JP5909410B2 - Flat circuit body connector connection structure - Google Patents

Description

  The present invention provides a flat circuit for connecting a flat circuit body such as an FPC (Flexible Printed Circuit) or FFC (Flexible Flat Cable) in which a plurality of conductors are arranged in a plane at a predetermined pitch to a connection terminal provided in the connector. The present invention relates to a body connector connection structure.

  In recent years, flat circuit bodies such as the above FPC and FFC are increasingly used as internal wiring materials for various electronic devices such as digital cameras, printers, mobile phones, and personal computers.

  19 to 21 show a conventional example of a connector connection structure of a flat circuit body for connecting a flat circuit body such as an FPC or FFC to a connector mounted on a printed circuit board. It is disclosed.

  The flat circuit body connector connection structure includes a flat circuit body 110 in which a plurality of conductors are arranged in a plane at a predetermined pitch, a slider 120 attached in the vicinity of the front end portion 111 of the flat circuit body 110, and a slider 120. The flat circuit body 110 is connected to the connector 130 by inserting the slider 120 into the connector 130 as shown by an arrow X1 in FIG.

  As shown in FIG. 21, the flat circuit body 110 has a plurality of connection terminal portions 112 exposed at a predetermined arrangement pitch on the lower surface 111 a of the tip end portion 111.

  As shown in FIGS. 20 and 21, the slider 120 includes a slider main body 121 attached to the upper surface of the front end portion 111 of the flat circuit body 110, a cover 122 attached to the slider main body 121 from the lower surface side of the flat circuit body 110, and It has. The slider 120 is attached to the flat circuit body 110 such that the front end 111 side of the flat circuit body 110 is sandwiched between the slider body 121 and the cover 122.

  As shown in FIGS. 20 and 21, the slider main body 121 includes a circuit body positioning protrusion 121 a, a cover locking portion 121 b, and a housing coupling portion 121 c.

  As shown in FIG. 21, the circuit body positioning protrusion 121 a is a protrusion provided on the inner surface of the slider main body 121 and fits into the positioning hole 113 formed in the distal end portion 111 of the flat circuit body 110.

  The circuit body positioning protrusion 121a is fitted in the positioning hole 113 to restrict movement of the flat circuit body 110 in the width direction (arrow Y2 direction in FIG. 21) and in the length direction (arrow X2 direction in FIG. 21). ) Is restricted.

  The cover locking portions 121b are protrusions provided at both ends of the slider body 121 in the width direction, and are engaged with engagement holes 122b on the engagement pieces 122a provided at both ends of the cover 122 in the width direction. The cover 122 is fixed. After positioning the tip 111 on the slider body 121, the cover 122 is fixed to the slider body 121, whereby the flat circuit body 110 is also restricted from moving in the thickness direction.

  As shown in FIG. 19, the housing coupling portion 121 c has a structure in which a locking projection 1212 protrudes from a locking arm 1211 extending on the outer surface of the slider body 121, and the locking projection 1212 is mounted on the connector 130. The slider 120 is fixed to the connector 130 by engaging with the slider locking hole 131.

  As shown in FIG. 19, the connector 130 is engaged with a slider accommodating portion 132 into which the slider 120 is inserted and a locking projection 1212 on the slider 120 inserted into the slider accommodating portion 132, thereby connecting the slider 120 to the connector 130. The above-mentioned slider locking hole 131 that is fixed to the terminal, and a terminal array portion 133 that is provided at a position facing the slider accommodating portion 132 are provided.

  In the terminal arrangement portion 133, a plurality of connection terminals 133a are arranged at a predetermined arrangement pitch. The plurality of connection terminals 133 a are terminals that are conductively connected to the connection terminal portions 112 on the flat circuit body 110 attached to the slider 120.

  The slider accommodating portion 132 performs positioning in the width direction of the slider 120 by regulating the positions of both side surfaces of the slider main body 121 by the inner side surfaces 134 opposed in the width direction.

  In the flat circuit body connector connection structure in Patent Document 1 described above, the slider 120 attached to the tip 111 of the flat circuit body 110 is inserted into the slider housing portion 132 and the slider 120 is connected to the connector 130. Thus, each conductor of the flat circuit body 110 is electrically connected to each connection terminal of the terminal arrangement portion 133 in the connector 130.

