same height as the contact portion 125 or above it. It becomes possible to become.

  In the present embodiment, the protection part 114 has a plate shape. Therefore, the protection part 114 can be easily provided by injection molding or the like, compared to the case where the protection part has a comb shape. Therefore, the fixed insulator 103 can be easily manufactured.

  In the present embodiment, the movable insulator 104 has a tongue 117. Thereby, it is possible to prevent the contacts 105 facing forward and backward from coming into contact and short-circuiting. Further, it is possible to prevent the left and right column parts 119 from receiving a force from the right side or the left side and warping toward the center, thereby preventing the floating operation from being disturbed. Therefore, it is possible to reduce the occurrence of failures.

  In the present embodiment, the movable insulator 104 has a shoulder portion 118 that protrudes from the tongue portion 117 toward the inner wall 110 of the fixed insulator 103 and covers at least a portion above the elastic portion 123. Therefore, the protection part 114 and the shoulder part 118 can prevent foreign matter from entering the fixed insulator 103 from the upper opening 111. Accordingly, it is possible to further reduce the occurrence of troubles such as the hindrance of the floating operation and the short circuit of the plurality of contacts 105 due to the foreign matter that has entered the fixed insulator 103 as compared with the case where only the protection unit 114 is provided. .

  Further, as described in the embodiment, the protective portion 114 and the shoulder portion 118 always cover the elastic portion 123 when viewed from the upper opening 111, so that the occurrence of a failure can be reduced more reliably. .

  In the present embodiment, each of the protrusions 120 has an arc shape when the surface in contact with the recess 115 is viewed from the left and right axial directions.

  When the mating connector 102 is fitted to the floating connector 101, the movable insulator 104 may receive a galling load that rotates around the left and right axes in the above-described fitting step 2, for example. When the movable insulator 104 receives a galling load, the protrusion 120 may rotate around the left and right axes in the recess 115. At this time, if the projecting portion 120 has a corner, stress concentration occurs in one or both of the projecting portion 120 and the recessed portion 115, and one or both of the projecting portion 120 and the recessed portion 115 are damaged, and the floating operation is inhibited. Failures such as failure may occur.

  As described above, in the present embodiment, each of the protrusions 120 has an arcuate surface as viewed from the axial direction in contact with the recess. Therefore, stress concentration that may occur in one or both of the protrusion 120 and the recess 115 when the movable insulator 104 receives a galling load is reduced. Therefore, it is possible to reduce the occurrence of failures.

  In the present embodiment, the fixed insulator 103 has a height higher than that of the second fixing portion 116 and surrounds the sides of the plurality of contacts 105 fixed to the second fixing portion 116. Thereby, it can suppress that dirt, such as dust and a droplet which fly from the outside, adheres to a contact. Therefore, it is possible to reduce the occurrence of failures such as conduction failure due to contamination on the plurality of contacts 105, obstruction of floating operation due to foreign matter entering the fixed insulator 103, and short-circuiting of the plurality of contacts 105. Become.

  In the present embodiment, the mating connector 102 includes a protective wall 128. The protective wall 128 is provided to prevent the counterpart contact 126 from being soiled. Therefore, the protective wall 128 does not require the strength of the structure that supports the mating contact 126, and may be thin, for example. Therefore, a small mating connector 102 can be provided.

  Further, when the floating connector 101 and the mating connector 102 are fitted together, the mating connector 102 is inserted into the floating connector 101, so that the floating connector 101 needs to be large enough to allow the mating connector 102 to be inserted. Therefore, being able to reduce the size of the mating connector 102 also leads to a reduction in the size of the floating connector 101.

  Although the embodiments and modifications of the present invention have been described above, the present invention is not limited to these. For example, the present invention includes the embodiment described so far, a form in which some or all of the modifications described below are appropriately combined, and a form in which the form is appropriately changed.

  For example, in the present embodiment, an example in which a plurality of contacts 105 are provided symmetrically in the front-rear direction has been described. However, one or more contacts 105 may be provided. Further, for example, the contacts 105 do not have to be provided symmetrically. In this case, an insulating biasing member for movably supporting the movable insulator 104 is provided in a portion facing the contact 105 (for example, the first fixed portion 113 and the second fixed portion having a groove facing the contact 105). May be provided, or nothing may be provided. Further, one or more counterpart contacts 126 may be provided similarly to the contact 105.

(Modification 1)
In the embodiment, the example in which the plurality of contacts 105 are provided side by side in the left-right direction and the protection unit 114 protrudes toward all the contacts 105 has been described. However, it is sufficient that at least one contact 105 is provided. In this case, the protection portion may protrude toward the contact 105 only from a portion facing the contact 105 on the inner wall of the fixed insulator 103. .

  Thereby, the protective part can be made smaller than the protective part provided in the portion not facing the contact 105. Therefore, it is possible to save materials for manufacturing the floating connector and reduce the weight of the floating connector.

(Modification 2)
The protection part should just protrude from the inner wall 110 above the first fixing part 113 and cover at least a part of the upper part of the elastic part 123. Therefore, the protective part may protrude only from the inner wall 110 facing forward or rearward as in the embodiment, or may protrude only from the inner wall 110 facing leftward or rightward, and the inner wall 110 facing frontward or rearward. May connect a gap between the inner wall 110 facing left and the inner wall 110 facing right.

  Even with such a protective portion, it is possible to prevent foreign matter from entering the fixed insulator 103 from the upper opening 111 as in the embodiment. Accordingly, it is possible to reduce the occurrence of troubles such as the hindrance of the floating operation and the short circuit of the plurality of contacts 105 due to the foreign matter entering the fixed insulator 103.

