KR20220071089A - Connector - Google Patents

Abstract

One aspect of the present invention relates to a connector, comprising: a plurality of male terminals extending in a first direction; a plurality of female terminals extending in a second direction opposite to the first direction; and a housing having terminal holes into which the male terminals and the female terminals are inserted. The male terminal includes a body portion and a terminal portion formed at one end of the body portion and having a bent structure. The terminal portion includes: a first plane area extending from the body portion; a second plane area extending in a direction different from that of the first plane area; a first connection area connecting the first plane area to the second plane area; and a second connection area located at one end of the second plane area. If the terminal unit is inserted into the housing, the inner surface of the housing applies pressure to the first connection area, and transmits the pressure to the second connection area such that the second connection area is in an electrical contact with the female terminal in a state in which the second connection area applies the pressure to the female terminal. The connector can simplify the connection process of the wire for transferring electric signals to a rear view device for a vehicle.

Description

connector {CONNECTOR}

The present invention relates to a connector for transmitting an electrical signal to a vehicle rear view device, and more particularly, a temporary assembly structure for accommodating the wire and a housing without individually connecting each wire to form the main assembly, so that the electrical signal is It relates to a connector to be delivered.

In general, in a vehicle, a rear view device is mounted on the outside of the left and right front doors in order for a driver to easily understand and monitor the left and right road conditions. In the case of folding or tilting the rear view device of the vehicle, an electrical signal is generally transmitted from the vehicle to the rear view device.

The rear-view device is provided with a connector for transmitting the supplied current to the rear-view module such as a driving means, and the supplied current is transmitted through a wire. However, when an operator connects the wires of the vehicle rear view device, it takes a lot of time by individually connecting each wire.

Accordingly, the present invention relates to a connector through which an electrical signal is transmitted by forming a temporary assembly structure for accommodating a wire and a housing to form a main assembly for a simpler wire connection operation within a rear view device.

One problem to be solved by the present invention is to provide a connector for a vehicle rear view device that can reduce the intensity of a wire connection operation.

According to an aspect of the present invention, a plurality of male terminals extending in a first direction; a plurality of female terminals extending in a second direction opposite to the first direction; a housing having a terminal hole into which the male terminal and the female terminal are inserted; a first planar area to be formed, a second planar area extending in a different direction from the first planar area, a first connection area connecting the first planar area and the second planar area, and one end of the second planar area and a second connection region to, when the terminal part is inserted into the housing, the inner surface of the housing applies pressure to the first connection region, and the pressure is transmitted to the second connection region so that the second connection region is connected to the second connection region. A connector may be provided in which the second connection region electrically contacts the female terminal in a state in which pressure is applied to the female terminal.

The connector according to the embodiment may simplify a connection process of a wire that transmits an electrical signal from the vehicle body to the rear view device for the vehicle.

1 is an embodiment of a side mirror equipped with a smart connector according to a first embodiment.
2 is an overall view of the smart connector according to the first embodiment.
3 is an exploded perspective view of the smart connector according to the first embodiment.
4 shows a housing according to the first embodiment.
Fig. 5 shows a male connector according to the first embodiment.
6 is a view showing a temporary assembly structure according to the first embodiment.
7 shows a male terminal position fixing member according to the first embodiment.
8 shows a male terminal according to the first embodiment.
9 is a view showing the shape of the male terminal before insertion into the housing according to the first embodiment.
Fig. 10 shows the shape of the male terminal after insertion into the housing according to the first embodiment.
11 is a cross-sectional view of the male connector according to the first embodiment of FIG. 5 .
12 shows a female connector according to the first embodiment.
13 shows the arm provisional assembly structure according to the first embodiment.
14 shows the female terminal position fixing member according to the first embodiment.
15 shows a female terminal according to the first embodiment.
16 is an enlarged view of the female terminal according to the first embodiment.
17 is a cross-sectional view of the female connector according to the first embodiment of FIG. 12 .
18 shows the assembly process of the smart connector according to the first embodiment.
19 is an overall view of the smart connector according to the second embodiment.
20 is an exploded perspective view of a smart connector according to the second embodiment.

The above-mentioned objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. However, since the present invention may have various changes and may have various embodiments, specific embodiments will be exemplified in the drawings and described in detail below.

In the drawings, the thicknesses of layers and regions are exaggerated for clarity, and also that an element or layer is “on” or “on” another component or layer. What is referred to includes all cases in which another layer or other component is interposed in the middle as well as directly on top of another component or layer. Throughout the specification, like reference numerals refer to like elements in principle. In addition, components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

If it is determined that a detailed description of a known function or configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, the suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves.

According to an aspect of the present invention, a plurality of male terminals extending in a first direction; a plurality of female terminals extending in a second direction opposite to the first direction; a housing having a terminal hole into which the male terminal and the female terminal are inserted; a first planar area to be formed, a second planar area extending in a different direction from the first planar area, a first connection area connecting the first planar area and the second planar area, and one end of the second planar area and a second connection region to, when the terminal part is inserted into the housing, the inner surface of the housing applies pressure to the first connection region, and the pressure is transmitted to the second connection region so that the second connection region is connected to the second connection region. A connector may be provided in which the second connection region electrically contacts the female terminal in a state in which pressure is applied to the female terminal.

The first planar area and the second planar area have a first connection angle before the terminal part is inserted into the housing, and the first planar area and the second planar area have a second connection angle when the terminal part is inserted into the housing. A connector having a connection angle, wherein the first connection angle is smaller than the second connection angle, may be provided.

The first distance, which is the shortest distance between the imaginary straight line passing through the second connection region and extending in the first direction, which is the insertion direction of the terminal, is the shortest distance between the first connection region, and the terminal part is inserted into the housing so that the second connection region is formed. A connector may be provided that is greater than a second distance that is the shortest distance between an imaginary straight line extending in the first direction passing through the second connection region in a state in contact with the female terminal and the first connection region.

a male temporary assembly structure that accommodates the plurality of male terminals and includes a male insertion unit and a male receiving unit; and a female temporary assembly structure accommodating the plurality of female terminals and including an arm insertion part and an arm receiving part, wherein when the male temporary assembly structure and the female temporary assembly structure form the main assembly with the housing, the male terminal A connector may be provided in electrical contact with this female terminal.

The male terminal includes a male projection bent in a direction from the body portion to the male temporary assembly structure, and the male temporary assembly structure is a connector comprising a male assembly groove capable of forming a temporary assembly by engaging the male projection can be provided.

In the male insertion part, a plurality of male terminal holes capable of accommodating the male terminals are formed at equal intervals along the circumference, and the male receiving part is connected to the male terminal holes so that the male terminals can be accommodated. a plurality of male seating grooves formed at equal intervals along A connector for forming a temporary assembly by hooking the protrusion to the male assembly groove may be provided.

The female terminal includes a female protrusion bent in a direction from the female terminal toward the female temporary assembly structure, wherein the female temporary assembly structure includes a connector including an arm assembly groove capable of forming a temporary assembly by engaging the female protrusion can be provided.

A plurality of female terminal holes capable of accommodating the female terminal are formed at equal intervals along the circumference of the female insertion unit, and the female receiving unit has an outer circumferential surface at a position connected to the female terminal hole so that the female terminal can be accommodated. and a plurality of arm seating grooves formed at equal intervals along each other, wherein the arm assembly groove is formed in the arm seating groove, and the arm seating groove has a shape corresponding to the female terminal and the female terminal is seated so that the arm protrusion A connector for forming a temporary assembly by being caught in the arm assembly groove may be provided.

The housing may further include a cable hole through which a cable is connected therein, and a signal transmitted by the cable may be provided with a different connector from a signal transmitted by the male terminal and the female terminal.

The housing further comprises a mounting portion for mounting on the rear view device,

A connector may be provided in which the housing is fixed to the rear-view device by the mounting portion being caught on at least a portion of the rear-view device.

The housing includes a base housing and a sub housing, the base housing includes a male terminal hole into which the plurality of male terminals are inserted and a first cable hole into which cables are inserted, and the sub housing includes a plurality of female terminals into which the plurality of female terminals are inserted. It comprises a female terminal hole and a second cable hole into which the cable is inserted,

A connector is provided, wherein the base housing is inserted into the sub-housing to communicate with the first cable hole and the second cable hole to form a cable hole, and the male terminal hole and the female terminal hole to communicate with each other to form a terminal hole can be

a male temporary assembly structure that accommodates the plurality of male terminals and includes a male insertion unit and a male receiving unit; and a female temporary assembly structure accommodating the plurality of female terminals and including an arm insertion part and an arm receiving part, wherein when the male temporary assembly structure and the female temporary assembly structure form the main assembly with the housing, the male terminal A connector may be provided in electrical contact with this female terminal.

Further comprising a male terminal position fixing member coupled to the male receiving portion to fix the position of the male terminal, wherein the male terminal position fixing member includes a first hook formed at one end and a second hook formed at the other end, , A connector may be provided in which the male terminal position fixing member is coupled to the male receiving portion by fastening the first hook and the second hook.

The male terminal position fixing member further includes a male temporary assembly part and a first main assembly part, and the male temporary assembly structure is connected to the male temporary assembly counterpart and the first main assembly part to form a male main assembly part as a whole. It includes an assembly part, and the coupling position of the male terminal position fixing member and the male temporary assembly structure is defined by the alignment of the male temporary assembly part and the male temporary assembly counterpart part, and the male main assembly counterpart formed in the housing and the male main assembly A connector in which the temporary assembly structure and the main assembly position of the housing are defined by negative alignment may be provided.

The base housing includes at least one male fixing member, the male terminal positioning member includes at least one male housing coupling part, and the male fixing member is engaged with the male housing coupling part to thereby be the male terminal positioning member A connector for fixing the may be provided.

and a female terminal position fixing member coupled to the arm receiving portion to fix the position of the female terminal, wherein the female terminal position fixing member includes a third hook formed at one end and a fourth hook formed at the other end, , a connector in which the female terminal position fixing member is coupled to the female receiving part may be provided by fastening the third hook and the fourth hook.

