JP4573512B2 - Cable terminal structure and connection method - Google Patents

Description

  The present invention provides a cable terminal structure used on the terminal side of a flexible cable formed by collectively covering a plurality of conductors arranged in parallel with an insulating material, and electrically connecting the cable terminal and the connector of the flexible cable. It relates to the connection method.

  As a conventional cable terminal structure, there is one shown in Patent Document 1. This prior art will be described as follows.

  That is, the cable terminal structure is a flexible cable in which a plurality of conductors arranged in parallel (conductor (11) in Patent Document 1) are collectively covered with an insulating material (insulating material (12) in Patent Document 1). This is a structure used on the terminal side of the flat cable (10) in Patent Document 1. The cable terminal structure includes a cable terminal that is a part of the flexible cable and has a plurality of conductors exposed from the front side, and a reinforcing plate that is attached to the back surface of the cable terminal and integrated with the cable terminal (patent The reinforcing material (14) in Document 1 and a connector (connector (20) in Patent Document 1) that can be electrically connected to the cable terminal are provided.

  Further, the connector includes a connector housing (insulating housing (24) in Patent Document 1). The connector housing has a fitting hole (cable plug in Patent Document 1) into which the cable terminal can be fitted. Groove (26)). In addition, the connector housing is provided with a plurality of connector terminals (terminal (22) in Patent Document 1) that can respectively conduct to the corresponding conductors.

  The connection operation of the cable terminal structure will be described as follows.

That is, the reinforcing plate is attached to the back surface of the cable terminal and integrated with the cable terminal to reinforce the cable terminal. Then, by fitting the cable terminal into the fitting hole, the plurality of conductors in the cable terminal are respectively conducted to the corresponding connector terminals. Thereby, the cable terminal of the flexible cable and the connector can be electrically connected.
Japanese Patent Laid-Open No. 2003-187646 (FIGS. 5 and 6)

  By the way, since the cable terminal is fitted in the fitting hole, the width of the connector housing, in other words, the width of the connector needs to be equal to or larger than the width of the flexible cable. Therefore, when the width of the flexible cable is increased with the increase in the number of the conductors and the conductor width of the conductors, the connector is expanded in the width direction, and the installation space in the width direction of the connector is increased. There is.

  On the other hand, a measure to divide the connector and the cable terminal into a plurality of parts (see FIG. 7B of Patent Document 1) is also conceivable, but the connection work between the connector and the mating connector increases, and the work efficiency decreases. There is a problem.

In the invention according to claim 1, in the cable terminal structure used on the terminal side of the flexible cable formed by collectively covering a plurality of conductors arranged in parallel with an insulating material,
A cable terminal that is a part of the flexible cable and from which a plurality of the conductors are exposed from the front side;
By bending the cable terminal with respect to the center of the width of the flexible cable, sandwiched between the back surface of the cable terminal, and a reinforcing plate integrated with the cable terminal;
A connector housing having a fitting hole into which the cable terminal in a bent state can be fitted, and a plurality of connector terminals provided in the connector housing and respectively conductive to the corresponding conductor; A connector electrically connectable to the cable end;
Comprising
A first engagement concave portion or a first engagement convex portion is formed in the insulating material in the first terminal portion on one side of the cable terminal with respect to the center of the width, and the reference with respect to the center of the width. A second engagement concave portion or a second engagement convex portion is formed on the insulating material in the second terminal portion on the other side of the cable terminal,
A first engaged convex portion or a first engaged concave portion that can be engaged with the first engaging concave portion or the first engaging convex portion is formed on one side surface of the reinforcing plate. A second engaged convex portion or a second engaged concave portion that can be engaged with the second engaging concave portion or the second engaging convex portion is formed on a side surface.

  Here, the flexible cable includes a cable portion in a flexible printed circuit board in addition to the flexible flat cable.

  According to the invention specific matter of claim 1, by bending the cable terminal with respect to the center of the width, the reinforcing plate is integrated with the back surface of the cable terminal to be integrated with the cable terminal, Reinforce the cable end. Then, by fitting the cable terminal in a bent state into the fitting hole in the connector, the plurality of conductors in the cable terminal are respectively conducted to the corresponding connector terminals in the connector. Thereby, the cable terminal of the flexible cable and the connector can be electrically connected (connecting action of the cable terminal structure).

  Further, in addition to the connecting action of the cable terminal structure, the cable terminal of the flexible cable is fitted into the fitting hole in the connector by fitting the cable terminal in a bent state with respect to the center of the width. In order to electrically connect the connector and the connector, it is sufficient that the width of the connector housing, in other words, the width of the connector is slightly wider than half the width of the flexible cable.

