KR20230004008A - Slide lever type connector - Google Patents

Abstract

The present invention is a slide lever type connector. The housing (12) can form the appearance of the connector (10) of the present invention. A terminal installation portion (30) may be provided inside the housing (12). A gasket which is in close contact with the panel (70) and acts as a waterproofing agent is installed at the entrance formed in the front of the housing (12), and a seal (47) is installed on the lever body (42) of the slide lever (40) which penetrates the lever passage portion (18) formed in the housing (12) to prevent moisture from entering the housing (12). The installation state of the seal (47) can be visually confirmed by the operator. Accordingly, the present invention can reliably prevent waterproofing failure.

Description

Slide lever type connector {Slide lever type connector}

The present invention relates to a slide lever type connector.

A connector is made by installing one or more terminals of conductive material in a housing of insulating material. The connector may form one assembly by combining with the counterpart connector, and electrical connection is performed. In order to perform electrical connection between connectors, since the terminals must be coupled to each other, a coupling force for coupling the terminals is required, and since the coupling force increases as the number of terminals increases, a lever is sometimes employed.

There are two types of levers used in connectors, a rotary type and a slide type. A slide type lever is used for connectors used in narrow spaces. As such, the slide-type lever can be used, for example, in a connector for circuit connection between a vehicle body and a door.

In a connector assembly that connects a vehicle body and a door, a connector on one side is installed on a panel, and a mating connector is coupled to the connector installed on the panel so that circuit connection can be made.

However, since the thickness of the panel varies depending on the vehicle, it is difficult for a worker to manually mount the connector to the panel when a gasket for sealing between the panel and the connector is positioned on the connector mounted on the panel.

And, as described above, in the connector assembly for circuit connection between the body of the car and the door, a gasket is placed between the panel and one side connector for waterproofing, and among the connectors coupled to each other to prevent leakage through the connector itself, on the outside side based on the panel A seal is placed on the connector to make it waterproof. In this way, moisture generated by precipitation on the outside of the panel cannot enter the inside of the connector or the inside of the panel.

However, when a seal is placed between the connectors in this way, the seal must be located inside the connector on one side, but there is a problem in that the operator cannot check whether the seal is properly crimped by the connector on the other side.

In addition, since the seal located between the connectors and performing waterproofing is compressed at the same time as the connector is coupled, the operator has to press the seal in addition to the coupling force between the housing and the coupling force between the terminals, even though the slide lever is used. There is a problem that the force for coupling the connector increases.

Japanese Publication No. 2000-106245 Japan Heisong 11-026069

An object of the present invention is to enable a panel to easily come into close contact with a gasket regardless of the thickness of the panel in a slide lever type connector.

An object of the present invention is to enable an operator to visually check whether a seal for waterproofing in a slide lever type connector is accurately pressed.

It is an object of the present invention to ensure that the crimping force to crimp the seal is required alone at the end of connector mating.

According to a feature of the present invention for achieving the above object, the present invention provides a housing having a terminal installation portion in the inner space through which a terminal seating space is formed through the inside, and a panel installed at the entrance edge of the inner space A gasket that is in close contact with the housing for waterproofing, and a lever body that moves in and out of the inner space through a lever passage formed in the housing, and an interlocking channel formed in the lever body guides the interlocking boss of the mating connector mounted on the panel. It may include a slide lever and a seal installed around the lever body of the slide lever to adhere to the inner surface of the lever passing portion to perform a waterproof function.

The slide lever may include a pair of lever bodies, a connecting portion may be connected between the pair of lever bodies, and at least two interlocking channels may be provided in the lever body.

The interlocking channel may have a channel entrance through which the interlocking boss enters, an inclined portion connected to the channel entrance and guiding the interlocking boss to create movement for coupling and separation with the mating connector, and the inclined portion and A linear portion may be provided that is connected and creates a movement in which the seal enters and exits the inside of the lever passing portion so that the seal adheres and releases.

The coupling lever may be formed in a cantilever shape to extend in the longitudinal direction of the lever body, and coupling jaws having inclined surfaces formed on both sides in the longitudinal direction may be provided at a free end of the coupling lever.