The female terminal position fixing member further includes an arm temporary assembly part and a third main assembly part, and the arm temporary assembly structure is connected to the female temporary assembly counterpart and the third main assembly part to form a female main assembly part as a whole. an assembling part, wherein a coupling position between the female terminal position fixing member and the arm temporary assembly structure is defined by the alignment of the arm temporary assembly part and the arm temporary assembly counterpart part, and the arm main assembly counterpart formed in the housing and the arm main assembly part are aligned A connector in which the female temporary assembly structure and the main assembly position of the housing are defined may be provided.

The sub-housing includes at least one arm fixing member, the female terminal positioning member includes at least one female housing coupling part, and the arm fixing member is fastened to the female housing coupling part, whereby the female terminal positioning member is fastened to the female housing coupling part. A connector for fixing the may be provided.

The body portion of the male terminal includes a first protrusion region and a second protrusion region formed to be spaced apart from the first protrusion region by a predetermined distance, and the male terminal is positioned between the first protrusion region and the second protrusion region spaced apart from each other. A connector may be provided in which a fixing member is coupled, and the first protruding area is caught by the male terminal position fixing member to prevent over-insertion of the male terminal.

The female terminal may include an inclined portion formed at an edge of the distal end to be inclined, and a connector capable of preventing bending of the terminal portion when the terminal portion is inserted into the female terminal due to the inclined portion may be provided.

The female terminal includes a third protrusion region and a fourth protrusion region spaced apart from the third protrusion region by a predetermined distance, and the female terminal position fixing member is spaced apart from the third protrusion region and the fourth protrusion region. is coupled, and the third protruding region is caught by the female terminal position fixing member to prevent over-insertion of the female terminal may be provided.

The base housing includes at least one alignment part, the sub-housing includes at least one alignment counterpart, and the alignment part and the alignment counterpart have a shape corresponding to each other, and the sub-housing is disposed within the base housing. A connector may be provided that prevents misassembly by aligning the alignment portion with the alignment counterpart when inserted.

The present invention relates to a connector that is mounted on a rear view device for a vehicle and transmits an electrical signal between the vehicle and the rear view device. More specifically, it relates to a smart connector including a provisional assembly structure for accommodating wires so that each wire of the connector does not have to be individually connected, and a housing forming the provisional assembly structure and the main assembly.

According to the first embodiment, the smart connector is mounted in a rear-view device for a vehicle, and transmits an electrical signal between the rear-view device for the vehicle and the vehicle.

In the following description of the present specification, the present invention will be described with reference to the drawings.

First, the overall configuration of the smart connector according to the first embodiment will be described with reference to FIGS. 1 to 3 .

1 is a diagram illustrating a rear-view device according to a first embodiment.

Referring to FIG. 1 , the rear-view device 1 according to the first embodiment may include a device housing 2 , a base housing 3 , and a smart connector 10000 .

The device housing 2 may be connected to the base housing 3 , and the base housing 3 may be connected to the vehicle body. The rearview device 1 may be mounted to the vehicle body by way of a base housing 3 connected to the vehicle body.

The device housing 2 may be a housing in which the rear view module 5 for providing side and rear information to the driver is installed.

The rear view module 5 may be a conventional type side mirror module. In addition, the rear-view module 5 may be a camera module that takes pictures of the information displayed on the back and side through the display.

When the rear-view module 5 is a conventional type side mirror module, the rear-view module 5 may include not only a reflector but also electronic components for additional control. For example, electronic components include an electrochromic element, a heater plate for heating the reflector, a tilting actuator for adjusting the angle of the reflector, a driving motor for folding/unfolding the mirror, and an indicator used for indicating the state of a vehicle. can

The base housing 3 may be a connection structure for fixing the device housing 2 to the vehicle body. The base housing 3 may provide a connection path for a wire that electrically connects the control unit 4 inside the vehicle and the rear view module 5 .

The smart connector 10000 may be located in the device housing 2 or the base housing 3 . Preferably, the smart connector 10000 may be installed in the device housing 2 .

The smart connector 10000 may electrically connect the control unit 4 and the rear view module 5 . The smart connector 10000 may be connected to the control unit 4 or the rear view module 5 through respective wires.

The wire may include a male wire 11000 and a female wire 13000 .

The smart connector 10000 may be connected to the control unit 4 through a male wire 11000 .

The smart connector 10000 may be connected to the rear view module 5 through the female wire 13000 .

The smart connector 10000 may more conveniently connect the male wire 11000 and the female wire 13000.

Figure 2 is a perspective view of the smart connector according to the first embodiment, Figure 3 is an exploded perspective view of the smart connector according to the first embodiment.

2 and 3 , the smart connector 10000 according to the first embodiment may connect a male wire 11000 and a female wire 13000 to each other. The male wire 11000 extended from the control unit and the female wire 13000 extended from the rear view module 5 may be connected by the smart connector 10000 .

The housing 1100 may constitute a main body of the smart connector 10000 .

The housing 1100 may be formed in a cylindrical shape. Specifically, the housing 1100 may be formed in a cylindrical structure in which upper and lower surfaces are communicated.

The housing 1100 may include an insertion portion into which at least one of the male connector 1200 and the female connector 1300 can be inserted.

The housing 1100 may include an assembly portion for fixing at least one of the male connector 1200 and the female connector 1300 .

The male wire 11000 and the female wire 13000 may be electrically connected to each other inside the housing 1100 .

The male wire 11000 may be inserted into the male connector 1200 .

At least a portion of the male connector 1200 may be inserted into the insertion portion of the housing 1100 . The male connector 1200 may be inserted into the housing 1100 in the first direction D1 . The first direction D1 may be a direction in which the housing 1100 extends. The first direction D1 may be a direction in which the male wire 11000 extends.

The male connector 1200 may be fixed to the housing 1100 by an assembly portion of the housing 1100 .

The male connector 1200 may include a male temporary assembly structure 1400 , a plurality of male terminals 1600 , and a male terminal position fixing member 1800 .

The male wire 11000 may be inserted into the male temporary assembly structure 1400 . The male temporary assembly structure 1200 may fix the male wire 11000 .

The male temporary assembly structure 1400 may accommodate the male terminal 1600 .

The male temporary assembly structure 1400 may have a size different from that of the female temporary assembly structure 1500 .

The male terminal 1600 may extend in the first direction D1 .

The male terminal 1600 may be connected to one end of the male wire 11000 to transmit an electrical signal. Specifically, the male terminal 1600 may receive an electrical signal from the control unit 4 through the male wire 11000 .

The male terminal 1600 may be in electrical contact with the female terminal 1700 . Specifically, the male terminal 1600 may transmit an electrical signal from the control unit 4 received through the male wire 11000 to the female terminal 1700 . Alternatively, the male terminal 1600 may transmit an electrical signal received from the female terminal 1700 to the controller 4 .

The male terminal position fixing member 1800 may be coupled to the male temporary assembly structure 1400 in which the male terminal 1600 is accommodated to fix the position of the male terminal 1600 .

A female wire 13000 may be inserted into the female connector 1300 . The female connector 1300 may fix the female wire 13000 .

At least a portion of the female connector 1300 may be inserted into the insertion portion of the housing 1100 . The female connector 1300 may be inserted into the housing 1100 in the second direction D2 . In this case, the second direction D2 may be opposite to the first direction D1 .

The female connector 1300 may be fixed to the housing 1100 by an assembly portion of the housing 1100 .

The female connector 1300 may include a female temporary assembly structure 1500 , a plurality of female terminals 1700 , and a female terminal position fixing member 1900 .

The arm wire 13000 may be inserted into the arm temporary assembly structure 1500 .

The arm temporary assembly structure 1500 may accommodate the arm terminal 1700 .

The female temporary assembly structure 1500 may have a size different from that of the male temporary assembly structure 1400 .

The female terminal 1700 may extend in the second direction D2 .

The female terminal 1700 may be in electrical contact with the male terminal 1600 . Specifically, the female terminal 1700 may receive an electrical signal from the control unit 4 through the male terminal 1600 . Alternatively, the female terminal 1700 may transmit an electrical signal to the male terminal 1600 .

The female terminal 1700 may be connected to one end of the female wire 13000 to transmit an electrical signal. Specifically, the female terminal 1700 may transmit an electrical signal from the control unit 4 received through the male terminal 1600 to the rear view module 5 through the female wire 13000 .

The female terminal position fixing member 1900 may be coupled to the arm temporary assembly structure 1500 in which the female terminal 1700 is accommodated to fix the position of the female terminal 1700 .

The housing 1100 may form a main assembly with the male connector 1200 and the female connector 1300 by inserting the male connector 1200 and the female connector 1300 . In this case, the male connector 1200 and the female connector 1300 may be inserted into the housing 1100 in a direction facing each other.

When the housing 1100 is assembled with the male connector 1200 and the female connector 1300 , the male terminal 1600 may electrically contact the female terminal 1700 .

When the male connector 1200 and the female connector 1300 are inserted into the housing 1100 , at least a portion of the male terminal 1600 may receive pressure from the inner surface of the housing 1100 . Electrical opening of the male terminal 1600 and the female terminal 1700 may be prevented by applying pressure to at least a portion of the male terminal 1600 from the inner surface of the housing 1100 .

Since the housing 1100 forms a main assembly with the male connector 1200 and the female connector 1300, it is more convenient to connect the plurality of male wires 11000 and female wires 13000 from the rear panel An electrical signal may be transmitted to the view module 5 .

Hereinafter, each configuration of the smart connector according to the first embodiment will be described with reference to the drawings.

4 shows a housing 1100 according to the first embodiment.

Referring to FIG. 4 , the housing 1100 according to the first embodiment may include a male insertion part 1120 into which the male connector 1200 is inserted and a female insertion part 1140 into which the female connector 1300 is inserted. have.

