DE19508218A1 - Connector arrangement with double eccentric - Google Patents

Description

This invention relates to a connector assembly at least two interconnectable housing parts and a lever that makes electrical contact between the housing parts against a possibly considerable Insertion resistance facilitated and, if necessary, the interlocking inserted housing parts locked in this position.

A connector assembly according to the preamble of the An Proverb 1 is known from WO 94/14212.

The range of rotation of the lever of such a connector order is usually on an angle of the order of Limited to 90 °. This also means the length of the plug-in path, within which the lever support the insertion movement can, limited, as will become clear below.

The shape of the cam track can be in one around the journal centered polar coordinate system as a function R (ϕ) of the Describe the azimuth angle ϕ. Under the incline of the train the derivative dR / dϕ against the azimuth angle understood who the.  

Fig. 4 shows the operation of such a known lever. The lever 5 is articulated to a first plug part 1 via an axis 7 . The cam track 10 encompasses a slider 4 on the second plug part 2 and touches it at point P. The two plug parts can be displaced relative to one another in the plugging direction, which corresponds to the direction of the connection between the axis 7 and the slider 4 . The cam track 10 forms an angle α at point P with the direction of insertion. The force F exerted perpendicularly by the cam track on the slider 4 decays an effective component F _∥ parallel to the _{direction of displacement} and a component F _┴ perpendicular _thereto . These two components are proportional cos α and sin α.

Since the possible angle of rotation of the lever is limited, if the mating distance is to be extended, the slope of the Cam track, and accordingly the angle α, increased will. As you can easily see, however, it increases with increasing Angle α the effective force component, and the plug direction vertical force component, the only annoying Rei exercise creates, increases. Therefore, such a lever is un Support of the insertion movement is only suitable if the Plug-in path is short.

The object of the invention is therefore to provide a connector order with a lever supporting the insertion movement to create that is also suitable for longer mating distances.

This object is achieved by the features of the claim 1. Subclaims are preferred embodiments of the Invention directed.

In the connector arrangement according to the invention, unlike in FIG. 4, the lever has no fixed axis. Instead, two cam tracks are provided, each of which engages with sliders of the first or second housing part. If in such a construction both Nockenbah NEN based on a common center of rotation have the same slope as shown in Fig. 4, it is easy to understand that at the same angle of rotation, the movement of the hous seteile the connector assembly against each other in an arrangement according to the invention twice as large which is traditional. However, since the slopes of the cam tracks have remained the same, the proportionate distribution of the forces between active forces parallel to the plug-in movement and loss forces perpendicular to it is the same as in the conventional arrangement. In return, it is also easy to understand that with the same plug-in path, the pitch of the cam tracks of a connector arrangement according to the invention only has to be half as large as in a conventional example, so that a more favorable distribution of the force applied to effective same and loss forces is achieved, ie the lever is easier to operate. This reduces the mechanical stress, so that the entire connector assembly can be built more easily.

The center of rotation of the lever is preferably through a Axle defined in a guide device, before preferably one in the direction of insertion of the connector assembly oriented slot, is guided.

Basically, a connector according to the invention can rearrange multiple groups of contacts and multiple levers grasp. The groups of contacts can e.g. B. conventional Be connectors that are by a bracket or in a Device wall can be combined into an arrangement. In In such cases, the management organization (s) and the  (or the) lever on the bracket and the first slider on the Device wall must be attached.

Furthermore, e.g. B. two connectors on both sides a lever or the associated guide device be arranged so that they can be operated by operating only one lever Can be brought in contact. Groups of Contacts can be arranged between two levers. In In this case, it is particularly advantageous if the guide devices are side walls of the first housing part, in that the second housing part is inserted.

Further features and advantages result from the description Exercise of an embodiment of the invention using the Characters. Show it:

Figure 1 shows the components of a connector assembly according to the invention.

Fig. 2 shows the connector assembly of Fig. 1 with the open and

Fig. 3 with closed lever;

Fig. 4 shows the operation of a known plug connector arrangement.

