GB2295504A - Electrical connector terminal with fixing member - Google Patents
Electrical connector terminal with fixing member Download PDFInfo
- Publication number
- GB2295504A GB2295504A GB9601440A GB9601440A GB2295504A GB 2295504 A GB2295504 A GB 2295504A GB 9601440 A GB9601440 A GB 9601440A GB 9601440 A GB9601440 A GB 9601440A GB 2295504 A GB2295504 A GB 2295504A
- Authority
- GB
- United Kingdom
- Prior art keywords
- housing
- terminal
- projection
- flat cable
- arm
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/59—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
- H01R12/592—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connections to contact elements
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/51—Fixed connections for rigid printed circuits or like structures
- H01R12/55—Fixed connections for rigid printed circuits or like structures characterised by the terminals
- H01R12/57—Fixed connections for rigid printed circuits or like structures characterised by the terminals surface mounting terminals
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/82—Coupling devices connected with low or zero insertion force
- H01R12/85—Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures
- H01R12/89—Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by moving connector housing parts linearly, e.g. slider
Landscapes
- Coupling Device And Connection With Printed Circuit (AREA)
Abstract
The terminal, which is pressed from a flat plate, comprises a first contact arm 20 and a second positioning arm 21, extending substantially parallel to each other from a common connecting portion 22. Two projections 25, 26 are formed on the positioning arm, with the first projection 25 extending a smaller distance from the arm than the second projection 26. The terminal is used in a connector which comprises a plurality of the terminals 11, an insulating housing 10, a flat, multiconductor cable 3 and a slide member. The terminals are inserted into respective openings 15 which extend through the housing 10, and projections 25, 26 locate and hold each terminal in the housing. <IMAGE>
Description
ELECTRICAL CONNECTOR
The present invention relates to z connector for connecting each of a piurality of forked terminals to each of a plurality 0= conductors of a flat cable, such as a flexible printed circuit or a ribbon electric wire, which consists of a flexible insulating sheet and printed conductcrs or thin wire conductors spaced in parallel with each other at regular intervals on the sheet.
In recent ears, a flat cable 3 as shown in Figs.
3A and 13B Is proposed. The flat cable 3 comprises a flexible insulating sheet 1 and conductors 2 spaced at regular intervals on the upper surface of the flexible insulating sheet 1. The conductor 2 is set to be as fine as approximately 0. 1mm in its diameter. The interval between adjacent conductors 2 is set to be as small as approximately 0.8mm.
Accordingly, the flat cable 3 is preferably used as an internal wiring material of household electrical appliances such as a 7TR, n video camera and the like, and office automation appliances which are desired to be thin and compact.
Sacn conductor 2 of the flat cable 3 is connected with a forked terminal formed by punching a conductive metal plate. Fig. 14 shows an example of a connector for connecting the conductor 2 @f the flat @able 3 and the forked terminal @ with each other.
In the c@nnector 4, a plurality of slit-shapea terminal-receiving openings 6 is iormed in a cubic insulating housing 5 made of synthetic resin. The slit-shaped terminalreceiving openings 6 are spaced from each other at regular intervals in the l@ngitudinal direction of the housing 5. A forked terminal @ is inserted into each terminal-receiving opening 6. A flat cable 3 and a slide member 8 are inserted into the space between a contact arm a of tne terminal 7 and a positioning arm @b thereof to allow a pressing portion 8a of the slide member 8 to to oress the flat cable 3 against the contact arm 7a.
In the above-described connector 4, an incomplete connection is likely to occur between the terminal 7 and the conductor 2 of the flat cable 3.
That is, the conductor 2 and the contact arm 7a or one terminal 7 are in contact with each other. But as described above, the diameter of the conductor 2 is very small and in addition, the contact arm 7a cantacts the conductor 2 in a small area oecause the width of the contact arm 7a is equal to a small width of the terminal 7. Accordingly, if the interval between adjacent terminals 7 does not coincide with that between adjacent conductors 2 or if the intervals between adjacent conductors 2 are nonuniform or if the intervals between adjacent terminals 7 are nonuiform, an incomplete connection is likely to oc@ur between the conductor 2 and the terminal 7.
The contact arm 7a of the terminal 7 and the positioning arm 7b thereof are inserted into each of openings a c, the terminal-receiving opening 6 and each of openings 6b thereof. The slide member 9 presses the flat cable 3 against the contact arm 7a, thus holds the flat cable 3 inside the housing 5. But the connector 4 has no means for placing the terminal in position inside the housing 5.Therefore,
t is likely that the terminals 7 are inserted at different positions inside the nousing 5. As a result, the flat cable 3 is pressed against the terminals 7 at different pressures.
The slide member 8 is installed in the housing 5 in the direction in which the openings 6 are arranged from the side opposite to the terminal-inserting side. Each of a pair of holding portions 8b projecting from each end of the slide member 8 in the longitudinal direction thereof is fixed to each end of the housing 4 disposed in the longitudinal direction thereor.
In recent years, the connector 4 has become longer owing to the increase in the number of the openings 6 to be formed in parallel with each other in the housing 5 carsed by demands for multipolarization. Hence, the slide member 8 has become longer.
As a resuit, It is likely that the pressing portion Sa comprising thin plates disposed between ootn holding portions 8b are flexed as shown in Figs. ISA and 153.