The male insertion part 1120 may include a hole for accommodating the male connector 1200 .

The male insertion part 1120 may be formed to face the female insertion part 1140 .

The male insertion part 1120 may be formed to communicate with the female insertion part 1140 in the housing 1100 .

The male insertion part 1120 may include at least one male assembly part 1150 and a male main assembly counterpart 1110 .

The male assembly part 1150 may form a main assembly by fixing the male connector 1200 .

The male assembly part 1150 may have a form in which a hole is punched in a part of the male insertion part 1120 .

The male assembly part 1150 may include a part in which a part of the male insertion part 1120 is cut. Specifically, the male assembly part 1150 may have elasticity by including a part in which a part of the male insertion part 1120 is cut.

Since the male assembly part 1150 has elasticity, the male connector 1200 may be more easily inserted into the housing 1100 .

The male assembly part 1150 may form a main assembly with the male connector 1200 by fixing a part of the male connector 1200 to the hole.

The male main assembly corresponding part 1110 may define the main assembly positions of the male connector 1200 and the housing 1100 by alignment with the main assembly part 1210 which will be described later.

The male main assembly counterpart 1110 may prevent erroneous assembly of the housing 1100 and the male connector 1200 by alignment with the male main assembly unit 1210 .

The male main assembly counterpart 1110 may have the shape of a protruding jaw of a certain length. At this time, the male main assembly counterpart 1110 may have the shape of a jaw protruding in the axial direction of the cylindrical housing 1100 .

The female insertion part 1140 may include a hole for accommodating the female connector 1300 .

The female insertion part 1140 may be formed to face the male insertion part 1120 .

The arm insertion part 1140 may include at least one arm assembly part 1170 and the arm main assembly counterpart 1130 .

The female assembly portion 1170 may form a main assembly by fixing the female connector 1300 .

The arm assembly part 1170 may be formed so that a part of the arm insertion part 1170 has a step difference.

The female assembly part 1170 may form a main assembly with the female connector 1300 by fixing a part of the female connector 1300 by pressure.

The female main assembly counterpart 1130 may define the main assembly positions of the female connector 1300 and the housing 1100 by alignment with the female main assembly unit 1230 to be described later.

The female main assembly counterpart 1130 may prevent erroneous assembly of the housing 1100 and the male connector 1300 by alignment with the female main assembly unit 1230 .

The arm main assembly counterpart 1130 may have a protruding jaw shape of a predetermined length. In this case, the arm main assembly counterpart 1130 may have the shape of a jaw protruding in the axial direction of the cylindrical housing 1100 .

5 shows a male connector 1200 according to the first embodiment.

The male connector 1200 may include a male temporary assembly structure 1400 , a male terminal 1600 , and a male terminal position fixing member 1800 as described above.

The male temporary assembly structure 1400 may form a temporary assembly with the male terminal 1600 .

The male temporary assembly structure 1400 may accommodate at least a portion of the male wire 11000 .

The male temporary assembly structure 1400 may include a male insertion part 1410 and a male receiving part 1430 .

At least one of the male insertion unit 1410 and the male receiving unit 1430 may include a plurality of terminal holes capable of accommodating the male terminal 1600 .

At least one of the male insertion part 1410 and the male receiving part 1430 may accommodate the male wire 11000 .

The temporary assembly structure 1400 may further include a second main assembly part 1437 .

The second main assembly part 1437 may be formed in the male insertion part 1410 or the male receiving part 1430 . Preferably, the second main assembly part 1437 may be formed in the male insertion part 1410 .

The second main assembly portion 1437 may be formed in a region corresponding to at least a partial region of the male terminal position fixing member 1800 . Specifically, the second main assembly part 1437 may be formed in a region corresponding to the first main assembly part 1870 to be described later to form the male main assembly part 1210 as a whole.

The male terminal position fixing member 1800 may be coupled to the male temporary assembly structure 1400 to fix the position of the male terminal 1600 . Preferably, the male terminal position fixing member 1800 may be coupled to the male receiving part 1430 to fix the position of the male terminal 1600 .

The male terminal position fixing member 1800 and the male insertion part 1410 may be formed in a cylindrical shape.

The male terminal position fixing member 1800 may have a larger diameter than the male insertion part 1410 .

The male terminal position fixing member 1800 may include a first main assembly unit 1870 .

The first main assembly 1870 may be formed in a region corresponding to the second main assembly 1437 . Specifically, when the male terminal position fixing member 1800 is coupled to the male temporary assembly structure 1400, the first main assembly part 1870 and the second main assembly part 1437 form the male main assembly part 1210 as a whole. can do. More specifically, the first main assembly part 1870 may be formed in a region corresponding to the second main assembly part 1437 to look like a single groove.

The male main assembly portion 1210 may be aligned with the male main assembly counterpart 1110 (refer to FIG. 4 ) formed in the housing 1100 . Specifically, the main assembly positions of the male assembly structure 1300 and the housing 1100 may be defined by the alignment of the male main assembly unit 1210 and the male main assembly counterpart 1130 .

The male main assembly part 1210 can prevent the male connector 1200 and the housing 1100 from being misassembled by alignment with the male main assembly counterpart 1110 .

The male main assembly part 1210 may have a shape corresponding to the male main assembly counterpart 1130 (refer to FIG. 4 ). Specifically, the male main assembly part 1210 may have the shape of a recessed groove having a predetermined length.

The male main assembly unit 1210 may further include a male housing coupling unit 1890 .

The male housing coupling unit 1890 may be coupled to at least a partial region of the housing 1100 .

The male housing coupling unit 1890 may fix the position of the male terminal position fixing member 1800 to the housing 1100 . Specifically, the male housing coupling unit 1890 may fix the male terminal position fixing member 1800 to the housing 1100 when the housing 1100 has a non-cylindrical shape.

6 shows a temporary assembly structure 1400 according to the first embodiment.

Referring to FIG. 6 , the male temporary assembly structure 1400 according to the first embodiment may include a male insertion unit 1410 and a male receiving unit 1430 as described above. Specifically, the male insertion part 1410 and the male receiving part 1430 may be integrally formed.

The male insertion part 1410 may have a cylindrical shape. The male insertion part 1410 may have a communicating cylindrical shape including a plurality of holes so that the upper and lower surfaces are communicated.

The male insert 1410 may include a plurality of male terminal holes 1411 capable of receiving the male terminal 1600 . A plurality of male terminal holes 1411 may be formed at equal intervals along the circumference.

A plurality of male terminal holes 1411 can each receive a male wire 11000 .

The receiver 1430 may have a column shape including a plurality of protrusions and grooves.

The male receiving portion 1430 may include a plurality of male seating grooves 1431 and male protrusions 1432 capable of accommodating the male terminal 1600 .

The plurality of male seating grooves 1431 may be formed at equal intervals along the outer circumferential surface at positions corresponding to the male terminal holes 1411 .

The male seating groove 1431 may have the shape of a recessed groove having a length corresponding to the length of the male receiving part 1430 . The male seating groove 1431 may accommodate the male terminal 1500 to correspond to the shape of the male terminal 1600 so that the male terminal 1600 is seated in the seating groove 1431 .

The plurality of male protrusions 1432 may be formed at equal intervals along the outer circumferential surface.

The male protrusions 1432 may be alternately formed with the male seating grooves 1431 .

The male protrusion 1432 may have a shape of a protruding bar having a predetermined length.

At least a portion of the male protrusion 1432 is formed to correspond to the shape of the male terminal 1600 to stably accommodate the male terminal 1600 .

The temporary assembly structure 1400 may further include a male assembly groove 1433 and a male temporary assembly counterpart 1435 .

The male assembly groove 1433 may be formed in the male insertion part 1410 or the male receiving part 1430 . Preferably, the male assembly groove 1433 may be formed in the male receiving portion 1430 . The male assembly groove 1433 may be formed at an end of the male seating groove 1431 spaced apart from the male insertion part 1410 . The male assembly groove 1433 may have a groove shape in which a portion of the male seating groove 1431 is further recessed.

As a part of the male terminal 1600 is caught in the male assembly groove 1433 , the male temporary assembly structure 1400 may form a temporary assembly with the male terminal 1600 .

The male temporary assembly counterpart 1435 may be formed in the male insertion portion 1410 or the male receiving portion 1430 . Preferably, the provisional assembly corresponding portion 1435 may be formed in the receiving portion 1430. The male assembly corresponding portion 1435 may be formed on the male protrusion 1432 .

The male temporary assembly counterpart 1435 may have a shape in which a portion of the male protrusion 1432 further protrudes. The temporary assembly counterpart 1435 may have a protruding bar shape of a certain length.

The male temporary assembly counterpart 1435 may define a coupling position between the male temporary assembly structure 1400 and the male terminal position fixing member 1800 .

The male temporary assembly counterpart 1435 may prevent erroneous coupling between the male temporary assembly structure 1400 and the male terminal position fixing member 1800 .

7 shows the male terminal position fixing member 1800 coupled to the male temporary assembly structure 1400 according to the first embodiment.

Referring to FIG. 7 , the male terminal position fixing member 1800 according to the first embodiment includes a first hook 1810 , a second hook 1830 , a male temporary assembly part 1850 and a first main assembly part 1870 ). may include

The first hook 1810 may be formed at one end of the male terminal position fixing member 1800 , and the second hook 1830 may be formed at the other end of the male terminal position fixing member 1800 .

As the first hook 1810 and the second hook 1830 are fastened, the male terminal position fixing member 1800 may be coupled to the male temporary assembly structure 1400 . Specifically, as the first hook 1810 and the second hook 1830 are fastened, the male terminal position fixing member 1800 may be coupled to the male receiving part 1430 .

The first hook 1810 and the second hook 1830 are fastened to tighten the male temporary assembly structure 1400 , so that the male terminal position fixing member 1800 can fix the male terminal 1600 .