The coupling jaw of the coupling lever may be selectively engaged with a first coupling portion or a boss passage portion formed on a lever guide rail formed inside the housing and guiding movement of the slide lever.

According to another feature of the present invention, the present invention provides a housing having an inner space open to the front and having a lever guide rail on the inner surface of the inner space, assembled and installed inside the housing, and a terminal penetrating the inside. A terminal installation portion in which a terminal seating space is formed, and a lever body that moves along the lever guide rail into and out of the inner space through a lever passage formed in the housing, and the mating connector is interlocked with an interlocking channel formed in the lever body. It may include a slide lever for guiding the boss, and a seal installed around the lever body of the slide lever and adhering to the inner surface of the lever passing portion to perform a waterproof function.

A gasket installed at an edge of the entrance of the inner space and in close contact with the panel on which the mating connector is mounted may further include a gasket to perform a waterproof function.

The gasket may be made in the shape of a closed curve and provided with a plurality of close contact ribs side by side on the outer surface.

A support rib may be further provided on an outer surface of the housing to support a rear end of the gasket.

A first hooking end hooked to the first hooking end formed in the inner space of the housing may be formed on one side of the terminal installation part, and a second hooking end hooked on the third hooking end of the housing may be formed on the other side of the terminal installation part. can be formed

First coupling protrusions may be formed on both sides of the rear end of the terminal installation portion so that the housing may be inserted and hung between the first catching end of the housing and the inner surface of the housing, and second coupling projections may be formed on both sides of the rear end of the terminal installation portion. It can be inserted and hung between the second catching end of the housing and the inner surface of the housing.

The slide lever may include a pair of lever bodies, a connecting portion may be connected between the pair of lever bodies, and the linkage channel may be provided in the lever body.

The interlocking channel has a channel entrance through which the interlocking boss enters, an inclined portion that can be connected to the channel inlet and guides the interlocking boss to create a movement for coupling with a mating connector, and is connected to the inclined portion. A linear portion may be provided to create a movement that allows the seal to enter the inside of the lever pass-through portion and come into close contact with it.

A coupling lever may be formed in a cantilever shape to extend in the longitudinal direction of the lever body, and coupling jaws having inclined surfaces formed on both sides in the longitudinal direction may be provided at a free end of the coupling lever, so that the slide lever is installed in the housing. It can be regulated to move arbitrarily.

The slide lever type connector according to the present invention may have at least one or more of the following effects.

First, a gasket is installed at the front end of the housing of the slide lever type connector of the present invention to adhere to the surface of the panel and perform a waterproof function. Since the coupling is performed with the mating connector by using the gasket, the force for compressing the gasket can be applied through the slide lever, so the operator's force can be relatively reduced, and since only the gasket needs to be adhered to the panel regardless of the thickness of the panel, Adhesion to the panel may be facilitated.

In addition, in the slide lever type connector of the present invention, a gasket is used to prevent water leakage between the panel and the seal is pressed between the slide lever and the housing to prevent moisture from entering the connector housing, and the wire and the connector are pressed. Grommets may be used between the housings. Therefore, the operator can visually check all the configurations for preventing water leakage in the connector used for coupling with the mating connector mounted on the panel, and thus there is an effect of reliably preventing poor waterproofing.

And, in the present invention, a straight line section for seal compression is further placed inside the interlocking channel of the slide lever so that the coupling operation between the terminals and the operation for seal compression occur sequentially. Therefore, the maximum value of the coupling force generated in the process of coupling with the mating connector using the slide lever can be made relatively small.

1 is a perspective view showing a preferred embodiment of a slide lever type connector according to the present invention.
Figure 2 is an exploded perspective view showing the configuration of an embodiment of the present invention.
Figure 3 is a cross-sectional perspective view showing the internal configuration around the lever body portion in the embodiment of the present invention.
Figure 4 is a cross-sectional perspective view showing the internal configuration around the terminal installation portion in an embodiment of the present invention.
5 is a cross-sectional perspective view showing the inside of a housing constituting an embodiment of the present invention.
6 is a perspective view showing the configuration of a slide lever constituting an embodiment of the present invention.
7 is an operating state diagram showing an initial state in which mating connectors are coupled in an embodiment of the present invention;
8 is an operating state diagram showing a coupled state of a mating connector in an embodiment of the present invention;

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function hinders understanding of the embodiment of the present invention, the detailed description will be omitted.