JP 2006-85889 A

  However, in the connector connection structure of the flat circuit body disclosed in Patent Document 1, the slider 120 has a two-part configuration of the slider main body 121 and the cover 122. Therefore, when the slider body 121 is fixed to the tip of the flat circuit body 110, the step of positioning the slider body 121 on the upper surface side of the flat circuit body 110, and the positioning of the cover 122 on the lower surface side of the flat circuit body 110 are performed. There are two steps, that is, the step of connecting the slider body 121 and the cover 122 to each other, which causes an increase in the number of components and an increase in the number of assembly steps, leading to an increase in manufacturing cost. It was.

  For example, if the thickness of the cover 122 of the slider 120 is reduced for the purpose of weight reduction or the like, the connection strength of the flat circuit body 110 in the slider 120 decreases, and the performance as a connector decreases due to deformation of the cover 122 or the like. There was a fear. Therefore, the slider 120 has a problem that it is difficult to reduce the weight by thinning.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above-described problems, and simplify the flat circuit body connection process, reduce the number of parts, and reduce the manufacturing cost. It is to provide a connection structure.

The above-described object of the present invention is achieved by the following configuration.
(1) a flat circuit body in which a plurality of conductors are arranged in a plane at a predetermined pitch;
A slider attached to the tip of the flat circuit body;
A slider accommodating portion to which the slider is connected, and a terminal arrangement portion in which a plurality of connection terminals are arranged that are provided at positions facing the slider accommodating portion and are connected to the conductors on the flat circuit body attached to the slider. And a board connector mounted on a printed circuit board,
With
A connector connection structure for a flat circuit body that connects each of the conductors of the flat circuit body to each connection terminal of the terminal array section by connecting the slider to the slider accommodating portion,
The slider is
A circuit body insertion hole through which the tip of the flat circuit body is inserted, and an elastic deformation portion that is disposed facing the circuit body insertion hole so as to be able to advance and retreat with respect to the flat circuit body inserted through the circuit body insertion hole. And a circuit body locking portion provided in the elastically deformable portion so as to be engageable with the flat circuit body inserted into the circuit body insertion hole is a single part provided by integral formation,
The front end portion of the flat circuit body is provided with a slider engaging portion that engages with the circuit body locking portion when inserted into the circuit body insertion hole,
In a state in which the flat circuit body is being inserted into the circuit body insertion hole, the elastic deformation portion receives a pressing force from the surface or end of the flat circuit body and elastically deforms in a direction away from the flat circuit body. Thus, movement of the flat circuit body in the insertion direction is allowed, and when the flat circuit body is completely inserted, the elastic deformation portion returns to the initial position by the elastic restoring force of the elastic deformation portion. The locking portion and the slider engaging portion are in an engaged state, and the flat circuit body is fixed to the slider ,
The slider constitutes a part of the circuit body insertion hole and is elastically displaced outward in the width direction of the flat circuit body by being pressed by the left and right ends of the flat circuit body in a state where the flat circuit body is being inserted. A pair of left and right movable parts as the elastically deforming parts, and a pair of left and right circuit body locking holes as the circuit body locking parts formed on the outer side in the width direction of the pair of movable parts,
The flat circuit body protrudes outward in the width direction on the left and right side surfaces thereof, and the slider engaging portion engages with the pair of circuit body locking holes when the insertion into the circuit body insertion holes is completed. A pair of left and right slider engaging projections as
The pair of movable portions are connected via a pair of left and right root portions narrowed from the left and right sides of the slider main body, and project outward in the width direction from the left and right sides of the slider main body. A connector connection structure for a flat circuit body, wherein the connector connection structure is disposed at a position where

(2) The engaging portion between the pair of left and right slider engaging protrusions and the circuit body locking hole is disposed at a different location in the insertion direction of the flat circuit body. Flat circuit body connector connection structure.

  According to the configuration of (1) above, since the slider attached to the tip of the flat circuit body is a single component, in the case of a conventional flat circuit connector connection structure using a slider composed of two components Compared with, the number of parts can be reduced.

  In addition, when the front end of the flat circuit body is inserted into the circuit body insertion hole of the slider which is a single component, the slider engaging portion provided at the front end portion of the flat circuit body is inserted into the circuit body insertion hole when the insertion operation is completed. The slider is fixed to the tip end portion by being locked by the circuit body locking portion provided in the elastic deformation portion arranged facing the inside. That is, the step of fixing the slider to the tip of the flat circuit body is only one step of inserting the tip of the flat circuit body into the circuit body insertion hole of the slider, and two steps are required to fix the slider to the flat circuit body. As compared with the conventional flat circuit connector connection structure, the assembly process can be reduced.