The temporary assembly unit 1850 may be formed on a surface in contact with the temporary assembly structure 1400 .

The provisional assembly unit 1850 may have a shape corresponding to the provisional assembly unit 1435 (refer to FIG. 6 ). Specifically, the temporary assembly unit 1850 may have the shape of a recessed groove having a predetermined length.

The male temporary assembly unit 1850 may define a coupling position between the male terminal position fixing member 1800 and the male temporary assembly structure 1400 by alignment with the male temporary assembly counterpart 1435 . Specifically, the male temporary assembly unit 1850 may define a coupling position of the male terminal position fixing member 1800 for aligning the first main assembly unit 1870 and the second main assembly unit 1437 .

The first main assembly unit 1870 may be formed on a surface in contact with the housing 1100 .

The first main assembly unit 1870 may be connected to a part of the temporary assembly structure 1400 . Specifically, the first main assembly unit 1870 may be connected to a portion of the male insertion unit 1410 . More specifically, the first main assembly unit 1870 may be connected to the second main assembly unit 1437 (refer to FIG. 6 ).

The male terminal position fixing member 1800 may be formed of a material having elasticity. Specifically, the male terminal position fixing member 1800 can be more easily coupled to the male temporary assembly structure 1400 by having elasticity.

8 shows the structure of the male terminal 1600 according to the first embodiment.

Referring to FIG. 8 , the male terminal 1600 may include a body 1610 , a terminal 1630 , and a male protrusion 1650 .

The body portion 1610 may include a region to which the male terminal position fixing member 1800 is coupled.

The body portion 1610 may prevent over-insertion of the male terminal 1600 by at least a partial region being caught by the male terminal position fixing member 1800 .

The body 1610 may be connected to the male wire 11000 . At least a partial area of the body 1610 may fix the male wire 11000 .

The body 1610 may include a plurality of protruding regions. Specifically, the body portion 1610 may include a first protruding region 1611 , a second protruding region 1613 , a male wire fixing part 1615 , and a male fitting part 1619 .

The first protruding area 1611 may include two protruding areas facing each other.

The first protruding area 1611 may include two protruding areas having a shape symmetrical to each other.

The first protruding region may be electrically connected to at least a portion of the male wire 11000 .

The second protruding area 1613 may include two protruding areas facing each other.

The second protruding area 1613 may include two protruding areas having a shape symmetrical to each other.

The second protrusion area 1613 may be formed to be spaced apart from the first protrusion area 1611 by a predetermined distance.

The male fitting 1619 may be formed between the first protruding area 1611 and the second protruding area 1613 spaced apart from each other.

A male terminal position fixing member 1800 may be coupled to the male fitting 1619 .

Since the male fitting portion 1619 has a step difference from the first protruding area 1611 and the second protruding area 1613 , a portion of the male terminal 1600 may be caught by the male terminal position fixing member 1800 .

The male wire fixing unit 1615 may include two protruding regions facing each other.

The male wire fixing unit 1615 may include two protruding regions having a shape symmetrical to each other.

The male wire fixing unit 1615 may fix the male wire 11000 . In this case, the male wire fixing unit 1615 may be connected to one end of the male wire 11000 by soldering, pressing, or the like.

When the male terminal 1600 and the male wire 11000 are fixed by pressing, the male terminal 1600 may be fixed by pressing the covering of the male wire 11000 . At this time, at least one of the first protruding region 1611 and the male wire fixing part 1615 may be electrically connected to the conductor of the male wire 11000 .

The terminal part 1630 may extend from one end of the body part 1610 .

The terminal unit 1630 may contact the female terminal 1700 to transmit an electrical signal.

When the terminal unit 1630 is inserted into the housing 1100 , at least a partial region of the terminal unit 1630 may receive pressure from the inner surface of the housing 1100 .

The terminal unit 1630 may have a bent structure. Specifically, the terminal unit 1630 may have elasticity through a bent structure.

The terminal unit 1630 may include a plurality of planar regions and connection regions. Specifically, the terminal unit 1630 may include a first planar area 1631 , a second planar area 1633 , a first connection area 1635 , a second connection area 1637 , and a third planar area 1639 . can

The first planar area 1631 may extend from the body 1610 , and the second planar area 1633 may extend from the first planar area 1631 . In this case, the second planar area 1633 may extend in a direction different from the direction in which the first planar area 1631 extends.

The first connection area 1635 may connect the first planar area 1631 and the second planar area 1633 .

The first connection region 1635 may receive pressure from the inner surface of the housing 1100 when the terminal unit 1630 is inserted into the housing 1100 .

The second connection area 1637 may be located at one end of the second planar area 1633 .

When the terminal unit 1630 is inserted into the housing 1100 , the second connection region 1637 may receive pressure from the inner surface of the housing 1100 to the first connection region 1635 .

The second connection region 1635 may contact the female terminal 1700 to transmit an electrical signal. Specifically, the second connection region 1635 may electrically contact the female terminal 1700 in a state where pressure is applied to the female terminal 1700 .

A third planar area 1639 may extend from the second connection area 1637 , and the third planar area 1639 may extend in a direction different from the direction in which the second connection area 1637 extends.

The third planar region 1639 may prevent the terminal unit 1630 from being damaged when the terminal unit 1630 is inserted into the housing 1100 . When there is no third planar area 1639 and the terminal unit 1630 is formed in a state in which the second planar area 1633 is extended, when the terminal unit 1630 is inserted into the housing 1100, Accordingly, the terminal part 1630 may be bent in the body part 1610 direction, and thus the terminal part 1630 may be damaged.

The male protrusion 1650 may be formed on the body 1610 .

The male protrusion 1650 may protrude in a direction from the body 1610 toward the male temporary assembly structure 1400 .

The male protrusion 1650 may protrude in a direction opposite to the first protrusion 1611 .

The male protrusion 1650 may protrude in a direction opposite to the second protrusion 1613 .

The male protrusion 1650 may have a shape bent in a direction toward the male temporary assembly structure 1400 . Specifically, the male protrusion 1650 may have a shape in which a portion of the body 1610 is cut and bent in a direction toward the male temporary assembly structure 1400 . More specifically, the male protrusion 1650 may have a predetermined angle with the body 1610 by bending a partially cut-out region of the body 1610 .

The male protrusion 1650 may form a temporary assembly between the male terminal 1600 and the male temporary assembly structure 1400 by being caught in the male assembly groove 1433 (refer to FIG. 6 ) of the male temporary assembly structure 1400 .

9 to 10 show the shape of the terminal portion 1630 of the male terminal 1600 before and after being inserted into the housing 1100 .

When the terminal unit 1630 is inserted into the housing 1100 , it may receive pressure from the inner surface of the housing 1100 . Specifically, the inner surface of the housing 1100 may apply pressure to the first connection region 1635 . The pressure applied to the first connection region 1635 may be transmitted to the second connection region 1637 . More specifically, the second connection region 1637 may electrically contact the female terminal 1700 while the second connection region 1637 applies pressure to the female terminal 1700 .

When the terminal unit 1630 is inserted into the housing 1100 , the shape may be different from that before being inserted into the housing 1100 by receiving pressure from the inner surface of the housing 1100 . Specifically, when the terminal unit 1630 is inserted into the housing 1100 , the angle formed between the first planar area 1631 and the second planar area 1633 may be increased.

Referring to FIG. 9 , the first planar area 1631 and the second planar area 1633 may have a first connection angle A1 before the terminal unit 1630 is inserted into the housing 1100 .

Between the first connection region 1635 and an imaginary straight line that passes through the second connection region 1637 and extends in the first direction (D1, see FIG. 3 ), which is the insertion direction of the male terminal 1600 into the housing 1100 . The shortest distance may be the first distance H1 before the terminal unit 1630 is inserted into the housing 1100 .

The first distance H1 may be greater than a distance between the inner surface of the housing 1100 and the body 1610 .

Referring to FIG. 10 , the first planar area 1631 and the second planar area 1633 may have a second connection angle A2 when the terminal unit 1630 is inserted into the housing 1100 .

In a state in which the terminal unit 1630 is inserted into the housing 1100 and the second connection area 1637 is in contact with the female terminal 1700, the housing 1100 of the male terminal 1600 passes through the second connection area 1637 The shortest distance between the imaginary straight line extending in the first direction D1 , which is the insertion direction into the , and the first connection region 1635 may have a second distance H2 .

The second distance H2 may be less than or equal to a distance between the inner surface of the housing 1100 and the body 1610 .

The size of the first connection angle A1 may be smaller than that of the second connection angle A2 .

The first distance H1 may be greater than the second distance H2.

The terminal unit 1630 may have a more extended structure by being inserted into the housing 1100 .

The terminal part 1630 may have a property of returning to a shape before being inserted into the housing 1100 . Specifically, the terminal unit 1630 may have a property of returning to a shape before being inserted into the housing 1100 due to elasticity.

The terminal unit 1630 may be prevented from returning to the shape before being inserted by the pressure applied from the inner surface of the housing 1100 .

Since the terminal unit 1630 is prevented from returning to a shape before being inserted, electrical opening with the female terminal 1700 may be prevented.

11 is a cross-sectional view taken along line AA′ of the male connector 1200 according to the first embodiment of FIG. 5 (see FIG. 5 ).

Referring to FIG. 11 , the male terminal 1600 may be fixed by the male temporary assembly structure 1400 while being connected to the male wire 11000 .

The male protrusion 1650 may allow the male terminal 1600 to be more smoothly inserted into the male temporary assembly structure 1400 in the first direction D1.

The male protrusion 1650 may protrude in a direction toward the male assembly groove 1433 .

The male protrusion 1650 may have a shape in which a portion of the body 1610 is cut and protrudes in a direction toward the male assembly groove 1433 .

