[0001] The present invention relates to a connector using prismatic or rectangular contact
pins and cylindrical receptacle contacts for receiving the prismatic contact pins
and, more particularly, to a connector suitable as a waterproof surface-mounting connector.
[0002] A known conventional connector of this type uses cylindrical contact pins and cylindrical
receptacle contacts. When this connector is to be mounted on, e.g., a surface of a
printed circuit board, the pins cannot be perfectly brought into surface contact or
soldered with the surface of the board because the pins are cylindrical. This drawback
is very important when the number of contact pins is increased. Strong demand therefore
has arisen for the development of a highly reliable connector free from the above
drawback.
[0003] It is an object of the present invention to solve the conventional problem described
above, and has as its object to provide a connector coping with an increase in the
number of contact pins and suitable as a waterproof connector.
[0004] According to the present invention there is provided a connector characterized by
comprising a plurality of contact pins having a rectangular cross-section, a plurality
of receptacle contacts having a circular cross-section and adapted to receive corresponding
contact pins, and a housing having a plurality of storage grooves for respectively
receiving the receptacle contacts, each of said receptacle contacts being provided
with a contact spring formed on an outer circumferential surface of each receptacle
contact and a recessed portion formed on the circumferential surface of each receptacle
contact at a position opposite to said contact spring, said contact spring and said
recessed portion cooperating to hold a corresponding one of said contact pins which
is inserted therein.
[0005] By way of example, embodiments of a connector according to the invention will now
be described with reference to the accompanying drawings, in which:-
Figure 1A is a perspective view showing a contact pin and a receptacle contact of
a connector according to the present invention;
Figure 1B is a longitudinal sectional view of a connecting portion between the contact
pin and the receptacle contact;
Figure 1C is a sectional view of the connecting portion along the line A-A of Figure
1B;
Figure 2A is a longitudinal sectional view showing the main part of a connector according
to the present invention;
Figure 2B is a partially cutaway front view showing the main part shown in Figure
2A;
Figure 2C is a partially cutaway rear view of the main part shown in Figure 2A;
Figure 3 is a longitudinal sectional view showing a state wherein male and female
housings of the connector according to the present invention are fitted to each other;
Figures 4A and 4B are perspective views showing the main part of the male housing;
Figure 5A is a front view showing another embodiment of the present invention;
Figure 5B is a sectional view of the embodiment of Figure 5A along the line A-A thereof;
and
Figure 6 is an exploded perspective view of the female housing of the embodiment shown
in Figure 5A.
[0006] Figure 1A shows a contact pin 10 used in a connector according to the present invention
and a receptacle contact 20 for receiving the contact pin 10. The contact pin has
a square cross-section (the cross-section could be rectangular), and the receptacle
contact has a circular cross-section. There are pairs of contacts which are housed
in storage grooves 31 in a housing 30, as shown in Figures 2 to 4B. In this embodiment,
each receptacle contact has a dimple 23 on part of its outer circumferential surface
(the dimple 23 will be described in detail later). A ferrule may be formed at the
front end of each receptacle contact.
[0007] Figures 1B and 1C show a connecting state of each contact pin and a corresponding
receptacle. As shown in Figures 1B and 1C, the receptacle contact has a contact spring
21 formed on its outer circumferential surface and a recessed portion 22 formed on
the outer circumferential surface portion opposite to the contact spring 21. The contact
spring 21 and the opposite recessed portion 22 hold the inserted contact pin. In this
embodiment, the wall of a main body of the contact is partially cut and bent indward
to constitute the tongue-like contact spring 21.
[0008] Figures 2A to 2C show the housing in which receptacle contacts are mounted. As shown
in Figures 2A to 2C, the housing has lance members 32. Each lance member is engaged
with the recessed portion of the corresponding receptacle contact inserted into the
housing and holds this receptacle contact therein.
[0009] The receptacle contacts stored in the storage grooves of the housing respectively
receive the external contact pins inserted into the housing through insertion holes
33. As is apparant from Figure 2B showing the front surface of the housing, each insertion
hole has a square cross-section to receive a prismatic or rectangular pin.
[0010] As shown in Figures 2A to 2C, each receptacle contact is housed in the corresponding
storage groove such that a leading end of a wire 38 is terminated, and the terminal
end extends through a corresponding rubber bushing 35 fitted in a corresponding opening
34 formed at the rear portion of the housing. This bushing seals the corresponding
contact to obtain a waterproof structure.