  Therefore, according to the configuration of the above (1), it is possible to simplify the connecting process of the flat circuit body and reduce the number of parts, thereby reducing the manufacturing cost.

In addition , according to the configuration of ( 1 ), when the flat circuit body is inserted into the circuit body insertion hole of the slider which is a single part, the flat circuit body has a slider engagement portion provided at the front end portion. Is engaged with a circuit body locking hole as a circuit body locking portion on the movable portion as an elastically deforming portion disposed facing the circuit body insertion hole, and is attached to the tip portion. The slider is fixed. That is, the step of fixing the slider to the tip of the flat circuit body is only one step of inserting the tip of the flat circuit body into the circuit body insertion hole of the slider, and two steps are required to fix the slider to the flat circuit body. As compared with the conventional flat circuit connector connection structure, the assembly process can be reduced.

According to the configuration of (2) above, by mounting the pair of left and right slider engaging protrusions while shifting the mounting position, it is possible to prevent erroneous assembly of the flat circuit body that is reversed left and right.

  According to the connector connection structure for a flat circuit body according to the present invention, since the slider attached to the tip of the flat circuit body is a single part, the conventional flat circuit body connector connection structure in which the slider is composed of two parts is provided. Compared to the case, the number of parts can be reduced. Further, the flat circuit body tip can be fixed to the slider in one step of inserting the tip of the flat circuit body through the circuit body insertion hole of the slider, and the conventional flat which required two steps for fixing the slider. As compared with the case of the connector connection structure of the circuit body, the assembly process can be reduced.

  Therefore, according to the flat circuit body connector connection structure of the present invention, the flat circuit body connection process can be simplified, the number of parts can be reduced, and the manufacturing cost can be reduced.

  The present invention has been briefly described above. Further, the details of the present invention will be further clarified by reading through a mode for carrying out the invention described below (hereinafter referred to as “embodiment”) with reference to the accompanying drawings. .

1 is a perspective view of a state in which a slider fixed to a front end portion of a flat circuit body according to a first embodiment of a connector connection structure of a flat circuit body according to the present invention is connected to a board connector on a printed circuit board. It is a disassembled perspective view of the slider and board connector shown in FIG. FIG. 3 is an exploded perspective view of the flat circuit body and the slider shown in FIG. 2. It is the partial cross section perspective view which made the cross section AA of FIG. It is the partial cross section perspective view which made BB of FIG. 1 a cross section. It is an enlarged view of the cross-sectional part shown in FIG. FIG. 5 is a partial cross-sectional perspective view showing a state in which the front end portion of the flat circuit body shown in FIG. 4 is being inserted into the circuit body insertion hole of the slider. FIG. 8 is a partial cross-sectional perspective view of the state in which the tip of the flat circuit body is further pushed into the circuit body insertion hole from the state of FIG. 7 and the tip of the flat circuit body is fixed to the slider. It is a perspective view which shows 2nd Embodiment of the flat circuit body used with the connector connection structure of the flat circuit body which concerns on this invention. It is a top view of the slider and flat circuit body of 3rd Embodiment of the connector connection structure of the flat circuit body which concerns on this invention. It is D arrow line view of FIG. It is the E section enlarged perspective view of FIG. It is FF sectional drawing of FIG. It is a G arrow line view of FIG. It is a top view of the state at the time of the insertion start of the flat circuit body to the slider shown in FIG. FIG. 16 is an enlarged perspective view around the elastic deformation portion of FIG. 15. (A) is a top view which shows the state before the slider engaging part of a flat circuit body engages with the circuit body latching | locking part of a slider, (b) is the circuit body engaging of a slider with the slider engaging part of a flat circuit body. It is a top view of the state engaged with the stop part. It is a top view which shows the engagement state of the slider engaging part of a flat circuit body, and the circuit body latching | locking part of a slider. It is a disassembled perspective view of the slider and connector which employ | adopted the connector connection structure of the conventional flat circuit body. FIG. 20 is an exploded perspective view of the slider of FIG. 19. It is the perspective view which looked at each component shown in FIG. 19 from the reverse side.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, a preferred embodiment of a connector connection structure for a flat circuit body according to the invention will be described in detail with reference to the drawings.

