The invention generally relates to a lever type connector for reducing a mating force between the lever type connector and a mating connector. More particularly, the invention relates to a lever type connector having a lever pivotable between an initial position and a final position and a wire cover having an electrical wire lead-out opening that leads out electrical wires from either a first side or a second side of a housing of the lever type connector.
Lever type connectors for reducing the mating force between a lever type connector and a mating connector are well known.
A wire cover 120 accommodates the housing 110. The wire cover 120 comprises a cover main body 121 having a housing accommodating cavity 122 on an inside thereof. The housing accommodating cavity 122 opens on a first side surface of the cover main body 121. An electrical wire lead-out opening 123 is provided in the cover main body 121 and is continuous with the housing accommodating cavity 122. The electrical wire lead-out opening 123 opens on a first side surface of the cover main body 121. A flexible locking piece 124 is provided at a right end portion of an upper surface of the cover main body 121. A locking opening 124a that engages with one of the engaging projection members 112 is formed in the locking piece 124. An engaging groove 125 that can engage with the engaging projection member 112 is formed in a bottom surface of the cover main body 121 opposing the locking piece 124. A plurality of contact insertion openings 126 is formed in a mating surface of the housing main body 121.
A lever 130 is attached to the wire cover 120 in a pivotable manner. The lever 130 is substantially U-shaped and comprises a pair of legs 131 and a linking member 132 that connects the legs 131. Attachment openings 133 are formed in base members of the legs 131. The attachment openings 133 are fitted over shaft members 128 provided on the upper surface and undersurface of the cover main body 121 of the wire cover 120 so that the lever 130 is mounted in a manner allowing the pivoting of the lever 130 between an initial position and a final position. The lever 130 is maintained in the initial position shown in FIGS. 8A8B by holding projections 129 provided on the wire cover 120 that enter holding openings 134 formed in the legs 131. The lever 130 is maintained in the final position by holding projections 127 provided on the wire cover 120 that enter holding openings 135 formed in the legs 131. Cam grooves 135, which engaging pins (not shown) provided on a mating connector (not shown) engage, are formed in tip ends of the legs 131 of the lever 130.
When the lever 130 is located in the initial position, the wire cover 120 can be mounted on the housing 110 in the non-inverted orientation shown in
When the wire cover 120 is mounted on the housing 110 in the inverted orientation, the two surfaces of the wire cover 120, i.e., the upper surface and undersurface, are inverted, and the wire cover 120 is brought to the first side of the housing 110, as shown in
A mating connector (not shown) is then mated with the lever type connector 101 when the lever 130 is in the initial position. The lever 130 is then caused to pivot to the final position so that the engaging pins (not shown) provided on the mating connector (not shown) are drawn in along the cam grooves 135 in a mating direction. The mating operation of the mating connector (not shown) and lever type connector 101 is thus completed.
In the lever type connector 101 shown in
When the lever 230 is mounted in a direction in which the lever 230 is pushed over toward the first side of the housing 210 in the initial position, the wire cover 220 is designed to be locked with the housing 210 by sliding the wire cover 220 leftward in a direction of arrow A from the first side of the housing 210 with the electrical wire lead-out opening 221 in front. When the lever 230 is mounted in a direction in which this lever 230 is pushed over toward the second side of the housing 210 in the initial position, the wire cover 220 is designed to be locked with the housing 210 by sliding the wire cover 220 rightward from the second side of the housing 210 with the electrical wire lead-out opening 221 in front.
When the lever 230 is caused to pivot from the initial position to the final position, a mating connector (not shown) is moved in a mating direction (i.e., in the upward direction from the bottom in
In the lever type connector 201, the electrical wires (not shown) can be led out from either the second side or the first side of the housing 210 by the wire cover 220 that solely covers the electrical wires (not shown). Additionally, the lever 230 and the wire cover 220 are mounted on the housing 210. The size of the lever type connector 201 itself can therefore be reduced. However, in the lever type connector 201, when the lever 230 is mounted in a direction in which the lever 230 is pushed over toward the first side of the housing 210, in cases where the wire cover 220 is caused to slide rightward from the second side of the housing 210 with the electrical wire lead-out opening 221 in front, and in cases where the wire cover 220 is caused to slide leftward from the first side of the housing 210 with the side opposite from the side on which the electrical wire lead-out opening 221 is present in front, there is a danger that the wire cover 220 will still be locked with the housing 210. Additionally, when the lever 230 is mounted in a direction in which this lever 230 is pushed over toward the second side of the housing 210, even in cases where the wire cover 220 is caused to slide leftward from the first side of the housing with the electrical wire lead-out opening 221 in front, and in cases where the wire cover 220 is caused to slide rightward from the second side of the housing 210 with the side opposite from the side on which the electrical wire lead-out opening 221 is present in front, there is a danger that the wire cover 220 will still be locked with the housing 210.