Also, terms such as first, second, A, B, (a), and (b) may be used in describing components of an embodiment of the present invention. These terms are only used to distinguish the component from other components, and the nature, order, or order of the corresponding component is not limited by the term. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element may be directly connected or connected to the other element, but there may be another element between the elements. It should be understood that may be "connected", "coupled" or "connected".

According to what is shown in the drawings, the housing 12 may form an exterior and skeleton of the slide lever type connector 10 according to the embodiment of the present invention. The housing 12 may be made of an insulating material. The housing 12 may be made of insulating synthetic resin.

An inner space 14 may be formed inside the housing 12 . The inner space 14 may be opened to one side of the housing 12 . The inner space 14 may be opened to one side to insert the mating connector 60 and open to the other side to extend the wire to the outside of the housing 12 . In the illustrated embodiment, the opening direction of the inner space 14 for insertion of the mating connector 60 and the opening direction of the inner space 14 for wire extension are orthogonal to each other.

There may be lever guide rails 16 on both sides of the inner surface of the inner space 14 . The lever guide rail 16 may guide the movement of the lever body 42 of the slide lever 40 to be described below. The lever guide rail 16 may guide the movement of the slide lever 40 in cooperation with a step extending parallel to the lever guide rail 16 on the inner surface of the inner space 14 of the housing 12 . Alternatively, a pair of lever guide rails 16 may be formed on both sides of the inner space 14 to guide the movement of the slide lever 40 .

The lever guide rail 16 may have a boss passing portion 16'. The boss passing portion 16' may be formed by removing a part of the lever guide rail 16 so that the lever guide rail 16 and the interlocking boss 64 of the mating connector 60 do not interfere.

A first coupling part 17 may be provided on one side of the lever guide rail 16 . The first coupling part 17 is obtained by removing a part of the lever guide rail 16 like the boss passage part 16'. A coupling lever 48 of a slide lever 40 to be described below may be selectively coupled to the first coupling part 17 . The first coupling part 17 may allow the slide lever 40 to be described below to maintain a protruding state from the housing 12 . This can be seen in FIG. 7 .

A lever passage part 18 may be formed on one side of the housing 12 . The lever passage part 18 may be formed to protrude from the outer surface of the housing 12 . The lever pass-through portion 18 may be positioned opposite to the grommet coupling portion 24 to be described below. A lever through hole 18' may be formed through the lever through portion 18. The lever through hole 18' may communicate the inner space 14 and the outside. The lever body 42 of the slide lever 40 to be described below can be positioned and moved through the lever through hole 18'.

A gasket holder 20 may be formed on the front surface of the housing 12, that is, a portion facing the mating connector 60. The gasket holder 20 may be formed along an inlet edge where the inner space 14 of the housing 12 is opened. The gasket holder 20 may be positioned around the entrance of the inner space 14 in a band shape having a predetermined thickness and width. Support ribs 22 may be formed on both outer surfaces of the housing 12 at a predetermined distance from the gasket holder 20 . The support rib 22 may play a role of supporting the gasket 36 when the gasket 36, which will be described below, adheres to the panel.

A grommet coupling portion 24 may be provided in the housing 12 corresponding to the opposite side of the lever passing portion 18 . The grommet coupling portion 24 may have a substantially cylindrical shape. A wire may be extended to the outside of the housing 12 by passing through the grommet coupling portion 24 . A waterproof grommet (not shown) may be coupled to the grommet coupling portion 24 . The grommet surrounds the wire that has passed through the grommet coupling portion 24 to prevent moisture from entering the housing 12 while riding the wire.

A hook 26 may be formed at the grommet coupling part 24 . The hanging jaw 26 may protrude in a ring shape surrounding the outer surface of the grommet coupling part 24 . One side of the grommet is hung on the hanging jaw 26 so that the grommet does not come off from the grommet coupling portion 24 at will. An inclined surface 26' may be formed on the hanging jaw 26. The inclined surface 26' allows the grommet to easily ride over the hanging shoulder 26 and hang on the grommet coupling part 24.