  1 to 8 show a first embodiment of a connector connection structure of a flat circuit body according to the present invention, and FIG. 1 shows a flat circuit according to the connector connection structure of a flat circuit body according to the first embodiment of the present invention. FIG. 2 is an exploded perspective view of the slider and board connector shown in FIG. 1, and FIG. 3 is a perspective view of the slider fixed to the tip of the body connected to the board connector on the printed circuit board. 4 is an exploded perspective view of the flat circuit body and the slider shown in FIG. 4, FIG. 4 is a partial cross-sectional perspective view in which AA in FIG. 3 is taken as a cross section, FIG. 5 is a partial cross-sectional perspective view in which BB in FIG. 6 is an enlarged view of the cross-sectional portion shown in FIG. 5, and FIG. 7 is a partial cross-sectional perspective view showing a state in which the tip portion of the flat circuit body shown in FIG. 4 is being inserted into the circuit body insertion hole of the slider. FIG. 8 shows that the tip of the flat circuit body is further from the state of FIG. Pressed into the entry apertures is a partially sectional perspective view of a state where the top portion of the flat circuit body is fixed to the slider.

  The flat circuit body connector connection structure of the first embodiment includes a flat circuit body 10 in which a plurality of conductors are arranged in a plane at a predetermined pitch, as shown in FIGS. The slider 20 attached to the front-end | tip part 11 and the board | substrate connector 40 with which the slider 20 is mounted in the printed circuit board 30 are provided.

  As shown in FIG. 2, the board connector 40 includes a slider accommodating portion 41 into which the slider 20 is fitted and connected, and a terminal arrangement portion 42. The terminal arrangement portion 42 is a portion where a plurality of connection terminals connected to each conductor on the flat circuit body 10 are arranged, and is provided at a position facing the slider accommodation portion 41 (inner bottom portion of the slider accommodation portion 41). The board connector 40 includes a lock protrusion 43 on the upper surface thereof. As shown in FIG. 1, the lock protrusion 43 engages with the lock arm 21 provided on the upper surface of the slider 20 to fix the slider 20 when the slider 20 is fitted and connected to the slider accommodating portion 41. To do.

  In the connector connection structure of the flat circuit body of the first embodiment, each conductor of the flat circuit body 10 is connected to the terminal array portion 42 by connecting the slider 20 fixed to the tip of the flat circuit body 10 to the slider accommodating portion 41. Make the electrical connection to each connection terminal.

  Next, the slider 20 and the flat circuit body 10 having a configuration that characterizes the present invention will be described in detail.

  Unlike the two-component structure of the slider main body 121 and the cover 122 described in the prior art column, the slider 20 in the present embodiment is integrally formed with the slider main body and the cover. The slider 20 is shown in FIGS. Thus, it is a single part provided with the bottom wall 22, the circuit body insertion hole 23, and the flexible locking piece 24.

  As shown in FIGS. 5 and 6, the bottom wall 22 is a flat outer wall portion that makes surface contact with the surface of the printed circuit board 30 when the slider 20 is connected to the board connector 40.

  As shown in FIGS. 4 and 5, the circuit body insertion hole 23 is a gap portion through which the distal end portion 11 of the flat circuit body 10 is inserted. The front end portion 11 of the flat circuit body 10 is inserted into the circuit body insertion hole 23 along the direction indicated by the arrow C in FIGS.

  In the circuit body insertion hole 23, the transverse dimension of the air gap is set to be substantially equal to the transverse area of the flat circuit body 10 in order to eliminate rattling in the inserted flat circuit body 10. Further, as shown in FIG. 4, the circuit body insertion hole 23 is formed so that the inner surface of the bottom wall 22 becomes the inner bottom surface of the circuit body insertion hole 23. Therefore, the inner surface of the bottom wall 22 is in surface contact with the lower surface of the flat circuit body 10 inserted into the circuit body insertion hole 23 to support the flat circuit body 10.

  As shown in FIG. 4, the flexible locking piece 24 includes an elastic piece 24a extending from the inner wall portion 25 facing the circuit body insertion hole 23 along the insertion direction of the flat circuit body 10, and a distal end of the elastic piece 24a. And a locking projection 24b protruding into the circuit body insertion hole 23 from the side. Further, the inner wall portion 25 provided with the flexible locking piece 24 is a wall portion facing the inner surface of the bottom wall 22.

  The elastic piece 24 a in the flexible locking piece 24 is an elastic deformation portion that is disposed so as to face the circuit body insertion hole 23 so as to be able to advance and retreat with respect to the flat circuit body 10 inserted through the circuit body insertion hole 23.

  The locking protrusion 24b of the flexible locking piece 24 is a circuit body locking portion provided on the elastic piece 24a that is an elastically deformable portion so as to be engageable with the flat circuit body 10 inserted into the circuit body insertion hole 23. is there.