When the cable terminal is bent with the center of the width as a reference, the first engagement concave portion or the first engagement convex portion is engaged with the first engaged convex portion or the first engagement concave portion. And the first terminal portion and the second terminal portion by engaging the second engaging concave portion or the second engaging convex portion with the second engaged convex portion or the second engaging concave portion. Can be positioned with respect to the reinforcing plate. Accordingly, the first terminal portion and the second terminal portion can be relatively positioned, and positional deviation between the first terminal portion and the second terminal portion after the cable terminal is bent can be eliminated. .

In the invention according to claim 2 , in the connection method for electrically connecting the cable end of the flexible cable and the connector,
Bending to reinforce the cable end by using a reinforcing plate and bending the cable end with respect to the center of the width so that the reinforcing plate is sandwiched by the back surface of the cable end and integrated with the cable end. Process,
After the bending step is completed, the plurality of conductors in the cable terminal are electrically connected to the corresponding connector terminals in the connector by fitting the bent cable terminal in the fitting hole in the connector, respectively. A mating process to
Comprising
During the bending step, the reinforcing plate includes a first engagement recess or a first engagement protrusion formed in the insulating material in the first terminal portion on one side of the cable terminal with respect to the center of the width. Engaging the first engaged convex portion or the first engaged concave portion formed on one side surface of the second end portion of the cable terminal with the center of the width as a reference. The formed second engaging concave portion or second engaging convex portion is engaged with a second engaged convex portion or second engaged concave portion formed on the other side surface of the reinforcing plate .

  Here, the flexible cable includes a cable portion in a flexible printed circuit board in addition to the flexible flat cable.

According to the invention specific matter of claim 2 , the cable terminal of the flexible cable and the cable terminal in a state where the cable terminal is bent with respect to the center of the width is fitted into the fitting hole in the connector. In order to electrically connect the connector, the width of the connector housing, in other words, the width of the connector may be slightly wider than half the width of the flexible cable.

During the bending step, the first engagement recess or the first engaging portion is engaged with the first engaged projected portion or the first engagement recess, the second engagement recess or By engaging the second engaging convex portion with the second engaged convex portion or the second engaging concave portion, the first terminal portion and the second terminal portion are respectively positioned with respect to the reinforcing plate. it can. Accordingly, the first terminal portion and the second terminal portion can be relatively positioned, and positional deviation between the first terminal portion and the second terminal portion after the cable terminal is bent can be eliminated. .

According to the first or second aspect of the invention, since the width of the connector needs to be slightly wider than half of the width of the flexible cable, the connector can be used even if the width of the flexible cable is increased. And it can suppress that the said connector spreads in the width direction, without dividing | segmenting the said cable terminal into plurality, and can attain space saving of the installation space of the width direction of the said connector.

In addition, since the displacement between the first terminal portion and the second terminal portion after the cable terminal is bent can be eliminated, the bent cable terminal is inserted into the fitting hole in the connector. In addition to being able to be easily fitted, the electrical connection state between the cable terminal and the connector is stabilized, and the quality of the cable terminal structure is improved.

  The best mode of the present invention will be described with reference to FIGS.

  FIG. 1 is a longitudinal sectional view of a cable terminal structure according to the best mode of the present invention, FIG. 2 is a perspective view of the cable terminal structure according to the best mode of the present invention, and FIG. FIG. 4A is a perspective view showing the cable terminal in a bent state, and FIG. 4A is a view showing the arrow I in FIG. 4B, and FIG. It is a top view of a cable terminal, Comprising: Fig.5 (a) is a figure which shows the arrow II part in Fig.4 (a), FIG.5 (b) is the III-III line in Fig.4 (a). 6 (a) is a plan view of the cable terminal, and FIG. 6 (b) is a diagram showing the arrow IV in FIG. 6 (a).

  As shown in FIGS. 1 to 3, the cable terminal structure 1 according to the best mode of the present invention includes a plurality of conductors 3 (eight in the best mode of the present invention) arranged in parallel. This is a structure used on the terminal side of a flexible flat cable (one flat cable) 9 that is collectively covered with insulating tapes (one insulating material) 5, 7. The cable terminal structure 1 is a part of the flexible flat cable 9, the cable terminal 11 with the plurality of conductors 3 exposed from the front side, the reinforcing plate 13 integrated with the cable terminal 11, and the cable terminal 11 electrically A connectable connector 15 is provided. Hereinafter, specific configurations of the cable terminal 11, the reinforcing plate 13, and the connector 15 will be described.

  As shown in FIG. 6, the insulating tape 7 in the first terminal portion 11 a on one side of the cable terminal 11 with respect to the center C of the width has a rectangular first engagement notch (the first engagement recess portion). One) 17a is formed, and the rectangular tape-like second engagement notch (second engagement portion) is formed on the insulating tape 7 in the second terminal portion 11b on the other side of the cable terminal 11 with respect to the center C of the width. One of the concave portions) 17b is formed. In addition, you may make it form a 1st engagement convex part and a 1st engagement convex part instead of the 1st engagement notch part 17a and the 2nd engagement notch part 17b.