As can be seen in FIG. 5 on the inner surface of the inner space 14 of the housing 12, a first catching end 28, a second catching end 28', and a third catching end 28" are formed. These hooking ends (28.28'. 28") are for fixing the terminal installation part 30 to be described below to the housing 12. The first engaging protrusion 35 of the terminal installation part 30 can be hung on the first engaging end 28 . The first locking end 28 may be symmetrically formed on both sides of the inner surface of the inner space 14 of the housing 12 . A first coupling protrusion 35, which will be described below, can be inserted into the gap between the first hooking end 28 and the inner surface of the inner space 14 to be hung.

The second catching end 28' has a structure similar to that of the first catching end 28 and can fix the middle portion of the terminal installation part 30. The second hanging end 28' may also be formed symmetrically on both sides of the inner surface of the inner space 14.

As can be seen in FIGS. 4 and 5, the third hooking end 28" is located at the lower part of the housing 12, and may be formed adjacent to the grommet coupling part 24. The third hanging end 28 "is simply a protrusion, and the second hanging end 34' of the terminal installation part 30 to be described below can be hung.

The terminal installation part 30 may be located in the inner space 14 . The terminal installation part 30 may be made of an insulating material. The terminal installation part 30 may be made of insulating synthetic resin. The terminal installation part 30 may be made of a material different from that of the housing 12 . A terminal seating space 32 may be formed by penetrating the terminal installation part 30 back and forth. A terminal (not shown) made of a conductive material may be positioned in the terminal seating space 32 . There may be a wire guide 33 protruding from one side of the terminal installation part 30 to guide the extension of the wire. A part of the wire guide 33 may be located inside the grommet coupling part 24 .

A first hanging end 34 may be formed in the terminal installation part 30 . The first hanging end 34 may be formed on both sides of one end of the terminal installation part 30 . The first hanging end 34 may be hung at an end of the first hanging end 28 . A second hanging end 34' may protrude at a position opposite to the first hanging end 34. In this embodiment, the second hanging end 34' may be formed on the wire guide 33. As shown in FIG. 4, the first hooking end 34 is hooked on the first hanging end 38 to regulate the movement of the terminal installation part 30 toward the grommet coupling part 24 of the housing 12. can do. The second hanging end 34 is hooked to the third hanging end 28 "of the housing 12 to regulate further entry of the terminal installation part 30 into the inner space 14. Therefore, , The first hanging end 34 and the second hanging end 34 'can cooperate with each other to regulate the movement of the terminal installation part 30, in particular, the movement in the vertical direction with reference to FIG. 3.

A first coupling protrusion 35 may protrude from the terminal installation portion 30 . The first coupling protrusion 35 may be formed on both sides of the terminal installation part 30 . The first coupling protrusion 35 may be formed on both sides of the upper rear portion of the terminal installation part 30 . The first coupling protrusion 35 may be engaged by being hooked to the first engaging end 28 of the housing 12 . More precisely, the first coupling protrusion 35 can be inserted and hung between the first engaging end 28 and one inner surface of the inner space 14 of the housing 12 .

A second coupling protrusion 35' may protrude from the terminal installation portion 30. The second coupling protrusion 35' may be formed on both sides of the rear side of the terminal installation part 30. The second coupling protrusion 35' may be formed below the first coupling end 35. The second coupling protrusion 35' may be engaged by being hooked to the second hooking end 28' of the housing 12. More precisely, the second coupling protrusion 35' may be inserted and fastened between the second engaging end 28' and one side of the inner surface of the inner space 14 of the housing 12.

A gasket 36 may be installed in the gasket holder 20 of the housing 12 . The gasket 36 may be made of an elastic material. The gasket 36 is in close contact with the surface of the panel 70 on which the mating connector 60 is mounted, so that it can act as a waterproof function. The gasket 36 may have a closed curve shape and a through portion 37 may be formed through the center. The front portion of the mating connector 60 may enter the inner space 14 of the housing 12 through the through portion 37 .