The pressing portion 8a presses the conductors 2 or one flat cable 3 against the terminal 7. Therefore, when te pressing portions 3a Is flexed, there is a possibility that pressures applied by the pressing portIon 8a to the conductors 2 are different from each other depending on the flexure dearee of the pressing portion 8a or some conductors 2 are not brought into contact with the corresponding terminal 7.
insulating resin is integrally molded by a mold to orm the slide member 8. Upon completion of molding, the molded insulating resin is ejected by an ejector pin from the mold. It is necessary to form a portion to be ejected by the ejector on both holding portions Bb. Due to the ejection of the molded insulating resin, a burr (B) is formed on the ejected portion. The burr (B) projecting from the surface of the holding porticns 8b prevents the slide member 8 from closely contacting the housing 5. As a result, there is a possibility that the loose contact between the housing 5 and the slide member 8 prevents the conductor 2 from being appropriately pressed against the terminal 7. The burr (B) can be removed from the slide member 8 by polishing it, but it takes time and labor, which causes the connector 4 to be manufactured at a high cost.
Referring to Figs. 16 and 17, the case in which the connector 4 is soldered ~- a base plate 9 is considered below.
The connector 4 shown in Fig. 16 is soldered by using a U-shaped holder 101 as follows: The holder 101 comprises an upper holding portion 101a disposed on the upper surface of the housing 5, a lower holding portion 101b disposed on the lower surface thereof, and a side holding portion 1010 disposed on the side surface thereof. The holder 131 is fixed to rot ides of the housing 5, and the lower holding portion 101b of the holder 101 is soldered to a pat
a disposed on a case plate 9. n this manner, the housing 5 is fixed to one case plate 9.
The connector 4 shown in Fig. 17 is soldered by using a U-shaped holder 101 as follows: The holder 101' is engaged by a U-shaped encaging groove 5'a formed in the vicinity of both side surfaces of a housing 5'. A lower holding portion 101b' of the holder 101' is soldered to the pat 9a disposed on the base plate 9. In this manner, the housing 5 is fixed to the base plate 9.
In the connector shown in Fig. 16, the lower holding portion 101b or the holder 101 is disposed on the lower surface of the housing, i.e., the lower holding portion lOlb is interposed between the lower surface of the housing 5 and the pat 9a. Theretore, the lower surface of the housing 5 is not In ciose contact with the base plate 9 and hence the housing ; cannot ce tightly fixed to the base pate .
The holder 101 is Installed on both side surfaces or the housing . So lona as the holding portion 8b of the lower 9 is mounted on the site surfaces of the housing 5, it is difficult to @@stall the holder 101 on the side surfaces of the housing 5 vith respect to the size of the side surface of the housing
In the connector shown in Fig. 17, the holder 101 is thin. Therefore, the holder 101 is soldered to the pat 9a In a small area and thus there is a possibility that the holder 101 is fixed thereto not in a high strength. If the cider 101' is made to be thick, it is necessary to make the width or the engaging groove 5'a large. Consequently, the housing 5 becomes large. If the housing 5' is not made to be iarge, the terminal-receiving openings are decreasingly formed inside the housing 101'. In addition, the holder 101 is fixed to the housing 5 by engaging the housing 5 with the engaging groove 5'a of the housing 5'.Therefore, the holder 101 is not tightly fixed to the housing 5' Referring to rig. 18, in installing the connector 4 on the base plate 9 by an automatic machine, both side surfaces Sc and 5d of the housing 5 are sandwiched by arms 102a and 102b of a chuck 102 of the automatic machine. In tis state, t center L1 of the chuck 102 and the center 2 of the housing 5 coincide with each other. Therfore, a connector-installing position (: with which the center L2 cf the housing 5 should be coincident is set on the base plate 9 so that the center L1 of the chuck 102 is made to be coincident with the connector-installing position (X).In this manner, the housing 5 is holded by the chuck 2. Then, one chuck 102 Is moved downward as shown by an arrow (A) of
Fig. 19 and the housing 5 is soldered to the pat placed on the base plate 9.
As described previously, the demand for multipo olar zat on cf the connector 4 causes the housing 5 to be long in the direction (W) in which the terminal-receiving openings 6 are @rranged in parallel with each other. It is necessary to set one side surface Sd of the housing 5 as a gate position (G) corresponding to a resin-injecting opening o= the mold and inject resin into the mold from the gate position (G) so as to flow the resin smoothly in the mold in the direction corresponding to the longitudinal direction of the housing 5.
A gate remainder 103 is likely to be formed in the gate position (G! as shown in Fig. 19. The side surface Sd on which the gate position (G) is formed is holded by the chuck 102. Therefore, the center L1 of the chuck 102 and the center LI of the housing 5 do not coincide with each other due to the existence of the gate remainder 103 when the housing 5 is held by the chuck 102. When the center L1 of the chuck 102 is mace to be coincident with the connector-installing position X) of the base plate 9, the center L2 of the housing 5 does not coincide with the connector-installing position (X). That is, the housing 5 cannot be placed exactly in position on the base plate 9.
After the gate remainder 103 is removed from the gate position (G), the housing 5 can be placed exactly in position on the base plate 9 by the chuck 102 which holds the housing 5. Sut it is necessary to check whether or not the gate remainder 103 esists on the gate position (G) after the housing 5 has been molded. In addition, it is difficult and inefficient to remove the gate remainder 103 from the gate position (G).
when the housing 5 is to be instaled on the base plate 9, the terminals 7 and the slide member 8 have been already installed widthwise in the housing 5. Therefore, it is difficult for the arms l 102a and 102b of the chuck 102 to hold the housing 5 widthwise. Therefore, the side surfaces 5c and 5d cannot but be taken hold of by the arms 102 a and 102b of the chuck 102.