Fig. 1 shows a side view of a contact housing 1, a to be inserted into the contact housing mating connector 2, both each having sliders 3, 4 cylindrical in form of processing in view Rich laterally projecting knobs, and a lever 5 for drawing together these two housing parts 1, 2 . The lever 5 shown is connected via a web 6 running in the direction of view of the figure to a underlying, con gruent second lever, which is not visible in the figure. The web 6 and the two levers 5 form a U-shaped bracket which can engage around the contact housing 1 on two sides, the axle journals 7 of the levers engaging in elongated holes 8 of the contact housing 1 provided for this purpose. The spindles 7 have a shank portion, the hole diameter and length substantially equal to the width of the slot 8 and the wall thickness of the contact housing 1 at the edge of the elongated equal to 8, and a head portion with a larger diameter, which comes to lie within the contact housing 1, and prevents the axle pins 7 from escaping in the axial direction when loaded. Each lever 5 has two cam tracks 9 , 10 in the form of spiral grooves which are diametrically opposed to each other on the journal 7 . One of these cam tracks 9 is closed all around and is provided for receiving a knob 3 , which is arranged on the contact housing 1 in the extension of the elongated hole 8 . When assembling the connector, the journals 7 are inserted into the elongated holes 8 until the knobs 3 first elastically spread the edge regions 11 of the levers 5 from the contact housing 1 and finally snap into the closed cam tracks 9 . In order to facilitate this, the outer edge region 11 of each lever 5 can be provided with a chamfer in the region of this cam track 9 or can be bent slightly outwards. The second, open cam track 10 is provided for receiving the knob 4 of the mating connector 2 . If the levers 5 are in the orientation shown, the mating connector 2 can be freely inserted into the connector housing 1 until the knobs 4 passing through the elongated holes 8 abut the inner side of the tracks 9 . This state is shown in Fig. 2 ge. The plug connection is closed by turning the lever 5 clockwise around the axle pin 7 . In Lau fe of rotation, the journal 7 penetrates deeper into the slot 8 , so that the center of the rotation is constantly shifting in the direction of insertion. In the ge shown in Fig. 3 position, the journal and the knobs have reached the end of their tracks, and the contact is closed.

Without turning or destroying the lever again, the two housing parts 1 , 2 cannot be separated from each other in this position. Known locking means can be provided to lock the lever 5 in the closed position.

The cam tracks shown in Figs. 1-3 are in the form of Archimedean spirals. The slope of Archimedean spirals is independent of the angle of rotation, so that this shape is particularly well suited if the insertion resistance of the housing parts is to remain essentially the same over the entire path in which the lever is effective. It can occur that in places the insertion resistance is particularly large, e.g. B. when the contact pins of the connector begin to penetrate into the associated sockets. In order to be able to easily overcome this increased resistance, it can make sense to change the shape of the cam tracks z. B. pieces from several parts of Archimedes spirals with different gradients, the gradient is chosen gerin ger, the greater the resistance to be overcome, so that the closing force to be applied to the lever and consequently also the mechanical load of the connector to level.

Claims (13)

1. Connector arrangement with
a first housing part ( 1 ) with at least one first contact;
a second housing part ( 2 ), for insertion into the first housing part, with at least one second contact which is complementary to the first contact (s);
at least one lever ( 5 ) which is pivotable between an open position in which the two housing parts ( 1 , 2 ) can be separated from one another and a closed position in which the separation of the housing parts is not possible; and
a first cam track ( 10 ) which is firmly connected to the lever ( 5 ), and
a first slider ( 4 ), which is connected to one of the housing parts ( 2 ), can be brought into engagement with the first cam track ( 10 ) in the open position of the lever and, when the lever is rotated, is guided and displaced by the first cam track becomes;
characterized in that
a second cam track ( 9 ) and a second slider ( 3 ) are in engagement with one another and are connected to the lever ( 5 ) or the other housing part ( 1 ), so that when the lever ( 5 ) is turned, the second slider ( 4 ) is moved on the second cam track ( 10 ). 2. Connector arrangement according to claim 1, characterized in that the lever ( 5 ) about an axle pin ( 7 ) is rotatable. 3. Connector arrangement according to claim 2, characterized in that with the first housing part ( 1 ) a guide device is fixedly connected, which receives the axle journal ( 7 ) in an elongated hole ( 8 ) oriented in the direction of insertion of the connector arrangement. 4. Connector arrangement according to one of claims 1 to 3, characterized in that at least one of the sliders ( 3 , 4 ) is a pin which engages in the associated cam track designed as an elongated hole ( 9 , 10 ). 5. Connector arrangement according to one of claims 1 to 4, characterized in that at least one of the sliders has a pair of protrusions are the raised trained cam track embraces. 6. Connector arrangement according to one of claims 1 to 5, characterized in that the housing parts ( 1 , 2 ) each comprise two groups of contacts arranged on both sides of the lever ( 5 ). 7. Connector arrangement according to one of claims 1 to 5, characterized in that the housing parts ( 1 , 2 ) each comprise a group of contacts arranged between two He lever ( 5 ). 8. Connector arrangement according to claim 7, characterized in that the levers rigidly connected for simultaneous movement are. 9. Connector arrangement according to claim 3 and claim 7 or 8, characterized in that the guide means Sidewalls of the first housing part are. 10. Connector arrangement according to claim 9, characterized in that the slider of the second housing part ( 2 ) in the closed position of the lever through the elongated hole ( 8 ) of the guide device through it engages with the cam track ( 10 ). 11. Connector arrangement according to one of claims 1-10, characterized in that the second cam track ( 9 ) is shaped such that it cannot come out of engagement with its slider ( 3 ) by rotating the lever ( 5 ). 12. Connector arrangement according to one of claims 1-11, characterized in that the local slope of the cam tracks is selected that the resistance of the lever to rotation essentially Chen is independent of the insertion resistance of the housing parts.   13. Connector arrangement according to one of claims 1-12, characterized in that the local slope of the cam tracks is all the smaller is selected, the greater the insertion resistance of the housing share is.