  As shown in FIGS. 3 and 4, the reinforcing plate 13 is an insulating sheet having a heat dissipation property, and the cable terminal 11 is connected to the center C (see FIG. 6A) of the width of the flexible flat cable 9. By bending, it is sandwiched between the back surfaces of the cable terminal 11 and integrated with the cable terminal 11. In addition, a rectangular first engaged convex portion 19a that can be engaged with the first engagement notch portion 17a is formed on one side surface of the reinforcing plate 13, and on the other side surface of the reinforcing plate 13, A quadrangular second engaged convex portion 19b that can be engaged with the first engaging cutout portion 17b is formed. When the first engaging convex portion and the first engaging convex portion are formed, the first engaging convex portion 19a and the second engaged convex portion 19b are used instead of the first engaging convex portion 19a. A first engaged recess that can be engaged with the mating projection and a second engaged recess that can be engaged with the second engagement projection are formed.

  As shown in FIGS. 1 and 2, the connector 15 includes a connector housing 21 made of an insulating resin. The connector housing 21 can be fitted with a cable terminal 11 that extends in the width direction and is bent. A fitting hole 23 is provided. A plurality of (four in the best mode of the present invention) first vertical grooves 25 a are formed at equal intervals above the fitting hole 23 in the connector housing 21. Below the fitting hole 23, a plurality of (four in the best mode of the present invention) second vertical grooves 25b are formed at equal intervals. Here, when the bent cable end 11 is fitted into the fitting hole 23, the plurality of conductors 3 in the first end portion 11a are respectively aligned with the corresponding first longitudinal grooves 25a, and the second end portion. The plurality of conductors 3 in 11b are configured to be aligned with the corresponding second vertical grooves 25b.

  Furthermore, a plurality of first connector terminals 27a (four in the best mode of the present invention) that can respectively conduct to the corresponding conductors 3 in the first terminal portion 11a are provided on the upper end surface of the connector housing 21. The first connector terminals 27a are provided at equal intervals, and each of the first connector terminals 27a has a pressing portion 29a that is positioned in the corresponding first vertical groove 25a and presses the corresponding conductor 3 in the first terminal portion 11a. Similarly, a plurality of (four in the best mode of the present invention) second connector terminals 27b that can respectively conduct to the corresponding conductors 3 in the second terminal portion 11b are provided below the end face of the connector housing 21. Are provided at equal intervals, and each second connector terminal 27b has a holding portion 27b that is located in the corresponding second vertical groove 25b and holds down the corresponding conductor 3 in the second terminal portion 11b. .

  Next, a connection method for electrically connecting the cable terminal 11 of the flexible flat cable 9 and the connector 15 will be described.

  By bending the cable terminal 11 with respect to the center C of the width (see FIGS. 4 and 6), the reinforcing plate 13 is sandwiched by the back surface of the cable terminal 11 and the reinforcing plate 13 is integrated with the cable terminal 11, The cable terminal 11 is reinforced (bending process). Here, when the cable terminal 11 is bent with reference to the center C of the width, the first engagement notch 17a is engaged with the first engaged protrusion 19a, and the second engagement notch 17b is 2 The first terminal portion 11a and the second terminal portion 11b can be positioned with respect to the reinforcing plate 13 by engaging with the engaged convex portion 19b.

  After the bending process is completed, the cable terminal 11 in a bent state is fitted into the fitting hole 23 in the connector 15 (see FIG. 2), so that the plurality of conductors 3 in the first terminal portion 11a can be handled. While being pressed by the pressing portion 29a of the first connector terminal 27a, the corresponding first connector terminal 27a is electrically connected to each other, and the plurality of conductors 3 in the second terminal portion 11b are connected to the corresponding pressing portion of the second connector terminal 27b. While being pressed by 29b, each corresponding second connector terminal 27b is made conductive (fitting process). Thereby, the cable terminal 11 of the flexible flat cable 9 and the connector 15 can be electrically connected.

  Next, the operation of the best mode of the present invention will be described.

  In order to electrically connect the cable terminal 11 of the flexible flat cable 9 and the connector 15 by fitting the cable terminal 11 bent with respect to the center C of the width into the fitting hole 23 in the connector 15, the connector The width of the housing 21, in other words, the width of the connector 15 suffices to be slightly wider than half of the width of the flexible flat cable 9.

  Moreover, since the 1st terminal part 11a and the 2nd terminal part 11b can each be positioned with respect to the reinforcement board 13 when bending the cable terminal 11 on the basis of the center C of the width, the 1st terminal part 11a and the 2nd terminal The portion 11b can be relatively positioned, and the positional deviation between the first terminal portion 11a and the second terminal portion 11b after the cable terminal 11 is bent can be eliminated.