  As shown in FIG. 3, the flat circuit body 10 includes a slider engagement hole 13 at the distal end portion 11. The slider engaging hole 13 is a rectangular hole formed through the insulator portion on both side edges of the flat circuit body 10, and the tip end portion 11 is inserted into the circuit body insertion hole 23 as shown in FIGS. 7 and 8. The slider engaging portion engages with the locking protrusion 24b which is the circuit body locking portion.

  In the connector connection structure of the flat circuit body in the present embodiment, when the flat circuit body 10 is being inserted into the circuit body insertion hole 23 as shown in FIG. The flat circuit body 10 is allowed to move in the insertion direction by receiving a pressing force from the surface or end of the plate 10 and elastically deforming in a direction away from the flat circuit body 10. Further, as shown in FIG. 8, in the state where the flat circuit body 10 is completely inserted, the elastic piece 24a returns to the initial position by the elastic restoring force of the elastic piece 24a that is the elastic deformation portion, and the engagement that is the circuit body locking portion. The stop projection 24 b and the slider engagement hole 13 that is a slider engagement portion are engaged, and the flat circuit body 10 is fixed to the slider 20.

  In the flat circuit body connector connection structure according to the first embodiment described above, the slider 20 attached to the distal end portion 11 of the flat circuit body 10 is a single part formed by integral molding, and thus is composed of two parts. The number of parts can be reduced as compared with the connector connection structure of the conventional flat circuit body that uses the manufactured slider.

  Further, when the front end portion 11 of the flat circuit body 10 is inserted into the circuit body insertion hole 23 of the slider 20 which is a single component, the slider engaging portion provided in the front end portion 11 when the insertion operation is completed. The slider engaging hole 13 is locked to a locking protrusion 24b which is a circuit body locking portion provided in an elastic deformation portion (elastic piece 24a) disposed facing the circuit body insertion hole 23, and The slider 20 is fixed to the portion 11.

  That is, the step of fixing the slider 20 to the front end portion 11 of the flat circuit body 10 is only one step of inserting the front end portion 11 of the flat circuit body 10 into the circuit body insertion hole 23 of the slider. The assembly process can be reduced as compared with the case of the conventional connector connection structure of the flat circuit body that required two processes for fixing the connector.

  Therefore, according to the flat circuit body connector connection structure of the first embodiment described above, the connection process of the flat circuit body 10 can be simplified, the number of parts can be reduced, and the manufacturing cost can be reduced. it can.

  Furthermore, according to the flat circuit body connector connection structure of the first embodiment described above, the slider 20 fixed to the front end portion 11 of the flat circuit body 10 is connected to the board connector 40 in FIG. 2, the bottom wall 22 that provides an inner bottom surface that holds the lower surface of the flat circuit body 10 comes into surface contact with the printed circuit board 30 on which the board connector 40 is mounted. In other words, the bottom wall 22 of the slider 20 functions as a reinforcing member that suppresses deformation or the like of the bottom wall 22 when the printed circuit board 30 comes into surface contact with the flat circuit body 10 even if the bottom wall 22 is thinned. Does not cause a drop in connection strength.

  Therefore, the weight of the slider 20 can be reduced without reducing the connection strength of the flat circuit body 10.

  FIG. 9 shows a second embodiment of the flat circuit body used in the connector connection structure of the flat circuit body according to the present invention.

  In the flat circuit body 10A shown in FIG. 9, the slider engagement holes 13 formed at both side edges of the tip portion 11 are not through holes, but are cut out to the outside.

  That is, in the present invention, the slider engagement hole formed at the tip of the flat circuit body for coupling with the slider may be either a hole whose outer periphery is closed or a notch whose one side is open.

  10 to 14 show a third embodiment of the connector connection structure for a flat circuit body according to the present invention. FIG. 10 is a plan view of the slider and the flat circuit body according to the third embodiment of the present invention. FIG. 12 is an enlarged perspective view of a portion E in FIG. 11, FIG. 13 is a sectional view taken along line FF in FIG. 11, and FIG. 14 is a view in arrow G of FIG.

  The flat circuit body connector connection structure of the third embodiment is as shown in FIG. A flat circuit body 10B in which a plurality of conductors are arranged in a plane at a predetermined pitch, and a slider 20B attached to the distal end portion 11 of the flat circuit body 10B are provided. Also in the case of the flat circuit connector connection structure of the third embodiment, the slider housing of the board connector 40 (see FIGS. 1 and 2) mounted on the printed circuit board 30 is the same as in the case of the first embodiment. By connecting the slider 20B to the part 41, each conductor of the flat circuit body 10B is electrically connected to each connection terminal of the terminal array part 42.