The male protrusion 1650 may include a region in which a portion of the body 1610 is cut open. In this case, the male protrusion 1650 may have a step difference from the body 1610 due to the open area. Due to the step, the male protrusion 1650 may be caught in the male assembly groove 1433 to form a temporary assembly with the male assembly structure 1400 .

The male protrusion 1650 may have a male insertion surface and a male limiting surface.

The male insertion surface may be a surface adjacent to the terminal portion 1630 , and the male limiting surface may be a surface adjacent to the male fitting portion 1619 .

The male insertion surface may be a surface connected to the lower surface of the body portion 1610 .

The male insertion surface may have a predetermined angle with the lower surface of the body portion 1610 .

The male terminal 1600 may be inserted riding on the male insertion surface when inserted into the male temporary assembly structure 1400 .

The number limiting plane may be an empty area. Specifically, the number limiting surface may be a region in which a part of the body 1610 is cut open.

The male terminal 1600 may form a temporary assembly with the male temporary assembly structure 1400 by engaging the male terminal 1600 with the male assembly groove 1433 on the male limiting surface.

The male protrusion 1650 may block the movement in the second direction D2 after the male terminal 1600 forms a temporary assembly with the male temporary assembly structure 1400 . Specifically, the male protrusion 1650 may block the male terminal 1600 from moving in the second direction D2 by being caught in the male assembly groove 1433 . More specifically, the number limiting surface may block the male terminal 1600 from moving in the second direction D2 by being caught in the male assembly groove 1433 .

The male terminal position fixing member 1800 may be coupled to the male fitting 1619 in a state where the male terminal 1600 is accommodated in the male temporary assembly structure 1400 .

The male terminal position fixing member 1800 may be coupled to the male fitting 1619 to fix the position of the male terminal 1600 .

In this case, the first protruding area 1610 may be caught by the male terminal position fixing member 1800 to prevent over-insertion of the male terminal 1600 .

The male terminal position fixing member 1800 may be in contact with the male insertion part 1410 .

The male terminal position fixing member 1800 may have a larger diameter than the male insertion part 1410 . In this case, the groove depth of the first main assembly unit 1870 may be greater than that of the second main assembly unit 1437 .

The male connector 1400 may be fixed to the housing 1100 by the male terminal position fixing member 1800 and the male insertion part 1410 .

The male connector 1400 may be fixed to the housing 1100 to form a main assembly.

12 shows a female connector 1300 according to the first embodiment.

As described above, the female connector 1300 may include a female temporary assembly structure 1500 , a female terminal 1700 , and a female terminal position fixing member 1900 .

The arm temporary assembly structure 1500 may form a temporary assembly with the arm terminal 1700 .

The arm temporary assembly structure 1500 may accommodate at least a portion of the arm wire 13000 .

The arm temporary assembly structure 1500 may include an arm insertion part 1510 and an arm receiving part 1530 .

At least one of the arm insertion unit 1510 and the arm receiving unit 1530 may include a plurality of terminal holes capable of accommodating the female terminal 1700 .

At least one of the arm insertion part 1510 and the arm accommodating part 1530 may accommodate the arm wire 13000 .

The arm provisional assembly structure 1500 may further include a fourth main assembly unit 1537 .

The fourth main assembly part 1537 may be formed in the arm insertion part 1510 or the arm receiving part 1530 . Preferably, the fourth main assembly part 1537 may be formed in the arm insertion part 1510 .

The fourth main assembly unit 1537 may be formed in a region corresponding to at least a partial region of the female terminal position fixing member 1900 . Specifically, the fourth main assembly part 1537 may be formed in a region corresponding to the third main assembly part 1970 to be described later to form the arm main assembly part 1230 as a whole.

The female terminal position fixing member 1900 may be coupled to the arm temporary assembly structure 1500 to fix the position of the female terminal 1700 . Preferably, the female terminal position fixing member 1900 may be coupled to the arm receiving part 1530 to fix the position of the female terminal 1700 .

The female terminal position fixing member 1900 may include a third main assembly unit 1970 .

The third main assembly part 1970 may be formed in a region corresponding to the fourth main assembly part 1537 . Specifically, when the female terminal position fixing member 1900 is coupled to the arm temporary assembly structure 1500 , the third main assembly part 1970 and the fourth main assembly part 1537 form the arm main assembly part 1230 as a whole. can do. More specifically, the third main assembly part 1970 is formed in a region corresponding to the fourth main assembly part 1537 and may look like a single groove.

The female main assembly unit 1230 may be aligned with the female main assembly counterpart 1130 (refer to FIG. 4 ) formed in the housing 1100 . Specifically, the main assembly positions of the arm provisional assembly structure 1400 and the housing 1100 may be defined by the alignment of the arm main assembly part 1230 and the arm main assembly counterpart part 1130 .

The female main assembly unit 1230 may prevent erroneous assembly of the female connector 1300 and the housing 1100 by alignment with the female main assembly counterpart 1130 .

The arm main assembly unit 1230 may have a shape corresponding to the arm main assembly counterpart 1130 (refer to FIG. 4 ). Specifically, the main arm assembly 1230 may have a shape of a recessed groove having a predetermined length.

The arm main assembly unit 1230 may further include an arm housing coupling unit 1990 .

The female housing coupling unit 1990 may be coupled to at least a partial region of the housing 1100 .

The female housing coupling unit 1990 may fix the position of the female terminal position fixing member 1900 to the housing 1100 . Specifically, the female housing coupling unit 1990 may fix the female terminal position fixing member 1900 to the housing 1100 when the housing 1100 has a non-cylindrical shape.

13 shows the arm provisional assembly structure 1500 according to the first embodiment.

Referring to FIG. 13 , the arm temporary assembly structure 1500 according to the first embodiment may include an arm insertion part 1510 and an arm receiving part 1530 as described above. Specifically, the arm insertion unit 1510 and the arm receiving unit 1530 may be integrally formed.

The arm insertion part 1510 may have a cylindrical shape. The arm insertion unit 1510 may have a communicating cylindrical shape including a plurality of holes so that the upper and lower surfaces are in communication.

The female insert 1510 may include a plurality of female terminal holes 1511 capable of receiving the female terminal 1700 . The plurality of female terminal holes 1511 may be formed at equal intervals along the circumference.

A plurality of female terminal holes 1511 may each receive a female wire 13000 .

The arm receiving part 1530 may have a column shape including a plurality of protrusions and grooves.

The arm accommodating part 1530 may include a plurality of arm seating grooves 1531 and arm protrusions 1532 capable of accommodating the arm terminal 1700 .

The plurality of arm seating grooves 1531 may be formed at positions corresponding to the female terminal holes 1511 at equal intervals along the outer circumferential surface.

The arm seating groove 1531 may have the shape of a recessed groove having a length corresponding to the length of the arm receiving part 1530 . The female seating groove 1531 may accommodate the female terminal 1700 to correspond to the shape of the female terminal 1700 so that the female terminal 1500 is seated in the female seating groove 1531 .

The plurality of female protrusions 1532 may be formed at equal intervals along the outer circumferential surface.

The arm protrusion 1532 may be alternately formed with the arm seating groove 1531 .

The female protrusion 1532 may have a shape of a protruding bar having a predetermined length.

At least a portion of the female protrusion 1532 is formed to correspond to the shape of the female terminal 1700 to stably accommodate the female terminal 1700 .

The arm provisional assembly structure 1500 may further include an arm assembly groove 1533 and an arm provisional assembly counterpart 1535 .

The arm assembly groove 1533 may be formed in the arm insertion part 1510 or the arm receiving part 1530 . Preferably, the arm assembly groove 1533 may be formed in the arm receiving part 1530 . The arm assembly groove 1533 may be formed at an end of the arm seating groove 1531 spaced apart from the arm insertion part 1510 . The arm assembly groove 1533 may have a shape of a groove in which a portion of the arm seating groove 1531 is further recessed.

As a part of the female terminal 1700 is caught in the arm assembly groove 1533 , the arm temporary assembly structure 1500 may form a temporary assembly with the female terminal 1700 .

The arm provisional assembly counterpart 1535 may be formed in the arm insertion part 1510 or the arm receiving part 1530 . Preferably, the arm provisionally assembled counterpart 1535 may be formed in the arm receiving part 1530 . The arm provisional assembly counterpart 1535 may be formed on the arm protrusion 1532 .

The arm provisional assembly counterpart 1535 may have a shape in which a portion of the arm protrusion 1532 further protrudes. The arm provisionally assembled counterpart 1535 may have a protruding bar shape of a predetermined length.

The arm provisional assembly counterpart 1535 may define a coupling position between the arm provisional assembly structure 1500 and the arm terminal position fixing member 1900 .

The arm provisional assembly counterpart 1535 may prevent erroneous coupling between the arm provisional assembly structure 1500 and the female terminal position fixing member 1900 .

14 shows the female terminal position fixing member 1900 coupled to the arm temporary assembly structure 1500 according to the first embodiment.

Referring to FIG. 14 , the female terminal position fixing member 1900 according to the first embodiment includes a third hook 1910 , a fourth hook 1930 , an arm temporary assembly part 1950 and a third main assembly part 1970 ). may include

The third hook 1910 may be formed at one end of the female terminal position fixing member 1900 , and the fourth hook 1930 may be formed at the other end of the female terminal position fixing member 1900 .

As the third hook 1910 and the fourth hook 1930 are fastened, the female terminal position fixing member 1900 may be coupled to the arm temporary assembly structure 1500 . Specifically, as the third hook 1910 and the fourth hook 1930 are fastened, the female terminal position fixing member 1900 may be coupled to the arm receiving part 1530 .

The third hook 1910 and the fourth hook 1930 are fastened to tighten the arm temporary assembly structure 1500 , so that the female terminal position fixing member 1900 can fix the female terminal 1700 .

The arm provisional assembly unit 1950 may be formed on a surface in contact with the arm provisional assembly structure 1500 .

