1. Technical Field
The present invention relates to connector connection terminals, and in particular, to a connection terminal incorporated in a connector for connecting a flexible print substrate.
2. Related Art
Conventionally, the connector connection terminal may be an electrical connector including a contact with a fixed beam and a movable beam extending along an inserting direction of a connection target, an insulating housing for interiorly holding the contact, and an actuator, positioned on the side opposite to the side of inserting the connection target, for elastically deforming the contact so as to come in contact with the connection target, the movable beam of the contact being supported in a freely oscillating manner by way of a coupling spring for joining the movable beam and the fixed beam, where the coupling spring has a shape extending in a curved manner towards a connector back end side or the direction the connection target is inserted from the joint portion of the fixed beam, as described in Japanese Unexamined Patent Publication No. 2007-27066.
In recent years, the electrical connector is used in devices such as a portable telephone and a portable game machine, but further miniaturization is demanded on the electrical connector with miniaturization of these devices. For instance, in a certain electrical connector, the height dimension of the insulating housing is smaller than or equal to 1 mm, a conductive thin plate having a plate thickness of smaller than or equal to 0.2 mm is used for the connector connection terminal incorporated in the electrical connector, and great number of connector connection terminals are arranged in the housing at a pitch of between 0.3 and 0.5 mm.
In order to further miniaturize the electrical connector, a method of reducing the mutual pitch of the great number of connector connection terminals arranged side by side to reduce the dimension in the direction of arranging side by side is considered. For instance, a method of reducing the dimension in the direction of arranging the great number of connector connection terminals side by side by further thinning the plate thickness of the connector connection terminal, or reducing the height of the electrical connector by reducing the height dimension of the connector connection terminal is known.
In the contact disclosed in Japanese Unexamined Patent Publication No. 2007-27066, the second moment of area of the movable beam is reduced if the height dimension of only the movable beam is reduced, and a desired contact force cannot be obtained with respect to the flexible print substrate to connect. The coupling portion for coupling the fixed beam with the movable beam thus needs to be further thinned.
However, there is a limit to thinning the coupling portion since the connector connection terminal is normally manufactured by punching out the conductive thin plate through press working. Thus, further lowering in height and miniaturization while ensuring the desired contact force is difficult to realize.
One or more embodiments of the present invention provides a connector connection terminal and a connector using the same, the connector connection terminal having a lowered height and being miniaturized while ensuring the desired contact force.
In accordance with one aspect of the present invention, a connector connection terminal includes a fixed piece to be inserted to a base of a connector, a coupling portion extending from the fixed piece, and a movable piece extending in parallel to the fixed piece to both sides from a free end of the coupling portion and being operated by an operation lever rotatably assembled to the base, wherein an aspect ratio of a cross-sectional area of the coupling portion is greater than or equal to 1.2.
According to one or more embodiments of the present invention, the movable piece can be more easily rotated by way of the coupling portion since the aspect ratio of the coupling portion is greater than or equal to 1.2, and a connector connection terminal having a lowered height and being miniaturized while ensuring the desired operation force contact force can be obtained.
In another aspect of the present invention, the connector connection terminal may be formed through electroforming.
According to such aspect, a connector connection terminal including a coupling portion is obtained through electroforming, the coupling portion having an aspect ratio of the cross-sectional area being greater than or equal to 1.2. Thus, a connector connection terminal having a lowered height and being miniaturized while ensuring the desired operation force contact force can be obtained.
In still another aspect of the present invention, the coupling portion may be curved.
According to such aspect, the substantial distance between the supporting points between the fixed piece and the movable piece can be increased, whereby greater operation force and contact force can be ensured, and the connector connection terminal can be relatively height-lowered and miniaturized.
A connector according to one or more embodiments of the present invention has a configuration of incorporating the connector connection terminal, and operating the same with an operation lever.
According to one or more embodiments of the present invention, a miniaturized connector of lower height with the desired operation force and contact force can be obtained since the miniaturized connector connection terminal of a lower height can be used.
Other aspects and advantages of the invention will be apparent from the following description and the appended claims.
In embodiments of the invention, numerous specific details are set forth in order to provide a more thorough understanding of the invention. However, it will be apparent to one of ordinary skill in the art that the invention may be practiced without these specific details. In other instances, well-known features have not been described in detail to avoid obscuring the invention.