It is a first object of the present invention to provide a connector in which conductors of a flat cable can be reliably brought into contact with a contact arm of a forked terminal even though the conductor has a small contact
It is a second object of the present invention to provide a connector in which the terminal can be inserted into a housing and reliably held at a predetermined position.
It is a third object of the present invention to provide a connector in which a slide member can be prevented from being flexed so that the slide member accomplishes a reliable connection between the conductors of the flat cable and the tarminals.
It Is z fourth object o the present Invention to provide a connector in which the slide member can be smoothly mounted on the housing without removing a burr formed on the slide member when one siid member has been pressed out of a mold by an ejector pin.
It is a fifth object of the present invention to provide a connector in which a holder for fixing the connector to a base plate can be tightly fixed to the housing, the holder can re tightly ixed to the base plate and the holder can be manufactured at a low cost.
It is a sixth object of the present invention to provide a connector in which even though a gate remainder exists at a gate position in molding the housing in a mold, the housing can We placed in predetermined position exactly on the base plate by an automatic machine.
In accomplishing these and other objects, there is provided a connector comprising: a plurality of terminals formed approximately into fork confiquration; a flat cable provided with a plurality of concuctors to be connected with the terminals; an insulating housing into which the terminals and the flat cable are inserted in opposition to each other; and a slide meme@er for pressing each conductor of the flat cable against each terminal.
The terminal formed by punching a conductive metal plate into an approximately forked configuration comproses: a contact arm and a positioning arm projecting horizontally paralelly in the same direction from one side of a vertical connecting portion thereof; and a contact portion having a great are formed on a owe surface o, 2 leading end of the contact arm.
The housing integraly formed out of resin comprises: a plurality of slit-shaped througn-openings, extending horizontally and arranged in parllel with each other in the widthwise direction thereof, for receiving terminals from an opening portion disposed at one side thereof and receiving the flat cable and the slide member from and opening portion disposed at the other side thereof, in which the through openings communicat with each other; and an Intermediate wall extencing from a terminal-inserting side of the housing into each through-opening, thus partitioning each through-opening into an upper opening for receiving the contact arm of the terminal and having a width enough for the contact portion of each terminal to be inserted therethrough and a lower opening for receiving the positioning arm of the terminal.
The flat cable comprises: a flexible insulating sheet and a plurality of conductors spaced at regular intervals in parallel with each other on the flexible insulating sheet; and is inserted into the housing from the opening portion disposed at the other side of the terminalreceiving through-openings so that the flat cable is disposed between the contact arm and the positioning arm.
The slide member is integrally formed out of resin; ano inserted between the flat cable and the positioning arm of each terminal so that the slide member presses the flat cable against the contact portion of the contact arm elastically.
The contact portion comprises projections formed in opposite directions on the lower surface of the leading end of the contact arm. Since the area of the contact portion is great, even a round conductor having a small contact area can be reliably pressed against the terminal.
The width of the upper opening for receiving the contact arm is great to insert the wide contact portion therethrough. The width of the lower opening for receiving the positioning arm is smaller than that of the upper opening so as to hold the terminal in position of the opening.
A first projection and a second projection both are adjacently formec on an upper surface of the positioning arm or a lower surface thereof. The height of the first projection positioned an inserting side into the opening of the housing is smaller than that of the second projection.
According to the above construction, the terminal can be reliably fixed to a predetermined position of the housing.
Engaging projections are formed at the upper end of the vertical connecting portion of the terminal and at the lower end thereof.
Slits are formed at upper and lower portions of each through-opening at a terminal-inserting side thereof. The slits are engaged Ly the engaging projections, thus stopping the terminal at a predetermined position.
According to the above construction, the terminla can be prevented from moving further from the predetermined position. In this manner, the terminal can be placed in position in the through-opening for receiving the terminal.
The slide member integrally formed out of resin comprises: a base plate portion installed in the housing along the direction in which the through-openings are arranged in parallel with each other; a pressing portion projecting from the base plate portion and inserted between the flat cable and the positioning arm, thus pressing the conductors of the flat cable against the contact arm of the terminal elastically; and a holding portion proiecting from both ends of the base plate portion and fixed to a fixing portion formed in the housing, wherein a plurallty of holes for preventing the pressing portion from being flexed is formed on the base plate portion.
According to the above construction, even though the slide member is long, the pressing portion thereof can be prevented from being flexed. Consequently, the pressing
portion allows the flat cable to be pressed against each terminal at a uniform pressure.
The slide member has a concave portion formed in an area to be pressed out from a mold by an ejector pin.
rcssrt to the above construction, even though 2 our is wormed on the concave of the slide member, the burr does not project on the outer side surface which contacts with the housing. Thus, it is unnecessary to remove the burr from the slide member aa nence the slide member can be smoothly installed in the housing.
A concave portion of an outer side surface of the housing in the widthwise direction thereof is set as a gate position in correspondence with a resin-injecting opening of a mold.
According to the above construction, in installing the housing on n base plate by a chuck of an automatic machine, a gate remainder formed at the gate position can be prevented from contacting the chuck, and the center line of the chuck can be made to be coincident with that of the housing. The center line of the chuck is made to be coincident with the housing-installing position set on the base plate. Consequently, the center line of the housing coincides with the housing-installing position on the base plate. In this manner, the housing can be placed in position on the base plate exactly.
