Disclosed is a multi-terminal connector for use in connecting wire harnesses and the like. The multi-terminal connector is capable of improving operability and reliability in the process of inserting a terminal by achieving smooth insertion of the terminal while arranging a terminal guiding surface on an inner wall of a terminal accommodating chamber. A terminal guiding surface that is inclined is arranged on a ceiling of a terminal accommodating chamber of a connector housing. When a terminal is inserted slightly obliquely, a holding portion of the terminal comes in contact with the terminal guiding surface to automatically correct the direction of advance of the terminal, thereby preventing defective insertion such as the terminal being caught in the terminal accommodating chamber.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The device relates to multi-terminal connectors used for connecting wire 
harnesses or the like applied to electric circuits of vehicles. 
2. Related Art 
Wire harnesses are generally connected to various electric components by 
branching a main line into a plurality of lines and inserting male or 
female connectors provided on ends of such branched lines, the main line 
being formed by collecting a number of wires while taping. The connecting 
system with male and female connectors must involve numerous connectors on 
an instrument panel of an automobile where many switches and meters are 
congested, thereby entailing not only much labor and time for connection, 
but also a large space dedicated for connection. 
To overcome this problem, the use of multi-terminal connector is proposed. 
The multi-terminal connector, having more than several tens of terminal 
accommodating chambers, can intensively accommodate connectors having a 
small number of terminals per electric component. For example, a connector 
disclosed in Japanese Patent Examined Publication No. 12391/1990 has many 
terminal accommodating chambers 2 in a connector housing 1 as shown in 
FIGS. 7 and 8, and is securely fitted with a counterpart connector housing 
(not shown) with a locking bolt 3. In order to prevent the accidental 
removal of terminals 4, terminal holding pins 5, juxtaposed so as to be 
comblike on a holder 6, are inserted into through holes 7 disposed so as 
to communicate with the respective terminal accommodating chambers 2 from 
an outer peripheral wall of the connector housing 1, so that the terminal 
holding pins 5 can be fitted with holding portions 8 of the respective 
terminals 4 to thereby hold the terminals 4 in the terminal accommodating 
chambers 2. The through holes 7 are arranged so as to pass through the 
respective terminal accommodating chambers 2. 
Each through hole 7 is disposed so as to pass through a ceiling 2a and side 
walls 2b of the terminal accommodating chamber 2, and is designed to hold 
the terminal 4 by inserting the terminal 4 into the terminal accommodating 
chamber 2, inserting the terminal holding pin 5 having such a sectional 
profile matching the through hole 7 as shown in FIG. 9, and thereafter 
fitting an end portion 5a of the terminal holding pin 5 with a rear end 
edge 8a of the holding portion 8 of the terminal 4. 
On the other hand, on a bottom wall 2c of the terminal accommodating 
chamber 2 includes a flexible holding arm 9, so that the terminal holding 
pin 5 and the terminal 4 can be held doubly by fitting a holding 
projection 8c with the holding arm 9. The holding projection 8c is formed 
by cutting and bending a central portion between a conductor connecting 
portion 4a and an electric contact portion 4b of the terminal 4. 
However, in the process of inserting the terminal 4 into the terminal 
accommodating chamber 2, what happens often is that the terminal 4 is 
inserted slightly obliquely as shown in FIG. 11 and, as a result, a front 
end edge 8b of the holding portion 8 of the terminal 4 abuts against a 
front wall 7a of the through hole 7, thereby preventing the terminal 4 
from being inserted into a predetermined position shown in FIG. 10. The 
operation of adjusting the position of the terminal is extremely labor- 
and time-consuming. Thus, extremely low productivity and defective 
insertion of terminals are potential serious problems to be encountered by 
the multi-terminal connector. 
SUMMARY OF THE INVENTION 
The device has been made in view of the above circumstances. Accordingly, 
the object of the device is to provide a multi-terminal connector capable 
of preventing defective insertion of terminals and improving operability 
and reliability by disposing a terminal guiding surface on an inner wall 
of each terminal accommodating chamber of the connector housing. 
To achieve the above object, the device is applied to a multi-terminal 
connector that includes through holes that pass through terminal 
accommodating chambers from an outer peripheral wall of a connector 
housing, the terminal accommodating chambers being juxtaposed inside the 
connector housing. Terminal holding pins are inserted into the through 
holes so that terminals having been inserted into the terminal 
accommodating chambers can be fitted with the terminal holding pins and 
the terminals can be held inside the connector housing. In such a 
multi-terminal connector, a terminal guiding surface that is inclined in a 
terminal advancing direction on the inner wall of each terminal 
accommodating chamber on which the through hole is arranged is formed, so 
that the terminal can be inserted into the terminal accommodating chamber 
smoothly. 
The multi-terminal connector of the device is provided as arranging the 
inclined terminal guiding surface on the inner wall of each terminal 
accommodating chamber of the connector housing. As a result of such 
construction, when a terminal is inserted into the terminal accommodating 
chamber slightly obliquely and a part of the terminal brings into contact 
with the terminal guiding surface, the terminal guiding surface 
automatically corrects the advancing direction of the terminal along the 
inclination thereof, so that the terminal can be inserted into a 
predetermined position. Thus, not only defective insertion of terminals 
can be prevented, but also the operation of inserting the terminal holding 
pins to be inserted into the corresponding through holes can be performed 
smoothly.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
FIG. 1 is a longitudinal sectional view of a connector housing 10 
constituting a multi-terminal connector, which is an embodiment of the 
device. 
