Automatic door panel-to-body trim panel electrical connector with lever

A connector connecting structure is provided. In this connector connecting structure, a door trim panel is joined to a door inner panel, and a first connector having following pins is engaged with a mating second connector with ease by virtue of a lever having slots for receiving the following pins. The first connector is connected to the mating second connector by virtue of the rotating operation of the lever. The door trim panel has a bracket to which the first connector is slidably provided and the lever is rotatably provided. The mating second connector and a pressure contact wall having a hook for the lever are provided to the door inner panel. The first and second panels are joined in the horizontal direction so as to rotate the lever and engage the first connector with the mating second connector.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a connector connecting structure for 
attaching a door trim panel to an inner door panel and engaging a male 
connector with a female connector with ease by virtue of a lever. 
2. Related Art 
FIG. 6 shows a conventional connector connecting structure disclosed in 
Japanese Patent Application Laid-Open No. 8-83645. 
In this structure, a male connector 41 can be easily engaged with a female 
connector 42 by virtue of a lever 43. A pair of following pins 44 protrude 
from the male connector 41. The female connector 42 has guide slots 45 for 
receiving the following pins 44, and a supporting shaft 46 for supporting 
the lever 43. The lever 43 has bearing holes 47 for bearing the supporting 
shaft 46, and slide slots 48 for receiving the following pins 44. 
The supporting shaft 46 is engaged with the bearing holes 47 so that the 
lever 43 is pivotally held by the female connector 42. The male connector 
41 is initially engaged with the female connector 42, so that the 
following pins 44 can be engaged with the guide slots 45 and the slide 
slots 48. The lever 43 is pressed forward (toward the male connector) so 
as to push the following pins 44 into the slide slots 48 and move them 
along the guide slots 45. By doing so, the male and female connectors 41 
and 42 are engaged with each other. 
In the conventional structure, however, the operator needs to hold the male 
connector 41 and the female connector 42 with both hands during the 
engagement operation. Especially when one of the connectors 41 and 42 is 
connected to a large member such as a door trim panel 2 or a door inner 
panel 1 of an automobile as shown in FIG. 7, the operator has to engage 
the connectors blindly through service holes 49. This results in poor 
efficiency in the engagement operation. 
In FIG. 7, a wire harness 50 is provided inside the door inner panel 1. One 
end of the wire harness 50 is connected to a connector 52 via a grommet 
51. The connector 52 is connected to an electrical connection box 54 on 
the side of the main body 53. The other end of the wire harness 50 is 
connected to a switch unit 55 on the side of the door trim panel 2. 
Switches 56 on the switch unit 55 are pressed so as to open and close a 
power window, and to move rearview mirrors. 
SUMMARY OF THE INVENTION 
The object of the present invention is to provide a connector connection 
structure for efficiently connecting a circuit on the door trim panel 
side, such as a switch unit, to a circuit on the door inner panel side 
using a lever with less force and effort. 
To achieve the above object, the present invention provides a connector 
connecting structure for engaging a first connector having following pins 
with a mating second connector by virtue of the pivotally operation of a 
lever having slide slots for receiving the following pins. This connector 
connecting structure has a bracket on the side of a first panel. The 
bracket is provided with the first connector which is slidable in the 
bracket and the lever which is pivotally mounted thereon. The mating 
second connector and a pressure contact wall for the lever are provided on 
the side of a second panel. The pressure contact wall may be provided with 
a hook unit for hooking the lever. The first connector is provided 
slidable in the horizontal direction, while the pressure contact wall 
extends perpendicularly when respect to the first connector. The first 
panel is laterally brought into contact with the second panel. Here, the 
lever can pivot freely, and both of the connectors can be engaged with 
each other. 
In this connector connecting structure, when the first panel and the second 
panel are joined to each other, the pressure contact wall presses and 
pivot the lever. By doing so, the first connector moves toward the mating 
second connector along the bracket. The first connector and mating second 
connector can be surely engaged with each other by the resultant force of 
the pressure of the first panel against the second panel and the forward 
thrust of the first connector generated by the pressed lever. Here, the 
lever is hooked by the hook unit. If the first panel is separated from the 
second panel, the hook unit pushes the lever to pivot in the counter 
clockwise direction, so that the first connector and mating second 
connector can be separated from each other. 
The above and other objects and features of the present invention will be 
more apparent from the following description taken in conjunction with the 
accompanying drawings.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
The following is a detailed description of an embodiment of the present 
invention with reference to the attached drawings. 
FIGS. 1 to 5 show the embodiment of the connector connecting structure of 
the present invention. 
FIG. 1 shows a door inner panel 1, a door trim panel 2, and a switch unit 3 
provided on the door trim panel 2. 
The door inner panel 1 is provided with a bracket 4. A male connector 5 of 
the harness is slidable with respect to the bracket 4 in the traverse 
(horizontal) direction. A lever 6 is pivotally mounted on the bracket 4, 
and the root of the lever 6 engages short cylindrical following pins 7 of 
the male connector 5. 
As shown in FIG. 4, the bracket 4 includes a box-like frame wall 8 and 
flanges 9 protruding laterally from the frame wall 8. The male connector 5 
is slidably held in a space 10 inside the frame wall 8. The flanges 9 are 
fixed onto the door inner panel 1 by inserting a bolt (not shown) into 
bolt holes 11. A pair of long guide slots 13 for receiving the following 
pins 7 are horizontally provided in the middle of the side walls 12 of the 
frame wall 8. Below the long guide slots 13, the lever 6 is rotatably 
supported by supporting shafts 14. The long guide slots 13 may be cut 
slits as shown by a chain line 13' in FIG. 4. 