A plurality of close contact ribs 38 surrounding the outer surface of the gasket 36 may be formed side by side. The close contact ribs 38 may be in close contact with each other or pressed against the panel 70 . A hook piece 39 may be formed by protruding from one of the close ribs 38 (see FIGS. 3 and 4). The hook piece 39 is a part hooked on the gasket holder 20. The hook piece 39 may be formed to form a closed curve along the edge of the close contact rib 38 .

The slide lever 40 can engage and separate the connector 10 and the mating connector 60 while performing a linear motion. The slide lever 40 can couple and separate the connectors 10 and 60 while moving in a direction orthogonal to the direction in which the connector 10 and the mating connector 60 are coupled.

In the slide lever 40, two lever bodies 42 may be connected by a connecting portion 43. Two of the lever body 42 have a rectangular plate shape and may extend side by side with each other. A connecting portion 43 may be connected between one end of the lever body 42 . The slide lever 40 may be made in a 'c' shape as a whole.

There may be a lever handle 45 extending from the connecting portion 43 . The lever handle 45 can be used when an operator applies force to the slide lever 40 . Of course, when the slide lever 40 enters the inner space 14 of the housing 12, force may be applied to the connecting portion 43 itself. However, when the slide lever 40 protrudes from the housing 12, it is easy to move it by applying force to the lever handle 45.

A seal 47 may be installed at a portion where the lever body 42 and the connecting portion 43 are connected. The seal 47 may be installed around the outer surface of the lever body 42 . The seal 47 may be made of an elastic material. The seal 47 may enter the inside of the lever through-hole 18 and come into close contact with the inner surface of the lever through-hole 18'.

One side of the lever body 42 may have a coupling lever 48. The coupling lever 48 may be formed integrally with the lever body 42 in a cantilever shape. The coupling lever 48 may extend in the same direction as the extension direction of the lever body 42 . The coupling lever 48 may be fixed to a predetermined position relative to the slide lever 40 of the housing 12 . Therefore, even if an external force of a certain level or less acts on the slide lever 40, the slide lever 40 may not move arbitrarily. In other words, the slide lever 40 can be moved only when a certain amount of force is applied.

There may be an engaging jaw 49 near the free end of the engaging lever 48 . The engaging jaw 49 may protrude perpendicular to the extension direction of the engaging lever 48 near the free end of the engaging lever 48 . The coupling jaw 49 can be selectively hung on one of the first coupling portion 17 and the boss passing portion 16'. The coupling jaw 49 has a rounded shape as a whole, so even if it is walked on the first coupling portion 17 or the boss passage portion 16', if a certain amount of force is applied, the first coupling portion 17 or the boss passage It is separated from the part 16' so that the slide lever 40 can move.

The lever body 42 may have an interlocking channel 50. The interworking channel 50 may have a plurality. In the illustrated embodiment, two interlocking channels 50 are formed in pairs on one lever body 42. The interlocking boss 64 of the mating connector 60 may be positioned and guided in the interlocking channel 50 . As the interlocking boss 64 moves along the interlocking channel 50, the connectors 10 and 60 can be coupled and separated. A channel inlet 52 serving as an entrance for the interlocking boss 64 of the mating connector 60 into the interlocking channel 50 is located at one edge of the lever body 42 . In the channel inlet 52, the interlocking channel 50 does not pass through the lever body 42. That is, the interlocking channel 50 at the channel inlet 52 may be shaped like a kind of groove.

The rest of the interlocking channel 50 except for the channel inlet 52 may be composed of an inclined portion 54 and a straight portion 56. The channel inlet 52 extends by a predetermined length in a direction orthogonal to the direction in which the lever body 42 extends. The channel inlet 52 may communicate with the inclined portion 54 . The extension direction of the inclined portion 54 may have a predetermined slope with respect to the extension direction of the lever body 42 . The straight portion 56 may extend parallel to the extending direction of the lever body 42 . When the interlocking boss 64 of the mating connector 60 moves in the inclined portion 54, the distance between the connectors 10 and 60 may increase or decrease. In the process of moving the interlocking boss 64 to the inside of the linear portion 56, the seal 47 may be compressed. Extension directions of the straight portion 56 and the channel inlet 52 may be orthogonal to each other.