(Modification 3)
In the embodiment, an example in which each upper surface of the projecting portion 120 has an arc shape when viewed from the left and right axial directions has been described. However, the shape of the upper surface of each protrusion is not limited to this. The upper surface of each protrusion may be a curve as viewed from the left and right axial directions. Desirably, the upper surface of each of the protrusions is a smooth curve that does not include a corner when viewed from the left and right axial directions, and more desirably, an upwardly convex curve. A typical example of the upwardly convex curve is the arc shape exemplified in the present embodiment.

  Also according to the present modification, stress concentration that may occur in one or both of the protrusion and the recess 115 when the movable insulator 104 receives a galling load is reduced, similarly to the protrusion 120 according to the embodiment. Therefore, it is possible to reduce the occurrence of failures.

(Modification 4)
As shown in FIG. 11, a shield plate 129 that surrounds the side of the floating connector 101 may be attached to the floating connector 101 in order to protect the floating connector 101. The outer shape of the floating connector 101 is formed by a fixed insulator 103, and has a substantially rectangular parallelepiped shape. As described above, since the outer wall 109 of the floating connector 101 has few irregularities, the shield plate 129 can be easily attached to the floating connector 101.

DESCRIPTION OF SYMBOLS 100 Electrical connector 101 Floating connector 102 Mating connector 103 Fixed insulator 104 Movable insulator 105 Contact 106 Fixing tool 107 Lower end part 108 Upper end part 109 Outer wall 110 Inner wall 111 Upper opening 112 Lower opening 113 First fixing part 114 Protection part 115 Recessed part 116 Second fixing Part 117 Tongue part 118 Shoulder part 119 Column part 120 Projection part 121 First fixed part 122 Second fixed part 123 Elastic part 124 Connection part 125 Contact part 126 Counterpart contact 127 Counterpart insulator 128 Protective wall 129 Shield plate

Claims (15)

A floating connector that mates with a mating connector,
A hollow insulator having an opening at one end passing through when the mating connector is fitted, and a fixed insulator fixed to the object,
A movable insulator disposed in the fixed insulator;
A contact that is a conductive member that connects the fixed insulator and the movable insulator so that the movable insulator moves relative to the fixed insulator;
The fixed insulator has a first fixing portion to which the contact is fixed,
The movable insulator has a second fixing portion to which the contact is fixed,
The contact is
A first fixed part fixed to the first fixing part;
A second fixed part fixed to the second fixing part;
An elastic portion connecting between the first fixed portion and the second fixed portion;
The fixed insulator further includes a protection portion that protrudes from an inner wall and covers at least a part of the elastic portion in a height direction from the other end portion toward the one end portion. 2. The floating connector according to claim 1, wherein the protection portion protrudes from an inner wall between the first fixed portion and the one end portion in the height direction among inner walls of the fixed insulator. The second fixed portion includes a contact portion for making contact with a mating contact provided in the mating connector;
The floating connector according to claim 2, wherein the protection portion protrudes from an inner wall below the contact portion in the height direction among the inner walls of the fixed insulator. The contact is plural,
The floating connector according to any one of claims 1 to 3, wherein the protection portion continuously protrudes toward all of the plurality of contacts. The floating connector according to any one of claims 1 to 3, wherein the protective portion protrudes toward the contact only from a portion of the inner wall of the fixed insulator that faces the contact. The said movable insulator further has a tongue part extended in the direction which goes to the other end part from the one end part of the said fixed insulator from the said 2nd fixing part. The Claim 1 characterized by the above-mentioned. Floating connector. The second fixing portion has a groove in which the contact is fixed,
The floating connector according to claim 6, wherein the tongue portion has a groove communicating with the groove of the second fixing portion. The first fixing part has a groove in which the contact is fixed;
The grooves of each of the first fixing portion, the second fixing portion, and the tongue portion all extend in a direction from the other end portion of the fixed insulator toward the one end portion. The floating connector according to 7. The floating connector according to any one of claims 6 to 8, wherein the tongue portion extends to a lower end portion of the first fixed portion in the height direction. The said movable insulator has a shoulder part which protrudes from the said tongue part toward the inner wall of the said fixed insulator, and covers at least one part above the said elastic part. The any one of Claim 6 to 9 characterized by the above-mentioned. Floating connector as described in The protection part and the shoulder part are provided so as to cover the elastic part when viewed from the opening, even when the movable insulator moves to any position inside the fixed insulator. The floating connector according to claim 10. The floating connector according to claim 10 or 11, wherein the limit of the moving range of the movable insulator is defined by the shoulder portion contacting an inner wall of the fixed insulator. The fixed insulator is provided at a portion facing the predetermined axial direction in the other end portion, and has a pair of recesses recessed toward the one end portion,
The movable insulator protrudes from the end face in the axial direction along the axial direction, and has a pair of protrusions respectively accommodated inside the pair of recesses,
The floating connector according to any one of claims 1 to 12, wherein each of the protrusions has a curved surface as viewed from the axial direction in contact with the recess. The floating connector according to any one of claims 1 to 13, wherein the fixed insulator is higher than the second fixed portion in the height direction. The floating connector according to any one of claims 1 to 14,
With the mating connector,
The mating connector is
A mating contact that contacts the contact of the floating connector;
An electrical connector comprising: a protective wall extending downward from the counterpart contact.

Images