In fixing the housing to the upper surface of the base plate by using a metal holder, a pair of cut-out openings is formed in the vicinity of both outer side surfaces of the housing in the widthwise direction thereof. The holder is formed by punching a metal plate and inserted int@ the cut-out opening of the housing. Then, the lower surface cr the holder is exposed on the bottom surface of the housing, and soldered to the base tiate.
Preferably, the holder is formed out of a metal plate having 2 thickness equal to that of 2 metal plate to be shaped into the terminal.
Preferably, a projection is formed on the holder, so that when the holder is inserted into the cut-out opening or the housing, the projection is pressed against an inner sur=ace of the housing.
referably, the holder as a concave formed on a lower surface thereof so that the holder is soldered to the base plate.
As the holders and te terminals can be formed from the same metal plate, the holder can be manufactured at a low cost. The projection of the holder is pressed against an inner surface of the cut-out opening of the housing, thus allowing the holder to be inserted into the housing smoothly.
The Concave of the holder stores solder, thus soldering the holder to the base plate in a nigh strength.
These and other objects and features of the present invention will become clear from the following description taken in Conjunction with te preferred embodiments thereof with reverence to the accompanying drawings.
Fig. 1 is an exploded perspective view showing a connector according to a first embodiment of the present invention;
Fig. 2A Is a front view showing a terminal according to the first embodimet;
Fig. 2B is a plan view showing the terminal according to the first embodiment; zig. C is an enlarged sectional view showing a principal portion of the terminal according to the first embodiment;
zig. 3 is a sectional view showing the state in which the connector according to the first embodiment is assembled ;
Fig. 4A is a rear alevation showing a slide member according to the first embodiment;
Fig. 4B is a bottem view showing the slide member according to the first embodiment;
Fig. 4C is a side view showing the slide member according to the first embodiment;;
Fig. 5 is a perspective view showing the state in which the connector according to the first embodiment has been assembled;
Figs. 6A and 6B are sectional views showing the state in wnich the slide member is installed in a housing according to the dirst embodiment;
Fig. 7 is a perspective view showing a modification of the terminal;
Fig. 8 is an exploded perspective view showing a connector according to a second embodiment of the present invention;
Fig. 9 is a view showing the process of manufacturing a nolder according to the second embodiment of the present invention;
Figs. 10A and 10B are sectional views showing the process of assembling the connect@r according to the second embodiment;
Fig.S a schematic view showing the state in which the connector according to the second embodiment is placed on a base plate by an automatic machine;
Fig. 12 is a perspective view showing the state in which the connector according to the second embodiment has been fixed to the base plate;
Fig. 13A is a plan view showing a flat cable;
Fig. 13B is a sectional view showing the flat cable;
Fig. 14 is a sectional view showing a conventional connector;
Figs. A and '53 are front views showing a problem == a conventional slide member;
Fig. 16 is a perspective view showing a conventional connector mounted on a base plate;
Fig. 17 is a perspective view showing another conventional connectcr mounted on the base plate; ; -ig. 18 is a schematic view showing an operation of placing a conventional connector on the base plate by an automatic machine; and ig. 19 is a schematic view showing a problem of the conventional connector of Fig. 18 in installing the connector on t base plate.
3efore the description of the present invention proceeds, it is to be noted that like parts are designated by like reference numerals throughout the accompanyin drawings.
The connector according to a first embodiment of the present invention will be described below with raference to
Figs. through 6.
Referring to Fig. 1, the connector comprises a onepiece housing 10 made of insulating resin shaped in a mold; a plurality of forked terminals 11 (one of terminals in shown in Fig. 1) punched from a conductive metal plate such as a copper alloy uniform in thickness; and a one-piece slide member 12 made of insulating resin shaped in a mold. A flat cable 3 as shown in Figs. 13A and 13B is used, each round conductor 2 of the flat cable 3 is connected with the terminal @@ respectively.
The housing 10 accommodates a plurality of through
openings 15 for receiving the terminal 11, as shown in Fig.
3, arranged horisontally in parallel with each other. A plurality of vertical partitioning walls 16 interposed between adjacent through-openings 15 extends widthwise from the terminal-inserting side (:(! of the housing 10 to approximately the center thereof. A horizontal intermediate wall 19 partitioning the opening 15 into an upper portion and a lower portion is formed in the terminal-inserting side (X).That Is, the intermeciate wail i9 partitions each opening 1S into an utter opening 17 for receiving a contact arm 20 of the terminal 11 and a lower opening 18 for receiving a positioning arm of the terminal 21. The opening 27 and 18 extend from the terminal-inserting side (X) toward the flat cable 3 and the slide member-inserting side (Y).
As shown in Fig. 1, the width of an upper portion 16b of the partitioning wall 16 is set to be smaller than that of a l@wer portion thereof so that the width W1 of the opening 17 is greater than the width W2 of the opeing 18. The width
W1 of the opening 17 is greater than the width W3 of a contact portion 24 formed at the lading end of a contact arm 20 of one terminal 11. In this manner, the contact arm 20 can be inserted into the opening 17. The width W2 of the opening 18 is almost equal to the width (t) of the terminal 11 so that the terminal 11 is horizontally placed in position by a
positioning arm 21 of the terminal 11.