Meanwhile, the configuration of the mating connector 60 coupled to the slide lever type connector 10 of the present invention will be briefly described. As shown in FIG. 7 , the mating housing 62 may form the external appearance and skeleton of the mating connector 60 . The mating housing 62 may be made of an insulating material. The mating housing 62 may be made of the same material as the housing 12 .

Interlocking bosses 64 may be provided on both sides of the mating housing 62 . The number of interlocking bosses 64 may correspond to the number of interlocking channels 50 of the slide lever 40 . In this embodiment, a total of four may be formed, two each on one side of the mating housing 62. The interlocking boss 64 may be formed adjacent to a front portion of the mating housing 62 .

Hereinafter, the use of the slide lever type connector according to the present invention having the above configuration will be described in detail.

The terminal installation part 30 is fixed to the inside of the housing 12, and a terminal (not shown) is inserted into the terminal seating space 32 in advance. Of course, a wire is crimped at the rear end of the terminal, and the wire may pass through the grommet coupling part 24 and extend to the outside of the housing 12 .

The terminal installation part 30 is fixedly installed to the housing 12 because the first hanging end 34 is hung on the upper end of the first hanging end 28 of the housing 12 and the second hanging end ( 34') is hooked on the third hooking end 28", so that the vertical movement of the terminal installation part 30 can be restricted based on the drawing. And the first coupling protrusion 35 is It is inserted between the first hooking end 28 and the inner surface of the housing 12 and hung, and the second coupling protrusion 35' is inserted between the second hooking end 28' and the inner surface of the housing 12 and hung. Based on the drawings, movement of the terminal installation unit 30 in the left and right directions and in the front and rear directions may be regulated.

In this way, the slide lever type connector 10 of the present invention can be coupled with the mating connector 60 in an assembled state. First, the mating connector 60 is mounted in the penetrating portion of the panel 70 . At this time, the mating connector 60 is between the flange 66 formed around the outer surface of the mating housing 62 and the mounting shoulder 68 formed on the mating housing 62 at a predetermined distance from the flange 66. It is mounted so that the edge of the through portion of the panel 70 is located in the panel 70.

With the mating connector 60 mounted on the panel 70, the connector 10 is moved so that the front end of the mating connector 60 is inserted into the inner space 14 of the connector 10 of the present invention. At this time, the gasket 36 at the front end of the connector 10 may face the surface of the panel 70 .

The interlocking boss 64 of the mating connector 60 entered into the inner space 14 of the connector 10 passes through the auxiliary passage 16' of the lever guide rail 16 to move the slide lever 40. It is located at the channel inlet 52 of the interlocking channel 50. At this time, the coupling lever 48 of the slide lever 40 is in a state in which the coupling jaw 49 is hooked to the first coupling portion 17, so as long as a certain amount of force is not applied to the slide lever 40, it is arbitrarily The slide lever 40 cannot be moved. However, as can be seen in FIG. 7, the inclined surface of the engaging jaw 49 is guided to the inner surface of the first engaging portion 17 when a certain amount of force is applied to the slide lever 40, and the engaging lever 48 ) can be elastically deformed.

Therefore, when the operator pushes the slide lever 40 in the direction of arrow A in FIG. 7, the coupling lever 48 is elastically deformed, and the coupling jaw 49 is removed from the first coupling portion 17, and the slide The lever 40 can be moved. As the slide lever 40 moves in the direction of arrow A in FIG. 7 , the interlocking boss 64 may be guided along the inclined portion 54 of the interlocking channel 50 .

When the interlocking boss 64 moves along the inclined portion 54 of the interlocking channel 50, the connector 10 moves toward the mating connector 60. Thus, the mating connector 60 and the connector 10 of the present invention can be coupled to each other.

When the interlocking boss 64 is positioned at the inner end of the inclined portion 54 of the interlocking channel 50 by the movement of the slide lever 40, the mating connector 60 and the terminal of the connector 10 A bond between them can be completed.