In such cases, the mounting direction of the wire cover 220 becomes opposite of the originally intended direction, creating a problem in that the electrical wire lead-out direction ends up being opposite of the originally intended direction. When the mounting direction of the wire cover 220 becomes opposite of the mounting direction of the lever 230, the lever 230 is caused to pivot from the initial position to the final position and the lever 230 contacts the wire cover 220. The lever 230 therefore cannot pivot smoothly, and even if pivoting is possible, the lever 230 cannot be locked in the final position.
It is therefore an object of the invention to provide a lever type connector which makes it possible to lead out electrical wires from either side of a housing without increasing the size of the connector itself while avoiding the danger that the wire cover will be locked to the housing in cases where the wire cover is mounted in an opposite direction.
This and other objects are achieved by a lever type connector comprising a housing provided with a plurality of contacts having electrical wires extending therefrom. A lever is mounted on the housing so that the lever is either pushed over toward a first side of the housing or a second side of the housing in an initial position. The lever is pivotable between the initial position and a final position. A wire cover is slideably mounted on the housing and has an electrical wire lead-out opening that leads the electrical wires away from the housing. The wire cover is slideable from the first side of the housing toward the second side of the housing with the electrical wire lead-out opening positioned closer toward the second side of the housing when the lever is pushed over toward the first side of the housing to lock the wire cover to the housing, and the wire cover is slideable from the second side of the housing toward the first side of the housing with the electrical wire lead-out opening positioned closer toward the first side of the housing when the lever is pushed over toward the second side of the housing in the initial position to lock the wire cover to the housing. A lock preventing member is provided on the lever type connector and is configured to prevent the wire cover from locking with the housing when the wire cover is not slid from the first side of the housing toward the second side of the housing with the electrical wire lead-out opening positioned closer toward the second side of the housing when the lever is pushed over toward the first side of the housing in the initial position and when the wire cover is not slid from the second side of the housing toward the first side of the housing with the electrical wire lead-out opening positioned closer toward the first side of the housing when the lever is pushed over toward the second side of the housing in the initial position.
This and other objects are further achieved by a lever type connector comprising a housing provided with a plurality of contacts having electrical wires extending there from. The housing has recessed rail members extending from a first side to a second side of the housing, the recessed rail members have first and second locking recesses. The first locking recesses are provided on the first side of the housing, and the second locking recesses are provided on the second side of the housing. A lever is mounted on the housing so that the lever is either pushed over toward the first side of the housing or the second side of the housing in an initial position. The lever is pivotable between the initial position and a final position. A wire cover has an electrical wire lead-out opening that leads the electrical wires away from the housing. The wire cover has sliding claws that are received in the recessed rail members to slideably mount the wire cover to the housing. The sliding claws have locking projections that engage either the first projections or the second projections to lock the wire cover to the housing. A lock preventing member is arranged between the first locking recesses and the second locking recesses and prevents the wire cover from being locked to the housing in an incorrect orientation.
Opposing side walls of the seal accommodating member 12 are formed with recessed rail members 14 that extend in a left-right direction. First and second locking recesses 15a, 15b are formed in a surface of each of the side walls in each of the rail members 14. The first and second locking recesses 15a, 15b are in positions separated from each other by a specified distance in the left-right direction. The first locking recesses 15a are formed in a vicinity of right end portions of the side walls, and the second locking recesses 15b are formed in a vicinity of left end portions of the side walls. A lever supporting shaft 16 is provided on each side wall of the seal accommodating member 12 substantially beneath the rail members 14. First and second holding recessed members (not shown) are formed in each of the surfaces of the side walls of the seal accommodating member 12 of the housing 10 in positions separated from each other by a specified distance in the left-right direction.