An upper engaging slit 50 and a lower engaging slit 51 are formed in the opening 15 at the terminal-inserting side (X) thereof.
As shown in Figs. 2 and 3, the terminal 11 comprises the contact arm 20; the positioning arm 21 horizontally extending and parallel wit the contact arm 20; a vertical connecting portion 22 disposed between the contact arm 20 and the positioning arm 21; and a lead portion 23 extending horizontally from the lower end of the connecting portion 22 in tne direction opposite to the extending direction of the contact arm 20 and the positioning arm zi.
As shown in Figs. 2B and 2C, there is iormed a wide tontact portion 24 comprising a pair of projections 24a and 24b projecting widthwise in opposite directions on the lower surface of the leacing end of the contact arm @@. The width
W3 of the contact portion 24 is set so that the surface area thereof is about twice as large as that of the width (t) of the terminal 11.
As shown in Fig. 2A, the contact arm 20 is inclined upward in a small degree from the conecting portion 22 and then downward in a small degree.
As shown in Fig. 2A, a first projection 25 and a second projection 16 backward of the first projection 25 are formed in a saw-teeth configuration on the upper surface of the positioning arm 21. The height H1 of the first projection 25, positioned at the inserting side to the opening 15, is set to be smaller than the height H2 of the second projection 26.
As shown in Fig. 2A, in the connecting portion 22, an upper engaging projection 22a is formed upward from the contact arm 20 and a lower engaging projection 22b is formed downward from the positioning arm 21. The upper engaging projection 22a anc the lower engaging projection 22b are inserted into an upper engaging slit 50 and a lower engaging slit 51, respectively formed on upper and lowe walls of each opening 15 at the terminal-inserting side (X) thereof and engaged by each or the upper engaging slit 50 and the lower engaging slit 51. In this manner, the terminal 11 can be inserted into the housing 10 at a predetermined distance and held at a predetermined position.
Referring to Fig. 1, the slide member 12 is inserted into the housing 10 from the direction (Y) opposite to the terminal-inserting side (X). A pressing portion 28 integral with the slide member 12 projects from the upper surface of a base portion 27 of the slide member 12 toward the housing 10. A pair of holding portions 29 integral with the slide member : is disposed at boon enos of the base portion 27 in the longitudinal direction (W) thereof. The holding portion 29 serves as a means =or holding the slide member 12 in the @ousing 10.
Referring to Fig. 5, the holding portion 29 is locked at a temporary locking position and a main locking position of an installing portion 30 formed at both sides of the housing 10 in the logitudinal direction (W) thereof.
Tee ti pressing portion 28 is inserted into the space between the contact arm 20 of the terminal 11 and positioning arm 21 thereof from the direction (Y) so that the pressing portion 28 presses the flat cable 3 by the upper surface thereof and hence the conductor 2 is elastically brought into contact with the contact portion 24 of the contact arm 20.
Referring to Figs. 4A, 4B, and 4C, insulating resin reinforced by glass fiber is shaped into the one-piece slide member 12 by a mold 60 comprising a pair of a mold 60A and a mold 60B. Projections 61 (61A, 61B, and 61C) are formed in the mold 60A so as to form circular holes 27a (27a-1, 27a-2, and 27a-3) on the @@tt@m surface of the base portion 27 of the slide member 1@.
The holes 27a are formed upward into the base portion 27 from the bott@m thereof. The diameters of the holes 27a-1, 27a-2, and 27a-3 are equal to each other while the deptns of the holes 27a-1 and 27a-3 are greater than that of the center hole 27a-2.
The number of the holes 27a and the positions thereof are not @lmited to the above-described ones but preferably, the holes 27a are formed symmetrically with respect to the center of the slide member 12 in the longitudinal direction thereof and designed so that the intermediate portion of the slide member 12 is not flexed irrespective of the length of the slide member 12.
The height H3 of both end portions 27b is set to be equal to the height H4 of the housing 10. As shown in Fig.
5, when the slide member 12 is installed in the housing 10, the end portions 27b engage each of a pair of engaging portions 31 formed at both ends of the housing 10 in the longitudinal direction thereof.
As shown in Fig. 5, the holding portion 29 project ing from the end portions 27b of the slide member 12 is
nserted into an installing portion 32 disposed between a pair of upper and lower sandwiching strips 32a and 32b formed at both ends of the housing 10 in the longitudinal direction thereof so that a groove :a and a groove 29b formed on the
inner side of the holding portion 29 is locked by a temporary locking projection 33a of the housing 10 and a main locking projection 33b thereof, respect@vely.
As shown in Fig. 4C, a cut-out concave 53 is formed on the bottom surface of the holding portion 29 in the vicinity of the leading end therefor so that an ejector pin (not shown) is pressed against the concave 53.
Teh pressing portion 28 of the slide member 12 projects from the intermediate portion of the base portion 27 ano the upper surface of the pressing portion 28 is positioned at a same height as that of the intermediate portion. The leading end portion of the pressing portion 28 inclines downward. When the slide member 12 is inserted into the housing 10, the pressing portion 28 presses the flat cable 3 by the utter portion thereof, thus bringing the conductor 2 of the flat cable 3 into contact with the contact arm 20 of the terminal 11.
The method or assembling the connector from the terminal 11, the flat cable 3, the housing 10, and the slide member 12 is described below.
As shown in Fig. @, each terminal 11 is inserted into each opening 15 cL the housing 10.