Subsequently, when the operator applies force to the slide lever 40 and moves it in the direction of arrow A in FIG. 7 , the interlocking boss 64 enters the linear portion 56 of the interlocking channel 50 . The movement of the interlocking boss 64 along the straight portion 56 is substantially the same as the movement of the slide lever 40 while the interlocking boss 64 remains as it is. When the slide lever 40 moves in this way, the seal 47 may enter the lever through-hole 18' and come into close contact with the inner surface of the lever through-hole 18'. In this way, the seal 47 can block the permeation of moisture through the slide lever 40 and the lever passing portion 18 passing therethrough.

Also, the operator can confirm that the seal 47 of the slide lever 40 is not exposed to the outside. In other words, when the seal 47 completely enters the inside of the lever through-hole 18 and becomes invisible, it can be confirmed that the seal 47 is properly installed in the lever through-hole 18'. If the seal 47 is exposed to the outside of the lever through hole 18' without entering into the inside of the lever through hole 18', it can be confirmed that the seal 47 is not properly installed.

On the other hand, when the slide lever 40 enters the inside of the housing 12 and the interlocking boss 64 is positioned at the inner end of the straight portion 56 of the interlocking channel 50, the coupling lever ( As shown in FIG. 8, the coupling jaw 49 of 48) can be hooked to one of the boss passage portions 16'. The state of FIG. 8 is a state in which the connector 10 and the mating connector 60 are completely coupled.

In the state of FIG. 8, in order to release the coupling between the connector 10 and the mating connector 60, the slide lever 40 is moved in the opposite direction from above.

Since the engaging jaw 49 has an inclined surface toward both the free end and the base of the engaging lever 48, when a certain force or more is applied in any direction in the longitudinal direction of the engaging lever 48, the engaging jaw 49 While one side of the lever guide rail 16 is in contact with the inclined surface of ), the coupling lever 48 may be elastically deformed.

When the engaging jaw 59 comes out of the boss passing portion 16', the slide lever 40 moves and the interlocking boss 64 can be guided along the interlocking channel 50, As the interlocking boss 54 is guided along the interlocking channel 50, the connector 10 and the mating connector 60 may move in a direction away from each other. Here, since the mating connector 60 is installed on the panel 70, the connector 10 moves in a direction away from the panel 70.

In particular, when the interlocking boss 64 is guided along the inclined portion 54 of the interlocking channel 50, the connector 10 may move away from the panel 70. And when the interlocking boss 64 is located at the channel inlet 52 of the interlocking channel 50, when the operator pulls the connector 10 in a direction away from the panel 70, the connector 10 moves to the opposite connector It can be separated from (60).

In the above, even though all the components constituting the embodiment according to the present invention have been described as being combined or operated as one, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the components may be selectively combined with one or more to operate. In addition, terms such as "comprise", "comprise" or "having" described above mean that the corresponding component may be present unless otherwise stated, and thus exclude other components. It should be construed as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Commonly used terms, such as terms defined in a dictionary, should be interpreted as being consistent with the contextual meaning of the related art, and unless explicitly defined in the present invention, they are not interpreted in an ideal or excessively formal meaning.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

In the illustrated embodiment, the terminal installation portion 30 is separately made and combined with the housing 12, but this is not necessarily the case. The terminal installation part 30 may be made integrally with the housing 12.

For reference, the gasket 36 is not necessarily used, and the gasket 36 may be installed on the side of the mating connector 60 to function as a waterproof function.

10: connector 12: housing
14: inner space 16: lever guide rail
16 ': boss passage part 17: first coupling part
18: lever through-hole 18': lever through-hole
20: gasket hanger 22: support boss
24: grommet coupling part 26: grommet hanging jaw
26 ': slope 28: first catching stage
28 ': 2nd hooking stage 28": 3rd hooking stage
30: terminal installation part 32: terminal seating space
33: wire guide 34: first hanging stage
34 ': second hanging stage 35: first coupling protrusion
35 ': second coupling protrusion 36: gasket
37: penetration part 38: close rib
40: slide lever 42: lever body
43: connection part 45: lever handle
47: seal 48: engagement lever
49: combined jaw 50: interlocking channel
52: channel inlet 54: inclined portion
56: straight part 60: mating connector
62: relative housing 64: interlocking boss
66: flange 68: mounting jaw
70: panel