The arm provisional assembly 1950 may have a shape corresponding to the arm provisional assembly counterpart 1535 (refer to FIG. 13 ). Specifically, the arm provisional assembly 1950 may have the shape of a recess of a predetermined length.

The arm provisional assembly unit 1950 may define a coupling position between the arm terminal position fixing member 1900 and the arm provisional assembly structure 1500 by alignment with the arm provisional assembly counterpart unit 1535 .

The third main assembly unit 1970 may be formed on a surface in contact with the housing 1100 .

The third main assembly unit 1970 may be connected to a part of the arm provisional assembly structure 1500 . Specifically, the third main assembly unit 1970 may be connected to a portion of the arm insertion unit 1510 . More specifically, the third main assembly part 1970 may be connected to the fourth main assembly part 1537 (refer to FIG. 13 ).

FIG. 15 shows the structure of the female terminal 1700 according to the first embodiment, and FIG. 16 is an enlarged view of a part of the female terminal 1700 according to the first embodiment.

The female terminal 1700 may contact the terminal unit 1630 to receive an electrical signal from the male terminal 1600 .

The female terminal 1700 may include a region to which the female terminal position fixing member 1900 is coupled.

The female terminal 1700 may prevent over-insertion of the female terminal 1700 by being caught by the female terminal position fixing member 1900 in at least a partial area.

At least a portion of the female terminal 1700 may be connected to the female wire 12000 .

Referring to FIG. 15 , the female terminal 1700 may include a plurality of protruding areas. Specifically, the female terminal 1700 may include a third protruding region 1710 , a fourth protruding region 1730 , an arm engaging portion 1740 , an arm protruding portion 1750 , and an arm wire fixing unit 1720 . .

The third protruding area 1710 may include two protruding areas facing each other.

The third protrusion region 1710 may include two protrusion regions symmetrical to each other.

The third protrusion region 1710 may be electrically connected to at least a portion of the female wire 13000 .

The fourth protruding area 1730 may include two protruding areas facing each other.

The fourth protruding region 1730 may include two protruding regions symmetrical to each other.

The fourth protruding region 1730 may be formed to be spaced apart from the third protruding region 1710 by a predetermined distance.

The female fitting portion 1740 may be formed between the third protruding region 1710 and the fourth protruding region 1730 to be spaced apart from each other.

A female terminal position fixing member 1900 may be coupled to the female fitting portion 1740 .

Since the female fitting portion 1740 has a step difference from the third protruding area 1710 and the fourth protruding area 1730 , a portion of the female terminal 1700 may be caught by the female terminal position fixing member 1900 .

The arm wire fixing unit 1720 may include two protruding regions facing each other.

The arm wire fixing unit 1720 may include two protruding regions symmetrical to each other.

The arm wire fixing unit 1720 may fix the arm wire 13000 . In this case, the female wire fixing unit 1720 may be connected to one end of the female wire 13000 by soldering, pressing, or the like.

When the female terminal 1700 and the female wire 11000 are fixed by pressing, the female terminal 1600 may be fixed by pressing the covering of the female wire 13000 . At this time, at least one of the third protruding region 1710 and the female wire fixing unit 1720 may be electrically connected to a conductor of the female wire 13000 .

The arm protrusion 1750 may protrude in a direction from the female terminal 1700 toward the arm temporary assembly structure 1500 .

The arm protrusion 1750 may protrude in a direction opposite to the third protrusion area 1710 .

The arm protrusion 1750 may protrude in a direction opposite to the third protrusion area 1710 .

The arm protrusion 1750 may have a curved shape in a direction toward the arm temporarily assembled structure 1500 . Specifically, the arm protrusion 1750 may have a shape in which a portion of the arm terminal 1700 is cut and bent in a direction toward the arm temporary assembly structure 1500 . More specifically, the female protrusion 1750 may have a predetermined angle with the female terminal 1700 by bending a partially cut area of the female terminal 1700 .

The arm protrusion 1750 may form a temporary assembly between the arm terminal 1700 and the arm temporary assembly structure 1500 by being caught in the arm assembly groove 1533 (refer to FIG. 13 ) of the arm temporary assembly structure 1500 .

15 and 16 , the female terminal 1700 may further include an inclined portion 1770 .

The inclined portion 1770 may be formed to be inclined at the edge of the distal end of the female terminal 1700 .

The inclined portion 1770 may be formed at an end of the fourth protruding region 1730 .

The inclined portion 1670 may prevent the terminal portion 1530 from being bent when the terminal portion 1530 is inserted into the female terminal 1600 . Specifically, the inclined portion 1670 may prevent the third planar region 1639 (refer to FIG. 8 ) from being bent by the female terminal 1600 .

The height of the inclined portion 1670 may be lower than the height of the third planar region 1639 . Specifically, the inclined portion 1670 may prevent the third planar area 1670 from being bent by being caught by the female terminal 1700 because the height of the inclination portion 1670 is lower than that of the third planar area 1639 .

The inclined portion 1670 may include an inclined side surface. In this case, the side surface may be a surface connected to the fourth protrusion region 1730 . Specifically, the inclined portion 1670 may include an inclined side surface so as not to be bent no matter what direction the terminal portion 1530 is inserted.

The inclined portion 1670 may have a larger diameter in the second direction D2 . Specifically, the inclination portion 1670 may have an inclination due to a larger diameter in the second direction D2.

When the terminal part 1530 is inserted into the female terminal 1700 , the second connection area 1637 (refer to FIG. 8 ) may be inserted by riding the inclined part 1670 .

17 is a cross-sectional view taken along line AA' of the female connector 1300 according to the first embodiment of FIG. 12 (refer to FIG. 12).

Referring to FIG. 17 , the female terminal 1700 may be fixed by the arm temporary assembly structure 1500 while being connected to the female wire 13000 .

The female protrusion 1750 may allow the female terminal 1700 to be more smoothly inserted into the female temporary assembly structure 1500 in the second direction D2.

The arm protrusion 1750 may protrude in a direction toward the arm assembly groove 1533 .

The arm protrusion 1750 may have a shape in which a part of the female terminal 1700 is cut and protrudes in a direction toward the arm assembly groove 1533 .

The female protrusion 1750 may include an open area in which a part of the female terminal 1700 is cut. In this case, the female protrusion 1750 may have a step difference from the female terminal 1700 due to the open area. By the step, the arm protrusion 1750 is caught in the arm assembly groove 1533 to form a temporary assembly with the arm provisional assembly structure 1500 .

The arm protrusion 1750 may have an arm insertion surface and an arm limiting surface.

The female insertion surface may be a surface connected to the lower surface of the female terminal 1700 .

The female insertion surface may have a predetermined angle with the lower surface of the female terminal 1700 .

When the female terminal 1700 is inserted into the arm temporary assembly structure 1500 , it may be inserted along the arm insertion surface.

The arm limiting surface may be an empty area. Specifically, the arm limiting surface may be a region in which a part of the arm terminal 1700 is cut open.

The arm terminal 1700 may form a temporary assembly with the arm temporary assembly structure 1500 by engaging the arm limiting surface in the arm assembly groove 1533 .

The arm protrusion 1750 may block movement in the first direction D1 after the female terminal 1700 forms a temporary assembly with the arm temporary assembly structure 1500 . Specifically, the arm protrusion 1750 may block the movement of the arm terminal 1700 in the first direction D1 by being caught in the arm assembly groove 1533 . More specifically, the arm limiting surface may block the movement of the arm terminal 1700 in the first direction D1 by being caught in the arm assembly groove 1533 .

The female terminal position fixing member 1900 may be coupled to the female fitting portion 1740 in a state in which the female terminal 1700 is accommodated in the arm temporary assembly structure 1500 .

The female terminal position fixing member 1900 may be coupled to the female fitting portion 1740 to fix the position of the female terminal 1700 .

In this case, the third protruding region 1710 is caught by the female terminal position fixing member 1900 to prevent over-insertion of the female terminal 1700 .

When an external force in the second direction D2 is applied to the female terminal 1700 , the movement of the female terminal position fixing member 1900 may be restricted by the third protruding region 1710 .

When an external force in the first direction D1 acts on the female terminal 1700 , the movement of the female terminal position fixing member 1900 may be restricted by the fourth protruding region 1730 .

The female terminal position fixing member 1900 may be in contact with the arm insertion unit 1510 .

The female terminal position fixing member 1900 may have a larger size than the arm insertion unit 1510 . In this case, the groove depth of the third main assembly part 1970 may be greater than that of the fourth main assembly part 1537 .

The female connector 1500 may be fixed to the housing 1100 by the female terminal position fixing member 1900 and the female insertion part 1510 .

The female connector 1500 may be fixed to the housing 1100 to form a main assembly.

18 is a flowchart illustrating an assembly process of the smart connector 10000 according to the first embodiment.

18, the smart connector 10000 assembling process is a male temporary assembling step (S100) of forming a male connector 1200, a female temporary assembling step (S200) of forming a female connector, and a male connector 1200 and a female connector ( 1300 may include a main assembly step (S300) in which the housing 1100 is assembled.

In the temporary assembly step S100 , the male terminal 1600 may form a temporary assembly with the temporary assembly structure 1400 by engaging the male protrusion 1650 in the male assembly groove 1433 .

The male terminal 1600 may form a temporary assembly by being fixed by the male temporary assembly structure 1400 in a state connected to the male wire 11000 .

The male terminal position fixing member 1800 may fix the position of the male terminal 1600 by coupling it to the male terminal 1600 and the male temporary assembly structure 1400 formed temporarily. Specifically, the male terminal position fixing member 1800 may be coupled to the male fitting 1640 to fix the position of the male terminal 1600 .

The male terminal position fixing member 1800 may form the male connector 1200 by coupling to the male terminal 1600 and the male temporary assembly structure 1400 in which the temporary assembly is formed.