  As shown in FIGS. 11 to 14, the slider 20 </ b> B according to the third embodiment is arranged so as to face the circuit body insertion hole 23 </ b> B through which the distal end portion 11 of the flat circuit body 10 </ b> B is inserted and the circuit body insertion hole 23 </ b> B. A pair of left and right movable parts 26a, 26b and circuit body locking holes 27a, 27b formed in the pair of movable parts 26a, 26b are a single component provided integrally.

  The circuit body insertion hole 23B of the present embodiment has a pair of grooves 231 (see FIGS. 11 and 12) through which both side edges of the distal end portion 11 of the flat circuit body 10B are inserted. As shown in FIG. 12, the pair of groove portions 231 are grooves provided in the pair of movable portions 26a and 26b, respectively. The pair of groove portions 231 accommodates both side edges of the distal end portion 11 of the flat circuit body 10B.

  The pair of movable parts 26a and 26b face the circuit body insertion hole 23B and are arranged on both sides of the circuit body insertion hole 23B to constitute a part of the circuit body insertion hole 23B. In addition, the pair of movable portions 26a and 26b in the present embodiment is located at the end of the flat circuit body 10B when the flat circuit body 10B is being inserted with respect to the flat circuit body 10B inserted through the circuit body insertion hole 23B. As shown by arrows R1 and R2 in FIG. 10, it is an elastically deforming portion that is elastically displaced outward in the width direction of the flat circuit body 10B when pressed. When the insertion of the flat circuit body 10B is completed, the pair of movable parts 26a and 26b return to their original positions by elastic restoring force. Accordingly, the pair of movable portions 26a and 26b are equipped so as to be movable back and forth in the width direction of the flat circuit body 10B by elasticity.

  As shown in FIG. 10, the pair of movable portions 26 a and 26 b in the present embodiment is narrowed so that the root portion 261 of the slider 20 </ b> B to the main body portion 201 is easily elastically deformed, and the root portion 261. By this elastic bending deformation, the forward and backward movement in the directions of arrows R1 and R2 in FIG. 10 is possible.

  The circuit body locking holes 27a and 27b are circuit body locking portions provided in the movable portions 26a and 26b, which are elastically deformable portions, so as to be engageable with the flat circuit body 10B inserted into the circuit body insertion hole 23B. .

  As shown in FIG. 10, the flat circuit body 10 </ b> B includes slider engagement protrusions 15 a and 15 b at the distal end portion 11. The slider engaging protrusions 15 a and 15 b are protrusions provided on both left and right edges of the tip end portion 11. These slider engagement protrusions 15a and 15b engage with circuit body locking holes 27a and 27b, which are circuit body locking portions of the slider 20B, when insertion into the circuit body insertion hole 23B is completed. Part.

  In the case of this embodiment, as shown in FIG. 10, the position L1 from the tip of the slider engagement protrusion 15a on the right edge and the position L2 from the tip of the slider engagement protrusion 15b on the left edge are set to different values. Has been. That is, the left and right slider engaging protrusions 15a and 15b are shifted in the equipment position. Thus, by mounting the left and right slider engaging protrusions 15a and 15b while shifting the mounting position, it is possible to prevent the wrong assembly of the flat circuit body 10B from being reversed left and right.

  In the flat circuit body connector connection structure of the third embodiment described above, as shown by the arrow H in FIGS. 15 and 16, the front end portion is used to fix the slider 20B to the front end portion 11 of the flat circuit body 10B. 11 is inserted through the circuit body insertion hole 23B of the slider 20B.

  In the state in which the flat circuit body 10B is being inserted into the circuit body insertion hole 23B, the pair of movable portions 26a and 26b, which are elastically deforming portions, receive a pressing force from the surface or end of the flat circuit body 10B, and FIG. As indicated by arrows G1 and G2 in (a), the flat circuit body 10B is allowed to move in the insertion direction by elastically deforming in a direction away from the flat circuit body 10B (outside in the width direction of the flat circuit body 10B). The

  When the flat circuit body 10B is completely inserted, as shown in FIG. 17B, the pair of movable parts 26a and 26b, which are elastically deforming parts, return to the initial position by the elastic restoring force. As shown, the circuit body locking holes 27a and 27b as the circuit body locking portions and the pair of slider engaging protrusions 15a and 15b as the slider engaging portions are engaged, and the flat circuit body 10B is It is fixed to the slider 20B.