Claims (14)

A housing having a terminal installation portion penetrating the inside to form a terminal seating space in the inner space;
A gasket installed at the edge of the entrance of the inner space and in close contact with the panel to perform a waterproof function;
A slide lever having a lever body that moves in and out of the inner space through a lever passage formed in the housing and allowing an interlocking boss of a mating connector mounted on a panel to be guided to an interlocking channel formed in the lever body;
A slide lever-type connector including a seal installed around the lever body of the slide lever and in close contact with the inner surface of the lever passage to perform a waterproof function.
According to claim 1, wherein the slide lever is a slide lever type in which a pair of lever bodies are provided, a connecting portion connects between the pair of lever bodies, and at least two or more interlocking channels are provided in the lever body. connector.
The interlocking channel according to claim 2, wherein the interlocking channel has a channel entrance through which the interlocking boss enters, and an inclined portion connected to the channel entrance and guiding the interlocking boss to create movement for coupling and separation with a mating connector; A slide lever-type connector having a straight part connected to the inclined part and making a movement that allows the seal to enter and exit the inside of the lever passage part so that the seal is brought into close contact and released.
[Claim 4] The slide lever type connector according to claim 3, wherein the coupling lever is formed in a cantilever shape to extend in the longitudinal direction of the lever body, and the free end of the coupling lever is provided with coupling protrusions having inclined surfaces formed on both sides in the longitudinal direction.
5. The slide lever type connector according to claim 4, wherein the engagement lever of the coupling lever is formed inside the housing and is selectively engaged with a first coupling portion or a boss passing portion formed on a lever guide rail for guiding movement of the slide lever.
A housing having an inner space open to the front and having a lever guide rail on an inner surface of the inner space;
A terminal installation portion assembled and installed inside the housing and having a terminal seating space formed therein through which the terminal is installed;
A slide lever having a lever body that moves along the lever guide rail into and out of the inner space through a lever passage formed in the housing and allowing the interlocking boss of the mating connector to be guided to an interlocking channel formed in the lever body;
A slide lever-type connector including a seal installed around the lever body of the slide lever and in close contact with the inner surface of the lever passage to perform a waterproof function.
7. The slide lever type connector according to claim 6, further comprising a gasket installed at an entrance edge of the inner space to act as a waterproof function by adhering to the panel on which the mating connector is mounted.
8. The slide lever type connector according to claim 7, wherein the gasket is made in the shape of a closed curve and a plurality of contact ribs are provided side by side on an outer surface thereof.
[Claim 9] The slide lever type connector of claim 8, further comprising support ribs on an outer surface of the housing to support the rear end of the gasket.
[Claim 7] The method of claim 6, wherein a first hooking end hooked to the first hooking end formed in the inner space of the housing is formed on one side of the terminal installation part, and a third hooking end hooked on the third hooking end of the housing is formed on the other side of the terminal installation part. Slide lever type connector with 2 hanging ends.
11. The method of claim 10, wherein first coupling protrusions are formed on both sides of the rear end of the terminal installation portion to be inserted between the first catching end of the housing and the inner surface of the housing, and second coupling projections are formed on both sides of the rear end of the terminal installation portion. A slide lever type connector that is inserted and hung between the second hanging end of the housing and the inner surface of the housing.
The slide lever according to any one of claims 6 to 11, wherein the slide lever has a pair of lever bodies, a connecting portion connects between the pair of lever bodies, and the lever body is provided with the interlocking channel. Lever type connector.
13. The method of claim 12, wherein the interlocking channel has a channel entrance through which the interlocking boss enters, an inclined portion connected to the channel entrance and guiding the interlocking boss to create a movement for coupling with the mating connector, and the inclination A slide lever type connector having a straight part connected to the part and making a movement that allows the seal to enter the inside of the lever passage part and come into close contact with it.
14. The method of claim 13, wherein the coupling lever is formed in a cantilever shape to extend in the longitudinal direction of the lever body, and the free end of the coupling lever is provided with coupling jaws formed with inclined surfaces on both sides in the longitudinal direction, so that the slide lever operates on the housing. A slide lever type connector that is installed on and regulates arbitrary movement.

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