At this time, the contact arm 20 of the terminal 11 and the positioning arm 21 thereof are inserted into the upper opening 17 ans the lcwer opening 18 of the opening 15, respectively from the side (X).
When the terminal 11 is inserted into the opening 18, the first and second projection 25 and 26 of the positioning arm 21 are moved into the housing 10 in sliding contact with the lower surface of the intermediate wall 19. The height H2 of the second projection 26 is greater than the height H1 of the first projection 25. Therefore, even though the intermediate wall 19 is worn by the friction between first projection 25 and the intermediate wall 19, the second projection 25 backward of the first projection 25 is in close sliding contact with the lower surface of the intermediate wall 19, thus arriving at a predetermined stop position in the housing 10. Thus, the terminal 11 can he stopped and held at a predetermined position in the housing 10.
At this time, the upper engaging projection 22a of the terminal 21 and the lower engaging projection 225 thereof are inserted nto the upper slit 50 of the housing 10 and the lower slit 51 thereof and locked at a predetermined position, respectively.
n this manner, the most forward position of the terminal 11 can be correctly regulated and thus the terminal can can be securely placed in position iside the housing 10.
Since a plurality of terminals 11 can be inserted into each opening 15 in the same distance, every terminal 11 can oreos ever conductor 2 of the flat cable 3 at a uniform pressure. The upper and lower engaging projections 22a and r can re seen from te outside of the housing 10.
Therefore, an erroneous inserted position of the terminal 11 can be easily detected.
Then, the slide member 12 is inserted into the nousing 10 from the side (Y), and the holding portion 29 is temporarily locked by the installing portion 30.
There@ fter, the flat cable 3 is inserted into the space between the contact arm 20 o the terminal 11 and the positioning arm 21 thereof along the upper surface of the pressing portion IS of the slide member 12.
Then, the slide member 12 is pressed into the main locking position. When the flat surface of the pressing portion 25 is located at a position opposed to the contact portion 24 of the contact arm 20, the conductor 2 of the flat cable 3 is elastically brought intro contact with the contact portion 24. A reinforcing plate 58 is fixed at the lower surface of the flat cable 3, thus the flat cable 3 is pressed by the pressing portion 28 through the reinforcing plate 58.
As described previously, since the projections 24a and 24b are projecting widthwise in opposite directions on the ower surface ot the leading end of the contact arm 20 so as to make the surface area of the contact portion 24 about twice as large as that of the thickness of the contact arm 20, the
contact portion 24 contacts the conductor 2 in a large area.
Therefore, even tnough the conductor 2 is dislocated at approximately 0.2mm to 0.5mm from the predetermined insertion position, the conductor 2 is allowed to reliably contact the contact portion 24.
The holes 27a are formed on the base portion 27 at required positions in the longitudinal direction thereof.
Accordingly, the pressing portion 28 is not flexed in the
longitudinal direction thereof, even though a length of the pressing portion in the longitudinal direction is very long.
Consequently, the pressing force of the pressing portion 28
s uniformly applied to the contact portion 24 in the longitudinal direction of the housing 10. Thus, the terminal 11 and the conductor 2 can be securely connected to each other in each opening 15.
Further, even though a burr is cenerated on the concave 53 of the base portion IT due to the pressing force of the ejector pin, the burr does not project from the concave 53. Therefore, when the holding portion 29 is inserted into the installing portion 32 of the housing 20, the slide member
2 can be locked in the housing 10 with the nodding portion 19 in close contact with the installing portion 32.
The connector according to the present invention is not limited to the first embodiment, but various modifications can be made.
or example, the two projections 24a and 24b are projection widthwise in opposite directions on the leading end of the contact arm 20 to form the contact portion 24, but the contact portion 24 may comprise three projections or more.
Referring to Fig. @, in forming the terminal 11' by pressing, a portion 35 in a configuration similar to that of an end portion Ia' of a contact arm 20 is formed on the @pper end ot the end portion of the contact arm 20 by puncning as shown by two-dot chain line of Fig. 7. Then, the portion 35 is bent and shaped by pressing so that the bent portion 35 is adjacent to the end portion 11a' in the width direction thereor. Thereafter, the bent portion 35 is integrated with the end portion 11a' so as to form a contact portion 24'.
A connector according to a second embodiment of the present invention is described below with reference to Figs.
S through 12. A connector 4 is soldered to a base plate 9 and the connector 4 is placed in position n the base plate 9 by using an automatic chuck.
In the second embodiment, a pair of U-shaped holder 54 is used to fix the connector 4 to the base plate 9. A pair of out-out opening 55 is provided in the vicinity of both ends of the housing 10 in the longitudinal direction thereof from the terminal-inserting side (X) of the housing 10 toward the slide member-inserting side (Y). Each opening is formed by cutting out the housing in U-shaped configuration. The holder 54 is also U-shaped so that the holder 54 is inserted into the out-out opening 55. The holder 54 comprises an upper arm 54a; a lower arm 54b; a connecting portion 54c connecting the upper arm 54a and the lower arm 54b; and a projection 54d formed on the connecting portion 54c projecting outward therefrom.
A concave 54e for storing solder is formed on the bottem surface of the lower arm 54b.