  Furthermore, since the reinforcing plate 13 has a heat dissipation property, heat generated between the conductors 3 can be reduced when the flexible flat cable 9 is energized.

  As described above, according to the best mode of the present invention, the width of the connector 15 needs to be slightly wider than half of the width of the flexible flat cable 9, so that even if the width of the flexible flat cable 9 is increased, the connector 15 The connector 15 can be prevented from expanding in the width direction without dividing the cable 15 and the cable terminal 11 into a plurality of parts, and the installation space in the width direction of the connector 15 can be saved.

  Further, since it is possible to eliminate the positional deviation between the first terminal portion 11a and the second terminal portion 11b after the cable terminal 11 is bent, the bent cable terminal 11 is inserted into the fitting hole 23 in the connector 15. In addition to being able to be easily fitted, the electrical connection state between the cable terminal 11 and the connector 15 is stabilized, and the quality of the cable terminal structure 1 is improved.

  Furthermore, since heat generated between the conductors 3 can be reduced when the flexible flat cable 9 is energized, a large current can be passed through the flexible flat cable 9 without increasing the pitch between the conductors 3.

  The present invention is not limited to the best mode of the invention described above, and can be implemented in various other modes by making appropriate modifications.

It is a longitudinal cross-sectional view of the cable terminal structure concerning the best form of this invention. It is a perspective view of the cable terminal structure concerning the best form of this invention. It is a perspective view which shows the cable terminal of the bent state. Fig.4 (a) is a figure which shows the arrow I part in FIG.4 (b), FIG.4 (b) is a top view of the cable terminal of the bent state. Fig.5 (a) is a figure which shows the arrow II part in Fig.4 (a), FIG.5 (b) is sectional drawing along the III-III line in Fig.4 (a). Fig.6 (a) is a top view of a cable terminal, Comprising: FIG.6 (b) is a figure which shows the arrow IV part in Fig.6 (a).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Cable terminal structure 3 ... Conductor 5, 7 ... Insulating tape 9 ... Flexible flat cable 11 ... Cable terminal 11a ... 1st terminal part 11b ... 2nd terminal part 13 ... Reinforcement board 15 ... Connector 17a ... 1st engagement notch part 17b ... 2nd engagement notch 19a ... 1st engaged convex part 19b ... 2nd engaged convex part 21 ... Connector housing 23 ... Fitting hole 25a ... 1st vertical groove 25b ... 2nd vertical groove 27a ... 1st 1 connector terminal 27b ... 2nd connector terminal 29a ... holding part 29b ... holding part

Claims (2)

In a cable terminal structure used on the terminal side of a flexible cable formed by covering a plurality of conductors arranged in parallel with an insulating material,
A cable terminal that is a part of the flexible cable and from which a plurality of the conductors are exposed from the front side;
By bending the cable terminal with respect to the center of the width of the flexible cable, sandwiched between the back surface of the cable terminal, and a reinforcing plate integrated with the cable terminal;
A connector housing having a fitting hole into which the cable terminal in a bent state can be fitted, and a plurality of connector terminals provided in the connector housing and respectively conductive to the corresponding conductor; A connector electrically connectable to the cable end;
Comprising
A first engagement concave portion or a first engagement convex portion is formed in the insulating material in the first terminal portion on one side of the cable terminal with respect to the center of the width, and the reference with respect to the center of the width. A second engagement concave portion or a second engagement convex portion is formed on the insulating material in the second terminal portion on the other side of the cable terminal,
A first engaged convex portion or a first engaged concave portion that can be engaged with the first engaging concave portion or the first engaging convex portion is formed on one side surface of the reinforcing plate. The cable terminal structure according to claim 1, wherein a second engaged convex portion or a second engaged concave portion that can be engaged with the second engaging concave portion or the second engaging convex portion is formed on a side surface. . In the connection method for electrically connecting the cable end of the flexible cable and the connector,
Bending to reinforce the cable end by using a reinforcing plate and bending the cable end with respect to the center of the width so that the reinforcing plate is sandwiched by the back surface of the cable end and integrated with the cable end. Process,
After the bending process is completed, the plurality of conductors in the cable terminal are electrically connected to the corresponding connector terminals in the connector by fitting the bent cable terminal in the fitting hole in the connector, respectively. A mating process to
Comprising
During the bending step, the reinforcing plate includes a first engagement recess or a first engagement protrusion formed in the insulating material at the first terminal portion on one side of the cable terminal with respect to the center of the width. Engaging the first engaged convex portion or the first engaged concave portion formed on one side surface of the cable terminal with the insulating material in the second terminal portion on the other side of the cable terminal with respect to the center of the width. A connecting method , wherein the formed second engaging recess or second engaging convex is engaged with the second engaged convex or second engaged concave formed on the other side surface of the reinforcing plate. .

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