  Also in the case of the flat circuit body connector connection structure in the third embodiment described above, the slider 20B attached to the distal end portion 11 of the flat circuit body 10B is a single part, and therefore a slider constituted by two parts is used. Compared with the connector connection structure of the conventional flat circuit body to be used, the number of parts can be reduced.

  Further, when the front end portion 11 of the flat circuit body 10B is inserted into the circuit body insertion hole 23B of the slider 20B, which is a single component, the slider engaging portion provided in the front end portion 11 when the insertion operation is completed. The slider engagement protrusions 15a and 15b are connected to the circuit body locking holes 27a and 27b as the circuit body locking portions on the movable portion 26 as the elastically deforming portion disposed facing the circuit body insertion hole 23B. The slider 20B is fixed to the distal end portion 11 by being locked. That is, the step of fixing the slider 20B to the tip portion 11 of the flat circuit body 10B is only one step of inserting the tip portion 11 of the flat circuit body 10B into the circuit body insertion hole 23B of the slider 20B. Compared to the conventional connector connection structure of the flat circuit body 10B, which requires two steps for fixing the slider 20B, the assembly process can be reduced.

  Furthermore, in the case of the flat circuit body connector connection structure of the third embodiment, the left and right slider engaging protrusions 15a and 15b are mounted with the mounting positions shifted, so that the error of the flat circuit body 10B being reversed left and right is reversed. Assembly can also be prevented.

  In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably. In addition, the material, shape, dimensions, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

  Here, the features of the embodiment of the flat circuit body connector connecting structure according to the present invention described above are briefly summarized and listed in the following [1] to [4], respectively.

[1] A flat circuit body (10B) in which a plurality of conductors are arranged in a plane at a predetermined pitch;
A slider (20B) attached to the tip of the flat circuit body (10B);
A slider accommodating portion (41) to which the slider (20B) is connected, and each of the flat circuit bodies (10B) on the flat circuit body (10B) mounted on the slider (20B) and provided at a position facing the slider accommodating portion (41). A board connector (40) that is mounted on a printed circuit board (30) and includes a terminal arrangement portion (42) in which a plurality of connection terminals to be connected to the conductor are arranged;
With
By connecting the slider (20B) to the slider accommodating portion (41), each conductor of the flat circuit body (10B) is electrically connected to each connection terminal of the terminal array portion (42). A flat circuit connector connection structure,
The slider (20B)
The circuit body insertion hole (23B) through which the tip of the flat circuit body (10B) is inserted, and the circuit body capable of moving forward and backward with respect to the flat circuit body (10B) inserted through the circuit body insertion hole (23B). The elastic deformation portion (24a) disposed facing the insertion hole (23B) and the flat circuit body (10B) inserted in the circuit body insertion hole (23B) can be engaged with the elastic deformation portion. The circuit body locking portion is a single part provided by integral formation,
At the tip of the flat circuit body (10B), there is provided a slider engaging portion that engages with the circuit body locking portion when inserted into the circuit body insertion hole (23B),
In a state where the flat circuit body (10B) is being inserted into the circuit body insertion hole (23B), the elastic deformation portion receives a pressing force from the surface or end portion of the flat circuit body (10B) and the flat circuit body (10B) is inserted. Movement in the insertion direction of the flat circuit body (10B) is allowed by elastic deformation in a direction away from the circuit body (10B), and in the state where the insertion of the flat circuit body (10B) is completed, the elastic deformation portion When the elastic deformation portion returns to the initial position by the elastic restoring force, the circuit body locking portions (27a, 27b) and the slider engaging portion (13) are engaged, and the flat circuit body (10B) ) Is fixed to the slider (20B). A connector connection structure for a flat circuit body.

[2] The slider (20) constitutes a part of the circuit body insertion hole (23B) and is pressed against the end of the flat circuit body (10B) while the flat circuit body (10B) is being inserted. The movable portion (26a, 26b) as the elastically deformable portion that is elastically displaced outward in the width direction of the flat circuit body (10B), and the circuit body engagement as the circuit body locking portion formed in the movable portion Stop holes (27a, 27b),
The flat circuit body (10B) engages with the circuit body locking holes (27a, 27b) when the insertion into the circuit body insertion hole (23B) is completed. The flat circuit body connector connection structure according to [1] above, further comprising protrusions (15a, 15b).