Referring to Fig. 9, the holder 54 is formed by puncning a conductive metal plate 36 having a thickness equal to that o- the terminal 11. The holders 54 are formed by punching the metal plate 56 In parallel with each other via 2 connecting portion 58 B connecting a carrier 57 and the holder 54. Therefore, the thickness T2 of the holder 54 is equal to that T1 of the terminal 11.
no to Fig. 8 a pair Of slide member- installing portion 32 2 project from each of both side walls 10f no 3h of the housing 10. The side walls 10f and 10h are disposed at both ends or the housing 10 in the longitudinal direction thereof. Upper and lower sandwiching portions 32a and 32b cf the rict installing portion 22 are cut widthwise from the terminal-inserting side (X) to form steed concave portions 57a and 57b,
The housing 10 according to the second embodiment is formed by injecting insulating resin into a mold 60' shown by a two-dot chain line of Fig. 8.
The housing 10 accommodates a plurality of terminal receiving openings 15 arranged In parallel with each other as shown In Fig. S. Therefore, normally, the resin is lowed in a direction shown by an arrow (B), namely, from the side wall 10f to the side wall Oh so as to flow the resin smoothly in tne old 60' and prevent a shrinkage cavity from being formed.
In the second embodiment, in order to form the housing 10, gate positions (G) are set on the concave portions 57a and 57b so as to Inject resin into the mold 60 from resin-injecting holes 60'h and 60'i corresponding to each gate position (G).
Although two gate positions (G) are formed on the housing 10 in the second embodiment, one gate position (G) may be formed to form the housing 10.
The conductor 2 is sandwiched between insulating films or sheets similarly to the conventional art, and an upper insulating film is cut at the leading end thereof to expose a conductor to the outside. The reinforcing plate 58 is fixed to the lower surface of a lower insulating film as shown in Figs. 10A and 10B.
The method o installing the connector on the base plate and connecting the terminal and the flat cable to each other are described below.
First, the terminal 11 is inserted into the opening 15 of the housing 10, and the holder 54 is inserted into the cut-out opening 35.
When then holder 54 inserted into the cut-out opening 55 is in the vicinity of the insertion completion position, the projection 54c formed on the connecting portion 54c is pressed against the vertical inner surface of the housing 10, thus being tightly fixed to the cut-out opening 55. Upon completion ot tne insertion of the holder 54, the lower surface of the lower arm 54b of the holder 54 becomes flush with the lower surface of the housing 10, and the upper surface of the upper arm 54a of the holder 54 becomes flush with the upper surface of the housing 10.
The holding portion 29 of the slide member 12 is inserted into the installing portion 32 of the housing 10 to fix the slide member 12 to the housing 10.
Then, the housing 10 is mounted on the base plate 9 with the terminal 11, the slide member 12, and the holder 54 installed therein.
As shown scnematically in Fig. 11, the end surface of upper and lower portions 32a and 32b, namely, the right and left end surfaces of the housing 10 are sandwiched by arms 102a and 102b of an automati@ chuck 102. The concave portions 57a and 57b do not contact the arm 102b owing to the above described con guration. Even though gate remainders 59 are formed on the gate position (G) set on the concave portions 57a and Tb, the gate -emaincers 59 do not contact the arm 102b either. Accordingly, in the connector according to the second embodiment, the center L1 of the chuck 102 and the center L2 of the housing 10 coincide with each other.
Then, the center L1 of the chuck 102 is made to be coincident with the housing-installing position (X) set on the base plate 9. As 2 result, the center L2 of the housing 10 coincides with the housing-installing position (X). In this manner, the housing 13 can be placed in position on the base plate 3.
Thereafter, the chuck 102 is moved toward the base plate 9 as shown by an arrow (A) of Fig. 11 to mount the housing 10 on the tase plate 9.
The lower surface of the housing 10 is brought into contact with the upper surface of the base plate 9, and the lower surface of the lower arm 54b of the holder 54 flush with the lower surface of the housing 10 is placed on a pat 9a disposed on the base plate 9. The lower surface of the lead portion 23 of each terminal 11 projecting from the housing 10 is brought into contact with the upper surface of a pat 9b disposed on the base plate 9.
Then, the lower surface of the holder 54 and that of the lead portion 23 are soldered with the pat 9a and the pat 9b, respectively.
Since the concave 54e is formed on the bottom surface of the lower arm 54b of the holder, solder is stored in the concave 54e in soldering operation. Thus, even though the lower arm 54b is thin, the arm 54b can be soldered to the base plate 9 reliably.
The flat cable 3 is inserted into the opening 15 of the housing 10 by using the slide member 12 so as to connect the flat cable 3 ts the terminal 11, with the housing 10 fixed to te base oiate 9.
That is, referring to Fig. 10A, the slide member 12
is returned to temporary locking position of the housing 10.
Then, the flat cable @ is inserted between the contact arm 20 of the terminai 11 and the positioning arm 11 along the upper surface of the slide member 12.
Thereafter, the slide member 12 is pressed to dispose it at the main locking position. As a result, the pressing portion 29 brings the flat cable 3 into contact with the contact arm 10 elastically. In this manner, the terminal 11 and the flat cable 5 are connected with each other.
is described above, the gate positions are formed on the concave portions or the housing. Therefore, even thougn gate remainders are formed on the gate positions, the gate remainders de not contact the arm of the chuck.
Accordingly, the center of the chuck and the center of the housing coincide with each other. Then, the center of the chuck is made to be coincident with the housing-installing position set on the base plate. As a result, the center of the nousing coincides with the housing-installing position.
..s manner one nousing can be placed in position on the rase gate.