The lever 30 is attached to the housing 10 in a pivotable manner such that the lever 30 can rotate between an initial position and a final position. The lever 30 is pivotable about 90 degrees from the initial position to the final position. The lever 30 is formed, for example, by molding an insulating resin. As shown in
The lever 30 is mounted in a pivotable manner as a result of the attachment openings 33 being respectively fitted over the supporting shafts 16 of the housing 10. In the initial position, the lever 30 can be mounted either in a direction in which the lever 30 is positioned on a first side of the housing 10 (right side in
The wire cover 20 is formed, for example, by molding an insulating resin. As shown in
When the lever 30 is mounted in a direction in which the lever 30 is pushed over to the first side of the housing 10 in the initial position, as shown in
On the other hand, when the lever 30 is mounted in a direction in which the lever 30 is pushed over to the second side of the housing 10 in the initial position, as shown in
The lever 30 can therefore be mounted in the initial position either in a direction in which the lever 30 is pushed over to the first side of the housing 10 or in a direction in which the lever 30 is pushed over to the second side of the housing 10. Accordingly, the electrical wires (not shown) can be led out from either the first side or second side of the housing 10. Moreover, because the lever 30 and the wire cover 20 are mounted on the housing 10 and the shape of the wire cover 20 is such that it covers the electrical wires (not shown) and leads out the electrical wires (not shown), it is possible to avoid an increase in the size of the lever type connector 1.
When the lever 30 is mounted in a direction in which the lever 30 is pushed over to the first side of the housing 10, as shown in
When the lever 30 is mounted in a direction in which the lever 30 is pushed over to the second side of the housing 10, as shown in
In order to avoid these problems, the lever type connector 1 includes a lock preventing member 40, as shown in
The first projections 37 and the second projections 27 are positioned in the left-right direction such that when the second projections 27 contact the first projections 37, it is possible to prevent the locking projections 26 provided on the sliding claws 25 from entering the second locking recesses 15b and being locked therewith when the lever 30 is mounted in a direction in which the lever 30 is pushed over toward the first side of the housing 10, in cases where the wire cover 20 is caused to slide rightward in the direction of arrow E from the second side of the housing 10 with the electrical wire lead-out opening 22 in front as shown in
In cases where the wire cover 20 is mounted on the housing 10 in the opposite direction, it is therefore possible to avoid locking the wire cover 20 with the housing 10 as a result of the locking projections 26 provided on the sliding claws 25 entering the second locking recesses 15b and being locked therewith or as a result of the locking projections 26 entering the first locking recesses 15a and being locked therewith. Accordingly, there is no possibility of the mounting orientation of the wire cover 20 becoming opposite of the originally intended direction, so that there is no possibility of the electrical wire lead-out direction becoming opposite of the originally intended direction.
The method of mating the lever type connector 1 with the mating connector (not shown) will now be described. As shown in
As shown in
Further, by providing the lock preventing member 40 on the lever 30 and the wire cover 20, in cases where the wire cover 20 is mounted on the housing 10 in the opposite direction, the locking of the wire cover 20 with the housing 10 can be avoided, so that the mounting direction of the wire cover 20 does not become opposite of the mounting direction of the lever 30. Accordingly, when the lever 30 is caused to pivot from the initial position to the final position, the problem of the lever 30 contacting the wire cover 20 can be avoided, and the problem of the lever 30 not being able to lock in the final position can also be avoided.
The foregoing illustrates some of the possibilities for practicing the invention. Many other embodiments are possible within the scope and spirit of the invention. For example, it is not necessary to construct the lock preventing member 40 from a pair of first projections 37 provided on the legs 31 and a pair of second projections 27 provided on the wire cover 20. Other possible methods for forming the lock prevented member 40 are possible, as long as the lock preventing member 40 prevents the locking of the wire cover 20 with the housing 10 so that incorrect mounting of the wire cover 20 on the housing 10 is prevented. It is, therefore, intended that the foregoing description be regarded as illustrative rather than limiting, and that the scope of the invention is given by the appended claims together with their full range of equivalents.
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2005-169887 | Jun 2005 | JP | national |
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20060281350 A1 | Dec 2006 | US |