In the arm provisional assembly step ( S200 ), the female terminal 1700 may form a temporary assembly with the arm provisional assembly structure 1500 by engaging the female protrusion 1750 in the arm assembly groove 1533 .

The female terminal 1700 may form a temporary assembly by being fixed by the female temporary assembly structure 1500 in a state in which it is connected to the female wire 13000 .

The female terminal position fixing member 1900 may fix the position of the female terminal 1700 by coupling it to the female terminal 1700 and the female temporary assembly structure 1500 formed in the temporary assembly. Specifically, the female terminal position fixing member 1900 may be coupled to the female fitting portion 1740 to fix the position of the female terminal 1700 .

The female terminal position fixing member 1900 may form the female connector 1300 by coupling the female terminal 1700 and the female temporary assembly structure 1500 in which the temporary assembly is formed.

In the main assembly step (S300), the male connector 1200 and the female connector 1300 may be inserted into the housing 1100 to form a main assembly.

The male connector 1200 may be inserted into the male insertion portion 1120 of the housing 1100 to form a main assembly.

The female connector 1300 may be inserted into the female insertion portion 1140 of the housing 1100 to form a main assembly.

In this case, the male connector 1600 may transmit an electrical signal by making electrical contact with the female connector 1700 . Specifically, the terminal portion 1630 of the male terminal 1600 may transmit an electrical signal by making electrical contact with the female terminal 1700 .

Hereinafter, a smart connector according to the second embodiment will be described with reference to the drawings.

Compared with the smart connector according to the first embodiment, the smart connector according to the second embodiment is the same as the first embodiment except that it further includes a cable hole for accommodating the coaxial cable in the housing. Accordingly, in the description of the first embodiment, the same reference numerals are given to components common to the first embodiment, and detailed descriptions thereof are omitted.

19 is a perspective view of the smart connector according to the second embodiment, and FIG. 20 is an exploded perspective view of the smart connector according to the second embodiment.

19 and 20, the smart connector 20000 according to the second embodiment can accommodate a male wire 11000, a female wire 13000, a coaxial cable plug 21000 and a coaxial cable jack 23000. have.

The male wire 11000 and the female wire 13000 may be connected by a smart connector 20000 .

The housing 2100 may constitute a main body of the smart connector 20000 .

At least a part of the housing 2100 may be fixed by being caught by a part of the rear view device 1 .

The housing may include a mount. Specifically, the housing 2100 may be fixed by hooking the mounting part to a part of the rear view device 1 or to the vehicle body side. More specifically, the mounting portion has a protruding shape, and may fix the housing 2100 by being caught on a part of the rear view device 1 or on the vehicle body side.

The housing 2100 may include a male terminal hole 2115 , a female terminal hole 2135 , a first cable hole 2113 , and a second cable hole 2133 .

The male terminal hole 2115 and the female terminal hole 2135 may communicate with each other to form one terminal hole.

The first cable hole 2113 and the second cable hole 2133 may communicate with each other to form one cable hole.

In this case, the terminal hole and the cable hole may be parallel to each other.

The male terminal hole 2115 may accommodate the male wire 11000 , and the female terminal hole 2135 may accommodate the female wire 13000 . Specifically, the male wire 11000 extended from the control unit 4 and the female wire 13000 extended from the rear view module 5 are respectively inserted into the male terminal hole 2115 and the female wire hole 2135 to be connected to each other. can

The first cable hole 2113 may accommodate the coaxial cable plug 21000 , and the second cable hole 2133 may accommodate the coaxial cable jack 23000 . Specifically, the coaxial cable plug 21000 and the coaxial cable jack 23000 may be respectively inserted into the first cable hole 2113 and the second cable hole 2133 to be connected to each other.

Signals transmitted by the coaxial cable plug 21000 and the coaxial cable jack 23000 may be different from signals transmitted by the male wire 11000 and the female wire 13000 . Specifically, the coaxial cable plug 21000 and the coaxial cable jack 23000 may be connected to each other to transmit an image signal.

A signal transmitted by the coaxial cable plug 21000 and the coaxial cable jack 23000 may have a larger capacity than a signal transmitted by the male wire 11000 and the female wire 13000 .

The housing 2100 may include a base housing 2110 and a sub housing 2130 .

The base housing 2110 may be inserted into at least a part of the sub-housing 2130 to form a single housing 2100 as a whole.

At least a portion of the base housing 2110 may be formed to correspond to a portion of the sub housing 2130 .

At least a portion of the base housing 2110 may be aligned with a portion of the sub housing 2130 .

The base housing 2110 may include a male terminal hole 2115 and a first cable hole 2113 .

The male terminal hall 2115 may accommodate the male terminal 1600 . Specifically, the male terminal hole 2115 may accommodate the male connector 1200 in a state in which the male terminal 1600 is accommodated.

The first cable hole 2113 may accommodate the coaxial cable plug 21000 extending from the vehicle body.

The base housing 2110 may further include a male fixing member 2117 and a plug fixing member 2118 .

The male fixing member 2117 may be fixed at a position corresponding to the male housing coupling portion 1890 of the male terminal position fixing member 1800 .

The male fixing member 2117 may include a surface corresponding to the male housing coupling part 1890 .

The male fixing member 2117 may be fastened to the male housing coupling part 1890 to fix the male terminal position fixing member 1800 . Specifically, the male fixing member 2117 may fix the male terminal position fixing member 1800 by fastening the surface corresponding to the male housing coupling part 1890 to the male housing coupling part 1890 .

The plug fixing member 2118 may include a surface corresponding to the coaxial cable plug 21000 .

The plug fixing member 2118 may be fastened to the coaxial cable plug 21000 to fix the coaxial cable plug 21000 . Specifically, the plug fixing member 2118 may fix the coaxial cable plug 21000 by having a surface corresponding to the coaxial cable plug 21000 is fastened to the coaxial cable plug 21000 .

The base housing 2110 may further include at least one alignment part 2112 .

The alignment part 2112 may have a shape that protrudes in a direction toward the sub-housing 2130 .

The alignment part 2112 may have a shape corresponding to at least a portion of the sub-housing 2130 .

By aligning the alignment part 2112 with at least a portion of the sub-housing 2130 , erroneous assembly of the base housing 2110 and the sub-housing 2130 may be prevented.

The sub-housing 2130 may be assembled with the base housing 2110 to form a single housing 2100 as a whole.

At least a portion of the sub housing 2130 may be formed to correspond to a portion of the base housing 2110 .

At least a portion of the sub housing 2130 may be aligned with a portion of the base housing 2110 .

The sub housing 2130 may include a base housing insertion part 2139 , a female terminal hole 2135 , and a second cable hole 2133 .

The base housing 2110 may be inserted into the base housing insertion part 2139 .

The female terminal hole 2135 may accommodate the female terminal 1700 . Specifically, the female terminal hole 2135 may accommodate the female connector 1300 in a state in which the female terminal 1700 is accommodated.

The female terminal hole 2135 may communicate with the male terminal hole 2115 by inserting the base housing 2110 into the base housing insertion part 2139 .

The female terminal hole 2135 may communicate with the male terminal hole 2115 by inserting the base housing 2110 into the base housing insertion part 2139 . Specifically, the female terminal hole 2135 communicates with the male terminal hole 2115 so that the male terminal 1600 may electrically contact the female terminal 1700 .

The second cable hole 2133 may receive a coaxial cable jack 23000 extending from the rear view device 1 .

The second cable hole 2133 may communicate with the first cable hole 2113 by inserting the base housing 2110 into the base housing insertion part 2139 . Specifically, as the second cable hole 2133 communicates with the first cable hole 2113 , the coaxial cable jack 23000 may be connected to the coaxial cable plug 21000 to transmit an image signal.

The sub-housing 2130 may further include an arm fixing member 2137 and a jack fixing member 2138 .

The arm fixing member 2137 may be fixed at a position corresponding to the female housing coupling part 1990 of the female terminal position fixing member 1900 .

The arm fixing member 2137 may include a surface corresponding to the arm housing coupling part 1990 .

The arm fixing member 2137 may be fastened to the arm housing coupling part 1990 to fix the female terminal position fixing member 1900 . Specifically, the arm fixing member 2137 may fix the female terminal position fixing member 1900 by having a surface corresponding to the female housing coupling part 1990 fastened to the female housing coupling part 1990 .

The jack fixing member 2138 may include a surface corresponding to the coaxial cable jack 23000 .

The jack fixing member 2138 may be fastened to the coaxial cable jack 23000 to fix the coaxial cable jack 23000 . Specifically, the jack fixing member 2138 may fix the coaxial cable jack 23000 by fastening the surface corresponding to the coaxial cable jack 23000 to the coaxial cable jack 23000 .

The base housing insertion part 2139 may include at least one alignment counterpart 2132 .

The alignment-corresponding part 2132 may have a shape corresponding to the alignment part 2112 . Specifically, the alignment-corresponding part 2132 may have the shape of a groove recessed by a length corresponding to the alignment part 2112 .

The alignment counterpart 2132 may be aligned with the alignment unit 2112 when the base housing 2110 is inserted into the base housing insertion unit 2139 . Specifically, the alignment counterpart 2132 may be aligned with the alignment unit 2112 to prevent erroneous assembly of the base housing 2110 and the sub housing 2130 .

The male wire 11000 and the female wire 13000 may be electrically connected to each other inside the housing 2100 . Specifically, the male wire 11000 and the female wire 13000 may be electrically connected to each other by communicating with the male terminal hole 2115 and the female terminal hole 2135 .

The male wire 11000 may be inserted into the male connector 1200 .

At least a portion of the male connector 1200 may be inserted into the male terminal hole 2115 of the base housing 2110 .

The male connector 1200 may include a male temporary assembly structure 1400 , a plurality of male terminals 1600 , and a male terminal position fixing member 1800 .

The male wire 11000 may be inserted into the male temporary assembly structure 1400 . The male temporary assembly structure 1400 may fix the male wire 11000 .