The holder for fixing the housing to te base plate ane the forked terminal are punched out from the same metal plate. Therefore, the holder can be manufactured at a low Cost. Moreover, the holder can be shaped to be as thick as one terminal. Therefore, a compact housing can be manufac
The projection formed on the holder is pressed against the Inner surface of te housing. Thus, the holder can be tightly fixed to the housing.
'The holder is thin but the concave cor storina solder is ormer on the bottom surface thereof. Thus, the holder can be soldered to the base plate at a high strength.
As described above, in the connector according to the present invention, there is formed a contact portion, comprising a pair of projections formed widthwise in opposite directions, on the lower surface of the leading end of the contact arm to make the contact area of the contact portion large. Therefore, even though the conductors of the flat cable are disl@cated more or less from a predetermined insertion position, the conductor is allowed to reliably contact the contact portion of the terminal. That is, althougn the conductor is circular and thus the contact area is small, the conductor can be reliably brought into con@act with the contact arm of the terminal.
Althougn the present invention has been filly described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications are apparent to tiose skilled in the art. Such changes and modifications are to be understood as included within the scope of the present
invention as defined by the appended claims unless they depart therefrom.
Claims (4)
1. A terminal for an electrical connector, the terminal being formed from a flat plate and comprising a first contact arm and a second positioning arm extending substantially parallel to one another from a common connecting portion, first and second projections extending from the positioning arm, the projections being engageable in use in a housing in order to locate the terminal within the housing, and wherein the first projection is situated nearer to the leading end of the positioning arm than the second projection and the first projection extends from the arm a smaller distance than the second projection.
2. A connector comprising: a plurality of terminals, a flat cable provided with a plurality of conductors to be connected with the terminals, an insulating housing into which the terminals and the flat cable are inserted in opposition to each other; and a slide member for pressing each conductor of the flat cable against each terminal, wherein::
each terminal is formed by punching a conductive metal plate into a forked configuration and comprises a contact arm, a positioning arm projecting horizontally parallelly in the same direction from one side of a vertical connecting portion thereof, and a first projection and a second projection both formed on an upper surface of the positioning arm or a lower surface thereof in such a manner that the first projection is disposed at a inserting side into the housing, the second projection is disposed backward of the first projection and a height of the first projection is smaller than that of the second projection,
the insulating housing is integrally formed out of resin and comprises a plurality of slit-shaped through-openings, extending horizontally and arranged in parallel with each other in the widthwise direction thereof, for receiving terminals from an opening portion disposed at one side thereof and receiving the flat cable and the slide member from an opening portion, disposed at the other side thereof, in which the through-openings communicate with each other, and an intermediate wall extending from a terminalinserting side of the housing into each throughopening, thus partitioning each through-opening into an upper opening for receiving the contact arm of the terminal and a lower opening for receiving the positioning arm of the terminal,
the flat cable comprises a flexible insulating sheet and a plurality of conductors spaced at regular intervals in parallel with each other on the flexible insulating sheet, and is inserted into the housing from the opening portion disposed at the other side of the through-openings so that the flat cable is disposed between the contact arm and the positioning arm, and
the slide member is integrally formed out of resin, inserted between the flat cable and the positioning arm of each terminal, and presses the flat cable against the contact portion of the contact arm elastically.
3. A terminal substantially as hereinbefore described with reference to and as illustrated in
Figures 1 to 12.
4. An electrical connector substantially as hereinbefore described with reference to and as illustrated in Figures 1 to 12.
Applications Claiming Priority (7)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6405192U JPH0629022U (en) | 1992-09-14 | 1992-09-14 | connector |
JP6405592U JP2588322Y2 (en) | 1992-09-14 | 1992-09-14 | connector |
JP6691492U JP2589514Y2 (en) | 1992-09-25 | 1992-09-25 | connector |
JP1992066915U JP2589315Y2 (en) | 1992-09-25 | 1992-09-25 | Board mounted connector |
JP7454392U JP2589106Y2 (en) | 1992-10-26 | 1992-10-26 | connector |
JP7454492U JP2591930Y2 (en) | 1992-10-26 | 1992-10-26 | connector |
GB9319040A GB2272585B (en) | 1992-09-14 | 1993-09-14 | Electrical connector |
Publications (3)
Publication Number | Publication Date |
---|---|
GB9601440D0 GB9601440D0 (en) | 1996-03-27 |
GB2295504A true GB2295504A (en) | 1996-05-29 |
GB2295504B GB2295504B (en) | 1996-08-21 |
Family
ID=27562898
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB9601440A Expired - Fee Related GB2295504B (en) | 1992-09-14 | 1993-09-14 | Electrical connector |
Country Status (1)
Country | Link |
---|---|
GB (1) | GB2295504B (en) |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5249988A (en) * | 1992-06-04 | 1993-10-05 | Foxconn International, Inc. | Connector and contact therein having enhanced retention and high flexibility |
-
1993
- 1993-09-14 GB GB9601440A patent/GB2295504B/en not_active Expired - Fee Related
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5249988A (en) * | 1992-06-04 | 1993-10-05 | Foxconn International, Inc. | Connector and contact therein having enhanced retention and high flexibility |
Also Published As
Publication number | Publication date |
---|---|
GB9601440D0 (en) | 1996-03-27 |
GB2295504B (en) | 1996-08-21 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
PCNP | Patent ceased through non-payment of renewal fee |
Effective date: 20020914 |