The connector housing 10 includes numerous terminal accommodating chambers 
11 therewithin, and has a bolt hole 12 for engageably fixing a counterpart 
connector housing in the middle thereof. Reference character 12a 
designates a nut. Each terminal accommodating chamber 11 has a through 
hole 13 so as to pass not only adjacent terminal accommodating chambers 
but also the connector housing 10 through. 
Terminals accommodated in the terminal accommodating chambers 11 are 
collectively held by inserting such terminal holding pins 15 as shown in 
FIG. 2 into the respective through holes 13. The terminal holding pins 15 
are arranged so as to be comblike on a terminal holding holder 14. 
As shown in FIG. 3, each terminal accommodating chamber 11 includes four 
inner walls: a ceiling 11a, mutually confronting side walls 11b, and a 
bottom wall 11c. The bottom wall 11c has a flexible holding arm 11d for 
holding the terminal. 
The ceiling 11a and the side walls 11b have the through hole 13 that passes 
through the connector housing 10. The through hole 13 is a hole formed of 
a through hole portion X formed on the ceiling 11a and a through hole 
portion Y formed on the side walls 11b. 
At a joint 13a between the through hole 13 and the ceiling 11a that is on a 
side remote from a terminal inserting inlet 11e is a terminal guiding 
surface 16. The terminal guiding surface 16 is formed as a projection of 
the ceiling 11a. The terminal guiding surface 16 has an inclination 
lowering in the terminal entering direction relative to the bottom wall 
11c from a front end portion 16a thereof that is on a side close to the 
terminal inlet portion 11e of the terminal accommodating chamber 11 to a 
joint 16b thereof which is even with the ceiling 11a. 
On the other hand, as shown in FIG. 2, each terminal holding pin 15 is 
arranged so as to be slidable along the through hole 13 by disposing 
grooves 15a in the longitudinal direction thereof, the grooves 15a 
matching the profile of the terminal guiding surface 16. 
An operation of the terminal guiding surface 16 at the time a terminal is 
inserted thereinto will be described next. 
FIG. 4 shows a state in which a terminal 17 has been inserted into the 
chamber 11 from the terminal inserting inlet 11e. 
The terminal 17 includes a conductor connecting portion 17a and an electric 
contact portion 17b. By cutting and bending a metal plate forming the 
terminal 17, a holding portion 18 and a holding projection 18c are 
arranged between the conductor connecting portion 17a and the electric 
contact portion 17b. The holding projection 18c is disposed at a position 
confronting the holding portion 18. 
In the process of inserting the terminal 17, when a front edge portion 18b 
of the holding portion 18 of the terminal 17 comes in contact with the 
terminal guiding surface 16, the terminal 17 slides along the inclination 
of the terminal guiding surface 16 as it advances as shown in FIG. 4 and 
is automatically inserted into a predetermined position as shown in FIG. 
5. At this point, the terminal 17 is held inside the terminal 
accommodating chamber 11 by the flexible holding arm 11d engaging with the 
holding projection 18c of the terminal 17. 
By inserting the terminal holding pin 15 into the through hole 13, the 
terminal 17 is doubly held with a rear edge portion 18a of the holding 
portion 18 of the terminal 17 engaging an end portion 15b of the terminal 
holding pin 15. 
Since the terminal holding pin 15 can be inserted with the terminal guiding 
surface 16 and the grooves 15a being used as references, the terminal 
holding pin 15 can be inserted into the connector housing 10 with ease. 
The through hole may take not only such form that the terminal guiding 
surface 16 of the ceiling 11a of the terminal accommodating chamber 11 
projects toward the inside of the through hole as shown in the 
above-described embodiment, but also such form that, as shown in FIG. 6, a 
terminal guiding surface 20 is formed so as to incline from the ceiling 
11a to a front wall 19a of a through hole 19. In a manner similar to the 
terminal guiding surface 16, the terminal guiding surface 20 has an 
inclination lowering from a joint 20a with the through hole 19 to a joint 
20b with the ceiling 11a toward the bottom wall 11c. A terminal holding 
pin to be inserted into the through hole 19 may be such that the sectional 
profile thereof matches the through hole 19. 
According to the device, the terminal guiding surface that is inclined is 
arranged in the terminal accommodating chamber of the connector housing. 
Therefore, in the case where a terminal is inserted slightly obliquely 
into the terminal accommodating chamber, the direction in which the 
terminal advances is automatically corrected along the inclination of the 
terminal guiding surface, thereby allowing the terminal to be inserted 
into a predetermined position surely. As a result, the terminal is no 
longer caught up at the time of insertion, thereby preventing defective 
insertion of terminals as well as facilitating smooth insertion of 
terminal holding pins. Thus, a multi-terminal connector with remarkable 
improvements in operability and reliability can be provided.