[0011] The illustrated housing is a male housing which is then fitted in a female housing
40. In this case, the male housing is fitted in the female housing 40 such that a
latch projection of the female housing is fitted in a lock hole 37 formed in a latch
spring 36.
[0012] Figure 3 shows a detailed structure when the male and female housings are engaged
with each other. A member 41 for fixing the lance members respectively engaged with
the receptacle contacts is fitted in the front end portion of the male housing. However,
the member 41 may be omitted such that each lance member can be biased in the corresponding
storage groove.
[0013] The male and female housings are engaged with each other through a waterproof O-ring
42.
[0014] Each receptacle contact has directivity given by the dimple formed on its outer circumferential
surface. A guide groove 39 is formed in each storage groove of the housing to receive
the receptacle contact with a dimple.
[0015] The contact pins of this embodiment are mounted in a header surface-mounted on a
printed circuit board 50.
[0016] Figures 4A and 4B show a structure in which each groove 35B is formed in a through
hole 35A of each bushing to receive the corresponding receptacle contact with a dimple.
[0017] Figure 5 shows another embodiment in which an opening for housing the bushings is
partitioned by a partition wall 61. A plurality of receptacle contacts are housed
in the housing through each divided opening. Other arrangements of this embodiment
are the same as those of the previous embodiment. A plurality of bushings can be used
by forming a plurality of openings, so that an improvement of the waterproof effect
of the bushings can be expected. In order to improve the waterproof effect, the opening
can be partitioned by a large number of partition walls. For example, openings defined
by partition walls may be formed in units of storage grooves, and wires each with
a rubber bushing may be fitted in the openings, respectively. Alternatively, a rib
is formed at a lower portion of the rubber bushing in place of the partition wall,
and a fitting portion which can fit with the rib may be formed.
[0018] Figure 6 is an exploded view of the female housing. As shown in Figure 5, the female
housing comprises a housing body, O-rings 42, boards 50, and frames 51 from which
various pins 10 extend outward. In this case, a two-storey frame structure is sandwiched
between the upper and lower boards 50.
[0019] The structure of the connector has been described in detail and derives the following
unique effects.
[0020] Since the prismatic pin is used in the connector of the present invention, the connector
can be easily surface-mounted on, e.g., a surface of a printed circuit board. At the
same time, since the contact area between the connector and the board is increased,
soldering can be appropriately performed.
[0021] The prismatic pins can be formed by pressing and result in low cost as compared with
cylindrical pins (for example, the pins are connected by a plurality of carriers).
[0022] Since each prismatic pin can be clamped between the contact spring and the recessed
portion which latter two are formed in the corresponding receptacle contact, the pin
can be appropriately brought into contact with and electrically connected to the receptacle.
[0023] Although the prismatic connecting pin is used, the receptacle contact which receives
this has a circular cross-section, and therefore each pin easily extends through a
waterproof rubber bushing. Therefore, the connector of the present invention can also
serve as a waterproof connector.
1. A connector, comprising:
a plurality of contact pins (10) each having a rectangular shape in section;
a plurality of receptacle contacts (20) each having a substantially circular shape
in section; and
a housing (30) having a plurality of slots (31) each for receiving said receptacle
contact;
each of said receptacle contacts having a contact spring (20) provided on an outer
circumferential wall thereof and a recess (22) provided at an opposed portion to the
contact spring on the outer cirfumferential wall;
said contact pin being clamped and held between said said contact spring and said
recess.
2. A connector according to Claim 1, further comprising lance members (32) formed
in said slot, said lance member being engaged with the recess of said receptacle contact
inserted in said housing to hold said receptacle contact in said housing.
3. A connector according to Claim 1 or Claim 2, wherein said receptacle contact has
a dimple (23) provided on a part of the outer circumferential wall thereof, and said
housing has a groove (39) provided on an inner wall of said slot in spatial correspondence
to the dimple of said receptacle contact.
4. A connector according to any one of Claims 1 through 3, further comprising a bushing
(35) for sealing said receptacle contacts received in said housing, wherein said bushing
has through-holes (35A) for inserting therethrough a wire (38) terminated with said
receptacle contact, said bushing being fitted in an opening (34) of said housing.
5. A connector according to Claim 4, wherein said housing comprises a plurality of
openings for fitting said bushings therein, and said receptacle contacts are inserted
through each of said openings to be fitted in said housing.
6. A connector according to Claim 4, wherein said bushing comprises a guide groove
(35B) on a part of said through-hole for inserting said wire therethrough, said guide
groove corresponding to said dimple provided on the outer circumferential wall of
said receptacle contact.