[3] A flexible locking piece (24) is integrally formed on the slider (20), and the flexible locking piece (24) is an inner wall facing the circuit body insertion hole (23). The elastic piece (24a) as the elastic deformation portion extending along the insertion direction of the flat circuit body (10B) from the distal end side of the elastic piece (24a) into the circuit body insertion hole (23) A locking projection (24b) as the protruding circuit body locking portion; and the flat circuit body (10B) as a slider engaging portion, a slider engaging hole in which the locking projection (24b) engages (13)
The flat circuit body (10) is fixed to the slider (20) by the engagement between the slider engagement hole (13) and the locking protrusion (24b). Flat circuit body connector connection structure.

  [4] When the slider (20) is connected to the board connector (40) mounted on the printed circuit board (30), the bottom wall (22) comes into surface contact with the surface of the printed circuit board (30). ) And the circuit body insertion hole (23) is formed so that the inner surface of the bottom wall (22) becomes the inner bottom surface of the circuit body insertion hole (23), and the flexible locking piece (24) Is mounted on the inner wall facing the inner surface of the bottom wall (22), the connector connection structure for a flat circuit body according to the above [3].

10, 10B Flat circuit body 11 Tip portion 13 Slider engagement hole (slider engagement portion)
20, 20B Slider 22 Bottom wall 23, 23B Circuit body insertion hole 24 Flexible locking piece 24a Elastic piece (elastic deformation part)
24b Locking protrusion (circuit body locking part)
25 Inner walls 26a, 26b Movable parts (elastic deformation parts)
27a, 27b Circuit body locking hole (circuit body locking portion)
30 Printed Circuit Board 40 Board Connector 41 Slider Housing 42 Terminal Arrangement

Claims (2)

A flat circuit body in which a plurality of conductors are arranged in a plane at a predetermined pitch;
A slider attached to the tip of the flat circuit body;
A slider accommodating portion to which the slider is connected, and a terminal arrangement portion in which a plurality of connection terminals are arranged that are provided at positions facing the slider accommodating portion and are connected to the conductors on the flat circuit body attached to the slider. And a board connector mounted on a printed circuit board,
With
A connector connection structure for a flat circuit body that connects each of the conductors of the flat circuit body to each connection terminal of the terminal array section by connecting the slider to the slider accommodating portion,
The slider is
A circuit body insertion hole through which the tip of the flat circuit body is inserted, and an elastic deformation portion that is disposed facing the circuit body insertion hole so as to be able to advance and retreat with respect to the flat circuit body inserted through the circuit body insertion hole. And a circuit body locking portion provided in the elastically deformable portion so as to be engageable with the flat circuit body inserted into the circuit body insertion hole is a single part provided by integral formation,
The front end portion of the flat circuit body is provided with a slider engaging portion that engages with the circuit body locking portion when inserted into the circuit body insertion hole,
In a state in which the flat circuit body is being inserted into the circuit body insertion hole, the elastic deformation portion receives a pressing force from the surface or end of the flat circuit body and elastically deforms in a direction away from the flat circuit body. Thus, movement of the flat circuit body in the insertion direction is allowed, and when the flat circuit body is completely inserted, the elastic deformation portion returns to the initial position by the elastic restoring force of the elastic deformation portion. The locking portion and the slider engaging portion are in an engaged state, and the flat circuit body is fixed to the slider ,
The slider constitutes a part of the circuit body insertion hole and is elastically displaced outward in the width direction of the flat circuit body by being pressed by the left and right ends of the flat circuit body in a state where the flat circuit body is being inserted. A pair of left and right movable parts as the elastically deforming parts, and a pair of left and right circuit body locking holes as the circuit body locking parts formed on the outer side in the width direction of the pair of movable parts,
The flat circuit body protrudes outward in the width direction on the left and right side surfaces thereof, and the slider engaging portion engages with the pair of circuit body locking holes when the insertion into the circuit body insertion holes is completed. A pair of left and right slider engaging projections as
The pair of movable portions are connected via a pair of left and right root portions narrowed from the left and right sides of the slider main body, and project outward in the width direction from the left and right sides of the slider main body. A connector connection structure for a flat circuit body, wherein the connector connection structure is disposed at a position where 2. The flat circuit body according to claim 1, wherein engaging portions between the pair of left and right slider engaging protrusions and the circuit body locking hole are arranged at different positions in the insertion direction of the flat circuit body. Connector connection structure.

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