Hereinafter, preferred embodiments of the present invention will be described with reference to
As shown in
As shown in
As shown in
The fixed piece 21 has a locking nail 24 for locking and positioning to the edge of the base 11 at one end on the lower side, and a cutout 25 and a slip-out preventing projection 26 on the upper side with the coupling portion 22 in between. A pointed end portion 27 is formed by arranging the cutout 25. The aspect ratio of the cross-sectional area of the bottom part of the cutout 25 is between 1.2 and 4, and preferably between 1.5 and 3. If smaller than 1.2, the desired pointed end portion 27 is not easy to form, and if greater than 4, the desired strength is not obtained.
Through the formation of the first connection terminal 20 according to the present embodiment through electroforming, to be hereinafter described, the pointed end portion 27 of the desired angle can be manufactured with one electroforming step, so that a plurality of press operation steps are not necessary as in the press working.
The coupling portion 22 couples the fixed piece 21 with the movable piece 23 and rotatably supports the movable piece 23, where the aspect ratio at the cross-sectional area thereof is between 1.2 and 4, and preferably between 1.5 and 3. If smaller than 1.2, a definite change is not found in the improvement of the operation force and the contact force, and if greater than 4, the desired durability is not obtained.
The manufacturing method of the first connection terminal 20 having such aspect ratio includes an electroforming method of simultaneously manufacturing a hoop material 60, as shown in
The material of the first connection terminal 20 is required not only to enable the desired shape and physicality to be obtained, but also that the electroforming solution is less likely to be subjected to alteration. Thus, the material of the first connection terminal 20 may be nickel-silver alloy, nickel-tungsten alloy, nickel-cobalt alloy, nickel-palladium alloy, and the like in addition to copper elemental substance and nickel elemental substance.
The movable piece 23 has one end as an operation receiving portion 28 and the other side arranged with a first movable contact 29 projecting to the lower side. The first movable contact 29 is arranged immediately above the cutout 25, and the thickness dimension thereof is one step thinner than the thickness dimension of the entire movable piece 23. This is because if the thickness dimension of the first movable contact 29 of the first connection terminal 20 is small, the first movable contact 29 is less likely to come in contact with a first connection pad 52 arranged at a connection portion 51 of the flexible print substrate 50 and a lead wire 54 of an adjacent second connection pad 53 shown in
The first movable contact 29 may not only be thinned by arranging a step difference on one surface and may be thinned by arranging a step difference on both surfaces, or the width dimension of the first movable contact 29 may be gradually thinned by forming a tapered surface.
As shown in
The manufacturing method, the material, and the thickness of the second connection terminal 30 are similar to the first connection terminal 20, and thus the description thereof will not be given.
The fixed piece 31 has a locking nail 34 for locking and positioning to the edge of the base 11 at one end on the lower side, and a cutout 35 and a slip-out preventing projection 36 on the upper side with the coupling portion 32 in between. A pointed end portion 37 is formed by arranging the cutout 35. The slip-out preventing projection 36 is formed on a bulging portion 36a bulging out in the plate thickness direction.
The aspect ratio of the cross-sectional area of the bottom part of the cutout 35 is between 1.2 and 4, and preferably between 1.5 and 3. If smaller than 1.2, the desired pointed end portion is not easy to form, and if greater than 4, the desired strength is not obtained. The second connection terminal 30 having such aspect ratio is manufactured through the electroforming method, similar to the first connection terminal 20.
The coupling portion 32 couples the fixed piece 31 with the movable piece 33 and rotatably supports the movable piece 33, where the aspect ratio at the cross-sectional area thereof is between 1.2 and 4, and preferably between 1.5 and 3. If smaller than 1.2, a definite change is not found in the improvement of the operation force and the contact force, and if greater than 4, the desired durability is not obtained.
The movable piece 33 has one end as an operation receiving portion 38 and the other end arranged with a second movable contact 39 projecting to the lower side. The second movable contact 39 is arranged immediately above the cutout 36.
The second connection terminal 30 does not necessarily need to have a uniform thickness, and the vicinity of the coupling portion 32 of the movable piece 33 may be formed thicker than other portions as shown in
Although not shown in
As shown in
As shown in
The assembly method of the configuring parts described above will now be described.