The lever 6 takes the form of a rectangle minus one side, including two 
side arms 15 and one connecting arm for connecting the two side arms 15. 
An engaging hole 17 is formed in the middle of each side arm 15, and a 
straight slide slot 18 for receiving the respective following pins is 
formed at the root portion of each side arm 15. Each of the slide slots 18 
always crosses the corresponding guide slot 13 when moving the lever 6 
pivotally. The following pins 7 of the male connector 5 engage the slide 
slots 18 and are held slidably along the guide slots 13 in the horizontal 
direction. The length between the supporting shaft 14 and the connecting 
arm 16 is longer than the length between the supporting shaft 14 and the 
following pins 7 (slide slots 18), so that the lever 6 can have leverage. 
A female terminal 58 is inserted from the rear side of the male connector 
5. Wires 57 connected to the female terminal 58 are introduced from the 
inside of the frame wall 8 toward the door inner panel 1. The wires 57 
constitute a wire harness. The following pins 7 protrude from side walls 
20 of the male connector housing 19. The male connector housing 19 at a 
rear portion thereof and the female terminal 58 constitute the male 
connector. 
In FIGS. 1 and 5, a synthetic resin switch unit main body 22 includes a 
female connector (the other connector) 24 on a vertical back wall 23 at 
the side of the door inner panel 1. On the verge of opening of the female 
connector 24, a taper guide 25 is formed for aligning the male connector 
5. A male terminal 27 is provided inside a receiving chamber 26 extending 
to the taper guide 25. 
A pressure contact wall 28 vertically extends from the back wall 23 
downward. The pressure contact wall 28 is brought into contact with the 
connecting arm 16 of the lever 6. A hook 29 for hooking the connecting arm 
16 protrudes horizontally from the pressure contact wall 28 at the bottom. 
Movement of the hook 29 pivots the lever 6 when joining or separating 
connectors. 
Switches 31 and 32 on the switch unit 3 are pressed to drive a power window 
motor and rearview mirrors. The female connector 24 collectively connects 
the switch circuits to the male connector 5 on the side of the door inner 
panel 1 (see FIG. 1). 
In FIG. 1, the door trimpanel 2 is not joined to the door inner panel 1, 
and the male and female connectors 5 and 24 are not connected to each 
other. The male connector 5 on the side of the door inner panel 1 is 
inserted into the bracket 8, while the following pins 7 are situated at 
the deep end of the guide slots 13. The lever 6 is supported by the 
following pins 7, and the supporting shaft 14, and protrudes toward the 
door trim panel 2. The connecting arm 16 of the lever 6 is brought into 
contact with the pressure contact wall 28 of the switch unit 3, and 
becomes hooked by the hook 29. 
The door trim panel 2 is moved in the horizontal direction by a hook (not 
shown) at the upper end of the door trim panel 2 hooking the upper end of 
the door inner panel 1. By pushing the door trim panel 2 toward the door 
inner panel 1 in the horizontal direction in FIG. 1, the door trim panel 2 
is fixed to the door inner panel 1 by a clip (not shown). 
FIGS. 2 and 3 (an enlarged view of A of FIG. 2) show the door trim panel 2 
pushed toward the door inner panel. The pressure contact wall 28 of the 
switch unit 3 presses the lever 6 to pivot it clockwise, as shown by an 
arrow B in FIG. 1. By doing so, the male connector 5 protrudes forward 
from the bracket 4 and engages the female connector 24. Only a small 
pushing force is required for pushing the door trim panel 2 because of the 
leverage. If the lever 6 is positioned facing upward, it rotates 
counterclockwise. In such case, the hook 29 is provided at the upper side 
of the female connector 24. 
The following pins 7 situated at the deep end of the guide slots 13 move 
toward the front end of the guide slots 13, as shown in FIGS. 2 and 3. As 
the lever 6 moves toward the vertical position, the following pins 7 
approach the bottom end of the slide slots 18. The connecting arm 16 of 
the lever 6 slides downward along the pressure contact wall 28 to engage 
the hook 29. 
In this condition, the door trim panel 2 is separated from the door inner 
panel 1, with the upper end 36 (shown in FIG. 7) being the supporting 
point. Here, the hook 29 moves the lever 6 counterclockwise. Thus, the 
male connector 5 can be easily disconnected from the female connector 24. 
The hook 29 unhooks the connecting arm 16 of the lever 16 so as to release 
the door trim panel 2. 
As described so far, according to the present invention, connectors can be 
connected to each other at the same time of joining a door trim panel to a 
door inner panel, and the connectors can be disconnected from each other 
at the same time of separating the door trim panel from the door inner 
panel. Thus, the conventional manual operation used in connecting 
connectors becomes unnecessary, and the connector connecting operation and 
separating operation can be facilitated. The number of operation stages 
can also be reduced. Especially when engaging the connectors, the present 
invention is effective because the engaging force is made up of a pressing 
force of the door trim panel toward the door inner panel and the pressing 
force of the lever toward the engaging point. The present invention also 
eliminates the extra length required for the wire in the conventional 
connector connecting operation using a door harness. Thus, the wiring of 
the wire harness according to the present invention can be simpler than in 
the prior art. 
Although the present invention has been fully described by way of example 
with reference to the accompanying drawings, it is to be noted that 
various changes and modifications will be apparent to those skilled in the 
art. Therefore, unless otherwise such changes and modifications depart 
from the scope of the present invention, they should be construed as being 
included therein.