The male temporary assembly structure 1400 may accommodate the male terminal 1600 .

The male terminal position fixing member 1800 may be coupled to the male temporary assembly structure 1400 in which the male terminal 1600 is accommodated to fix the position of the male terminal 1600 .

At least a portion of the male terminal position fixing member 1800 may be fastened to at least a portion of the housing 2100 so that the position thereof may be fixed.

The male terminal position fixing member 1800 may include a male housing coupling unit 1890 .

The male housing coupling part 1890 may have a shape corresponding to the male fixing member 2117 .

The male housing coupling part 1890 may be coupled to the male fixing member 2117 . Specifically, the male housing coupling unit 1890 may be coupled to the male fixing member 2117 to fix the position of the male terminal position fixing member 1800 .

The female wire 13000 may be inserted into the female connector 1300 .

At least a portion of the female connector 1300 may be inserted into the female terminal hole 2135 of the sub-housing 2130 .

The female connector 1300 may include a female temporary assembly structure 1500 , a plurality of female terminals 1700 , and a female terminal position fixing member 1900 .

The arm wire 13000 may be inserted into the arm temporary assembly structure 1500 . The arm temporary assembly structure 1500 may fix the arm wire 13000 .

The arm temporary assembly structure 1500 may accommodate the arm terminal 13000 .

The female terminal position fixing member 1900 may be coupled to the arm temporary assembly structure 1500 in which the female terminal 1300 is accommodated to fix the position of the female terminal.

At least a portion of the female terminal position fixing member 1900 may be fastened to at least a portion of the housing 2100 so that the position thereof may be fixed.

The female terminal position fixing member 1900 may include an arm housing coupling unit 1990 .

The arm housing coupling part 1990 may have a shape corresponding to the arm fixing member 2137 .

The arm housing coupling part 1990 may be coupled to the arm fixing member 2137 . Specifically, the arm housing coupling unit 1990 may be coupled to the arm fixing member 2137 to fix the position of the female terminal position fixing member 1900 .

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (22)

a plurality of male terminals extending in a first direction;
a plurality of female terminals extending in a second direction opposite to the first direction;
a housing having a terminal hole into which the male terminal and the female terminal are inserted;
The male terminal includes a body portion and a terminal portion formed at one end of the body portion and having a bent structure,
The terminal part includes a first planar area extending from the body part, a second planar area extending in a direction different from the first planar area, a first connection area connecting the first planar area and the second planar area, and the It includes a second connection area located at one end of the second planar area,
When the terminal part is inserted into the housing, the inner surface of the housing applies pressure to the first connection region, the pressure is transmitted to the second connection region, and the second connection region applies pressure to the female terminal. The second connection region is in electrical contact with the female terminal.
connector.
According to claim 1,
the first planar area and the second planar area have a first connection angle before the terminal part is inserted into the housing;
The first planar area and the second planar area have a second connection angle when the terminal part is inserted into the housing.
The first connection angle is smaller than the second connection angle
connector.
According to claim 1,
A first distance that is the shortest distance between an imaginary straight line passing through the second connection region and extending in a first direction that is the insertion direction of the terminal and the first connection region,
The shortest distance between the first connection region and an imaginary straight line extending in the first direction through the second connection region when the terminal part is inserted into the housing and the second connection region is in contact with the female terminal greater than the second distance
connector.
According to claim 1,
a male temporary assembly structure that accommodates the plurality of male terminals and includes a male insertion unit and a male receiving unit; and
Accommodating the plurality of arm terminals, and further comprising an arm temporary assembly structure including an arm insertion part and an arm receiving part,
When the male temporary assembly structure and the female temporary assembly structure form the main assembly with the housing, the male terminal electrically contacts the female terminal.
connector.
5. The method of claim 4,
The male terminal includes a male protrusion having a shape bent in a direction from the body portion toward the male temporary assembly structure,
The male temporary assembly structure includes a male assembly groove capable of forming a temporary assembly by engaging the male protrusion
connector.
6. The method of claim 5,
In the male insertion part, a plurality of male terminal holes capable of accommodating the male terminals are formed at equal intervals along the circumference,
The male receiving portion includes a plurality of male seating grooves formed at equal intervals along the outer peripheral surface at a position connected to the male terminal hole so that the male terminal can be accommodated,
The male assembly groove is formed in the male seating groove,
The male seating groove has a shape corresponding to the male terminal, and the male terminal is seated, and the male protrusion is caught in the male assembly groove to form a temporary assembly.
connector.
5. The method of claim 4,
The female terminal includes an arm protrusion having a shape bent in a direction from the female terminal toward the arm temporary assembly structure,
The arm temporary assembly structure includes an arm assembly groove capable of forming a temporary assembly by engaging the arm protrusion
connector.
8. The method of claim 7,
In the female insertion part, a plurality of female terminal holes capable of accommodating the female terminal are formed at equal intervals along a circumference,
The arm receiving part includes a plurality of arm seating grooves formed at equal intervals along an outer circumferential surface at a position connected to the female terminal hole so that the female terminal can be accommodated,
The arm assembly groove is formed in the arm seating groove,
The arm seating groove has a shape corresponding to the female terminal, and the female terminal is seated and the arm protrusion is caught in the arm assembly groove to form a temporary assembly.
connector
According to claim 1,
The housing further includes a cable hole for connecting a cable from the inside,
The signal transmitted by the cable is different from the signal transmitted by the male terminal and the female terminal.
connector.
10. The method of claim 9,
The housing further comprises a mounting portion for mounting on the rear view device,
The housing is fixed to the rear-view device by hooking the mounting portion to at least a part of the rear-view device.
connector.
10. The method of claim 9,
The housing includes a base housing and a sub-housing,
The base housing includes a male terminal hole into which the plurality of male terminals are inserted and a first cable hole into which a cable is inserted.
The sub-housing includes a female terminal hole into which the plurality of female terminals are inserted and a second cable hole into which the cables are inserted,
When the base housing is inserted into the sub-housing, the first cable hole and the second cable hole communicate to form a cable hole, and the male terminal hole and the female terminal hole communicate to form a terminal hole.
connector.
12. The method of claim 11,
a male temporary assembly structure that accommodates the plurality of male terminals and includes a male insertion unit and a male receiving unit; and
Accommodating the plurality of arm terminals, and further comprising an arm temporary assembly structure including an arm insertion part and an arm receiving part,
When the male temporary assembly structure and the female temporary assembly structure form the main assembly with the housing, the male terminal electrically contacts the female terminal.
connector.
13. The method of claim 12,
Further comprising a male terminal position fixing member coupled to the male receiving portion to fix the position of the male terminal,
The male terminal position fixing member includes a first hook formed at one end and a second hook formed at the other end,
When the first hook and the second hook are fastened, the male terminal position fixing member is coupled to the male receiving part.
connector.
14. The method of claim 13,
The male terminal position fixing member further includes a male temporary assembly part and a first main assembly part,
The provisional assembly structure includes a temporary assembly counterpart and a second main assembly portion connected to the first main assembly portion to form a male main assembly portion as a whole,
The coupling position of the male terminal position fixing member and the male temporary assembly structure is defined by the alignment of the male temporary assembly part and the male temporary assembly corresponding part, and the male main assembly counterpart formed in the housing and the male main assembly part are aligned by the alignment. The temporary assembly structure and the main assembly position of the housing are defined
connector.
14. The method of claim 13,
The base housing comprises at least one male fixing member,
The male terminal positioning member includes at least one male housing fastening part,
The male fixing member is fastened with the male housing coupling part to fix the male terminal position fixing member.
connector.
13. The method of claim 12,
Further comprising a female terminal position fixing member coupled to the arm receiving portion to fix the position of the female terminal,
The female terminal position fixing member includes a third hook formed at one end and a fourth hook formed at the other end,
When the third hook and the fourth hook are fastened, the female terminal position fixing member is coupled to the arm receiving part.
connector.
17. The method of claim 16,
The female terminal position fixing member further includes an arm temporary assembly part and a third main assembly part,
The arm provisional assembly structure includes a corresponding arm provisional assembly part and a fourth main assembly part connected to the third main assembly part to form the arm main assembly part as a whole,
The engagement position of the arm terminal position fixing member and the arm provisional assembly structure is defined by the alignment of the arm provisional assembly part and the arm provisional assembly counterpart part, and the arm provisional assembly by the alignment of the arm main assembly counterpart and the arm main assembly part formed in the housing The structure and the main assembly position of the housing are defined.
connector.
17. The method of claim 16,
The sub-housing includes at least one arm fixing member,
The female terminal positioning member includes at least one female housing fastening part,
The arm fixing member is fastened with the arm housing fastening part to fix the female terminal position fixing member.
connector.
14. The method of claim 13
The body portion of the male terminal includes a first protruding region and a second protruding region formed to be spaced apart from the first protruding region by a predetermined distance,
The male terminal position fixing member is coupled between the spaced apart of the first protruding area and the second protruding area,
Preventing over-insertion of the male terminal by the first protruding area caught on the male terminal position fixing member
connector.
According to claim 1,
The female terminal includes an inclined portion formed to be inclined at the edge of the distal end,
When the terminal part is inserted into the female terminal due to the inclined part, it is possible to prevent bending of the terminal part.
connector.
17. The method of claim 16,
The female terminal includes a third protrusion region and a fourth protrusion region formed to be spaced apart from the third protrusion region by a predetermined distance,
The female terminal position fixing member is coupled between the third protruding area and the fourth protruding area spaced apart,
To prevent over-insertion of the female terminal by the third protruding area being caught by the female terminal position fixing member
connector.
10. The method of claim 9,
The base housing includes at least one alignment part,
The sub-housing includes at least one alignment counterpart,
The alignment part and the alignment counterpart have a shape corresponding to each other, and when the sub-housing is inserted into the base housing, the alignment part and the alignment-corresponding part are aligned to prevent erroneous assembly.
connector.

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