First, one end of the first connection terminal 20 is inserted to the first insertion hole 13 from the opening 11a on the front surface side of the base 11. The slip-out preventing projection 26 of the first connection terminal 20 thus locks to the roof surface of the slip-out preventing portion of the base 11, and the locking nail 24 locks to and is positioned at the edge of the base 11 (
The one end of the second connection terminal 30 is inserted to the second insertion hole 14 along the guide plate 15 of the base 11. Thus, the slip-out preventing projection 36 arranged on the bulging portion 36a of the second connection terminal 30 locks while pushing and spreading in the up and down direction. At the same time, the locking nail 34 locks to and is positioned at the edge of the base 11.
The operation receiving portions 28, 38 of the first and second connection terminals 20, 30 are inserted to the through-holes 43 of the operation lever 40, the operation lever 40 is slipped along the upper surface of the fixed piece 31 of the second connection terminal 30, and the operation receiving portions 28, 38 are pushed up and pushed in while being elastically deformed with the cam portion 42. Therefore, the cam portion 42 is fitted to a bearing portion 31a of the second connection terminal 30, and the turning shaft part 41 first to the bearing slit 12b of the base 11, whereby the operation lever 40 is rotatably supported.
The method of connecting and fixing the flexible print substrate 50 to the connector 10 will be described based on
As shown in
In the present embodiment, the first and second movable contacts 29, 39 not only push down and curve the connection portion 51 of the flexible print substrate 50, but the first and second movable contacts 29, 39 and the pointed end portions 27, 37 respectively bite into the front and back surfaces of the flexible print substrate 50 and prevent slipping out, so that high contact reliability can be ensured.
When detaching the flexible print substrate 50 from the connector 10, the cam portion 42 is inverted by turning the operation lever 40 in the opposite direction, and the bending moment on the operation receiving portions 28, 38 of the first and second connection terminals 20, 30 is released. After releasing the connection state of the first and second movable contacts 29, 39 with respect to the first and second connection pads 52, 53, the flexible print substrate 50 is pulled out.
According to the present embodiment, since the first and second connection pads 52, 53 of the flexible print substrate 50 are arranged in a zigzag manner, as shown in
The first and second movable contacts 29, 39 of the first and second connection terminals 20, 30 have a narrow width. Thus, even if the assembly accuracy varies, the second movable contact 39 of the second connection terminal 30 is less likely to come in contact with the lead wire 54 of the first connection portion 52 and the second connection portion 53 of the flexible print substrate 50, and short circuit is less likely to occur.
As shown in
According to the present embodiment, the pointed end portions 27, 37 of an acute angle are obtained and dropping is less likely to occur, whereby the connection reliability is further enhanced.
As shown in
According to the present embodiment, the alignment with the first and second movable contacts 29, 39 is facilitated, and high dimensional accuracy is not required by forming the pointed end portions 27, 37 of saw-tooth shape. Thus, the manufacturing of the first and second connection terminals 20, 30 is facilitated, and the productivity is enhanced.
In regards to the first connection terminal 20, with the cross-sectional area of the coupling portion 22 as the aspect ratio 2 (first example) and the aspect ratio 1 (first comparative example), the operability in a case where the operation receiving portion 28 was operated with the operation lever 40 is simulated. The calculation result is shown in
As shown in
As shown in
In other words, operation can be lightly performed and the connection state can be maintained with a strong force.
In regards to the second connection terminal 30, with the cross-sectional area of the coupling portion 32 as the aspect ratio 2 (second example) and the aspect ratio 1 (second comparative example), the operability in a case where the operation receiving portion 38 was operated with the operation lever 40 was simulated. The calculation result is shown in
As shown in
The coupling portions 22, 32 of the first and second connection terminals 20, 30 may not necessarily be straight and may be curved.
The connector connection terminal according to the present invention is not limited to the above described embodiments, and may have a shape that can be incorporated to another connector.
The coupling portion of the connector connection terminal according to the present invention is not limited to one having a uniform width dimension, and may have a shape that has a thick base and that becomes thinner towards the upper side.
While the invention has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.
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2008-256692 | Oct 2008 | JP | national |
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2007-027066 | Feb 2007 | JP |
Number | Date | Country | |
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20100081310 A1 | Apr 2010 | US |